///////////////////////////////////////////////////////////////////////// // $Id: main.cc,v 1.252 2003-09-27 20:58:45 sshwarts Exp $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2002 MandrakeSoft S.A. // // MandrakeSoft S.A. // 43, rue d'Aboukir // 75002 Paris - France // http://www.linux-mandrake.com/ // http://www.mandrakesoft.com/ // // 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA #include "bochs.h" #include #include "state_file.h" #ifdef HAVE_LOCALE_H #include #endif #if BX_WITH_SDL // since SDL redefines main() to SDL_main(), we must include SDL.h so that the // C language prototype is found. Otherwise SDL_main() will get its name // mangled and not match what the SDL library is expecting. #include #if defined(macintosh) // Work around a bug in SDL 1.2.4 on MacOS X, which redefines getenv to // SDL_getenv, but then neglects to provide SDL_getenv. It happens // because we are defining -Dmacintosh. #undef getenv #endif #endif #if BX_WITH_CARBON #include #endif // BX_SHARE_PATH should be defined by the makefile. If not, give it // a value of NULL to avoid compile problems. #ifndef BX_SHARE_PATH #define BX_SHARE_PATH NULL #endif int bochsrc_include_count = 0; extern "C" { #include } #ifdef __MINGW32__ void alarm(int); #endif #if BX_GUI_SIGHANDLER bx_bool bx_gui_sighandler = 0; #endif #if BX_PROVIDE_DEVICE_MODELS==1 // some prototypes from iodev/ // I want to stay away from including iodev/iodev.h here Bit32u bx_unmapped_io_read_handler(Bit32u address, unsigned io_len); void bx_unmapped_io_write_handler(Bit32u address, Bit32u value, unsigned io_len); void bx_close_harddrive(void); #endif void bx_init_bx_dbg (void); static char *divider = "========================================================================"; static logfunctions thePluginLog; logfunctions *pluginlog = &thePluginLog; bx_startup_flags_t bx_startup_flags; bx_bool bx_user_quit; /* typedefs */ #define LOG_THIS genlog-> #if ( BX_PROVIDE_DEVICE_MODELS==1 ) bx_pc_system_c bx_pc_system; class state_file state_stuff("state_file.out", "options"); #endif bx_debug_t bx_dbg; bx_options_t bx_options; // initialized in bx_init_options() char *bochsrc_filename = NULL; static Bit32s parse_line_unformatted(char *context, char *line); static Bit32s parse_line_formatted(char *context, int num_params, char *params[]); static int parse_bochsrc(char *rcfile); static Bit64s bx_param_handler (bx_param_c *param, int set, Bit64s val) { bx_id id = param->get_id (); switch (id) { case BXP_VGA_UPDATE_INTERVAL: // if after init, notify the vga device to change its timer. if (set && SIM->get_init_done ()) DEV_vga_set_update_interval (val); break; case BXP_MOUSE_ENABLED: // if after init, notify the GUI if (set && SIM->get_init_done ()) { bx_gui->mouse_enabled_changed (val!=0); DEV_mouse_enabled_changed (val!=0); } break; case BXP_NE2K_PRESENT: if (set) { int enable = (val != 0); SIM->get_param (BXP_NE2K_IOADDR)->set_enabled (enable); SIM->get_param (BXP_NE2K_IRQ)->set_enabled (enable); SIM->get_param (BXP_NE2K_MACADDR)->set_enabled (enable); SIM->get_param (BXP_NE2K_ETHMOD)->set_enabled (enable); SIM->get_param (BXP_NE2K_ETHDEV)->set_enabled (enable); SIM->get_param (BXP_NE2K_SCRIPT)->set_enabled (enable); } break; case BXP_LOAD32BITOS_WHICH: if (set) { int enable = (val != Load32bitOSNone); SIM->get_param (BXP_LOAD32BITOS_PATH)->set_enabled (enable); SIM->get_param (BXP_LOAD32BITOS_IOLOG)->set_enabled (enable); SIM->get_param (BXP_LOAD32BITOS_INITRD)->set_enabled (enable); } break; case BXP_ATA0_MASTER_STATUS: case BXP_ATA0_SLAVE_STATUS: case BXP_ATA1_MASTER_STATUS: case BXP_ATA1_SLAVE_STATUS: case BXP_ATA2_MASTER_STATUS: case BXP_ATA2_SLAVE_STATUS: case BXP_ATA3_MASTER_STATUS: case BXP_ATA3_SLAVE_STATUS: if ((set) && (SIM->get_init_done ())) { Bit8u device = id - BXP_ATA0_MASTER_STATUS; Bit32u handle = DEV_hd_get_device_handle (device/2, device%2); DEV_hd_set_cd_media_status(handle, val == BX_INSERTED); bx_gui->update_drive_status_buttons (); } break; case BXP_FLOPPYA_TYPE: if ((set) && (!SIM->get_init_done ())) { bx_options.floppya.Odevtype->set (val); } break; case BXP_FLOPPYA_STATUS: if ((set) && (SIM->get_init_done ())) { DEV_floppy_set_media_status(0, val == BX_INSERTED); bx_gui->update_drive_status_buttons (); } break; case BXP_FLOPPYB_TYPE: if ((set) && (!SIM->get_init_done ())) { bx_options.floppyb.Odevtype->set (val); } break; case BXP_FLOPPYB_STATUS: if ((set) && (SIM->get_init_done ())) { DEV_floppy_set_media_status(1, val == BX_INSERTED); bx_gui->update_drive_status_buttons (); } break; case BXP_KBD_PASTE_DELAY: if ((set) && (SIM->get_init_done ())) { DEV_kbd_paste_delay_changed (); } break; case BXP_ATA0_MASTER_MODE: case BXP_ATA0_SLAVE_MODE: case BXP_ATA1_MASTER_MODE: case BXP_ATA1_SLAVE_MODE: case BXP_ATA2_MASTER_MODE: case BXP_ATA2_SLAVE_MODE: case BXP_ATA3_MASTER_MODE: case BXP_ATA3_SLAVE_MODE: if (set) { int device = id - BXP_ATA0_MASTER_MODE; switch (val) { case BX_ATA_MODE_UNDOABLE: case BX_ATA_MODE_VOLATILE: case BX_ATA_MODE_Z_UNDOABLE: case BX_ATA_MODE_Z_VOLATILE: SIM->get_param ((bx_id)(BXP_ATA0_MASTER_JOURNAL + device))->set_enabled (1); break; default: SIM->get_param ((bx_id)(BXP_ATA0_MASTER_JOURNAL + device))->set_enabled (0); } } break; case BXP_ATA0_MASTER_TYPE: case BXP_ATA0_SLAVE_TYPE: case BXP_ATA1_MASTER_TYPE: case BXP_ATA1_SLAVE_TYPE: case BXP_ATA2_MASTER_TYPE: case BXP_ATA2_SLAVE_TYPE: case BXP_ATA3_MASTER_TYPE: case BXP_ATA3_SLAVE_TYPE: if (set) { int device = id - BXP_ATA0_MASTER_TYPE; switch (val) { case BX_ATA_DEVICE_DISK: SIM->get_param_num ((bx_id)(BXP_ATA0_MASTER_PRESENT + device))->set (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_MODE + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_PATH + device))->set_enabled (1); //SIM->get_param ((bx_id)(BXP_ATA0_MASTER_JOURNAL + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_CYLINDERS + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_HEADS + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_SPT + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_STATUS + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_MODEL + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_BIOSDETECT + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_TRANSLATION + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_PATH + device))->set_runtime_param (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_STATUS + device))->set_runtime_param (0); break; case BX_ATA_DEVICE_CDROM: SIM->get_param_num ((bx_id)(BXP_ATA0_MASTER_PRESENT + device))->set (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_MODE + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_PATH + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_JOURNAL + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_CYLINDERS + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_HEADS + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_SPT + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_STATUS + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_MODEL + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_BIOSDETECT + device))->set_enabled (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_TRANSLATION + device))->set_enabled (0); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_PATH + device))->set_runtime_param (1); SIM->get_param ((bx_id)(BXP_ATA0_MASTER_STATUS + device))->set_runtime_param (1); break; } } break; default: BX_PANIC (("bx_param_handler called with unknown id %d", id)); return -1; } return val; } char *bx_param_string_handler (bx_param_string_c *param, int set, char *val, int maxlen) { bx_id id = param->get_id (); int empty = 0; if ((strlen(val) < 1) || !strcmp ("none", val)) { empty = 1; val = "none"; } switch (id) { case BXP_FLOPPYA_PATH: if (set==1) { if (SIM->get_init_done ()) { if (empty) { DEV_floppy_set_media_status(0, 0); bx_gui->update_drive_status_buttons (); } else { if (!SIM->get_param_num(BXP_FLOPPYA_TYPE)->get_enabled()) { BX_ERROR(("Cannot add a floppy drive at runtime")); bx_options.floppya.Opath->set ("none"); } } if ((DEV_floppy_present()) && (SIM->get_param_num(BXP_FLOPPYA_STATUS)->get () == BX_INSERTED)) { // tell the device model that we removed, then inserted the disk DEV_floppy_set_media_status(0, 0); DEV_floppy_set_media_status(0, 1); } } else { SIM->get_param_num(BXP_FLOPPYA_DEVTYPE)->set_enabled (!empty); SIM->get_param_num(BXP_FLOPPYA_TYPE)->set_enabled (!empty); SIM->get_param_num(BXP_FLOPPYA_STATUS)->set_enabled (!empty); } } break; case BXP_FLOPPYB_PATH: if (set==1) { if (SIM->get_init_done ()) { if (empty) { DEV_floppy_set_media_status(1, 0); bx_gui->update_drive_status_buttons (); } else { if (!SIM->get_param_num(BXP_FLOPPYB_TYPE)->get_enabled ()) { BX_ERROR(("Cannot add a floppy drive at runtime")); bx_options.floppyb.Opath->set ("none"); } } if ((DEV_floppy_present()) && (SIM->get_param_num(BXP_FLOPPYB_STATUS)->get () == BX_INSERTED)) { // tell the device model that we removed, then inserted the disk DEV_floppy_set_media_status(1, 0); DEV_floppy_set_media_status(1, 1); } } else { SIM->get_param_num(BXP_FLOPPYB_DEVTYPE)->set_enabled (!empty); SIM->get_param_num(BXP_FLOPPYB_TYPE)->set_enabled (!empty); SIM->get_param_num(BXP_FLOPPYB_STATUS)->set_enabled (!empty); } } break; case BXP_ATA0_MASTER_PATH: case BXP_ATA0_SLAVE_PATH: case BXP_ATA1_MASTER_PATH: case BXP_ATA1_SLAVE_PATH: case BXP_ATA2_MASTER_PATH: case BXP_ATA2_SLAVE_PATH: case BXP_ATA3_MASTER_PATH: case BXP_ATA3_SLAVE_PATH: if (set==1) { if (SIM->get_init_done ()) { Bit8u device = id - BXP_ATA0_MASTER_PATH; Bit32u handle = DEV_hd_get_device_handle(device/2, device%2); if (empty) { DEV_hd_set_cd_media_status(handle, 0); bx_gui->update_drive_status_buttons (); } else { if (!SIM->get_param_num((bx_id)(BXP_ATA0_MASTER_PRESENT + device))->get ()) { BX_ERROR(("Cannot add a cdrom drive at runtime")); bx_options.atadevice[device/2][device%2].Opresent->set (0); } if (SIM->get_param_num((bx_id)(BXP_ATA0_MASTER_TYPE + device))->get () != BX_ATA_DEVICE_CDROM) { BX_ERROR(("Device is not a cdrom drive")); bx_options.atadevice[device/2][device%2].Opresent->set (0); } } if (DEV_hd_present() && (SIM->get_param_num((bx_id)(BXP_ATA0_MASTER_STATUS + device))->get () == BX_INSERTED) && (SIM->get_param_num((bx_id)(BXP_ATA0_MASTER_TYPE + device))->get () == BX_ATA_DEVICE_CDROM)) { // tell the device model that we removed, then inserted the cd DEV_hd_set_cd_media_status(handle, 0); DEV_hd_set_cd_media_status(handle, 1); } } } break; case BXP_SCREENMODE: if (set==1) { BX_INFO (("Screen mode changed to %s", val)); } break; default: BX_PANIC (("bx_string_handler called with unexpected parameter %d", param->get_id())); } return val; } static int bx_param_enable_handler (bx_param_c *param, int val) { bx_id id = param->get_id (); switch (id) { case BXP_ATA0_MASTER_STATUS: case BXP_ATA0_SLAVE_STATUS: case BXP_ATA1_MASTER_STATUS: case BXP_ATA1_SLAVE_STATUS: case BXP_ATA2_MASTER_STATUS: case BXP_ATA2_SLAVE_STATUS: case BXP_ATA3_MASTER_STATUS: case BXP_ATA3_SLAVE_STATUS: if (val != 0) { Bit8u device = id - BXP_ATA0_MASTER_STATUS; switch (SIM->get_param_enum ((bx_id)(BXP_ATA0_MASTER_TYPE + device))->get()) { case BX_ATA_DEVICE_CDROM: return (1); break; } } return (0); break; case BXP_ATA0_MASTER_JOURNAL: case BXP_ATA0_SLAVE_JOURNAL: case BXP_ATA1_MASTER_JOURNAL: case BXP_ATA1_SLAVE_JOURNAL: case BXP_ATA2_MASTER_JOURNAL: case BXP_ATA2_SLAVE_JOURNAL: case BXP_ATA3_MASTER_JOURNAL: case BXP_ATA3_SLAVE_JOURNAL: if (val != 0) { Bit8u device = id - BXP_ATA0_MASTER_JOURNAL; switch (SIM->get_param_enum ((bx_id)(BXP_ATA0_MASTER_TYPE + device))->get()) { case BX_ATA_DEVICE_DISK: switch (SIM->get_param_enum ((bx_id)(BXP_ATA0_MASTER_MODE + device))->get()) { case BX_ATA_MODE_UNDOABLE: case BX_ATA_MODE_VOLATILE: case BX_ATA_MODE_Z_UNDOABLE: case BX_ATA_MODE_Z_VOLATILE: return (1); break; } } } return (0); break; default: BX_PANIC (("bx_param_handler called with unknown id %d", id)); } return val; } void bx_init_options () { int i; bx_list_c *menu; bx_list_c *deplist; char name[1024], descr[1024], label[1024]; memset (&bx_options, 0, sizeof(bx_options)); // quick start option, set by command line arg new bx_param_enum_c (BXP_BOCHS_START, "Bochs start types", "Bochs start types", bochs_start_names, BX_RUN_START, BX_QUICK_START); // floppya bx_options.floppya.Opath = new bx_param_filename_c (BXP_FLOPPYA_PATH, "floppya:path", "Pathname of first floppy image file or device. If you're booting from floppy, this should be a bootable floppy.", "", BX_PATHNAME_LEN); bx_options.floppya.Opath->set_ask_format ("Enter new filename, or 'none' for no disk: [%s] "); bx_options.floppya.Opath->set_label ("First floppy image/device"); bx_options.floppya.Odevtype = new bx_param_enum_c (BXP_FLOPPYA_DEVTYPE, "floppya:devtype", "Type of floppy drive", floppy_type_names, BX_FLOPPY_NONE, BX_FLOPPY_NONE); bx_options.floppya.Otype = new bx_param_enum_c (BXP_FLOPPYA_TYPE, "floppya:type", "Type of floppy disk", floppy_type_names, BX_FLOPPY_NONE, BX_FLOPPY_NONE); bx_options.floppya.Otype->set_ask_format ("What type of floppy disk? [%s] "); bx_options.floppya.Ostatus = new bx_param_enum_c (BXP_FLOPPYA_STATUS, "Is floppya inserted", "Inserted or ejected", floppy_status_names, BX_INSERTED, BX_EJECTED); bx_options.floppya.Ostatus->set_ask_format ("Is the floppy inserted or ejected? [%s] "); bx_options.floppya.Opath->set_format ("%s"); bx_options.floppya.Otype->set_format ("size=%s"); bx_options.floppya.Ostatus->set_format ("%s"); bx_param_c *floppya_init_list[] = { // if the order "path,type,status" changes, corresponding changes must // be made in gui/wxmain.cc, MyFrame::editFloppyConfig. bx_options.floppya.Opath, bx_options.floppya.Otype, bx_options.floppya.Ostatus, NULL }; menu = new bx_list_c (BXP_FLOPPYA, "Floppy Disk 0", "All options for first floppy disk", floppya_init_list); menu->get_options ()->set (menu->SERIES_ASK); bx_options.floppya.Opath->set_handler (bx_param_string_handler); bx_options.floppya.Opath->set ("none"); bx_options.floppya.Otype->set_handler (bx_param_handler); bx_options.floppya.Ostatus->set_handler (bx_param_handler); bx_options.floppyb.Opath = new bx_param_filename_c (BXP_FLOPPYB_PATH, "floppyb:path", "Pathname of second floppy image file or device.", "", BX_PATHNAME_LEN); bx_options.floppyb.Opath->set_ask_format ("Enter new filename, or 'none' for no disk: [%s] "); bx_options.floppyb.Opath->set_label ("Second floppy image/device"); bx_options.floppyb.Odevtype = new bx_param_enum_c (BXP_FLOPPYB_DEVTYPE, "floppyb:devtype", "Type of floppy drive", floppy_type_names, BX_FLOPPY_NONE, BX_FLOPPY_NONE); bx_options.floppyb.Otype = new bx_param_enum_c (BXP_FLOPPYB_TYPE, "floppyb:type", "Type of floppy disk", floppy_type_names, BX_FLOPPY_NONE, BX_FLOPPY_NONE); bx_options.floppyb.Otype->set_ask_format ("What type of floppy disk? [%s] "); bx_options.floppyb.Ostatus = new bx_param_enum_c (BXP_FLOPPYB_STATUS, "Is floppyb inserted", "Inserted or ejected", floppy_status_names, BX_INSERTED, BX_EJECTED); bx_options.floppyb.Ostatus->set_ask_format ("Is the floppy inserted or ejected? [%s] "); bx_options.floppyb.Opath->set_format ("%s"); bx_options.floppyb.Otype->set_format ("size=%s"); bx_options.floppyb.Ostatus->set_format ("%s"); bx_param_c *floppyb_init_list[] = { bx_options.floppyb.Opath, bx_options.floppyb.Otype, bx_options.floppyb.Ostatus, NULL }; menu = new bx_list_c (BXP_FLOPPYB, "Floppy Disk 1", "All options for second floppy disk", floppyb_init_list); menu->get_options ()->set (menu->SERIES_ASK); bx_options.floppyb.Opath->set_handler (bx_param_string_handler); bx_options.floppyb.Opath->set ("none"); bx_options.floppyb.Otype->set_handler (bx_param_handler); bx_options.floppyb.Ostatus->set_handler (bx_param_handler); // disk options // FIXME use descr and name char *s_atachannel[] = { "ATA channel 0", "ATA channel 1", "ATA channel 2", "ATA channel 3", }; char *s_atadevice[4][2] = { { "First HD/CD on channel 0", "Second HD/CD on channel 0" }, { "First HD/CD on channel 1", "Second HD/CD on channel 1" }, { "First HD/CD on channel 2", "Second HD/CD on channel 2" }, { "First HD/CD on channel 3", "Second HD/CD on channel 3" } }; Bit16u ata_default_ioaddr1[BX_MAX_ATA_CHANNEL] = { 0x1f0, 0x170, 0x1e8, 0x168 }; Bit8u ata_default_irq[BX_MAX_ATA_CHANNEL] = { 14, 15, 11, 9 }; bx_list_c *ata[BX_MAX_ATA_CHANNEL]; bx_list_c *ata_menu[BX_MAX_ATA_CHANNEL]; Bit8u channel; for (channel=0; channelget_options ()->set (bx_list_c::SERIES_ASK); ata[channel]->add (bx_options.ata[channel].Opresent = new bx_param_bool_c ((bx_id)(BXP_ATAx_PRESENT(channel)), "ata:present", "Controls whether ata channel is installed or not", 0)); ata[channel]->add (bx_options.ata[channel].Oioaddr1 = new bx_param_num_c ((bx_id)(BXP_ATAx_IOADDR1(channel)), "ata:ioaddr1", "IO adress of ata command block", 0, 0xffff, ata_default_ioaddr1[channel])); ata[channel]->add (bx_options.ata[channel].Oioaddr2 = new bx_param_num_c ((bx_id)(BXP_ATAx_IOADDR2(channel)), "ata:ioaddr2", "IO adress of ata control block", 0, 0xffff, ata_default_ioaddr1[channel] + 0x200)); ata[channel]->add (bx_options.ata[channel].Oirq = new bx_param_num_c ((bx_id)(BXP_ATAx_IRQ(channel)), "ata:irq", "IRQ used by this ata channel", 0, 15, ata_default_irq[channel])); // all items in the ata[channel] menu depend on the present flag. // The menu list is complete, but a few dependent_list items will // be added later. Use clone() to make a copy of the dependent_list // so that it can be changed without affecting the menu. bx_options.ata[channel].Opresent->set_dependent_list ( ata[channel]->clone()); for (Bit8u slave=0; slave<2; slave++) { menu = bx_options.atadevice[channel][slave].Omenu = new bx_list_c ((bx_id)(BXP_ATAx_DEVICE(channel,slave)), s_atadevice[channel][slave], s_atadevice[channel][slave], BXP_PARAMS_PER_ATA_DEVICE + 1 ); menu->get_options ()->set (menu->SERIES_ASK); menu->add (bx_options.atadevice[channel][slave].Opresent = new bx_param_bool_c ((bx_id)(BXP_ATAx_DEVICE_PRESENT(channel,slave)), "ata-device:present", "Controls whether ata device is installed or not", 0)); menu->add (bx_options.atadevice[channel][slave].Otype = new bx_param_enum_c ((bx_id)(BXP_ATAx_DEVICE_TYPE(channel,slave)), "ata-device:type", "Type of ATA device (disk or cdrom)", atadevice_type_names, BX_ATA_DEVICE_DISK, BX_ATA_DEVICE_DISK)); menu->add (bx_options.atadevice[channel][slave].Opath = new bx_param_filename_c ((bx_id)(BXP_ATAx_DEVICE_PATH(channel,slave)), "ata-device:path", "Pathname of the image or physical device (cdrom only)", "", BX_PATHNAME_LEN)); menu->add (bx_options.atadevice[channel][slave].Omode = new bx_param_enum_c ((bx_id)(BXP_ATAx_DEVICE_MODE(channel,slave)), "ata-device:mode", "Mode of the ATA harddisk", atadevice_mode_names, BX_ATA_MODE_FLAT, BX_ATA_MODE_FLAT)); menu->add (bx_options.atadevice[channel][slave].Ostatus = new bx_param_enum_c ((bx_id)(BXP_ATAx_DEVICE_STATUS(channel,slave)), "ata-device:status", "CD-ROM media status (inserted / ejected)", atadevice_status_names, BX_INSERTED, BX_EJECTED)); menu->add (bx_options.atadevice[channel][slave].Ojournal = new bx_param_filename_c ((bx_id)(BXP_ATAx_DEVICE_JOURNAL(channel,slave)), "ata-device:journal", "Pathname of the journal file", "", BX_PATHNAME_LEN)); menu->add (bx_options.atadevice[channel][slave].Ocylinders = new bx_param_num_c ((bx_id)(BXP_ATAx_DEVICE_CYLINDERS(channel,slave)), "ata-device:cylinders", "Number of cylinders", 0, 65535, 0)); menu->add (bx_options.atadevice[channel][slave].Oheads = new bx_param_num_c ((bx_id)(BXP_ATAx_DEVICE_HEADS(channel,slave)), "ata-device:heads", "Number of heads", 0, 65535, 0)); menu->add (bx_options.atadevice[channel][slave].Ospt = new bx_param_num_c ((bx_id)(BXP_ATAx_DEVICE_SPT(channel,slave)), "ata-device:spt", "Number of sectors per track", 0, 65535, 0)); menu->add (bx_options.atadevice[channel][slave].Omodel = new bx_param_string_c ((bx_id)(BXP_ATAx_DEVICE_MODEL(channel,slave)), "ata-device:model", "String returned by the 'identify device' command", "Generic 1234", 40)); menu->add (bx_options.atadevice[channel][slave].Obiosdetect = new bx_param_enum_c ((bx_id)(BXP_ATAx_DEVICE_BIOSDETECT(channel,slave)), "ata-device:biosdetect", "Type of bios detection", atadevice_biosdetect_names, BX_ATA_BIOSDETECT_AUTO, BX_ATA_BIOSDETECT_NONE)); menu->add (bx_options.atadevice[channel][slave].Otranslation = new bx_param_enum_c ((bx_id)(BXP_ATAx_DEVICE_TRANSLATION(channel,slave)), "How the ata-disk translation is done by the bios", "Type of translation", atadevice_translation_names, BX_ATA_TRANSLATION_AUTO, BX_ATA_TRANSLATION_NONE)); bx_options.atadevice[channel][slave].Opresent->set_dependent_list ( menu->clone ()); // the menu and all items on it depend on the Opresent flag bx_options.atadevice[channel][slave].Opresent->get_dependent_list()->add(menu); // the present flag depends on the ATA channel's present flag bx_options.ata[channel].Opresent->get_dependent_list()->add ( bx_options.atadevice[channel][slave].Opresent); } // set up top level menu for ATA[i] controller configuration. This list // controls what will appear on the ATA configure dialog. It now // requests the USE_TAB_WINDOW display, which is implemented in wx. char buffer[32]; sprintf (buffer, "Configure ATA%d", channel); ata_menu[channel] = new bx_list_c ((bx_id)(BXP_ATAx_MENU(channel)), strdup(buffer), "", 4); ata_menu[channel]->add (ata[channel]); ata_menu[channel]->add (bx_options.atadevice[channel][0].Omenu); ata_menu[channel]->add (bx_options.atadevice[channel][1].Omenu); ata_menu[channel]->get_options()->set (bx_list_c::USE_TAB_WINDOW); } // Enable first ata interface by default, disable the others. bx_options.ata[0].Opresent->set_initial_val(1); // now that the dependence relationships are established, call set() on // the ata device present params to set all enables correctly. for (i=0; iset (i==0); for (channel=0; channelset_ask_format ("Channel is enabled: [%s] "); bx_options.ata[channel].Oioaddr1->set_ask_format ("Enter new ioaddr1: [0x%x] "); bx_options.ata[channel].Oioaddr2->set_ask_format ("Enter new ioaddr2: [0x%x] "); bx_options.ata[channel].Oirq->set_ask_format ("Enter new IRQ: [%d] "); #if BX_WITH_WX bx_options.ata[channel].Opresent->set_label ("Enable this channel?"); bx_options.ata[channel].Oioaddr1->set_label ("I/O Address 1:"); bx_options.ata[channel].Oioaddr2->set_label ("I/O Address 2:"); bx_options.ata[channel].Oirq->set_label ("IRQ:"); bx_options.ata[channel].Oirq->set_options (bx_param_num_c::USE_SPIN_CONTROL); #else bx_options.ata[channel].Opresent->set_format ("enabled: %s"); bx_options.ata[channel].Oioaddr1->set_format ("ioaddr1: 0x%x"); bx_options.ata[channel].Oioaddr2->set_format ("ioaddr2: 0x%x"); bx_options.ata[channel].Oirq->set_format ("irq: %d"); #endif bx_options.ata[channel].Oioaddr1->set_base (16); bx_options.ata[channel].Oioaddr2->set_base (16); for (Bit8u slave=0; slave<2; slave++) { bx_options.atadevice[channel][slave].Opresent->set_ask_format ( "Device is enabled: [%s] "); bx_options.atadevice[channel][slave].Otype->set_ask_format ( "Enter type of ATA device, disk or cdrom: [%s] "); bx_options.atadevice[channel][slave].Omode->set_ask_format ( "Enter mode of ATA device, (flat, concat, etc.): [%s] "); bx_options.atadevice[channel][slave].Opath->set_ask_format ( "Enter new filename: [%s] "); bx_options.atadevice[channel][slave].Ocylinders->set_ask_format ( "Enter number of cylinders: [%d] "); bx_options.atadevice[channel][slave].Oheads->set_ask_format ( "Enter number of heads: [%d] "); bx_options.atadevice[channel][slave].Ospt->set_ask_format ( "Enter number of sectors per track: [%d] "); bx_options.atadevice[channel][slave].Ostatus->set_ask_format ( "Is the device inserted or ejected? [%s] "); bx_options.atadevice[channel][slave].Omodel->set_ask_format ( "Enter new model name: [%s]"); bx_options.atadevice[channel][slave].Otranslation->set_ask_format ( "Enter translation type: [%s]"); bx_options.atadevice[channel][slave].Obiosdetect->set_ask_format ( "Enter bios detection type: [%s]"); bx_options.atadevice[channel][slave].Ojournal->set_ask_format ( "Enter path of journal file: [%s]"); #if BX_WITH_WX bx_options.atadevice[channel][slave].Opresent->set_label ( "Enable this device?"); bx_options.atadevice[channel][slave].Otype->set_label ( "Type of ATA device:"); bx_options.atadevice[channel][slave].Omode->set_label ( "Policy of ATA device:"); bx_options.atadevice[channel][slave].Opath->set_label ( "Path or physical device name:"); bx_options.atadevice[channel][slave].Ocylinders->set_label ( "Cylinders:"); bx_options.atadevice[channel][slave].Oheads->set_label ( "Heads:"); bx_options.atadevice[channel][slave].Ospt->set_label ( "Sectors per track:"); bx_options.atadevice[channel][slave].Ostatus->set_label ( "Inserted?"); bx_options.atadevice[channel][slave].Omodel->set_label ( "Model name:"); bx_options.atadevice[channel][slave].Otranslation->set_label ( "Translation type:"); bx_options.atadevice[channel][slave].Obiosdetect->set_label ( "BIOS Detection:"); bx_options.atadevice[channel][slave].Ojournal->set_label ( "Path of journal file:"); #else bx_options.atadevice[channel][slave].Opresent->set_format ("enabled: %s"); bx_options.atadevice[channel][slave].Otype->set_format ("type %s"); bx_options.atadevice[channel][slave].Omode->set_format ("mode %s"); bx_options.atadevice[channel][slave].Opath->set_format ("path '%s'"); bx_options.atadevice[channel][slave].Ocylinders->set_format ("%d cylinders"); bx_options.atadevice[channel][slave].Oheads->set_format ("%d heads"); bx_options.atadevice[channel][slave].Ospt->set_format ("%d sectors/track"); bx_options.atadevice[channel][slave].Ostatus->set_format ("%s"); bx_options.atadevice[channel][slave].Omodel->set_format ("model '%s'"); bx_options.atadevice[channel][slave].Otranslation->set_format ("translation '%s'"); bx_options.atadevice[channel][slave].Obiosdetect->set_format ("biosdetect '%s'"); bx_options.atadevice[channel][slave].Ojournal->set_format ("journal is '%s'"); #endif bx_options.atadevice[channel][slave].Otype->set_handler (bx_param_handler); bx_options.atadevice[channel][slave].Omode->set_handler (bx_param_handler); bx_options.atadevice[channel][slave].Ostatus->set_handler (bx_param_handler); bx_options.atadevice[channel][slave].Opath->set_handler (bx_param_string_handler); // Set the enable_hanlders bx_options.atadevice[channel][slave].Ojournal->set_enable_handler (bx_param_enable_handler); bx_options.atadevice[channel][slave].Ostatus->set_enable_handler (bx_param_enable_handler); } } bx_options.OnewHardDriveSupport = new bx_param_bool_c (BXP_NEWHARDDRIVESUPPORT, "New hard drive support", "Enables new features found on newer hard drives.", 1); bx_options.Obootdrive = new bx_param_enum_c (BXP_BOOTDRIVE, "bootdrive", "Boot A, C or CD", floppy_bootdisk_names, BX_BOOT_FLOPPYA, BX_BOOT_FLOPPYA); bx_options.Obootdrive->set_format ("Boot from: %s drive"); bx_options.Obootdrive->set_ask_format ("Boot from floppy drive, hard drive or cdrom ? [%s] "); bx_options.OfloppySigCheck = new bx_param_bool_c (BXP_FLOPPYSIGCHECK, "Skip Floppy Boot Signature Check", "Skips check for the 0xaa55 signature on floppy boot device.", 0); // disk menu bx_param_c *disk_menu_init_list[] = { SIM->get_param (BXP_FLOPPYA), SIM->get_param (BXP_FLOPPYB), SIM->get_param (BXP_ATA0), SIM->get_param (BXP_ATA0_MASTER), SIM->get_param (BXP_ATA0_SLAVE), #if BX_MAX_ATA_CHANNEL>1 SIM->get_param (BXP_ATA1), SIM->get_param (BXP_ATA1_MASTER), SIM->get_param (BXP_ATA1_SLAVE), #endif #if BX_MAX_ATA_CHANNEL>2 SIM->get_param (BXP_ATA2), SIM->get_param (BXP_ATA2_MASTER), SIM->get_param (BXP_ATA2_SLAVE), #endif #if BX_MAX_ATA_CHANNEL>3 SIM->get_param (BXP_ATA3), SIM->get_param (BXP_ATA3_MASTER), SIM->get_param (BXP_ATA3_SLAVE), #endif SIM->get_param (BXP_NEWHARDDRIVESUPPORT), SIM->get_param (BXP_BOOTDRIVE), SIM->get_param (BXP_FLOPPYSIGCHECK), NULL }; menu = new bx_list_c (BXP_MENU_DISK, "Bochs Disk Options", "diskmenu", disk_menu_init_list); menu->get_options ()->set (menu->SHOW_PARENT); // memory options menu bx_options.memory.Osize = new bx_param_num_c (BXP_MEM_SIZE, "megs", "Amount of RAM in megabytes", 1, BX_MAX_BIT32U, BX_DEFAULT_MEM_MEGS); bx_options.memory.Osize->set_ask_format ("Enter memory size (MB): [%d] "); #if BX_WITH_WX bx_options.memory.Osize->set_label ("Memory size (megabytes)"); bx_options.memory.Osize->set_options (bx_param_num_c::USE_SPIN_CONTROL); #else bx_options.memory.Osize->set_format ("Memory size in megabytes: %d"); #endif // initialize serial and parallel port options #define PAR_SER_INIT_LIST_MAX \ ((BXP_PARAMS_PER_PARALLEL_PORT * BX_N_PARALLEL_PORTS) \ + (BXP_PARAMS_PER_SERIAL_PORT * BX_N_SERIAL_PORTS) \ + (BXP_PARAMS_PER_USB_HUB * BX_N_USB_HUBS)) bx_param_c *par_ser_init_list[1+PAR_SER_INIT_LIST_MAX]; bx_param_c **par_ser_ptr = &par_ser_init_list[0]; // parallel ports for (i=0; iadd (bx_options.par[i].Ooutfile); bx_options.par[i].Oenabled->set_dependent_list (deplist); // add to menu *par_ser_ptr++ = bx_options.par[i].Oenabled; *par_ser_ptr++ = bx_options.par[i].Ooutfile; } // serial ports for (i=0; iadd (bx_options.com[i].Odev); bx_options.com[i].Oenabled->set_dependent_list (deplist); // add to menu *par_ser_ptr++ = bx_options.com[i].Oenabled; *par_ser_ptr++ = bx_options.com[i].Odev; } // usb hubs for (i=0; iadd (bx_options.usb[i].Oioaddr); deplist->add (bx_options.usb[i].Oirq); bx_options.usb[i].Oenabled->set_dependent_list (deplist); // add to menu *par_ser_ptr++ = bx_options.usb[i].Oenabled; *par_ser_ptr++ = bx_options.usb[i].Oioaddr; *par_ser_ptr++ = bx_options.usb[i].Oirq; bx_options.usb[i].Oioaddr->set_ask_format ("Enter new ioaddr: [0x%x] "); bx_options.usb[i].Oioaddr->set_label ("I/O Address"); bx_options.usb[i].Oioaddr->set_base (16); bx_options.usb[i].Oenabled->set_label (strdup(label)); bx_options.usb[i].Oirq->set_label ("USB IRQ"); bx_options.usb[i].Oirq->set_options (bx_param_num_c::USE_SPIN_CONTROL); } // add final NULL at the end, and build the menu *par_ser_ptr = NULL; menu = new bx_list_c (BXP_MENU_SERIAL_PARALLEL, "Serial and Parallel Port Options", "serial_parallel_menu", par_ser_init_list); menu->get_options ()->set (menu->SHOW_PARENT); bx_options.rom.Opath = new bx_param_filename_c (BXP_ROM_PATH, "romimage", "Pathname of ROM image to load", "", BX_PATHNAME_LEN); bx_options.rom.Opath->set_format ("Name of ROM BIOS image: %s"); bx_options.rom.Oaddress = new bx_param_num_c (BXP_ROM_ADDRESS, "romaddr", "The address at which the ROM image should be loaded", 0, BX_MAX_BIT32U, 0xf0000); bx_options.rom.Oaddress->set_base (16); #if BX_WITH_WX bx_options.rom.Opath->set_label ("ROM BIOS image"); bx_options.rom.Oaddress->set_label ("ROM BIOS address"); #else bx_options.rom.Oaddress->set_format ("ROM BIOS address: 0x%05x"); #endif bx_options.optrom[0].Opath = new bx_param_filename_c (BXP_OPTROM1_PATH, "optional romimage #1", "Pathname of optional ROM image #1 to load", "", BX_PATHNAME_LEN); bx_options.optrom[0].Opath->set_format ("Name of optional ROM image #1 : %s"); bx_options.optrom[0].Oaddress = new bx_param_num_c (BXP_OPTROM1_ADDRESS, "optional romaddr #1", "The address at which the optional ROM image #1 should be loaded", 0, BX_MAX_BIT32U, 0); bx_options.optrom[0].Oaddress->set_base (16); #if BX_WITH_WX bx_options.optrom[0].Opath->set_label ("Optional ROM image #1"); bx_options.optrom[0].Oaddress->set_label ("Address"); #else bx_options.optrom[0].Oaddress->set_format ("optional ROM #1 address: 0x%05x"); #endif bx_options.optrom[1].Opath = new bx_param_filename_c (BXP_OPTROM2_PATH, "optional romimage #2", "Pathname of optional ROM image #2 to load", "", BX_PATHNAME_LEN); bx_options.optrom[1].Opath->set_format ("Name of optional ROM image #2 : %s"); bx_options.optrom[1].Oaddress = new bx_param_num_c (BXP_OPTROM2_ADDRESS, "optional romaddr #2", "The address at which the optional ROM image #2 should be loaded", 0, BX_MAX_BIT32U, 0); bx_options.optrom[1].Oaddress->set_base (16); #if BX_WITH_WX bx_options.optrom[1].Opath->set_label ("Optional ROM image #2"); bx_options.optrom[1].Oaddress->set_label ("Address"); #else bx_options.optrom[1].Oaddress->set_format ("optional ROM #2 address: 0x%05x"); #endif bx_options.optrom[2].Opath = new bx_param_filename_c (BXP_OPTROM3_PATH, "optional romimage #3", "Pathname of optional ROM image #3 to load", "", BX_PATHNAME_LEN); bx_options.optrom[2].Opath->set_format ("Name of optional ROM image #3 : %s"); bx_options.optrom[2].Oaddress = new bx_param_num_c (BXP_OPTROM3_ADDRESS, "optional romaddr #3", "The address at which the optional ROM image #3 should be loaded", 0, BX_MAX_BIT32U, 0); bx_options.optrom[2].Oaddress->set_base (16); #if BX_WITH_WX bx_options.optrom[2].Opath->set_label ("Optional ROM image #3"); bx_options.optrom[2].Oaddress->set_label ("Address"); #else bx_options.optrom[2].Oaddress->set_format ("optional ROM #3 address: 0x%05x"); #endif bx_options.optrom[3].Opath = new bx_param_filename_c (BXP_OPTROM4_PATH, "optional romimage #4", "Pathname of optional ROM image #4 to load", "", BX_PATHNAME_LEN); bx_options.optrom[3].Opath->set_format ("Name of optional ROM image #4 : %s"); bx_options.optrom[3].Oaddress = new bx_param_num_c (BXP_OPTROM4_ADDRESS, "optional romaddr #4", "The address at which the optional ROM image #4 should be loaded", 0, BX_MAX_BIT32U, 0); bx_options.optrom[3].Oaddress->set_base (16); #if BX_WITH_WX bx_options.optrom[3].Opath->set_label ("Optional ROM image #4"); bx_options.optrom[3].Oaddress->set_label ("Address"); #else bx_options.optrom[3].Oaddress->set_format ("optional ROM #4 address: 0x%05x"); #endif bx_options.vgarom.Opath = new bx_param_filename_c (BXP_VGA_ROM_PATH, "vgaromimage", "Pathname of VGA ROM image to load", "", BX_PATHNAME_LEN); bx_options.vgarom.Opath->set_format ("Name of VGA BIOS image: %s"); #if BX_WITH_WX bx_options.vgarom.Opath->set_label ("VGA BIOS image"); #endif bx_param_c *memory_init_list[] = { bx_options.memory.Osize, bx_options.vgarom.Opath, bx_options.rom.Opath, bx_options.rom.Oaddress, bx_options.optrom[0].Opath, bx_options.optrom[0].Oaddress, bx_options.optrom[1].Opath, bx_options.optrom[1].Oaddress, bx_options.optrom[2].Opath, bx_options.optrom[2].Oaddress, bx_options.optrom[3].Opath, bx_options.optrom[3].Oaddress, NULL }; menu = new bx_list_c (BXP_MENU_MEMORY, "Bochs Memory Options", "memmenu", memory_init_list); menu->get_options ()->set (menu->SHOW_PARENT); // interface bx_options.Ovga_update_interval = new bx_param_num_c (BXP_VGA_UPDATE_INTERVAL, "VGA Update Interval", "Number of microseconds between VGA updates", 1, BX_MAX_BIT32U, 30000); bx_options.Ovga_update_interval->set_handler (bx_param_handler); bx_options.Ovga_update_interval->set_runtime_param (1); bx_options.Ovga_update_interval->set_ask_format ("Type a new value for VGA update interval: [%d] "); bx_options.Omouse_enabled = new bx_param_bool_c (BXP_MOUSE_ENABLED, "Enable the mouse", "Controls whether the mouse sends events to the guest. The hardware emulation is always enabled.", 0); bx_options.Omouse_enabled->set_handler (bx_param_handler); bx_options.Omouse_enabled->set_runtime_param (1); bx_options.Oips = new bx_param_num_c (BXP_IPS, "Emulated instructions per second (IPS)", "Emulated instructions per second, used to calibrate bochs emulated time with wall clock time.", 1, BX_MAX_BIT32U, 500000); bx_options.Otext_snapshot_check = new bx_param_bool_c (BXP_TEXT_SNAPSHOT_CHECK, "Enable panic for use in bochs testing", "Enable panic when text on screen matches snapchk.txt.\nUseful for regression testing.\nIn win32, turns off CR/LF in snapshots and cuts.", 0); bx_options.Oprivate_colormap = new bx_param_bool_c (BXP_PRIVATE_COLORMAP, "Use a private colormap", "Request that the GUI create and use it's own non-shared colormap. This colormap will be used when in the bochs window. If not enabled, a shared colormap scheme may be used. Not implemented on all GUI's.", 0); #if BX_WITH_AMIGAOS bx_options.Ofullscreen = new bx_param_bool_c (BXP_FULLSCREEN, "Use full screen mode", "When enabled, bochs occupies the whole screen instead of just a window.", 0); bx_options.Oscreenmode = new bx_param_string_c (BXP_SCREENMODE, "Screen mode name", "Screen mode name", "", BX_PATHNAME_LEN); bx_options.Oscreenmode->set_handler (bx_param_string_handler); #endif static char *config_interface_list[] = { "textconfig", #if BX_WITH_WX "wx", #endif NULL }; bx_options.Osel_config = new bx_param_enum_c ( BXP_SEL_CONFIG_INTERFACE, "Configuration interface", "Select configuration interface", config_interface_list, 0, 0); bx_options.Osel_config->set_by_name (BX_DEFAULT_CONFIG_INTERFACE); bx_options.Osel_config->set_ask_format ("Choose which configuration interface to use: [%s] "); // this is a list of gui libraries that are known to be available at // compile time. The one that is listed first will be the default, // which is used unless the user overrides it on the command line or // in a configuration file. static char *display_library_list[] = { #if BX_WITH_X11 "x", #endif #if BX_WITH_WIN32 "win32", #endif #if BX_WITH_CARBON "carbon", #endif #if BX_WITH_BEOS "beos", #endif #if BX_WITH_MACOS "macos", #endif #if BX_WITH_AMIGAOS "amigaos", #endif #if BX_WITH_SDL "sdl", #endif #if BX_WITH_SVGA "svga", #endif #if BX_WITH_TERM "term", #endif #if BX_WITH_RFB "rfb", #endif #if BX_WITH_WX "wx", #endif #if BX_WITH_NOGUI "nogui", #endif NULL }; bx_options.Osel_displaylib = new bx_param_enum_c (BXP_SEL_DISPLAY_LIBRARY, "VGA Display Library", "Select VGA Display Library", display_library_list, 0, 0); bx_options.Osel_displaylib->set_by_name (BX_DEFAULT_DISPLAY_LIBRARY); bx_options.Osel_displaylib->set_ask_format ("Choose which library to use for the Bochs display: [%s] "); bx_param_c *interface_init_list[] = { bx_options.Osel_config, bx_options.Osel_displaylib, bx_options.Ovga_update_interval, bx_options.Omouse_enabled, bx_options.Oips, bx_options.Oprivate_colormap, #if BX_WITH_AMIGAOS bx_options.Ofullscreen, bx_options.Oscreenmode, #endif NULL }; menu = new bx_list_c (BXP_MENU_INTERFACE, "Bochs Interface Menu", "intfmenu", interface_init_list); menu->get_options ()->set (menu->SHOW_PARENT); // NE2K options bx_options.ne2k.Opresent = new bx_param_bool_c (BXP_NE2K_PRESENT, "Enable NE2K NIC emulation", "Enables the NE2K NIC emulation", 0); bx_options.ne2k.Oioaddr = new bx_param_num_c (BXP_NE2K_IOADDR, "NE2K I/O Address", "I/O base address of the emulated NE2K device", 0, 0xffff, 0); bx_options.ne2k.Oioaddr->set_base (16); bx_options.ne2k.Oirq = new bx_param_num_c (BXP_NE2K_IRQ, "NE2K Interrupt", "IRQ used by the NE2K device", 0, 15, 0); bx_options.ne2k.Oirq->set_options (bx_param_num_c::USE_SPIN_CONTROL); bx_options.ne2k.Omacaddr = new bx_param_string_c (BXP_NE2K_MACADDR, "MAC Address", "MAC address of the NE2K device. Don't use an address of a machine on your net.", "", 6); bx_options.ne2k.Omacaddr->get_options ()->set (bx_options.ne2k.Omacaddr->RAW_BYTES); bx_options.ne2k.Omacaddr->set_separator (':'); static char *eth_module_list[] = { "null", #if defined(ETH_LINUX) "linux", #endif #if HAVE_ETHERTAP "tap", #endif #if HAVE_TUNTAP "tuntap", #endif #if defined(ETH_WIN32) "win32", #endif #if defined(ETH_FBSD) "fbsd", #endif #ifdef ETH_ARPBACK "arpback", #endif NULL }; bx_options.ne2k.Oethmod = new bx_param_enum_c (BXP_NE2K_ETHMOD, "Ethernet module", "Module used for the connection to the real net.", eth_module_list, 0, 0); bx_options.ne2k.Oethmod->set_by_name ("null"); bx_options.ne2k.Oethdev = new bx_param_string_c (BXP_NE2K_ETHDEV, "Ethernet device", "Device used for the connection to the real net. This is only valid if an ethernet module other than 'null' is used.", "xl0", BX_PATHNAME_LEN); bx_options.ne2k.Oscript = new bx_param_string_c (BXP_NE2K_SCRIPT, "Device configuration script", "Name of the script that is executed after Bochs initializes the network interface (optional).", "none", BX_PATHNAME_LEN); #if !BX_WITH_WX bx_options.ne2k.Oscript->set_ask_format ("Enter new script name, or 'none': [%s] "); #endif bx_param_c *ne2k_init_list[] = { bx_options.ne2k.Opresent, bx_options.ne2k.Oioaddr, bx_options.ne2k.Oirq, bx_options.ne2k.Omacaddr, bx_options.ne2k.Oethmod, bx_options.ne2k.Oethdev, bx_options.ne2k.Oscript, NULL }; menu = new bx_list_c (BXP_NE2K, "NE2K Configuration", "", ne2k_init_list); menu->get_options ()->set (menu->SHOW_PARENT); bx_param_c **ne2k_dependent_list = &ne2k_init_list[1]; bx_options.ne2k.Opresent->set_dependent_list ( new bx_list_c (BXP_NULL, "", "", ne2k_dependent_list)); bx_options.ne2k.Opresent->set_handler (bx_param_handler); bx_options.ne2k.Opresent->set (0); // SB16 options bx_options.sb16.Opresent = new bx_param_bool_c (BXP_SB16_PRESENT, "Enable SB16 emulation", "Enables the SB16 emulation", 0); bx_options.sb16.Omidifile = new bx_param_filename_c (BXP_SB16_MIDIFILE, "MIDI file", "The filename is where the MIDI data is sent. This can be device or just a file.", "", BX_PATHNAME_LEN); bx_options.sb16.Owavefile = new bx_param_filename_c (BXP_SB16_WAVEFILE, "Wave file", "This is the device/file where the wave output is stored", "", BX_PATHNAME_LEN); bx_options.sb16.Ologfile = new bx_param_filename_c (BXP_SB16_LOGFILE, "Log file", "The file to write the SB16 emulator messages to.", "", BX_PATHNAME_LEN); bx_options.sb16.Omidimode = new bx_param_num_c (BXP_SB16_MIDIMODE, "Midi mode", "Controls the MIDI output format.", 0, 3, 0); bx_options.sb16.Owavemode = new bx_param_num_c (BXP_SB16_WAVEMODE, "Wave mode", "Controls the wave output format.", 0, 3, 0); bx_options.sb16.Ologlevel = new bx_param_num_c (BXP_SB16_LOGLEVEL, "Log mode", "Controls how verbose the SB16 emulation is (0 = no log, 5 = all errors and infos).", 0, 5, 0); bx_options.sb16.Odmatimer = new bx_param_num_c (BXP_SB16_DMATIMER, "DMA timer", "Microseconds per second for a DMA cycle.", 0, BX_MAX_BIT32U, 0); #if BX_WITH_WX bx_options.sb16.Omidimode->set_options (bx_param_num_c::USE_SPIN_CONTROL); bx_options.sb16.Owavemode->set_options (bx_param_num_c::USE_SPIN_CONTROL); bx_options.sb16.Ologlevel->set_options (bx_param_num_c::USE_SPIN_CONTROL); #endif bx_param_c *sb16_init_list[] = { bx_options.sb16.Opresent, bx_options.sb16.Omidimode, bx_options.sb16.Omidifile, bx_options.sb16.Owavemode, bx_options.sb16.Owavefile, bx_options.sb16.Ologlevel, bx_options.sb16.Ologfile, bx_options.sb16.Odmatimer, NULL }; menu = new bx_list_c (BXP_SB16, "SB16 Configuration", "", sb16_init_list); menu->get_options ()->set (menu->SHOW_PARENT); // sb16_dependent_list is a null-terminated list including all the // sb16 fields except for the "present" field. These will all be enabled/ // disabled according to the value of the present field. bx_param_c **sb16_dependent_list = &sb16_init_list[1]; bx_options.sb16.Opresent->set_dependent_list ( new bx_list_c (BXP_NULL, "", "", sb16_dependent_list)); bx_options.log.Ofilename = new bx_param_filename_c (BXP_LOG_FILENAME, "Log filename", "Pathname of bochs log file", "-", BX_PATHNAME_LEN); bx_options.log.Ofilename->set_ask_format ("Enter log filename: [%s] "); bx_options.log.Oprefix = new bx_param_string_c (BXP_LOG_PREFIX, "Log output prefix", "Prefix prepended to log output", "%t%e%d", BX_PATHNAME_LEN); bx_options.log.Oprefix->set_ask_format ("Enter log prefix: [%s] "); bx_options.log.Odebugger_filename = new bx_param_filename_c (BXP_DEBUGGER_LOG_FILENAME, "Debugger Log filename", "Pathname of debugger log file", "-", BX_PATHNAME_LEN); bx_options.log.Odebugger_filename->set_ask_format ("Enter debugger log filename: [%s] "); // loader bx_options.load32bitOSImage.OwhichOS = new bx_param_enum_c (BXP_LOAD32BITOS_WHICH, "Which operating system?", "Which OS to boot", loader_os_names, Load32bitOSNone, Load32bitOSNone); bx_options.load32bitOSImage.Opath = new bx_param_filename_c (BXP_LOAD32BITOS_PATH, "Pathname of OS to load", "Pathname of the 32-bit OS to load", "", BX_PATHNAME_LEN); bx_options.load32bitOSImage.Oiolog = new bx_param_filename_c (BXP_LOAD32BITOS_IOLOG, "Pathname of I/O log file", "I/O logfile used for initializing the hardware", "", BX_PATHNAME_LEN); bx_options.load32bitOSImage.Oinitrd = new bx_param_filename_c (BXP_LOAD32BITOS_INITRD, "Pathname of initrd", "Pathname of the initial ramdisk", "", BX_PATHNAME_LEN); bx_param_c *loader_init_list[] = { bx_options.load32bitOSImage.OwhichOS, bx_options.load32bitOSImage.Opath, bx_options.load32bitOSImage.Oiolog, bx_options.load32bitOSImage.Oinitrd, NULL }; bx_options.load32bitOSImage.OwhichOS->set_format ("os=%s"); bx_options.load32bitOSImage.Opath->set_format ("path=%s"); bx_options.load32bitOSImage.Oiolog->set_format ("iolog=%s"); bx_options.load32bitOSImage.Oinitrd->set_format ("initrd=%s"); bx_options.load32bitOSImage.OwhichOS->set_ask_format ("Enter OS to load: [%s] "); bx_options.load32bitOSImage.Opath->set_ask_format ("Enter pathname of OS: [%s]"); bx_options.load32bitOSImage.Oiolog->set_ask_format ("Enter pathname of I/O log: [%s] "); bx_options.load32bitOSImage.Oinitrd->set_ask_format ("Enter pathname of initrd: [%s] "); menu = new bx_list_c (BXP_LOAD32BITOS, "32-bit OS Loader", "", loader_init_list); menu->get_options ()->set (menu->SERIES_ASK); bx_options.load32bitOSImage.OwhichOS->set_handler (bx_param_handler); bx_options.load32bitOSImage.OwhichOS->set (Load32bitOSNone); // clock bx_options.clock.Otime0 = new bx_param_num_c (BXP_CLOCK_TIME0, "clock:time0", "Initial time for Bochs CMOS clock, used if you really want two runs to be identical", 0, BX_MAX_BIT32U, BX_CLOCK_TIME0_LOCAL); bx_options.clock.Osync = new bx_param_enum_c (BXP_CLOCK_SYNC, "clock:sync", "Host to guest time synchronization method", clock_sync_names, BX_CLOCK_SYNC_NONE, BX_CLOCK_SYNC_NONE); bx_param_c *clock_init_list[] = { bx_options.clock.Osync, bx_options.clock.Otime0, NULL }; #if !BX_WITH_WX bx_options.clock.Osync->set_format ("sync=%s"); bx_options.clock.Otime0->set_format ("initial time=%d"); #endif bx_options.clock.Otime0->set_ask_format ("Enter Initial CMOS time (1:localtime, 2:utc, other:time in seconds): [%d] "); bx_options.clock.Osync->set_ask_format ("Enter Synchronisation method: [%s] "); bx_options.clock.Otime0->set_label ("Initial CMOS time for Bochs\n(1:localtime, 2:utc, other:time in seconds)"); bx_options.clock.Osync->set_label ("Synchronisation method"); menu = new bx_list_c (BXP_CLOCK, "Clock parameters", "", clock_init_list); menu->get_options ()->set (menu->SERIES_ASK); // other bx_options.Okeyboard_serial_delay = new bx_param_num_c (BXP_KBD_SERIAL_DELAY, "Keyboard serial delay", "Approximate time in microseconds that it takes one character to be transfered from the keyboard to controller over the serial path.", 1, BX_MAX_BIT32U, 20000); bx_options.Okeyboard_paste_delay = new bx_param_num_c (BXP_KBD_PASTE_DELAY, "Keyboard paste delay", "Approximate time in microseconds between attemps to paste characters to the keyboard controller.", 1000, BX_MAX_BIT32U, 100000); bx_options.Okeyboard_paste_delay->set_handler (bx_param_handler); bx_options.Okeyboard_paste_delay->set_runtime_param (1); bx_options.Ofloppy_command_delay = new bx_param_num_c (BXP_FLOPPY_CMD_DELAY, "Floppy command delay", "Time in microseconds to wait before completing some floppy commands such as read/write/seek/etc, which normally have a delay associated. This used to be hardwired to 50,000 before.", 1, BX_MAX_BIT32U, 50000); bx_options.Oi440FXSupport = new bx_param_bool_c (BXP_I440FX_SUPPORT, "PCI i440FX Support", "Controls whether to emulate the i440FX PCI chipset", 0); bx_options.cmos.OcmosImage = new bx_param_bool_c (BXP_CMOS_IMAGE, "Use a CMOS image", "Controls the usage of a CMOS image", 0); bx_options.cmos.Opath = new bx_param_filename_c (BXP_CMOS_PATH, "Pathname of CMOS image", "Pathname of CMOS image", "", BX_PATHNAME_LEN); deplist = new bx_list_c (BXP_NULL, 1); deplist->add (bx_options.cmos.Opath); bx_options.cmos.OcmosImage->set_dependent_list (deplist); // Keyboard mapping bx_options.keyboard.OuseMapping = new bx_param_bool_c(BXP_KEYBOARD_USEMAPPING, "Use keyboard mapping", "Controls whether to use the keyboard mapping feature", 0); bx_options.keyboard.Okeymap = new bx_param_filename_c (BXP_KEYBOARD_MAP, "Keymap filename", "Pathname of the keymap file used", "", BX_PATHNAME_LEN); deplist = new bx_list_c (BXP_NULL, 1); deplist->add (bx_options.keyboard.Okeymap); bx_options.keyboard.OuseMapping->set_dependent_list (deplist); // Keyboard type bx_options.Okeyboard_type = new bx_param_enum_c (BXP_KBD_TYPE, "Keyboard type", "Keyboard type reported by the 'identify keyboard' command", keyboard_type_names, BX_KBD_MF_TYPE, BX_KBD_XT_TYPE); bx_options.Okeyboard_type->set_ask_format ("Enter keyboard type: [%s] "); // Userbutton shortcut bx_options.Ouser_shortcut = new bx_param_string_c (BXP_USER_SHORTCUT, "Userbutton shortcut", "Defines the keyboard shortcut to be sent when you press the 'user' button in the headerbar.", "none", 16); // GDB stub bx_options.gdbstub.port = 1234; bx_options.gdbstub.text_base = 0; bx_options.gdbstub.data_base = 0; bx_options.gdbstub.bss_base = 0; bx_param_c *keyboard_init_list[] = { bx_options.Okeyboard_serial_delay, bx_options.Okeyboard_paste_delay, bx_options.keyboard.OuseMapping, bx_options.keyboard.Okeymap, bx_options.Okeyboard_type, bx_options.Ouser_shortcut, NULL }; menu = new bx_list_c (BXP_MENU_KEYBOARD, "Configure Keyboard", "", keyboard_init_list); menu->get_options ()->set (menu->SHOW_PARENT); bx_param_c *other_init_list[] = { bx_options.Ofloppy_command_delay, bx_options.Oi440FXSupport, bx_options.cmos.OcmosImage, bx_options.cmos.Opath, SIM->get_param (BXP_CLOCK), SIM->get_param (BXP_LOAD32BITOS), NULL }; menu = new bx_list_c (BXP_MENU_MISC, "Configure Everything Else", "", other_init_list); menu->get_options ()->set (menu->SHOW_PARENT); #if BX_WITH_WX bx_param_c *other_init_list2[] = { // bx_options.Osel_config, // bx_options.Osel_displaylib, bx_options.Ovga_update_interval, bx_options.log.Oprefix, bx_options.Omouse_enabled, bx_options.OfloppySigCheck, bx_options.Ofloppy_command_delay, bx_options.OnewHardDriveSupport, bx_options.Oprivate_colormap, #if BX_WITH_AMIGAOS bx_options.Ofullscreen, bx_options.Oscreenmode, #endif bx_options.Oi440FXSupport, bx_options.cmos.OcmosImage, bx_options.cmos.Opath, NULL }; menu = new bx_list_c (BXP_MENU_MISC_2, "Other options", "", other_init_list2); #endif } void bx_reset_options () { // drives bx_options.floppya.Opath->reset(); bx_options.floppya.Odevtype->reset(); bx_options.floppya.Otype->reset(); bx_options.floppya.Ostatus->reset(); bx_options.floppyb.Opath->reset(); bx_options.floppyb.Odevtype->reset(); bx_options.floppyb.Otype->reset(); bx_options.floppyb.Ostatus->reset(); for (Bit8u channel=0; channelreset(); bx_options.ata[channel].Oioaddr1->reset(); bx_options.ata[channel].Oioaddr2->reset(); bx_options.ata[channel].Oirq->reset(); for (Bit8u slave=0; slave<2; slave++) { bx_options.atadevice[channel][slave].Opresent->reset(); bx_options.atadevice[channel][slave].Otype->reset(); bx_options.atadevice[channel][slave].Omode->reset(); bx_options.atadevice[channel][slave].Opath->reset(); bx_options.atadevice[channel][slave].Ocylinders->reset(); bx_options.atadevice[channel][slave].Oheads->reset(); bx_options.atadevice[channel][slave].Ospt->reset(); bx_options.atadevice[channel][slave].Ostatus->reset(); bx_options.atadevice[channel][slave].Omodel->reset(); bx_options.atadevice[channel][slave].Obiosdetect->reset(); bx_options.atadevice[channel][slave].Otranslation->reset(); } } bx_options.OnewHardDriveSupport->reset(); // boot & memory bx_options.Obootdrive->reset(); bx_options.OfloppySigCheck->reset(); bx_options.memory.Osize->reset(); // standard ports bx_options.com[0].Oenabled->reset(); bx_options.com[0].Odev->reset(); bx_options.par[0].Oenabled->reset(); bx_options.par[0].Ooutfile->reset(); // rom images bx_options.rom.Opath->reset(); bx_options.rom.Oaddress->reset(); bx_options.optrom[0].Opath->reset(); bx_options.optrom[0].Oaddress->reset(); bx_options.optrom[1].Opath->reset(); bx_options.optrom[1].Oaddress->reset(); bx_options.optrom[2].Opath->reset(); bx_options.optrom[2].Oaddress->reset(); bx_options.optrom[3].Opath->reset(); bx_options.optrom[3].Oaddress->reset(); bx_options.vgarom.Opath->reset(); // interface bx_options.Ovga_update_interval->reset(); bx_options.Omouse_enabled->reset(); bx_options.Oips->reset(); bx_options.Oprivate_colormap->reset(); #if BX_WITH_AMIGAOS bx_options.Ofullscreen->reset(); bx_options.Oscreenmode->reset(); #endif // ne2k bx_options.ne2k.Opresent->reset(); bx_options.ne2k.Oioaddr->reset(); bx_options.ne2k.Oirq->reset(); bx_options.ne2k.Omacaddr->reset(); bx_options.ne2k.Oethmod->reset(); bx_options.ne2k.Oethdev->reset(); bx_options.ne2k.Oscript->reset(); // SB16 bx_options.sb16.Opresent->reset(); bx_options.sb16.Omidifile->reset(); bx_options.sb16.Owavefile->reset(); bx_options.sb16.Ologfile->reset(); bx_options.sb16.Omidimode->reset(); bx_options.sb16.Owavemode->reset(); bx_options.sb16.Ologlevel->reset(); bx_options.sb16.Odmatimer->reset(); // logfile bx_options.log.Ofilename->reset(); bx_options.log.Oprefix->reset(); bx_options.log.Odebugger_filename->reset(); // loader bx_options.load32bitOSImage.OwhichOS->reset(); bx_options.load32bitOSImage.Opath->reset(); bx_options.load32bitOSImage.Oiolog->reset(); bx_options.load32bitOSImage.Oinitrd->reset(); // keyboard bx_options.Okeyboard_serial_delay->reset(); bx_options.Okeyboard_paste_delay->reset(); bx_options.keyboard.OuseMapping->reset(); bx_options.keyboard.Okeymap->reset(); bx_options.Okeyboard_type->reset(); bx_options.Ouser_shortcut->reset(); // Clock bx_options.clock.Otime0->reset(); bx_options.clock.Osync->reset(); // other bx_options.Ofloppy_command_delay->reset(); bx_options.Oi440FXSupport->reset(); bx_options.cmos.OcmosImage->reset(); bx_options.cmos.Opath->reset(); bx_options.Otext_snapshot_check->reset(); } void bx_print_header () { fprintf (stderr, "%s\n", divider); char buffer[128]; sprintf (buffer, "Bochs x86 Emulator %s\n", VER_STRING); bx_center_print (stderr, buffer, 72); if (REL_STRING[0]) { sprintf (buffer, "%s\n", REL_STRING); bx_center_print (stderr, buffer, 72); } fprintf (stderr, "%s\n", divider); } #if BX_WITH_CARBON /* Original code by Darrell Walisser - dwaliss1@purdue.edu */ static void setupWorkingDirectory (char *path) { char parentdir[MAXPATHLEN]; char *c; strncpy ( parentdir, path, MAXPATHLEN ); c = (char*) parentdir; while (*c != '\0') /* go to end */ c++; while (*c != '/') /* back up to parent */ c--; *c = '\0'; /* cut off last part (binary name) */ /* chdir to the binary app's parent */ int n; n = chdir (parentdir); if (n) BX_PANIC (("failed to change dir to parent")); /* chdir to the .app's parent */ n = chdir ("../../../"); if (n) BX_PANIC (("failed to change to ../../..")); } /* Panic button to display fatal errors. Completely self contained, can't rely on carbon.cc being available */ static void carbonFatalDialog(const char *error, const char *exposition) { DialogRef alertDialog; CFStringRef cfError; CFStringRef cfExposition; DialogItemIndex index; AlertStdCFStringAlertParamRec alertParam = {0}; fprintf(stderr, "Entering carbonFatalDialog: %s\n", error); // Init libraries InitCursor(); // Assemble dialog cfError = CFStringCreateWithCString(NULL, error, kCFStringEncodingASCII); if(exposition != NULL) { cfExposition = CFStringCreateWithCString(NULL, exposition, kCFStringEncodingASCII); } else { cfExposition = NULL; } alertParam.version = kStdCFStringAlertVersionOne; alertParam.defaultText = CFSTR("Quit"); alertParam.position = kWindowDefaultPosition; alertParam.defaultButton = kAlertStdAlertOKButton; // Display Dialog CreateStandardAlert( kAlertStopAlert, cfError, cfExposition, /* can be NULL */ &alertParam, /* can be NULL */ &alertDialog); RunStandardAlert( alertDialog, NULL, &index); // Cleanup CFRelease( cfError ); if( cfExposition != NULL ) { CFRelease( cfExposition ); } } #endif int bxmain () { #ifdef HAVE_LOCALE_H // Initialize locale (for isprint() and other functions) setlocale (LC_ALL, ""); #endif bx_user_quit = 0; bx_init_siminterface (); // create the SIM object static jmp_buf context; if (setjmp (context) == 0) { SIM->set_quit_context (&context); if (bx_init_main (bx_startup_flags.argc, bx_startup_flags.argv) < 0) return 0; // read a param to decide which config interface to start. // If one exists, start it. If not, just begin. bx_param_enum_c *ci_param = SIM->get_param_enum (BXP_SEL_CONFIG_INTERFACE); char *ci_name = ci_param->get_choice (ci_param->get ()); if (!strcmp(ci_name, "textconfig")) { init_text_config_interface (); // in textconfig.h } #if BX_WITH_WX else if (!strcmp(ci_name, "wx")) { PLUG_load_plugin(wx, PLUGTYPE_CORE); } #endif else { BX_PANIC (("unsupported configuration interface '%s'", ci_name)); } int status = SIM->configuration_interface (ci_name, CI_START); if (status == CI_ERR_NO_TEXT_CONSOLE) BX_PANIC (("Bochs needed the text console, but it was not usable")); // user quit the config interface, so just quit } else { // quit via longjmp } SIM->set_quit_context (NULL); #if defined(WIN32) if (!bx_user_quit) { // ask user to press ENTER before exiting, so that they can read messages // before the console window is closed. This isn't necessary after pressing // the power button. fprintf (stderr, "\nBochs is exiting. Press ENTER when you're ready to close this window.\n"); char buf[16]; fgets (buf, sizeof(buf), stdin); } #endif return SIM->get_exit_code (); } #if defined(__WXMSW__) // win32 applications get the whole command line in one long string. // This function is used to split up the string into argc and argv, // so that the command line can be used on win32 just like on every // other platform. // // I'm sure other people have written this same function, and they may have // done it better, but I don't know where to find it. -BBD #ifndef MAX_ARGLEN #define MAX_ARGLEN 80 #endif int split_string_into_argv ( char *string, int *argc_out, char **argv, int max_argv) { char *buf0 = new char[strlen(string)+1]; strcpy (buf0, string); char *buf = buf0; int in_double_quote = 0, in_single_quote = 0; for (int i=0; i= max_argv) { fprintf (stderr, "too many arguments. Increase MAX_ARGUMENTS\n"); return -1; } argv[argc] = new char[MAX_ARGLEN]; outp = &argv[argc][0]; while (*p==' ') p++; break; case '"': if (in_single_quote) goto do_default; in_double_quote = !in_double_quote; p++; break; case '\'': if (in_double_quote) goto do_default; in_single_quote = !in_single_quote; p++; break; do_default: default: if (outp-&argv[argc][0] >= MAX_ARGLEN) { //fprintf (stderr, "command line arg %d exceeded max size %d\n", argc, MAX_ARGLEN); return -1; } *(outp++) = *(p++); } } if (in_single_quote) { fprintf (stderr, "end of string with mismatched single quote (')\n"); return -1; } if (in_double_quote) { fprintf (stderr, "end of string with mismatched double quote (\")\n"); return -1; } *argc_out = argc; return 0; } #endif /* if defined(__WXMSW__) */ #if defined(__WXMSW__) || (BX_WITH_SDL && defined(WIN32)) // The RedirectIOToConsole() function is copied from an article called "Adding // Console I/O to a Win32 GUI App" in Windows Developer Journal, December 1997. // It creates a console window. // // NOTE: It could probably be written so that it can safely be called for all // win32 builds. Right now it appears to have absolutely no error checking: // for example if AllocConsole returns false we should probably return early. void RedirectIOToConsole () { int hConHandle; long lStdHandle; FILE *fp; // allocate a console for this app AllocConsole(); // redirect unbuffered STDOUT to the console lStdHandle = (long)GetStdHandle(STD_OUTPUT_HANDLE); hConHandle = _open_osfhandle(lStdHandle, _O_TEXT); fp = _fdopen( hConHandle, "w" ); *stdout = *fp; setvbuf( stdout, NULL, _IONBF, 0 ); // redirect unbuffered STDIN to the console lStdHandle = (long)GetStdHandle(STD_INPUT_HANDLE); hConHandle = _open_osfhandle(lStdHandle, _O_TEXT); fp = _fdopen( hConHandle, "r" ); *stdin = *fp; setvbuf( stdin, NULL, _IONBF, 0 ); // redirect unbuffered STDERR to the console lStdHandle = (long)GetStdHandle(STD_ERROR_HANDLE); hConHandle = _open_osfhandle(lStdHandle, _O_TEXT); fp = _fdopen( hConHandle, "w" ); *stderr = *fp; setvbuf( stderr, NULL, _IONBF, 0 ); } #endif /* if defined(__WXMSW__) || (BX_WITH_SDL && defined(WIN32)) */ #if defined(__WXMSW__) // only used for wxWindows/win32. // This works ok in Cygwin with a standard wxWindows compile. In // VC++ wxWindows must be compiled with -DNOMAIN=1. int WINAPI WinMain( HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR m_lpCmdLine, int nCmdShow) { bx_startup_flags.hInstance = hInstance; bx_startup_flags.hPrevInstance = hPrevInstance; bx_startup_flags.m_lpCmdLine = m_lpCmdLine; bx_startup_flags.nCmdShow = nCmdShow; RedirectIOToConsole (); int max_argv = 20; bx_startup_flags.argv = (char**) malloc (max_argv * sizeof (char*)); split_string_into_argv (m_lpCmdLine, &bx_startup_flags.argc, bx_startup_flags.argv, max_argv); return bxmain (); } #endif #if !defined(__WXMSW__) // normal main function, presently in for all cases except for // wxWindows under win32. int main (int argc, char *argv[]) { bx_startup_flags.argc = argc; bx_startup_flags.argv = argv; #if BX_WITH_SDL && defined(WIN32) // if SDL/win32, try to create a console window. RedirectIOToConsole (); #endif return bxmain (); } #endif void print_usage () { fprintf(stderr, "Usage: bochs [flags] [bochsrc options]\n\n" " -n no configuration file\n" " -f configfile specify configuration file\n" " -q quick start (skip configuration interface)\n" " --help display this help and exit\n\n" "For information on Bochs configuration file arguments, see the\n" #if (!defined(WIN32)) && !BX_WITH_MACOS "bochsrc section in the user documentation or the man page of bochsrc.\n"); #else "bochsrc section in the user documentation.\n"); #endif } int bx_init_main (int argc, char *argv[]) { // To deal with initialization order problems inherent in C++, use the macros // SAFE_GET_IOFUNC and SAFE_GET_GENLOG to retrieve "io" and "genlog" in all // constructors or functions called by constructors. The macros test for // NULL and create the object if necessary, then return it. Ensure that io // and genlog get created, by making one reference to each macro right here. // All other code can reference io and genlog directly. Because these // objects are required for logging, and logging is so fundamental to // knowing what the program is doing, they are never free()d. SAFE_GET_IOFUNC(); // never freed SAFE_GET_GENLOG(); // never freed // initalization must be done early because some destructors expect // the bx_options to exist by the time they are called. bx_init_bx_dbg (); bx_init_options (); bx_print_header (); SIM->get_param_enum(BXP_BOCHS_START)->set (BX_RUN_START); // interpret the args that start with -, like -q, -f, etc. int arg = 1, load_rcfile=1; while (arg < argc) { // parse next arg if (!strcmp ("--help", argv[arg]) || !strncmp ("-h", argv[arg], 2)) { print_usage(); SIM->quit_sim (0); } else if (!strcmp ("-n", argv[arg])) { load_rcfile = 0; } else if (!strcmp ("-q", argv[arg])) { SIM->get_param_enum(BXP_BOCHS_START)->set (BX_QUICK_START); } else if (!strcmp ("-f", argv[arg])) { if (++arg >= argc) BX_PANIC(("-f must be followed by a filename")); else bochsrc_filename = argv[arg]; } else if (!strcmp ("-qf", argv[arg])) { SIM->get_param_enum(BXP_BOCHS_START)->set (BX_QUICK_START); if (++arg >= argc) BX_PANIC(("-qf must be followed by a filename")); else bochsrc_filename = argv[arg]; } #if BX_WITH_CARBON else if (!strncmp ("-psn", argv[arg], 4)) { // "-psn" is passed if we are launched by double-clicking // ugly hack. I don't know how to open a window to print messages in, // so put them in /tmp/early-bochs-out.txt. Sorry. -bbd io->init_log("/tmp/early-bochs-out.txt"); BX_INFO (("I was launched by double clicking. Fixing home directory.")); arg = argc; // ignore all other args. setupWorkingDirectory (argv[0]); // there is no stdin/stdout so disable the text-based config interface. SIM->get_param_enum(BXP_BOCHS_START)->set (BX_QUICK_START); char cwd[MAXPATHLEN]; getcwd (cwd); BX_INFO (("Now my working directory is %s", cwd)); // if it was started from command line, there could be some args still. for (int a=0; aget_param_enum(BXP_BOCHS_START)->set (BX_QUICK_START); } BX_INFO (("fixing default lib location ...")); // locate the lib directory within the application bundle. // our libs have been placed in bochs.app/Contents/(current platform aka MacOS)/lib // This isn't quite right, but they are platform specific and we haven't put // our plugins into true frameworks and bundles either mainBundle = CFBundleGetMainBundle(); BX_ASSERT(mainBundle != NULL); libDir = CFBundleCopyAuxiliaryExecutableURL( mainBundle, CFSTR("lib")); BX_ASSERT(libDir != NULL); // translate this to a unix style full path if(!CFURLGetFileSystemRepresentation(libDir, true, (UInt8 *)libDirPath, MAXPATHLEN)) { BX_PANIC(("Unable to work out ltdl library path within bochs bundle! (Most likely path too long!)")); return -1; } setenv("LTDL_LIBRARY_PATH", libDirPath, 1); BX_INFO (("now my LTDL_LIBRARY_PATH is %s", getenv("LTDL_LIBRARY_PATH"))); CFRelease(libDir); } #elif BX_HAVE_GETENV && BX_HAVE_SETENV if (getenv("LTDL_LIBRARY_PATH") != NULL) { BX_INFO (("LTDL_LIBRARY_PATH is set to '%s'", getenv("LTDL_LIBRARY_PATH"))); } else { BX_INFO (("LTDL_LIBRARY_PATH not set. using compile time default '%s'", BX_PLUGIN_PATH)); setenv("LTDL_LIBRARY_PATH", BX_PLUGIN_PATH, 1); } if (getenv("BXSHARE") != NULL) { BX_INFO (("BXSHARE is set to '%s'", getenv("BXSHARE"))); } else { BX_INFO (("BXSHARE not set. using compile time default '%s'", BX_SHARE_PATH)); setenv("BXSHARE", BX_SHARE_PATH, 1); } #else // we don't have getenv or setenv. Do nothing. #endif #endif /* if BX_PLUGINS */ #if !BX_USE_CONFIG_INTERFACE // this allows people to get quick start behavior by default SIM->get_param_enum(BXP_BOCHS_START)->set (BX_QUICK_START); #endif int norcfile = 1; if (load_rcfile) { /* parse configuration file and command line arguments */ if (bochsrc_filename == NULL) bochsrc_filename = bx_find_bochsrc (); if (bochsrc_filename) norcfile = bx_read_configuration (bochsrc_filename); } if (norcfile) { // No configuration was loaded, so the current settings are unusable. // Switch off quick start so that we will drop into the configuration // interface. if (SIM->get_param_enum(BXP_BOCHS_START)->get() == BX_QUICK_START) { if (!SIM->test_for_text_console ()) BX_PANIC(("Unable to start Bochs without a bochsrc.txt and without a text console")); else BX_ERROR (("Switching off quick start, because no configuration file was found.")); } SIM->get_param_enum(BXP_BOCHS_START)->set (BX_LOAD_START); } // parse the rest of the command line. This is done after reading the // configuration file so that the command line arguments can override // the settings from the file. if (bx_parse_cmdline (arg, argc, argv)) { BX_PANIC(("There were errors while parsing the command line")); return -1; } // initialize plugin system. This must happen before we attempt to // load any modules. plugin_startup(); return 0; } bx_bool load_and_init_display_lib () { if (bx_gui != NULL) { // bx_gui has already been filled in. This happens when you start // the simulation for the second time. // Also, if you load wxWindows as the configuration interface. Its // plugin_init will install wxWindows as the bx_gui. return true; } BX_ASSERT (bx_gui == NULL); bx_param_enum_c *ci_param = SIM->get_param_enum (BXP_SEL_CONFIG_INTERFACE); char *ci_name = ci_param->get_choice (ci_param->get ()); bx_param_enum_c *gui_param = SIM->get_param_enum(BXP_SEL_DISPLAY_LIBRARY); char *gui_name = gui_param->get_choice (gui_param->get ()); if (!strcmp(ci_name, "wx")) { BX_ERROR(("change of the config interface to wx not implemented yet")); } if (!strcmp (gui_name, "wx")) { // they must not have used wx as the configuration interface, or bx_gui // would already be initialized. Sorry, it doesn't work that way. BX_ERROR (("wxWindows was not used as the configuration interface, so it cannot be used as the display library")); // choose another, hopefully different! gui_param->set (0); gui_name = gui_param->get_choice (gui_param->get ()); if (!strcmp (gui_name, "wx")) { BX_PANIC (("no alternative display libraries are available")); return false; } BX_ERROR (("changing display library to '%s' instead", gui_name)); } #if BX_WITH_AMIGAOS if (!strcmp (gui_name, "amigaos")) PLUG_load_plugin (amigaos, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_BEOS if (!strcmp (gui_name, "beos")) PLUG_load_plugin (beos, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_CARBON if (!strcmp (gui_name, "carbon")) PLUG_load_plugin (carbon, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_MACOS if (!strcmp (gui_name, "macos")) PLUG_load_plugin (macintosh, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_NOGUI if (!strcmp (gui_name, "nogui")) PLUG_load_plugin (nogui, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_RFB if (!strcmp (gui_name, "rfb")) PLUG_load_plugin (rfb, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_SDL if (!strcmp (gui_name, "sdl")) PLUG_load_plugin (sdl, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_SVGA if (!strcmp (gui_name, "svga")) PLUG_load_plugin (svga, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_TERM if (!strcmp (gui_name, "term")) PLUG_load_plugin (term, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_WIN32 if (!strcmp (gui_name, "win32")) PLUG_load_plugin (win32, PLUGTYPE_OPTIONAL); #endif #if BX_WITH_X11 if (!strcmp (gui_name, "x")) PLUG_load_plugin (x, PLUGTYPE_OPTIONAL); #endif #if BX_GUI_SIGHANDLER // set the flag for guis requiring a GUI sighandler. // useful when guis are compiled as plugins // only term for now if (!strcmp (gui_name, "term")) { bx_gui_sighandler = 1; } #endif BX_ASSERT (bx_gui != NULL); return true; } int bx_begin_simulation (int argc, char *argv[]) { // deal with gui selection if (!load_and_init_display_lib ()) { BX_PANIC (("no gui module was loaded")); return 0; } #if BX_GDBSTUB // If using gdbstub, it will take control and call // bx_init_hardware() and cpu_loop() bx_gdbstub_init (argc, argv); #elif BX_DEBUGGER // If using the debugger, it will take control and call // bx_init_hardware() and cpu_loop() bx_dbg_main(argc, argv); #else bx_init_hardware(); if (bx_options.load32bitOSImage.OwhichOS->get ()) { void bx_load32bitOSimagehack(void); bx_load32bitOSimagehack(); } SIM->set_init_done (1); // update headerbar buttons since drive status can change during init bx_gui->update_drive_status_buttons (); // The set handler for mouse_enabled does not actually update the gui // until init_done is set. This forces the set handler to be called, // which sets up the mouse enabled GUI-specific stuff correctly. // Not a great solution but it works. BBD bx_options.Omouse_enabled->set (bx_options.Omouse_enabled->get ()); if (BX_SMP_PROCESSORS == 1) { // only one processor, run as fast as possible by not messing with // quantums and loops. BX_CPU(0)->cpu_loop(1); // for one processor, the only reason for cpu_loop to return is // that kill_bochs_request was set by the GUI interface. } else { // SMP simulation: do a few instructions on each processor, then switch // to another. Increasing quantum speeds up overall performance, but // reduces granularity of synchronization between processors. int processor = 0; int quantum = 5; while (1) { // do some instructions in each processor BX_CPU(processor)->cpu_loop(quantum); processor = (processor+1) % BX_SMP_PROCESSORS; if (BX_CPU(0)->kill_bochs_request) break; if (processor == 0) BX_TICKN(quantum); } } #endif BX_INFO (("cpu loop quit, shutting down simulator")); bx_atexit (); return(0); } int bx_read_configuration (char *rcfile) { // parse rcfile first, then parse arguments in order. BX_INFO (("reading configuration from %s", rcfile)); if (parse_bochsrc(rcfile) < 0) { BX_PANIC (("reading from %s failed", rcfile)); return -1; } // update log actions for (int level=0; levelget_default_log_action (level); io->set_log_action (level, action); } return 0; } int bx_parse_cmdline (int arg, int argc, char *argv[]) { //if (arg < argc) BX_INFO (("parsing command line arguments")); while (arg < argc) { BX_INFO (("parsing arg %d, %s", arg, argv[arg])); parse_line_unformatted("cmdline args", argv[arg]); arg++; } // update log actions for (int level=0; levelget_default_log_action (level); io->set_log_action (level, action); } return 0; } int bx_init_hardware() { // all configuration has been read, now initialize everything. if (SIM->get_param_enum(BXP_BOCHS_START)->get ()==BX_QUICK_START) { for (int level=0; levelget_default_log_action (level); #if !BX_USE_CONFIG_INTERFACE if (action == ACT_ASK) action = ACT_FATAL; #endif io->set_log_action (level, action); } } bx_pc_system.init_ips(bx_options.Oips->get ()); if(bx_options.log.Ofilename->getptr()[0]!='-') { BX_INFO (("using log file %s", bx_options.log.Ofilename->getptr ())); io->init_log(bx_options.log.Ofilename->getptr ()); } io->set_log_prefix(bx_options.log.Oprefix->getptr()); // Output to the log file the cpu settings // This will by handy for bug reports BX_INFO(("Bochs x86 Emulator %s", VER_STRING)); BX_INFO((" %s", REL_STRING)); BX_INFO(("System configuration")); BX_INFO((" processors: %d",BX_SMP_PROCESSORS)); BX_INFO((" A20 line support: %s",BX_SUPPORT_A20?"yes":"no")); BX_INFO((" APIC support: %s",BX_SUPPORT_APIC?"yes":"no")); BX_INFO(("CPU configuration")); BX_INFO((" level: %d",BX_CPU_LEVEL)); BX_INFO((" fpu support: %s",BX_SUPPORT_FPU?"yes":"no")); BX_INFO((" paging support: %s, tlb enabled: %s",BX_SUPPORT_PAGING?"yes":"no",BX_USE_TLB?"yes":"no")); BX_INFO((" mmx support: %s",BX_SUPPORT_MMX?"yes":"no")); BX_INFO((" sse support: %s",BX_SUPPORT_SSE==2?"2":BX_SUPPORT_SSE==1?"1":"no")); BX_INFO((" v8086 mode support: %s",BX_SUPPORT_V8086_MODE?"yes":"no")); BX_INFO((" 3dnow! support: %s",BX_SUPPORT_3DNOW?"yes":"no")); BX_INFO((" PAE support: %s",BX_SupportPAE?"yes":"no")); BX_INFO((" PGE support: %s",BX_SupportGlobalPages?"yes":"no")); BX_INFO((" PSE support: %s",BX_SUPPORT_4MEG_PAGES?"yes":"no")); BX_INFO((" x86-64 support: %s",BX_SUPPORT_X86_64?"yes":"no")); BX_INFO((" SEP support: %s",BX_SUPPORT_SEP?"yes":"no")); BX_INFO(("Optimization configuration")); BX_INFO((" Guest2HostTLB support: %s",BX_SupportGuest2HostTLB?"yes":"no")); BX_INFO((" RepeatSpeedups support: %s",BX_SupportRepeatSpeedups?"yes":"no")); BX_INFO((" Icache support: %s",BX_SupportICache?"yes":"no")); BX_INFO((" Host Asm support: %s",BX_SupportHostAsms?"yes":"no")); // set up memory and CPU objects #if BX_SUPPORT_APIC bx_generic_apic_c::reset_all_ids (); #endif // Check if there is a romimage if (strcmp(bx_options.rom.Opath->getptr (),"") == 0) { BX_ERROR(("No romimage to load. Is your bochsrc file loaded/valid ?")); } #if BX_SMP_PROCESSORS==1 BX_MEM(0)->init_memory(bx_options.memory.Osize->get () * 1024*1024); // First load the optional ROM images if (strcmp(bx_options.optrom[0].Opath->getptr (),"") !=0 ) BX_MEM(0)->load_ROM(bx_options.optrom[0].Opath->getptr (), bx_options.optrom[0].Oaddress->get (), 2); if (strcmp(bx_options.optrom[1].Opath->getptr (),"") !=0 ) BX_MEM(0)->load_ROM(bx_options.optrom[1].Opath->getptr (), bx_options.optrom[1].Oaddress->get (), 2); if (strcmp(bx_options.optrom[2].Opath->getptr (),"") !=0 ) BX_MEM(0)->load_ROM(bx_options.optrom[2].Opath->getptr (), bx_options.optrom[2].Oaddress->get (), 2); if (strcmp(bx_options.optrom[3].Opath->getptr (),"") !=0 ) BX_MEM(0)->load_ROM(bx_options.optrom[3].Opath->getptr (), bx_options.optrom[3].Oaddress->get (), 2); // Then Load the BIOS and VGABIOS BX_MEM(0)->load_ROM(bx_options.rom.Opath->getptr (), bx_options.rom.Oaddress->get (), 0); BX_MEM(0)->load_ROM(bx_options.vgarom.Opath->getptr (), 0xc0000, 1); BX_CPU(0)->init (BX_MEM(0)); BX_CPU(0)->set_cpu_id(0); #if BX_SUPPORT_APIC BX_CPU(0)->local_apic.set_id (0); #endif BX_INSTR_INIT(0); BX_CPU(0)->reset(BX_RESET_HARDWARE); #else // SMP initialization bx_mem_array[0] = new BX_MEM_C (); bx_mem_array[0]->init_memory(bx_options.memory.Osize->get () * 1024*1024); // First load the optional ROM images if (strcmp(bx_options.optrom[0].Opath->getptr (),"") !=0 ) bx_mem_array[0]->load_ROM(bx_options.optrom[0].Opath->getptr (), bx_options.optrom[0].Oaddress->get (), 2); if (strcmp(bx_options.optrom[1].Opath->getptr (),"") !=0 ) bx_mem_array[0]->load_ROM(bx_options.optrom[1].Opath->getptr (), bx_options.optrom[1].Oaddress->get (), 2); if (strcmp(bx_options.optrom[2].Opath->getptr (),"") !=0 ) bx_mem_array[0]->load_ROM(bx_options.optrom[2].Opath->getptr (), bx_options.optrom[2].Oaddress->get (), 2); if (strcmp(bx_options.optrom[3].Opath->getptr (),"") !=0 ) bx_mem_array[0]->load_ROM(bx_options.optrom[3].Opath->getptr (), bx_options.optrom[3].Oaddress->get (), 2); // Then Load the BIOS and VGABIOS bx_mem_array[0]->load_ROM(bx_options.rom.Opath->getptr (), bx_options.rom.Oaddress->get (), 0); bx_mem_array[0]->load_ROM(bx_options.vgarom.Opath->getptr (), 0xc0000, 1); for (int i=0; iinit (bx_mem_array[0]); // assign apic ID from the index of this loop // if !BX_SUPPORT_APIC, this will not compile. BX_CPU(i)->set_cpu_id(i); BX_CPU(i)->local_apic.set_id (i); BX_INSTR_INIT(i); BX_CPU(i)->reset(BX_RESET_HARDWARE); } #endif #if BX_DEBUGGER == 0 DEV_init_devices(); DEV_reset_devices(BX_RESET_HARDWARE); bx_gui->init_signal_handlers (); bx_pc_system.start_timers(); #endif BX_DEBUG(("bx_init_hardware is setting signal handlers")); // if not using debugger, then we can take control of SIGINT. #if !BX_DEBUGGER signal(SIGINT, bx_signal_handler); #endif #if BX_SHOW_IPS #ifndef __MINGW32__ signal(SIGALRM, bx_signal_handler); #endif alarm( 1 ); #endif return(0); } void bx_init_bx_dbg (void) { bx_dbg.floppy = 0; bx_dbg.keyboard = 0; bx_dbg.video = 0; bx_dbg.disk = 0; bx_dbg.pit = 0; bx_dbg.pic = 0; bx_dbg.bios = 0; bx_dbg.cmos = 0; bx_dbg.a20 = 0; bx_dbg.interrupts = 0; bx_dbg.exceptions = 0; bx_dbg.unsupported = 0; bx_dbg.temp = 0; bx_dbg.reset = 0; bx_dbg.mouse = 0; bx_dbg.io = 0; bx_dbg.debugger = 0; bx_dbg.xms = 0; bx_dbg.v8086 = 0; bx_dbg.paging = 0; bx_dbg.creg = 0; bx_dbg.dreg = 0; bx_dbg.dma = 0; bx_dbg.unsupported_io = 0; bx_dbg.record_io = 0; bx_dbg.serial = 0; bx_dbg.cdrom = 0; #ifdef MAGIC_BREAKPOINT bx_dbg.magic_break_enabled = 0; #endif } int bx_atexit(void) { static bx_bool been_here = 0; if (been_here) return 1; // protect from reentry been_here = 1; // in case we ended up in simulation mode, change back to config mode // so that the user can see any messages left behind on the console. SIM->set_display_mode (DISP_MODE_CONFIG); #if BX_PROVIDE_DEVICE_MODELS==1 bx_pc_system.exit(); #endif #if BX_DEBUGGER == 0 if (SIM && SIM->get_init_done ()) { for (int cpu=0; cpuatexit(); } #endif #if BX_PCI_SUPPORT if (bx_options.Oi440FXSupport->get ()) { bx_devices.pluginPciBridge->print_i440fx_state(); } #endif // restore signal handling to defaults #if !BX_DEBUGGER BX_INFO (("restoring default signal behavior")); signal(SIGINT, SIG_DFL); #endif #if BX_SHOW_IPS #ifndef __MINGW32__ signal(SIGALRM, SIG_DFL); #endif #endif return 0; } #if BX_PROVIDE_MAIN char * bx_find_bochsrc () { FILE *fd = NULL; char rcfile[512]; Bit32u retry = 0, found = 0; // try several possibilities for the bochsrc before giving up while (!found) { rcfile[0] = 0; switch (retry++) { case 0: strcpy (rcfile, ".bochsrc"); break; case 1: strcpy (rcfile, "bochsrc"); break; case 2: strcpy (rcfile, "bochsrc.txt"); break; #ifdef WIN32 case 3: strcpy (rcfile, "bochsrc.bxrc"); break; #elif !BX_WITH_MACOS // only try this on unix case 3: { char *ptr = getenv("HOME"); if (ptr) sprintf (rcfile, "%s/.bochsrc", ptr); } break; case 4: strcpy (rcfile, "/etc/bochsrc"); break; #endif default: return NULL; } if (rcfile[0]) { BX_DEBUG (("looking for configuration in %s", rcfile)); fd = fopen(rcfile, "r"); if (fd) found = 1; } } assert (fd != NULL && rcfile[0] != 0); fclose (fd); return strdup (rcfile); } static int parse_bochsrc(char *rcfile) { FILE *fd = NULL; char *ret; char line[512]; // try several possibilities for the bochsrc before giving up bochsrc_include_count++; fd = fopen (rcfile, "r"); if (fd == NULL) return -1; int retval = 0; do { ret = fgets(line, sizeof(line)-1, fd); line[sizeof(line) - 1] = '\0'; int len = strlen(line); if (len>0) line[len-1] = '\0'; if ((ret != NULL) && strlen(line)) { if (parse_line_unformatted(rcfile, line) < 0) { retval = -1; break; // quit parsing after first error } } } while (!feof(fd)); fclose(fd); bochsrc_include_count--; return retval; } static char * get_builtin_variable(char *varname) { #ifdef WIN32 int code; DWORD size; DWORD type = 0; HKEY hkey; char keyname[80]; static char data[MAX_PATH]; #endif if (strlen(varname)<1) return NULL; else { if (!strcmp(varname, "BXSHARE")) { #ifdef WIN32 wsprintf(keyname, "Software\\Bochs %s", VER_STRING); code = RegOpenKeyEx(HKEY_LOCAL_MACHINE, keyname, 0, KEY_READ, &hkey); if (code == ERROR_SUCCESS) { data[0] = 0; size = MAX_PATH; if (RegQueryValueEx(hkey, "", NULL, (LPDWORD)&type, (LPBYTE)data, (LPDWORD)&size ) == ERROR_SUCCESS ) { RegCloseKey(hkey); return data; } else { RegCloseKey(hkey); return NULL; } } else { return NULL; } #else return BX_SHARE_PATH; #endif } return NULL; } } static Bit32s parse_line_unformatted(char *context, char *line) { #define MAX_PARAMS_LEN 40 char *ptr; unsigned i, string_i; char string[512]; char *params[MAX_PARAMS_LEN]; int num_params; bx_bool inquotes = 0; bx_bool comment = 0; memset(params, 0, sizeof(params)); if (line == NULL) return 0; // if passed nothing but whitespace, just return for (i=0; i=strlen(line)) return 0; num_params = 0; if (!strncmp(line, "#include", 8)) ptr = strtok(line, " "); else ptr = strtok(line, ":"); while ((ptr) && (!comment)) { string_i = 0; for (i=0; iset (BX_EJECTED); } else if (!strncmp(params[i], "status=inserted", 15)) { bx_options.floppya.Ostatus->set (BX_INSERTED); } else { PARSE_ERR(("%s: floppya attribute '%s' not understood.", context, params[i])); } } } else if (!strcmp(params[0], "gdbstub_port")) { if (num_params != 2) { fprintf(stderr, ".bochsrc: gdbstub_port directive: wrong # args.\n"); exit(1); } bx_options.gdbstub.port = atoi(params[1]); } else if (!strcmp(params[0], "gdbstub_text_base")) { if (num_params != 2) { fprintf(stderr, ".bochsrc: gdbstub_text_base directive: wrong # args.\n"); exit(1); } bx_options.gdbstub.text_base = atoi(params[1]); } else if (!strcmp(params[0], "gdbstub_data_base")) { if (num_params != 2) { fprintf(stderr, ".bochsrc: gdbstub_data_base directive: wrong # args.\n"); exit(1); } bx_options.gdbstub.data_base = atoi(params[1]); } else if (!strcmp(params[0], "gdbstub_bss_base")) { if (num_params != 2) { fprintf(stderr, ".bochsrc: gdbstub_bss_base directive: wrong # args.\n"); exit(1); } bx_options.gdbstub.bss_base = atoi(params[1]); } else if (!strcmp(params[0], "floppyb")) { for (i=1; iset (BX_EJECTED); } else if (!strncmp(params[i], "status=inserted", 15)) { bx_options.floppyb.Ostatus->set (BX_INSERTED); } else { PARSE_ERR(("%s: floppyb attribute '%s' not understood.", context, params[i])); } } } else if ((!strncmp(params[0], "ata", 3)) && (strlen(params[0]) == 4)) { Bit8u channel = params[0][3]; if ((channel < '0') || (channel > '9')) { PARSE_ERR(("%s: ataX directive malformed.", context)); } channel-='0'; if (channel >= BX_MAX_ATA_CHANNEL) { PARSE_ERR(("%s: ataX directive malformed.", context)); } if ((num_params < 2) || (num_params > 5)) { PARSE_ERR(("%s: ataX directive malformed.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: ataX directive malformed.", context)); } else { bx_options.ata[channel].Opresent->set (atol(¶ms[1][8])); } if (num_params > 2) { if (strncmp(params[2], "ioaddr1=", 8)) { PARSE_ERR(("%s: ataX directive malformed.", context)); } else { if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.ata[channel].Oioaddr1->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.ata[channel].Oioaddr1->set (strtoul (¶ms[2][8], NULL, 10)); } } if (num_params > 3) { if (strncmp(params[3], "ioaddr2=", 8)) { PARSE_ERR(("%s: ataX directive malformed.", context)); } else { if ( (params[3][8] == '0') && (params[3][9] == 'x') ) bx_options.ata[channel].Oioaddr2->set (strtoul (¶ms[3][8], NULL, 16)); else bx_options.ata[channel].Oioaddr2->set (strtoul (¶ms[3][8], NULL, 10)); } } if (num_params > 4) { if (strncmp(params[4], "irq=", 4)) { PARSE_ERR(("%s: ataX directive malformed.", context)); } else { bx_options.ata[channel].Oirq->set (atol(¶ms[4][4])); } } } // ataX-master, ataX-slave else if ((!strncmp(params[0], "ata", 3)) && (strlen(params[0]) > 4)) { Bit8u channel = params[0][3], slave = 0; if ((channel < '0') || (channel > '9')) { PARSE_ERR(("%s: ataX-master/slave directive malformed.", context)); } channel-='0'; if (channel >= BX_MAX_ATA_CHANNEL) { PARSE_ERR(("%s: ataX-master/slave directive malformed.", context)); } if ((strcmp(¶ms[0][4], "-slave")) && (strcmp(¶ms[0][4], "-master"))) { PARSE_ERR(("%s: ataX-master/slave directive malformed.", context)); } if (!strcmp(¶ms[0][4], "-slave")) { slave = 1; } // This was originally meant to warn users about both diskc // and ata0-master defined, but it also prevent users to // override settings on the command line // (see [ 661010 ] cannot override ata-settings from cmdline) // if (bx_options.atadevice[channel][slave].Opresent->get()) { // BX_INFO(("%s: %s device of ata channel %d already defined.", context, slave?"slave":"master",channel)); // } for (i=1; iset (BX_ATA_DEVICE_DISK); } else if (!strcmp(params[i], "type=cdrom")) { bx_options.atadevice[channel][slave].Otype->set (BX_ATA_DEVICE_CDROM); } else if (!strcmp(params[i], "mode=flat")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_FLAT); } else if (!strcmp(params[i], "mode=concat")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_CONCAT); } else if (!strcmp(params[i], "mode=external")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_EXTDISKSIM); } else if (!strcmp(params[i], "mode=dll")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_DLL_HD); } else if (!strcmp(params[i], "mode=sparse")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_SPARSE); } else if (!strcmp(params[i], "mode=vmware3")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_VMWARE3); } // else if (!strcmp(params[i], "mode=split")) { // bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_SPLIT); // } else if (!strcmp(params[i], "mode=undoable")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_UNDOABLE); } else if (!strcmp(params[i], "mode=growing")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_GROWING); } else if (!strcmp(params[i], "mode=volatile")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_VOLATILE); } else if (!strcmp(params[i], "mode=z-undoable")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_Z_UNDOABLE); } else if (!strcmp(params[i], "mode=z-volatile")) { bx_options.atadevice[channel][slave].Omode->set (BX_ATA_MODE_Z_VOLATILE); } else if (!strncmp(params[i], "path=", 5)) { bx_options.atadevice[channel][slave].Opath->set (¶ms[i][5]); } else if (!strncmp(params[i], "cylinders=", 10)) { bx_options.atadevice[channel][slave].Ocylinders->set (atol(¶ms[i][10])); } else if (!strncmp(params[i], "heads=", 6)) { bx_options.atadevice[channel][slave].Oheads->set (atol(¶ms[i][6])); } else if (!strncmp(params[i], "spt=", 4)) { bx_options.atadevice[channel][slave].Ospt->set (atol(¶ms[i][4])); } else if (!strncmp(params[i], "model=", 6)) { bx_options.atadevice[channel][slave].Omodel->set(¶ms[i][6]); } else if (!strcmp(params[i], "biosdetect=none")) { bx_options.atadevice[channel][slave].Obiosdetect->set(BX_ATA_BIOSDETECT_NONE); } else if (!strcmp(params[i], "biosdetect=cmos")) { bx_options.atadevice[channel][slave].Obiosdetect->set(BX_ATA_BIOSDETECT_CMOS); } else if (!strcmp(params[i], "biosdetect=auto")) { bx_options.atadevice[channel][slave].Obiosdetect->set(BX_ATA_BIOSDETECT_AUTO); } else if (!strcmp(params[i], "translation=none")) { bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_NONE); } else if (!strcmp(params[i], "translation=lba")) { bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_LBA); } else if (!strcmp(params[i], "translation=large")) { bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_LARGE); } else if (!strcmp(params[i], "translation=echs")) { // synonym of large bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_LARGE); } else if (!strcmp(params[i], "translation=rechs")) { bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_RECHS); } else if (!strcmp(params[i], "translation=auto")) { bx_options.atadevice[channel][slave].Otranslation->set(BX_ATA_TRANSLATION_AUTO); } else if (!strcmp(params[i], "status=ejected")) { bx_options.atadevice[channel][slave].Ostatus->set(BX_EJECTED); } else if (!strcmp(params[i], "status=inserted")) { bx_options.atadevice[channel][slave].Ostatus->set(BX_INSERTED); } else if (!strncmp(params[i], "journal=", 8)) { bx_options.atadevice[channel][slave].Ojournal->set(¶ms[i][8]); } else { PARSE_ERR(("%s: ataX-master/slave directive malformed.", context)); } } // Enables the ata device bx_options.atadevice[channel][slave].Opresent->set(1); // if enabled, check if device ok if (bx_options.atadevice[channel][slave].Opresent->get() == 1) { if (bx_options.atadevice[channel][slave].Otype->get() == BX_ATA_DEVICE_DISK) { if (strlen(bx_options.atadevice[channel][slave].Opath->getptr()) ==0) PARSE_WARN(("%s: ataX-master/slave has empty path", context)); if ((bx_options.atadevice[channel][slave].Ocylinders->get() == 0) || (bx_options.atadevice[channel][slave].Oheads->get() ==0 ) || (bx_options.atadevice[channel][slave].Ospt->get() == 0)) { PARSE_WARN(("%s: ataX-master/slave cannot have zero cylinders, heads, or sectors/track", context)); } } else if (bx_options.atadevice[channel][slave].Otype->get() == BX_ATA_DEVICE_CDROM) { if (strlen(bx_options.atadevice[channel][slave].Opath->getptr()) == 0) { PARSE_WARN(("%s: ataX-master/slave has empty path", context)); } } else { PARSE_WARN(("%s: ataX-master/slave: type should be specified", context)); } } } // Legacy disk options emulation else if (!strcmp(params[0], "diskc")) { // DEPRECATED BX_INFO(("WARNING: diskc directive is deprecated, use ata0-master: instead")); if (bx_options.atadevice[0][0].Opresent->get()) { PARSE_ERR(("%s: master device of ata channel 0 already defined.", context)); } if (num_params != 5) { PARSE_ERR(("%s: diskc directive malformed.", context)); } if (strncmp(params[1], "file=", 5) || strncmp(params[2], "cyl=", 4) || strncmp(params[3], "heads=", 6) || strncmp(params[4], "spt=", 4)) { PARSE_ERR(("%s: diskc directive malformed.", context)); } bx_options.ata[0].Opresent->set(1); bx_options.atadevice[0][0].Otype->set (BX_ATA_DEVICE_DISK); bx_options.atadevice[0][0].Opath->set (¶ms[1][5]); bx_options.atadevice[0][0].Ocylinders->set (atol(¶ms[2][4])); bx_options.atadevice[0][0].Oheads->set (atol(¶ms[3][6])); bx_options.atadevice[0][0].Ospt->set (atol(¶ms[4][4])); bx_options.atadevice[0][0].Opresent->set (1); } else if (!strcmp(params[0], "diskd")) { // DEPRECATED BX_INFO(("WARNING: diskd directive is deprecated, use ata0-slave: instead")); if (bx_options.atadevice[0][1].Opresent->get()) { PARSE_ERR(("%s: slave device of ata channel 0 already defined.", context)); } if (num_params != 5) { PARSE_ERR(("%s: diskd directive malformed.", context)); } if (strncmp(params[1], "file=", 5) || strncmp(params[2], "cyl=", 4) || strncmp(params[3], "heads=", 6) || strncmp(params[4], "spt=", 4)) { PARSE_ERR(("%s: diskd directive malformed.", context)); } bx_options.ata[0].Opresent->set(1); bx_options.atadevice[0][1].Otype->set (BX_ATA_DEVICE_DISK); bx_options.atadevice[0][1].Opath->set (¶ms[1][5]); bx_options.atadevice[0][1].Ocylinders->set (atol( ¶ms[2][4])); bx_options.atadevice[0][1].Oheads->set (atol( ¶ms[3][6])); bx_options.atadevice[0][1].Ospt->set (atol( ¶ms[4][4])); bx_options.atadevice[0][1].Opresent->set (1); } else if (!strcmp(params[0], "cdromd")) { // DEPRECATED BX_INFO(("WARNING: cdromd directive is deprecated, use ata0-slave: instead")); if (bx_options.atadevice[0][1].Opresent->get()) { PARSE_ERR(("%s: slave device of ata channel 0 already defined.", context)); } if (num_params != 3) { PARSE_ERR(("%s: cdromd directive malformed.", context)); } if (strncmp(params[1], "dev=", 4) || strncmp(params[2], "status=", 7)) { PARSE_ERR(("%s: cdromd directive malformed.", context)); } bx_options.ata[0].Opresent->set(1); bx_options.atadevice[0][1].Otype->set (BX_ATA_DEVICE_CDROM); bx_options.atadevice[0][1].Opath->set (¶ms[1][4]); if (!strcmp(params[2], "status=inserted")) bx_options.atadevice[0][1].Ostatus->set (BX_INSERTED); else if (!strcmp(params[2], "status=ejected")) bx_options.atadevice[0][1].Ostatus->set (BX_EJECTED); else { PARSE_ERR(("%s: cdromd directive malformed.", context)); } bx_options.atadevice[0][1].Opresent->set (1); } else if (!strcmp(params[0], "boot")) { if (!strcmp(params[1], "a")) { bx_options.Obootdrive->set (BX_BOOT_FLOPPYA); } else if (!strcmp(params[1], "floppy")) { bx_options.Obootdrive->set (BX_BOOT_FLOPPYA); } else if (!strcmp(params[1], "c")) { bx_options.Obootdrive->set (BX_BOOT_DISKC); } else if (!strcmp(params[1], "disk")) { bx_options.Obootdrive->set (BX_BOOT_DISKC); } else if (!strcmp(params[1], "cdrom")) { bx_options.Obootdrive->set (BX_BOOT_CDROM); } else { PARSE_ERR(("%s: boot directive with unknown boot device '%s'. use 'floppy', 'disk' or 'cdrom'.", context, params[1])); } } else if (!strcmp(params[0], "com1")) { for (i=1; iset (0); else if (params[1][9] == '1') bx_options.OfloppySigCheck->set (1); else { PARSE_ERR(("%s: floppy_bootsig_check directive malformed.", context)); } } else if (!strcmp(params[0], "log")) { if (num_params != 2) { PARSE_ERR(("%s: log directive has wrong # args.", context)); } bx_options.log.Ofilename->set (params[1]); } else if (!strcmp(params[0], "logprefix")) { if (num_params != 2) { PARSE_ERR(("%s: logprefix directive has wrong # args.", context)); } bx_options.log.Oprefix->set (params[1]); } else if (!strcmp(params[0], "debugger_log")) { if (num_params != 2) { PARSE_ERR(("%s: debugger_log directive has wrong # args.", context)); } bx_options.log.Odebugger_filename->set (params[1]); } else if (!strcmp(params[0], "panic")) { if (num_params != 2) { PARSE_ERR(("%s: panic directive malformed.", context)); } if (strncmp(params[1], "action=", 7)) { PARSE_ERR(("%s: panic directive malformed.", context)); } char *action = 7 + params[1]; if (!strcmp(action, "fatal")) SIM->set_default_log_action (LOGLEV_PANIC, ACT_FATAL); else if (!strcmp (action, "report")) SIM->set_default_log_action (LOGLEV_PANIC, ACT_REPORT); else if (!strcmp (action, "ignore")) SIM->set_default_log_action (LOGLEV_PANIC, ACT_IGNORE); else if (!strcmp (action, "ask")) SIM->set_default_log_action (LOGLEV_PANIC, ACT_ASK); else { PARSE_ERR(("%s: panic directive malformed.", context)); } } else if (!strcmp(params[0], "pass")) { if (num_params != 2) { PARSE_ERR(("%s: pass directive malformed.", context)); } if (strncmp(params[1], "action=", 7)) { PARSE_ERR(("%s: pass directive malformed.", context)); } char *action = 7 + params[1]; if (!strcmp(action, "fatal")) SIM->set_default_log_action (LOGLEV_PASS, ACT_FATAL); else if (!strcmp (action, "report")) SIM->set_default_log_action (LOGLEV_PASS, ACT_REPORT); else if (!strcmp (action, "ignore")) SIM->set_default_log_action (LOGLEV_PASS, ACT_IGNORE); else if (!strcmp (action, "ask")) SIM->set_default_log_action (LOGLEV_PASS, ACT_ASK); else { PARSE_ERR(("%s: pass directive malformed.", context)); } } else if (!strcmp(params[0], "error")) { if (num_params != 2) { PARSE_ERR(("%s: error directive malformed.", context)); } if (strncmp(params[1], "action=", 7)) { PARSE_ERR(("%s: error directive malformed.", context)); } char *action = 7 + params[1]; if (!strcmp(action, "fatal")) SIM->set_default_log_action (LOGLEV_ERROR, ACT_FATAL); else if (!strcmp (action, "report")) SIM->set_default_log_action (LOGLEV_ERROR, ACT_REPORT); else if (!strcmp (action, "ignore")) SIM->set_default_log_action (LOGLEV_ERROR, ACT_IGNORE); else if (!strcmp (action, "ask")) SIM->set_default_log_action (LOGLEV_ERROR, ACT_ASK); else { PARSE_ERR(("%s: error directive malformed.", context)); } } else if (!strcmp(params[0], "info")) { if (num_params != 2) { PARSE_ERR(("%s: info directive malformed.", context)); } if (strncmp(params[1], "action=", 7)) { PARSE_ERR(("%s: info directive malformed.", context)); } char *action = 7 + params[1]; if (!strcmp(action, "fatal")) SIM->set_default_log_action (LOGLEV_INFO, ACT_FATAL); else if (!strcmp (action, "report")) SIM->set_default_log_action (LOGLEV_INFO, ACT_REPORT); else if (!strcmp (action, "ignore")) SIM->set_default_log_action (LOGLEV_INFO, ACT_IGNORE); else if (!strcmp (action, "ask")) SIM->set_default_log_action (LOGLEV_INFO, ACT_ASK); else { PARSE_ERR(("%s: info directive malformed.", context)); } } else if (!strcmp(params[0], "debug")) { if (num_params != 2) { PARSE_ERR(("%s: debug directive malformed.", context)); } if (strncmp(params[1], "action=", 7)) { PARSE_ERR(("%s: debug directive malformed.", context)); } char *action = 7 + params[1]; if (!strcmp(action, "fatal")) SIM->set_default_log_action (LOGLEV_DEBUG, ACT_FATAL); else if (!strcmp (action, "report")) SIM->set_default_log_action (LOGLEV_DEBUG, ACT_REPORT); else if (!strcmp (action, "ignore")) SIM->set_default_log_action (LOGLEV_DEBUG, ACT_IGNORE); else if (!strcmp (action, "ask")) SIM->set_default_log_action (LOGLEV_DEBUG, ACT_ASK); else { PARSE_ERR(("%s: debug directive malformed.", context)); } } else if (!strcmp(params[0], "romimage")) { if (num_params != 3) { PARSE_ERR(("%s: romimage directive: wrong # args.", context)); } if (strncmp(params[1], "file=", 5)) { PARSE_ERR(("%s: romimage directive malformed.", context)); } if (strncmp(params[2], "address=", 8)) { PARSE_ERR(("%s: romimage directive malformed.", context)); } bx_options.rom.Opath->set (¶ms[1][5]); if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.rom.Oaddress->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.rom.Oaddress->set (strtoul (¶ms[2][8], NULL, 10)); } else if (!strcmp(params[0], "optromimage1")) { if (num_params != 3) { PARSE_ERR(("%s: optromimage1 directive: wrong # args.", context)); } if (strncmp(params[1], "file=", 5)) { PARSE_ERR(("%s: optromimage1 directive malformed.", context)); } if (strncmp(params[2], "address=", 8)) { PARSE_ERR(("%s: optromimage2 directive malformed.", context)); } bx_options.optrom[0].Opath->set (¶ms[1][5]); if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.optrom[0].Oaddress->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.optrom[0].Oaddress->set (strtoul (¶ms[2][8], NULL, 10)); } else if (!strcmp(params[0], "optromimage2")) { if (num_params != 3) { PARSE_ERR(("%s: optromimage2 directive: wrong # args.", context)); } if (strncmp(params[1], "file=", 5)) { PARSE_ERR(("%s: optromimage2 directive malformed.", context)); } if (strncmp(params[2], "address=", 8)) { PARSE_ERR(("%s: optromimage2 directive malformed.", context)); } bx_options.optrom[1].Opath->set (¶ms[1][5]); if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.optrom[1].Oaddress->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.optrom[1].Oaddress->set (strtoul (¶ms[2][8], NULL, 10)); } else if (!strcmp(params[0], "optromimage3")) { if (num_params != 3) { PARSE_ERR(("%s: optromimage3 directive: wrong # args.", context)); } if (strncmp(params[1], "file=", 5)) { PARSE_ERR(("%s: optromimage3 directive malformed.", context)); } if (strncmp(params[2], "address=", 8)) { PARSE_ERR(("%s: optromimage2 directive malformed.", context)); } bx_options.optrom[2].Opath->set (¶ms[1][5]); if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.optrom[2].Oaddress->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.optrom[2].Oaddress->set (strtoul (¶ms[2][8], NULL, 10)); } else if (!strcmp(params[0], "optromimage4")) { if (num_params != 3) { PARSE_ERR(("%s: optromimage4 directive: wrong # args.", context)); } if (strncmp(params[1], "file=", 5)) { PARSE_ERR(("%s: optromimage4 directive malformed.", context)); } if (strncmp(params[2], "address=", 8)) { PARSE_ERR(("%s: optromimage2 directive malformed.", context)); } bx_options.optrom[3].Opath->set (¶ms[1][5]); if ( (params[2][8] == '0') && (params[2][9] == 'x') ) bx_options.optrom[3].Oaddress->set (strtoul (¶ms[2][8], NULL, 16)); else bx_options.optrom[3].Oaddress->set (strtoul (¶ms[2][8], NULL, 10)); } else if (!strcmp(params[0], "vgaromimage")) { if (num_params != 2) { PARSE_ERR(("%s: vgaromimage directive: wrong # args.", context)); } bx_options.vgarom.Opath->set (params[1]); } else if (!strcmp(params[0], "vga_update_interval")) { if (num_params != 2) { PARSE_ERR(("%s: vga_update_interval directive: wrong # args.", context)); } bx_options.Ovga_update_interval->set (atol(params[1])); if (bx_options.Ovga_update_interval->get () < 50000) { BX_INFO(("%s: vga_update_interval seems awfully small!", context)); } } else if (!strcmp(params[0], "keyboard_serial_delay")) { if (num_params != 2) { PARSE_ERR(("%s: keyboard_serial_delay directive: wrong # args.", context)); } bx_options.Okeyboard_serial_delay->set (atol(params[1])); if (bx_options.Okeyboard_serial_delay->get () < 5) { PARSE_ERR (("%s: keyboard_serial_delay not big enough!", context)); } } else if (!strcmp(params[0], "keyboard_paste_delay")) { if (num_params != 2) { PARSE_ERR(("%s: keyboard_paste_delay directive: wrong # args.", context)); } bx_options.Okeyboard_paste_delay->set (atol(params[1])); if (bx_options.Okeyboard_paste_delay->get () < 1000) { PARSE_ERR (("%s: keyboard_paste_delay not big enough!", context)); } } else if (!strcmp(params[0], "megs")) { if (num_params != 2) { PARSE_ERR(("%s: megs directive: wrong # args.", context)); } bx_options.memory.Osize->set (atol(params[1])); } else if (!strcmp(params[0], "floppy_command_delay")) { if (num_params != 2) { PARSE_ERR(("%s: floppy_command_delay directive: wrong # args.", context)); } bx_options.Ofloppy_command_delay->set (atol(params[1])); if (bx_options.Ofloppy_command_delay->get () < 100) { PARSE_ERR(("%s: floppy_command_delay not big enough!", context)); } } else if (!strcmp(params[0], "ips")) { if (num_params != 2) { PARSE_ERR(("%s: ips directive: wrong # args.", context)); } bx_options.Oips->set (atol(params[1])); if (bx_options.Oips->get () < BX_MIN_IPS) { BX_ERROR(("%s: WARNING: ips is AWFULLY low!", context)); } } else if (!strcmp(params[0], "pit")) { // Deprecated if (num_params != 2) { PARSE_ERR(("%s: pit directive: wrong # args.", context)); } BX_INFO(("WARNING: pit directive is deprecated, use clock: instead")); if (!strncmp(params[1], "realtime=", 9)) { switch (params[1][9]) { case '0': BX_INFO(("WARNING: not disabling realtime pit")); break; case '1': bx_options.clock.Osync->set (BX_CLOCK_SYNC_REALTIME); break; default: PARSE_ERR(("%s: pit expected realtime=[0|1] arg", context)); } } else PARSE_ERR(("%s: pit expected realtime=[0|1] arg", context)); } else if (!strcmp(params[0], "max_ips")) { if (num_params != 2) { PARSE_ERR(("%s: max_ips directive: wrong # args.", context)); } BX_INFO(("WARNING: max_ips not implemented")); } else if (!strcmp(params[0], "text_snapshot_check")) { if (num_params != 2) { PARSE_ERR(("%s: text_snapshot_check directive: wrong # args.", context)); } if (!strncmp(params[1], "enable", 6)) { bx_options.Otext_snapshot_check->set (1); } else if (!strncmp(params[1], "disable", 7)) { bx_options.Otext_snapshot_check->set (0); } else bx_options.Otext_snapshot_check->set (!!(atol(params[1]))); } else if (!strcmp(params[0], "mouse")) { if (num_params != 2) { PARSE_ERR(("%s: mouse directive malformed.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: mouse directive malformed.", context)); } if (params[1][8] == '0' || params[1][8] == '1') bx_options.Omouse_enabled->set (params[1][8] - '0'); else PARSE_ERR(("%s: mouse directive malformed.", context)); } else if (!strcmp(params[0], "private_colormap")) { if (num_params != 2) { PARSE_ERR(("%s: private_colormap directive malformed.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: private_colormap directive malformed.", context)); } if (params[1][8] == '0' || params[1][8] == '1') bx_options.Oprivate_colormap->set (params[1][8] - '0'); else { PARSE_ERR(("%s: private_colormap directive malformed.", context)); } } else if (!strcmp(params[0], "fullscreen")) { #if BX_WITH_AMIGAOS if (num_params != 2) { PARSE_ERR(("%s: fullscreen directive malformed.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: fullscreen directive malformed.", context)); } if (params[1][8] == '0' || params[1][8] == '1') { bx_options.Ofullscreen->set (params[1][8] - '0'); } else { PARSE_ERR(("%s: fullscreen directive malformed.", context)); } #endif } else if (!strcmp(params[0], "screenmode")) { #if BX_WITH_AMIGAOS if (num_params != 2) { PARSE_ERR(("%s: screenmode directive malformed.", context)); } if (strncmp(params[1], "name=", 5)) { PARSE_ERR(("%s: screenmode directive malformed.", context)); } bx_options.Oscreenmode->set (strdup(¶ms[1][5])); #endif } else if (!strcmp(params[0], "sb16")) { for (i=1; iset (1); if (!strncmp(params[i], "midi=", 5)) { bx_options.sb16.Omidifile->set (strdup(¶ms[i][5])); } else if (!strncmp(params[i], "midimode=", 9)) { bx_options.sb16.Omidimode->set (atol(¶ms[i][9])); } else if (!strncmp(params[i], "wave=", 5)) { bx_options.sb16.Owavefile->set (strdup(¶ms[i][5])); } else if (!strncmp(params[i], "wavemode=", 9)) { bx_options.sb16.Owavemode->set (atol(¶ms[i][9])); } else if (!strncmp(params[i], "log=", 4)) { bx_options.sb16.Ologfile->set (strdup(¶ms[i][4])); } else if (!strncmp(params[i], "loglevel=", 9)) { bx_options.sb16.Ologlevel->set (atol(¶ms[i][9])); } else if (!strncmp(params[i], "dmatimer=", 9)) { bx_options.sb16.Odmatimer->set (atol(¶ms[i][9])); } } } else if (!strcmp(params[0], "parport1")) { for (i=1; iset (0); else if (params[1][8] == '1') bx_options.Oi440FXSupport->set (1); else { PARSE_ERR(("%s: i440FXSupport directive malformed.", context)); } } else if (!strcmp(params[0], "newharddrivesupport")) { if (num_params != 2) { PARSE_ERR(("%s: newharddrivesupport directive malformed.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: newharddrivesupport directive malformed.", context)); } if (params[1][8] == '0') bx_options.OnewHardDriveSupport->set (0); else if (params[1][8] == '1') bx_options.OnewHardDriveSupport->set (1); else { PARSE_ERR(("%s: newharddrivesupport directive malformed.", context)); } } else if (!strcmp(params[0], "cmosimage")) { if (num_params != 2) { PARSE_ERR(("%s: cmosimage directive: wrong # args.", context)); } bx_options.cmos.Opath->set (strdup(params[1])); bx_options.cmos.OcmosImage->set (1); // CMOS Image is true } else if (!strcmp(params[0], "time0")) { // Deprectated BX_INFO(("WARNING: time0 directive is deprecated, use clock: instead")); if (num_params != 2) { PARSE_ERR(("%s: time0 directive: wrong # args.", context)); } bx_options.clock.Otime0->set (atoi(params[1])); } else if (!strcmp(params[0], "clock")) { for (i=1; iset (BX_CLOCK_TIME0_LOCAL); } else if (!strcmp(params[i], "time0=utc")) { bx_options.clock.Otime0->set (BX_CLOCK_TIME0_UTC); } else if (!strncmp(params[i], "time0=", 6)) { bx_options.clock.Otime0->set (atoi(¶ms[i][6])); } else { BX_ERROR(("%s: unknown parameter for clock ignored.", context)); } } } #ifdef MAGIC_BREAKPOINT else if (!strcmp(params[0], "magic_break")) { if (num_params != 2) { PARSE_ERR(("%s: magic_break directive: wrong # args.", context)); } if (strncmp(params[1], "enabled=", 8)) { PARSE_ERR(("%s: magic_break directive malformed.", context)); } if (params[1][8] == '0') { BX_INFO(("Ignoring magic break points")); bx_dbg.magic_break_enabled = 0; } else if (params[1][8] == '1') { BX_INFO(("Stopping on magic break points")); bx_dbg.magic_break_enabled = 1; } else { PARSE_ERR(("%s: magic_break directive malformed.", context)); } } #endif else if (!strcmp(params[0], "ne2k")) { int tmp[6]; char tmpchar[6]; bx_options.ne2k.Opresent->set (0); if ((num_params < 4) || (num_params > 7)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } bx_options.ne2k.Oethmod->set_by_name ("null"); if (strncmp(params[1], "ioaddr=", 7)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } if (strncmp(params[2], "irq=", 4)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } if (strncmp(params[3], "mac=", 4)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } bx_options.ne2k.Oioaddr->set (strtoul(¶ms[1][7], NULL, 16)); bx_options.ne2k.Oirq->set (atol(¶ms[2][4])); i = sscanf(¶ms[3][4], "%x:%x:%x:%x:%x:%x", &tmp[0],&tmp[1],&tmp[2],&tmp[3],&tmp[4],&tmp[5]); if (i != 6) { PARSE_ERR(("%s: ne2k mac address malformed.", context)); } for (i=0;i<6;i++) tmpchar[i] = (unsigned char)tmp[i]; bx_options.ne2k.Omacaddr->set (tmpchar); if (num_params > 4) { if (strncmp(params[4], "ethmod=", 7)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } if (!bx_options.ne2k.Oethmod->set_by_name (strdup(¶ms[4][7]))) PARSE_ERR(("%s: ethernet module '%s' not available", context, strdup(¶ms[4][7]))); if (num_params > 5) { if (strncmp(params[5], "ethdev=", 7)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } bx_options.ne2k.Oethdev->set (strdup(¶ms[5][7])); if (num_params > 6) { if (strncmp(params[6], "script=", 7)) { PARSE_ERR(("%s: ne2k directive malformed.", context)); } bx_options.ne2k.Oscript->set (strdup(¶ms[6][7])); } } } bx_options.ne2k.Opresent->set (1); } else if (!strcmp(params[0], "load32bitOSImage")) { if ( (num_params!=4) && (num_params!=5) ) { PARSE_ERR(("%s: load32bitOSImage directive: wrong # args.", context)); } if (strncmp(params[1], "os=", 3)) { PARSE_ERR(("%s: load32bitOSImage: directive malformed.", context)); } if (!strcmp(¶ms[1][3], "nullkernel")) { bx_options.load32bitOSImage.OwhichOS->set (Load32bitOSNullKernel); } else if (!strcmp(¶ms[1][3], "linux")) { bx_options.load32bitOSImage.OwhichOS->set (Load32bitOSLinux); } else { PARSE_ERR(("%s: load32bitOSImage: unsupported OS.", context)); } if (strncmp(params[2], "path=", 5)) { PARSE_ERR(("%s: load32bitOSImage: directive malformed.", context)); } if (strncmp(params[3], "iolog=", 6)) { PARSE_ERR(("%s: load32bitOSImage: directive malformed.", context)); } bx_options.load32bitOSImage.Opath->set (strdup(¶ms[2][5])); bx_options.load32bitOSImage.Oiolog->set (strdup(¶ms[3][6])); if (num_params == 5) { if (strncmp(params[4], "initrd=", 7)) { PARSE_ERR(("%s: load32bitOSImage: directive malformed.", context)); } bx_options.load32bitOSImage.Oinitrd->set (strdup(¶ms[4][7])); } } else if (!strcmp(params[0], "keyboard_type")) { if (num_params != 2) { PARSE_ERR(("%s: keyboard_type directive: wrong # args.", context)); } if(strcmp(params[1],"xt")==0){ bx_options.Okeyboard_type->set (BX_KBD_XT_TYPE); } else if(strcmp(params[1],"at")==0){ bx_options.Okeyboard_type->set (BX_KBD_AT_TYPE); } else if(strcmp(params[1],"mf")==0){ bx_options.Okeyboard_type->set (BX_KBD_MF_TYPE); } else{ PARSE_ERR(("%s: keyboard_type directive: wrong arg %s.", context,params[1])); } } else if (!strcmp(params[0], "keyboard_mapping") ||!strcmp(params[0], "keyboardmapping")) { for (i=1; iset_by_name (params[1])) PARSE_ERR(("%s: config_interface '%s' not available", context, params[1])); } else if (!strcmp(params[0], "display_library")) { if (num_params != 2) { PARSE_ERR(("%s: display_library directive: wrong # args.", context)); } if (!bx_options.Osel_displaylib->set_by_name (params[1])) PARSE_ERR(("%s: display library '%s' not available", context, params[1])); } else { PARSE_ERR(( "%s: directive '%s' not understood", context, params[0])); } return 0; } static char *fdtypes[] = { "none", "1_2", "1_44", "2_88", "720k", "360k", "160k", "180k", "320k" }; int bx_write_floppy_options (FILE *fp, int drive, bx_floppy_options *opt) { BX_ASSERT (drive==0 || drive==1); if (opt->Otype->get () == BX_FLOPPY_NONE) { fprintf (fp, "# no floppy%c\n", (char)'a'+drive); return 0; } BX_ASSERT (opt->Otype->get () > BX_FLOPPY_NONE && opt->Otype->get () <= BX_FLOPPY_LAST); fprintf (fp, "floppy%c: %s=\"%s\", status=%s\n", (char)'a'+drive, fdtypes[opt->Otype->get () - BX_FLOPPY_NONE], opt->Opath->getptr (), opt->Ostatus->get ()==BX_EJECTED ? "ejected" : "inserted"); return 0; } int bx_write_ata_options (FILE *fp, Bit8u channel, bx_ata_options *opt) { fprintf (fp, "ata%d: enabled=%d", channel, opt->Opresent->get()); if (opt->Opresent->get()) { fprintf (fp, ", ioaddr1=0x%x, ioaddr2=0x%x, irq=%d", opt->Oioaddr1->get(), opt->Oioaddr2->get(), opt->Oirq->get()); } fprintf (fp, "\n"); return 0; } int bx_write_atadevice_options (FILE *fp, Bit8u channel, Bit8u drive, bx_atadevice_options *opt) { if (opt->Opresent->get()) { fprintf (fp, "ata%d-%s: ", channel, drive==0?"master":"slave"); if (opt->Otype->get() == BX_ATA_DEVICE_DISK) { fprintf (fp, "type=disk"); switch(opt->Omode->get()) { case BX_ATA_MODE_FLAT: fprintf (fp, ", mode=flat"); break; case BX_ATA_MODE_CONCAT: fprintf (fp, ", mode=concat"); break; case BX_ATA_MODE_EXTDISKSIM: fprintf (fp, ", mode=external"); break; case BX_ATA_MODE_DLL_HD: fprintf (fp, ", mode=dll"); break; case BX_ATA_MODE_SPARSE: fprintf (fp, ", mode=sparse"); break; case BX_ATA_MODE_VMWARE3: fprintf (fp, ", mode=vmware3"); break; // case BX_ATA_MODE_SPLIT: // fprintf (fp, ", mode=split"); // break; case BX_ATA_MODE_UNDOABLE: fprintf (fp, ", mode=undoable"); break; case BX_ATA_MODE_GROWING: fprintf (fp, ", mode=growing"); break; case BX_ATA_MODE_VOLATILE: fprintf (fp, ", mode=volatile"); break; case BX_ATA_MODE_Z_UNDOABLE: fprintf (fp, ", mode=z-undoable"); break; case BX_ATA_MODE_Z_VOLATILE: fprintf (fp, ", mode=z-volatile"); break; } switch(opt->Otranslation->get()) { case BX_ATA_TRANSLATION_NONE: fprintf (fp, ", translation=none"); break; case BX_ATA_TRANSLATION_LBA: fprintf (fp, ", translation=lba"); break; case BX_ATA_TRANSLATION_LARGE: fprintf (fp, ", translation=large"); break; case BX_ATA_TRANSLATION_RECHS: fprintf (fp, ", translation=rechs"); break; case BX_ATA_TRANSLATION_AUTO: fprintf (fp, ", translation=auto"); break; } fprintf (fp, ", path=\"%s\", cylinders=%d, heads=%d, spt=%d", opt->Opath->getptr(), opt->Ocylinders->get(), opt->Oheads->get(), opt->Ospt->get()); if (opt->Ojournal->getptr() != NULL) if ( strcmp(opt->Ojournal->getptr(), "") != 0) fprintf (fp, ", journal=\"%s\"", opt->Ojournal->getptr()); } else if (opt->Otype->get() == BX_ATA_DEVICE_CDROM) { fprintf (fp, "type=cdrom, path=\"%s\", status=%s", opt->Opath->getptr(), opt->Ostatus->get ()==BX_EJECTED ? "ejected" : "inserted"); } switch(opt->Obiosdetect->get()) { case BX_ATA_BIOSDETECT_NONE: fprintf (fp, ", biosdetect=none"); break; case BX_ATA_BIOSDETECT_CMOS: fprintf (fp, ", biosdetect=cmos"); break; case BX_ATA_BIOSDETECT_AUTO: fprintf (fp, ", biosdetect=auto"); break; } if (strlen(opt->Omodel->getptr())>0) { fprintf (fp, ", model=\"%s\"", opt->Omodel->getptr()); } fprintf (fp, "\n"); } return 0; } int bx_write_parport_options (FILE *fp, bx_parport_options *opt, int n) { fprintf (fp, "parport%d: enabled=%d", n, opt->Oenabled->get ()); if (opt->Oenabled->get ()) { fprintf (fp, ", file=\"%s\"", opt->Ooutfile->getptr ()); } fprintf (fp, "\n"); return 0; } int bx_write_serial_options (FILE *fp, bx_serial_options *opt, int n) { fprintf (fp, "com%d: enabled=%d", n, opt->Oenabled->get ()); if (opt->Oenabled->get ()) { fprintf (fp, ", dev=\"%s\"", opt->Odev->getptr ()); } fprintf (fp, "\n"); return 0; } int bx_write_usb_options (FILE *fp, bx_usb_options *opt, int n) { fprintf (fp, "usb%d: enabled=%d", n, opt->Oenabled->get ()); if (opt->Oenabled->get ()) { fprintf (fp, ", ioaddr=0x%04x, irq=%d", opt->Oioaddr->get (), opt->Oirq->get ()); } fprintf (fp, "\n"); return 0; } int bx_write_sb16_options (FILE *fp, bx_sb16_options *opt) { if (!opt->Opresent->get ()) { fprintf (fp, "# no sb16\n"); return 0; } fprintf (fp, "sb16: midimode=%d, midi=%s, wavemode=%d, wave=%s, loglevel=%d, log=%s, dmatimer=%d\n", opt->Omidimode->get (), opt->Omidifile->getptr (), opt->Owavemode->get (), opt->Owavefile->getptr (), opt->Ologlevel->get (), opt->Ologfile->getptr (), opt->Odmatimer->get ()); return 0; } int bx_write_ne2k_options (FILE *fp, bx_ne2k_options *opt) { if (!opt->Opresent->get ()) { fprintf (fp, "# no ne2k\n"); return 0; } char *ptr = opt->Omacaddr->getptr (); fprintf (fp, "ne2k: ioaddr=0x%x, irq=%d, mac=%02x:%02x:%02x:%02x:%02x:%02x, ethmod=%s, ethdev=%s, script=%s\n", opt->Oioaddr->get (), opt->Oirq->get (), (unsigned int)(0xff & ptr[0]), (unsigned int)(0xff & ptr[1]), (unsigned int)(0xff & ptr[2]), (unsigned int)(0xff & ptr[3]), (unsigned int)(0xff & ptr[4]), (unsigned int)(0xff & ptr[5]), opt->Oethmod->get_choice(opt->Oethmod->get()), opt->Oethdev->getptr (), opt->Oscript->getptr ()); return 0; } int bx_write_loader_options (FILE *fp, bx_load32bitOSImage_t *opt) { if (opt->OwhichOS->get () == 0) { fprintf (fp, "# no loader\n"); return 0; } BX_ASSERT(opt->OwhichOS->get () == Load32bitOSLinux || opt->OwhichOS->get () == Load32bitOSNullKernel); fprintf (fp, "load32bitOSImage: os=%s, path=%s, iolog=%s, initrd=%s\n", (opt->OwhichOS->get () == Load32bitOSLinux) ? "linux" : "nullkernel", opt->Opath->getptr (), opt->Oiolog->getptr (), opt->Oinitrd->getptr ()); return 0; } int bx_write_clock_options (FILE *fp, bx_clock_options *opt) { fprintf (fp, "clock: "); switch (opt->Osync->get()) { case BX_CLOCK_SYNC_NONE: fprintf (fp, "sync=none"); break; case BX_CLOCK_SYNC_REALTIME: fprintf (fp, "sync=realtime"); break; case BX_CLOCK_SYNC_SLOWDOWN: fprintf (fp, "sync=slowdown"); break; case BX_CLOCK_SYNC_BOTH: fprintf (fp, "sync=both"); break; default: BX_PANIC(("Unknown value for sync method")); } switch (opt->Otime0->get()) { case 0: break; case BX_CLOCK_TIME0_LOCAL: fprintf (fp, ", time0=local"); break; case BX_CLOCK_TIME0_UTC: fprintf (fp, ", time0=utc"); break; default: fprintf (fp, ", time0=%u", opt->Otime0->get()); } fprintf (fp, "\n"); return 0; } int bx_write_log_options (FILE *fp, bx_log_options *opt) { fprintf (fp, "log: %s\n", opt->Ofilename->getptr ()); fprintf (fp, "logprefix: %s\n", opt->Oprefix->getptr ()); fprintf (fp, "debugger_log: %s\n", opt->Odebugger_filename->getptr ()); fprintf (fp, "panic: action=%s\n", io->getaction(logfunctions::get_default_action (LOGLEV_PANIC))); fprintf (fp, "error: action=%s\n", io->getaction(logfunctions::get_default_action (LOGLEV_ERROR))); fprintf (fp, "info: action=%s\n", io->getaction(logfunctions::get_default_action (LOGLEV_INFO))); fprintf (fp, "debug: action=%s\n", io->getaction(logfunctions::get_default_action (LOGLEV_DEBUG))); fprintf (fp, "pass: action=%s\n", io->getaction(logfunctions::get_default_action (LOGLEV_PASS))); return 0; } int bx_write_keyboard_options (FILE *fp, bx_keyboard_options *opt) { fprintf (fp, "keyboard_mapping: enabled=%d, map=%s\n", opt->OuseMapping->get(), opt->Okeymap->getptr()); return 0; } // return values: // 0: written ok // -1: failed // -2: already exists, and overwrite was off int bx_write_configuration (char *rc, int overwrite) { BX_INFO (("write configuration to %s\n", rc)); // check if it exists. If so, only proceed if overwrite is set. FILE *fp = fopen (rc, "r"); if (fp != NULL) { fclose (fp); if (!overwrite) return -2; } fp = fopen (rc, "w"); if (fp == NULL) return -1; // finally it's open and we can start writing. fprintf (fp, "# configuration file generated by Bochs\n"); fprintf (fp, "config_interface: %s\n", bx_options.Osel_config->get_choice(bx_options.Osel_config->get())); fprintf (fp, "display_library: %s\n", bx_options.Osel_displaylib->get_choice(bx_options.Osel_displaylib->get())); fprintf (fp, "megs: %d\n", bx_options.memory.Osize->get ()); if (strlen (bx_options.rom.Opath->getptr ()) > 0) fprintf (fp, "romimage: file=%s, address=0x%05x\n", bx_options.rom.Opath->getptr(), (unsigned int)bx_options.rom.Oaddress->get ()); else fprintf (fp, "# no romimage\n"); if (strlen (bx_options.vgarom.Opath->getptr ()) > 0) fprintf (fp, "vgaromimage: %s\n", bx_options.vgarom.Opath->getptr ()); else fprintf (fp, "# no vgaromimage\n"); int bootdrive = bx_options.Obootdrive->get (); fprintf (fp, "boot: %s\n", (bootdrive==BX_BOOT_FLOPPYA) ? "floppy" : (bootdrive==BX_BOOT_DISKC) ? "disk" : "cdrom"); // it would be nice to put this type of function as methods on // the structs like bx_floppy_options::print or something. bx_write_floppy_options (fp, 0, &bx_options.floppya); bx_write_floppy_options (fp, 1, &bx_options.floppyb); for (Bit8u channel=0; channelgetptr ()) > 0) fprintf (fp, "optromimage1: file=%s, address=0x%05x\n", bx_options.optrom[0].Opath->getptr(), (unsigned int)bx_options.optrom[0].Oaddress->get ()); if (strlen (bx_options.optrom[1].Opath->getptr ()) > 0) fprintf (fp, "optromimage2: file=%s, address=0x%05x\n", bx_options.optrom[1].Opath->getptr(), (unsigned int)bx_options.optrom[1].Oaddress->get ()); if (strlen (bx_options.optrom[2].Opath->getptr ()) > 0) fprintf (fp, "optromimage3: file=%s, address=0x%05x\n", bx_options.optrom[2].Opath->getptr(), (unsigned int)bx_options.optrom[2].Oaddress->get ()); if (strlen (bx_options.optrom[3].Opath->getptr ()) > 0) fprintf (fp, "optromimage4: file=%s, address=0x%05x\n", bx_options.optrom[3].Opath->getptr(), (unsigned int)bx_options.optrom[3].Oaddress->get ()); bx_write_parport_options (fp, &bx_options.par[0], 1); //bx_write_parport_options (fp, &bx_options.par[1], 2); bx_write_serial_options (fp, &bx_options.com[0], 1); //bx_write_serial_options (fp, &bx_options.com[1], 2); //bx_write_serial_options (fp, &bx_options.com[2], 3); //bx_write_serial_options (fp, &bx_options.com[3], 4); bx_write_usb_options (fp, &bx_options.usb[0], 1); bx_write_sb16_options (fp, &bx_options.sb16); fprintf (fp, "floppy_bootsig_check: disabled=%d\n", bx_options.OfloppySigCheck->get ()); fprintf (fp, "vga_update_interval: %u\n", bx_options.Ovga_update_interval->get ()); fprintf (fp, "keyboard_serial_delay: %u\n", bx_options.Okeyboard_serial_delay->get ()); fprintf (fp, "keyboard_paste_delay: %u\n", bx_options.Okeyboard_paste_delay->get ()); fprintf (fp, "floppy_command_delay: %u\n", bx_options.Ofloppy_command_delay->get ()); fprintf (fp, "ips: %u\n", bx_options.Oips->get ()); fprintf (fp, "text_snapshot_check: %d\n", bx_options.Otext_snapshot_check->get ()); fprintf (fp, "mouse: enabled=%d\n", bx_options.Omouse_enabled->get ()); fprintf (fp, "private_colormap: enabled=%d\n", bx_options.Oprivate_colormap->get ()); #if BX_WITH_AMIGAOS fprintf (fp, "fullscreen: enabled=%d\n", bx_options.Ofullscreen->get ()); fprintf (fp, "screenmode: name=\"%s\"\n", bx_options.Oscreenmode->getptr ()); #endif fprintf (fp, "i440fxsupport: enabled=%d\n", bx_options.Oi440FXSupport->get ()); bx_write_clock_options (fp, &bx_options.clock); bx_write_ne2k_options (fp, &bx_options.ne2k); fprintf (fp, "newharddrivesupport: enabled=%d\n", bx_options.OnewHardDriveSupport->get ()); bx_write_loader_options (fp, &bx_options.load32bitOSImage); bx_write_log_options (fp, &bx_options.log); bx_write_keyboard_options (fp, &bx_options.keyboard); fprintf (fp, "keyboard_type: %s\n", bx_options.Okeyboard_type->get ()==BX_KBD_XT_TYPE?"xt": bx_options.Okeyboard_type->get ()==BX_KBD_AT_TYPE?"at":"mf"); fprintf (fp, "user_shortcut: keys=%s\n", bx_options.Ouser_shortcut->getptr ()); if (strlen (bx_options.cmos.Opath->getptr ()) > 0) fprintf (fp, "cmosimage: %s\n", bx_options.cmos.Opath->getptr()); else fprintf (fp, "# no cmosimage\n"); fclose (fp); return 0; } #endif // #if BX_PROVIDE_MAIN void bx_signal_handler( int signum) { // in a multithreaded environment, a signal such as SIGINT can be sent to all // threads. This function is only intended to handle signals in the // simulator thread. It will simply return if called from any other thread. // Otherwise the BX_PANIC() below can be called in multiple threads at // once, leading to multiple threads trying to display a dialog box, // leading to GUI deadlock. if (!SIM->is_sim_thread ()) { BX_INFO (("bx_signal_handler: ignored sig %d because it wasn't called from the simulator thread", signum)); return; } #if BX_GUI_SIGHANDLER if (bx_gui_sighandler) { // GUI signal handler gets first priority, if the mask says it's wanted if ((1<get_sighandler_mask ()) { bx_gui->sighandler (signum); return; } } #endif #if BX_SHOW_IPS extern unsigned long ips_count; if (signum == SIGALRM ) { BX_INFO(("ips = %lu", ips_count)); ips_count = 0; #ifndef __MINGW32__ signal(SIGALRM, bx_signal_handler); alarm( 1 ); #endif return; } #endif #if BX_GUI_SIGHANDLER if (bx_gui_sighandler) { if ((1<get_sighandler_mask ()) { bx_gui->sighandler (signum); return; } } #endif BX_PANIC(("SIGNAL %u caught", signum)); }