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Junjie Mao 3956ce1596 HV: io: spell out explicit narrowing of integers 
The MMIO/PIO write APIs in io.h always take a uint32_t value but may uses it as
8, 16 or 32-bit integers. This patch converts the prototypes to align with their
functionality.

The pointer conversion and assignment are splitted to separate statements to
prevent static checkers from being confused about the underlying types.

v1 -> v2:

    * Change the prototype of mmio-related functions, instead of keeping the
      explicit conversions internal. The addresses are kept void* since in most
      cases hva (in void*) is passed.

Signed-off-by: Junjie Mao <junjie.mao@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
 		2018-07-10 13:10:10 +08:00
..
arch/x86 HV: io: spell out explicit narrowing of integers 2018-07-10 13:10:10 +08:00
boot HV: Assignment should not mix with operator 2018-07-10 11:56:36 +08:00
bsp HV:CPU: Add 'U/UL' for unsigned const value 2018-07-09 10:27:21 +08:00
common HV: io: spell out explicit narrowing of integers 2018-07-10 13:10:10 +08:00
debug HV: assert: use signed int for __LINE__ 2018-07-10 13:10:10 +08:00
include HV: io: spell out explicit narrowing of integers 2018-07-10 13:10:10 +08:00
lib HV: Assignment should not mix with operator 2018-07-10 11:56:36 +08:00
scripts/kconfig HV: make: rename minimalconfig to savedefconfig 2018-06-15 15:50:09 +08:00
Kconfig HV: config: add Kconfig and defconfigs for sbl & uefi 2018-06-08 17:21:13 +08:00
MAINTAINERS update home page information 2018-05-15 17:19:39 +08:00
Makefile hv: update versioning scheme 2018-07-09 18:12:14 +08:00
README.rst initial import 2018-05-11 14:44:28 +08:00

README.rst 

Embedded-Hypervisor
###################

This open source embedded hypervisor defines a software architecture for
running multiple software subsystems managed securely on a consolidated
system (by means of a virtual machine manager), and defines a reference
framework Device Model implementation for devices emulation

This embedded hypervisor is type-1 reference hypervisor, running
directly on the system hardware. It can be used for building software
defined cockpit (SDC) or In-Vehicle Experience (IVE) solutions running
on Intel Architecture Apollo Lake platforms. As a reference
implementation, it provides the basis for embedded hypervisor vendors to
build solutions with an open source reference I/O mediation solution,
and provides auto makers a reference software stack for SDC usage.

This embedded hypervisor is able to support both Linux* and Android* as
a Guest OS, managed by the hypervisor, where applications can run.

This embedded hypervisor is a partitioning hypervisor reference stack,
also suitable for non-automotive IoT & embedded device solutions. It
will be addressing the gap that currently exists between datacenter
hypervisors, hard partitioning hypervisors, and select industrial
applications.  Extending the scope of this open source embedded
hypervisor relies on the involvement of community developers like you!