| Key | Value |
|---|---|
| FileName | ./usr/lib/python3.6/site-packages/smmap/__pycache__/buf.cpython-36.pyc |
| FileSize | 5123 |
| MD5 | FCDC7F755D850F329B3D1F744C9B10C0 |
| SHA-1 | 09E7019E1BEB4F2FFBA3515F5FB21A9DC7D0CA60 |
| SHA-256 | 8046B491FF3395B6501E340314DBD5C489F5DAF0D56EF2122E570A3C445F1272 |
| SSDEEP | 96:qydU4G4Mcnx3QM47U3Piy9Owup1C5i/XQKOQr7LJfl8WUBvZimDgFyKZ3:Jdr3Qpw36y9OwoEe9d8WUBvMbkG3 |
| TLSH | T19FB195436F645B3BFC11F27564EF67EA537860BB6628C191381C44193F0E6E189738D4 |
| hashlookup:parent-total | 3 |
| hashlookup:trust | 65 |
The searched file hash is included in 3 parent files which include package known and seen by metalookup. A sample is included below:
| Key | Value |
|---|---|
| MD5 | F28685E2B040E9BA320DB2F3DEF6ADB2 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python36-smmap |
| PackageRelease | 1.2 |
| PackageVersion | 3.0.5 |
| SHA-1 | 92A8E7008D60A0A56290A13CFB17CC39134EC0A5 |
| SHA-256 | DA06CB96F01CA41A06465E5A6580097FA3C882BFF7016CF47DECB5E7098CD9AB |
| Key | Value |
|---|---|
| MD5 | 26E906529ED1F5B7DD05D6689F9B2FC7 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python3-smmap |
| PackageRelease | 33.3 |
| PackageVersion | 3.0.5 |
| SHA-1 | B0F6D7429E56EC998A67DF61DA0D9866A759EFDE |
| SHA-256 | 7E611EAFFB729291C76AA0143F1D110F24E54FBBF9B98ED89D38332F916F853B |
| Key | Value |
|---|---|
| MD5 | 563F5516CF7605431EF3F010B806F782 |
| PackageArch | noarch |
| PackageDescription | When reading from many possibly large files in a fashion similar to random access, it is usually the fastest and most efficient to use memory maps. Although memory maps have many advantages, they represent a very limited system resource as every map uses one file descriptor, whose amount is limited per process. On 32 bit systems, the amount of memory you can have mapped at a time is naturally limited to theoretical 4GB of memory, which may not be enough for some applications. The documentation can be found here: http://packages.python.org/smmap |
| PackageName | python3-smmap |
| PackageRelease | lp151.2.1 |
| PackageVersion | 3.0.5 |
| SHA-1 | 358F74ED64CC87A0DA1D51A4DE8187198E150E22 |
| SHA-256 | 42FF8C60A292D9A4BE989C80AF616D0B273C29CAD0286FF7CC1687FB107EE4D5 |