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VIT-Inspired Automated Vulnerability Repair
(Reproduction of Experiments)

VQM

VQM

Vision Transformer-Inspired Automated Vulnerability Repair

Table of contents

  1. How to reproduce
  2. License
  3. Citation

How to reproduce

Environment Setup

First of all, clone this repository to your local machine and access the main dir via the following command:

git clone https://github.com/awsm-research/VQM.git
cd VQM

Then, install the python dependencies via the following command:

pip install -r requirements.txt
cd VQM/transformers
pip install .
cd ../..

  • We highly recommend you check out this installation guide for the "torch" library so you can install the appropriate version on your device.

  • To utilize GPU (optional), you also need to install the CUDA library, you may want to check out this installation guide.

  • Python 3.9.7 is recommended, which has been fully tested without issues.

Reproduction of Experiments

Download necessary data and unzip via the following command:

cd data
sh download_data.sh 
cd ..

Reproduce Section 4 - RQ1

  • VQM (proposed approach)

    • Inference
    cd VQM/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ..
    • Retrain Localization Model
    cd VQM
sh run_pretrain_loc.sh
sh run_train_loc.sh
cd ..
    • Retrain Repair Model
    cd VQM
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ..

  • VulRepair

    • Inference
    cd baselines/VulRepair/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/VulRepair
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • TFix

    • Inference
    cd baselines/TFix/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/TFix
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • GraphCodeBERT

    • Inference
    cd baselines/GraphCodeBERT/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/GraphCodeBERT
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • CodeBERT

    • Inference
    cd baselines/CodeBERT/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/CodeBERT
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • VRepair

    • Inference
    cd baselines/VRepair/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/VRepair
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • SequenceR

    • Inference
    cd baselines/SequenceR/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd baselines/SequenceR
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

Reproduce Section 4 - RQ2 (Ablation - VQ and VM)

  • Vul Mask Encoder + Vul Mask Decoder (proposed approach - VQM)

    • Inference
    cd VQM/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ..
    • Retrain
    cd VQM
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ..

  • Vul Mask Encoder

    • Inference
    cd ablation_mask/Vul_mask_enc_only/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd ablation_mask/Vul_mask_enc_only/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • Vul Mask Decoder

    • Inference
    cd ablation_mask/Vul_mask_cross_only/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd ablation_mask/Vul_mask_enc_only/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

  • Perfect Mask Encoder + Perfect Mask Decoder

    • Inference
    cd ablation_mask/Vul_perfect_mask/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test.sh
cd ../..
    • Retrain
    cd ablation_mask/Vul_mask_enc_only/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_pretrain.sh
sh run_train.sh
sh run_test.sh
cd ../..

Reproduce Section 4 - RQ2 (Ablation - Pre-training on Bug-fix Data)

  • VQM (proposed approach)

    • Inference
    cd VQM/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ..

  • VulRepair

    • Inference
    cd baselines/VulRepair/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

  • TFix

    • Inference
    cd baselines/TFix/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

  • GraphCodeBERT

    • Inference
    cd baselines/GraphCodeBERT/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

  • CodeBERT

    • Inference
    cd baselines/CodeBERT/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

  • VRepair

    • Inference
    cd baselines/VRepair/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

  • SequenceR

    • Inference
    cd baselines/SequenceR/saved_models/checkpoint-best-loss
sh download_models.sh
cd ../..
sh run_test_no_bug.sh
cd ../..
    • Retrain
    sh run_train_no_bug.sh
sh run_test_no_bug.sh
cd ../..

License

MIT License

Citation

@article{fu2023vision,
  title={Vision Transformer-Inspired Automated Vulnerability Repair},
  author={Fu, Michael and Nguyen, Van and Tantithamthavorn, Chakkrit and Phung, Dinh and Le, Trung},
  journal={ACM Transactions on Software Engineering and Methodology},
  year={2023},
  publisher={ACM New York, NY}
}

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Vision Transformer-Inspired Automated Vulnerability Repair

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