haiku/src/system/kernel/fs/vfs_boot.cpp

/*
 * Copyright 2002-2005, Axel Dörfler, axeld@pinc-software.de.
 * Distributed under the terms of the MIT License.
 *
 * Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.
 * Distributed under the terms of the NewOS License.
 */


#include <OS.h>
#include <fs_info.h>

#include <disk_device_manager/KDiskDevice.h>
#include <disk_device_manager/KDiskDeviceManager.h>
#include <disk_device_manager/KPartitionVisitor.h>
#include <DiskDeviceTypes.h>

#include <vfs.h>
#include <file_cache.h>
#include <KPath.h>
#include <syscalls.h>
#include <boot/kernel_args.h>
#include <util/Stack.h>

#include <stdio.h>


//#define TRACE_VFS
#ifdef TRACE_VFS
#	define PRINT(x) dprintf x
#	define FUNCTION(x) dprintf x
#else
#	define PRINT(x) ;
#	define FUNCTION(x) ;
#endif


typedef Stack<KPartition *> PartitionStack;

static struct {
	const char *path;
	const char *target;
} sPredefinedLinks[] = {
	{"/system", "/boot/beos/system"},
	{"/bin", "/boot/beos/bin"},
	{"/etc", "/boot/beos/etc"},
	{"/var", "/boot/var"},
	{"/tmp", "/boot/var/tmp"},
	{NULL}
};

// This can be used by other code to see if there is a boot file system already
dev_t gBootDevice = -1;


/**	No image was chosen - prefer disks with names like "Haiku", or "System"
 */

static int
compare_image_boot(const void *_a, const void *_b)
{
	KPartition *a = *(KPartition **)_a;
	KPartition *b = *(KPartition **)_b;

	if (a->ContentName() != NULL) {
		if (b->ContentName() == NULL)
			return 1;
	} else if (b->ContentName() != NULL) {
		return -1;
	} else
		return 0;

	int compare = strcmp(a->ContentName(), b->ContentName());
	if (!compare)
		return 0;

	if (!strcasecmp(a->ContentName(), "Haiku"))
		return 1;
	if (!strcasecmp(b->ContentName(), "Haiku"))
		return -1;
	if (!strncmp(a->ContentName(), "System", 6))
		return 1;
	if (!strncmp(b->ContentName(), "System", 6))
		return -1;

	return compare;	
}


/**	The system was booted from CD - prefer CDs over other entries. If there
 *	is no CD, fall back to the standard mechanism (as implemented by
 *	compare_image_boot().
 */

static int
compare_cd_boot(const void *_a, const void *_b)
{
	KPartition *a = *(KPartition **)_a;
	KPartition *b = *(KPartition **)_b;

	bool aIsCD = a->Type() != NULL && !strcmp(a->Type(), kPartitionTypeDataSession);
	bool bIsCD = b->Type() != NULL && !strcmp(b->Type(), kPartitionTypeDataSession);

	int compare = (int)aIsCD - (int)bIsCD;
	if (compare != 0)
		return compare;

	return compare_image_boot(_a, _b);
}


static status_t
get_boot_partitions(kernel_args *args, PartitionStack &partitions)
{
	// make the boot partition (and probably others) available
	KDiskDeviceManager::CreateDefault();
	KDiskDeviceManager *manager = KDiskDeviceManager::Default();

	status_t status = manager->InitialDeviceScan();
	if (status == B_OK) {
		// ToDo: do this for real... (no hacks allowed :))
		for (;;) {
			snooze(500000);
			if (manager->CountJobs() == 0)
				break;
		}
	} else {
		dprintf("KDiskDeviceManager::InitialDeviceScan() failed: %s\n", strerror(status));
		return status;
	}

	// ToDo: do this for real! It will currently only use the partition offset;
	//	it does not yet use the disk_identifier information.

	struct BootPartitionVisitor : KPartitionVisitor {
		BootPartitionVisitor(kernel_args &args, PartitionStack &stack)
			: fArgs(args), fPartitions(stack) {}

		virtual bool VisitPre(KPartition *partition)
		{
			if (!partition->ContainsFileSystem())
				return false;

			if (!fArgs.boot_disk.booted_from_image) {
				// the simple case: we can just boot from the selected boot device
				if (partition->Offset() == fArgs.boot_disk.partition_offset) {
					fPartitions.Push(partition);
					return true;
				}
			} else {
				// for now, we will just collect all BFS volumes
				if (fArgs.boot_disk.cd && fArgs.boot_disk.user_selected
					&& partition->Type() != NULL
					&& strcmp(partition->Type(), kPartitionTypeDataSession))
					return false;

				if (partition->ContentType() != NULL
					&& !strcmp(partition->ContentType(), "Be File System"))
					fPartitions.Push(partition);
			}
			return false;
		}
		private:
			kernel_args		&fArgs;
			PartitionStack	&fPartitions;
	} visitor(*args, partitions);

	KDiskDevice *device;
	int32 cookie = 0;
	while ((device = manager->NextDevice(&cookie)) != NULL) {
		if (device->VisitEachDescendant(&visitor) != NULL)
			break;
	}

	if (!args->boot_disk.user_selected) {
		// sort partition list (ie. when booting from CD, CDs should come first in the list)
		qsort(partitions.Array(), partitions.CountItems(), sizeof(KPartition *),
			args->boot_disk.cd ? compare_cd_boot : compare_image_boot);
	}

	return B_OK;
}


//	#pragma mark -


status_t
vfs_bootstrap_file_systems(void)
{
	status_t status;

	// bootstrap the root filesystem
	status = _kern_mount("/", NULL, "rootfs", 0, NULL);
	if (status < B_OK)
		panic("error mounting rootfs!\n");

	_kern_setcwd(-1, "/");

	// bootstrap the devfs
	_kern_create_dir(-1, "/dev", 0755);
	status = _kern_mount("/dev", NULL, "devfs", 0, NULL);
	if (status < B_OK)
		panic("error mounting devfs\n");

	// bootstrap the pipefs
	_kern_create_dir(-1, "/pipe", 0755);
	status = _kern_mount("/pipe", NULL, "pipefs", 0, NULL);
	if (status < B_OK)
		panic("error mounting pipefs\n");

	// bootstrap the bootfs (if possible)
	_kern_create_dir(-1, "/boot", 0755);
	status = _kern_mount("/boot", NULL, "bootfs", 0, NULL);
	if (status < B_OK) {
		// this is no fatal exception at this point, as we may mount
		// a real on disk file system later
		dprintf("Can't mount bootfs (will try disk file system later)\n");
	}

	// create some standard links on the rootfs

	for (int32 i = 0; sPredefinedLinks[i].path != NULL; i++) {
		_kern_create_symlink(-1, sPredefinedLinks[i].path,
			sPredefinedLinks[i].target, 0);
			// we don't care if it will succeed or not
	}

	return B_OK;
}


status_t
vfs_mount_boot_file_system(kernel_args *args)
{
	PartitionStack partitions;
	status_t status = get_boot_partitions(args, partitions);
	if (status < B_OK)
		return status;

	KPartition *bootPartition;
	while (partitions.Pop(&bootPartition)) {
		KPath path;
		if (bootPartition->GetPath(&path) != B_OK)
			panic("could not get boot device!\n");

		gBootDevice = _kern_mount("/boot", path.Path(), NULL, 0, NULL);
		if (gBootDevice >= B_OK)
			break;
	}

	if (gBootDevice < B_OK)
		panic("could not mount boot device!\n");

	// create link for the name of the boot device

	fs_info info;
	if (_kern_read_fs_info(gBootDevice, &info) == B_OK) {
		char path[B_FILE_NAME_LENGTH + 1];
		snprintf(path, sizeof(path), "/%s", info.volume_name);

		_kern_create_symlink(-1, path, "/boot", 0);
	}

	file_cache_init_post_boot_device();
	return B_OK;
}
Moved vfs_bootstrap_file_systems() and vfs_mount_boot_file_system() out of vfs.cpp and into its own file vfs_boot.cpp. Added basic support for booting from CD - it doesn't give CDs a higher priority, so you could end up booting from HD when you didn't explicetly select "CD-ROM" in the boot loader. Eventually, it should only boot from HD in this case, if booting from CD failed (because of a missing boot partition or whatever). fs_mount(), _kern_mount(), and _user_mount() will now return the dev_t of the mounted device, and not just B_OK. Maybe we should have fs_unmount() work on a dev_t instead of a path as well... git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14403 a95241bf-73f2-0310-859d-f6bbb57e9c96 2005-10-17 18:01:04 +04:00			`/*`
			`* Copyright 2002-2005, Axel Dörfler, axeld@pinc-software.de.`
			`* Distributed under the terms of the MIT License.`
			`*`
			`* Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.`
			`* Distributed under the terms of the NewOS License.`
			`*/`


			`#include <OS.h>`
			`#include <fs_info.h>`

			`#include <disk_device_manager/KDiskDevice.h>`
			`#include <disk_device_manager/KDiskDeviceManager.h>`
			`#include <disk_device_manager/KPartitionVisitor.h>`
			`#include <DiskDeviceTypes.h>`

			`#include <vfs.h>`
			`#include <file_cache.h>`
			`#include <KPath.h>`
			`#include <syscalls.h>`
			`#include <boot/kernel_args.h>`
			`#include <util/Stack.h>`

			`#include <stdio.h>`


			`//#define TRACE_VFS`
			`#ifdef TRACE_VFS`
			`# define PRINT(x) dprintf x`
			`# define FUNCTION(x) dprintf x`
			`#else`
			`# define PRINT(x) ;`
			`# define FUNCTION(x) ;`
			`#endif`


			`typedef Stack<KPartition *> PartitionStack;`

			`static struct {`
			`const char *path;`
			`const char *target;`
			`} sPredefinedLinks[] = {`
			`{"/system", "/boot/beos/system"},`
			`{"/bin", "/boot/beos/bin"},`
			`{"/etc", "/boot/beos/etc"},`
			`{"/var", "/boot/var"},`
			`{"/tmp", "/boot/var/tmp"},`
			`{NULL}`
			`};`

			`// This can be used by other code to see if there is a boot file system already`
			`dev_t gBootDevice = -1;`


If booted from an image, the list of possible boot partitions is now ordered by some heuristic: when you booted from a CD, CDs are preferred; else, volumes with names like "Haiku" or "System" are preferred - if someone has better ideas, please shout. Note, this heuristic will only come into play if the boot loader was loaded from an image (ie. floppy/CD/network), and you didn't choose any boot device. Added evil methods to the Stack class that come in handy (you can now directly access the array) for this. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14410 a95241bf-73f2-0310-859d-f6bbb57e9c96 2005-10-18 22:45:55 +04:00			`/** No image was chosen - prefer disks with names like "Haiku", or "System"`
			`*/`

			`static int`
			`compare_image_boot(const void _a, const void _b)`
			`{`
			`KPartition a = (KPartition **)_a;`
			`KPartition b = (KPartition **)_b;`

			`if (a->ContentName() != NULL) {`
			`if (b->ContentName() == NULL)`
			`return 1;`
			`} else if (b->ContentName() != NULL) {`
			`return -1;`
			`} else`
			`return 0;`

			`int compare = strcmp(a->ContentName(), b->ContentName());`
			`if (!compare)`
			`return 0;`

			`if (!strcasecmp(a->ContentName(), "Haiku"))`
			`return 1;`
			`if (!strcasecmp(b->ContentName(), "Haiku"))`
			`return -1;`
			`if (!strncmp(a->ContentName(), "System", 6))`
			`return 1;`
			`if (!strncmp(b->ContentName(), "System", 6))`
			`return -1;`

			`return compare;`
			`}`


			`/** The system was booted from CD - prefer CDs over other entries. If there`
			`* is no CD, fall back to the standard mechanism (as implemented by`
			`* compare_image_boot().`
			`*/`

			`static int`
			`compare_cd_boot(const void _a, const void _b)`
			`{`
			`KPartition a = (KPartition **)_a;`
			`KPartition b = (KPartition **)_b;`

			`bool aIsCD = a->Type() != NULL && !strcmp(a->Type(), kPartitionTypeDataSession);`
			`bool bIsCD = b->Type() != NULL && !strcmp(b->Type(), kPartitionTypeDataSession);`

			`int compare = (int)aIsCD - (int)bIsCD;`
			`if (compare != 0)`
			`return compare;`

			`return compare_image_boot(_a, _b);`
			`}`


Moved vfs_bootstrap_file_systems() and vfs_mount_boot_file_system() out of vfs.cpp and into its own file vfs_boot.cpp. Added basic support for booting from CD - it doesn't give CDs a higher priority, so you could end up booting from HD when you didn't explicetly select "CD-ROM" in the boot loader. Eventually, it should only boot from HD in this case, if booting from CD failed (because of a missing boot partition or whatever). fs_mount(), _kern_mount(), and _user_mount() will now return the dev_t of the mounted device, and not just B_OK. Maybe we should have fs_unmount() work on a dev_t instead of a path as well... git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14403 a95241bf-73f2-0310-859d-f6bbb57e9c96 2005-10-17 18:01:04 +04:00			`static status_t`
			`get_boot_partitions(kernel_args *args, PartitionStack &partitions)`
			`{`
			`// make the boot partition (and probably others) available`
			`KDiskDeviceManager::CreateDefault();`
			`KDiskDeviceManager *manager = KDiskDeviceManager::Default();`

			`status_t status = manager->InitialDeviceScan();`
			`if (status == B_OK) {`
			`// ToDo: do this for real... (no hacks allowed :))`
			`for (;;) {`
			`snooze(500000);`
			`if (manager->CountJobs() == 0)`
			`break;`
			`}`
			`} else {`
			`dprintf("KDiskDeviceManager::InitialDeviceScan() failed: %s\n", strerror(status));`
			`return status;`
			`}`

			`// ToDo: do this for real! It will currently only use the partition offset;`
			`// it does not yet use the disk_identifier information.`

			`struct BootPartitionVisitor : KPartitionVisitor {`
			`BootPartitionVisitor(kernel_args &args, PartitionStack &stack)`
			`: fArgs(args), fPartitions(stack) {}`

			`virtual bool VisitPre(KPartition *partition)`
			`{`
			`if (!partition->ContainsFileSystem())`
			`return false;`

			`if (!fArgs.boot_disk.booted_from_image) {`
			`// the simple case: we can just boot from the selected boot device`
			`if (partition->Offset() == fArgs.boot_disk.partition_offset) {`
			`fPartitions.Push(partition);`
			`return true;`
			`}`
			`} else {`
			`// for now, we will just collect all BFS volumes`
			`if (fArgs.boot_disk.cd && fArgs.boot_disk.user_selected`
			`&& partition->Type() != NULL`
			`&& strcmp(partition->Type(), kPartitionTypeDataSession))`
			`return false;`

			`if (partition->ContentType() != NULL`
			`&& !strcmp(partition->ContentType(), "Be File System"))`
			`fPartitions.Push(partition);`
			`}`
			`return false;`
			`}`
			`private:`
			`kernel_args &fArgs;`
			`PartitionStack &fPartitions;`
			`} visitor(*args, partitions);`

			`KDiskDevice *device;`
			`int32 cookie = 0;`
			`while ((device = manager->NextDevice(&cookie)) != NULL) {`
			`if (device->VisitEachDescendant(&visitor) != NULL)`
			`break;`
			`}`

If booted from an image, the list of possible boot partitions is now ordered by some heuristic: when you booted from a CD, CDs are preferred; else, volumes with names like "Haiku" or "System" are preferred - if someone has better ideas, please shout. Note, this heuristic will only come into play if the boot loader was loaded from an image (ie. floppy/CD/network), and you didn't choose any boot device. Added evil methods to the Stack class that come in handy (you can now directly access the array) for this. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14410 a95241bf-73f2-0310-859d-f6bbb57e9c96 2005-10-18 22:45:55 +04:00			`if (!args->boot_disk.user_selected) {`
			`// sort partition list (ie. when booting from CD, CDs should come first in the list)`
			`qsort(partitions.Array(), partitions.CountItems(), sizeof(KPartition *),`
			`args->boot_disk.cd ? compare_cd_boot : compare_image_boot);`
			`}`

Moved vfs_bootstrap_file_systems() and vfs_mount_boot_file_system() out of vfs.cpp and into its own file vfs_boot.cpp. Added basic support for booting from CD - it doesn't give CDs a higher priority, so you could end up booting from HD when you didn't explicetly select "CD-ROM" in the boot loader. Eventually, it should only boot from HD in this case, if booting from CD failed (because of a missing boot partition or whatever). fs_mount(), _kern_mount(), and _user_mount() will now return the dev_t of the mounted device, and not just B_OK. Maybe we should have fs_unmount() work on a dev_t instead of a path as well... git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14403 a95241bf-73f2-0310-859d-f6bbb57e9c96 2005-10-17 18:01:04 +04:00			`return B_OK;`
			`}`


			`// #pragma mark -`


			`status_t`
			`vfs_bootstrap_file_systems(void)`
			`{`
			`status_t status;`

			`// bootstrap the root filesystem`
			`status = _kern_mount("/", NULL, "rootfs", 0, NULL);`
			`if (status < B_OK)`
			`panic("error mounting rootfs!\n");`

			`_kern_setcwd(-1, "/");`

			`// bootstrap the devfs`
			`_kern_create_dir(-1, "/dev", 0755);`
			`status = _kern_mount("/dev", NULL, "devfs", 0, NULL);`
			`if (status < B_OK)`
			`panic("error mounting devfs\n");`

			`// bootstrap the pipefs`
			`_kern_create_dir(-1, "/pipe", 0755);`
			`status = _kern_mount("/pipe", NULL, "pipefs", 0, NULL);`
			`if (status < B_OK)`
			`panic("error mounting pipefs\n");`

			`// bootstrap the bootfs (if possible)`
			`_kern_create_dir(-1, "/boot", 0755);`
			`status = _kern_mount("/boot", NULL, "bootfs", 0, NULL);`
			`if (status < B_OK) {`
			`// this is no fatal exception at this point, as we may mount`
			`// a real on disk file system later`
			`dprintf("Can't mount bootfs (will try disk file system later)\n");`
			`}`

			`// create some standard links on the rootfs`

			`for (int32 i = 0; sPredefinedLinks[i].path != NULL; i++) {`
			`_kern_create_symlink(-1, sPredefinedLinks[i].path,`
			`sPredefinedLinks[i].target, 0);`
			`// we don't care if it will succeed or not`
			`}`

			`return B_OK;`
			`}`


			`status_t`
			`vfs_mount_boot_file_system(kernel_args *args)`
			`{`
			`PartitionStack partitions;`
			`status_t status = get_boot_partitions(args, partitions);`
			`if (status < B_OK)`
			`return status;`

			`KPartition *bootPartition;`
			`while (partitions.Pop(&bootPartition)) {`
			`KPath path;`
			`if (bootPartition->GetPath(&path) != B_OK)`
			`panic("could not get boot device!\n");`

			`gBootDevice = _kern_mount("/boot", path.Path(), NULL, 0, NULL);`
			`if (gBootDevice >= B_OK)`
			`break;`
			`}`

			`if (gBootDevice < B_OK)`
			`panic("could not mount boot device!\n");`

			`// create link for the name of the boot device`

			`fs_info info;`
			`if (_kern_read_fs_info(gBootDevice, &info) == B_OK) {`
			`char path[B_FILE_NAME_LENGTH + 1];`
			`snprintf(path, sizeof(path), "/%s", info.volume_name);`

			`_kern_create_symlink(-1, path, "/boot", 0);`
			`}`

			`file_cache_init_post_boot_device();`
			`return B_OK;`
			`}`