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Bochs/bochs/config.cc
Volker Ruppert ae659d14fd Changed initial value of the parameter "enabled" to 1 for network, sound and 
usb device plugins. Loading the plugin means that the user wants to enable it.
Disabling the device on the command line and in the config interface is still
possible.
2013-12-30 14:37:04 +00:00

3437 lines
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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2002-2013 The Bochs Project
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
#include "bochs.h"
#include "bxversion.h"
#include "iodev/iodev.h"
#include "param_names.h"
#include <assert.h>
#ifdef HAVE_LOCALE_H
#include <locale.h>
#endif
#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
int bochsrc_include_level = 0;
#if BX_PLUGINS
Bit8u bx_user_plugin_count = 0;
#endif
#define LOG_THIS genlog->
extern bx_debug_t bx_dbg;
static const char *get_builtin_variable(const char *varname);
static int parse_line_unformatted(const char *context, char *line);
static int parse_line_formatted(const char *context, int num_params, char *params[]);
static int parse_bochsrc(const char *rcfile);
static int get_floppy_type_from_image(const char *filename);
static Bit64s bx_param_handler(bx_param_c *param, int set, Bit64s val)
{
char pname[BX_PATHNAME_LEN];
Bit8u device;
//Bit8u channel;
bx_list_c *base = (bx_list_c*) param->get_parent();
base->get_param_path(pname, BX_PATHNAME_LEN);
if (!strncmp(pname, "ata.", 4)) {
// channel = pname[4] - '0';
if (!strcmp(base->get_name(), "master")) {
device = 0;
} else {
device = 1;
}
if (!strcmp(param->get_name(), "type")) {
if (set) {
switch (val) {
case BX_ATA_DEVICE_DISK:
((bx_param_filename_c*)SIM->get_param("path", base))->set_extension("img");
break;
case BX_ATA_DEVICE_CDROM:
((bx_param_filename_c*)SIM->get_param("path", base))->set_extension("iso");
break;
}
}
} else {
BX_PANIC(("bx_param_handler called with unknown parameter '%s.%s'", pname, param->get_name()));
return -1;
}
} else {
param->get_param_path(pname, BX_PATHNAME_LEN);
if ((!strcmp(pname, BXPN_FLOPPYA_TYPE)) ||
(!strcmp(pname, BXPN_FLOPPYB_TYPE))) {
if (set) {
if (val == BX_FLOPPY_AUTO) {
val = get_floppy_type_from_image(SIM->get_param_string("path", base)->getptr());
SIM->get_param_enum("type", base)->set(val);
} else if (!SIM->get_init_done() && (val != BX_FLOPPY_NONE)) {
switch (val) {
case BX_FLOPPY_2_88:
device = BX_FDD_350ED;
break;
case BX_FLOPPY_720K:
case BX_FLOPPY_1_44:
device = BX_FDD_350HD;
break;
default:
device = BX_FDD_525HD;
}
SIM->get_param_enum("devtype", base)->set(device);
}
}
} else {
BX_PANIC(("bx_param_handler called with unknown parameter '%s'", pname));
return -1;
}
}
return val;
}
const char *bx_param_string_handler(bx_param_string_c *param, int set,
const char *oldval, const char *val, int maxlen)
{
char pname[BX_PATHNAME_LEN];
param->get_param_path(pname, BX_PATHNAME_LEN);
if (!strcmp(pname, BXPN_SCREENMODE)) {
if (set==1) {
BX_INFO(("Screen mode changed to %s", val));
}
#if BX_PLUGINS
} else if (!strncmp(pname, "misc.user_plugin", 16)) {
if ((strlen(oldval) > 0) && (strcmp(oldval, "none"))) {
PLUG_unload_user_plugin(oldval);
}
if ((strlen(val) > 0) && (strcmp(val, "none"))) {
PLUG_load_user_plugin(val);
}
#endif
} else {
BX_PANIC(("bx_param_string_handler called with unknown parameter '%s'", pname));
}
return val;
}
void bx_init_std_nic_options(const char *name, bx_list_c *menu)
{
// networking module choices
static const char *eth_module_list[] = {
"null",
#if BX_NETMOD_LINUX
"linux",
#endif
#if BX_NETMOD_TAP
"tap",
#endif
#if BX_NETMOD_TUNTAP
"tuntap",
#endif
#if BX_NETMOD_WIN32
"win32",
#endif
#if BX_NETMOD_FBSD
"fbsd",
#endif
#if BX_NETMOD_VDE
"vde",
#endif
#if BX_NETMOD_SLIRP
"slirp",
#endif
"vnet",
NULL
};
bx_param_enum_c *ethmod;
bx_param_string_c *macaddr;
bx_param_filename_c *path, *bootrom;
char descr[120];
sprintf(descr, "MAC address of the %s device. Don't use an address of a machine on your net.", name);
macaddr = new bx_param_string_c(menu,
"mac",
"MAC Address",
descr,
"", 6);
macaddr->set_options(macaddr->RAW_BYTES);
macaddr->set_initial_val("\xfe\xfd\xde\xad\xbe\xef");
macaddr->set_separator(':');
ethmod = new bx_param_enum_c(menu,
"ethmod",
"Ethernet module",
"Module used for the connection to the real net.",
eth_module_list,
0,
0);
ethmod->set_by_name("null");
ethmod->set_ask_format("Choose ethernet module for the device [%s] ");
new bx_param_string_c(menu,
"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);
path = new bx_param_filename_c(menu,
"script",
"Device configuration script",
"Name of the script that is executed after Bochs initializes the network interface (optional).",
"none", BX_PATHNAME_LEN);
path->set_ask_format("Enter new script name, or 'none': [%s] ");
bootrom = new bx_param_filename_c(menu,
"bootrom",
"Boot ROM image",
"Pathname of network boot ROM image to load",
"", BX_PATHNAME_LEN);
bootrom->set_format("Name of boot ROM image: %s");
}
void bx_init_usb_options(const char *usb_name, const char *pname, int maxports)
{
char group[16], name[8], descr[512], label[512];
bx_param_c *usb = SIM->get_param("ports.usb");
sprintf(group, "USB %s", usb_name);
sprintf(label, "%s Configuration", usb_name);
bx_list_c *menu = new bx_list_c(usb, pname, label);
menu->set_options(menu->SHOW_PARENT);
sprintf(label, "Enable %s emulation", usb_name);
sprintf(descr, "Enables the %s emulation", usb_name);
bx_param_bool_c *enabled = new bx_param_bool_c(menu, "enabled", label, descr, 1);
bx_list_c *deplist = new bx_list_c(NULL);
for (int i = 0; i < maxports; i++) {
sprintf(name, "port%d", i+1);
sprintf(label, "Port #%d Configuration", i+1);
sprintf(descr, "Device connected to %s port #%d and it's options", usb_name, i+1);
bx_list_c *port = new bx_list_c(menu, name, label);
port->set_options(port->SERIES_ASK | port->USE_BOX_TITLE);
sprintf(descr, "Device connected to %s port #%d", usb_name, i+1);
bx_param_string_c *device = new bx_param_string_c(port, "device", "Device",
descr, "", BX_PATHNAME_LEN);
sprintf(descr, "Options for device connected to %s port #%d", usb_name, i+1);
bx_param_string_c *options = new bx_param_string_c(port, "options", "Options",
descr, "", BX_PATHNAME_LEN);
port->set_group(group);
deplist->add(port);
deplist->add(device);
deplist->add(options);
}
enabled->set_dependent_list(deplist);
}
void bx_plugin_ctrl_reset(bx_bool init_done)
{
bx_list_c *base = (bx_list_c*) SIM->get_param(BXPN_PLUGIN_CTRL);
if (init_done) {
for (int i = 0; i < base->get_size(); i++) {
((bx_param_bool_c*)base->get(i))->set(0);
}
SIM->opt_plugin_ctrl("*", 0);
}
// add the default set of plugins to the list
new bx_param_bool_c(base, "unmapped", "", "", 1);
new bx_param_bool_c(base, "biosdev", "", "", 1);
new bx_param_bool_c(base, "speaker", "", "", 1);
new bx_param_bool_c(base, "extfpuirq", "", "", 1);
new bx_param_bool_c(base, "parallel", "", "", 1);
new bx_param_bool_c(base, "serial", "", "", 1);
#if BX_SUPPORT_GAMEPORT
new bx_param_bool_c(base, "gameport", "", "", 1);
#endif
#if BX_SUPPORT_IODEBUG && BX_DEBUGGER
new bx_param_bool_c(base, "iodebug", "", "", 1);
#endif
if (init_done) {
SIM->opt_plugin_ctrl("*", 1);
}
}
void bx_init_options()
{
int i;
bx_list_c *menu;
bx_list_c *deplist;
bx_param_num_c *ioaddr, *ioaddr2, *irq;
bx_param_bool_c *enabled, *readonly;
bx_param_enum_c *mode, *type, *toggle, *status;
bx_param_filename_c *path;
char name[BX_PATHNAME_LEN], descr[512], label[512];
bx_param_c *root_param = SIM->get_param(".");
// general options subtree
menu = new bx_list_c(root_param, "general", "");
// config interface option, set in bochsrc or command line
static const char *config_interface_list[] = {
#ifdef WIN32
"win32config",
#endif
#if BX_USE_TEXTCONFIG
"textconfig",
#endif
#if BX_WITH_WX
"wx",
#endif
NULL
};
bx_param_enum_c *sel_config = new bx_param_enum_c(menu,
"config_interface", "Configuration interface",
"Select configuration interface",
config_interface_list,
0,
0);
sel_config->set_by_name(BX_DEFAULT_CONFIG_INTERFACE);
static const char *bochs_start_names[] = { "quick", "load", "edit", "run" };
// quick start option, set by command line arg
new bx_param_enum_c(menu,
"start_mode",
"Bochs start types",
"Bochs start types",
bochs_start_names,
BX_RUN_START,
BX_QUICK_START);
new bx_param_bool_c(menu,
"restore",
"Restore Bochs session",
"Restore Bochs session",
0);
new bx_param_string_c(menu,
"restore_path",
"Path to data for restore",
"Path to data for restore",
"",
BX_PATHNAME_LEN);
// benchmarking mode, set by command line arg
new bx_param_num_c(menu,
"benchmark",
"benchmark mode",
"set benchmark mode",
0, BX_MAX_BIT32U, 0);
// subtree for setting up log actions by device in bochsrc
bx_list_c *logfn = new bx_list_c(menu, "logfn", "Logfunctions");
new bx_list_c(logfn, "debug", "");
new bx_list_c(logfn, "info", "");
new bx_list_c(logfn, "error", "");
new bx_list_c(logfn, "panic", "");
// optional plugin control
new bx_list_c(menu, "plugin_ctrl", "Optional Plugin Control");
bx_plugin_ctrl_reset(0);
// subtree for special menus
bx_list_c *special_menus = new bx_list_c(root_param, "menu", "");
#if BX_SUPPORT_SMP
#define BX_CPU_PROCESSORS_LIMIT 255
#define BX_CPU_CORES_LIMIT 8
#define BX_CPU_HT_THREADS_LIMIT 4
#else
#define BX_CPU_PROCESSORS_LIMIT 1
#define BX_CPU_CORES_LIMIT 1
#define BX_CPU_HT_THREADS_LIMIT 1
#endif
// cpu subtree
bx_list_c *cpu_param = new bx_list_c(root_param, "cpu", "CPU Options");
static const char *cpu_names[] = {
#define bx_define_cpudb(model) #model,
#include "cpudb.h"
NULL
};
#undef bx_define_cpudb
new bx_param_enum_c(cpu_param,
"model", "CPU configuration",
"Choose pre-defined CPU configuration",
cpu_names, 0, 0);
// cpu options
bx_param_num_c *nprocessors = new bx_param_num_c(cpu_param,
"n_processors", "Number of processors in SMP mode",
"Sets the number of processors for multiprocessor emulation",
1, BX_CPU_PROCESSORS_LIMIT,
1);
nprocessors->set_enabled(BX_CPU_PROCESSORS_LIMIT > 1);
nprocessors->set_options(bx_param_c::CI_ONLY);
bx_param_num_c *ncores = new bx_param_num_c(cpu_param,
"n_cores", "Number of cores in each processor in SMP mode",
"Sets the number of cores per processor for multiprocessor emulation",
1, BX_CPU_CORES_LIMIT,
1);
ncores->set_enabled(BX_CPU_CORES_LIMIT > 1);
ncores->set_options(bx_param_c::CI_ONLY);
bx_param_num_c *nthreads = new bx_param_num_c(cpu_param,
"n_threads", "Number of HT threads per each core in SMP mode",
"Sets the number of HT (Intel(R) HyperThreading Technology) threads per core for multiprocessor emulation",
1, BX_CPU_HT_THREADS_LIMIT,
1);
nthreads->set_enabled(BX_CPU_HT_THREADS_LIMIT > 1);
nthreads->set_options(bx_param_c::CI_ONLY);
new bx_param_num_c(cpu_param,
"ips", "Emulated instructions per second (IPS)",
"Emulated instructions per second, used to calibrate bochs emulated time with wall clock time.",
BX_MIN_IPS, BX_MAX_BIT32U,
4000000);
#if BX_SUPPORT_SMP
new bx_param_num_c(cpu_param,
"quantum", "Quantum ticks in SMP simulation",
"Maximum amount of instructions allowed to execute before returning control to another CPU.",
BX_SMP_QUANTUM_MIN, BX_SMP_QUANTUM_MAX,
16);
#endif
new bx_param_bool_c(cpu_param,
"reset_on_triple_fault", "Enable CPU reset on triple fault",
"Enable CPU reset if triple fault occured (highly recommended)",
1);
#if BX_CPU_LEVEL >= 5
new bx_param_bool_c(cpu_param,
"ignore_bad_msrs", "Ignore RDMSR / WRMSR to unknown MSR register",
"Ignore RDMSR/WRMSR to unknown MSR register",
1);
#endif
new bx_param_bool_c(cpu_param,
"cpuid_limit_winnt", "Limit max CPUID function to 3",
"Limit max CPUID function reported to 3 to workaround WinNT issue",
0);
#if BX_SUPPORT_MONITOR_MWAIT
new bx_param_bool_c(cpu_param,
"mwait_is_nop", "Don't put CPU to sleep state by MWAIT",
"Don't put CPU to sleep state by MWAIT",
0);
#endif
#if BX_CONFIGURE_MSRS
new bx_param_filename_c(cpu_param,
"msrs",
"Configurable MSR definition file",
"Set path to the configurable MSR definition file",
"", BX_PATHNAME_LEN);
#endif
cpu_param->set_options(menu->SHOW_PARENT);
// cpuid subtree
#if BX_CPU_LEVEL >= 4
bx_list_c *cpuid_param = new bx_list_c(root_param, "cpuid", "CPUID Options");
new bx_param_num_c(cpuid_param,
"level", "CPU Level",
"CPU level",
(BX_CPU_LEVEL < 5) ? BX_CPU_LEVEL : 5, BX_CPU_LEVEL,
BX_CPU_LEVEL);
new bx_param_num_c(cpuid_param,
"stepping", "Stepping ID",
"Processor 4-bits stepping ID",
0, 15,
3);
new bx_param_num_c(cpuid_param,
"model", "Model ID",
"Processor model ID, extended model ID",
0, 255,
3);
new bx_param_num_c(cpuid_param,
"family", "Family ID",
"Processor family ID, extended family ID",
BX_CPU_LEVEL, (BX_CPU_LEVEL >= 6) ? 4095 : BX_CPU_LEVEL,
BX_CPU_LEVEL);
new bx_param_string_c(cpuid_param,
"vendor_string",
"CPUID vendor string",
"Set the CPUID vendor string",
#if BX_CPU_VENDOR_INTEL
"GenuineIntel",
#else
"AuthenticAMD",
#endif
BX_CPUID_VENDOR_LEN+1);
new bx_param_string_c(cpuid_param,
"brand_string",
"CPUID brand string",
"Set the CPUID brand string",
#if BX_CPU_VENDOR_INTEL
" Intel(R) Pentium(R) 4 CPU ",
#else
"AMD Athlon(tm) processor",
#endif
BX_CPUID_BRAND_LEN+1);
#if BX_CPU_LEVEL >= 5
new bx_param_bool_c(cpuid_param,
"mmx", "Support for MMX instruction set",
"Support for MMX instruction set",
1);
// configure defaults to XAPIC enabled
static const char *apic_names[] = {
"legacy",
"xapic",
#if BX_CPU_LEVEL >= 6
"xapic_ext",
"x2apic",
#endif
NULL
};
new bx_param_enum_c(cpuid_param,
"apic", "APIC configuration",
"Select APIC configuration (Legacy APIC/XAPIC/XAPIC_EXT/X2APIC)",
apic_names,
BX_CPUID_SUPPORT_XAPIC,
BX_CPUID_SUPPORT_LEGACY_APIC);
#endif
#if BX_CPU_LEVEL >= 6
// configure defaults to CPU_LEVEL = 6 with SSE2 enabled
static const char *simd_names[] = {
"none",
"sse",
"sse2",
"sse3",
"ssse3",
"sse4_1",
"sse4_2",
#if BX_SUPPORT_AVX
"avx",
"avx2",
#if BX_SUPPORT_EVEX
"avx512",
#endif
#endif
NULL };
new bx_param_enum_c(cpuid_param,
"simd", "Support for SIMD instruction set",
"Support for SIMD (SSE/SSE2/SSE3/SSSE3/SSE4_1/SSE4_2/AVX/AVX2/AVX512) instruction set",
simd_names,
BX_CPUID_SUPPORT_SSE2,
BX_CPUID_SUPPORT_NOSSE);
new bx_param_bool_c(cpuid_param,
"sse4a", "Support for AMD SSE4A instructions",
"Support for AMD SSE4A instructions",
0);
new bx_param_bool_c(cpuid_param,
"misaligned_sse", "Support for AMD Misaligned SSE mode",
"Support for AMD Misaligned SSE mode",
0);
new bx_param_bool_c(cpuid_param,
"sep", "Support for SYSENTER/SYSEXIT instructions",
"Support for SYSENTER/SYSEXIT instructions",
1);
new bx_param_bool_c(cpuid_param,
"movbe", "Support for MOVBE instruction",
"Support for MOVBE instruction",
0);
new bx_param_bool_c(cpuid_param,
"adx", "Support for ADX instructions",
"Support for ADCX/ADOX instructions",
0);
new bx_param_bool_c(cpuid_param,
"aes", "Support for AES instruction set",
"Support for AES instruction set",
0);
new bx_param_bool_c(cpuid_param,
"sha", "Support for SHA instruction set",
"Support for SHA instruction set",
0);
new bx_param_bool_c(cpuid_param,
"xsave", "Support for XSAVE extensions",
"Support for XSAVE extensions",
0);
new bx_param_bool_c(cpuid_param,
"xsaveopt", "Support for XSAVEOPT instruction",
"Support for XSAVEOPT instruction",
0);
#if BX_SUPPORT_AVX
new bx_param_bool_c(cpuid_param,
"avx_f16c", "Support for AVX F16 convert instructions",
"Support for AVX F16 convert instructions",
0);
new bx_param_bool_c(cpuid_param,
"avx_fma", "Support for AVX FMA instructions",
"Support for AVX FMA instructions",
0);
new bx_param_num_c(cpuid_param,
"bmi", "Support for BMI instructions",
"Support for Bit Manipulation Instructions (BMI)",
0, 2,
0);
new bx_param_bool_c(cpuid_param,
"xop", "Support for AMD XOP instructions",
"Support for AMD XOP instructions",
0);
new bx_param_bool_c(cpuid_param,
"fma4", "Support for AMD four operand FMA instructions",
"Support for AMD FMA4 instructions",
0);
new bx_param_bool_c(cpuid_param,
"tbm", "Support for AMD TBM instructions",
"Support for AMD Trailing Bit Manipulation (TBM) instructions",
0);
#endif
#if BX_SUPPORT_X86_64
new bx_param_bool_c(cpuid_param,
"x86_64", "x86-64 and long mode",
"Support for x86-64 and long mode",
1);
new bx_param_bool_c(cpuid_param,
"1g_pages", "1G pages support in long mode",
"Support for 1G pages in long mode",
0);
new bx_param_bool_c(cpuid_param,
"pcid", "PCID support in long mode",
"Support for process context ID (PCID) in long mode",
0);
new bx_param_bool_c(cpuid_param,
"fsgsbase", "FS/GS BASE access instructions support",
"FS/GS BASE access instructions support in long mode",
0);
#endif
new bx_param_bool_c(cpuid_param,
"smep", "Supervisor Mode Execution Protection support",
"Supervisor Mode Execution Protection support",
0);
new bx_param_bool_c(cpuid_param,
"smap", "Supervisor Mode Access Prevention support",
"Supervisor Mode Access Prevention support",
0);
#if BX_SUPPORT_MONITOR_MWAIT
new bx_param_bool_c(cpuid_param,
"mwait", "MONITOR/MWAIT instructions support",
"MONITOR/MWAIT instructions support",
BX_SUPPORT_MONITOR_MWAIT);
#endif
#if BX_SUPPORT_VMX
new bx_param_num_c(cpuid_param,
"vmx", "Support for Intel VMX extensions emulation",
"Support for Intel VMX extensions emulation",
0, BX_SUPPORT_VMX,
1);
#endif
#if BX_SUPPORT_SVM
new bx_param_bool_c(cpuid_param,
"svm", "Secure Virtual Machine (SVM) emulation support",
"Secure Virtual Machine (SVM) emulation support",
0);
#endif
#endif // CPU_LEVEL >= 6
cpuid_param->set_options(menu->SHOW_PARENT | menu->USE_SCROLL_WINDOW);
// CPUID subtree depends on CPU model
SIM->get_param_enum(BXPN_CPU_MODEL)->set_dependent_list(cpuid_param->clone(), 0);
// enable CPUID subtree only for CPU model choice #0
SIM->get_param_enum(BXPN_CPU_MODEL)->set_dependent_bitmap(0, BX_MAX_BIT64U);
#endif // CPU_LEVEL >= 4
// memory subtree
bx_list_c *memory = new bx_list_c(root_param, "memory", "Memory Options");
bx_list_c *stdmem = new bx_list_c(memory, "standard", "Standard Options");
bx_list_c *optrom = new bx_list_c(memory, "optrom", "Optional ROM Images");
bx_list_c *optram = new bx_list_c(memory, "optram", "Optional RAM Images");
bx_list_c *ram = new bx_list_c(stdmem, "ram", "RAM size options");
bx_list_c *rom = new bx_list_c(stdmem, "rom", "BIOS ROM options");
bx_list_c *vgarom = new bx_list_c(stdmem, "vgarom", "VGABIOS ROM options");
// memory options (ram & rom)
bx_param_num_c *ramsize = new bx_param_num_c(ram,
"size",
"Memory size (megabytes)",
"Amount of RAM in megabytes",
1, ((Bit64u)(1) << BX_PHY_ADDRESS_WIDTH) / (1024*1024),
BX_DEFAULT_MEM_MEGS);
ramsize->set_ask_format("Enter memory size (MB): [%d] ");
bx_param_num_c *host_ramsize = new bx_param_num_c(ram,
"host_size",
"Host allocated memory size (megabytes)",
"Amount of host allocated memory in megabytes",
1, 2048,
BX_DEFAULT_MEM_MEGS);
host_ramsize->set_ask_format("Enter host memory size (MB): [%d] ");
ram->set_options(ram->SERIES_ASK);
path = new bx_param_filename_c(rom,
"path",
"ROM BIOS image",
"Pathname of ROM image to load",
"", BX_PATHNAME_LEN);
path->set_format("Name of ROM BIOS image: %s");
sprintf(name, "%s/BIOS-bochs-latest", (char *)get_builtin_variable("BXSHARE"));
path->set_initial_val(name);
bx_param_num_c *romaddr = new bx_param_num_c(rom,
"addr",
"ROM BIOS address",
"The address at which the ROM image should be loaded",
0, BX_MAX_BIT32U,
0);
romaddr->set_base(16);
romaddr->set_format("0x%05x");
romaddr->set_long_format("ROM BIOS address: 0x%05x");
rom->set_options(rom->SERIES_ASK);
path = new bx_param_filename_c(vgarom,
"path",
"VGA BIOS image",
"Pathname of VGA ROM image to load",
"", BX_PATHNAME_LEN);
path->set_format("Name of VGA BIOS image: %s");
sprintf(name, "%s/VGABIOS-lgpl-latest", get_builtin_variable("BXSHARE"));
path->set_initial_val(name);
vgarom->set_options(vgarom->SERIES_ASK);
bx_param_num_c *optaddr;
for (i=0; i<BX_N_OPTROM_IMAGES; i++) {
sprintf(name, "%d", i+1);
sprintf(descr, "Pathname of optional ROM image #%d to load", i+1);
sprintf(label, "Optional ROM image #%d", i+1);
bx_list_c *optnum1 = new bx_list_c(optrom, name, label);
path = new bx_param_filename_c(optnum1,
"path",
"Path",
descr,
"", BX_PATHNAME_LEN);
sprintf(label, "Name of optional ROM image #%d", i+1);
strcat(label, " : %s");
path->set_format(strdup(label));
sprintf(descr, "The address at which the optional ROM image #%d should be loaded", i+1);
optaddr = new bx_param_num_c(optnum1,
"addr",
"Address",
descr,
0, BX_MAX_BIT32U,
0);
optaddr->set_base(16);
optaddr->set_format("0x%05x");
sprintf(label, "Optional ROM #%d address:", i+1);
strcat(label, " 0x%05x");
optaddr->set_long_format(strdup(label));
optnum1->set_options(optnum1->SERIES_ASK | optnum1->USE_BOX_TITLE);
}
optrom->set_options(optrom->SHOW_PARENT);
for (i=0; i<BX_N_OPTRAM_IMAGES; i++) {
sprintf(name, "%d", i+1);
sprintf(descr, "Pathname of optional RAM image #%d to load", i+1);
sprintf(label, "Optional RAM image #%d", i+1);
bx_list_c *optnum2 = new bx_list_c(optram, name, label);
path = new bx_param_filename_c(optnum2,
"path",
"Path",
descr,
"", BX_PATHNAME_LEN);
sprintf(label, "Name of optional RAM image #%d", i+1);
strcat(label, " : %s");
path->set_format(strdup(label));
sprintf(descr, "The address at which the optional RAM image #%d should be loaded", i+1);
optaddr = new bx_param_num_c(optnum2,
"addr",
"Address",
descr,
0, BX_MAX_BIT32U,
0);
optaddr->set_base(16);
optaddr->set_format("0x%05x");
sprintf(label, "Optional RAM #%d address:", i+1);
strcat(label, " 0x%05x");
optaddr->set_long_format(strdup(label));
optnum2->set_options(optnum2->SERIES_ASK | optnum2->USE_BOX_TITLE);
}
optram->set_options(optram->SHOW_PARENT);
memory->set_options(memory->SHOW_PARENT | memory->USE_TAB_WINDOW);
// clock & cmos subtree
bx_list_c *clock_cmos = new bx_list_c(root_param, "clock_cmos", "Clock & CMOS Options");
// clock & cmos options
static const char *clock_sync_names[] = { "none", "realtime", "slowdown", "both", NULL };
bx_param_enum_c *clock_sync = new bx_param_enum_c(clock_cmos,
"clock_sync", "Synchronisation method",
"Host to guest time synchronization method",
clock_sync_names,
BX_CLOCK_SYNC_NONE,
BX_CLOCK_SYNC_NONE);
bx_param_num_c *time0 = new bx_param_num_c(clock_cmos,
"time0",
"Initial CMOS time for Bochs\n(1:localtime, 2:utc, other:time in seconds)",
"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_param_bool_c *rtc_sync = new bx_param_bool_c(clock_cmos,
"rtc_sync", "Sync RTC speed with realtime",
"If enabled, the RTC runs at realtime speed",
0);
deplist = new bx_list_c(NULL);
deplist->add(rtc_sync);
clock_sync->set_dependent_list(deplist, 0);
clock_sync->set_dependent_bitmap(BX_CLOCK_SYNC_REALTIME, 1);
clock_sync->set_dependent_bitmap(BX_CLOCK_SYNC_BOTH, 1);
bx_list_c *cmosimage = new bx_list_c(clock_cmos, "cmosimage", "CMOS Image Options");
bx_param_bool_c *use_cmosimage = new bx_param_bool_c(cmosimage,
"enabled", "Use a CMOS image",
"Controls the usage of a CMOS image",
0);
path = new bx_param_filename_c(cmosimage,
"path", "Pathname of CMOS image",
"Pathname of CMOS image",
"", BX_PATHNAME_LEN);
bx_param_bool_c *rtc_init = new bx_param_bool_c(cmosimage,
"rtc_init", "Initialize RTC from image",
"Controls whether to initialize the RTC with values stored in the image",
0);
deplist = new bx_list_c(NULL);
deplist->add(path);
deplist->add(rtc_init);
use_cmosimage->set_dependent_list(deplist);
time0->set_ask_format("Enter Initial CMOS time (1:localtime, 2:utc, other:time in seconds): [%d] ");
clock_sync->set_ask_format("Enter Synchronisation method: [%s] ");
clock_cmos->set_options(clock_cmos->SHOW_PARENT);
cmosimage->set_options(cmosimage->SHOW_PARENT);
// pci subtree
bx_list_c *pci = new bx_list_c(root_param, "pci", "PCI Options");
// pci options
static const char *pci_chipset_names[] = { "i430fx", "i440fx", NULL };
deplist = new bx_list_c(NULL);
enabled = new bx_param_bool_c(pci,
"enabled",
"Enable PCI Support",
"Controls whether to emulate a PCI chipset",
BX_SUPPORT_PCI);
bx_param_enum_c *pci_chipset = new bx_param_enum_c(pci,
"chipset", "PCI chipset",
"Select PCI chipset to emulate",
pci_chipset_names,
BX_PCI_CHIPSET_I440FX,
BX_PCI_CHIPSET_I430FX);
deplist->add(pci_chipset);
// pci slots
bx_list_c *slot = new bx_list_c(pci, "slot", "PCI Slots");
deplist->add(slot);
for (i=0; i<BX_N_PCI_SLOTS; i++) {
sprintf(name, "%d", i+1);
sprintf (descr, "Name of the device connected to PCI slot #%d", i+1);
sprintf (label, "PCI slot #%d device", i+1);
bx_param_string_c *devname = new bx_param_string_c(slot,
name,
label,
descr,
"", BX_PATHNAME_LEN);
deplist->add(devname);
}
enabled->set_dependent_list(deplist);
pci->set_options(pci->SHOW_PARENT);
slot->set_options(slot->SHOW_PARENT);
// display subtree
bx_list_c *display = new bx_list_c(root_param, "display", "Bochs Display & Interface Options");
// 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 const 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_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_VNCSRV
"vncsrv",
#endif
#if BX_WITH_WX
"wx",
#endif
#if BX_WITH_NOGUI
"nogui",
#endif
NULL
};
bx_param_enum_c *sel_displaylib = new bx_param_enum_c(display,
"display_library", "VGA Display Library",
"Select VGA Display Library",
display_library_list,
0,
0);
sel_displaylib->set_by_name(BX_DEFAULT_DISPLAY_LIBRARY);
sel_displaylib->set_ask_format("Choose which library to use for the Bochs display: [%s] ");
new bx_param_string_c(display,
"displaylib_options", "Display Library options",
"Options passed to Display Library",
"",
BX_PATHNAME_LEN);
new bx_param_bool_c(display,
"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_param_bool_c *fullscreen = new bx_param_bool_c(display,
"fullscreen", "Use full screen mode",
"When enabled, bochs occupies the whole screen instead of just a window.",
0);
bx_param_string_c *screenmode = new bx_param_string_c(display,
"screenmode",
"Screen mode name",
"Screen mode name",
"", BX_PATHNAME_LEN);
screenmode->set_handler(bx_param_string_handler);
#endif
bx_param_num_c *vga_update_freq = new bx_param_num_c(display,
"vga_update_frequency",
"VGA Update Frequency",
"Number of VGA updates per emulated second",
1, 60,
5);
vga_update_freq->set_ask_format ("Type a new value for VGA update frequency: [%d] ");
bx_param_string_c *vga_extension = new bx_param_string_c(display,
"vga_extension",
"VGA Extension",
"Name of the VGA extension",
"none", BX_PATHNAME_LEN);
vga_extension->set_initial_val("vbe");
display->set_options(display->SHOW_PARENT);
// keyboard & mouse subtree
bx_list_c *kbd_mouse = new bx_list_c(root_param, "keyboard_mouse", "Keyboard & Mouse Options");
bx_list_c *keyboard = new bx_list_c(kbd_mouse, "keyboard", "Keyboard Options");
bx_list_c *mouse = new bx_list_c(kbd_mouse, "mouse", "Mouse Options");
static const char *keyboard_type_names[] = { "xt", "at", "mf", NULL };
// keyboard & mouse options
type = new bx_param_enum_c(keyboard,
"type", "Keyboard type",
"Keyboard type reported by the 'identify keyboard' command",
keyboard_type_names,
BX_KBD_MF_TYPE,
BX_KBD_XT_TYPE);
type->set_ask_format ("Enter keyboard type: [%s] ");
new bx_param_num_c(keyboard,
"serial_delay", "Keyboard serial delay",
"Approximate time in microseconds that it takes one character to be transferred from the keyboard to controller over the serial path.",
5, BX_MAX_BIT32U,
250);
new bx_param_num_c(keyboard,
"paste_delay", "Keyboard paste delay",
"Approximate time in microseconds between attemps to paste characters to the keyboard controller.",
1000, BX_MAX_BIT32U,
100000);
bx_param_bool_c *use_kbd_mapping = new bx_param_bool_c(keyboard,
"use_mapping", "Use keyboard mapping",
"Controls whether to use the keyboard mapping feature",
0);
use_kbd_mapping->set_options(bx_param_c::CI_ONLY);
bx_param_filename_c *keymap = new bx_param_filename_c(keyboard,
"keymap", "Keymap filename",
"Pathname of the keymap file used",
"", BX_PATHNAME_LEN);
keymap->set_extension("map");
deplist = new bx_list_c(NULL);
deplist->add(keymap);
use_kbd_mapping->set_dependent_list(deplist);
new bx_param_string_c(keyboard,
"user_shortcut",
"Userbutton shortcut",
"Defines the keyboard shortcut to be sent when you press the 'user' button in the headerbar.",
"none", 20);
static const char *mouse_type_list[] = {
"none",
"ps2",
"imps2",
#if BX_SUPPORT_BUSMOUSE
"bus",
#endif
"serial",
"serial_wheel",
"serial_msys",
NULL
};
type = new bx_param_enum_c(mouse,
"type", "Mouse type",
"The mouse type can be one of these: 'none', 'ps2', 'imps2', 'serial', 'serial_wheel'"
#if BX_SUPPORT_BUSMOUSE
", 'bus'"
#endif
,
mouse_type_list,
BX_MOUSE_TYPE_PS2,
BX_MOUSE_TYPE_NONE);
type->set_ask_format("Choose the type of mouse [%s] ");
new bx_param_bool_c(mouse,
"enabled", "Enable mouse capture",
"Controls whether the mouse sends events to the guest. The hardware emulation is always enabled.",
0);
static const char *mouse_toggle_list[] = {
"ctrl+mbutton",
"ctrl+f10",
"ctrl+alt",
"f12",
NULL
};
toggle = new bx_param_enum_c(mouse,
"toggle", "Mouse toggle method",
"The mouse toggle method can be one of these: 'ctrl+mbutton', 'ctrl+f10', 'ctrl+alt'",
mouse_toggle_list,
BX_MOUSE_TOGGLE_CTRL_MB,
BX_MOUSE_TOGGLE_CTRL_MB);
toggle->set_ask_format("Choose the mouse toggle method [%s] ");
kbd_mouse->set_options(kbd_mouse->SHOW_PARENT);
keyboard->set_options(keyboard->SHOW_PARENT);
mouse->set_options(mouse->SHOW_PARENT);
// boot parameter subtree
bx_list_c *boot_params = new bx_list_c(root_param, "boot_params", "Boot Options");
// boot sequence
for (i=0; i<3; i++) {
sprintf(name, "boot_drive%d", i+1);
sprintf(label, "Boot drive #%d", i+1);
sprintf(descr, "Name of drive #%d in boot sequence (A, C or CD)", i+1);
bx_param_enum_c *bootdrive = new bx_param_enum_c(boot_params,
name,
label,
descr,
&bochs_bootdisk_names[(i==0)?BX_BOOT_FLOPPYA:BX_BOOT_NONE],
(i==0)?BX_BOOT_FLOPPYA:BX_BOOT_NONE,
(i==0)?BX_BOOT_FLOPPYA:BX_BOOT_NONE);
bootdrive->set_ask_format("Boot from floppy drive, hard drive or cdrom ? [%s] ");
}
new bx_param_bool_c(boot_params,
"floppy_sig_check",
"Skip Floppy Boot Signature Check",
"Skips check for the 0xaa55 signature on floppy boot device.",
0);
// loader hack
bx_list_c *load32bitos = new bx_list_c(boot_params, "load32bitos", "32-bit OS Loader Hack");
static const char *loader_os_names[] = { "none", "linux", "nullkernel", NULL };
bx_param_enum_c *whichOS = new bx_param_enum_c(load32bitos,
"which",
"Which operating system?",
"Which OS to boot",
loader_os_names,
Load32bitOSNone,
Load32bitOSNone);
path = new bx_param_filename_c(load32bitos,
"path",
"Pathname of OS to load",
"Pathname of the 32-bit OS to load",
"", BX_PATHNAME_LEN);
bx_param_filename_c *iolog = new bx_param_filename_c(load32bitos,
"iolog",
"Pathname of I/O log file",
"I/O logfile used for initializing the hardware",
"", BX_PATHNAME_LEN);
bx_param_filename_c *initrd = new bx_param_filename_c(load32bitos,
"initrd",
"Pathname of initrd",
"Pathname of the initial ramdisk",
"", BX_PATHNAME_LEN);
whichOS->set_ask_format("Enter OS to load: [%s] ");
path->set_ask_format("Enter pathname of OS: [%s]");
iolog->set_ask_format("Enter pathname of I/O log: [%s] ");
initrd->set_ask_format("Enter pathname of initrd: [%s] ");
load32bitos->set_options(menu->SERIES_ASK);
whichOS->set_dependent_list(load32bitos->clone(), 1);
whichOS->set_dependent_bitmap(Load32bitOSNone, 0);
whichOS->set(Load32bitOSNone);
boot_params->set_options(menu->SHOW_PARENT);
// floppy subtree
bx_list_c *floppy = new bx_list_c(root_param, "floppy", "Floppy Options");
new bx_list_c(floppy, "0", "First Floppy Drive");
new bx_list_c(floppy, "1", "Second Floppy Drive");
bx_param_enum_c *devtype;
// floppy options
for (i = 0; i < 2; i++) {
bx_list_c *floppyX = (bx_list_c*)floppy->get(i);
devtype = new bx_param_enum_c(floppyX,
"devtype",
"Type of floppy drive",
"Type of floppy drive",
floppy_devtype_names,
BX_FDD_NONE,
BX_FDD_NONE);
devtype->set_ask_format("What type of floppy drive? [%s] ");
if (i == 0) {
strcpy(label, "First floppy image/device");
strcpy(descr, "Pathname of first floppy image file or device. If you're booting from floppy, this should be a bootable floppy.");
} else {
strcpy(label, "Second floppy image/device");
strcpy(descr, "Pathname of second floppy image file or device.");
}
path = new bx_param_filename_c(floppyX, "path", label, descr, "", BX_PATHNAME_LEN);
path->set_ask_format("Enter new filename, or 'none' for no disk: [%s] ");
path->set_extension("img");
path->set_initial_val("none");
type = new bx_param_enum_c(floppyX,
"type",
"Type of floppy media",
"Type of floppy media",
floppy_type_names,
BX_FLOPPY_NONE,
BX_FLOPPY_NONE);
type->set_ask_format("What type of floppy media? (auto=detect) [%s] ");
type->set_handler(bx_param_handler);
type->set_runtime_param(1);
readonly = new bx_param_bool_c(floppyX,
"readonly",
"Write Protection",
"Floppy media write protection",
0);
readonly->set_ask_format("Is media write protected? [%s] ");
status = new bx_param_enum_c(floppyX,
"status",
"Status",
"Floppy media status (inserted / ejected)",
media_status_names,
BX_EJECTED,
BX_EJECTED);
status->set_ask_format("Is the device inserted or ejected? [%s] ");
deplist = new bx_list_c(NULL);
deplist->add(path);
devtype->set_dependent_list(deplist, 1);
devtype->set_dependent_bitmap(BX_FDD_NONE, 0);
deplist = new bx_list_c(NULL);
deplist->add(type);
deplist->add(readonly);
deplist->add(status);
path->set_dependent_list(deplist);
floppyX->set_options(floppyX->SERIES_ASK | floppyX->USE_BOX_TITLE);
}
floppy->set_options(floppy->SHOW_PARENT);
// ATA/ATAPI subtree
bx_list_c *ata = new bx_list_c(root_param, "ata", "ATA/ATAPI Options");
ata->set_options(ata->USE_TAB_WINDOW);
// disk options
const char *s_atachannel[] = {
"ATA channel 0",
"ATA channel 1",
"ATA channel 2",
"ATA channel 3",
};
const char *s_atadevname[2] = {
"master",
"slave",
};
const 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[4] = {
0x1f0, 0x170, 0x1e8, 0x168
};
Bit16u ata_default_ioaddr2[4] = {
0x3f0, 0x370, 0x3e0, 0x360
};
Bit8u ata_default_irq[4] = {
14, 15, 11, 9
};
#define BXP_PARAMS_PER_ATA_DEVICE 12
bx_list_c *ata_menu[BX_MAX_ATA_CHANNEL];
bx_list_c *ata_res[BX_MAX_ATA_CHANNEL];
for (Bit8u channel=0; channel<BX_MAX_ATA_CHANNEL; channel++) {
sprintf(name, "%d", channel);
ata_menu[channel] = new bx_list_c(ata, name, s_atachannel[channel]);
ata_menu[channel]->set_options(bx_list_c::USE_TAB_WINDOW);
ata_res[channel] = new bx_list_c(ata_menu[channel], "resources", s_atachannel[channel]);
ata_res[channel]->set_options(bx_list_c::SERIES_ASK);
enabled = new bx_param_bool_c(ata_res[channel],
"enabled",
"Enable ATA channel",
"Controls whether ata channel is installed or not",
0);
enabled->set_ask_format("Channel is enabled: [%s] ");
ioaddr = new bx_param_num_c(ata_res[channel],
"ioaddr1",
"I/O Address 1",
"IO adress of ata command block",
0, 0xffff,
ata_default_ioaddr1[channel]);
ioaddr->set_base(16);
ioaddr->set_ask_format("Enter new ioaddr1: [0x%x] ");
ioaddr2 = new bx_param_num_c(ata_res[channel],
"ioaddr2",
"I/O Address 2",
"IO adress of ata control block",
0, 0xffff,
ata_default_ioaddr2[channel]);
ioaddr2->set_base(16);
ioaddr2->set_ask_format("Enter new ioaddr2: [0x%x] ");
irq = new bx_param_num_c(ata_res[channel],
"irq",
"IRQ",
"IRQ used by this ata channel",
0, 15,
ata_default_irq[channel]);
irq->set_ask_format("Enter new IRQ: [%d] ");
irq->set_options(irq->USE_SPIN_CONTROL);
// all items in the ata[channel] menu depend on the enabled 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.
enabled->set_dependent_list(ata_res[channel]->clone());
for (Bit8u slave=0; slave<2; slave++) {
menu = new bx_list_c(ata_menu[channel],
s_atadevname[slave],
s_atadevice[channel][slave]);
menu->set_options(menu->SERIES_ASK);
static const char *atadevice_type_names[] = { "none", "disk", "cdrom", NULL };
type = new bx_param_enum_c(menu,
"type",
"Type of ATA device",
"Type of ATA device (disk or cdrom)",
atadevice_type_names,
BX_ATA_DEVICE_NONE,
BX_ATA_DEVICE_NONE);
type->set_ask_format("Enter type of ATA device, disk or cdrom: [%s] ");
path = new bx_param_filename_c(menu,
"path",
"Path or physical device name",
"Pathname of the image or physical device (cdrom only)",
"", BX_PATHNAME_LEN);
path->set_ask_format("Enter new filename: [%s] ");
path->set_extension("img");
mode = new bx_param_enum_c(menu,
"mode",
"Type of disk image",
"Mode of the ATA harddisk",
hdimage_mode_names,
BX_HDIMAGE_MODE_FLAT,
BX_HDIMAGE_MODE_FLAT);
mode->set_ask_format("Enter mode of ATA device, (flat, concat, etc.): [%s] ");
status = new bx_param_enum_c(menu,
"status",
"Status",
"CD-ROM media status (inserted / ejected)",
media_status_names,
BX_EJECTED,
BX_EJECTED);
status->set_ask_format("Is the device inserted or ejected? [%s] ");
bx_param_filename_c *journal = new bx_param_filename_c(menu,
"journal",
"Path of journal file",
"Pathname of the journal file",
"", BX_PATHNAME_LEN);
journal->set_ask_format("Enter path of journal file: [%s]");
deplist = new bx_list_c(NULL);
deplist->add(journal);
mode->set_dependent_list(deplist, 0);
mode->set_dependent_bitmap(BX_HDIMAGE_MODE_UNDOABLE, 1);
mode->set_dependent_bitmap(BX_HDIMAGE_MODE_VOLATILE, 1);
mode->set_dependent_bitmap(BX_HDIMAGE_MODE_VVFAT, 1);
bx_param_num_c *cylinders = new bx_param_num_c(menu,
"cylinders",
"Cylinders",
"Number of cylinders",
0, 262143,
0);
cylinders->set_ask_format("Enter number of cylinders: [%d] ");
bx_param_num_c *heads = new bx_param_num_c(menu,
"heads",
"Heads",
"Number of heads",
0, 16,
0);
heads->set_ask_format("Enter number of heads: [%d] ");
bx_param_num_c *spt = new bx_param_num_c(menu,
"spt",
"Sectors per track",
"Number of sectors per track",
0, 63,
0);
spt->set_ask_format("Enter number of sectors per track: [%d] ");
bx_param_string_c *model = new bx_param_string_c(menu,
"model",
"Model name",
"String returned by the 'identify device' command",
"Generic 1234", 41);
model->set_ask_format("Enter new model name: [%s]");
static const char *atadevice_biosdetect_names[] = { "none", "auto", "cmos", NULL };
bx_param_enum_c *biosdetect = new bx_param_enum_c(menu,
"biosdetect",
"BIOS Detection",
"Type of bios detection",
atadevice_biosdetect_names,
BX_ATA_BIOSDETECT_AUTO,
BX_ATA_BIOSDETECT_NONE);
biosdetect->set_ask_format("Enter bios detection type: [%s]");
static const char *atadevice_translation_names[] = { "none", "lba", "large", "rechs", "auto", NULL };
bx_param_enum_c *translation = new bx_param_enum_c(menu,
"translation",
"Translation type",
"How the ata-disk translation is done by the bios",
atadevice_translation_names,
BX_ATA_TRANSLATION_AUTO,
BX_ATA_TRANSLATION_NONE);
translation->set_ask_format("Enter translation type: [%s]");
// the master/slave menu depends on the ATA channel's enabled flag
enabled->get_dependent_list()->add(menu);
// the type selector depends on the ATA channel's enabled flag
enabled->get_dependent_list()->add(type);
// all items depend on the drive type
type->set_dependent_list(menu->clone(), 0);
type->set_dependent_bitmap(BX_ATA_DEVICE_DISK, 0x7e6);
type->set_dependent_bitmap(BX_ATA_DEVICE_CDROM, 0x30a);
type->set_handler(bx_param_handler);
}
// Enable two ATA interfaces by default, disable the others.
// Now that the dependence relationships are established, call set() on
// the ata device present params to set all enables correctly.
enabled->set_initial_val(channel<2);
enabled->set(channel<2);
}
// disk menu
bx_param_c *disk_menu_init_list[] = {
SIM->get_param(BXPN_FLOPPYA),
SIM->get_param(BXPN_FLOPPYB),
SIM->get_param(BXPN_ATA0_RES),
SIM->get_param(BXPN_ATA0_MASTER),
SIM->get_param(BXPN_ATA0_SLAVE),
#if BX_MAX_ATA_CHANNEL>1
SIM->get_param(BXPN_ATA1_RES),
SIM->get_param(BXPN_ATA1_MASTER),
SIM->get_param(BXPN_ATA1_SLAVE),
#endif
#if BX_MAX_ATA_CHANNEL>2
SIM->get_param(BXPN_ATA2_RES),
SIM->get_param(BXPN_ATA2_MASTER),
SIM->get_param(BXPN_ATA2_SLAVE),
#endif
#if BX_MAX_ATA_CHANNEL>3
SIM->get_param(BXPN_ATA3_RES),
SIM->get_param(BXPN_ATA3_MASTER),
SIM->get_param(BXPN_ATA3_SLAVE),
#endif
SIM->get_param("boot_params"),
NULL
};
menu = new bx_list_c(special_menus, "disk", "Bochs Disk Options", disk_menu_init_list);
menu->set_options(menu->SHOW_PARENT);
#ifdef WIN32
// disk menu for win32paramdlg
bx_param_c *disk_menu2_init_list[] = {
SIM->get_param("floppy"),
SIM->get_param("ata.0"),
#if BX_MAX_ATA_CHANNEL>1
SIM->get_param("ata.1"),
#endif
#if BX_MAX_ATA_CHANNEL>2
SIM->get_param("ata.2"),
#endif
#if BX_MAX_ATA_CHANNEL>3
SIM->get_param("ata.3"),
#endif
SIM->get_param("boot_params"),
NULL
};
menu = new bx_list_c(special_menus, "disk_win32", "Bochs Disk Options", disk_menu2_init_list);
menu->set_options(menu->USE_TAB_WINDOW);
#endif
// ports subtree
bx_list_c *ports = new bx_list_c(root_param, "ports", "Serial and Parallel Port Options");
ports->set_options(ports->USE_TAB_WINDOW | ports->SHOW_PARENT);
// parallel ports
bx_list_c *parallel = new bx_list_c(ports, "parallel", "Parallel Port Options");
parallel->set_options(parallel->SHOW_PARENT);
// parport options initialized in the devive plugin code
// serial ports
bx_list_c *serial = new bx_list_c(ports, "serial", "Serial Port Options");
serial->set_options(serial->SHOW_PARENT);
// serial port options initialized in the devive plugin code
// usb subtree
bx_list_c *usb = new bx_list_c(ports, "usb", "USB Configuration");
usb->set_options(usb->USE_TAB_WINDOW | usb->SHOW_PARENT);
// USB host controller options initialized in the devive plugin code
// network subtree
bx_list_c *network = new bx_list_c(root_param, "network", "Network Configuration");
network->set_options(network->USE_TAB_WINDOW | network->SHOW_PARENT);
// network device options initialized in the devive plugin code
// sound subtree
bx_list_c *sound = new bx_list_c(root_param, "sound", "Sound Configuration");
sound->set_options(sound->USE_TAB_WINDOW | sound->SHOW_PARENT);
bx_list_c *soundlow = new bx_list_c(sound, "lowlevel", "Lowlevel Sound Configuration");
soundlow->set_options(soundlow->SHOW_PARENT | soundlow->SERIES_ASK);
soundlow->set_enabled(BX_SUPPORT_SOUNDLOW);
#if BX_SUPPORT_SOUNDLOW
new bx_param_string_c(soundlow,
"driver",
"Sound driver",
"This is the lowlevel driver to use for emulated sound devices",
"default", BX_PATHNAME_LEN);
new bx_param_filename_c(soundlow,
"waveout",
"Wave output device",
"This is the device where the wave output is sent to",
"", BX_PATHNAME_LEN);
new bx_param_filename_c(soundlow,
"wavein",
"Wave input device",
"This is the device to be used as the wave input source",
"", BX_PATHNAME_LEN);
#endif
// sound device options initialized in the devive plugin code
// misc options subtree
bx_list_c *misc = new bx_list_c(root_param, "misc", "Configure Everything Else");
misc->set_options(misc->SHOW_PARENT);
// port e9 hack
new bx_param_bool_c(misc,
"port_e9_hack",
"Enable port 0xE9 hack",
"Debug messages written to i/o port 0xE9 will be displayed on console",
0);
// GDB stub
menu = new bx_list_c(misc, "gdbstub", "GDB Stub Options");
menu->set_options(menu->SHOW_PARENT | menu->USE_BOX_TITLE);
menu->set_enabled(BX_GDBSTUB);
enabled = new bx_param_bool_c(menu,
"enabled",
"Enable GDB stub",
"",
0);
enabled->set_enabled(BX_GDBSTUB);
new bx_param_num_c(menu,
"port",
"Port",
"TCP/IP port for GDB stub",
0, 65535,
1234);
new bx_param_num_c(menu,
"text_base",
"Text base",
"",
0, BX_MAX_BIT32U,
0);
new bx_param_num_c(menu,
"data_base",
"Data base",
"",
0, BX_MAX_BIT32U,
0);
new bx_param_num_c(menu,
"bss_base",
"BSS base",
"",
0, BX_MAX_BIT32U,
0);
enabled->set_dependent_list(menu->clone());
#if BX_PLUGINS
// user plugin options
menu = new bx_list_c(misc, "user_plugin", "User Plugin Options");
menu->set_options(menu->SHOW_PARENT | menu->USE_BOX_TITLE);
for (i=0; i<BX_N_USER_PLUGINS; i++) {
sprintf(name, "%d", i+1);
sprintf(label, "User Plugin #%d", i+1);
sprintf(descr, "User-defined plugin device #%d", i+1);
bx_param_string_c *plugin = new bx_param_string_c(menu, name, label, descr,
"", BX_PATHNAME_LEN);
plugin->set_handler(bx_param_string_handler);
}
// user-defined options subtree
bx_list_c *user = new bx_list_c(root_param, "user", "User-defined options");
user->set_options(user->SHOW_PARENT);
#endif
// log options subtree
menu = new bx_list_c(root_param, "log", "Logfile Options");
menu->set_options(menu->SHOW_PARENT);
// log options
path = new bx_param_filename_c(menu,
"filename",
"Log filename",
"Pathname of bochs log file",
"-", BX_PATHNAME_LEN);
path->set_ask_format("Enter log filename: [%s] ");
path->set_extension("txt");
bx_param_string_c *prefix = new bx_param_string_c(menu,
"prefix",
"Log output prefix",
"Prefix prepended to log output",
"%t%e%d", BX_LOGPREFIX_LEN);
prefix->set_ask_format("Enter log prefix: [%s] ");
path = new bx_param_filename_c(menu,
"debugger_filename",
"Debugger Log filename",
"Pathname of debugger log file",
"-", BX_PATHNAME_LEN);
path->set_ask_format("Enter debugger log filename: [%s] ");
path->set_extension("log");
path->set_enabled(BX_DEBUGGER);
// runtime options
menu = new bx_list_c(special_menus, "runtime", "Runtime options");
bx_list_c *cdrom = new bx_list_c(menu, "cdrom", "CD-ROM options");
cdrom->set_runtime_param(1);
cdrom->set_options(cdrom->SHOW_PARENT);
usb = new bx_list_c(menu, "usb", "USB options");
usb->set_runtime_param(1);
usb->set_options(usb->SHOW_PARENT | usb->USE_TAB_WINDOW);
// misc runtime options
misc = new bx_list_c(menu, "misc", "Misc options");
misc->set_runtime_param(1);
misc->add(SIM->get_param(BXPN_VGA_UPDATE_FREQUENCY));
misc->add(SIM->get_param(BXPN_MOUSE_ENABLED));
misc->add(SIM->get_param(BXPN_KBD_PASTE_DELAY));
misc->add(SIM->get_param(BXPN_USER_SHORTCUT));
misc->set_options(misc->SHOW_PARENT | misc->SHOW_GROUP_NAME);
}
void bx_reset_options()
{
// optional plugin control
bx_plugin_ctrl_reset(1);
// cpu
SIM->get_param("cpu")->reset();
#if BX_CPU_LEVEL >= 4
// cpuid
SIM->get_param("cpuid")->reset();
#endif
// memory (ram & rom)
SIM->get_param("memory")->reset();
// clock & cmos
SIM->get_param("clock_cmos")->reset();
// pci
SIM->get_param("pci")->reset();
// display & interface
SIM->get_param("display")->reset();
// keyboard & mouse
SIM->get_param("keyboard_mouse")->reset();
// boot
SIM->get_param("boot_params")->reset();
// floppy drives
SIM->get_param("floppy")->reset();
// ata/atapi drives
SIM->get_param("ata")->reset();
// serial/parallel/usb
SIM->get_param("ports")->reset();
// network devices
SIM->get_param("network")->reset();
// sound devices
SIM->get_param("sound")->reset();
// misc
SIM->get_param("misc")->reset();
// logfile
SIM->get_param("log")->reset();
#if BX_PLUGINS
// user-defined options
SIM->get_param("user")->reset();
bx_user_plugin_count = 0;
#endif
}
int bx_read_configuration(const 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; level<N_LOGLEV; level++) {
int action = SIM->get_default_log_action(level);
io->set_log_action(level, action);
}
bx_set_log_actions_by_device(0);
return 0;
}
int bx_parse_cmdline(int arg, int argc, char *argv[])
{
int level, def_action[N_LOGLEV];
for (level=0; level<N_LOGLEV; level++) {
def_action[level] = SIM->get_default_log_action(level);
}
while (arg < argc) {
BX_INFO (("parsing arg %d, %s", arg, argv[arg]));
parse_line_unformatted("cmdline args", argv[arg]);
arg++;
}
// update log actions if default has been changed
for (level=0; level<N_LOGLEV; level++) {
int action = SIM->get_default_log_action(level);
if (action != def_action[level]) {
io->set_log_action(level, action);
}
}
bx_set_log_actions_by_device(0);
return 0;
}
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) snprintf (rcfile, sizeof(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(const char *rcfile)
{
FILE *fd = NULL;
char *ret;
char line[512];
char context[BX_PATHNAME_LEN];
Bit32u linenum = 1;
// try several possibilities for the bochsrc before giving up
bochsrc_include_level++;
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';
size_t len = strlen(line);
if ((len>0) && (line[len-1] < ' '))
line[len-1] = '\0';
if ((ret != NULL) && strlen(line)) {
sprintf(context, "%s:%u", rcfile, linenum);
if (parse_line_unformatted(context, line) < 0) {
retval = -1;
break; // quit parsing after first error
}
}
linenum++;
} while (!feof(fd));
fclose(fd);
bochsrc_include_level--;
return retval;
}
static const char *get_builtin_variable(const 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 int parse_line_unformatted(const char *context, char *line)
{
#define MAX_PARAMS_LEN 40
char *ptr;
unsigned i, string_i = 0;
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); i++) {
if (!isspace(line[i])) break;
}
if (i>=strlen(line))
return 0;
num_params = 0;
if (!strncmp(line, "#include", 8))
ptr = strtok(line, " ");
else
ptr = strtok(line, ":");
while ((ptr) && (!comment)) {
if (!inquotes) {
string_i = 0;
} else {
string[string_i++] = ',';
}
for (i=0; i<strlen(ptr); i++) {
if (ptr[i] == '"')
inquotes = !inquotes;
else if ((ptr[i] == '#') && (strncmp(line+i, "#include", 8)) && !inquotes) {
comment = 1;
break;
} else {
#if BX_HAVE_GETENV
// substitute environment variables.
if (ptr[i] == '$') {
char varname[512];
char *pv = varname;
const char *value;
*pv = 0;
i++;
while (isalpha(ptr[i]) || ptr[i]=='_') {
*pv = ptr[i]; pv++; i++;
}
*pv = 0;
if (strlen(varname)<1 || !(value = getenv(varname))) {
if ((value = get_builtin_variable(varname))) {
// append value to the string
for (pv=(char *)value; *pv; pv++)
string[string_i++] = *pv;
} else {
BX_PANIC (("could not look up environment variable '%s'", varname));
}
} else {
// append value to the string
for (pv=(char *)value; *pv; pv++)
string[string_i++] = *pv;
}
}
#endif
if (!isspace(ptr[i]) || inquotes) {
string[string_i++] = ptr[i];
}
}
}
string[string_i] = '\0';
if (string_i == 0) break;
if (!inquotes) {
if (params[num_params] != NULL) {
free(params[num_params]);
params[num_params] = NULL;
}
if (num_params < MAX_PARAMS_LEN) {
params[num_params++] = strdup(string);
} else {
BX_PANIC (("too many parameters, max is %d\n", MAX_PARAMS_LEN));
}
}
ptr = strtok(NULL, ",");
}
Bit32s retval = parse_line_formatted(context, num_params, &params[0]);
for (i=0; i < MAX_PARAMS_LEN; i++)
{
if (params[i] != NULL)
{
free(params[i]);
params[i] = NULL;
}
}
return retval;
}
// These macros are called for all parse errors, so that we can easily
// change the behavior of all occurrences.
#define PARSE_ERR(x) \
do { BX_PANIC(x); return -1; } while (0)
#define PARSE_WARN(x) \
BX_ERROR(x)
/*
* this supports the "floppyx: image=" option.
* the functions returns the type of the floppy
* image (1.44, 360, etc.), based on the image file size.
*/
int get_floppy_type_from_image(const char *filename)
{
struct stat stat_buf;
if (!strncmp(filename, "vvfat:", 6)) {
return BX_FLOPPY_1_44;
}
if (stat(filename, &stat_buf)) {
return BX_FLOPPY_NONE;
}
switch (stat_buf.st_size) {
case 163840:
return BX_FLOPPY_160K;
case 184320:
return BX_FLOPPY_180K;
case 327680:
return BX_FLOPPY_320K;
case 368640:
return BX_FLOPPY_360K;
case 737280:
return BX_FLOPPY_720K;
case 1228800:
return BX_FLOPPY_1_2;
case 1474560:
case 1720320:
case 1763328:
case 1884160:
return BX_FLOPPY_1_44;
case 2949120:
return BX_FLOPPY_2_88;
default:
return BX_FLOPPY_UNKNOWN;
}
}
static Bit32s parse_log_options(const char *context, int num_params, char *params[])
{
int level, action, i;
bx_bool def_action = 0;
char *param, *module, *actstr;
char pname[20];
bx_list_c *base;
bx_param_num_c *mparam;
if (!strcmp(params[0], "panic")) {
level = LOGLEV_PANIC;
} else if (!strcmp(params[0], "error")) {
level = LOGLEV_ERROR;
} else if (!strcmp(params[0], "info")) {
level = LOGLEV_INFO;
} else { /* debug */
level = LOGLEV_DEBUG;
}
for (i = 1; i < num_params; i++) {
param = strdup(params[i]);
module = strtok(param, "=");
actstr = strtok(NULL, "");
if (actstr != NULL) {
def_action = !strcmp(module, "action");
if (!strcmp(actstr, "fatal"))
action = ACT_FATAL;
else if (!strcmp (actstr, "report"))
action = ACT_REPORT;
else if (!strcmp (actstr, "ignore"))
action = ACT_IGNORE;
else if (!strcmp (actstr, "ask"))
action = ACT_ASK;
else {
PARSE_ERR(("%s: %s directive malformed.", context, params[0]));
free(param);
return -1;
}
// exclude some action / level combinations (see siminterface.h)
if (BX_LOG_OPTS_EXCLUDE(level, action)) {
PARSE_ERR(("%s: event type '%s' does not support log action '%s'.", context, params[0], actstr));
free(param);
return -1;
}
if (def_action) {
SIM->set_default_log_action(level, action);
} else {
sprintf(pname, "general.logfn.%s", params[0]);
base = (bx_list_c*) SIM->get_param(pname);
mparam = (bx_param_num_c*) base->get_by_name(module);
if (mparam != NULL) {
mparam->set(action);
} else {
mparam = new bx_param_num_c(base, module, "", "", -1, BX_MAX_BIT32U, action);
if (mparam == NULL) {
PARSE_ERR(("%s: %s: failed to add log module.", context, params[0]));
}
}
}
} else {
PARSE_ERR(("%s: %s directive malformed.", context, params[0]));
free(param);
return -1;
}
free(param);
}
return 0;
}
static int parse_debug_symbols(const char *context, const char **params, int num_params)
{
#if BX_DEBUGGER
Bit32u offset = 0;
const char *filename = 0;
while (num_params > 0)
{
if (!strncmp(*params, "file=", 5)) {
filename = *params + 5;
}
else if (!strncmp(*params, "offset=", 7)) {
char* end;
offset = strtoul(*params + 7, &end, 0);
if (*end)
PARSE_ERR(("%s: debug_symbols: invalid parameter %s", context, *params));
}
else {
PARSE_ERR(("%s: debug_symbols: invalid parameter %s", context, *params));
}
params++; num_params--;
}
if (!filename)
PARSE_ERR(("%s: debug_symbols: missing file name", context));
if (bx_dbg_symbol_command(filename, 1, offset) < 0)
PARSE_ERR(("%s: debug_symbols: failed to load symbols from '%s'", context, filename));
#endif
return 0;
}
static int parse_param_bool(const char *input, int len, const char *param)
{
if (input[len] == '0' || input[len] == '1') {
SIM->get_param_bool(param)->set(input[len] - '0');
return 0;
}
return -1;
}
int bx_parse_param_from_list(const char *context, const char *input, bx_list_c *list)
{
char *propval, *property, *value;
bx_param_c *param;
int ret = 0;
if (list == NULL) {
PARSE_WARN(("%s: parameter list == NULL!", context));
return -1;
}
propval = strdup(input);
property = strtok(propval, "=");
value = strtok(NULL, "");
if (!strcmp(property, input)) {
PARSE_WARN(("%s: incorrect parameter format", context));
free(propval);
return -1;
}
param = list->get_by_name(property);
if (param != NULL) {
if ((param->get_options() & param->CI_ONLY) > 0) {
PARSE_WARN(("%s: ignoring hidden parameter '%s'", context, property));
free(propval);
return 0;
}
switch (param->get_type()) {
case BXT_PARAM_NUM:
if (value != NULL) {
if ((value[0] == '0') && (value[1] == 'x')) {
((bx_param_num_c*)param)->set(strtoul(value, NULL, 16));
} else {
((bx_param_num_c*)param)->set(strtoul(value, NULL, 10));
}
}
break;
case BXT_PARAM_BOOL:
if (value != NULL) {
if (!strcmp(value, "0") || !strcmp(value, "1")) {
((bx_param_bool_c*)param)->set(atol(value));
} else {
PARSE_WARN(("%s: wrong value for parameter '%s'", context, property));
ret = -1;
}
}
break;
case BXT_PARAM_ENUM:
if (value != NULL) {
if (!((bx_param_enum_c*)param)->set_by_name(value)) {
PARSE_WARN(("%s: invalid choice '%s' parameter '%s'", context, value, property));
ret = -1;
}
}
break;
case BXT_PARAM_STRING:
if (value != NULL) {
((bx_param_string_c*)param)->set(value);
} else {
((bx_param_string_c*)param)->set("");
}
break;
default:
PARSE_WARN(("%s: parameter '%s': unknown type", context, property));
ret = -1;
}
} else {
PARSE_WARN(("%s: unknown parameter '%s'", context, property));
ret = -1;
}
free(propval);
return ret;
}
int bx_parse_usb_port_params(const char *context, bx_bool devopt, const char *param, int maxports, bx_list_c *base)
{
int idx, plen;
char tmpname[20];
if (!devopt) {
plen = 4;
} else {
plen = 7;
}
idx = param[plen];
if ((idx < '1') || (idx > '9') || (param[plen + 1] != '=')) {
PARSE_ERR(("%s: usb_%s: portX / optionsX parameter malformed.", context, base->get_name()));
return -1;
}
idx -= '0';
if (idx > maxports) {
PARSE_ERR(("%s: usb_%s: port number out of range.", context, base->get_name()));
return -1;
}
sprintf(tmpname, "port%d.%s", idx, devopt ? "options" : "device");
SIM->get_param_string(tmpname, base)->set(&param[plen + 2]);
return 0;
}
int bx_parse_nic_params(const char *context, const char *param, bx_list_c *base)
{
int tmp[6];
char tmpchar[6];
int valid = 0;
int n;
if (!strncmp(param, "enabled=", 8)) {
n = atol(&param[8]);
SIM->get_param_bool("enabled", base)->set(n);
if (n == 0) valid |= 0x80;
else valid &= 0x7f;
} else if (!strncmp(param, "mac=", 4)) {
n = sscanf(&param[4], "%x:%x:%x:%x:%x:%x",
&tmp[0],&tmp[1],&tmp[2],&tmp[3],&tmp[4],&tmp[5]);
if (n != 6) {
PARSE_ERR(("%s: '%s' mac address malformed.", context, base->get_name()));
}
for (n=0;n<6;n++)
tmpchar[n] = (unsigned char)tmp[n];
SIM->get_param_string("mac", base)->set(tmpchar);
valid |= 0x04;
} else if (!strncmp(param, "ethmod=", 7)) {
if (!SIM->get_param_enum("ethmod", base)->set_by_name(&param[7]))
PARSE_ERR(("%s: ethernet module '%s' not available", context, &param[7]));
} else if (bx_parse_param_from_list(context, param, base) < 0) {
PARSE_WARN(("%s: expected parameter '%s' for '%s' ignored.", context, param, base->get_name()));
return -1;
}
return valid;
}
bx_bool is_deprecated_option(const char *oldparam, const char **newparam)
{
if (!strcmp(oldparam, "i440fxsupport")) {
// replaced v2.5 / removed v2.6.1
*newparam = "pci";
return 1;
} else if (!strcmp(oldparam, "vga_update_interval")) {
// replaced v2.5 / removed v2.6.1
*newparam = "vga";
return 1;
#if BX_SUPPORT_PCIPNIC
} else if (!strcmp(oldparam, "pnic")) {
// replaced v2.6 / removed v2.6.2.svn
*newparam = "pcipnic";
return 1;
#endif
}
return 0;
}
static int parse_line_formatted(const char *context, int num_params, char *params[])
{
int i, slot, t;
bx_list_c *base;
const char *newparam;
if (num_params < 1) return 0;
if (num_params < 2) {
PARSE_ERR(("%s: a bochsrc option needs at least one parameter", context));
}
if (!strcmp(params[0], "#include")) {
if (num_params != 2) {
PARSE_ERR(("%s: ignoring malformed #include directive.", context));
}
if (!strcmp(params[1], context)) {
PARSE_ERR(("%s: cannot include this file again.", context));
}
if (bochsrc_include_level > 2) {
PARSE_ERR(("%s: maximum include level exceeded (limit = 2).", context));
}
bx_read_configuration(params[1]);
} else if (!strcmp(params[0], "plugin_ctrl")) {
char *param, *pname, *val;
for (i=1; i<num_params; i++) {
param = strdup(params[i]);
pname = strtok(param, "=");
val = strtok(NULL, "");
if (val != NULL) {
if (isdigit(val[0])) {
SIM->opt_plugin_ctrl(pname, atoi(val));
} else {
PARSE_ERR(("%s: plugin_ctrl directive malformed", context));
}
} else {
PARSE_ERR(("%s: plugin_ctrl directive malformed", context));
}
free(param);
}
} else if (!strcmp(params[0], "config_interface")) {
if (num_params != 2) {
PARSE_ERR(("%s: config_interface directive: wrong # args.", context));
}
if (!SIM->get_param_enum(BXPN_SEL_CONFIG_INTERFACE)->set_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) || (num_params > 3)) {
PARSE_ERR(("%s: display_library directive: wrong # args.", context));
}
if (!SIM->get_param_enum(BXPN_SEL_DISPLAY_LIBRARY)->set_by_name(params[1]))
PARSE_ERR(("%s: display library '%s' not available", context, params[1]));
if (num_params == 3) {
if (!strncmp(params[2], "options=", 8)) {
SIM->get_param_string(BXPN_DISPLAYLIB_OPTIONS)->set(&params[2][8]);
}
}
} else if ((!strcmp(params[0], "floppya")) ||
(!strcmp(params[0], "floppyb"))) {
if (!strcmp(params[0], "floppya")) {
base = (bx_list_c*) SIM->get_param(BXPN_FLOPPYA);
} else {
base = (bx_list_c*) SIM->get_param(BXPN_FLOPPYB);
}
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "type=", 5)) {
if (!strcmp(params[i]+5, "2_88")) {
SIM->get_param_enum("devtype", base)->set(BX_FDD_350ED);
}
else if (!strcmp(params[i]+5, "1_44")) {
SIM->get_param_enum("devtype", base)->set(BX_FDD_350HD);
}
else if (!strcmp(params[i]+5, "1_2")) {
SIM->get_param_enum("devtype", base)->set(BX_FDD_525HD);
}
else if (!strcmp(params[i]+5, "720k")) {
SIM->get_param_enum("devtype", base)->set(BX_FDD_350DD);
}
else if (!strcmp(params[i]+5, "360k")) {
SIM->get_param_enum("devtype", base)->set(BX_FDD_525DD);
}
else {
PARSE_ERR(("%s: %s: unknown type '%s'.", context, params[0],
params[i]+5));
}
}
else if (!strncmp(params[i], "2_88=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_2_88);
}
else if (!strncmp(params[i], "1_44=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_1_44);
}
else if (!strncmp(params[i], "1_2=", 4)) {
SIM->get_param_string("path", base)->set(&params[i][4]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_1_2);
}
else if (!strncmp(params[i], "720k=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_720K);
}
else if (!strncmp(params[i], "360k=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_360K);
}
// use CMOS reserved types?
else if (!strncmp(params[i], "160k=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_160K);
}
else if (!strncmp(params[i], "180k=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_180K);
}
else if (!strncmp(params[i], "320k=", 5)) {
SIM->get_param_string("path", base)->set(&params[i][5]);
SIM->get_param_enum("type", base)->set(BX_FLOPPY_320K);
}
else if (!strncmp(params[i], "image=", 6)) {
/* "image=" means we should get floppy type from image */
SIM->get_param_string("path", base)->set(&params[i][6]);
t = get_floppy_type_from_image(&params[i][6]);
if (t != BX_FLOPPY_UNKNOWN)
SIM->get_param_enum("type", base)->set(t);
else
PARSE_ERR(("%s: %s image size doesn't match one of the supported types.",
context, params[0]));
}
else if (!strcmp(params[i], "status=inserted")) {
SIM->get_param_enum("status", base)->set(BX_INSERTED);
}
else if (!strcmp(params[i], "status=ejected")) {
SIM->get_param_enum("status", base)->set(BX_EJECTED);
}
else if (!strncmp(params[i], "write_protected=", 16)) {
SIM->get_param_bool("readonly", base)->set(atol(&params[i][16]));
}
else {
PARSE_ERR(("%s: %s attribute '%s' not understood.", context, params[0],
params[i]));
}
}
} else if ((!strncmp(params[0], "ata", 3)) && (strlen(params[0]) == 4)) {
char tmpname[80];
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));
}
sprintf(tmpname, "ata.%d.resources", channel);
for (i=1; i<num_params; i++) {
if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param(tmpname)) < 0) {
PARSE_ERR(("%s: ataX directive malformed.", context));
}
}
} else if ((!strncmp(params[0], "ata", 3)) && (strlen(params[0]) > 4)) {
// ataX-master, ataX-slave
Bit8u channel = params[0][3];
int type = -1;
Bit32u cylinders = 0, heads = 0, sectors = 0;
char tmpname[80];
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(&params[0][4], "-slave")) &&
(strcmp(&params[0][4], "-master"))) {
PARSE_ERR(("%s: ataX-master/slave directive malformed.", context));
}
sprintf(tmpname, "ata.%d.%s", channel, &params[0][5]);
base = (bx_list_c*) SIM->get_param(tmpname);
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "type=", 5)) {
type = SIM->get_param_enum("type", base)->find_by_name(&params[i][5]);
if (type < 0) {
PARSE_ERR(("%s: ataX-master/slave: unknown type '%s'", context, &params[i][5]));
} else {
SIM->get_param_enum("type", base)->set(type);
}
} else if (!strncmp(params[i], "cylinders=", 10)) {
cylinders = atol(&params[i][10]);
} else if (!strncmp(params[i], "heads=", 6)) {
heads = atol(&params[i][6]);
} else if (!strncmp(params[i], "spt=", 4)) {
sectors = atol(&params[i][4]);
} else if (!strcmp(params[i], "translation=echs")) { // synonym of large
SIM->get_param_enum("translation", base)->set(BX_ATA_TRANSLATION_LARGE);
} else if (bx_parse_param_from_list(context, params[i], base) < 0) {
PARSE_ERR(("%s: ataX-master/slave directive malformed.", context));
}
}
// Check for geometry autodetection mode
if (type == BX_ATA_DEVICE_DISK) {
if (strlen(SIM->get_param_string("path", base)->getptr()) > 0) {
SIM->get_param_num("cylinders", base)->set(cylinders);
if ((cylinders == 0) && (heads == 0) && (sectors == 0)) {
PARSE_WARN(("%s: ataX-master/slave CHS set to 0/0/0 - autodetection enabled", context));
// using heads = 16 and spt = 63 for autodetection (bximage defaults)
SIM->get_param_num("heads", base)->set(16);
SIM->get_param_num("spt", base)->set(63);
} else {
SIM->get_param_num("heads", base)->set(heads);
SIM->get_param_num("spt", base)->set(sectors);
}
} else {
SIM->get_param_enum("type", base)->set(BX_ATA_DEVICE_NONE);
}
}
} else if (!strcmp(params[0], "boot")) {
char tmppath[80];
if (num_params < 2) {
PARSE_ERR(("%s: boot directive malformed.", context));
}
for (i=1; i<num_params; i++) {
sprintf(tmppath, "boot_params.boot_drive%d", i);
if (!strcmp(params[i], "none")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_NONE);
} else if (!strcmp(params[i], "a")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_FLOPPYA);
} else if (!strcmp(params[i], "floppy")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_FLOPPYA);
} else if (!strcmp(params[i], "c")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_DISKC);
} else if (!strcmp(params[i], "disk")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_DISKC);
} else if (!strcmp(params[i], "cdrom")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_CDROM);
} else if (!strcmp(params[i], "network")) {
SIM->get_param_enum(tmppath)->set(BX_BOOT_NETWORK);
} else {
PARSE_ERR(("%s: boot directive with unknown boot drive '%s'. use 'floppy', 'disk', 'cdrom' or 'network'.", context, params[i]));
}
}
if (SIM->get_param_enum(BXPN_BOOTDRIVE1)->get() == BX_BOOT_NONE) {
PARSE_ERR(("%s: first boot drive must be one of 'floppy', 'disk' or 'cdrom'.", context));
}
if ((SIM->get_param_enum(BXPN_BOOTDRIVE1)->get() == SIM->get_param_enum(BXPN_BOOTDRIVE2)->get()) ||
(SIM->get_param_enum(BXPN_BOOTDRIVE1)->get() == SIM->get_param_enum(BXPN_BOOTDRIVE3)->get()) ||
((SIM->get_param_enum(BXPN_BOOTDRIVE3)->get() != BX_BOOT_NONE) &&
(SIM->get_param_enum(BXPN_BOOTDRIVE2)->get() == SIM->get_param_enum(BXPN_BOOTDRIVE3)->get()))) {
PARSE_ERR(("%s: a boot drive appears twice in boot sequence.", context));
}
} else if (!strcmp(params[0], "floppy_bootsig_check")) {
if (num_params != 2) {
PARSE_ERR(("%s: floppy_bootsig_check directive malformed.", context));
}
if (strncmp(params[1], "disabled=", 9)) {
PARSE_ERR(("%s: floppy_bootsig_check directive malformed.", context));
}
if (parse_param_bool(params[1], 9, BXPN_FLOPPYSIGCHECK) < 0) {
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));
}
SIM->get_param_string(BXPN_LOG_FILENAME)->set(params[1]);
} else if (!strcmp(params[0], "logprefix")) {
if (num_params != 2) {
PARSE_ERR(("%s: logprefix directive has wrong # args.", context));
}
SIM->get_param_string(BXPN_LOG_PREFIX)->set(params[1]);
} else if (!strcmp(params[0], "debugger_log")) {
if (num_params != 2) {
PARSE_ERR(("%s: debugger_log directive has wrong # args.", context));
}
SIM->get_param_string(BXPN_DEBUGGER_LOG_FILENAME)->set(params[1]);
} else if (!strcmp(params[0], "panic")) {
if (num_params < 2) {
PARSE_ERR(("%s: panic directive malformed.", context));
}
if (parse_log_options(context, num_params, params) < 0) {
return -1;
}
} else if (!strcmp(params[0], "error")) {
if (num_params < 2) {
PARSE_ERR(("%s: error directive malformed.", context));
}
if (parse_log_options(context, num_params, params) < 0) {
return -1;
}
} else if (!strcmp(params[0], "info")) {
if (num_params < 2) {
PARSE_ERR(("%s: info directive malformed.", context));
}
if (parse_log_options(context, num_params, params) < 0) {
return -1;
}
} else if (!strcmp(params[0], "debug")) {
if (num_params < 2) {
PARSE_ERR(("%s: debug directive malformed.", context));
}
if (parse_log_options(context, num_params, params) < 0) {
return -1;
}
} else if (!strcmp(params[0], "cpu")) {
if (num_params < 2) {
PARSE_ERR(("%s: cpu directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "count=", 6)) {
unsigned processors = 1, cores = 1, threads = 1;
sscanf(&params[i][6], "%u:%u:%u", &processors, &cores, &threads);
unsigned smp_threads = cores*threads*processors;
if (smp_threads < 1) {
PARSE_ERR(("%s: at least one CPU thread should be defined, cpu directive malformed", context));
}
SIM->get_param_num(BXPN_CPU_NPROCESSORS)->set(processors);
SIM->get_param_num(BXPN_CPU_NCORES)->set(cores);
SIM->get_param_num(BXPN_CPU_NTHREADS)->set(threads);
} else if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param("cpu")) < 0) {
PARSE_ERR(("%s: cpu directive malformed.", context));
}
}
#if BX_CPU_LEVEL >= 4
} else if (!strcmp(params[0], "cpuid")) {
if (num_params < 2) {
PARSE_ERR(("%s: cpuid directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param("cpuid")) < 0) {
PARSE_ERR(("%s: cpuid directive malformed.", context));
}
}
#endif
} else if (!strcmp(params[0], "megs")) {
if (num_params != 2) {
PARSE_ERR(("%s: megs directive: wrong # args.", context));
}
SIM->get_param_num(BXPN_MEM_SIZE)->set(atol(params[1]));
SIM->get_param_num(BXPN_HOST_MEM_SIZE)->set(atol(params[1]));
} else if (!strcmp(params[0], "memory")) {
if (num_params < 3) {
PARSE_ERR(("%s: memory directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "host=", 5)) {
SIM->get_param_num(BXPN_HOST_MEM_SIZE)->set(atol(&params[i][5]));
} else if (!strncmp(params[i], "guest=", 6)) {
SIM->get_param_num(BXPN_MEM_SIZE)->set(atol(&params[i][6]));
} else {
PARSE_ERR(("%s: memory directive malformed.", context));
}
}
} else if (!strcmp(params[0], "romimage")) {
if ((num_params < 2) || (num_params > 3)) {
PARSE_ERR(("%s: romimage directive: wrong # args.", context));
}
if (!strncmp(params[1], "file=", 5)) {
SIM->get_param_string(BXPN_ROM_PATH)->set(&params[1][5]);
} else {
PARSE_ERR(("%s: romimage directive malformed.", context));
}
if (num_params == 3) {
if (!strncmp(params[2], "address=", 8)) {
if ((params[2][8] == '0') && (params[2][9] == 'x'))
SIM->get_param_num(BXPN_ROM_ADDRESS)->set(strtoul(&params[2][8], NULL, 16));
else
SIM->get_param_num(BXPN_ROM_ADDRESS)->set(strtoul(&params[2][8], NULL, 10));
} else {
PARSE_ERR(("%s: romimage directive malformed.", context));
}
} else {
SIM->get_param_num(BXPN_ROM_ADDRESS)->set(0);
}
} else if (!strcmp(params[0], "vgaromimage")) {
if (num_params != 2) {
PARSE_ERR(("%s: vgaromimage directive: wrong # args.", context));
}
if (!strncmp(params[1], "file=", 5)) {
SIM->get_param_string(BXPN_VGA_ROM_PATH)->set(&params[1][5]);
} else {
PARSE_ERR(("%s: vgaromimage directive malformed.", context));
}
} else if (!strncmp(params[0], "optromimage", 11)) {
int num = atoi(&params[0][11]);
char tmppath[80], tmpaddr[80];
if ((num < 1) || (num > BX_N_OPTROM_IMAGES)) {
PARSE_ERR(("%s: optromimage%d: not supported", context, num));
}
if (num_params != 3) {
PARSE_ERR(("%s: optromimage%d directive: wrong # args.", context, num));
}
sprintf(tmppath, "memory.optrom.%d.path", num);
sprintf(tmpaddr, "memory.optrom.%d.addr", num);
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "file=", 5)) {
SIM->get_param_string(tmppath)->set(&params[i][5]);
} else if (!strncmp(params[i], "address=", 8)) {
if ((params[i][8] == '0') && (params[2][9] == 'x'))
SIM->get_param_num(tmpaddr)->set(strtoul(&params[i][8], NULL, 16));
else
SIM->get_param_num(tmpaddr)->set(strtoul(&params[i][8], NULL, 10));
} else {
PARSE_ERR(("%s: optromimage%d directive malformed.", context, num));
}
}
} else if (!strncmp(params[0], "optramimage", 11)) {
int num = atoi(&params[0][11]);
char tmppath[80], tmpaddr[80];
if ((num < 1) || (num > BX_N_OPTRAM_IMAGES)) {
PARSE_ERR(("%s: optramimage%d: not supported", context, num));
}
if (num_params != 3) {
PARSE_ERR(("%s: optramimage%d directive: wrong # args.", context, num));
}
sprintf(tmppath, "memory.optram.%d.path", num);
sprintf(tmpaddr, "memory.optram.%d.addr", num);
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "file=", 5)) {
SIM->get_param_string(tmppath)->set(&params[i][5]);
} else if (!strncmp(params[i], "address=", 8)) {
if ((params[i][8] == '0') && (params[2][9] == 'x'))
SIM->get_param_num(tmpaddr)->set(strtoul(&params[i][8], NULL, 16));
else
SIM->get_param_num(tmpaddr)->set(strtoul(&params[i][8], NULL, 10));
} else {
PARSE_ERR(("%s: optramimage%d directive malformed.", context, num));
}
}
} else if (!strcmp(params[0], "vga")) {
if (num_params < 2) {
PARSE_ERR(("%s: vga directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "extension=", 10)) {
SIM->get_param_string(BXPN_VGA_EXTENSION)->set(&params[i][10]);
} else if (!strncmp(params[i], "update_freq=", 12)) {
SIM->get_param_num(BXPN_VGA_UPDATE_FREQUENCY)->set(atol(&params[i][12]));
} else {
PARSE_ERR(("%s: vga directive malformed.", context));
}
}
} else if (!strcmp(params[0], "keyboard")) {
if (num_params < 2) {
PARSE_ERR(("%s: keyboard directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "keymap=", 7)) {
char *kmap = &params[i][7];
SIM->get_param_bool(BXPN_KBD_USEMAPPING)->set((strlen(kmap) > 0) && (strcmp(kmap, "none")));
SIM->get_param_string(BXPN_KBD_KEYMAP)->set(kmap);
} else if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param(BXPN_KEYBOARD)) < 0) {
PARSE_ERR(("%s: keyboard directive malformed.", context));
}
}
} else if (!strcmp(params[0], "mouse")) {
if (num_params < 2) {
PARSE_ERR(("%s: mouse directive malformed.", context));
}
for (i=1; i<num_params; i++) {
if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param(BXPN_MOUSE)) < 0) {
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 (parse_param_bool(params[1], 8, BXPN_PRIVATE_COLORMAP) < 0) {
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 (parse_param_bool(params[1], 8, BXPN_FULLSCREEN) < 0) {
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));
}
SIM->get_param_string(BXPN_SCREENMODE)->set(&params[1][5]);
#endif
} else if (!strcmp(params[0], "pci")) {
char tmpdev[80];
int enabled = -1;
bx_bool chipset = 0;
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "enabled=", 8)) {
enabled = atol(&params[i][8]);
} else if (!strncmp(params[i], "chipset=", 8)) {
if (!SIM->get_param_enum(BXPN_PCI_CHIPSET)->set_by_name(&params[i][8])) {
PARSE_ERR(("%s: pci: unknown chipset '%s'", context, &params[i][8]));
} else {
chipset = 1;
}
} else if ((!strncmp(params[i], "slot", 4)) && (params[i][5] == '=')) {
slot = atol(&params[i][4]);
if ((slot > 0) && (slot < 6)) {
sprintf(tmpdev, "pci.slot.%d", slot);
SIM->get_param_string(tmpdev)->set(&params[i][6]);
} else {
BX_ERROR(("%s: unknown pci slot number ignored.", context));
}
} else {
PARSE_ERR(("%s: pci: unknown parameter '%s'.", context, params[i]));
}
}
if (enabled == 0) {
SIM->get_param_bool(BXPN_PCI_ENABLED)->set(0);
} else if (enabled == 1) {
if (chipset == 1) {
SIM->get_param_bool(BXPN_PCI_ENABLED)->set(1);
} else {
PARSE_ERR(("%s: pci: chipset not specified", context));
}
}
} else if (!strcmp(params[0], "cmosimage")) {
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "file=", 5)) {
SIM->get_param_string(BXPN_CMOSIMAGE_PATH)->set(&params[i][5]);
} else if (!strcmp(params[i], "rtc_init=time0")) {
SIM->get_param_bool(BXPN_CMOSIMAGE_RTC_INIT)->set(0);
} else if (!strcmp(params[i], "rtc_init=image")) {
SIM->get_param_bool(BXPN_CMOSIMAGE_RTC_INIT)->set(1);
} else {
// for backward compatiblity
SIM->get_param_string(BXPN_CMOSIMAGE_PATH)->set(params[i]);
}
}
if (strlen(SIM->get_param_string(BXPN_CMOSIMAGE_PATH)->getptr()) > 0) {
SIM->get_param_bool(BXPN_CMOSIMAGE_ENABLED)->set(1);
}
} else if (!strcmp(params[0], "clock")) {
const char months[] = "Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec ";
char wday[4], mon[4];
int n, year;
struct tm tm_time;
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "sync=", 5)) {
SIM->get_param_enum(BXPN_CLOCK_SYNC)->set_by_name(&params[i][5]);
}
else if (!strncmp(params[i], "rtc_sync=", 9)) {
SIM->get_param_bool(BXPN_CLOCK_RTC_SYNC)->set(atol(&params[i][9]));
}
else if (!strcmp(params[i], "time0=local")) {
SIM->get_param_num(BXPN_CLOCK_TIME0)->set(BX_CLOCK_TIME0_LOCAL);
}
else if (!strcmp(params[i], "time0=utc")) {
SIM->get_param_num(BXPN_CLOCK_TIME0)->set(BX_CLOCK_TIME0_UTC);
}
else if (!strncmp(params[i], "time0=", 6)) {
if (isalpha(params[i][6])) {
memset(&tm_time, 0, sizeof(tm_time));
n = sscanf(&params[i][6], "%3s %3s%3d %2d:%2d:%2d %d", wday, mon, &tm_time.tm_mday,
&tm_time.tm_hour, &tm_time.tm_min, &tm_time.tm_sec, &year);
if ((n == 7) && (year >= 1980) && (strstr(months, mon) != NULL)) {
tm_time.tm_year = year - 1900;
tm_time.tm_mon = 12 - (strlen(strstr(months, mon)) / 4);
SIM->get_param_num(BXPN_CLOCK_TIME0)->set(mktime(&tm_time));
} else {
PARSE_ERR(("%s: time0 string format malformed.", context));
}
} else {
SIM->get_param_num(BXPN_CLOCK_TIME0)->set(atoi(&params[i][6]));
}
}
else {
BX_ERROR(("%s: unknown parameter for clock ignored.", context));
}
}
} else if (!strcmp(params[0], "sound")) {
#if BX_SUPPORT_SOUNDLOW
for (i=1; i<num_params; i++) {
if (bx_parse_param_from_list(context, params[i], (bx_list_c*) SIM->get_param(BXPN_SOUNDLOW)) < 0) {
BX_ERROR(("%s: unknown parameter for sound ignored.", context));
}
}
#else
PARSE_ERR(("%s: Bochs is not compiled with lowlevel sound support", context));
#endif
} else if (!strcmp(params[0], "gdbstub")) {
#if BX_GDBSTUB
if (num_params < 2) {
PARSE_ERR(("%s: gdbstub directive: wrong # args.", context));
}
base = (bx_list_c*) SIM->get_param(BXPN_GDBSTUB);
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "enabled=", 8)) {
if (params[i][8] == '0') {
SIM->get_param_bool("enabled", base)->set(0);
BX_INFO(("Disabled gdbstub"));
bx_dbg.gdbstub_enabled = 0;
}
else if (params[i][8] == '1') {
SIM->get_param_bool("enabled", base)->set(1);
BX_INFO(("Enabled gdbstub"));
bx_dbg.gdbstub_enabled = 1;
}
else {
PARSE_ERR(("%s: gdbstub directive malformed.", context));
}
}
else if (!strncmp(params[i], "port=", 5)) {
SIM->get_param_num("port", base)->set(atoi(&params[i][5]));
}
else if (!strncmp(params[i], "text_base=", 10)) {
SIM->get_param_num("text_base", base)->set(atoi(&params[i][10]));
}
else if (!strncmp(params[i], "data_base=", 10)) {
SIM->get_param_num("data_base", base)->set(atoi(&params[i][10]));
}
else if (!strncmp(params[i], "bss_base=", 9)) {
SIM->get_param_num("bss_base", base)->set(atoi(&params[i][9]));
}
else {
PARSE_ERR(("%s: gdbstub directive malformed.", context));
}
}
#else
PARSE_ERR(("%s: Bochs is not compiled with gdbstub support", context));
#endif
} else if (!strcmp(params[0], "magic_break")) {
#if BX_DEBUGGER
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));
}
#else
PARSE_WARN(("%s: Bochs is not compiled with internal debugger support", context));
#endif
} else if (!strcmp(params[0], "debug_symbols")) {
if (parse_debug_symbols(context, (const char **)(params + 1), num_params - 1) < 0) {
return -1;
}
} else if (!strcmp(params[0], "print_timestamps")) {
if (num_params != 2) {
PARSE_ERR(("%s: print_timestamps directive: wrong # args.", context));
}
if (strncmp(params[1], "enabled=", 8)) {
PARSE_ERR(("%s: print_timestamps directive malformed.", context));
}
if (params[1][8] == '0' || params[1][8] == '1') {
bx_dbg.print_timestamps = params[1][8] - '0';
}
else {
PARSE_ERR(("%s: print_timestamps directive malformed.", context));
}
} else if (!strcmp(params[0], "port_e9_hack")) {
if (num_params != 2) {
PARSE_ERR(("%s: port_e9_hack directive: wrong # args.", context));
}
if (strncmp(params[1], "enabled=", 8)) {
PARSE_ERR(("%s: port_e9_hack directive malformed.", context));
}
if (parse_param_bool(params[1], 8, BXPN_PORT_E9_HACK) < 0) {
PARSE_ERR(("%s: port_e9_hack directive malformed.", context));
}
} 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(&params[1][3], "nullkernel")) {
SIM->get_param_enum(BXPN_LOAD32BITOS_WHICH)->set(Load32bitOSNullKernel);
}
else if (!strcmp(&params[1][3], "linux")) {
SIM->get_param_enum(BXPN_LOAD32BITOS_WHICH)->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));
}
SIM->get_param_string(BXPN_LOAD32BITOS_PATH)->set(&params[2][5]);
SIM->get_param_string(BXPN_LOAD32BITOS_IOLOG)->set(&params[3][6]);
if (num_params == 5) {
if (strncmp(params[4], "initrd=", 7)) {
PARSE_ERR(("%s: load32bitOSImage: directive malformed.", context));
}
SIM->get_param_string(BXPN_LOAD32BITOS_INITRD)->set(&params[4][7]);
}
} else if (!strcmp(params[0], "keyboard_serial_delay")) {
// handled by 'keyboard' option since Bochs 2.6
if (num_params != 2) {
PARSE_ERR(("%s: keyboard_serial_delay directive: wrong # args.", context));
}
SIM->get_param_num(BXPN_KBD_SERIAL_DELAY)->set(atol(params[1]));
if (SIM->get_param_num(BXPN_KBD_SERIAL_DELAY)->get() < 5) {
PARSE_ERR (("%s: keyboard_serial_delay not big enough!", context));
}
PARSE_WARN(("%s: 'keyboard_serial_delay' will be replaced by new 'keyboard' option.", context));
} else if (!strcmp(params[0], "keyboard_paste_delay")) {
// handled by 'keyboard' option since Bochs 2.6
if (num_params != 2) {
PARSE_ERR(("%s: keyboard_paste_delay directive: wrong # args.", context));
}
SIM->get_param_num(BXPN_KBD_PASTE_DELAY)->set(atol(params[1]));
if (SIM->get_param_num(BXPN_KBD_PASTE_DELAY)->get() < 1000) {
PARSE_ERR (("%s: keyboard_paste_delay not big enough!", context));
}
PARSE_WARN(("%s: 'keyboard_paste_delay' will be replaced by new 'keyboard' option.", context));
} else if (!strcmp(params[0], "keyboard_type")) {
// handled by 'keyboard' option since Bochs 2.6
if (num_params != 2) {
PARSE_ERR(("%s: keyboard_type directive: wrong # args.", context));
}
if (!SIM->get_param_enum(BXPN_KBD_TYPE)->set_by_name(params[1])) {
PARSE_ERR(("%s: keyboard_type directive: wrong arg '%s'.", context,params[1]));
}
PARSE_WARN(("%s: 'keyboard_type' will be replaced by new 'keyboard' option.", context));
} else if (!strcmp(params[0], "keyboard_mapping")
||!strcmp(params[0], "keyboardmapping")) {
// handled by 'keyboard' option since Bochs 2.6
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "enabled=", 8)) {
SIM->get_param_bool(BXPN_KBD_USEMAPPING)->set(atol(&params[i][8]));
}
else if (!strncmp(params[i], "map=", 4)) {
SIM->get_param_string(BXPN_KBD_KEYMAP)->set(&params[i][4]);
}
}
PARSE_WARN(("%s: '%s' will be replaced by new 'keyboard' option.", context, params[0]));
} else if (!strcmp(params[0], "user_shortcut")) {
// handled by 'keyboard' option since Bochs 2.6.1
if (num_params != 2) {
PARSE_ERR(("%s: user_shortcut directive: wrong # args.", context));
}
if(!strncmp(params[1], "keys=", 4)) {
SIM->get_param_string(BXPN_USER_SHORTCUT)->set(&params[1][5]);
} else {
PARSE_ERR(("%s: user_shortcut directive malformed.", context));
}
PARSE_WARN(("%s: 'user_shortcut' will be replaced by new 'keyboard' option.", context));
} else if (!strcmp(params[0], "user_plugin")) {
#if BX_PLUGINS
char tmpname[80];
for (i=1; i<num_params; i++) {
if (!strncmp(params[i], "name=", 5)) {
if (bx_user_plugin_count < BX_N_USER_PLUGINS) {
sprintf(tmpname, "misc.user_plugin.%d", ++bx_user_plugin_count);
SIM->get_param_string(tmpname)->set(&params[i][5]);
} else {
PARSE_ERR(("%s: too many user plugins", context));
}
} else {
PARSE_ERR(("%s: unknown user plugin parameter '%s'", context, params[i]));
}
}
#else
PARSE_ERR(("%s: Bochs is not compiled with plugin support", context));
#endif
} else if (SIM->is_addon_option(params[0])) {
// add-on options handled by registered functions
return SIM->parse_addon_option(context, num_params, &params[0]);
} else if (is_deprecated_option(params[0], &newparam)) {
PARSE_ERR(("%s: '%s' is deprecated - use '%s' option instead.", context, params[0], newparam));
} else if (SIM->opt_plugin_ctrl(params[0], 1)) {
// treat unknown option as plugin name and try to load it
if (SIM->is_addon_option(params[0])) {
// after loading the plugin a bochsrc option with it's name must exist
return SIM->parse_addon_option(context, num_params, &params[0]);
} else {
PARSE_ERR(("%s: directive '%s' not understood", context, params[0]));
}
} else {
PARSE_ERR(("%s: directive '%s' not understood", context, params[0]));
}
return 0;
}
int bx_write_param_list(FILE *fp, bx_list_c *base, const char *optname, bx_bool multiline)
{
char bxrcline[BX_PATHNAME_LEN], tmpstr[BX_PATHNAME_LEN];
bx_bool newline = 1;
int p = 0;
if (base == NULL) return -1;
if (!base->get_enabled()) return -1;
bxrcline[0] = 0;
for (int i = 0; i < base->get_size(); i++) {
if (newline) {
if (strlen(bxrcline) > 0) {
fprintf(fp, "%s\n", bxrcline);
}
if (optname == NULL) {
sprintf(bxrcline, "%s: ", base->get_name());
} else {
sprintf(bxrcline, "%s: ", optname);
}
newline = 0;
p = 0;
}
bx_param_c *param = base->get(i);
if (param->get_enabled() && ((param->get_options() & param->CI_ONLY) == 0)) {
if (p > 0) {
strcat(bxrcline, ", ");
}
sprintf(tmpstr, "%s=", param->get_name());
strcat(bxrcline, tmpstr);
switch (param->get_type()) {
case BXT_PARAM_NUM:
if (((bx_param_num_c*)param)->get_base() == BASE_DEC) {
sprintf(tmpstr, FMT_LL "d", ((bx_param_num_c*)param)->get64());
} else {
sprintf(tmpstr, "0x" FMT_LL "x", ((bx_param_num_c*)param)->get64());
}
break;
case BXT_PARAM_BOOL:
sprintf(tmpstr, "%d", ((bx_param_bool_c*)param)->get());
break;
case BXT_PARAM_ENUM:
sprintf(tmpstr, "%s", ((bx_param_enum_c*)param)->get_selected());
break;
case BXT_PARAM_STRING:
((bx_param_string_c*)param)->sprint(tmpstr, BX_PATHNAME_LEN, 1);
break;
default:
BX_ERROR(("bx_write_param_list(): unsupported parameter type"));
}
strcat(bxrcline, tmpstr);
p++;
}
if (multiline && (strlen(bxrcline) > 80)) {
newline = 1;
}
}
fprintf(fp, "%s\n", bxrcline);
return 0;
}
static const char *fdtypes[] = {
"none", "1_2", "1_44", "2_88", "720k", "360k", "160k", "180k", "320k"
};
int bx_write_floppy_options(FILE *fp, int drive)
{
char devtype[80], path[80], type[80], status[80], readonly[80];
int ftype;
BX_ASSERT(drive==0 || drive==1);
sprintf(devtype, "floppy.%d.devtype", drive);
sprintf(path, "floppy.%d.path", drive);
sprintf(type, "floppy.%d.type", drive);
sprintf(status, "floppy.%d.status", drive);
sprintf(readonly, "floppy.%d.readonly", drive);
ftype = SIM->get_param_enum(devtype)->get();
if (ftype == BX_FDD_NONE) {
fprintf(fp, "# no floppy%c\n", (char)'a'+drive);
return 0;
} else {
fprintf(fp, "floppy%c: type=", (char)'a'+drive);
if (ftype == BX_FDD_350ED) {
fprintf(fp, "2_88");
} else if (ftype == BX_FDD_350HD) {
fprintf(fp, "1_44");
} else if (ftype == BX_FDD_525HD) {
fprintf(fp, "1_2");
} else if (ftype == BX_FDD_350DD) {
fprintf(fp, "720k");
} else if (ftype == BX_FDD_525DD) {
fprintf(fp, "360k");
}
}
if ((SIM->get_param_enum(type)->get() > BX_FLOPPY_NONE) &&
(SIM->get_param_enum(type)->get() <= BX_FLOPPY_LAST)) {
fprintf(fp, ", %s=\"%s\", status=%s, write_protected=%d",
fdtypes[SIM->get_param_enum(type)->get() - BX_FLOPPY_NONE],
SIM->get_param_string(path)->getptr(),
SIM->get_param_enum(status)->get_selected(),
SIM->get_param_bool(readonly)->get());
}
fprintf(fp, "\n");
return 0;
}
int bx_write_usb_options(FILE *fp, int maxports, bx_list_c *base)
{
int i;
char tmpname[20], tmpstr[BX_PATHNAME_LEN];
fprintf(fp, "usb_%s: enabled=%d", base->get_name(), SIM->get_param_bool("enabled", base)->get());
if (SIM->get_param_bool("enabled", base)->get()) {
for (i = 1; i <= maxports; i++) {
sprintf(tmpname, "port%d.device", i);
SIM->get_param_string(tmpname, base)->sprint(tmpstr, BX_PATHNAME_LEN, 1);
fprintf(fp, ", port%d=%s", i, tmpstr);
sprintf(tmpname, "port%d.options", i);
SIM->get_param_string(tmpname, base)->sprint(tmpstr, BX_PATHNAME_LEN, 1);
fprintf(fp, ", options%d=%s", i, tmpstr);
}
}
fprintf(fp, "\n");
return 0;
}
int bx_write_loader_options(FILE *fp)
{
if (SIM->get_param_enum(BXPN_LOAD32BITOS_WHICH)->get() == Load32bitOSNone) {
fprintf(fp, "# no loader\n");
return 0;
}
fprintf (fp, "load32bitOSImage: os=%s, path=%s, iolog=%s, initrd=%s\n",
SIM->get_param_enum(BXPN_LOAD32BITOS_WHICH)->get_selected(),
SIM->get_param_string(BXPN_LOAD32BITOS_PATH)->getptr(),
SIM->get_param_string(BXPN_LOAD32BITOS_IOLOG)->getptr(),
SIM->get_param_string(BXPN_LOAD32BITOS_INITRD)->getptr());
return 0;
}
int bx_write_clock_cmos_options(FILE *fp)
{
fprintf(fp, "clock: sync=%s", SIM->get_param_enum(BXPN_CLOCK_SYNC)->get_selected());
switch (SIM->get_param_num(BXPN_CLOCK_TIME0)->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", SIM->get_param_num(BXPN_CLOCK_TIME0)->get());
}
fprintf(fp, ", rtc_sync=%d\n", SIM->get_param_bool(BXPN_CLOCK_RTC_SYNC)->get());
if (strlen(SIM->get_param_string(BXPN_CMOSIMAGE_PATH)->getptr()) > 0) {
fprintf(fp, "cmosimage: file=%s, ", SIM->get_param_string(BXPN_CMOSIMAGE_PATH)->getptr());
fprintf(fp, "rtc_init=%s\n", SIM->get_param_bool(BXPN_CMOSIMAGE_RTC_INIT)->get()?"image":"time0");
} else {
fprintf(fp, "# no cmosimage\n");
}
return 0;
}
int bx_write_log_options(FILE *fp, bx_list_c *base)
{
char pname[20];
bx_list_c *logfn, *loglev;
bx_param_num_c *mparam;
int action, def_action, level, mod;
fprintf(fp, "log: %s\n", SIM->get_param_string("filename", base)->getptr());
fprintf(fp, "logprefix: %s\n", SIM->get_param_string("prefix", base)->getptr());
strcpy(pname, "general.logfn");
logfn = (bx_list_c*) SIM->get_param(pname);
for (level = 0; level < N_LOGLEV; level++) {
loglev = (bx_list_c*) logfn->get(level);
def_action = SIM->get_default_log_action(level);
fprintf(fp, "%s: action=%s", loglev->get_name(), SIM->get_action_name(def_action));
// stage #1: save log actions of existing modules
for (mod = 0; mod < SIM->get_n_log_modules(); mod++) {
action = SIM->get_log_action(mod, level);
if (action != def_action) {
fprintf(fp, ", %s=%s", SIM->get_logfn_name(mod), SIM->get_action_name(action));
}
}
// stage #2: save log actions of not yet existing modules (from bochsrc)
for (mod = 0; mod < loglev->get_size(); mod++) {
mparam = (bx_param_num_c*)loglev->get(mod);
action = mparam->get();
if ((action >= 0) && (action != def_action)) {
fprintf(fp, ", %s=%s", mparam->get_name(), SIM->get_action_name(action));
}
}
fprintf(fp, "\n");
}
return 0;
}
int bx_write_debugger_options(FILE *fp)
{
#if BX_DEBUGGER
fprintf(fp, "debugger_log: %s\n", SIM->get_param_string(BXPN_DEBUGGER_LOG_FILENAME)->getptr());
fprintf(fp, "magic_break: enabled=%d\n", bx_dbg.magic_break_enabled);
// TODO: debug symbols
#endif
#if BX_GDBSTUB
bx_list_c *base = (bx_list_c*) SIM->get_param(BXPN_GDBSTUB);
bx_bool enabled = SIM->get_param_bool("enabled", base)->get();
if (enabled) {
fprintf(fp, "gdbstub: enabled=%d, port=%d, text_base=%d, data_base=%d, bss_base=%d\n",
enabled, SIM->get_param_num("port", base)->get(), SIM->get_param_num("text_base", base)->get(),
SIM->get_param_num("data_base", base)->get(), SIM->get_param_num("bss_base", base)->get());
} else {
fprintf(fp, "# no gdb stub\n");
}
#endif
return 0;
}
// return values:
// 0: written ok
// -1: failed
// -2: already exists, and overwrite was off
int bx_write_configuration(const char *rc, int overwrite)
{
int i;
char tmppath[80], tmpaddr[80], tmpdev[80];
bx_param_string_c *sparam;
bx_list_c *base;
BX_INFO(("write current configuration to %s", 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");
bx_write_param_list(fp, (bx_list_c*) SIM->get_param(BXPN_PLUGIN_CTRL), NULL, 0);
#if BX_PLUGINS
// user plugins
for (i=0; i<BX_N_USER_PLUGINS; i++) {
sprintf(tmpdev, "misc.user_plugin.%d", i+1);
if (strlen(SIM->get_param_string(tmpdev)->getptr()) > 0) {
fprintf(fp, "user_plugin: name=%s\n",
SIM->get_param_string(tmpdev)->getptr());
}
}
#endif
fprintf(fp, "config_interface: %s\n", SIM->get_param_enum(BXPN_SEL_CONFIG_INTERFACE)->get_selected());
fprintf(fp, "display_library: %s", SIM->get_param_enum(BXPN_SEL_DISPLAY_LIBRARY)->get_selected());
sparam = SIM->get_param_string(BXPN_DISPLAYLIB_OPTIONS);
if (!sparam->isempty())
fprintf(fp, ", options=\"%s\"\n", sparam->getptr());
else
fprintf(fp, "\n");
fprintf(fp, "memory: host=%d, guest=%d\n", SIM->get_param_num(BXPN_HOST_MEM_SIZE)->get(),
SIM->get_param_num(BXPN_MEM_SIZE)->get());
sparam = SIM->get_param_string(BXPN_ROM_PATH);
if (!sparam->isempty()) {
fprintf(fp, "romimage: file=\"%s\"", sparam->getptr());
if (SIM->get_param_num(BXPN_ROM_ADDRESS)->get() != 0)
fprintf(fp, ", address=0x%08x\n", (unsigned int) SIM->get_param_num(BXPN_ROM_ADDRESS)->get());
else
fprintf(fp, "\n");
} else {
fprintf(fp, "# no romimage\n");
}
sparam = SIM->get_param_string(BXPN_VGA_ROM_PATH);
if (!sparam->isempty())
fprintf(fp, "vgaromimage: file=\"%s\"\n", sparam->getptr());
else
fprintf(fp, "# no vgaromimage\n");
fprintf(fp, "boot: %s", SIM->get_param_enum(BXPN_BOOTDRIVE1)->get_selected());
for (i=1; i<3; i++) {
sprintf(tmppath, "boot_params.boot_drive%d", i+1);
if (SIM->get_param_enum(tmppath)->get() != BX_BOOT_NONE) {
fprintf(fp, ", %s", SIM->get_param_enum(tmppath)->get_selected());
}
}
fprintf(fp, "\n");
fprintf(fp, "floppy_bootsig_check: disabled=%d\n", SIM->get_param_bool(BXPN_FLOPPYSIGCHECK)->get());
// 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_write_floppy_options(fp, 1);
for (Bit8u channel=0; channel<BX_MAX_ATA_CHANNEL; channel++) {
sprintf(tmppath, "ata.%d", channel);
base = (bx_list_c*) SIM->get_param(tmppath);
sprintf(tmppath, "ata%d", channel);
bx_write_param_list(fp, (bx_list_c*) SIM->get_param("resources", base), tmppath, 0);
sprintf(tmppath, "ata%d-master", channel);
bx_write_param_list(fp, (bx_list_c*) SIM->get_param("master", base), tmppath, 0);
sprintf(tmppath, "ata%d-slave", channel);
bx_write_param_list(fp, (bx_list_c*) SIM->get_param("slave", base), tmppath, 0);
}
for (i=0; i<BX_N_OPTROM_IMAGES; i++) {
sprintf(tmppath, "memory.optrom.%d.path", i+1);
sprintf(tmpaddr, "memory.optrom.%d.addr", i+1);
sparam = SIM->get_param_string(tmppath);
if (!sparam->isempty())
fprintf(fp, "optromimage%d: file=\"%s\", address=0x%05x\n", i+1, sparam->getptr(),
(unsigned int)SIM->get_param_num(tmpaddr)->get());
}
for (i=0; i<BX_N_OPTRAM_IMAGES; i++) {
sprintf(tmppath, "memory.optram.%d.path", i+1);
sprintf(tmpaddr, "memory.optram.%d.addr", i+1);
sparam = SIM->get_param_string(tmppath);
if (!sparam->isempty())
fprintf(fp, "optramimage%d: file=\"%s\", address=0x%05x\n", i+1, sparam->getptr(),
(unsigned int)SIM->get_param_num(tmpaddr)->get());
}
// pci
fprintf(fp, "pci: enabled=%d",
SIM->get_param_bool(BXPN_PCI_ENABLED)->get());
if (SIM->get_param_bool(BXPN_PCI_ENABLED)->get()) {
fprintf(fp, ", chipset=%s", SIM->get_param_enum(BXPN_PCI_CHIPSET)->get_selected());
for (i=0; i<BX_N_PCI_SLOTS; i++) {
sprintf(tmpdev, "pci.slot.%d", i+1);
sparam = SIM->get_param_string(tmpdev);
if (!sparam->isempty()) {
fprintf(fp, ", slot%d=%s", i+1, sparam->getptr());
}
}
}
fprintf(fp, "\n");
fprintf(fp, "vga: extension=%s, update_freq=%u\n",
SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr(),
SIM->get_param_num(BXPN_VGA_UPDATE_FREQUENCY)->get());
#if BX_SUPPORT_SMP
fprintf(fp, "cpu: count=%u:%u:%u, ips=%u, quantum=%d, ",
SIM->get_param_num(BXPN_CPU_NPROCESSORS)->get(), SIM->get_param_num(BXPN_CPU_NCORES)->get(),
SIM->get_param_num(BXPN_CPU_NTHREADS)->get(), SIM->get_param_num(BXPN_IPS)->get(),
SIM->get_param_num(BXPN_SMP_QUANTUM)->get());
#else
fprintf(fp, "cpu: count=1, ips=%u, ", SIM->get_param_num(BXPN_IPS)->get());
#endif
fprintf(fp, "model=%s, reset_on_triple_fault=%d, cpuid_limit_winnt=%d",
SIM->get_param_enum(BXPN_CPU_MODEL)->get_selected(),
SIM->get_param_bool(BXPN_RESET_ON_TRIPLE_FAULT)->get(),
SIM->get_param_bool(BXPN_CPUID_LIMIT_WINNT)->get());
#if BX_CPU_LEVEL >= 5
fprintf(fp, ", ignore_bad_msrs=%d", SIM->get_param_bool(BXPN_IGNORE_BAD_MSRS)->get());
#endif
#if BX_SUPPORT_MONITOR_MWAIT
fprintf(fp, ", mwait_is_nop=%d", SIM->get_param_bool(BXPN_MWAIT_IS_NOP)->get());
#endif
#if BX_CONFIGURE_MSRS
sparam = SIM->get_param_string(BXPN_CONFIGURABLE_MSRS_PATH);
if (!sparam->isempty())
fprintf(fp, ", msrs=\"%s\"", sparam->getptr());
#endif
fprintf(fp, "\n");
#if BX_CPU_LEVEL >= 4
if (! SIM->get_param_enum(BXPN_CPU_MODEL)->get()) {
// dump only when using BX_GENERIC CPUDB profile
bx_write_param_list(fp, (bx_list_c*) SIM->get_param("cpuid"), NULL, 1);
}
#endif
fprintf(fp, "print_timestamps: enabled=%d\n", bx_dbg.print_timestamps);
bx_write_debugger_options(fp);
fprintf(fp, "port_e9_hack: enabled=%d\n", SIM->get_param_bool(BXPN_PORT_E9_HACK)->get());
fprintf(fp, "private_colormap: enabled=%d\n", SIM->get_param_bool(BXPN_PRIVATE_COLORMAP)->get());
#if BX_WITH_AMIGAOS
fprintf(fp, "fullscreen: enabled=%d\n", SIM->get_param_bool(BXPN_FULLSCREEN)->get());
fprintf(fp, "screenmode: name=\"%s\"\n", SIM->get_param_string(BXPN_SCREENMODE)->getptr());
#endif
bx_write_clock_cmos_options(fp);
bx_write_loader_options(fp);
bx_write_log_options(fp, (bx_list_c*) SIM->get_param("log"));
bx_write_param_list(fp, (bx_list_c*) SIM->get_param(BXPN_KEYBOARD), NULL, 0);
bx_write_param_list(fp, (bx_list_c*) SIM->get_param(BXPN_MOUSE), NULL, 0);
bx_write_param_list(fp, (bx_list_c*) SIM->get_param(BXPN_SOUNDLOW), NULL, 0);
SIM->save_addon_options(fp);
fclose(fp);
return 0;
}
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