Ahoy, which is often associated with communicating to ships, has now been playfully adopted in pirate language.
We coin ‘Ahoi,’ an anagram of ‘Iago,’ to pay tribute to research on interface attacks with TEEs.
Confidential computing, also referred to as trusted execution, protects sensitive computations on public cloud platforms.
Hardware vendors provide trusted hardware that guarantees user code and data security from malicious actors.
Ahoi Attacks
Cloud providers now offer confidential computing via technologies like Intel SGX for process-level isolation and AMD SEV, Intel TDX, and ARM CCA for VM-level isolation as Confidential VMs (CVMs).
SGX enclaves isolate single processes from other processes/OS, while CVMs allow deploying entire isolated VMs inaccessible to other tenants, provider’s hardware/software like hypervisors.
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CVMs enable better cloud-native confidential computing abstraction than SGX’s process-level model.
Interrupt management is done almost entirely by the hypervisor in CVMs. CVM security can be breached by Ahoi attacks using notifications.
The hypervisor virtualizes the delivery of interrupts necessary for the operation of CVMs.
This hooks physical interrupts, redirects them to corresponding virtual machines, and raises virtual interrupts.
As a result, the guest OS within this CVM handles these interrupts via their handlers and ultimately acknowledges them.
The hardware exception is mapped in “x86” to the interrupts 0 through 31.
An example of this is when a divide-by-zero occurs and raises interrupt 0, which the OS converts to SIGFPE for user-space delivery.
Applying for a custom handler is like calculating the non-weighted average of SIGFPE.
Ahoi attacks have virtual CPUs that are attacked using a hypervisor to inject malicious interrupts into them, which helps invoke interrupt handlers globally.
Ahoi attacks can take advantage of the interrupts and signals, which were made for trusted hypervisor environments.
Projects like Heckler can demonstrate this, as they have demonstrated how to breach AMD SEV-SNP and Intel TDX to gain unauthorized access to CVMs.
Moreover, such vulnerabilities extend even up to specialized interrupt interfaces such as AMD SEV’s VMM Communication Exception (#VC) meant for safe hypervisor-CVM communication.
However, this interface can be used by hypervisors to perform malicious tasks that are executed without being caught by CVMs.
WeSee exploits AMD SEV-SNP’s flaws to do forbidden things on CVMs.
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