Key | Value |
---|---|
FileName | ./usr/lib/rustlib/i686-unknown-linux-gnu/lib/librustc_std_workspace_alloc-0609c19f8bb9815e.rlib |
FileSize | 4736 |
MD5 | 268B191DBD3AEAE2DE06724004599D6D |
SHA-1 | 1D62C27DE17B7FA78C381EB83103A854C78DA30D |
SHA-256 | F189A9652745CB992159A2AF0FE9FDEFD413BF3A0A6D9A7F1CAF6FB287B53B23 |
SSDEEP | 96:Py09rnVKtZDy+Wo46zVBgkOTQgCu8idEfl0lir:q09rVKtTf3gCu8X |
TLSH | T1E8A1E80E27108F5BEA32923A65771B995B64C7023F469F97728E20BC3FB13850E32984 |
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 | 123B7A16699A801567DD6422EB987F85 |
PackageArch | i586 |
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. |
PackageName | rust1.58 |
PackageRelease | 5.1 |
PackageVersion | 1.58.0 |
SHA-1 | 118DCC4F3AA37F40641134C598243E44AE4B3FD7 |
SHA-256 | CAC6AEDE83D58903D5002CD2FAEAAC1862FD7947888F375ADA403C1CB98390B8 |