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Data and Code for the paper, Knowledge-to-Jailbreak: One Knowledge Point Worth One Attack.

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Knowledge to JailBreak


Data and Code for the paper, Knowledge-to-Jailbreak: One Knowledge Point Worth One Attack.

Paper Pretrained Models

How to generate training data


Our original data is saved in the data folder.

Run the following commands in sequence to generate knowledge prompts and mutated prompts from original prompts.

# Generate responses to raw prompts.
python3 1_gen_origin_response.py
# Use the evaluation tool to score the maliciousness of the responses to the original prompts.
python3 2_gen_origin_response_score.py
# Find the most similar knowledge for each prompt.
python3 3_1_find_knowledge_for_prompt.py
# Add subject labels to prompts.
python3 3_2_tag_subject_for_prompt.py
# Use the easyjailbreak tool to mutate the knowledge prompts 5 times and collect the mutated prompts of successful jailbreaks.
python3 4_mutate_to_jailbreak.py

Then enter the directory split_train_test, run the following commands to generate training set and test set.

cd split_train_test

python3 simplify.py
python3 split.py

Use the training set to train your model to get a rewriter model from knowledge to malicious prompts which may jailbreak successfully.

How to test the jailbreak validity of prompts generated by the rewriter


Generate response

Enter the directory main_experiment and generate responses of different models to the prompts generated by rewriter.

# Get original prompts, knowledge prompts and generated prompts.
python3 get_all_test_prompt

Generate responses of local model (llama-7b, vicuna-7b, etc):

  • Enter the directory tools, and locate the GenerationArguments class in the inference_models.py file and select the local model you need.
      class GenerationArguments:
          # model_name: str = field(default="/data2/tsq/WaterBench/data/models/llama-2-7b-chat-hf", metadata={"help": "The model name or path"})
          # model_name: str = field(default="/data3/MODELS/llama2-hf/llama-2-13b-chat", metadata={"help": "The model name or path"})
          # model_name: str = field(default="/data3/MODELS/vicuna-7b-v1.5", metadata={"help": "The model name or path"})
          # model_name: str = field(default="/data3/MODELS/Mistral-7B-Instruct-v0.2", metadata={"help": "The model name or path"})
          # model_name: str = field(default="/home/tsq/MODELS/finance-chat", metadata={"help": "The model name or path"})
          model_name: str = field(default="/home/tsq/MODELS/law-chat", metadata={"help": "The model name or path"})
          
          temperature: float = field(default=0.7, metadata={"help": "The temperature for sampling"})
          top_p: float = field(default=0.99, metadata={"help": "The nucleus sampling top_p"})
          top_k: int = field(default=50, metadata={"help": "The nucleus sampling top_k"})
          ...
  • Run test_local_model.py in the main_experiment folder
    python3 test_local_model.py

Generate responses of remote model (GPT-4, GPT-3.5, etc):

  • Locate the get_response function in the test_remote_model.py folder and select the model you want to test.
      model_names = ["gpt-4", "gpt-4-0613", "gpt-4-1106-preview", "gpt-3.5-turbo", "gpt-3.5-turbo-0613", "gpt-3.5-turbo-1106"]
      url = "https://chatapi.onechats.top/v1"
      api_key = "sk-ERMje880txuZZ3XTE226B89902Eb4631B26676A682698291"
      client = OpenAI(base_url=url, api_key=api_key)
    
      def get_response(prompt):
          response = client.chat.completions.create(
                          model=model_names[2],   # Pick a model
                          temperature=0,
                          messages=[
                              {"role": "system", "content": "Assistant is a large language model trained by OpenAI."},
                              {"role": "user", "content": prompt}
                          ]
                      )
          return response.choices[0].message.content
  • Run test_remote_model.py
    python3 test_remote_model.py

Generate harm score of response

Enter the directory harm_score. Run gen_harm_score.py to score the harm level of responses generated by each model.

python3 gen_harm_score.py

Run fill_table.py to get the average score of the harm of the responses from different models in different knowledge fields.

python3 fill_table.py

Generate ASR to models

Enter the directory cal_ASR. Run gen_ASR.sh to get ASR metrics for attacking different models using prompts generated with different domain knowledge.

./gen_ASR.sh

Run gen_ASR.py to get a summary of these ASRs

python3 gen_ASR.py

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Data and Code for the paper, Knowledge-to-Jailbreak: One Knowledge Point Worth One Attack.

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