File corruption sometimes only causes a minor amount of information loss. Other times, it can prevent a file from functioning entirely. Files become corrupt when parts of them have become damaged. It’s like tearing the pages out of a book. If you tear out enough pages, or even just one important page, the book stops making sense. Gillware Data Recovery offers financially risk-free corrupt file recovery services if you have lost a critical file to corruption.
How Do Files Become Corrupt?
Our data recovery engineers here at Gillware draw a line between two types of file corruption. This distinction is based on the root cause of the corruption. One is what we refer to as “soft” corruption. The other is “hard” corruption.
“Soft corruption” is what our corrupt file recovery engineers refer to corruption that appears as a symptom of a larger issue. Fixing the larger issue will make most, if not all, of the file corruption vanish. Fixing the larger issue may be extremely difficult. But the corruption is easy to fix. More or less, it goes away by itself once the problem is fixed.
Take, for example, a hard drive with failing read/write heads. The heads can read data intermittently. Maybe one or more of the actual heads in the headstack has failed, and the rest work fine. If one of those heads is dead, you end up with “bad sectors”. These sectors aren’t intrinsically bad. There’s nothing physically wrong with the platters themselves.
But large files are often split between different surfaces of the hard drive’s platters. Because of this, it takes the combined efforts of several heads to read the whole thing. If one of those heads is bad, the file will appear to be corrupt because parts of it are unreadable. After our engineers get into the hard drive and replace its heads, we can usually read most or all of those “bad” sectors. Suddenly, the file isn’t corrupted anymore.
Soft corruption can also occur in RAID arrays. Take the example of a failing RAID-5 array. On March 24, 2016, the RAID controller card notices that one of the hard drives in the array is lagging behind. It’s still functional, but it seems likely to fail soon. Because RAID-5 has one hard drive’s worth of fault tolerance, the controller takes the drive offline and goes about its business.
But then another hard drive fails a few months later, on June 15. The entire array crashes. Your IT technician might look at the RAID and see that the first drive to fail can be brought back online. They might force that hard drive back online. The problem is that the controller stopped writing data to that drive several months ago. We refer to the first drive to fail in a RAID-5 array as a “stale” drive.
If the RAID array gets resuscitated like this, it will try to integrate all of the stale data into the array. This means that just about all of the data written to the array since the first hard drive failed will be corrupted. A file you haven’t touched since January will be fine. Your main Outlook PST that’s seen constant use since March won’t be so lucky.
This makes RAID data recovery more difficult for our engineers. It creates massive amounts of file corruption. Repairing the second failed hard drive and using it to reconstruct the array without the stale drive can clear a lot of it up.
An illustration of how data can be corrupted in a failed RAID-5 array.
In file corruption data recovery scenarios, we call these types of corruption “soft”. File corruption isn’t the problem in and of itself. The real problem is usually a much more serious issue. Clearing up that issue tends to fix the vast majority of the corruption.
“Hard corruption” is a different matter for our corrupt file recovery engineers. This type of file corruption has a root cause, but addressing the root cause will not undo the corruption. The corruption itself has to be addressed.
Take a hard drive with damage to its magnetic data storage platters. The magnetic coating on its platters stores all of the data on the drive. If parts of that coating are damaged, those sectors are gone forever. Sectors can go bad as a result of old age. Even if the heads are fine, those sectors are still lost. Files that have lost sectors become corrupted, and may be completely nonfunctional.
Hard corruption can also appear in files after deletion or drive reformats. When you delete files from your computer or reformat your hard drive, that once-occupied space is flagged as “unused”. As you continue to use the hard drive, more data is written to it. This data will eventually start overwriting the old data. There is no way to “roll back” a sector on a hard drive’s platters once it has been overwritten. Hard drives only keep backup sectors of extremely important things, such as firmware modules and partition superblocks.
A software crash can also cause hard file corruption. Perhaps you’ve had Microsoft Word freeze on you in the middle of a Word document. You tell Windows to force shut down the program, and then try it again. But when you open the file again, Word spits out an error message. When the program crashed, it accidentally wrote some data where it shouldn’t and garbled up your document.
Other culprits for hard corruption include virus attacks or sudden and improper computer shutdowns. If system-critical files become corrupt, it can prevent your operating system from starting up altogether.
The Corrupt File Recovery Process
Hard file corruption seems like it would be impossible to recover from. But there are many occasions where corrupt file recovery is possible for our data recovery engineers. To recover a corrupted file, our engineers must find a way to circumvent the corrupted sectors and get the file working again.
When your Outlook PST, Quickbooks QBW, and SQL database files become corrupt, it can leave your business dead in the water. Our corrupt file recovery engineers are well-acquainted with the geometry of these file types, and many more. We know how to repair these files when a few bad sectors prevent them from working.
File corruption could prevent you from opening your Outlook PST email archive. But usually, only a few bad sectors are to blame. Our data recovery engineers can work around these sectors and get your PST functional again. There may be some minor data loss, but it is better than having a file that won’t open.
Why Choose Gillware for Corrupt File Recovery?
At Gillware, we understand that it isn’t always possible or within our clients’ budgets to repair corrupted files. We don’t like our clients throwing money at us and getting nothing in return. We’re sure they wouldn’t like it either. That is why we keep our entire data recovery process financially risk-free.
We start with a free evaluation. For clients living in the continental United States, we even offer a prepaid UPS shipping label at no charge. After we complete the evaluation, we present you with a price quote and a probability of success. We don’t send you a bill until we’ve recovered everything we can, and you only pay the bill if we’ve successfully recovered your data at a price that makes sense for you.
Our data recovery engineers are world-class. After logging in tens of man-hours of data recovery work, there’s very little they haven’t seen or done. You can trust that your data is in good hands when you choose Gillware Data Recovery.
Are You Ready to Have Gillware Assist You with Your Corrupt File Recovery Needs?
Best-in-class engineering and software development staff
Gillware employs a full time staff of electrical engineers, mechanical engineers, computer scientists and software developers to handle the most complex data recovery situations and data solutions
Strategic partnerships with leading technology companies
Gillware is proud to be a recommended provider for Dell, Western Digital and other major hardware and software vendors. These partnerships allow us to gain unique insight into recovering from these devices.
RAID Array / NAS / SAN data recovery
Using advanced engineering techniques, we can recover data from large capacity, enterprise grade storage devices such as RAID arrays, network attached storage (NAS) devices and storage area network (SAN) devices.
Virtual machine data recovery
Thanks to special engineering and programming efforts, Gillware is able to recover data from virtualized environments with a high degree of success.
SOC 2 Type II audited
Gillware has been security audited to ensure data safety, meaning all our facilities, networks, policies and practices have been independently reviewed and determined as completely secure.
Facility and staff
Gillware’s facilities meet the SOC 2 Type II audit requirements for security to prevent entry by unauthorized personnel. All staff are pre-screened, background checked and fully instructed in the security protocol of the company.
We are a GSA contract holder.
We meet the criteria to be approved for use by government agencies
GSA Contract No.: GS-35F-0547W
Our entire data recovery process can be handled to meet HIPAA requirements for encryption, transfer and protection of e-PHI.
No obligation, no up-front fees, free inbound shipping and no-cost evaluations.
Gillware’s data recovery process is 100% financially risk free. We only charge if the data you want is successfully recovered.
Our pricing is 40-50% less than our competition.
By using cutting edge engineering techniques, we are able to control costs and keep data recovery prices low.
Instant online estimates.
By providing us with some basic information about your case, we can give you an idea of how much it will cost before you proceed with the recovery.
We only charge for successful data recovery efforts.
We work with you to define clear data recovery goals for our technicians, and only charge you upon successfully meeting these goals and recovering the data that is most important to you.
Gillware is trusted, reviewed and certified
Gillware has the seal of approval from a number of different independent review organizations, including SOC 2 Type II audit status, so our customers can be sure they’re getting the best data recovery service possible.
Gillware is a proud member of IDEMA and the Apple Consultants Network.