DRM provider notes "only one piracy group has been able to bypass it."

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After the Denuvo DRM protection for Capcom's Resident Evil 7 was recently cracked less than a week after the game's release, what used to be considered practically "uncrackable" copy protection is looking quite a bit less valuable. Now, Denuvo is defending its "Anti-Tamper" technology, saying it's still the best copy protection currently available.
"It's correct that the title in question was cracked some days after release," Denuvo Marketing Director Thomas Goebl told Eurogamer. That said, "Given the fact that every unprotected title is cracked on the day of release—as well as every update of games—our solution made a difference for this title."

It's definitely true that even a few days of effective post-release copy protection is worth something to publishers, who see cracked versions of games as a direct threat to their sales (especially during the crucial first few days after release). The question is whether that short period of protection is worth the reportedly high price Denuvo charges publishing partners for its technology.

Goebl did deny earlier reports that publishers were being issued refunds after their Denuvo-protected games had been cracked. "We do not have any deals in place that offer refunds if a game is cracked within a specific time frame," the company told Eurogamer. Goebl didn't directly address why games like Inside and Doom removed their Denuvo protection in December after being cracked earlier in the year (Denuvo has yet to respond to a request for comment from Ars Technica).
"Please note that we always position our Anti-Tamper solution as hard to crack, not as uncrackable," Goebl added to Eurogamer. "So far only one piracy group has been able to bypass it." (One could argue that this is one too many for protection to be considered worthwhile, but we digress...)

"As always, we continue working to improve our solution to create security updates for upcoming Anti-Tamper versions," Goebl promised. "We will do the same with the learning from this bypass."