Power Side Channels in Security ICs: Hardware Countermeasures

Power side-channel attacks are a very effective cryptanalysis technique that can infer secret keys of security ICs by monitoring the power consumption. Since the emergence of practical attacks in the late 90s, they have been a major threat to many cryptographic-equipped devices including smart cards, encrypted FPGA designs, and mobile phones. Designers and manufacturers of cryptographic devices have in response developed various countermeasures for protection. Attacking methods have also evolved to counteract resistant implementations. This paper reviews foundational power analysis attack techniques and examines a variety of hardware design mitigations. The aim is to highlight exposed vulnerabilities in hardware-based countermeasures for future more secure implementations

An Overview of Parallel Symmetric Cipher of Messages

مقدمة: على الرغم من التطورات الهامة في الاتصالات والتكنولوجيا، فقد أثبتت حماية البيانات نفسها كواحدة من أكبر الاهتمامات. يجب تشفير البيانات من أجل الارتباط بشكل آمن وسريع من خلال نقل البيانات التكنولوجية على شبكة الإنترنت. يمكن تعريف عملية التشفير بانها تحويل النص العادي إلى نص مشفر لا يمكن قراءته أو تغييره بواسطة الأشخاص المؤذيين.            طرق العمل: من أجل الحفاظ على الدرجة المطلوبة من الأمان ، استغرقت كل من عمليات تحليل التشفير وفك التشفير وقتًا طويلاً. ومع ذلك, من أجل تقليل مقدار الوقت المطلوب لإكمال عمليات التشفير وفك التشفير، طبق العديد من الباحثين طريقة التشفير بطريقة موازية. لقد كشف البحث الذي تم إجراؤه حول المشكلة عن العديد من الإجابات المحتملة. استخدم الباحثون التوازي لتحسين إنتاجية خوارزمياتهم، مما سمح لهم بتحقيق مستويات أداء أعلى في خوارزمية التشفير.                             النتائج: أظهرت الأبحاث الحديثة حول تقنيات التشفير المتوازي أن وحدات معالجة الرسومات (GPUs) تعمل بشكل أفضل من الأنظمة الأساسية المتوازية الأخرى عند مقارنة مستويات أداء التشفير.   الاستنتاجات: لإجراء بحث مقارنة حول أهم خوارزميات التشفير المتوازية من حيث فعالية أمن البيانات وطول المفتاح والتكلفة والسرعة، من بين أمور أخرى. تستعرض هذه الورقة العديد من الخوارزميات المتوازية الهامة المستخدمة في تشفير البيانات وفك تشفيرها في جميع التخصصات. ومع ذلك، يجب النظر في معايير أخرى لإظهار مصداقية أي تشفير. تعتبر اختبارات العشوائية مهمة جدًا لاكتشافها وتم تسليط الضوء عليها في هذه الدراسة.                                                              Background: Despite significant developments in communications and technology, data protection has established itself as one of the biggest concerns. The data must be encrypted in order to link securely, quickly through web-based technological data transmission. Transforming plain text into ciphered text that cannot be read or changed by malicious people is the process of encryption. Materials and Methods: In order to maintain the required degree of security, both the cryptanalysis and decryption operations took a significant amount of time. However, in order to cut down on the amount of time required for the encryption and decryption operations to be completed, several researchers implemented the cryptography method in a parallel fashion. The research that has been done on the problem has uncovered several potential answers. Researchers used parallelism to improve the throughput of their algorithms, which allowed them to achieve higher performance levels on the encryption algorithm. Results: Recent research on parallel encryption techniques has shown that graphics processing units (GPUs) perform better than other parallel platforms when comparing their levels of encryption performance. Conclusion: To carry out comparison research on the most significant parallel crypto algorithms in terms of data security efficacy, key length, cost, and speed, among other things. This paper reviews various significant parallel algorithms used for data encryption and decryption in all disciplines. However, other criteria must be considered in order to show the trustworthiness of any encryption. Randomness tests are very important to discover and are highlighted in this study

Recent Advancements on Symmetric Cryptography Techniques -A Comprehensive Case Study

Now a day2019;s Cryptography is one of the broad areas for researchers; because of the conventional block cipher has lost its potency due to the sophistication of modern systems that can break it by brute force. Due to its importance, several cryptography techniques and algorithms are adopted by many authors to secure the data, but still there is a scope to improve the previous approaches. For this necessity, we provide the comprehensive survey which will help the researchers to provide better techniques

CacheZoom: How SGX Amplifies The Power of Cache Attacks

In modern computing environments, hardware resources are commonly shared, and parallel computation is widely used. Parallel tasks can cause privacy and security problems if proper isolation is not enforced. Intel proposed SGX to create a trusted execution environment within the processor. SGX relies on the hardware, and claims runtime protection even if the OS and other software components are malicious. However, SGX disregards side-channel attacks. We introduce a powerful cache side-channel attack that provides system adversaries a high resolution channel. Our attack tool named CacheZoom is able to virtually track all memory accesses of SGX enclaves with high spatial and temporal precision. As proof of concept, we demonstrate AES key recovery attacks on commonly used implementations including those that were believed to be resistant in previous scenarios. Our results show that SGX cannot protect critical data sensitive computations, and efficient AES key recovery is possible in a practical environment. In contrast to previous works which require hundreds of measurements, this is the first cache side-channel attack on a real system that can recover AES keys with a minimal number of measurements. We can successfully recover AES keys from T-Table based implementations with as few as ten measurements.Comment: Accepted at Conference on Cryptographic Hardware and Embedded Systems (CHES '17