Source: persistent-cache-cpp Section: libs Priority: optional Maintainer: Debian UBports Team Uploaders: Mike Gabriel , Marius Gripsgard , Build-Depends: cmake, cmake-extras (>= 1.5-8~), debhelper-compat (= 13), doxygen, googletest, libboost-filesystem-dev, libgtest-dev, libleveldb-dev, lsb-release, pkg-config, python3 , Standards-Version: 4.6.2 Rules-Requires-Root: no Homepage: https://gitlab.com/ubports/development/core/lib-cpp/persistent-cache-cpp Vcs-Git: https://salsa.debian.org/ubports-team/persistent-cache-cpp.git Vcs-Browser: https://salsa.debian.org/ubports-team/persistent-cache-cpp/ Package: persistent-cache-cpp-dev Section: libdevel Architecture: any Multi-Arch: same Depends: ${misc:Depends}, libboost-dev, libleveldb-dev, pkg-config, Description: Cache of key-value pairs with persistent storage for C++ 11 This API provides a cache of key-value pairs with a backing store. It is intended for caching arbitrary (possibly large) amounts of data, such as might be needed by a web browser cache. The cache supports both least-recently-used and time-to-live expiration policies. It scales to large numbers (millions) of entries and is very fast. The implementation is based on leveldb and typically provides throughput many times larger than the I/O bandwidth to disk. . The cache is robust in the face of crashes and power loss. After a re-start, it is guaranteed to be in a consistent state with correct data. Some number of updates that were made just prior to a power loss or kernel crash can be lost; however, if just the calling process crashes, all updates that were made prior to the crash are guaranteed to be on disk. Package: persistent-cache-cpp-doc Section: doc Architecture: all Multi-Arch: foreign Depends: ${misc:Depends}, Description: Documentation for persistent-cache-cpp-dev This API provides a cache of key-value pairs with a backing store. It is intended for caching arbitrary (possibly large) amounts of data, such as might be needed by a web browser cache. The cache supports both least-recently-used and time-to-live expiration policies. It scales to large numbers (millions) of entries and is very fast. The implementation is based on leveldb and typically provides throughput many times larger than the I/O bandwidth to disk. . The cache is robust in the face of crashes and power loss. After a re-start, it is guaranteed to be in a consistent state with correct data. Some number of updates that were made just prior to a power loss or kernel crash can be lost; however, if just the calling process crashes, all updates that were made prior to the crash are guaranteed to be on disk. . This package provides examples and the API reference.