[2606.26967] Protocol Prying: Systematic Vulnerability Research in the Apple AirDrop and Android Quick Share Proximity Transfer Protocols
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Computer Science > Cryptography and Security
arXiv:2606.26967 (cs)
[Submitted on 25 Jun 2026]
Title:Protocol Prying: Systematic Vulnerability Research in the Apple AirDrop and Android Quick Share Proximity Transfer Protocols
Authors:Arash Ale Ebrahim, Nils Ole Tippenhauer<br>View a PDF of the paper titled Protocol Prying: Systematic Vulnerability Research in the Apple AirDrop and Android Quick Share Proximity Transfer Protocols, by Arash Ale Ebrahim and 1 other authors
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Abstract:Apple AirDrop and Google/Samsung Quick Share are proximity file-transfer protocols used by over five billion devices, yet their application-layer security properties remain largely unstudied because both stacks are proprietary and undocumented. Both protocols are reachable from wireless proximity without any prior pairing and process complex serialized content (binary plists, CPIO archives, Protocol Buffers, UKEY2 handshakes) inside privileged daemons, making them attractive zero-click targets across multiple operating systems. We perform the first cross-platform reverse engineering and protocol-aware fuzzing study of both stacks. We reconstruct AirDrop's seven-layer state machine and DVZip adaptive compression from binary analysis, build AIRFUZZ, a protocol-aware fuzzer that mutates pre-compression representations, and complement it with targeted hand-written analyses of Samsung's Quick Share service and Google's Quick Share for Windows. We discover six vulnerabilities (V1-V6): three pre-authentication issues in macOS/iOS AirDrop (V1: Swift fatalError DoS in the HTTP path router; V2: unbounded XML plist recursion in Foundation; V3: NULL dereference in this http URL's HTTP/1.1 parser), two protocol-layer flaws in Samsung Quick Share (V4: pre-authentication OfflineFrame dispatch; V5: D2D encryption bypass for three frame types), and a heap use-after-free in Google Quick Share for Windows (V6) for which Google awarded a bounty. We responsibly disclosed all findings, and Apple, Samsung, and Google have acknowledged the reports.
Comments:<br>15 pages, 4 figures
Subjects:
Cryptography and Security (cs.CR)
Cite as:<br>arXiv:2606.26967 [cs.CR]
(or<br>arXiv:2606.26967v1 [cs.CR] for this version)
https://doi.org/10.48550/arXiv.2606.26967
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arXiv-issued DOI via DataCite (pending registration)
Submission history<br>From: Arash Ale Ebrahim [view email]<br>[v1]<br>Thu, 25 Jun 2026 12:40:13 UTC (2,523 KB)
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