Key | Value |
---|---|
FileName | ./usr/lib/rustlib/x86_64-unknown-linux-gnu/lib/libadler-68f25ef3c8db4d29.rlib |
FileSize | 65970 |
MD5 | 6523BD5059BB21D7B8777071628AEB4A |
SHA-1 | 1DD098D0DACF3CFBFA5B55389014EFD7ABC1B736 |
SHA-256 | 9C503966E9030642DC375AEF81F4D0A2BC08A3941473439A13455DE96D863CCD |
SSDEEP | 1536:zbZTZuuq2nPVWI6+nmeExaNJW3W9NLT6Hc7MNIJFKbK:xYq39NLwPbK |
TLSH | T1C2532C0AEBB10F72C71941B4542F47A56B30A6169B06D7D3312C63ADEFB235E1A5E8F0 |
hashlookup:parent-total | 1 |
hashlookup:trust | 55 |
The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
---|---|
MD5 | 60F34E0C7196122CDEBF4F1330480026 |
PackageArch | x86_64 |
PackageDescription | Rust is a systems programming language focused on three goals: safety, speed, and concurrency. It maintains these goals without having a garbage collector, making it a useful language for a number of use cases other languages are not good at: embedding in other languages, programs with specific space and time requirements, and writing low-level code, like device drivers and operating systems. It improves on current languages targeting this space by having a number of compile-time safety checks that produce no runtime overhead, while eliminating all data races. Rust also aims to achieve "zero-cost abstractions", even though some of these abstractions feel like those of a high-level language. Even then, Rust still allows precise control like a low-level language would. |
PackageMaintainer | https://www.suse.com/ |
PackageName | rust1.53 |
PackageRelease | 7.3.1 |
PackageVersion | 1.53.0 |
SHA-1 | 1235F2AB386807FD52BAECF431EC66FBB81E4A0A |
SHA-256 | BA2F0269525D92F68B6B11EA843AFF893A509184DECF8C4649AF370699CB5A83 |