| ====================== |
| sPAPR hypervisor calls |
| ====================== |
| |
| When used with the ``pseries`` machine type, ``qemu-system-ppc64`` implements |
| a set of hypervisor calls (a.k.a. hcalls) defined in the Linux on Power |
| Architecture Reference ([LoPAR]_) document. This document is a subset of the |
| Power Architecture Platform Reference (PAPR+) specification (IBM internal only), |
| which is what PowerVM, the IBM proprietary hypervisor, adheres to. |
| |
| The subset in LoPAR is selected based on the requirements of Linux as a guest. |
| |
| In addition to those calls, we have added our own private hypervisor |
| calls which are mostly used as a private interface between the firmware |
| running in the guest and QEMU. |
| |
| All those hypercalls start at hcall number 0xf000 which correspond |
| to an implementation specific range in PAPR. |
| |
| ``H_RTAS (0xf000)`` |
| =================== |
| |
| RTAS stands for Run-Time Abstraction Sercies and is a set of runtime services |
| generally provided by the firmware inside the guest to the operating system. It |
| predates the existence of hypervisors (it was originally an extension to Open |
| Firmware) and is still used by PAPR and LoPAR to provide various services that |
| are not performance sensitive. |
| |
| We currently implement the RTAS services in QEMU itself. The actual RTAS |
| "firmware" blob in the guest is a small stub of a few instructions which |
| calls our private H_RTAS hypervisor call to pass the RTAS calls to QEMU. |
| |
| Arguments: |
| |
| ``r3``: ``H_RTAS (0xf000)`` |
| |
| ``r4``: Guest physical address of RTAS parameter block. |
| |
| Returns: |
| |
| ``H_SUCCESS``: Successfully called the RTAS function (RTAS result will have |
| been stored in the parameter block). |
| |
| ``H_PARAMETER``: Unknown token. |
| |
| ``H_LOGICAL_MEMOP (0xf001)`` |
| ============================ |
| |
| When the guest runs in "real mode" (in powerpc terminology this means with MMU |
| disabled, i.e. guest effective address equals to guest physical address), it |
| only has access to a subset of memory and no I/Os. |
| |
| PAPR and LoPAR provides a set of hypervisor calls to perform cacheable or |
| non-cacheable accesses to any guest physical addresses that the |
| guest can use in order to access IO devices while in real mode. |
| |
| This is typically used by the firmware running in the guest. |
| |
| However, doing a hypercall for each access is extremely inefficient |
| (even more so when running KVM) when accessing the frame buffer. In |
| that case, things like scrolling become unusably slow. |
| |
| This hypercall allows the guest to request a "memory op" to be applied |
| to memory. The supported memory ops at this point are to copy a range |
| of memory (supports overlap of source and destination) and XOR which |
| is used by our SLOF firmware to invert the screen. |
| |
| Arguments: |
| |
| ``r3 ``: ``H_LOGICAL_MEMOP (0xf001)`` |
| |
| ``r4``: Guest physical address of destination. |
| |
| ``r5``: Guest physical address of source. |
| |
| ``r6``: Individual element size, defined by the binary logarithm of the |
| desired size. Supported values are: |
| |
| ``0`` = 1 byte |
| |
| ``1`` = 2 bytes |
| |
| ``2`` = 4 bytes |
| |
| ``3`` = 8 bytes |
| |
| ``r7``: Number of elements. |
| |
| ``r8``: Operation. Supported values are: |
| |
| ``0``: copy |
| |
| ``1``: xor |
| |
| Returns: |
| |
| ``H_SUCCESS``: Success. |
| |
| ``H_PARAMETER``: Invalid argument. |
