protobuf 3.21.12-8.2build1 source package in openKylin
Changelog
protobuf (3.21.12-8.2build1) noble; urgency=medium * No-change rebuild for CVE-2024-3094 -- Steve Langasek <email address hidden> Sun, 31 Mar 2024 06:49:33 +0000
protobuf (3.21.12-8.2build1) noble; urgency=medium * No-change rebuild for CVE-2024-3094 -- Steve Langasek <email address hidden> Sun, 31 Mar 2024 06:49:33 +0000
Series | Published | Component | Section |
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File | Size | SHA-256 Checksum |
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protobuf_3.21.12.orig.tar.gz | 4.9 MiB | 930c2c3b5ecc6c9c12615cf5ad93f1cd6e12d0aba862b572e076259970ac3a53 |
protobuf_3.21.12-8.2build1.debian.tar.xz | 32.9 KiB | 1679a7ca38844bb6e5119bf5278f57b07703b899b6a7feb263adec9d2598b45d |
protobuf_3.21.12-8.2build1.dsc | 3.0 KiB | 980525cc1f6e0f7967959888f019705a7df13fd99dbbca2f883a5c55da8a8bab |
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the development headers and static libraries needed for
writing C++ applications. Includes well known proto type files.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the runtime library needed for C++ applications whose
message definitions have the "lite runtime" optimization setting.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the runtime library needed for C++ applications.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the development headers and static library needed for
writing protobuf compilers.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the runtime library needed for the protocol buffer
compiler.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the protocol buffer compiler that is used for
translating from .proto files (containing the definitions) to the language
binding for the supported languages.
Protocol buffers are a flexible, efficient, automated mechanism for
serializing structured data - similar to XML, but smaller, faster, and
simpler. You define how you want your data to be structured once, then you can
use special generated source code to easily write and read your structured
data to and from a variety of data streams and using a variety of languages.
You can even update your data structure without breaking deployed programs
that are compiled against the "old" format.
.
Google uses Protocol Buffers for almost all of its internal RPC protocols and
file formats.
.
This package contains the Python 3 bindings for the protocol buffers. You will
need the protoc tool (in the protobuf-compiler package) to compile your
definition to Python classes, and then the modules in this package will allow
you to use those classes in your programs.
Protocol Buffers are Google's data interchange format.
.
This library contains the Ruby extension that implements Protocol Buffers
functionality in Ruby.
.
The Ruby extension makes use of generated Ruby code that defines message and
enum types in a Ruby DSL. You may write definitions in this DSL directly, but
we recommend using protoc's Ruby generation support with .proto files. The
build process in this directory only installs the extension; you need to
install protoc as well to have Ruby code generation functionality.