Fallout: Leaking Data on Meltdown-resistant CPUs

Claudio Alberto Canella; Daniel Genkin; Lukas Giner; Daniel Gruß; Moritz Lipp; Marina Minkin; Daniel Moghimi; Frank Piessens; Michael Schwarz; Berk Sunar; Jo Van Bulck; Yuval Yarom

doi:10.1145/3319535.3363219

Fallout: Leaking Data on Meltdown-resistant CPUs

Claudio Alberto Canella, Daniel Genkin, Lukas Giner, Daniel Gruß, Moritz Lipp, Marina Minkin, Daniel Moghimi, Frank Piessens, Michael Schwarz, Berk Sunar, Jo Van Bulck, Yuval Yarom

Institut für Angewandte Informationsverarbeitung und Kommunikationstechnologie (7050)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Meltdown and Spectre enable arbitrary data leakage from memory via various side channels. Short-term software mitigations for Meltdown are only a temporary solution with a significant performance overhead. Due to hardware fixes, these mitigations are disabled on recent processors.

In this paper, we show that Meltdown-like attacks are still possible on recent CPUs which are not vulnerable to Meltdown. We identify two behaviors of the store buffer, a microarchitectural resource to reduce the latency for data stores, that enable powerful attacks. The first behavior, Write Transient Forwarding forwards data from stores to subsequent loads even when the load address differs from that of the store. The second, Store-to-Leak exploits the interaction between the TLB and the store buffer to leak metadata on store addresses. Based on these, we develop multiple attacks and demonstrate data leakage, control flow recovery, and attacks on ASLR. Our paper shows that Meltdown-like attacks are still possible, and software fixes with potentially significant performance overheads are still necessary to ensure proper isolation between the kernel and user space.

Originalsprache	englisch
Titel	CCS 2019 - Proceedings of the 2019 ACM SIGSAC Conference on Computer and Communications Security
Herausgeber (Verlag)	ACM/IEEE
Seiten	769-784
Seitenumfang	15
ISBN (elektronisch)	978-1-4503-6747-9
DOIs	https://doi.org/10.1145/3319535.3363219
Publikationsstatus	Veröffentlicht - 12 Nov. 2019
Veranstaltung	26th ACM Conference on Computer and Communications Security: ACM CCS 2019 - London, Großbritannien / Vereinigtes Königreich Dauer: 11 Nov. 2019 → 15 Nov. 2019

Konferenz

Konferenz	26th ACM Conference on Computer and Communications Security
Land/Gebiet	Großbritannien / Vereinigtes Königreich
Ort	London
Zeitraum	11/11/19 → 15/11/19

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10.1145/3319535.3363219

falloutAkzeptiertes Autorenmanuskript, 815 KB

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Mangard, S., Glanzer, C., Görtschacher, L. J., Bösch, W., Grosinger, J., Fischbacher, R. B., Deutschmann, B. & Shetty, D.
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Canella, C. A., Genkin, D., Giner, L., Gruß, D., Lipp, M., Minkin, M., Moghimi, D., Piessens, F., Schwarz, M., Sunar, B., Bulck, J. V., & Yarom, Y. (2019). Fallout: Leaking Data on Meltdown-resistant CPUs. in CCS 2019 - Proceedings of the 2019 ACM SIGSAC Conference on Computer and Communications Security (S. 769-784). ACM/IEEE. https://doi.org/10.1145/3319535.3363219

Canella, CA, Genkin, D, Giner, L , Gruß, D, Lipp, M, Minkin, M, Moghimi, D, Piessens, F, Schwarz, M, Sunar, B, Bulck, JV & Yarom, Y 2019, Fallout: Leaking Data on Meltdown-resistant CPUs. in CCS 2019 - Proceedings of the 2019 ACM SIGSAC Conference on Computer and Communications Security. ACM/IEEE, S. 769-784, 26th ACM Conference on Computer and Communications Security, London, Großbritannien / Vereinigtes Königreich, 11/11/19. https://doi.org/10.1145/3319535.3363219

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title = "Fallout: Leaking Data on Meltdown-resistant CPUs",

abstract = "Meltdown and Spectre enable arbitrary data leakage from memory via various side channels. Short-term software mitigations for Meltdown are only a temporary solution with a significant performance overhead. Due to hardware fixes, these mitigations are disabled on recent processors.In this paper, we show that Meltdown-like attacks are still possible on recent CPUs which are not vulnerable to Meltdown. We identify two behaviors of the store buffer, a microarchitectural resource to reduce the latency for data stores, that enable powerful attacks. The first behavior, Write Transient Forwarding forwards data from stores to subsequent loads even when the load address differs from that of the store. The second, Store-to-Leak exploits the interaction between the TLB and the store buffer to leak metadata on store addresses. Based on these, we develop multiple attacks and demonstrate data leakage, control flow recovery, and attacks on ASLR. Our paper shows that Meltdown-like attacks are still possible, and software fixes with potentially significant performance overheads are still necessary to ensure proper isolation between the kernel and user space.",

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AU - Canella, Claudio Alberto

AU - Genkin, Daniel

AU - Giner, Lukas

AU - Gruß, Daniel

AU - Lipp, Moritz

AU - Minkin, Marina

AU - Moghimi, Daniel

AU - Piessens, Frank

AU - Schwarz, Michael

AU - Sunar, Berk

AU - Bulck, Jo Van

AU - Yarom, Yuval

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N2 - Meltdown and Spectre enable arbitrary data leakage from memory via various side channels. Short-term software mitigations for Meltdown are only a temporary solution with a significant performance overhead. Due to hardware fixes, these mitigations are disabled on recent processors.In this paper, we show that Meltdown-like attacks are still possible on recent CPUs which are not vulnerable to Meltdown. We identify two behaviors of the store buffer, a microarchitectural resource to reduce the latency for data stores, that enable powerful attacks. The first behavior, Write Transient Forwarding forwards data from stores to subsequent loads even when the load address differs from that of the store. The second, Store-to-Leak exploits the interaction between the TLB and the store buffer to leak metadata on store addresses. Based on these, we develop multiple attacks and demonstrate data leakage, control flow recovery, and attacks on ASLR. Our paper shows that Meltdown-like attacks are still possible, and software fixes with potentially significant performance overheads are still necessary to ensure proper isolation between the kernel and user space.

AB - Meltdown and Spectre enable arbitrary data leakage from memory via various side channels. Short-term software mitigations for Meltdown are only a temporary solution with a significant performance overhead. Due to hardware fixes, these mitigations are disabled on recent processors.In this paper, we show that Meltdown-like attacks are still possible on recent CPUs which are not vulnerable to Meltdown. We identify two behaviors of the store buffer, a microarchitectural resource to reduce the latency for data stores, that enable powerful attacks. The first behavior, Write Transient Forwarding forwards data from stores to subsequent loads even when the load address differs from that of the store. The second, Store-to-Leak exploits the interaction between the TLB and the store buffer to leak metadata on store addresses. Based on these, we develop multiple attacks and demonstrate data leakage, control flow recovery, and attacks on ASLR. Our paper shows that Meltdown-like attacks are still possible, and software fixes with potentially significant performance overheads are still necessary to ensure proper isolation between the kernel and user space.

KW - side-channel attack

KW - Meltdown

KW - Spectre

KW - store buffer

KW - store-to-load

U2 - 10.1145/3319535.3363219

DO - 10.1145/3319535.3363219

M3 - Conference paper

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EP - 784

BT - CCS 2019 - Proceedings of the 2019 ACM SIGSAC Conference on Computer and Communications Security

PB - ACM/IEEE

T2 - 26th ACM Conference on Computer and Communications Security

Y2 - 11 November 2019 through 15 November 2019

ER -

Fallout: Leaking Data on Meltdown-resistant CPUs

Abstract

Konferenz

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Leakage-Free - Hardware-Software Informationsflussanalyse für Leckagefreie Code-Generierung

Espresso - Skalierbare hardware-gesicherte authentifizierung und Personalisierung intelligenter Sensorknoten

Dessnet - Zuverlässige, sichere und zeitnahe Sensornetzwerke

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