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mirror of https://github.com/edk2-porting/linux-next.git synced 2024-12-21 11:44:01 +08:00
linux-next/Documentation/powerpc/papr_hcalls.rst
Linus Torvalds c70a4be130 powerpc updates for 5.13
- Enable KFENCE for 32-bit.
 
  - Implement EBPF for 32-bit.
 
  - Convert 32-bit to do interrupt entry/exit in C.
 
  - Convert 64-bit BookE to do interrupt entry/exit in C.
 
  - Changes to our signal handling code to use user_access_begin/end() more extensively.
 
  - Add support for time namespaces (CONFIG_TIME_NS)
 
  - A series of fixes that allow us to reenable STRICT_KERNEL_RWX.
 
  - Other smaller features, fixes & cleanups.
 
 Thanks to: Alexey Kardashevskiy, Andreas Schwab, Andrew Donnellan, Aneesh Kumar K.V,
   Athira Rajeev, Bhaskar Chowdhury, Bixuan Cui, Cédric Le Goater, Chen Huang, Chris
   Packham, Christophe Leroy, Christopher M. Riedl, Colin Ian King, Dan Carpenter, Daniel
   Axtens, Daniel Henrique Barboza, David Gibson, Davidlohr Bueso, Denis Efremov,
   dingsenjie, Dmitry Safonov, Dominic DeMarco, Fabiano Rosas, Ganesh Goudar, Geert
   Uytterhoeven, Geetika Moolchandani, Greg Kurz, Guenter Roeck, Haren Myneni, He Ying,
   Jiapeng Chong, Jordan Niethe, Laurent Dufour, Lee Jones, Leonardo Bras, Li Huafei,
   Madhavan Srinivasan, Mahesh Salgaonkar, Masahiro Yamada, Nathan Chancellor, Nathan
   Lynch, Nicholas Piggin, Oliver O'Halloran, Paul Menzel, Pu Lehui, Randy Dunlap, Ravi
   Bangoria, Rosen Penev, Russell Currey, Santosh Sivaraj, Sebastian Andrzej Siewior,
   Segher Boessenkool, Shivaprasad G Bhat, Srikar Dronamraju, Stephen Rothwell, Thadeu Lima
   de Souza Cascardo, Thomas Gleixner, Tony Ambardar, Tyrel Datwyler, Vaibhav Jain,
   Vincenzo Frascino, Xiongwei Song, Yang Li, Yu Kuai, Zhang Yunkai.
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Merge tag 'powerpc-5.13-1' of git://git.kernel.org/pub/scm/linux/kernel/git/powerpc/linux

Pull powerpc updates from Michael Ellerman:

 - Enable KFENCE for 32-bit.

 - Implement EBPF for 32-bit.

 - Convert 32-bit to do interrupt entry/exit in C.

 - Convert 64-bit BookE to do interrupt entry/exit in C.

 - Changes to our signal handling code to use user_access_begin/end()
   more extensively.

 - Add support for time namespaces (CONFIG_TIME_NS)

 - A series of fixes that allow us to reenable STRICT_KERNEL_RWX.

 - Other smaller features, fixes & cleanups.

Thanks to Alexey Kardashevskiy, Andreas Schwab, Andrew Donnellan, Aneesh
Kumar K.V, Athira Rajeev, Bhaskar Chowdhury, Bixuan Cui, Cédric Le
Goater, Chen Huang, Chris Packham, Christophe Leroy, Christopher M.
Riedl, Colin Ian King, Dan Carpenter, Daniel Axtens, Daniel Henrique
Barboza, David Gibson, Davidlohr Bueso, Denis Efremov, dingsenjie,
Dmitry Safonov, Dominic DeMarco, Fabiano Rosas, Ganesh Goudar, Geert
Uytterhoeven, Geetika Moolchandani, Greg Kurz, Guenter Roeck, Haren
Myneni, He Ying, Jiapeng Chong, Jordan Niethe, Laurent Dufour, Lee
Jones, Leonardo Bras, Li Huafei, Madhavan Srinivasan, Mahesh Salgaonkar,
Masahiro Yamada, Nathan Chancellor, Nathan Lynch, Nicholas Piggin,
Oliver O'Halloran, Paul Menzel, Pu Lehui, Randy Dunlap, Ravi Bangoria,
Rosen Penev, Russell Currey, Santosh Sivaraj, Sebastian Andrzej Siewior,
Segher Boessenkool, Shivaprasad G Bhat, Srikar Dronamraju, Stephen
Rothwell, Thadeu Lima de Souza Cascardo, Thomas Gleixner, Tony Ambardar,
Tyrel Datwyler, Vaibhav Jain, Vincenzo Frascino, Xiongwei Song, Yang Li,
Yu Kuai, and Zhang Yunkai.

* tag 'powerpc-5.13-1' of git://git.kernel.org/pub/scm/linux/kernel/git/powerpc/linux: (302 commits)
  powerpc/signal32: Fix erroneous SIGSEGV on RT signal return
  powerpc: Avoid clang uninitialized warning in __get_user_size_allowed
  powerpc/papr_scm: Mark nvdimm as unarmed if needed during probe
  powerpc/kvm: Fix build error when PPC_MEM_KEYS/PPC_PSERIES=n
  powerpc/kasan: Fix shadow start address with modules
  powerpc/kernel/iommu: Use largepool as a last resort when !largealloc
  powerpc/kernel/iommu: Align size for IOMMU_PAGE_SIZE() to save TCEs
  powerpc/44x: fix spelling mistake in Kconfig "varients" -> "variants"
  powerpc/iommu: Annotate nested lock for lockdep
  powerpc/iommu: Do not immediately panic when failed IOMMU table allocation
  powerpc/iommu: Allocate it_map by vmalloc
  selftests/powerpc: remove unneeded semicolon
  powerpc/64s: remove unneeded semicolon
  powerpc/eeh: remove unneeded semicolon
  powerpc/selftests: Add selftest to test concurrent perf/ptrace events
  powerpc/selftests/perf-hwbreak: Add testcases for 2nd DAWR
  powerpc/selftests/perf-hwbreak: Coalesce event creation code
  powerpc/selftests/ptrace-hwbreak: Add testcases for 2nd DAWR
  powerpc/configs: Add IBMVNIC to some 64-bit configs
  selftests/powerpc: Add uaccess flush test
  ...
2021-04-30 12:22:28 -07:00

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.. SPDX-License-Identifier: GPL-2.0
===========================
Hypercall Op-codes (hcalls)
===========================
Overview
=========
Virtualization on 64-bit Power Book3S Platforms is based on the PAPR
specification [1]_ which describes the run-time environment for a guest
operating system and how it should interact with the hypervisor for
privileged operations. Currently there are two PAPR compliant hypervisors:
- **IBM PowerVM (PHYP)**: IBM's proprietary hypervisor that supports AIX,
IBM-i and Linux as supported guests (termed as Logical Partitions
or LPARS). It supports the full PAPR specification.
- **Qemu/KVM**: Supports PPC64 linux guests running on a PPC64 linux host.
Though it only implements a subset of PAPR specification called LoPAPR [2]_.
On PPC64 arch a guest kernel running on top of a PAPR hypervisor is called
a *pSeries guest*. A pseries guest runs in a supervisor mode (HV=0) and must
issue hypercalls to the hypervisor whenever it needs to perform an action
that is hypervisor priviledged [3]_ or for other services managed by the
hypervisor.
Hence a Hypercall (hcall) is essentially a request by the pseries guest
asking hypervisor to perform a privileged operation on behalf of the guest. The
guest issues a with necessary input operands. The hypervisor after performing
the privilege operation returns a status code and output operands back to the
guest.
HCALL ABI
=========
The ABI specification for a hcall between a pseries guest and PAPR hypervisor
is covered in section 14.5.3 of ref [2]_. Switch to the Hypervisor context is
done via the instruction **HVCS** that expects the Opcode for hcall is set in *r3*
and any in-arguments for the hcall are provided in registers *r4-r12*. If values
have to be passed through a memory buffer, the data stored in that buffer should be
in Big-endian byte order.
Once control returns back to the guest after hypervisor has serviced the
'HVCS' instruction the return value of the hcall is available in *r3* and any
out values are returned in registers *r4-r12*. Again like in case of in-arguments,
any out values stored in a memory buffer will be in Big-endian byte order.
Powerpc arch code provides convenient wrappers named **plpar_hcall_xxx** defined
in a arch specific header [4]_ to issue hcalls from the linux kernel
running as pseries guest.
Register Conventions
====================
Any hcall should follow same register convention as described in section 2.2.1.1
of "64-Bit ELF V2 ABI Specification: Power Architecture"[5]_. Table below
summarizes these conventions:
+----------+----------+-------------------------------------------+
| Register |Volatile | Purpose |
| Range |(Y/N) | |
+==========+==========+===========================================+
| r0 | Y | Optional-usage |
+----------+----------+-------------------------------------------+
| r1 | N | Stack Pointer |
+----------+----------+-------------------------------------------+
| r2 | N | TOC |
+----------+----------+-------------------------------------------+
| r3 | Y | hcall opcode/return value |
+----------+----------+-------------------------------------------+
| r4-r10 | Y | in and out values |
+----------+----------+-------------------------------------------+
| r11 | Y | Optional-usage/Environmental pointer |
+----------+----------+-------------------------------------------+
| r12 | Y | Optional-usage/Function entry address at |
| | | global entry point |
+----------+----------+-------------------------------------------+
| r13 | N | Thread-Pointer |
+----------+----------+-------------------------------------------+
| r14-r31 | N | Local Variables |
+----------+----------+-------------------------------------------+
| LR | Y | Link Register |
+----------+----------+-------------------------------------------+
| CTR | Y | Loop Counter |
+----------+----------+-------------------------------------------+
| XER | Y | Fixed-point exception register. |
+----------+----------+-------------------------------------------+
| CR0-1 | Y | Condition register fields. |
+----------+----------+-------------------------------------------+
| CR2-4 | N | Condition register fields. |
+----------+----------+-------------------------------------------+
| CR5-7 | Y | Condition register fields. |
+----------+----------+-------------------------------------------+
| Others | N | |
+----------+----------+-------------------------------------------+
DRC & DRC Indexes
=================
::
DR1 Guest
+--+ +------------+ +---------+
| | <----> | | | User |
+--+ DRC1 | | DRC | Space |
| PAPR | Index +---------+
DR2 | Hypervisor | | |
+--+ | | <-----> | Kernel |
| | <----> | | Hcall | |
+--+ DRC2 +------------+ +---------+
PAPR hypervisor terms shared hardware resources like PCI devices, NVDIMMs etc
available for use by LPARs as Dynamic Resource (DR). When a DR is allocated to
an LPAR, PHYP creates a data-structure called Dynamic Resource Connector (DRC)
to manage LPAR access. An LPAR refers to a DRC via an opaque 32-bit number
called DRC-Index. The DRC-index value is provided to the LPAR via device-tree
where its present as an attribute in the device tree node associated with the
DR.
HCALL Return-values
===================
After servicing the hcall, hypervisor sets the return-value in *r3* indicating
success or failure of the hcall. In case of a failure an error code indicates
the cause for error. These codes are defined and documented in arch specific
header [4]_.
In some cases a hcall can potentially take a long time and need to be issued
multiple times in order to be completely serviced. These hcalls will usually
accept an opaque value *continue-token* within there argument list and a
return value of *H_CONTINUE* indicates that hypervisor hasn't still finished
servicing the hcall yet.
To make such hcalls the guest need to set *continue-token == 0* for the
initial call and use the hypervisor returned value of *continue-token*
for each subsequent hcall until hypervisor returns a non *H_CONTINUE*
return value.
HCALL Op-codes
==============
Below is a partial list of HCALLs that are supported by PHYP. For the
corresponding opcode values please look into the arch specific header [4]_:
**H_SCM_READ_METADATA**
| Input: *drcIndex, offset, buffer-address, numBytesToRead*
| Out: *numBytesRead*
| Return Value: *H_Success, H_Parameter, H_P2, H_P3, H_Hardware*
Given a DRC Index of an NVDIMM, read N-bytes from the metadata area
associated with it, at a specified offset and copy it to provided buffer.
The metadata area stores configuration information such as label information,
bad-blocks etc. The metadata area is located out-of-band of NVDIMM storage
area hence a separate access semantics is provided.
**H_SCM_WRITE_METADATA**
| Input: *drcIndex, offset, data, numBytesToWrite*
| Out: *None*
| Return Value: *H_Success, H_Parameter, H_P2, H_P4, H_Hardware*
Given a DRC Index of an NVDIMM, write N-bytes to the metadata area
associated with it, at the specified offset and from the provided buffer.
**H_SCM_BIND_MEM**
| Input: *drcIndex, startingScmBlockIndex, numScmBlocksToBind,*
| *targetLogicalMemoryAddress, continue-token*
| Out: *continue-token, targetLogicalMemoryAddress, numScmBlocksToBound*
| Return Value: *H_Success, H_Parameter, H_P2, H_P3, H_P4, H_Overlap,*
| *H_Too_Big, H_P5, H_Busy*
Given a DRC-Index of an NVDIMM, map a continuous SCM blocks range
*(startingScmBlockIndex, startingScmBlockIndex+numScmBlocksToBind)* to the guest
at *targetLogicalMemoryAddress* within guest physical address space. In
case *targetLogicalMemoryAddress == 0xFFFFFFFF_FFFFFFFF* then hypervisor
assigns a target address to the guest. The HCALL can fail if the Guest has
an active PTE entry to the SCM block being bound.
**H_SCM_UNBIND_MEM**
| Input: drcIndex, startingScmLogicalMemoryAddress, numScmBlocksToUnbind
| Out: numScmBlocksUnbound
| Return Value: *H_Success, H_Parameter, H_P2, H_P3, H_In_Use, H_Overlap,*
| *H_Busy, H_LongBusyOrder1mSec, H_LongBusyOrder10mSec*
Given a DRC-Index of an NVDimm, unmap *numScmBlocksToUnbind* SCM blocks starting
at *startingScmLogicalMemoryAddress* from guest physical address space. The
HCALL can fail if the Guest has an active PTE entry to the SCM block being
unbound.
**H_SCM_QUERY_BLOCK_MEM_BINDING**
| Input: *drcIndex, scmBlockIndex*
| Out: *Guest-Physical-Address*
| Return Value: *H_Success, H_Parameter, H_P2, H_NotFound*
Given a DRC-Index and an SCM Block index return the guest physical address to
which the SCM block is mapped to.
**H_SCM_QUERY_LOGICAL_MEM_BINDING**
| Input: *Guest-Physical-Address*
| Out: *drcIndex, scmBlockIndex*
| Return Value: *H_Success, H_Parameter, H_P2, H_NotFound*
Given a guest physical address return which DRC Index and SCM block is mapped
to that address.
**H_SCM_UNBIND_ALL**
| Input: *scmTargetScope, drcIndex*
| Out: *None*
| Return Value: *H_Success, H_Parameter, H_P2, H_P3, H_In_Use, H_Busy,*
| *H_LongBusyOrder1mSec, H_LongBusyOrder10mSec*
Depending on the Target scope unmap all SCM blocks belonging to all NVDIMMs
or all SCM blocks belonging to a single NVDIMM identified by its drcIndex
from the LPAR memory.
**H_SCM_HEALTH**
| Input: drcIndex
| Out: *health-bitmap (r4), health-bit-valid-bitmap (r5)*
| Return Value: *H_Success, H_Parameter, H_Hardware*
Given a DRC Index return the info on predictive failure and overall health of
the PMEM device. The asserted bits in the health-bitmap indicate one or more states
(described in table below) of the PMEM device and health-bit-valid-bitmap indicate
which bits in health-bitmap are valid. The bits are reported in
reverse bit ordering for example a value of 0xC400000000000000
indicates bits 0, 1, and 5 are valid.
Health Bitmap Flags:
+------+-----------------------------------------------------------------------+
| Bit | Definition |
+======+=======================================================================+
| 00 | PMEM device is unable to persist memory contents. |
| | If the system is powered down, nothing will be saved. |
+------+-----------------------------------------------------------------------+
| 01 | PMEM device failed to persist memory contents. Either contents were |
| | not saved successfully on power down or were not restored properly on |
| | power up. |
+------+-----------------------------------------------------------------------+
| 02 | PMEM device contents are persisted from previous IPL. The data from |
| | the last boot were successfully restored. |
+------+-----------------------------------------------------------------------+
| 03 | PMEM device contents are not persisted from previous IPL. There was no|
| | data to restore from the last boot. |
+------+-----------------------------------------------------------------------+
| 04 | PMEM device memory life remaining is critically low |
+------+-----------------------------------------------------------------------+
| 05 | PMEM device will be garded off next IPL due to failure |
+------+-----------------------------------------------------------------------+
| 06 | PMEM device contents cannot persist due to current platform health |
| | status. A hardware failure may prevent data from being saved or |
| | restored. |
+------+-----------------------------------------------------------------------+
| 07 | PMEM device is unable to persist memory contents in certain conditions|
+------+-----------------------------------------------------------------------+
| 08 | PMEM device is encrypted |
+------+-----------------------------------------------------------------------+
| 09 | PMEM device has successfully completed a requested erase or secure |
| | erase procedure. |
+------+-----------------------------------------------------------------------+
|10:63 | Reserved / Unused |
+------+-----------------------------------------------------------------------+
**H_SCM_PERFORMANCE_STATS**
| Input: drcIndex, resultBuffer Addr
| Out: None
| Return Value: *H_Success, H_Parameter, H_Unsupported, H_Hardware, H_Authority, H_Privilege*
Given a DRC Index collect the performance statistics for NVDIMM and copy them
to the resultBuffer.
**H_SCM_FLUSH**
| Input: *drcIndex, continue-token*
| Out: *continue-token*
| Return Value: *H_SUCCESS, H_Parameter, H_P2, H_BUSY*
Given a DRC Index Flush the data to backend NVDIMM device.
The hcall returns H_BUSY when the flush takes longer time and the hcall needs
to be issued multiple times in order to be completely serviced. The
*continue-token* from the output to be passed in the argument list of
subsequent hcalls to the hypervisor until the hcall is completely serviced
at which point H_SUCCESS or other error is returned by the hypervisor.
References
==========
.. [1] "Power Architecture Platform Reference"
https://en.wikipedia.org/wiki/Power_Architecture_Platform_Reference
.. [2] "Linux on Power Architecture Platform Reference"
https://members.openpowerfoundation.org/document/dl/469
.. [3] "Definitions and Notation" Book III-Section 14.5.3
https://openpowerfoundation.org/?resource_lib=power-isa-version-3-0
.. [4] arch/powerpc/include/asm/hvcall.h
.. [5] "64-Bit ELF V2 ABI Specification: Power Architecture"
https://openpowerfoundation.org/?resource_lib=64-bit-elf-v2-abi-specification-power-architecture