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<!DOCTYPE html>
<html>
<head>
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<meta charset="utf-8" />
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<title>Journey to the WEST</title>
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<div>
<h1>
Journey to the WEST11
</h1>
<p>
Language models for code (CodeLMs) have
emerged as powerful tools
for code-related tasks, outperforming traditional methods and standard
machine learning approaches.
</p>
<div class="">
<a href="">
Contact us
</a>
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<h2>
welcome to
</h2>
<h1>
Security of LM4Code
</h1>
<p>
However, these models are susceptible to security vulnerabilities,
drawing increasing research attention from domains such as software engineering,
artificial intelligence, and cybersecurity.
Despite the growing body of research focused on the security of
CodeLMs, a comprehensive survey in this area remains absent.
</p>
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welcome to
</h2>
<h1>
Security of LM4Code
</h1>
<p>
To address this gap, we systematically review relevant papers,
organizing them based on attack and defense strategies.
Furthermore, we provide an overview of commonly used language models, datasets,
and evaluation metrics, and highlight open-source
tools and promising directions for future research in securing CodeLMs.
</p>
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<h1>Journey to the WEST</h1>
<p>(trustWorthy intElligent Software developmenT)</p>
<img src="htmls/images/class1_papers/OVERVIEW.png" alt="描述图片内容" style="max-width: 40%; height: auto;">
<div class="additional-text">
The objective of the proposed research is to develop a next-generation Knowledge-Driven Intelligent Software Engineering platform, powered by specialized large language model (LLM) agents. These agents will automate and optimize key activities in the software development lifecycle, such as Requirement Analysis, Architecture Design, Coding, Testing/Security, and Verification. Each agent will be enhanced with domain-specific knowledge (e.g. Java Web development knowledge), enabling it to perform tasks traditionally managed by human experts.
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Paper Class One
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Agent For SE
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Paired SE Data
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Publications
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<a href="https://arxiv.org/abs/2305.17506"><img src="htmls/images/recent_papers/BadCode.png" alt=""></a>
</div>
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<h5>
Backdooring Neural Code Search
</h5>
<!-- <img src="htmls/images/quote.png" alt=""> -->
<p>
Reusing off-the-shelf code snippets from online repositories is a common practice,
which significantly enhances the productivity of software developers.
To find desired code snippets, developers resort to code search engines through
natural language queries. Neural code search models are hence behind many such engines.
These models are based on deep learning and gain substantial attention due to their impressive
performance. However, the security aspect of these models is rarely studied.
Particularly, an adversary can inject a backdoor in neural code search models,
which return buggy or even vulnerable code with security/privacy issues.
This may impact the downstream software (e.g., stock trading systems and autonomous driving)
and cause financial loss and/or life-threatening incidents. In this paper,
we demonstrate such attacks are feasible and can be quite stealthy.
By simply modifying one variable/function name, the attacker can make
buggy/vulnerable code rank in the top 11%. Our attack BADCODE features a
special trigger generation and injection procedure, making the attack more
effective and stealthy. The evaluation is conducted on two neural code search
models and the results show our attack outperforms baselines by 60%. Our user
study demonstrates that our attack is more stealthy than the baseline by two times based on the F1 score.
</p>
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<a href="https://arxiv.org/abs/2410.02841"><img src="htmls/images/recent_papers/DICE.png" alt=""></a>
</div>
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<h5>
Demonstration Attack against In-Context Learning for Code Intelligence
</h5>
<!-- <img src="htmls/images/quote.png" alt=""> -->
<p>
Recent advancements in large language models (LLMs) have revolutionized code intelligence
by improving programming productivity and alleviating challenges faced by software developers.
To further improve the performance of LLMs on specific code intelligence tasks and reduce training
costs, researchers reveal a new capability of LLMs: in-context learning (ICL). ICL allows LLMs to
learn from a few demonstrations within a specific context, achieving impressive results without
parameter updating. However, the rise of ICL introduces new security vulnerabilities in the
code intelligence field. In this paper, we explore a novel security scenario based on the
ICL paradigm, where attackers act as third-party ICL agencies and provide users with bad ICL
content to mislead LLMs outputs in code intelligence tasks. Our study demonstrates the feasibility
and risks of such a scenario, revealing how attackers can leverage malicious demonstrations to
construct bad ICL content and induce LLMs to produce incorrect outputs, posing significant threats
to system security. We propose a novel method to construct bad ICL content called DICE, which is
composed of two stages: Demonstration Selection and Bad ICL Construction, constructing targeted bad
ICL content based on the user query and transferable across different query inputs. Ultimately, our
findings emphasize the critical importance of securing ICL mechanisms to protect code intelligence
systems from adversarial manipulation.
</p>
</div>
</div>
</div>
<div class="item">
<div class="box">
<div class="img-box">
<a href="https://arxiv.org/abs/2408.04683"><img src="htmls/images/recent_papers/EliBadcode.png" alt=""></a>
</div>
<div class="detail-box">
<h5>
Eliminating Backdoors in Neural Code Models via Trigger Inversion
</h5>
<!-- <img src="htmls/images/quote.png" alt=""> -->
<p>
Neural code models (NCMs) have been widely used for addressing various code understanding tasks,
such as defect detection and clone detection. However, numerous recent studies reveal that such
models are vulnerable to backdoor attacks. Backdoored NCMs function normally on normal code snippets,
but exhibit adversary-expected behavior on poisoned code snippets injected with the adversary-crafted
trigger. It poses a significant security threat. For example, a backdoored defect detection model may
misclassify user-submitted defective code as non-defective. If this insecure code is then integrated
into critical systems, like autonomous driving systems, it could lead to life safety. However, there
is an urgent need for effective defenses against backdoor attacks targeting NCMs.
To address this issue, in this paper, we innovatively propose a backdoor defense technique based
on trigger inversion, called EliBadCode. EliBadCode first filters the model vocabulary for trigger
tokens to reduce the search space for trigger inversion, thereby enhancing the efficiency of the
trigger inversion. Then, EliBadCode introduces a sample-specific trigger position identification
method, which can reduce the interference of adversarial perturbations for subsequent trigger inversion,
thereby producing effective inverted triggers efficiently. Subsequently, EliBadCode employs a Greedy
Coordinate Gradient algorithm to optimize the inverted trigger and designs a trigger anchoring method
to purify the inverted trigger. Finally, EliBadCode eliminates backdoors through model unlearning.
We evaluate the effectiveness of EliBadCode in eliminating backdoor attacks against multiple NCMs used
for three safety-critical code understanding tasks. The results demonstrate that EliBadCode can
effectively eliminate backdoors while having minimal adverse effects on the normal functionality of the model.
</p>
</div>
</div>
</div>
<!-- <div class="item">
<div class="box">
<div class="img-box">
<a href="https://jos.org.cn/jos/article/abstract/nL021"><img src="htmls/images/recent_papers/EliBadcode.png" alt=""></a>
</div>
<div class="detail-box">
<h5>
深度代码模型安全综述
</h5>
<p>
With the significant success of deep learning technology in fields such as computer vision
and natural language processing, software engineering researchers have begun to explore its
integration into solving software engineering tasks. Existing research results indicate that
deep learning technology exhibits advantages in various software code-related tasks, such as
code retrieval and code summarization, that traditional methods and machine learning approaches
cannot match. These deep learning models, trained for code-related tasks, are collectively referred
to as deep code models. However, similar to natural language processing and image processing models,
deep code model security faces numerous challenges due to the vulnerability and lack of interpretability
of neural networks. It has become a focal point in the field of software engineering. In recent years,
researchers have proposed numerous attack and defense methods specific to deep code models.
Nevertheless, there is currently a lack of a systematic review of security research on deep code models,
hindering rapid understanding of the field for subsequent researchers. To address this gap and provide
a comprehensive overview of the current state, challenges, and latest research findings in this field,
this paper collected 32 relevant papers and categorized existing research results into two main classes:
backdoor attacks and defense techniques, and adversarial attacks and defense techniques.
The paper systematically organizes and summarizes the collected papers based on different
technological categories. Subsequently, the paper outlines commonly used experimental datasets
and evaluation metrics in this field. Finally, the paper analyzes key challenges faced by this
field and suggests feasible future research directions, aiming to provide valuable guidance for
further advancing the security of deep code.
</p>
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