awesome-executable-packing
A curated list of awesome resources related to executable packing
https://github.com/packing-box/awesome-executable-packing
Last synced: 9 days ago
JSON representation
-
:books: Literature
-
Scientific Research
- Evading packing detection: Breaking heuristic-based static detectors
- Experimental toolkit for manipulating executable packing
- Fast and robust fixed-point algorithms for independent component analysis
- Fileprints: Identifying file types by n-gram analysis
- A fine-grained classification approach for the packed malicious code
- Functionality-preserving black-box optimization of adversarial windows malware
- Generic black-box end-to-end attack against state of the art API call based malware classifiers
- Generic unpacking method based on detecting original entry point
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Adversarial EXEmples: A survey and experimental evaluation of practical attacks on machine learning for windows malware detection
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Binary-code obfuscations in prevalent packer tools
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- Certified robustness of static deep learning-based malware detectors against patch and append attacks
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Advanced preprocessing of binary executable files and its usage in retargetable decompilation
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- Certified robustness of static deep learning-based malware detectors against patch and append attacks
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Automated static analysis of virtual-machine packers
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Adversarial attacks against windows PE malware detection: A survey of the state-of-the-art
- All-in-one framework for detection, unpacking, and verification for malware analysis
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Building a malware mutation tool
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Collective classification for packed executable identification
- A comparative assessment of malware classification using binary texture analysis and dynamic analysis
- Deceiving end-to-end deep learning malware detectors using adversarial examples
- Deceiving portable executable malware classifiers into targeted misclassification with practical adversarial examples
- Denial-of-service attacks on host-based generic unpackers
- Detecting traditional packers, decisively
- Detection of packed malware
- DexHunter: Toward extracting hidden code from packed Android applications
- An efficient algorithm to extract control flow-based features for ioT malware detection
- Efficient and automatic instrumentation for packed binaries
- ELF-Miner: Using structural knowledge and data mining methods to detect new (Linux) malicious executables
- Entropy analysis to classify unknown packing algorithms for malware detection
- ESCAPE: Entropy score analysis of packed executable
- Ether: Malware analysis via hardware virtualization extensions
- Evading packing detection: Breaking heuristic-based static detectors
- Experimental toolkit for manipulating executable packing
- Exploring adversarial examples in malware detection
- Feature selection for packer classification based on association rule mining
- File packing from the malware perspective: Techniques, analysis approaches, and directions for enhancements
- A fine-grained classification approach for the packed malicious code
- Generic black-box end-to-end attack against state of the art API call based malware classifiers
- Generic unpacking method based on detecting original entry point
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Denial-of-service attacks on host-based generic unpackers
- Detecting traditional packers, decisively
- DexHunter: Toward extracting hidden code from packed Android applications
- Efficient and automatic instrumentation for packed binaries
- Entropy analysis to classify unknown packing algorithms for malware detection
- Evading packing detection: Breaking heuristic-based static detectors
- Experimental toolkit for manipulating executable packing
- A fine-grained classification approach for the packed malicious code
- Generic black-box end-to-end attack against state of the art API call based malware classifiers
- Generic unpacking method based on detecting original entry point
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Denial-of-service attacks on host-based generic unpackers
- Detecting traditional packers, decisively
- DexHunter: Toward extracting hidden code from packed Android applications
- Efficient and automatic instrumentation for packed binaries
- Entropy analysis to classify unknown packing algorithms for malware detection
- Evading packing detection: Breaking heuristic-based static detectors
- Experimental toolkit for manipulating executable packing
- A fine-grained classification approach for the packed malicious code
- Generic black-box end-to-end attack against state of the art API call based malware classifiers
- Generic unpacking method based on detecting original entry point
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Denial-of-service attacks on host-based generic unpackers
- Detecting traditional packers, decisively
- DexHunter: Toward extracting hidden code from packed Android applications
- Efficient and automatic instrumentation for packed binaries
- Entropy analysis to classify unknown packing algorithms for malware detection
- Evading packing detection: Breaking heuristic-based static detectors
- Experimental toolkit for manipulating executable packing
- A fine-grained classification approach for the packed malicious code
- Generic black-box end-to-end attack against state of the art API call based malware classifiers
- Generic unpacking method based on detecting original entry point
- 2-SPIFF: A 2-stage packer identification method based on function call graph and file attributes
- Anti-emulation trends in modern packers: A survey on the evolution of anti-emulation techniques in UPA packers
- AppSpear: Bytecode decrypting and DEX reassembling for packed Android malware
- Assessing static and dynamic features for packing detection
- BitBlaze: A new approach to computer security via binary analysis
- Denial-of-service attacks on host-based generic unpackers
- Detecting traditional packers, decisively
-
Programming Languages
Categories
Sub Categories
Keywords
malware-analysis
11
malware-research
9
reverse-engineering
9
binary-analysis
6
python
5
malware
5
machine-learning
4
pe-file
4
packer
4
unpacker
4
security
3
windows
3
pe-format
3
dotnet
3
elf
3
android
3
elf-binaries
3
upx
3
malware-packers
3
executable-packing
3
pe
2
samples
2
yara
2
packers
2
pe-files
2
portable-executable
2
elf-format
2
c
2
malware-detection
2
x86-64
2
qemu
2
dataset
2
pefile
2
mach-o
2
analysis
2
encryption
2
lief
2
disassembler
2
deobfuscator
2
malware-samples
2
dumper
2
entropy
2
malwareanalysis
2
static-analysis
1
windowsdriver
1
dnlib
1
aarch64
1
arm
1
decompile
1
decompiler
1