SG_WRITE_LONG(8) | SG3_UTILS | SG_WRITE_LONG(8) |
sg_write_long - send SCSI WRITE LONG command
sg_write_long [--16] [--cor_dis] [--help] [--in=IF] [--lba=LBA] [--pblock] [--verbose] [--version] [--wr_uncor] [--xfer_len=BTL] DEVICE
Send the SCSI WRITE LONG (10 or 16 byte) command to DEVICE. The buffer to be written to the DEVICE is filled with 0xff bytes or read from the IF file. This buffer includes the logical data (e.g. 512 bytes) and the ECC bytes.
This utility can be used to generate a MEDIUM ERROR at a specific logical block address. This can be useful for testing error handling. Prior to such a test, the sg_dd utility could be used to copy the original contents of the logical block address to some safe location. After the test the sg_dd utility could be used to write back the original contents of the logical block address. An alternate strategy would be to read the "long" contents of the logical block address with sg_read_long utility prior to testing and restore it with this utility after testing.
Take care: If recoverable errors are being injected (e.g. only one or a few bits changed so that the ECC is able to correct the data) then care should be taken with the settings in the "read write error recovery" mode page. Specifically if the ARRE (for reads) and/or AWRE (for writes) are set then recovered errors will cause the lba to be reassigned (and the old location to be added to the grown defect list (PLIST)). This is not easily reversed and uses (one of the finite number of) the spare sectors set aside for this purpose. If in doubt it is probably safest to clear the ARRE and AWRE bits. These bits can be checked and modified with the sdparm utility. For example: "sdparm -c AWRE,ARRE /dev/sda" will clear the bits until the disk is power cycled.
In SBC-4 revision 7 all uses of SCSI WRITE LONG (10 and 16 byte) commands were made obsolete apart from the case in which the WR_UNCOR bit is set. The SCSI READ LONG (10 and 16 byte) commands were made obsolete in the same revision.
Arguments to long options are mandatory for short options as well.
Various numeric arguments (e.g. LBA) may include multiplicative suffixes or be given in hexadecimal. See the "NUMERIC ARGUMENTS" section in the sg3_utils(8) man page.
The 10 byte SCSI WRITE LONG command limits the logical block address to a 32 bit quantity. For larger LBAs use the --16 option for the SCSI WRITE LONG (16) command.
This section outlines setting up a block with corrupted data, checking the error condition, then restoring useful contents to that sector.
First, if the data in a sector is important, save it with the sg_read_long utility:
sg_read_long --lba=0x1234 --out=0x1234_1.img -x BTL /dev/sda
This utility may need to be executed several time in order to determine what the correct value for BTL is. Next use this utility to "corrupt" that sector. That might be done with:
sg_write_long --lba=0x1234 -x BTL /dev/sda
This will write a sector (and ECC data) of 0xff bytes. Some disks may reject this (at least one of the author's does). Another approach is to copy the 0x1234_1.img file (to 0x1234_2.img in this example) and change some values with a hex editor. Then write the changed image with:
sg_write_long --lba=0x1234 --in=0x1234_2.img -x BTL /dev/sda
Yet another approach is to use the --wr_uncor option, if supported:
sg_write_long --lba=0x1234 --wr_uncor /dev/sda
Next we use the sg_dd utility to check that the sector is corrupted. Here is an example:
sg_dd if=/dev/sda blk_sgio=1 skip=0x1234 of=. bs=512 count=1 verbose=4
Notice that the "blk_sgio=1" option is given. This is to make sure that the sector is read (and no others) and the error is fully reported. The "blk_sgio=1" option causes the SG_IO ioctl to be used by sg_dd rather than the block subsystem.
Finally we should restore sector 0x1234 to a non-corrupted state. A sector full of zeros could be written with:
sg_dd if=/dev/zero of=/dev/sda blk_sgio=1 seek=0x1234 bs=512 count=1
This will result in a sector (block) with 512 bytes of 0x0 without a MEDIUM ERROR since the ECC and associated data will be regenerated and thus well formed. The 'blk_sgio=1' option is even more important in this case as it may stop the block subsystem doing a read before write (since the read will most likely fail). Another approach is to write back the original contents:
sg_write_long --lba=0x1234 --in=0x1234_1.img -x BTL /dev/sda
The exit status of sg_write_long is 0 when it is successful. Otherwise see the sg3_utils(8) man page.
Written by Saeed Bishara. Further work by Douglas Gilbert.
Report bugs to <dgilbert at interlog dot com>.
Copyright © 2004-2016 Douglas Gilbert
This software is distributed under the GPL version 2. There is NO warranty;
not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
sg_read_long, sg_dd (both in sg3_utils), sdparm(sdparm)
January 2016 | sg3_utils-1.42 |