| Key | Value |
|---|---|
| FileName | ./usr/lib/python2.7/site-packages/smmap/util.pyc |
| FileSize | 11159 |
| MD5 | 13D4681908FF27F6D3056EDB812C7FEF |
| SHA-1 | 6413270A09E03C37F421ABA31CD747DC15DF10F0 |
| SHA-256 | EEB81B25A58C41F004D5F2F96802FC00126893421E033481E0C0CBFA07EF38E7 |
| SSDEEP | 192:tv5FmKlgmss5yzA9qmmF0DSx/81/gcM7F+U/CpdDR9V8AoCDIRdaCy8:x5IK+mss5N9pcM4z+f/DR9OLCD+Ny8 |
| TLSH | T1583255C1F3AA0F17D3B619B561E1125BE275F0776241BB4131AC947A3D8A2AAC93F3C1 |
| hashlookup:parent-total | 6 |
| hashlookup:trust | 80 |
The searched file hash is included in 6 parent files which include package known and seen by metalookup. A sample is included below:
| Key | Value |
|---|---|
| MD5 | 37A6B6A1B2DDB90F650A83073DF78C4F |
| 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 | python2-smmap |
| PackageRelease | lp150.1.2 |
| PackageVersion | 0.9.0 |
| SHA-1 | 7C28A817202A08879D211E08EF1B34AB7DCBA4C6 |
| SHA-256 | C070CD53E0451646C8820CBF0C8EA35E96B7DCF47A89AE3FC8F79402F569D9EA |
| Key | Value |
|---|---|
| MD5 | B93981310D22F405348E08B6F7AFB9B0 |
| 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 | python2-smmap |
| PackageRelease | lp150.2.1 |
| PackageVersion | 0.9.0 |
| SHA-1 | F5B4B23AF76810C80D0FE2D13C656E8F945C2CD0 |
| SHA-256 | 57A93D5B4528439D826F6A9E592AF7B176007180CCDF9644EF092B24F55236B6 |
| Key | Value |
|---|---|
| MD5 | F351F32580995BC846BBA3CF98A2E2BE |
| 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 | python2-smmap |
| PackageRelease | lp150.4.2 |
| PackageVersion | 0.9.0 |
| SHA-1 | 5AA071CC4F5DB01CEE38B1DFCC9B717161F46032 |
| SHA-256 | EE5968C9277E943CD420BB9C7075866E3E7D5796FA31DE29BC7D434C6F7582A9 |
| Key | Value |
|---|---|
| MD5 | 821147C382A631DB7E7D564BB9B5FDE6 |
| 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 |
| PackageMaintainer | https://bugs.opensuse.org |
| PackageName | python2-smmap |
| PackageRelease | lp150.1.3 |
| PackageVersion | 0.9.0 |
| SHA-1 | 900B1AF8848205E37048E72622536B7822C20BBB |
| SHA-256 | 3BF7805B40DD6DAB92B5C5F4F01D8D9FA625BA4C2B46C5187A235F1FA8AF8527 |
| Key | Value |
|---|---|
| MD5 | 237CDE86DE010DCBF61311670F955DA6 |
| 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 |
| PackageMaintainer | https://bugs.opensuse.org |
| PackageName | python2-smmap |
| PackageRelease | lp151.2.2 |
| PackageVersion | 0.9.0 |
| SHA-1 | EDCAD95B9FDD8DC7BAA1C653B21DFE8E591676F5 |
| SHA-256 | 835B92BE4A56A2594750BE455C289802D09E804B5348F6C6658888FAB06E6F75 |
| Key | Value |
|---|---|
| MD5 | 934B473498E504A77EF914A71BD91606 |
| 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 | python2-smmap |
| PackageRelease | lp151.1.2 |
| PackageVersion | 0.9.0 |
| SHA-1 | 105EA8B7002D22CDEC6FA751754BD8F3B86362C2 |
| SHA-256 | D843749FDB70B81137F80E659CD44632FD81583FFFAB1E3EF5AF55A1E8ECA598 |