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-rw-r--r--Documentation/powerpc/index.rst1
-rw-r--r--Documentation/powerpc/vas-api.rst25
-rw-r--r--Documentation/powerpc/vcpudispatch_stats.rst (renamed from Documentation/powerpc/vcpudispatch_stats.txt)17
3 files changed, 32 insertions, 11 deletions
diff --git a/Documentation/powerpc/index.rst b/Documentation/powerpc/index.rst
index afe2d5e54db6..748bf483b1c2 100644
--- a/Documentation/powerpc/index.rst
+++ b/Documentation/powerpc/index.rst
@@ -31,6 +31,7 @@ powerpc
transactional_memory
ultravisor
vas-api
+ vcpudispatch_stats
.. only:: subproject and html
diff --git a/Documentation/powerpc/vas-api.rst b/Documentation/powerpc/vas-api.rst
index 788dc8375a0e..90c50ed839f3 100644
--- a/Documentation/powerpc/vas-api.rst
+++ b/Documentation/powerpc/vas-api.rst
@@ -43,7 +43,7 @@ engine for this process. Once a connection is established, the application
should use the mmap() system call to map the hardware address of engine's
request queue into the application's virtual address space.
-The application can then submit one or more requests to the the engine by
+The application can then submit one or more requests to the engine by
using copy/paste instructions and pasting the CRBs to the virtual address
(aka paste_address) returned by mmap(). User space can close the
established connection or send window by closing the file descriptior
@@ -87,6 +87,7 @@ Applications may chose a specific instance of the NX co-processor using
the vas_id field in the VAS_TX_WIN_OPEN ioctl as detailed below.
A userspace library libnxz is available here but still in development:
+
https://github.com/abalib/power-gzip
Applications that use inflate / deflate calls can link with libnxz
@@ -110,6 +111,7 @@ Applications should use the VAS_TX_WIN_OPEN ioctl as follows to establish
a connection with NX co-processor engine:
::
+
struct vas_tx_win_open_attr {
__u32 version;
__s16 vas_id; /* specific instance of vas or -1
@@ -119,8 +121,10 @@ a connection with NX co-processor engine:
__u64 reserved2[6];
};
- version: The version field must be currently set to 1.
- vas_id: If '-1' is passed, kernel will make a best-effort attempt
+ version:
+ The version field must be currently set to 1.
+ vas_id:
+ If '-1' is passed, kernel will make a best-effort attempt
to assign an optimal instance of NX for the process. To
select the specific VAS instance, refer
"Discovery of available VAS engines" section below.
@@ -129,7 +133,8 @@ a connection with NX co-processor engine:
and must be set to 0.
The attributes attr for the VAS_TX_WIN_OPEN ioctl are defined as
- follows:
+ follows::
+
#define VAS_MAGIC 'v'
#define VAS_TX_WIN_OPEN _IOW(VAS_MAGIC, 1,
struct vas_tx_win_open_attr)
@@ -141,6 +146,8 @@ a connection with NX co-processor engine:
returns -1 and sets the errno variable to indicate the error.
Error conditions:
+
+ ====== ================================================
EINVAL fd does not refer to a valid VAS device.
EINVAL Invalid vas ID
EINVAL version is not set with proper value
@@ -149,6 +156,7 @@ a connection with NX co-processor engine:
ENOSPC System has too many active windows (connections)
opened
EINVAL reserved fields are not set to 0.
+ ====== ================================================
See the ioctl(2) man page for more details, error codes and
restrictions.
@@ -158,11 +166,13 @@ mmap() NX-GZIP device
The mmap() system call for a NX-GZIP device fd returns a paste_address
that the application can use to copy/paste its CRB to the hardware engines.
+
::
paste_addr = mmap(addr, size, prot, flags, fd, offset);
Only restrictions on mmap for a NX-GZIP device fd are:
+
* size should be PAGE_SIZE
* offset parameter should be 0ULL
@@ -170,10 +180,12 @@ that the application can use to copy/paste its CRB to the hardware engines.
In addition to the error conditions listed on the mmap(2) man
page, can also fail with one of the following error codes:
+ ====== =============================================
EINVAL fd is not associated with an open window
(i.e mmap() does not follow a successful call
to the VAS_TX_WIN_OPEN ioctl).
EINVAL offset field is not 0ULL.
+ ====== =============================================
Discovery of available VAS engines
==================================
@@ -210,7 +222,7 @@ In case if NX encounters translation error (called NX page fault) on CSB
address or any request buffer, raises an interrupt on the CPU to handle the
fault. Page fault can happen if an application passes invalid addresses or
request buffers are not in memory. The operating system handles the fault by
-updating CSB with the following data:
+updating CSB with the following data::
csb.flags = CSB_V;
csb.cc = CSB_CC_FAULT_ADDRESS;
@@ -223,7 +235,7 @@ the application can resend this request to NX.
If the OS can not update CSB due to invalid CSB address, sends SEGV signal
to the process who opened the send window on which the original request was
-issued. This signal returns with the following siginfo struct:
+issued. This signal returns with the following siginfo struct::
siginfo.si_signo = SIGSEGV;
siginfo.si_errno = EFAULT;
@@ -248,6 +260,7 @@ Simple example
==============
::
+
int use_nx_gzip()
{
int rc, fd;
diff --git a/Documentation/powerpc/vcpudispatch_stats.txt b/Documentation/powerpc/vcpudispatch_stats.rst
index e21476bfd78c..5704657a5987 100644
--- a/Documentation/powerpc/vcpudispatch_stats.txt
+++ b/Documentation/powerpc/vcpudispatch_stats.rst
@@ -1,5 +1,8 @@
-VCPU Dispatch Statistics:
-=========================
+.. SPDX-License-Identifier: GPL-2.0
+
+========================
+VCPU Dispatch Statistics
+========================
For Shared Processor LPARs, the POWER Hypervisor maintains a relatively
static mapping of the LPAR processors (vcpus) to physical processor
@@ -20,25 +23,29 @@ The statistics themselves are available by reading the procfs file
a vcpu as represented by the first field, followed by 8 numbers.
The first number corresponds to:
+
1. total vcpu dispatches since the beginning of statistics collection
The next 4 numbers represent vcpu dispatch dispersions:
+
2. number of times this vcpu was dispatched on the same processor as last
time
3. number of times this vcpu was dispatched on a different processor core
as last time, but within the same chip
4. number of times this vcpu was dispatched on a different chip
5. number of times this vcpu was dispatches on a different socket/drawer
-(next numa boundary)
+ (next numa boundary)
The final 3 numbers represent statistics in relation to the home node of
the vcpu:
+
6. number of times this vcpu was dispatched in its home node (chip)
7. number of times this vcpu was dispatched in a different node
8. number of times this vcpu was dispatched in a node further away (numa
-distance)
+ distance)
+
+An example output::
-An example output:
$ sudo cat /proc/powerpc/vcpudispatch_stats
cpu0 6839 4126 2683 30 0 6821 18 0
cpu1 2515 1274 1229 12 0 2509 6 0