| .. SPDX-License-Identifier: GPL-2.0 |
| |
| ====================================== |
| s390 (IBM Z) Boot/IPL of Protected VMs |
| ====================================== |
| |
| Summary |
| ------- |
| The memory of Protected Virtual Machines (PVMs) is not accessible to |
| I/O or the hypervisor. In those cases where the hypervisor needs to |
| access the memory of a PVM, that memory must be made accessible. |
| Memory made accessible to the hypervisor will be encrypted. See |
| Documentation/virt/kvm/s390-pv.rst for details." |
| |
| On IPL (boot) a small plaintext bootloader is started, which provides |
| information about the encrypted components and necessary metadata to |
| KVM to decrypt the protected virtual machine. |
| |
| Based on this data, KVM will make the protected virtual machine known |
| to the Ultravisor (UV) and instruct it to secure the memory of the |
| PVM, decrypt the components and verify the data and address list |
| hashes, to ensure integrity. Afterwards KVM can run the PVM via the |
| SIE instruction which the UV will intercept and execute on KVM's |
| behalf. |
| |
| As the guest image is just like an opaque kernel image that does the |
| switch into PV mode itself, the user can load encrypted guest |
| executables and data via every available method (network, dasd, scsi, |
| direct kernel, ...) without the need to change the boot process. |
| |
| |
| Diag308 |
| ------- |
| This diagnose instruction is the basic mechanism to handle IPL and |
| related operations for virtual machines. The VM can set and retrieve |
| IPL information blocks, that specify the IPL method/devices and |
| request VM memory and subsystem resets, as well as IPLs. |
| |
| For PVMs this concept has been extended with new subcodes: |
| |
| Subcode 8: Set an IPL Information Block of type 5 (information block |
| for PVMs) |
| Subcode 9: Store the saved block in guest memory |
| Subcode 10: Move into Protected Virtualization mode |
| |
| The new PV load-device-specific-parameters field specifies all data |
| that is necessary to move into PV mode. |
| |
| * PV Header origin |
| * PV Header length |
| * List of Components composed of |
| * AES-XTS Tweak prefix |
| * Origin |
| * Size |
| |
| The PV header contains the keys and hashes, which the UV will use to |
| decrypt and verify the PV, as well as control flags and a start PSW. |
| |
| The components are for instance an encrypted kernel, kernel parameters |
| and initrd. The components are decrypted by the UV. |
| |
| After the initial import of the encrypted data, all defined pages will |
| contain the guest content. All non-specified pages will start out as |
| zero pages on first access. |
| |
| |
| When running in protected virtualization mode, some subcodes will result in |
| exceptions or return error codes. |
| |
| Subcodes 4 and 7, which specify operations that do not clear the guest |
| memory, will result in specification exceptions. This is because the |
| UV will clear all memory when a secure VM is removed, and therefore |
| non-clearing IPL subcodes are not allowed. |
| |
| Subcodes 8, 9, 10 will result in specification exceptions. |
| Re-IPL into a protected mode is only possible via a detour into non |
| protected mode. |
| |
| Keys |
| ---- |
| Every CEC will have a unique public key to enable tooling to build |
| encrypted images. |
| See `s390-tools <https://github.com/ibm-s390-linux/s390-tools/>`_ |
| for the tooling. |