cpack | ||
src | ||
test | ||
vendor | ||
.gitignore | ||
.travis.yml | ||
ChangeLog.txt | ||
CMakeLists.txt | ||
LICENSE | ||
README.md | ||
travis.install_boost.sh | ||
utils.cmake |
CryFS
CryFS encrypts your files, so you can safely store them anywhere. It works well together with cloud services like Dropbox, iCloud, OneDrive and others. See https://www.cryfs.org.
Install latest release
Easy install (Ubuntu and Debian)
wget -O - https://www.cryfs.org/install.sh | sudo bash
Manual install (Ubuntu)
# Add apt key
wget -O - https://www.cryfs.org/apt.key | sudo apt-key add -
# Add apt repository
sudo sh -c "echo \"deb http://apt.cryfs.org/ubuntu `lsb_release -s -c` main\" > /etc/apt/sources.list.d/cryfs.list"
# Install cryfs
sudo apt-get update
sudo apt-get install cryfs
Manual install (Debian)
# Add apt key
wget -O - https://www.cryfs.org/apt.key | sudo apt-key add -
# Add apt repository
sudo sh -c "echo \"deb http://apt.cryfs.org/debian `lsb_release -s -c` main\" > /etc/apt/sources.list.d/cryfs.list"
# Install cryfs
sudo apt-get update
sudo apt-get install cryfs
GUI
If you want to use a GUI to mount your CryFS volumes, take a look at the SiriKali project. You have to install the GUI and also CryFS itself for it to work.
Building from source
Requirements
- Git (for getting the source code)
- GCC version >= 4.8 or Clang >= 3.7
- CMake version >= 2.8
- libcurl4 (including development headers)
- Boost libraries version >= 1.56 (including development headers)
- filesystem
- system
- chrono
- program_options
- thread
- Crypto++ version == 5.6.3 (including development headers) (not compatible to Crypto++ 5.6.4, but will be compatible with Crypto++ 5.6.5+)
- SSL development libraries (including development headers, e.g. libssl-dev)
- libFUSE version >= 2.8.6 (including development headers), on Mac OS X instead install osxfuse from https://osxfuse.github.io/
- Python >= 2.7
You can use the following commands to install these requirements
# Ubuntu
$ sudo apt-get install git g++ cmake make libcurl4-openssl-dev libboost-filesystem-dev libboost-system-dev libboost-chrono-dev libboost-program-options-dev libboost-thread-dev libcrypto++-dev libssl-dev libfuse-dev python
# Fedora
sudo dnf install git gcc-c++ cmake make libcurl-devel boost-devel boost-static cryptopp-devel openssl-devel fuse-devel python
# Macintosh
brew install cmake boost cryptopp openssl
Build & Install
-
Clone repository
$ git clone https://github.com/cryfs/cryfs.git cryfs $ cd cryfs
-
Build
$ mkdir cmake && cd cmake $ cmake .. $ make
-
Install
$ sudo make install
You can pass the following variables to the cmake command (using -Dvariablename=value):
- -DCMAKE_BUILD_TYPE=[Release|Debug]: Whether to run code optimization or add debug symbols. Default: Release
- -DBUILD_TESTING=[on|off]: Whether to build the test cases (can take a long time). Default: off
Troubleshooting
On most systems, CMake should find the libraries automatically. However, that doesn't always work.
-
Boost headers not found
Pass in the boost include path with
cmake .. -DBoost_INCLUDE_DIRS=/path/to/boost/headers
If you want to link boost dynamically (e.g. you don't have the static libraries), use the following:
cmake .. -DBoost_USE_STATIC_LIBS=off
-
Fuse/Osxfuse library not found
Pass in the library path with
cmake .. -DFUSE_LIB_PATH=/path/to/fuse/or/osxfuse
-
Fuse/Osxfuse headers not found
Pass in the include path with
cmake .. -DCMAKE_CXX_FLAGS="-I/path/to/fuse/or/osxfuse/headers"
-
CryptoPP library not found
Pass in the library path with
cmake .. -DCRYPTOPP_LIB_PATH=/path/to/cryptopp
-
Openssl headers not found
Pass in the include path with
cmake .. -DCMAKE_C_FLAGS="-I/path/to/openssl/include"
Creating .deb packages
There are additional requirements if you want to create .deb packages. They are:
- CMake version >= 3.3
- (optional) rpmbuild
-
Clone repository
$ git clone https://github.com/cryfs/cryfs.git cryfs $ cd cryfs
-
Build
$ mkdir cmake && cd cmake $ cmake .. -DCMAKE_BUILD_TYPE=Release -DBUILD_TESTING=off $ make package
Disclaimer
On the event of a password leak, you are strongly advised to create a new filesystem and copy all the data over from the previous one. Done this, all copies of the compromised filesystem and config file must be removed (e.g, from the "previous versions" feature of your cloud system) to prevent access to the key (and, as a result, your data) using the leaked password.