Advanced hard disk tools: Difference between revisions
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If you're suffering from hard disk problems (or think you might be), you may need some of the more advanced tools. But first, you probably need to understand how a hard disk copes with errors, which we explain here. | |||
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==Summary== | ==Summary== | ||
The [ | If your data is irreplaceable then for a few hundred pounds a specialist data recovery firm can usually recover it from a faulty hard drive. However, there are a few things you can try yourself, but bear in mind that they could make it more difficult for a specialist firm if they don't succeed. | ||
Often, a hard drive will be showing warning signs before it dies, such as running very slowly or random crashes or failure to boot. The sooner you act the better. | |||
The [[wikipedia:S.M.A.R.T.#ATA_S.M.A.R.T._attributes S.M.A.R.T.|S.M.A.R.T.]] data returned by a hard disk can give a useful indication of the health of a disk but its interpretation is vendor-specific and not fully documented. There are other tools that can be used which may be much more informative. | |||
If your disk has been encrypted by [[Glossary:Ransomware|ransomware]] then none of the tools described in this page are likely to help you. Your best bet is recovery from backups (you did make them, didn't you?). If you're tempted to pay the ransom, be aware that there is no guarantee it will be honoured, and your cash will likely be going to fund further criminal activity. Futhermore, people who pay the ransom frequently don't get all their data back. If you search online there is a small chance you will find a third party decryptor exploiting shoddy coding, but if the ransomware author did a good job then your data will be encrypted with military grade encryption and the purveyor of the ransomware will have the only key. | |||
==Safety== | |||
[[File:Warning03.png|30px|left]] | |||
::Some of these tools can be DANGEROUS and should only be used in a kill-or-cure situation or if you are certain that a full system backup is available and you are sure you know what you are doing. | |||
==Introduction== | |||
The pressure to deliver ever greater storage capacities means that disk vendors (both [[Glossary:Hard Disk|hard disks]] and [[Glossary:Solid_State_Disk|Solid State Disks or SSDs]]) push the storage density to such a level that they can only just read the data back. This is shown dramatically in a [[https://www.youtube.com/watch?v=tDacjrSCeq4 YouTube video]] which demonstrates that you can give a hard disk a hard time simply by shouting at it! | |||
Most of the techniques and utilities described below can be used equally on SSDs, but before doing so you should understand their unique features and problems by reading [[All_about_SSDs#Under_the_Bonnet|Under the Bonnet in All about SSDs]]. | |||
==Hard Disk Error Handling== | |||
Before proceeding, it's important to understand how hard disks handle errors. | |||
The space on a hard disk is made up of sectors, each 512 [[Glossary:Byte|bytes]], or for large disks, 4096 bytes long. Each has [[Glossary:ECC|Error Correction Code]] (ECC) bits appended, and using these the disk firmware can correct read errors up to a certain number of consecutive [[Glossary:Bit|bits]]. Such errors are corrected by the disk without bothering the user or the host computer, retrying the read operation multiple times if necessary. These reties will use multiple strategies in all combinations to try and recover the data, such as moving the read heads slightly to the left or to the right of where the track should be centred, and looking for the data slightly earlier or slightly later than its proper timing. Furthermore, if the disk finds a sector which is becoming marginal (i.e. it only just managed to correct an error) it may automatically allocate a spare sector and rewrite the data to the spare, marking the original as bad. | |||
The strategy for doing this may vary, but is roughly as follows: | |||
# If a read is (eventually) successful, provided the number of retries and/or the level of error correction required (if any) were below a certain threshold, then do nothing. | |||
# If the retries and/or error correction were above that threshold, but the data was still recovered, remap the sector (i.e. rewrite the data to a spare sector and mark the original as bad). | |||
# If the data couldn't be recovered, mark the sector as "unstable", increment the count of "pending" sectors and return an error to the host computer. | |||
# If the sector had previously been marked unstable but is now read correctly, remap it and decrement the "pending sectors" count. | |||
# If a write occurs to a sector marked as "unstable", remap it by diverting the write to a spare sector and decrement the "pending sectors" count. | |||
SSDs operate a similar but often vendor-specific strategy. | |||
The number of pending sectors is reported directly in the S.M.A.R.T. data. | |||
==Speedfan== | |||
[http://www.almico.com/speedfan.php Speedfan] is the easiest of hard disk tools to use. It runs under Windows and gives vital statistics of a system, such as temperatures. But a very useful additional function is that it reports SMART data, and more than that, can compare the state of your hard disk with an online crowd-sourced database to show how your hard disk is ageing compared to others of the same model. Select the S.M.A.R.T. tab and click the "Hard disk" box to select yours. Review the results, then click the "Perform an in-depth online analysis" in order to get a customised online report, which will appear in a browser window. | |||
==Speccy== | |||
[https://www.ccleaner.com/speccy/download Speccy] also reports S.M.A.R.T.data, along with a wealth of information about many other aspects of your computer and operating system. Select Storage from the left hand panel. | |||
==ddrescue== | ==ddrescue== | ||
[https://www.gnu.org/software/ddrescue/ ddrescue] is a [[Glossary:Linux|linux]] tool for copying disks sector by sector. As such, it resembles the venerable Unix and linux utility dd but that is as far as the resemblance goes. Unlike dd, it will persist if it gets a read or write failure, and keeps a log of the blocks it has successfully processed. This makes it useful for recovering data from a disk which you fear might fail completely at any moment. Running it a first time, it will recover all the data it easily can, placing the least possible extra strain on the disk. If the disk is still functional you can run it again as often as you like, and each time it'll consult the log of previous runs and only try to copy the disk sectors it has previously failed to read. Alternatively, you can intersperse the runs with another tool such as [[#Spinrite|Spinrite]], which will try more aggressively to read and recover troublesome blocks. | |||
If not already installed, you can install ddrescue with the [[Glossary:Shell|shell]] command | |||
::<tt>sudo apt-get install gddrescue</tt> | |||
The command <tt>man ddrescue</tt> gives full details of options, but these are many and worth familiarising oneself with in advance. | |||
You may have several disks plugged into the computer: the Linux system disk (possibly a bootable memory stick), the disk to be copied from, and the disk to be copied to. Be sure to double check which is which, or you may be heading for a disaster! | |||
As a simple example, to clone a failing disk /dev/sdb to a replacement /dev/sdc of equal or larger size, use the following commands: | |||
::<tt>ddrescue -f /dev/sdb /dev/sdc logfile</tt> | |||
::<tt>ddrescue -f -r3 /dev/sdb /dev/sdc logfile</tt> | |||
(If you have used ddrescue before, be sure to use a different logfile name, or delete the old logfile first, or it will assume you are continuing a previous rescue.) | |||
The first command will hopefully complete the job, recoding in <tt>logfile</tt> what it actually achieved. It concentrates on copying as much as it can without lingering on bad blocks, on the assumption that the disk could fail completely at any time. The <tt>-f</tt> flag is required to force overwriting of the destination if it's an existing file or disk. | |||
The second command retries up to 3 times any blocks recorded in the logfile as having failed. The logfile is updated accordingly, to show what has now been achieved. | |||
The command: | |||
::<tt>ddrescuelog -t logfile</tt> | |||
reports the content of the logfile. | |||
==Recuva== | |||
[[File:Recuva.jpg|200px|thumb|right|Recuva screenshot]] | |||
[https://www.ccleaner.com/recuva Recuva] can un-delete accidentally deleted files, and the deep scan can also find files that have been lost because the folders or indexing data structures required to locate the data on disk have been corrupted or are unreadable. It's probably most applicable to a memory card or thumb drive which has been corrupted or accidentally formatted, less so to a corrupted hard disk or SSD containing many thousands of files unless there are just a few specific files you need to recover. The free version should suffice for most purposes. | |||
== | ==EaseUS Data Recovery Wizard== | ||
[[File:EaseUS Data Recovery Wiz.jpg|200px|thumb|left|EaseUS Data Recovery Wizard screenshot]] | |||
[https://www.easeus.com/partition-recovery EaseUS] Data Recovery Wizard may succeed where Recuva fails, and works well even for the larger hard disks and SSDs. It reconstructs the file and folder structure making it easy to select, for example, a particular user's My Documents. The free trial allows you to recover up to 2GB of data. It can recover accidentally deleted files, but more than that, its deep scan can find files that have been lost because the folders or indexing data structures required to locate the data on disk have been corrupted or are unreadable due to a failing hard disk. If a partition containing your filesystem has been deleted, lost or corrupted it can attempt to recover that too. | |||
Once your free trial has expired you may be able to get another bite of the cherry by sharing it on social media. | |||
==gdisk== | ==gdisk== | ||
[http://www.rodsbooks.com/gdisk/ Gdisk] is a [[Glossary:Linux|Linux]] command line tool for [[Glossary:Partition|partitioning]] hard disks, included as standard in some [[Glossary:Distro|distros]] such as SystemRescueCD but installable on any other. Conceptually, it is similar to the [[Glossary:MSDOS|DOS]] fdisk command but is much more flexible, can cope with large or [[Glossary:GPT|GPT]]-partitioned disks, and may be able to partition or repartition a disk that other tools refuse to on account of bad sectors. | |||
On most Linux systems you should be able to install gdisk, if not already present, by typing | |||
:<nowiki>sudo apt-get install gdisk</nowiki> | |||
at a command prompt. | |||
==MHDD== | ==MHDD== | ||
MHDD is a low level diagnostic and maintenance tool that runs under MSDOS or FreeDOS. It's best run from a DOS bootable USB memory stick. If you have Spinrite on a memory stick, add this to it too. | [[File:Img_1385a.jpg|200px|thumb|right|MHDD screenshot]] | ||
[http://hddguru.com/software/2005.10.02-MHDD/ MHDD] is a low level diagnostic and maintenance tool that runs under [[Glossary:MSDOS|MSDOS]] or FreeDOS. It's best run from a DOS bootable USB memory stick. If you have Spinrite on a memory stick, add this to it too. | |||
Faced with a slow running computer, MHDD will show very clearly whether the problem is a failing hard disk, performing many retries in order to read data. | |||
[[File:Warning03.png|30px|left]] | |||
::WARNING: MHDD '''will destroy data''' if not used with care. | |||
MHDD is basically a user interface to the [[Glossary:ATA|ATA]] command set and more. A key feature is that it accesses the disk direct rather than going through the [[Glossary:BIOS|BIOS]] and hence gets a more accurate and uncensored view. For example it can read the [[Glossary:S.M.A.R.T|SMART]] data even if the BIOS hides it. The following is a very brief survival guide to the most useful functions. | |||
===Config and Command line flags=== | |||
Normally MHDD disables access to the primary disk as a precaution, on the assumption that this may well be what DOS is running from. This won't be the case if you're booting from a USB memory stick. | |||
MHDD | On running for the first time, MHDD will create a folder '''CFG''' in the current folder, containing a file '''MHDD.CFG'''. | ||
To enable the primary disk, edit '''MHDD.CFG''' to contain the line: | |||
''' | |||
'''#PRIMARY_ENABLED=TRUE''' | |||
(By default, this is set to FALSE.) Alternatively, you can launch MHDD with the command: | |||
''' | '''MHDD /ENABLEPRIMARY''' | ||
===Commands=== | |||
MHDD issues a prompt, to which you can type a range of (case-insensitive) commands. To get started, try the following in order. | |||
'''PORT''' - Issue this command first to get a list of disks, then select the one you want by number. | '''PORT''' - Issue this command first to get a list of disks, then select the one you want by number. | ||
'''EID''' - Report extended ID information from the disk. | '''N.B.''' if your disk is not shown, you get ''Device is not ready'' or ''This drive does not support LBA mode or not detected'' you may need to go into the BIOS settings and set the SATA controller mode to ATA or Legacy. Don't forget to set it back again afterwards or the computer may not boot. | ||
'''EID''' - Report extended ID information from the disk. Double-check that this is the disk you intended to select with the PORT command. | |||
'''SMART ATT''' - Report values of SMART attributes. (The F8 key is a synonym for this command.) Pay special attention to: | '''SMART ATT''' - Report values of SMART attributes. (The F8 key is a synonym for this command.) Pay special attention to: | ||
Line 42: | Line 130: | ||
* Relocate event count | * Relocate event count | ||
* Current pending sectors | * Current pending sectors | ||
See the Wikipedia [ | See the Wikipedia [http://en.wikipedia.org/wiki/S.M.A.R.T.#ATA_S.M.A.R.T._attributes S.M.A.R.T.] article for further details, and also below. | ||
'''SCAN''' - Scan the disk | '''SCAN''' - Scan the disk | ||
The disk is scanned, giving a graphic display of its state, | The disk is scanned, giving a graphic display of its state and showing access times, hence revealing sectors which take an excessive time to read. (The screenshot above shows a very sickly disk with many bad sectors.) | ||
Several options are offered in a pop-up menu, | Several options are offered in a pop-up menu, which should initially be left as their defaults. In particular: | ||
* Start, End - Start and end sectors for the scan, defaulting to the entire disk. | * Start, End - Start and end sectors for the scan, defaulting to the entire disk. | ||
* Remap - Attempt to remap bad sectors, provided they can be read correctly (with difficulty). | * Remap - Attempt to remap bad sectors, provided they can be read correctly (even with difficulty). | ||
* Erase delays - Erase sectors which take a long time to read, whether or not correctly. | * Erase delays - Erase sectors which take a long time to read, whether or not correctly. The '''data will be lost''' but this should cause them to be remapped. | ||
To make sense of the Remap and Erase delays options, see [[#Hard Disk Error Handling|Hard Disk Error Handling]] above. | |||
Blocks of 255 sectors are each represented in the graphic display by a single blob. A brighter greyscale or a coloured blob indicates a slow read, suggesting the disk had trouble reading a sector. An "x" indicates a sector was unreadable. | |||
'''CX''' - Perform random seeks and reads, and report the average access time. | |||
'''HELP''' - Gives a list of all commands with brief descriptions. | |||
'''MAN <command>''' - Gives a fuller description of the named command. | |||
===Log files=== | ===Log files=== | ||
Log files of a session are created | Log files of a session are recorded in text format in an automatically created sub-folder '''LOG'''. These are appended to for each session. To start fresh logs you can delete or rename the folder complete, optionally copying it to another disk. | ||
==hdparm== | |||
[[File:Warning03.png|30px|left]] | |||
::Many of the facilities provided by hdparm are flagged as '''DANGEROUS''', or even '''EXCEPTIONALLY DANGEROUS. DO NOT USE THIS OPTION!!''' You have been warned! | |||
hdparm is a command line utility which runs under [[Glossary:Linux|Linux]], providing direct access to many features and options of a disk drive only available at the hardware level. It may be useful as a last resort, after reading the documentation carefully and weighing up the risks and possible benefits. | |||
In particular, a hard disk from a video recorder which refuses to respond to other tools may have been set to power up in standby mode. The command | |||
::<tt>hdparm -S 0 /dev/sda</tt> | |||
may succeed in setting it into a more cooperative mode. | |||
If the disk is in a very bad way the computer could fail to boot with it plugged in. Boot with the power cable to the troublesome disk disconnected and reconnect it once booted. If the disk isn't automatically recognised, at a root prompt type: | |||
::<tt>ls /sys/class/scsi_host</tt> | |||
You should get a list of hosts, e.g. <tt>host0 host1 host2</tt>. | |||
Pick one (here host0 is taken) where the drive might reside and type: | |||
::<tt>echo "- - -" > /sys/class/scsi_host/host0/scan</tt> | |||
(The 3 minus signs are separated by spaces.) If you chose the right host the missing disk should appear in Disk Manager. | |||
==Spinrite== | |||
===Introduction=== | |||
[[File:Spinrite screenshot.jpg|200px|thumb|right|A screenshot of Spinrite in operation.screenshot]][https://www.grc.com/spinrite.htm Spinrite] is a sophisticated hard disk maintenance utility, which works much harder than most others in order to recover data from failing disks. In many cases, Spinrite can combine the erroneous results of many failed reads, together with error correction bits, to deduce what the data must have been. This allows Spinrite to rewrite the recovered data, causing the disk to write it to alternate spare sectors. | |||
An important distinction needs to be understood between the function of Spinrite and the [[Glossary:MSDOS|MSDOS]] or Windows CHKDSK utility. The latter operates on and seeks to correct inconsistencies in the logical structure of the file system, i.e. how the disk space is organised as folders and files and free space is managed, simply regarding the disk as a large pool of numbered blocks. It therefore cannot correct faults in the disk itself. Spinrite, on the other hand, works on the disk as a pool of blocks with no concern about how they might be used. It is therefore equally applicable to any hard disk however it's formatted, even if taken from another device such as a PVR or hard disk iPod, just so long as it can be connected to a machine that Spinrite can run on. | |||
Spinrite has been around for many years, and the current version 6.0 was released 10 years ago. An Internet search may reveal criticisms of it, some of it ill-informed and vituperous. Nevertheless, many unsolicited testimonials indicate that it remains a very valuable tool, whether or not it will fix the disk you are faced with today. | |||
===Limitations=== | |||
Version 6.0 has been known to crash when run against some modern drives, broadly in the class of 250GB upwards. | |||
Spinrite exercises a disk fairly hard, so if it's already in a very poor state there's a risk that it may fail completely before Spinrite can complete, potentially with the loss of all your data. In such a case, consider first using a tool such as [[#ddrescue|ddrescue]] to recover as much data as is still readable without error. You might then run Spinrite, perhaps just on the troublesome area, before re-running ddrescue to try and recover the remaining data. | |||
A drawback of Spinrite is that it can take many hours to run to completion, especially if it has to work hard to recover data. However, a computer which fails to boot may be suffering from a bad sector in the first few hundred MB, which it may be able to repair in much less time. | |||
A new version of Spinrite is awaited which will use very much larger buffers in order to achieve a very considerable increase in operating speed. It should also include enhancements to free it from the DOS dependence, allowing it to be run on a MAC, and to improve compatibility with the most modern drives. A suspend mode, too, is expected, which should allow it to be started during a Restart Party and then put into a low power state to give the owner time to take it home and plug it in to complete, even on a weak battery. | |||
===How to use=== | |||
[[File:Warning03.png|30px|left]] | |||
::On an SSD, you should only use Spinrite on Level 2, as Level 4 will cause excessive ageing. | |||
Spinrite runs under MSDOS or FreeDOS and comes as a bootable CD image or .exe file, but is quite easily installed on a bootable memory stick. It costs $89 for a personal licence but comes with a no quibble satisfaction or money back guarantee. You may find a Restarter at a Restart Party who has a copy. (Strictly, the Personal licence only allows you to use it on computers you personally own, but the author Steve Gibson has repeatedly said that he's comfortable with its non-commercial use by licensees to help someone out. If it digs them out of a hole, you might suggest they purchase their own licence.) | |||
Several modes of operation are used, but levels 2 and 4 serve virtually all purposes. In level 2, it does its utmost to recover data from any bad sectors, remapping them to spares. Level 4 takes much longer, performing an in-depth analysis of the entire disk surface. This reads the disk with error correction disabled, causing it to remap any sectors which are becoming marginal long before they start to present a risk. Conversely, it will revert a remapped sector, copying the data back, if a transient event such as a shock or electrical noise had caused a good sector to be remapped. | |||
Spinrite is designed for use with conventional (spinning) hard disks but it ''can'' be used on an SSD on Level 2 (read-only data recovery, which doesn't cause wear) and can force it to reallocate marginal cells since it reads with error correction disabled. There have been multiple reports of this resulting in an SSD regaining as-new performance after having become slow. | |||
While Spinrite is running on a hard disk it's best not to move the computer and to protect it from vibration and shocks, as these can cause soft error which may result in disk sectors being unnecessarily remapped. | |||
===Under the Hood=== | |||
To understand how Spinrite achieves its magic, first read the section [[#Hard Disk Error Handling|Hard Disk Error Handling]] above. | |||
Problems arise if a read error is beyond what the [[Glossary:ECC|ECC]] can correct, even retrying the read a number of times. In this case, the disk returns an error to the host computer and Windows may retry a few more times before giving up. Should the file be overwritten, the disk will recognise that this was a troublesome sector and heave a sigh of relief that nobody wanted the data after all. It will then mark the old sector as bad and write the new data to a spare sector. | |||
But if you really did want the data in the failing sector, you're out of luck unless you have a copy of Spinrite (or a deep pocket for a commercial data recovery service). What this does is to try very much harder to read the data than either the disk itself or Windows, using all the tricks in the book and some more. If it eventually persuades the disk to perform a good (or at least an error-corrected) read, the disk will itself reallocate the data. However, Spinrite's magic is that it can often use the partial data received from many failed reads in order to reconstruct what the original data actually must actually have been, in which case it writes that back, once again, causing the disk to reallocate the data to a spare sector. In the worst case, Spinrite will write back to the disk as much data as it managed to recover from the sector, as it may be that not all of the data in the sector was needed anyway. | |||
Spinrite has several operating levels, but is almost always used either in Level 2 or 4. Level 2 does its utmost to recover data and in the process will cause bad sectors to be swapped out with spares. Level 4 additionally gives each sector a thorough work-out with error correction disabled, having temporarily saved the contents of the sector to a spare. This provokes a remapping of any sectors which are becoming weak, even though still serviceable by the disk's own criteria. Level 4 operates against an ultra-cautious strategy, ensuring that the data in any sector under test has been successfully written to a spare before starting the test. You can therefore safely abort a run at any point without loosing data. | |||
== | ==Commercial data recovery== | ||
If the data was really important to you and none of the above have worked, there are commercial data recovery firms which can recover most if not all the data from a faulty hard disk or SSD. In the case of a hard disk they may remove the disk platters in a clean room environment and mount them on a "spin stand", allowing an arsenal of tools to be applied. In the case of an SSD they may disassemble the device and try to read the data directly from the [[Glossary:Flash|flash]] memory chips. | |||
Naturally, this is not cheap, but if the data matters enough to you and you can contemplate a 3-figure bill then it may be the way to go. Search online for data recovery, and hopefully you will find a firm which will take on your drive on a no success no fee basis. | |||
[[Category: | [[Category:Fixing]] |
Latest revision as of 10:15, 11 October 2022
If you're suffering from hard disk problems (or think you might be), you may need some of the more advanced tools. But first, you probably need to understand how a hard disk copes with errors, which we explain here.
Summary
If your data is irreplaceable then for a few hundred pounds a specialist data recovery firm can usually recover it from a faulty hard drive. However, there are a few things you can try yourself, but bear in mind that they could make it more difficult for a specialist firm if they don't succeed.
Often, a hard drive will be showing warning signs before it dies, such as running very slowly or random crashes or failure to boot. The sooner you act the better.
The S.M.A.R.T. data returned by a hard disk can give a useful indication of the health of a disk but its interpretation is vendor-specific and not fully documented. There are other tools that can be used which may be much more informative.
If your disk has been encrypted by ransomware then none of the tools described in this page are likely to help you. Your best bet is recovery from backups (you did make them, didn't you?). If you're tempted to pay the ransom, be aware that there is no guarantee it will be honoured, and your cash will likely be going to fund further criminal activity. Futhermore, people who pay the ransom frequently don't get all their data back. If you search online there is a small chance you will find a third party decryptor exploiting shoddy coding, but if the ransomware author did a good job then your data will be encrypted with military grade encryption and the purveyor of the ransomware will have the only key.
Safety
- Some of these tools can be DANGEROUS and should only be used in a kill-or-cure situation or if you are certain that a full system backup is available and you are sure you know what you are doing.
Introduction
The pressure to deliver ever greater storage capacities means that disk vendors (both hard disks and Solid State Disks or SSDs) push the storage density to such a level that they can only just read the data back. This is shown dramatically in a [YouTube video] which demonstrates that you can give a hard disk a hard time simply by shouting at it!
Most of the techniques and utilities described below can be used equally on SSDs, but before doing so you should understand their unique features and problems by reading Under the Bonnet in All about SSDs.
Hard Disk Error Handling
Before proceeding, it's important to understand how hard disks handle errors.
The space on a hard disk is made up of sectors, each 512 bytes, or for large disks, 4096 bytes long. Each has Error Correction Code (ECC) bits appended, and using these the disk firmware can correct read errors up to a certain number of consecutive bits. Such errors are corrected by the disk without bothering the user or the host computer, retrying the read operation multiple times if necessary. These reties will use multiple strategies in all combinations to try and recover the data, such as moving the read heads slightly to the left or to the right of where the track should be centred, and looking for the data slightly earlier or slightly later than its proper timing. Furthermore, if the disk finds a sector which is becoming marginal (i.e. it only just managed to correct an error) it may automatically allocate a spare sector and rewrite the data to the spare, marking the original as bad.
The strategy for doing this may vary, but is roughly as follows:
- If a read is (eventually) successful, provided the number of retries and/or the level of error correction required (if any) were below a certain threshold, then do nothing.
- If the retries and/or error correction were above that threshold, but the data was still recovered, remap the sector (i.e. rewrite the data to a spare sector and mark the original as bad).
- If the data couldn't be recovered, mark the sector as "unstable", increment the count of "pending" sectors and return an error to the host computer.
- If the sector had previously been marked unstable but is now read correctly, remap it and decrement the "pending sectors" count.
- If a write occurs to a sector marked as "unstable", remap it by diverting the write to a spare sector and decrement the "pending sectors" count.
SSDs operate a similar but often vendor-specific strategy.
The number of pending sectors is reported directly in the S.M.A.R.T. data.
Speedfan
Speedfan is the easiest of hard disk tools to use. It runs under Windows and gives vital statistics of a system, such as temperatures. But a very useful additional function is that it reports SMART data, and more than that, can compare the state of your hard disk with an online crowd-sourced database to show how your hard disk is ageing compared to others of the same model. Select the S.M.A.R.T. tab and click the "Hard disk" box to select yours. Review the results, then click the "Perform an in-depth online analysis" in order to get a customised online report, which will appear in a browser window.
Speccy
Speccy also reports S.M.A.R.T.data, along with a wealth of information about many other aspects of your computer and operating system. Select Storage from the left hand panel.
ddrescue
ddrescue is a linux tool for copying disks sector by sector. As such, it resembles the venerable Unix and linux utility dd but that is as far as the resemblance goes. Unlike dd, it will persist if it gets a read or write failure, and keeps a log of the blocks it has successfully processed. This makes it useful for recovering data from a disk which you fear might fail completely at any moment. Running it a first time, it will recover all the data it easily can, placing the least possible extra strain on the disk. If the disk is still functional you can run it again as often as you like, and each time it'll consult the log of previous runs and only try to copy the disk sectors it has previously failed to read. Alternatively, you can intersperse the runs with another tool such as Spinrite, which will try more aggressively to read and recover troublesome blocks.
If not already installed, you can install ddrescue with the shell command
- sudo apt-get install gddrescue
The command man ddrescue gives full details of options, but these are many and worth familiarising oneself with in advance.
You may have several disks plugged into the computer: the Linux system disk (possibly a bootable memory stick), the disk to be copied from, and the disk to be copied to. Be sure to double check which is which, or you may be heading for a disaster!
As a simple example, to clone a failing disk /dev/sdb to a replacement /dev/sdc of equal or larger size, use the following commands:
- ddrescue -f /dev/sdb /dev/sdc logfile
- ddrescue -f -r3 /dev/sdb /dev/sdc logfile
(If you have used ddrescue before, be sure to use a different logfile name, or delete the old logfile first, or it will assume you are continuing a previous rescue.)
The first command will hopefully complete the job, recoding in logfile what it actually achieved. It concentrates on copying as much as it can without lingering on bad blocks, on the assumption that the disk could fail completely at any time. The -f flag is required to force overwriting of the destination if it's an existing file or disk.
The second command retries up to 3 times any blocks recorded in the logfile as having failed. The logfile is updated accordingly, to show what has now been achieved.
The command:
- ddrescuelog -t logfile
reports the content of the logfile.
Recuva
Recuva can un-delete accidentally deleted files, and the deep scan can also find files that have been lost because the folders or indexing data structures required to locate the data on disk have been corrupted or are unreadable. It's probably most applicable to a memory card or thumb drive which has been corrupted or accidentally formatted, less so to a corrupted hard disk or SSD containing many thousands of files unless there are just a few specific files you need to recover. The free version should suffice for most purposes.
EaseUS Data Recovery Wizard
EaseUS Data Recovery Wizard may succeed where Recuva fails, and works well even for the larger hard disks and SSDs. It reconstructs the file and folder structure making it easy to select, for example, a particular user's My Documents. The free trial allows you to recover up to 2GB of data. It can recover accidentally deleted files, but more than that, its deep scan can find files that have been lost because the folders or indexing data structures required to locate the data on disk have been corrupted or are unreadable due to a failing hard disk. If a partition containing your filesystem has been deleted, lost or corrupted it can attempt to recover that too.
Once your free trial has expired you may be able to get another bite of the cherry by sharing it on social media.
gdisk
Gdisk is a Linux command line tool for partitioning hard disks, included as standard in some distros such as SystemRescueCD but installable on any other. Conceptually, it is similar to the DOS fdisk command but is much more flexible, can cope with large or GPT-partitioned disks, and may be able to partition or repartition a disk that other tools refuse to on account of bad sectors.
On most Linux systems you should be able to install gdisk, if not already present, by typing
- sudo apt-get install gdisk
at a command prompt.
MHDD
MHDD is a low level diagnostic and maintenance tool that runs under MSDOS or FreeDOS. It's best run from a DOS bootable USB memory stick. If you have Spinrite on a memory stick, add this to it too.
Faced with a slow running computer, MHDD will show very clearly whether the problem is a failing hard disk, performing many retries in order to read data.
- WARNING: MHDD will destroy data if not used with care.
MHDD is basically a user interface to the ATA command set and more. A key feature is that it accesses the disk direct rather than going through the BIOS and hence gets a more accurate and uncensored view. For example it can read the SMART data even if the BIOS hides it. The following is a very brief survival guide to the most useful functions.
Config and Command line flags
Normally MHDD disables access to the primary disk as a precaution, on the assumption that this may well be what DOS is running from. This won't be the case if you're booting from a USB memory stick.
On running for the first time, MHDD will create a folder CFG in the current folder, containing a file MHDD.CFG.
To enable the primary disk, edit MHDD.CFG to contain the line:
#PRIMARY_ENABLED=TRUE
(By default, this is set to FALSE.) Alternatively, you can launch MHDD with the command:
MHDD /ENABLEPRIMARY
Commands
MHDD issues a prompt, to which you can type a range of (case-insensitive) commands. To get started, try the following in order.
PORT - Issue this command first to get a list of disks, then select the one you want by number.
N.B. if your disk is not shown, you get Device is not ready or This drive does not support LBA mode or not detected you may need to go into the BIOS settings and set the SATA controller mode to ATA or Legacy. Don't forget to set it back again afterwards or the computer may not boot.
EID - Report extended ID information from the disk. Double-check that this is the disk you intended to select with the PORT command.
SMART ATT - Report values of SMART attributes. (The F8 key is a synonym for this command.) Pay special attention to:
- Read error rate
- Relocated sectors count
- Relocate event count
- Current pending sectors
See the Wikipedia S.M.A.R.T. article for further details, and also below.
SCAN - Scan the disk
The disk is scanned, giving a graphic display of its state and showing access times, hence revealing sectors which take an excessive time to read. (The screenshot above shows a very sickly disk with many bad sectors.)
Several options are offered in a pop-up menu, which should initially be left as their defaults. In particular:
- Start, End - Start and end sectors for the scan, defaulting to the entire disk.
- Remap - Attempt to remap bad sectors, provided they can be read correctly (even with difficulty).
- Erase delays - Erase sectors which take a long time to read, whether or not correctly. The data will be lost but this should cause them to be remapped.
To make sense of the Remap and Erase delays options, see Hard Disk Error Handling above.
Blocks of 255 sectors are each represented in the graphic display by a single blob. A brighter greyscale or a coloured blob indicates a slow read, suggesting the disk had trouble reading a sector. An "x" indicates a sector was unreadable.
CX - Perform random seeks and reads, and report the average access time.
HELP - Gives a list of all commands with brief descriptions.
MAN <command> - Gives a fuller description of the named command.
Log files
Log files of a session are recorded in text format in an automatically created sub-folder LOG. These are appended to for each session. To start fresh logs you can delete or rename the folder complete, optionally copying it to another disk.
hdparm
- Many of the facilities provided by hdparm are flagged as DANGEROUS, or even EXCEPTIONALLY DANGEROUS. DO NOT USE THIS OPTION!! You have been warned!
hdparm is a command line utility which runs under Linux, providing direct access to many features and options of a disk drive only available at the hardware level. It may be useful as a last resort, after reading the documentation carefully and weighing up the risks and possible benefits.
In particular, a hard disk from a video recorder which refuses to respond to other tools may have been set to power up in standby mode. The command
- hdparm -S 0 /dev/sda
may succeed in setting it into a more cooperative mode.
If the disk is in a very bad way the computer could fail to boot with it plugged in. Boot with the power cable to the troublesome disk disconnected and reconnect it once booted. If the disk isn't automatically recognised, at a root prompt type:
- ls /sys/class/scsi_host
You should get a list of hosts, e.g. host0 host1 host2. Pick one (here host0 is taken) where the drive might reside and type:
- echo "- - -" > /sys/class/scsi_host/host0/scan
(The 3 minus signs are separated by spaces.) If you chose the right host the missing disk should appear in Disk Manager.
Spinrite
Introduction
Spinrite is a sophisticated hard disk maintenance utility, which works much harder than most others in order to recover data from failing disks. In many cases, Spinrite can combine the erroneous results of many failed reads, together with error correction bits, to deduce what the data must have been. This allows Spinrite to rewrite the recovered data, causing the disk to write it to alternate spare sectors.
An important distinction needs to be understood between the function of Spinrite and the MSDOS or Windows CHKDSK utility. The latter operates on and seeks to correct inconsistencies in the logical structure of the file system, i.e. how the disk space is organised as folders and files and free space is managed, simply regarding the disk as a large pool of numbered blocks. It therefore cannot correct faults in the disk itself. Spinrite, on the other hand, works on the disk as a pool of blocks with no concern about how they might be used. It is therefore equally applicable to any hard disk however it's formatted, even if taken from another device such as a PVR or hard disk iPod, just so long as it can be connected to a machine that Spinrite can run on.
Spinrite has been around for many years, and the current version 6.0 was released 10 years ago. An Internet search may reveal criticisms of it, some of it ill-informed and vituperous. Nevertheless, many unsolicited testimonials indicate that it remains a very valuable tool, whether or not it will fix the disk you are faced with today.
Limitations
Version 6.0 has been known to crash when run against some modern drives, broadly in the class of 250GB upwards.
Spinrite exercises a disk fairly hard, so if it's already in a very poor state there's a risk that it may fail completely before Spinrite can complete, potentially with the loss of all your data. In such a case, consider first using a tool such as ddrescue to recover as much data as is still readable without error. You might then run Spinrite, perhaps just on the troublesome area, before re-running ddrescue to try and recover the remaining data.
A drawback of Spinrite is that it can take many hours to run to completion, especially if it has to work hard to recover data. However, a computer which fails to boot may be suffering from a bad sector in the first few hundred MB, which it may be able to repair in much less time.
A new version of Spinrite is awaited which will use very much larger buffers in order to achieve a very considerable increase in operating speed. It should also include enhancements to free it from the DOS dependence, allowing it to be run on a MAC, and to improve compatibility with the most modern drives. A suspend mode, too, is expected, which should allow it to be started during a Restart Party and then put into a low power state to give the owner time to take it home and plug it in to complete, even on a weak battery.
How to use
- On an SSD, you should only use Spinrite on Level 2, as Level 4 will cause excessive ageing.
Spinrite runs under MSDOS or FreeDOS and comes as a bootable CD image or .exe file, but is quite easily installed on a bootable memory stick. It costs $89 for a personal licence but comes with a no quibble satisfaction or money back guarantee. You may find a Restarter at a Restart Party who has a copy. (Strictly, the Personal licence only allows you to use it on computers you personally own, but the author Steve Gibson has repeatedly said that he's comfortable with its non-commercial use by licensees to help someone out. If it digs them out of a hole, you might suggest they purchase their own licence.)
Several modes of operation are used, but levels 2 and 4 serve virtually all purposes. In level 2, it does its utmost to recover data from any bad sectors, remapping them to spares. Level 4 takes much longer, performing an in-depth analysis of the entire disk surface. This reads the disk with error correction disabled, causing it to remap any sectors which are becoming marginal long before they start to present a risk. Conversely, it will revert a remapped sector, copying the data back, if a transient event such as a shock or electrical noise had caused a good sector to be remapped.
Spinrite is designed for use with conventional (spinning) hard disks but it can be used on an SSD on Level 2 (read-only data recovery, which doesn't cause wear) and can force it to reallocate marginal cells since it reads with error correction disabled. There have been multiple reports of this resulting in an SSD regaining as-new performance after having become slow.
While Spinrite is running on a hard disk it's best not to move the computer and to protect it from vibration and shocks, as these can cause soft error which may result in disk sectors being unnecessarily remapped.
Under the Hood
To understand how Spinrite achieves its magic, first read the section Hard Disk Error Handling above.
Problems arise if a read error is beyond what the ECC can correct, even retrying the read a number of times. In this case, the disk returns an error to the host computer and Windows may retry a few more times before giving up. Should the file be overwritten, the disk will recognise that this was a troublesome sector and heave a sigh of relief that nobody wanted the data after all. It will then mark the old sector as bad and write the new data to a spare sector.
But if you really did want the data in the failing sector, you're out of luck unless you have a copy of Spinrite (or a deep pocket for a commercial data recovery service). What this does is to try very much harder to read the data than either the disk itself or Windows, using all the tricks in the book and some more. If it eventually persuades the disk to perform a good (or at least an error-corrected) read, the disk will itself reallocate the data. However, Spinrite's magic is that it can often use the partial data received from many failed reads in order to reconstruct what the original data actually must actually have been, in which case it writes that back, once again, causing the disk to reallocate the data to a spare sector. In the worst case, Spinrite will write back to the disk as much data as it managed to recover from the sector, as it may be that not all of the data in the sector was needed anyway.
Spinrite has several operating levels, but is almost always used either in Level 2 or 4. Level 2 does its utmost to recover data and in the process will cause bad sectors to be swapped out with spares. Level 4 additionally gives each sector a thorough work-out with error correction disabled, having temporarily saved the contents of the sector to a spare. This provokes a remapping of any sectors which are becoming weak, even though still serviceable by the disk's own criteria. Level 4 operates against an ultra-cautious strategy, ensuring that the data in any sector under test has been successfully written to a spare before starting the test. You can therefore safely abort a run at any point without loosing data.
Commercial data recovery
If the data was really important to you and none of the above have worked, there are commercial data recovery firms which can recover most if not all the data from a faulty hard disk or SSD. In the case of a hard disk they may remove the disk platters in a clean room environment and mount them on a "spin stand", allowing an arsenal of tools to be applied. In the case of an SSD they may disassemble the device and try to read the data directly from the flash memory chips.
Naturally, this is not cheap, but if the data matters enough to you and you can contemplate a 3-figure bill then it may be the way to go. Search online for data recovery, and hopefully you will find a firm which will take on your drive on a no success no fee basis.