| Key | Value |
|---|---|
| CRC32 | 2ED4E26D |
| FileName | ./usr/share/doc/python-hachoir-core/doc/internals.rst.gz |
| FileSize | 2020 |
| MD5 | DDD01619B916AC737C014B9D00E25A00 |
| OpSystemCode | {'MfgCode': '1006', 'OpSystemCode': '362', 'OpSystemName': 'TBD', 'OpSystemVersion': 'none'} |
| ProductCode | {'ApplicationType': 'Operating System', 'Language': 'Multilanguage', 'MfgCode': '2500', 'OpSystemCode': '51', 'ProductCode': '163700', 'ProductName': 'Tails', 'ProductVersion': '2.11'} |
| SHA-1 | 05D99062EBEB5C2F6E9C8E87A4E4EF91B42F68E9 |
| SHA-256 | 05AE72B57AE51611A09646EF694D90A3997E60AC18A8E50A6905C1BF8CDEE071 |
| SSDEEP | 48:X1+zIAwavszixJbZ/SpbH4j+QZYwzcyTO2lgecK0T312gedXYZ:kzjs2nobYjVONJrK8gS |
| SpecialCode | |
| TLSH | T1E24118E60EE2A5D7FB1A201EEDA48028AE2F44F09E83413448C0B1D72543CCAD584DBB |
| db | nsrl_modern_rds |
| insert-timestamp | 1646979951.1942558 |
| source | NSRL |
| 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 |
|---|---|
| FileSize | 79780 |
| MD5 | BBB0AA561D496F6E78167280AFB4CEEB |
| PackageDescription | Core of Hachoir framework: parse and edit binary files Hachoir is a Python library used to represent of a binary file as a tree of Python objects. Each object has a type, a value, an address, etc. The goal is to be able to know the meaning of each bit in a file. . Why using slow Python code instead of fast hardcoded C code? Hachoir has many interesting features: * Autofix: Hachoir is able to open invalid / truncated files * Lazy: Open a file is very fast since no information is read from file, data are read and/or computed when the user ask for it * Types: Hachoir has many predefined field types (integer, bit, string, etc.) and supports string with charset (ISO-8859-1, UTF-8, UTF-16, ...) * Addresses and sizes are stored in bit, so flags are stored as classic fields * Endian: You have to set endian once, and then number are converted in the right endian * Editor: Using Hachoir representation of data, you can edit, insert, remove data and then save in a new file. |
| PackageMaintainer | Michel Casabona <michel.casabona@free.fr> |
| PackageName | python-hachoir-core |
| PackageSection | python |
| PackageVersion | 1.3.3-4 |
| SHA-1 | 49CE3F7B47B84A4109FFCA3C4C2F97D8C5C8C80A |
| SHA-256 | 3B26528A8DF5666AF34694CDCD4200997AA154B489008F888C1243416E4F46B7 |
| Key | Value |
|---|---|
| FileSize | 78066 |
| MD5 | 371246527B9677A44E30616964DAB355 |
| PackageDescription | Core of Hachoir framework: parse and edit binary files Hachoir is a Python library used to represent of a binary file as a tree of Python objects. Each object has a type, a value, an address, etc. The goal is to be able to know the meaning of each bit in a file. . Why using slow Python code instead of fast hardcoded C code? Hachoir has many interesting features: * Autofix: Hachoir is able to open invalid / truncated files * Lazy: Open a file is very fast since no information is read from file, data are read and/or computed when the user ask for it * Types: Hachoir has many predefined field types (integer, bit, string, etc.) and supports string with charset (ISO-8859-1, UTF-8, UTF-16, ...) * Addresses and sizes are stored in bit, so flags are stored as classic fields * Endian: You have to set endian once, and then number are converted in the right endian * Editor: Using Hachoir representation of data, you can edit, insert, remove data and then save in a new file. |
| PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
| PackageName | python-hachoir-core |
| PackageSection | python |
| PackageVersion | 1.3.3-4 |
| SHA-1 | 24298D97765789799A2D67981144ED469B617946 |
| SHA-256 | E69AFD2C71EAFB0AC3BF5F6FC1B10D16E7BAB40C04A66BD2680378896C53D431 |
| Key | Value |
|---|---|
| FileSize | 86320 |
| MD5 | ABCA1A79CFDF6D9C42E1731E95B60DF8 |
| PackageDescription | Core of Hachoir framework: parse and edit binary files Hachoir is a Python library used to represent of a binary file as a tree of Python objects. Each object has a type, a value, an address, etc. The goal is to be able to know the meaning of each bit in a file. . Why using slow Python code instead of fast hardcoded C code? Hachoir has many interresting features: * Autofix: Hachoir is able to open invalid / truncated files * Lazy: Open a file is very fast since no information is read from file, data are read and/or computed when the user ask for it * Types: Hachoir has many predefined field types (integer, bit, string, etc.) and supports string with charset (ISO-8859-1, UTF-8, UTF-16, ...) * Addresses and sizes are stored in bit, so flags are stored as classic fields * Endian: You have to set endian once, and then number are converted in the right endian * Editor: Using Hachoir representation of data, you can edit, insert, remove data and then save in a new file. |
| PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
| PackageName | python-hachoir-core |
| PackageSection | python |
| PackageVersion | 1.3.3-3 |
| SHA-1 | BD7EF5A26FAD9900FC6223E18561A39AAADF037F |
| SHA-256 | 9DFA277EA5FB1AFB231B964173EA75D2B13E6311EBE4A5A47B0DCA3EE322974C |