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authorBrian Behlendorf <[email protected]>2010-08-26 11:56:53 -0700
committerBrian Behlendorf <[email protected]>2010-08-31 13:42:00 -0700
commitd603ed6c278f9c25b17ba8e75e9bce6e5d715ac0 (patch)
tree61dc04f07ed9772dd97faefd879412e2a6578be0 /lib/libefi/rdwr_efi.c
parentf1fb119f6bb0c3185ec88912e4488fdd9ec08ab2 (diff)
Add linux user disk support
This topic branch contains all the changes needed to integrate the user side zfs tools with Linux style devices. Primarily this includes fixing up the Solaris libefi library to be Linux friendly, and integrating with the libblkid library which is provided by e2fsprogs. Signed-off-by: Brian Behlendorf <[email protected]>
Diffstat (limited to 'lib/libefi/rdwr_efi.c')
-rw-r--r--lib/libefi/rdwr_efi.c384
1 files changed, 329 insertions, 55 deletions
diff --git a/lib/libefi/rdwr_efi.c b/lib/libefi/rdwr_efi.c
index e682b840a..da71e3486 100644
--- a/lib/libefi/rdwr_efi.c
+++ b/lib/libefi/rdwr_efi.c
@@ -29,6 +29,7 @@
#include <strings.h>
#include <unistd.h>
#include <uuid/uuid.h>
+#include <zlib.h>
#include <libintl.h>
#include <sys/types.h>
#include <sys/dkio.h>
@@ -38,7 +39,9 @@
#include <sys/dktp/fdisk.h>
#include <sys/efi_partition.h>
#include <sys/byteorder.h>
-#include <sys/ddi.h>
+#if defined(__linux__)
+#include <linux/fs.h>
+#endif
static struct uuid_to_ptag {
struct uuid uuid;
@@ -49,11 +52,11 @@ static struct uuid_to_ptag {
{ EFI_SWAP },
{ EFI_USR },
{ EFI_BACKUP },
- { 0 }, /* STAND is never used */
+ { EFI_UNUSED }, /* STAND is never used */
{ EFI_VAR },
{ EFI_HOME },
{ EFI_ALTSCTR },
- { 0 }, /* CACHE (cachefs) is never used */
+ { EFI_UNUSED }, /* CACHE (cachefs) is never used */
{ EFI_RESERVED },
{ EFI_SYSTEM },
{ EFI_LEGACY_MBR },
@@ -107,19 +110,142 @@ int efi_debug = 1;
int efi_debug = 0;
#endif
-extern unsigned int efi_crc32(const unsigned char *, unsigned int);
-static int efi_read(int, struct dk_gpt *);
+static int efi_read(int, struct dk_gpt *);
+
+/*
+ * Return a 32-bit CRC of the contents of the buffer. Pre-and-post
+ * one's conditioning will be handled by crc32() internally.
+ */
+static uint32_t
+efi_crc32(const unsigned char *buf, unsigned int size)
+{
+ uint32_t crc = crc32(0, Z_NULL, 0);
+
+ crc = crc32(crc, buf, size);
+
+ return (crc);
+}
static int
read_disk_info(int fd, diskaddr_t *capacity, uint_t *lbsize)
{
- struct dk_minfo disk_info;
+ int sector_size;
+ unsigned long long capacity_size;
+
+ if (ioctl(fd, BLKSSZGET, &sector_size) < 0)
+ return (-1);
+
+ if (ioctl(fd, BLKGETSIZE64, &capacity_size) < 0)
+ return (-1);
+
+ *lbsize = (uint_t)sector_size;
+ *capacity = (diskaddr_t)(capacity_size / sector_size);
+
+ return (0);
+}
- if ((ioctl(fd, DKIOCGMEDIAINFO, (caddr_t)&disk_info)) == -1)
- return (errno);
- *capacity = disk_info.dki_capacity;
- *lbsize = disk_info.dki_lbsize;
+static int
+efi_get_info(int fd, struct dk_cinfo *dki_info)
+{
+#if defined(__linux__)
+ char *path;
+ char *dev_path;
+ int rval = 0;
+
+ memset(dki_info, 0, sizeof(*dki_info));
+
+ path = calloc(PATH_MAX, 1);
+ if (path == NULL)
+ goto error;
+
+ /*
+ * The simplest way to get the partition number under linux is
+ * to parse it out of the /dev/<disk><parition> block device name.
+ * The kernel creates this using the partition number when it
+ * populates /dev/ so it may be trusted. The tricky bit here is
+ * that the naming convention is based on the block device type.
+ * So we need to take this in to account when parsing out the
+ * partition information. Another issue is that the libefi API
+ * API only provides the open fd and not the file path. To handle
+ * this realpath(3) is used to resolve the block device name from
+ * /proc/self/fd/<fd>. Aside from the partition number we collect
+ * some additional device info.
+ */
+ (void) sprintf(path, "/proc/self/fd/%d", fd);
+ dev_path = realpath(path, NULL);
+ free(path);
+
+ if (dev_path == NULL)
+ goto error;
+
+ if ((strncmp(dev_path, "/dev/sd", 7) == 0)) {
+ strcpy(dki_info->dki_cname, "sd");
+ dki_info->dki_ctype = DKC_SCSI_CCS;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z]%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else if ((strncmp(dev_path, "/dev/hd", 7) == 0)) {
+ strcpy(dki_info->dki_cname, "hd");
+ dki_info->dki_ctype = DKC_DIRECT;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z]%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else if ((strncmp(dev_path, "/dev/md", 7) == 0)) {
+ strcpy(dki_info->dki_cname, "pseudo");
+ dki_info->dki_ctype = DKC_MD;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z0-9]p%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else if ((strncmp(dev_path, "/dev/dm-", 8) == 0)) {
+ strcpy(dki_info->dki_cname, "pseudo");
+ dki_info->dki_ctype = DKC_VBD;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z0-9-]p%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else if ((strncmp(dev_path, "/dev/ram", 8) == 0)) {
+ strcpy(dki_info->dki_cname, "pseudo");
+ dki_info->dki_ctype = DKC_PCMCIA_MEM;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z0-9]p%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else if ((strncmp(dev_path, "/dev/loop", 9) == 0)) {
+ strcpy(dki_info->dki_cname, "pseudo");
+ dki_info->dki_ctype = DKC_VBD;
+ rval = sscanf(dev_path, "/dev/%[a-zA-Z0-9]p%hu",
+ dki_info->dki_dname,
+ &dki_info->dki_partition);
+ } else {
+ strcpy(dki_info->dki_dname, "unknown");
+ strcpy(dki_info->dki_cname, "unknown");
+ dki_info->dki_ctype = DKC_UNKNOWN;
+ }
+
+ switch (rval) {
+ case 0:
+ errno = EINVAL;
+ goto error;
+ case 1:
+ dki_info->dki_partition = 0;
+ }
+
+ free(dev_path);
+#else
+ if (ioctl(fd, DKIOCINFO, (caddr_t)dki_info) == -1)
+ goto error;
+#endif
return (0);
+error:
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCINFO errno 0x%x\n", errno);
+
+ switch (errno) {
+ case EIO:
+ return (VT_EIO);
+ case EINVAL:
+ return (VT_EINVAL);
+ default:
+ return (VT_ERROR);
+ }
}
/*
@@ -135,12 +261,13 @@ read_disk_info(int fd, diskaddr_t *capacity, uint_t *lbsize)
int
efi_alloc_and_init(int fd, uint32_t nparts, struct dk_gpt **vtoc)
{
- diskaddr_t capacity;
- uint_t lbsize;
+ diskaddr_t capacity = 0;
+ uint_t lbsize = 0;
uint_t nblocks;
size_t length;
struct dk_gpt *vptr;
struct uuid uuid;
+ struct dk_cinfo dki_info;
if (read_disk_info(fd, &capacity, &lbsize) != 0) {
if (efi_debug)
@@ -148,6 +275,22 @@ efi_alloc_and_init(int fd, uint32_t nparts, struct dk_gpt **vtoc)
"couldn't read disk information\n");
return (-1);
}
+#if defined(__linux__)
+ if (efi_get_info(fd, &dki_info) != 0) {
+ if (efi_debug)
+ (void) fprintf(stderr,
+ "couldn't read disk information\n");
+ return (-1);
+ }
+
+ if (dki_info.dki_partition != 0)
+ return (-1);
+
+ if ((dki_info.dki_ctype == DKC_PCMCIA_MEM) ||
+ (dki_info.dki_ctype == DKC_VBD) ||
+ (dki_info.dki_ctype == DKC_UNKNOWN))
+ return (-1);
+#endif
nblocks = NBLOCKS(nparts, lbsize);
if ((nblocks * lbsize) < EFI_MIN_ARRAY_SIZE + lbsize) {
@@ -243,14 +386,138 @@ efi_ioctl(int fd, int cmd, dk_efi_t *dk_ioc)
{
void *data = dk_ioc->dki_data;
int error;
+#if defined(__linux__)
+ diskaddr_t capacity;
+ uint_t lbsize;
+
+ /*
+ * When the IO is not being performed in kernel as an ioctl we need
+ * to know the sector size so we can seek to the proper byte offset.
+ */
+ if (read_disk_info(fd, &capacity, &lbsize) == -1) {
+ if (efi_debug)
+ fprintf(stderr,"unable to read disk info: %d",errno);
+
+ errno = EIO;
+ return -1;
+ }
+
+ switch (cmd) {
+ case DKIOCGETEFI:
+ if (lbsize == 0) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCGETEFI assuming "
+ "LBA %d bytes\n", DEV_BSIZE);
+
+ lbsize = DEV_BSIZE;
+ }
+
+ error = lseek(fd, dk_ioc->dki_lba * lbsize, SEEK_SET);
+ if (error == -1) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCGETEFI lseek "
+ "error: %d\n", errno);
+ return error;
+ }
+
+ error = read(fd, data, dk_ioc->dki_length);
+ if (error == -1) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCGETEFI read "
+ "error: %d\n", errno);
+ return error;
+ }
+ if (error != dk_ioc->dki_length) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCGETEFI short "
+ "read of %d bytes\n", error);
+ errno = EIO;
+ return -1;
+ }
+ error = 0;
+ break;
+
+ case DKIOCSETEFI:
+ if (lbsize == 0) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCSETEFI unknown "
+ "LBA size\n");
+ errno = EIO;
+ return -1;
+ }
+
+ error = lseek(fd, dk_ioc->dki_lba * lbsize, SEEK_SET);
+ if (error == -1) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCSETEFI lseek "
+ "error: %d\n", errno);
+ return error;
+ }
+
+ error = write(fd, data, dk_ioc->dki_length);
+ if (error == -1) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCSETEFI write "
+ "error: %d\n", errno);
+ return error;
+ }
+
+ if (error != dk_ioc->dki_length) {
+ if (efi_debug)
+ (void) fprintf(stderr, "DKIOCSETEFI short "
+ "write of %d bytes\n", error);
+ errno = EIO;
+ return -1;
+ }
+
+ /* Sync the new EFI table to disk */
+ error = fsync(fd);
+ if (error == -1)
+ return error;
+
+ /* Ensure any local disk cache is also flushed */
+ if (ioctl(fd, BLKFLSBUF, 0) == -1)
+ return error;
+
+ error = 0;
+ break;
+
+ default:
+ if (efi_debug)
+ (void) fprintf(stderr, "unsupported ioctl()\n");
+
+ errno = EIO;
+ return -1;
+ }
+#else
dk_ioc->dki_data_64 = (uint64_t)(uintptr_t)data;
error = ioctl(fd, cmd, (void *)dk_ioc);
dk_ioc->dki_data = data;
-
+#endif
return (error);
}
+#if defined(__linux__)
+static int
+efi_rescan(int fd)
+{
+ int retry = 5;
+ int error;
+
+ /* Notify the kernel a devices partition table has been updated */
+ while ((error = ioctl(fd, BLKRRPART)) != 0) {
+ if (--retry == 0) {
+ (void) fprintf(stderr, "the kernel failed to rescan "
+ "the partition table: %d\n", errno);
+ return (-1);
+ }
+ }
+
+ return (0);
+}
+#endif
+
static int
check_label(int fd, dk_efi_t *dk_ioc)
{
@@ -305,6 +572,8 @@ efi_read(int fd, struct dk_gpt *vtoc)
int rval = 0;
int md_flag = 0;
int vdc_flag = 0;
+ diskaddr_t capacity = 0;
+ uint_t lbsize = 0;
struct dk_minfo disk_info;
dk_efi_t dk_ioc;
efi_gpt_t *efi;
@@ -316,19 +585,9 @@ efi_read(int fd, struct dk_gpt *vtoc)
/*
* get the partition number for this file descriptor.
*/
- if (ioctl(fd, DKIOCINFO, (caddr_t)&dki_info) == -1) {
- if (efi_debug) {
- (void) fprintf(stderr, "DKIOCINFO errno 0x%x\n", errno);
- }
- switch (errno) {
- case EIO:
- return (VT_EIO);
- case EINVAL:
- return (VT_EINVAL);
- default:
- return (VT_ERROR);
- }
- }
+ if ((rval = efi_get_info(fd, &dki_info)) != 0)
+ return rval;
+
if ((strncmp(dki_info.dki_cname, "pseudo", 7) == 0) &&
(strncmp(dki_info.dki_dname, "md", 3) == 0)) {
md_flag++;
@@ -342,14 +601,18 @@ efi_read(int fd, struct dk_gpt *vtoc)
}
/* get the LBA size */
- if (ioctl(fd, DKIOCGMEDIAINFO, (caddr_t)&disk_info) == -1) {
+ if (read_disk_info(fd, &capacity, &lbsize) == -1) {
if (efi_debug) {
(void) fprintf(stderr,
- "assuming LBA 512 bytes %d\n",
- errno);
+ "unable to read disk info: %d",
+ errno);
}
- disk_info.dki_lbsize = DEV_BSIZE;
+ return (VT_EINVAL);
}
+
+ disk_info.dki_lbsize = lbsize;
+ disk_info.dki_capacity = capacity;
+
if (disk_info.dki_lbsize == 0) {
if (efi_debug) {
(void) fprintf(stderr,
@@ -374,9 +637,11 @@ efi_read(int fd, struct dk_gpt *vtoc)
}
}
- if ((dk_ioc.dki_data = calloc(label_len, 1)) == NULL)
+ if (posix_memalign((void **)&dk_ioc.dki_data,
+ disk_info.dki_lbsize, label_len))
return (VT_ERROR);
+ memset(dk_ioc.dki_data, 0, label_len);
dk_ioc.dki_length = disk_info.dki_lbsize;
user_length = vtoc->efi_nparts;
efi = dk_ioc.dki_data;
@@ -572,12 +837,14 @@ write_pmbr(int fd, struct dk_gpt *vtoc)
int len;
len = (vtoc->efi_lbasize == 0) ? sizeof (mb) : vtoc->efi_lbasize;
- buf = calloc(len, 1);
+ if (posix_memalign((void **)&buf, len, len))
+ return (VT_ERROR);
/*
* Preserve any boot code and disk signature if the first block is
* already an MBR.
*/
+ memset(buf, 0, len);
dk_ioc.dki_lba = 0;
dk_ioc.dki_length = len;
/* LINTED -- always longlong aligned */
@@ -663,10 +930,9 @@ check_input(struct dk_gpt *vtoc)
if ((vtoc->efi_parts[i].p_tag == V_UNASSIGNED) &&
(vtoc->efi_parts[i].p_size != 0)) {
if (efi_debug) {
- (void) fprintf(stderr,
-"partition %d is \"unassigned\" but has a size of %llu",
- i,
- vtoc->efi_parts[i].p_size);
+ (void) fprintf(stderr, "partition %d is "
+ "\"unassigned\" but has a size of %llu",
+ i, vtoc->efi_parts[i].p_size);
}
return (VT_EINVAL);
}
@@ -679,9 +945,9 @@ check_input(struct dk_gpt *vtoc)
if (vtoc->efi_parts[i].p_tag == V_RESERVED) {
if (resv_part != -1) {
if (efi_debug) {
- (void) fprintf(stderr,
-"found duplicate reserved partition at %d\n",
- i);
+ (void) fprintf(stderr, "found "
+ "duplicate reserved partition "
+ "at %d\n", i);
}
return (VT_EINVAL);
}
@@ -732,8 +998,8 @@ check_input(struct dk_gpt *vtoc)
(istart <= endsect)) {
if (efi_debug) {
(void) fprintf(stderr,
-"Partition %d overlaps partition %d.",
- i, j);
+ "Partition %d overlaps "
+ "partition %d.", i, j);
}
return (VT_EINVAL);
}
@@ -839,22 +1105,13 @@ efi_write(int fd, struct dk_gpt *vtoc)
efi_gpe_t *efi_parts;
int i, j;
struct dk_cinfo dki_info;
+ int rval;
int md_flag = 0;
int nblocks;
diskaddr_t lba_backup_gpt_hdr;
- if (ioctl(fd, DKIOCINFO, (caddr_t)&dki_info) == -1) {
- if (efi_debug)
- (void) fprintf(stderr, "DKIOCINFO errno 0x%x\n", errno);
- switch (errno) {
- case EIO:
- return (VT_EIO);
- case EINVAL:
- return (VT_EINVAL);
- default:
- return (VT_ERROR);
- }
- }
+ if ((rval = efi_get_info(fd, &dki_info)) != 0)
+ return rval;
/* check if we are dealing wih a metadevice */
if ((strncmp(dki_info.dki_cname, "pseudo", 7) == 0) &&
@@ -892,9 +1149,11 @@ efi_write(int fd, struct dk_gpt *vtoc)
* for backup GPT header.
*/
lba_backup_gpt_hdr = vtoc->efi_last_u_lba + 1 + nblocks;
- if ((dk_ioc.dki_data = calloc(dk_ioc.dki_length, 1)) == NULL)
+ if (posix_memalign((void **)&dk_ioc.dki_data,
+ vtoc->efi_lbasize, dk_ioc.dki_length))
return (VT_ERROR);
+ memset(dk_ioc.dki_data, 0, dk_ioc.dki_length);
efi = dk_ioc.dki_data;
/* stuff user's input into EFI struct */
@@ -941,6 +1200,10 @@ efi_write(int fd, struct dk_gpt *vtoc)
return (VT_EINVAL);
}
+ /* Zero's should be written for empty partitions */
+ if (vtoc->efi_parts[i].p_tag == V_UNASSIGNED)
+ continue;
+
efi_parts[i].efi_gpe_StartingLBA =
LE_64(vtoc->efi_parts[i].p_start);
efi_parts[i].efi_gpe_EndingLBA =
@@ -1032,6 +1295,13 @@ efi_write(int fd, struct dk_gpt *vtoc)
/* write the PMBR */
(void) write_pmbr(fd, vtoc);
free(dk_ioc.dki_data);
+
+#if defined(__linux__)
+ rval = efi_rescan(fd);
+ if (rval)
+ return (VT_ERROR);
+#endif
+
return (0);
}
@@ -1049,6 +1319,7 @@ efi_free(struct dk_gpt *ptr)
int
efi_type(int fd)
{
+#if 0
struct vtoc vtoc;
struct extvtoc extvtoc;
@@ -1062,6 +1333,9 @@ efi_type(int fd)
}
}
return (0);
+#else
+ return (ENOSYS);
+#endif
}
void
@@ -1175,7 +1449,7 @@ efi_auto_sense(int fd, struct dk_gpt **vtoc)
return (-1);
}
- for (i = 0; i < min((*vtoc)->efi_nparts, V_NUMPAR); i++) {
+ for (i = 0; i < MIN((*vtoc)->efi_nparts, V_NUMPAR); i++) {
(*vtoc)->efi_parts[i].p_tag = default_vtoc_map[i].p_tag;
(*vtoc)->efi_parts[i].p_flag = default_vtoc_map[i].p_flag;
(*vtoc)->efi_parts[i].p_start = 0;