extern "C" int
main(stage2_args *args)
{
TRACE(("boot(): enter\n"));
if (heap_init(args) < B_OK)
panic("Could not initialize heap!\n");
TRACE(("boot(): heap initialized...\n"));
// set debug syslog default
#if KDEBUG_ENABLE_DEBUG_SYSLOG
gKernelArgs.keep_debug_output_buffer = true;
#endif
add_stage2_driver_settings(args);
platform_init_video();
// the main platform dependent initialisation
// has already taken place at this point.
if (vfs_init(args) < B_OK)
panic("Could not initialize VFS!\n");
dprintf("Welcome to the Haiku boot loader!\n");
bool mountedAllVolumes = false;
BootVolume bootVolume;
PathBlacklist pathBlacklist;
if (get_boot_file_system(args, bootVolume) != B_OK
|| (platform_boot_options() & BOOT_OPTION_MENU) != 0) {
if (!bootVolume.IsValid())
puts("\tno boot path found, scan for all partitions...\n");
if (mount_file_systems(args) < B_OK) {
// That's unfortunate, but we still give the user the possibility
// to insert a CD-ROM or just rescan the available devices
puts("Could not locate any supported boot devices!\n");
}
// ToDo: check if there is only one bootable volume!
mountedAllVolumes = true;
if (user_menu(bootVolume, pathBlacklist) < B_OK) {
// user requested to quit the loader
goto out;
}
}
if (bootVolume.IsValid()) {
// we got a volume to boot from!
status_t status;
while ((status = load_kernel(args, bootVolume)) < B_OK) {
// loading the kernel failed, so let the user choose another
// volume to boot from until it works
bootVolume.Unset();
if (!mountedAllVolumes) {
// mount all other file systems, if not already happened
if (mount_file_systems(args) < B_OK)
panic("Could not locate any supported boot devices!\n");
mountedAllVolumes = true;
}
if (user_menu(bootVolume, pathBlacklist) != B_OK
|| !bootVolume.IsValid()) {
// user requested to quit the loader
goto out;
}
}
// if everything is okay, continue booting; the kernel
// is already loaded at this point and we definitely
// know our boot volume, too
if (status == B_OK) {
if (bootVolume.IsPackaged()) {
packagefs_apply_path_blacklist(bootVolume.SystemDirectory(),
pathBlacklist);
}
register_boot_file_system(bootVolume);
if ((platform_boot_options() & BOOT_OPTION_DEBUG_OUTPUT) == 0)
platform_switch_to_logo();
load_modules(args, bootVolume);
load_driver_settings(args, bootVolume.RootDirectory());
// apply boot settings
apply_boot_settings();
// set up kernel args version info
gKernelArgs.kernel_args_size = sizeof(kernel_args);
gKernelArgs.version = CURRENT_KERNEL_ARGS_VERSION;
// clone the boot_volume KMessage into kernel accessible memory
// note, that we need to 4 byte align the buffer and thus allocate
// 3 more bytes
void* buffer = kernel_args_malloc(gBootVolume.ContentSize() + 3);
if (!buffer) {
panic("Could not allocate memory for the boot volume kernel "
"arguments");
}
buffer = (void*)(((addr_t)buffer + 3) & ~(addr_t)0x3);
memcpy(buffer, gBootVolume.Buffer(), gBootVolume.ContentSize());
gKernelArgs.boot_volume = buffer;
gKernelArgs.boot_volume_size = gBootVolume.ContentSize();
// ToDo: cleanup, heap_release() etc.
heap_print_statistics();
platform_start_kernel();
}
}
out:
heap_release(args);
return 0;
}
status_t
user_menu(BootVolume& _bootVolume, PathBlacklist& _pathBlacklist)
{
Menu* menu = new(std::nothrow) Menu(MAIN_MENU);
sMainMenu = menu;
sBootVolume = &_bootVolume;
sPathBlacklist = &_pathBlacklist;
Menu* safeModeMenu = NULL;
Menu* debugMenu = NULL;
MenuItem* item;
TRACE(("user_menu: enter\n"));
// Add boot volume
menu->AddItem(item = new(std::nothrow) MenuItem("Select boot volume",
add_boot_volume_menu()));
// Add safe mode
menu->AddItem(item = new(std::nothrow) MenuItem("Select safe mode options",
safeModeMenu = add_safe_mode_menu()));
// add debug menu
menu->AddItem(item = new(std::nothrow) MenuItem("Select debug options",
debugMenu = add_debug_menu()));
// Add platform dependent menus
platform_add_menus(menu);
menu->AddSeparatorItem();
menu->AddItem(item = new(std::nothrow) MenuItem("Reboot"));
item->SetTarget(user_menu_reboot);
item->SetShortcut('r');
menu->AddItem(item = new(std::nothrow) MenuItem("Continue booting"));
if (!_bootVolume.IsValid()) {
item->SetEnabled(false);
menu->ItemAt(0)->Select(true);
} else
item->SetShortcut('b');
menu->Run();
apply_safe_mode_options(safeModeMenu);
apply_safe_mode_options(debugMenu);
apply_safe_mode_path_blacklist();
add_safe_mode_settings(sSafeModeOptionsBuffer.String());
delete menu;
TRACE(("user_menu: leave\n"));
sMainMenu = NULL;
sBlacklistRootMenu = NULL;
sBootVolume = NULL;
sPathBlacklist = NULL;
return B_OK;
}
