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Lightweight cryptography library wrapper

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ď·˝

Minimal security tool with CLI and and C++ API for cryptography.

Apache 2.0

Ripe contains encryption API for two major cryptography methods, RSA and AES (Rijndael). Also contains Base64 encoding/decoding API and some helper functions to make data transferable (called prepareData). Binaries do not depend on third-party tools or libraries but development will require cryptography libraries installed in system in order to compile.

It is fully compatible with OpenSSL. See interoperability.sh

Build Status (Master) Build Status (Develop) Version Documentation License

Options

Option Name Description
--version Display version information
-g Generate key
-e Encrypt the data
-d Decrypt the data
-s Sign the data
-v Verify the signed data
--aes Generate AES key (requires -g)
--key Symmetric key for encryption / decryption
--in-key Symmetric key for encryption / decryption file path
--iv Initializaion vector
--rsa Use RSA encryption/decryption
--zlib ZLib compression/decompression
--raw Raw output for rsa encrypted data
--base64 Tells ripe the data needs to be decoded before decryption (this can be used for decoding base64)
--hex Tells ripe the data is hex string
--clean (Only applicable when --base64 data provided) Tells ripe to clean the data before processing
--signature Signature for verifying the data
--in Input file. You can also pipe in the data. In that case you do not have to provide this parameter
--out Tells ripe to store encrypted data in specified file. (Outputs IV in console)
--length Specify key length
--secret Secret key for encrypted private key (RSA only)
--sha256 Generate SHA-256 hash
--hash Generate SHA-256 hash
--sha512 Generate SHA-512 hash

Getting Started

Dependencies

These are the requirements to build Ripe binaries.

Get Code

You can either download code from master branch or clone it using git:

git clone git@github.com:abumq/ripe.git

Build

Residue uses the CMake toolchains to create makefiles. Steps to build Ripe:

mkdir build
cd build
cmake ..
## Following line requires c++11 compiler and easylogging++
cmake -Dtest=ON ..
make

Please consider running unit test before you move on

make test

The compilation process creates executable (ripe) as well as shared libraries in build directory. You can install it in system-wide directory using:

make install

If the default path (/usr/local) is not where you want things installed, then set the CMAKE_INSTALL_PREFIX option when running cmake. e.g,

cmake .. -DCMAKE_INSTALL_PREFIX=/usr/bin

Static Linking

By default ripe builds as shared library, you can pass BUILD_SHARED_LIBS option in cmake to build static library.

For example

cmake -DBUILD_SHARED_LIBS=OFF ..
make

Windows

You can do cmake -Ddll_export=ON ... to export symbols and cmake -Ddll=ON ... to import if needed

If build fails...

Make sure you have read minimum requirements. You can install required Crypto++ v5.6.5 (with Pem Pack) using following commands

curl -O https://raw.githubusercontent.com/abumq/abumq.github.io/master/downloads/cryptocpp.tar.gz
tar xf cryptocpp.tar.gz
cd cryptopp-CRYPTOPP_5_6_5
curl -O https://raw.githubusercontent.com/abumq/abumq.github.io/master/downloads/pem_pack.zip
unzip pem_pack.zip
cmake .
make
make install

and Google Testing Library using

git clone https://github.com/google/googletest.git -b v1.13.0
cd googletest
mkdir build
cd build
cmake .. -DBUILD_GMOCK=OFF
make

and Easylogging++ using

curl -o easylogging++.zip https://github.com/abumq/easyloggingpp/archive/master.zip
unzip easylogging++.zip
cd easyloggingpp-master/
cmake -Dtest=ON .
make
./easyloggingpp-unit-tests
make install

If make install fails because of permission try to run it as super-user sudo make install

Examples

Encryption (AES)

Following command will encrypt sample.json file to be ready to send to the server.

echo "plain text" | ripe -e --key B1C8BFB9DA2D4FB054FE73047AE700BC

You can specify binary file as destination that will save only encrypted data, e.g,

echo "plain text" | ripe -e --key B1C8BFB9DA2D4FB054FE73047AE700BC --out sample.enc

Above command will provide you with IV that you can use to decrypt

Please note: If you do not provide --out, the output will base64 and it will have four parts. {LENGTH}:{IV}:{Client_ID}:{Base64_Encoded_Encrypted_Data}.

Decryption (AES)

Following command will decrypt hkz20HKQA491wZqbEctxCA== (plain text) that was supposedly encrypted using same key and init vector.

echo "hkz20HKQA491wZqbEctxCA==" | ripe -d --key B1C8BFB9DA2D4FB054FE73047AE700BC --iv 88505d29e8f56bbd7c9e1408f4f42240 --base64

You can also provide filename, e.g,

ripe -d --key B1C8BFB9DA2D4FB054FE73047AE700BC --in sample.enc --iv 88505d29e8f56bbd7c9e1408f4f42240

OR

echo 88505d29e8f56bbd7c9e1408f4f42240:hkz20HKQA491wZqbEctxCA== | ripe -d --key B1C8BFB9DA2D4FB054FE73047AE700BC --base64

Generate AES Key

Following command will generate 128-bit AES key

ripe -g --aes 256

Alternatively you can do

ripe -g --aes --length 256

Valid keys sizes: 128-bit, 192-bit, 256-bit

Generate RSA Key

Following command will produce random RSA key pair

ripe -g --rsa --out-private private.pem --out-public public.pem

Alternatively you can use

ripe -g --rsa

This will give you two base64 strings with : as separator. First encoded text is base64 of newly generated private key and second being newly generated corresponding public key.

If you wish to generate private RSA key, you can use --secret parameter, e.g,

ripe -g --rsa --out-private private.pem --out-public public.pem --secret ppks

Encryption (RSA)

You can encrypt the data using public key and decrypt with a private key

echo 'plain text' | ripe -e --rsa --in-key public.pem

You can also use --out /tmp/output.enc to save it to /tmp/output.enc file

You can also add --raw option to output raw data instead of base64 encoded

Ripe uses PKCS #1 v1.5 padding scheme

Decryption (RSA)

ripe -d --rsa --in-key private.pem --in /tmp/output.enc --base64

Please note, decryption (RSA) is unstable at the moment, you may use following alternative command until it's fixed

cat /tmp/output.enc | openssl rsautl -decrypt -inkey private.pem --base64

Ripe uses PKCS #1 v1.5 padding scheme

Encrypted Keys

If you have an RSA key that is encrypted with pass phrase, let's say

openssl genrsa -des3 -out private.pem 2048

extract public key: openssl rsa -in private.pem -outform PEM -pubout -out public.pem

You can use --secret to decrypt it

for example

Encrypt:

echo ff | ripe -e --rsa --in-key public.pem

Decrypt (pass phrase we chose was ppks):

ripe -d --rsa --in-key private.pem --base64 --secret ppks

Failing to provide --secret option will give you error:

ERROR: PEM_Load: RSA private key is encrypted

Signing

echo "my signed data" | ripe -s --rsa --in-key private.pem

Verify

echo "my signed data" | ripe -v --rsa --in-key public.pem --signature SIGNATURE

Base64 Encoding

You can use following commands to encode raw data to base64 encoding

echo 'plain text' | ripe -e --base64

Base64 Decoding

In order to decode you may use -d option instead

echo 'cGxhaW4gdGV4dAo=' | ripe -d --base64

Hex Encoding

You can use following to encode data to hex encoded string

echo 'plain text' | ripe -e --hex

Hex Decoding

Decoding hex can be done using -d option

echo 706c61696e2074657874 | ripe -d --hex

ZLib Compression

Compression using zlib can be done using -e option

echo abcd | ripe -e --zlib

You can provide --base64 to see base64 output e.g,

echo abcd | ripe -e --zlib --base64

Same with --hex (or both --base64 and --hex - in this case you will get base64 encoding of hex output)

ZLib Decompression

Decompression using zlib can be done using -d option

echo eNpLTEpOAQAD2AGL | ripe -d --zlib --base64

License

Copyright 2017-present @abumq (Majid Q.)

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

    http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.