C++ wrapper around minizip compression library
Zipper's goal is to bring the power and simplicity of minizip to a more object oriented/c++ user friendly library. It was born out of the necessity of a compression library that would be reliable, simple and flexible. By flexibility I mean supporting all kinds of inputs and outputs, but specifically been able to compress into memory instead of been restricted to file compression only, and using data from memory instead of just files as well.
- Create zip in memory.
- Allow files, vector and generic streams as input to zip.
- File mappings for replacing strategies (overwrite if exists or use alternative name from mapping).
- Password protected zip (EAS).
- Multi platform.
Zipper currently follows an unmaintaind and vulnerable version of the minizip library. It is vulnerable to ZipSlip attack and mitigations should be put in place by Zipper's users.
References:
In order to use and compile zipper you need to have zlib source files. Zipper depends on minizip as well but since it is used as a submodule, you get it when cloning the repo and it gets compiled with the project.
Note: For windows users, zlib is expected to be found at ZLIBROOT. Soon Zipper will follow the new generation of zlib named zlib-ng and will be compiled directly with this project.
sudo apt-get install zlib1g-dev # for ubuntu
sudo dnf install zlib-devel # for fedora
sudo dnf install gcc-c++ # for fedora
The preferred way is to create a folder for the compilation output to avoid polluting the root folder
git clone --recursive https://github.com/sebastiandev/zipper.git # to get zipper and minizip submodule
cd zipper
mkdir build
cd build
cmake ../
make
Following the previous section Compiling
, still from the build
folder, type:
sudo make install
sudo ldconfig
You will see a message like:
Install the project...
-- Install configuration: "Release"
-- Installing: /usr/local/lib/libZipper.so.1.0.1
-- Up-to-date: /usr/local/lib/libZipper.so.1
-- Up-to-date: /usr/local/lib/libZipper.so
-- Installing: /usr/local/lib/libZipper.a
-- Installing: /usr/local/lib/libZipper-static.a
-- Installing: /usr/local/bin/Zipper-test
-- Installing: /usr/local/share/pkgconfig/zipper.pc
-- Installing: /usr/local/bin/Zipper-test
-- Installing: /usr/local/include/zipper/crypt.h
-- Installing: /usr/local/include/zipper/ioapi.h
-- Installing: /usr/local/include/zipper/ioapi_buf.h
-- Installing: /usr/local/include/zipper/ioapi_mem.h
-- Installing: /usr/local/include/zipper/iowin32.h
-- Installing: /usr/local/include/zipper/unzip.h
-- Installing: /usr/local/include/zipper/zip.h
-- Installing: /usr/local/include/zipper/CDirEntry.h
-- Installing: /usr/local/include/zipper/defs.h
-- Installing: /usr/local/include/zipper/tools.h
-- Installing: /usr/local/include/zipper/unzipper.h
-- Installing: /usr/local/include/zipper/zipper.h
-- Installing: /usr/local/lib/cmake/zipperConfig.cmake
-- Installing: /usr/local/lib/cmake/zipperTargets.cmake
-- Installing: /usr/local/lib/cmake/zipperTargets-release.cmake
There are two classes available Zipper and Unzipper. They behave in the same manner regarding constructors and storage parameters. (for a complete example take a look at the zip file tests and zip memory tests using the awesome BDD's from Catch library )
- Header:
#include <zipper/zipper.h>
using namespace zipper;
- Creating a zip file with 2 files:
std::ifstream input1("some file");
std::ifstream input2("some file");
Zipper zipper("ziptest.zip");
zipper.add(input1, "Test1");
zipper.add(input2, "Test1");
zipper.close();
- Adding a file by name and an entire folder to a zip:
Zipper zipper("ziptest.zip");
zipper.add("somefile.txt");
zipper.add("myFolder");
zipper.close();
- Creating a zip file using the awesome streams from boost that lets us use a vector as a stream:
#include <boost\interprocess\streams\vectorstream.hpp>
...
boost::interprocess::basic_vectorstream<std::vector<char>> input_data(some_vector);
Zipper zipper("ziptest.zip");
zipper.add(input_data, "Test1");
zipper.close();
- Creating a zip in memory stream with files:
#include <boost\interprocess\streams\vectorstream.hpp>
...
boost::interprocess::basic_vectorstream<std::vector<char>> zip_in_memory;
std::ifstream input1("some file");
Zipper zipper(zip_in_memory);
zipper.add(input1, "Test1");
zipper.close();
- Creating a zip in a vector with files:
std::vector<unsigned char> zip_vect;
std::ifstream input1("some file");
Zipper zipper(zip_vect);
zipper.add(input1, "Test1");
zipper.close();
- Changing the compression factor: By default the
add
method uses an implicit flagZipper::Better
which compress the best but can takes some time to perform the compression. You can change this flag byZipper::Store
(no compression) orZipper::Faster
(for a light compression) orZipper::Medium
(for a compromise).
zipper.add(input1, "Test1", Zipper::Medium);
- Adding a password. You can protect your file by adding a password as a
std::string
as second parameter to any ofZipper
constructors. For example:
Zipper zipper("ziptest.zip", "mypassword");
- Appending files inside the archive.
By default the constructor Zipper
for zip file uses an implicit flag Zipper::Overwrite
you can
change it by Zipper::Append
. Note: in previous versions of Zipper the Zipper::Append
flag was the one by default but now replaced by Zipper::Overwrite
.
- Header:
#include <zipper/unzipper.h>
using namespace zipper;
- Getting all entries in zip:
Unzipper unzipper("zipfile.zip");
std::vector<ZipEntry> entries = unzipper.entries();
unzipper.close();
- Extracting all entries from zip:
Unzipper unzipper("zipfile.zip");
unzipper.extract();
unzipper.close();
- Extracting all entries from zip using alternative names for existing files on disk:
std::map<std::string, std::string> alternativeNames = { {"Test1", "alternative_name_test1"} };
Unzipper unzipper("zipfile.zip");
unzipper.extract(".", alternativeNames);
unzipper.close();
- Extracting a single entry from zip:
Unzipper unzipper("zipfile.zip");
unzipper.extractEntry("entry name");
unzipper.close();
- Extracting a single entry from zip to memory:
std::vector<unsigned char> unzipped_entry;
Unzipper unzipper("zipfile.zip");
unzipper.extractEntryToMemory("entry name", unzipped_entry);
unzipper.close();
- Extracting from a vector:
std::vector<unsigned char> zip_vect; // Populated with Zipper zipper(zip_vect);
Unzipper unzipper(zip_vect);
unzipper.extractEntry("Test1")
Note: Methods extract
, extractEntry
, extractEntryToMemory
return a boolean indicating the success (true
) or the failure (false
).
- Extraction using a password. You can pass your password as a
std::string
as second parameter to any of constructors:
Zipper unzipper("ziptest.zip", "mypassword");
In your project add the needed headers in your c++ files:
#include <zipper/unzipper.h>
#include <zipper/zipper.h>
There are several ways to link your project against Zipper:
-
Straight forward:
g++ -W -Wall -I/usr/local/include main.cpp -o prog -L/usr/local/lib/ -lZipper -lz
. Note: you may have to adapt/usr/local
to your installation directory (see the previous sectionInstalling
). You can also adapt and export your environment variableLD_LIBRARY_PATH
(via you .bashrc for example). -
Pkg-config is a better alternative to the previous command:
g++ -W -Wall main.cpp -o prog `pkg-config zipper --cflags --libs`
Indeed pkg-config knows for you where to find libraries and, by default, it will choose the shared library. In the case it is not present then the static library will be chosen. You can force choosing the static library with pkg-config libZipper --static --libs
-
Makefile: set
LDFLAGS
topkg-config zipper --libs
and setCPPFLAGS
topkg-config zipper --cflags
-
CMake: Simply place zipper in your project hierarchy, and then use
add_subdirectory(zipper)
or whatever you called the zipper folder. Then link it withZipper
/staticZipper
Project(projZipper)
add_subdirectory(zipper)
add_executable(projZipper main.cpp)
target_link_libraries(
projZipper
PUBLIC
staticZipper
)
link zipper librairy(.so) to your own project with cmake
project(projZipper)
find_package(PkgConfig REQUIRED)
pkg_check_modules(ZIPPER REQUIRED zipper)
add_executable(projZipper main.cpp)
target_link_libraries(projZipper ${ZIPPER_LIBRARIES})
- The
developement
is here for your pull requests. This branch contains the latest fixes but can have regressions. - The
master
is for maintenaning the stablest version.
Because, Zipper uses submodules, when your are commuting of branch, do not forget to synchronize your submodules:
git submodule sync
git submodule update
Before submitting a pull request, you can indent the code with the following command:
cd zipper
clang-format -i *.cpp *.h