Parents (Total: 67)
The searched file hash is included in 67 parent files which include package known and seen by metalookup. A sample is included below:
| Key |
Value |
| MD5 | 77BBF3605F5FEA698A5B40BCCCDCF3BB |
| PackageArch | i586 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python38-snimpy |
| PackageRelease | 10.25 |
| PackageVersion | 1.0.0 |
| SHA-1 | 0666AF4CD26E9FB625A64BC09C3A4D73DBB0EA51 |
| SHA-256 | AD3D2690A1CC01F16E0C1EE59E4C39C20396D5D011A74D9646002BCD36C9AD75 |
| Key |
Value |
| MD5 | B4C281A1F109A14F6A2B3417BE250941 |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python3-snimpy |
| PackageRelease | lp153.10.6 |
| PackageVersion | 1.0.0 |
| SHA-1 | 0BD4F6BF644B0C844AD6C44BE20235CA4E773119 |
| SHA-256 | EFF140241B8A653A6F731593DF1BA13C4994ED61246CB818060274E5DC71DE57 |
| Key |
Value |
| MD5 | 5A9E17B81B28FB850C4AC7AA4DD14C61 |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python39-snimpy |
| PackageRelease | 10.25 |
| PackageVersion | 1.0.0 |
| SHA-1 | 0FA8B2B74DD13E3854796926A7EBD8D6B1F35748 |
| SHA-256 | AA0F3EA4C051CF7FD75C5C1EAB9D3D2D494402DD08046D04BFA535DF88E25D54 |
| Key |
Value |
| MD5 | 0AC3713EA028DCD8377955EAA9091288 |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python3-snimpy |
| PackageRelease | lp151.3.1 |
| PackageVersion | 0.8.14 |
| SHA-1 | 1128CC7A0DEF736A3883FE3AE27895A47B70AEAD |
| SHA-256 | 5E771052EA6DD62BE2BECFAAB5C9A52F841967E0D5A094460119EF5272DC65E9 |
| Key |
Value |
| MD5 | D84F033265CCAB7697D09132D154AA6D |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python3-snimpy |
| PackageRelease | 2.3 |
| PackageVersion | 0.8.13 |
| SHA-1 | 156263FA4AD5FC259D265A8917A03A12EBC9BA97 |
| SHA-256 | 6D4860B824DB455D2CCC54146ACDFDEE69586AB786E4433DB35600453867E92D |
| Key |
Value |
| MD5 | 9CDE4CD329FD0065E3EF1A136FB60E9D |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python2-snimpy |
| PackageRelease | lp151.3.1 |
| PackageVersion | 0.8.14 |
| SHA-1 | 1A153C3468B0BECB4BA158754B9A9B78DE907C4E |
| SHA-256 | 0974DF5815266BC77747EB1A0E0AA26BA3FA2F991A97092C60F8DF1CEA214F77 |
| Key |
Value |
| FileSize | 31866 |
| MD5 | B8FE1370641F67B50B5C4BFFFC922C44 |
| PackageDescription | interactive SNMP tool with Python
Snimpy is a Python-based tool providing a simple interface to build
SNMP queries. This interface aims at being the most Pythonic
possible: you grab scalars using attributes and columns are like
dictionaries.
.
Snimpy can either be used interactively through its console (derived
from Python own console or from IPython if available) or by writing
snimpy scripts which are just Python scripts with some global
variables available. |
| PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
| PackageName | snimpy |
| PackageSection | python |
| PackageVersion | 0.8.1-2build1 |
| SHA-1 | 1D7FC723C4425D20D5112A996A5F7DD9124A8921 |
| SHA-256 | 2C8D2E4F6B53C056EAA646A4DCEA37DEC8D6553BA00BFACD5DF242DFC83613B9 |
| Key |
Value |
| MD5 | B68B1BF80ED733DF7E7DEF9BB133B96C |
| PackageArch | i586 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageMaintainer | https://bugs.opensuse.org |
| PackageName | python310-snimpy |
| PackageRelease | 1.4 |
| PackageVersion | 1.0.0 |
| SHA-1 | 23700E7502089C631BFB913EA81C21AA5CC226A6 |
| SHA-256 | D90D9E281454D60F2F5C9ED9EEA8D24F5B523A3C7F6E78B65A44A30887E01E08 |
| Key |
Value |
| MD5 | B94994166C22AB294AA35E2816D54C19 |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageMaintainer | https://bugs.opensuse.org |
| PackageName | python3-snimpy |
| PackageRelease | bp156.3.5 |
| PackageVersion | 0.8.13 |
| SHA-1 | 2A533AEF9FD28947E26A2AAB727A115CF4E5624B |
| SHA-256 | 0356609BCA1EFB344F26C922EE045EA22CCA370FED9171B05E1611AFEF12EB7E |
| Key |
Value |
| MD5 | 19FB14A154511A345DFAC197ED8F48DA |
| PackageArch | x86_64 |
| PackageDescription | Snimpy is a Python-based tool providing a simple interface to build
SNMP query. You can either use Snimpy interactively through its console
(derived from Python own console or from IPython_ if available) or write
Snimpy scripts which are just Python scripts with some global variables
available.
Snimpy is aimed at being the more Pythonic possible. You should forget
that you are doing SNMP requests. Snimpy will rely on MIB to hide SNMP
details. Here are some "features":
* MIB parser based on libsmi (through CFFI)
* SNMP requests are handled by PySNMP (SNMPv1, SNMPv2 and SNMPv3
support)
* scalars are just attributes of your session object
* columns are like a Python dictionary and made available as an
attribute
* getting an attribute is like issuing a GET method
* setting an attribute is like issuing a SET method
* iterating over a table is like using GETNEXT
* when something goes wrong, you get an exception |
| PackageName | python3-snimpy |
| PackageRelease | lp151.6.1 |
| PackageVersion | 0.8.14 |
| SHA-1 | 3FF0DE2A0DD599C41F66160C68F56918193F5C2A |
| SHA-256 | A7444E2CCC5AC1A60FFBE7F90BF225B2717E560233724160A866F0B46485B3AF |