1.Modify clos_mask and mba_delay as a member of the union type.
2.Move HV_SUPPORTED_MAX_CLOS ,MAX_CACHE_CLOS_NUM_ENTRIES and
MAX_MBA_CLOS_NUM_ENTRIES to misc_cfg.h file.
Tracked-On: #5229
Signed-off-by: Wei Liu <weix.w.liu@intel.com>
Signed-off-by: dongshen <dongsheng.x.zhang@intel.com>
HV_SUPPORTED_MAX_CLOS:
This value represents the maximum CLOS that is allowed by ACRN hypervisor.
This value is set to be least common Max CLOS (CPUID.(EAX=0x10,ECX=ResID):EDX[15:0])
among all supported RDT resources in the platform. In other words, it is
min(maximum CLOS of L2, L3 and MBA). This is done in order to have consistent
CLOS allocations between all the RDT resources.
Tracked-On: #5229
Signed-off-by: dongshen <dongsheng.x.zhang@intel.com>
The make command is same as old configs layout:
under acrn-hypervisor folder:
make hypervisor BOARD=xxx SCENARIO=xxx [TARGET_DIR]=xxx [RELEASE=x]
under hypervisor folder:
make BOARD=xxx SCENARIO=xxx [TARGET_DIR]=xxx [RELEASE=x]
if BOARD/SCENARIO parameter is not specified, the default will be:
BOARD=nuc7i7dnb SCENARIO=industry
Tracked-On: #5077
Signed-off-by: Victor Sun <victor.sun@intel.com>
Reviewed-by: Jason Chen CJ <jason.cj.chen@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
There are 3 kinds of configurations in ACRN hypervisor source code: hypervisor
overall setting, per-board setting and scenario specific per-VM setting.
Currently Kconfig act as hypervisor overall setting and its souce is located at
"hypervisor/arch/x86/configs/$(BOARD).config"; Per-board configs are located at
"hypervisor/arch/x86/configs/$(BOARD)" folder; scenario specific per-VM configs
are located at "hypervisor/scenarios/$(SCENARIO)" folder.
This layout brings issues that board configs and VM configs are coupled tightly.
The board specific Kconfig file and misc_cfg.h are shared by all scenarios, and
scenario specific pci_dev.c is shared by all boards. So the user have no way to
build hypervisor binary for different scenario on different board with one
source code repo.
The patch will setup a new VM configurations layout as below:
misc/vm_configs
├── boards --> folder of supported boards
│ ├── <board_1> --> scenario-irrelevant board configs
│ │ ├── board.c --> C file of board configs
│ │ ├── board_info.h --> H file of board info
│ │ ├── pci_devices.h --> pBDF of PCI devices
│ │ └── platform_acpi_info.h --> native ACPI info
│ ├── <board_2>
│ ├── <board_3>
│ └── <board...>
└── scenarios --> folder of supported scenarios
├── <scenario_1> --> scenario specific VM configs
│ ├── <board_1> --> board specific VM configs for <scenario_1>
│ │ ├── <board_1>.config --> Kconfig for specific scenario on specific board
│ │ ├── misc_cfg.h --> H file of board specific VM configs
│ │ ├── pci_dev.c --> board specific VM pci devices list
│ │ └── vbar_base.h --> vBAR base info of VM PT pci devices
│ ├── <board_2>
│ ├── <board_3>
│ ├── <board...>
│ ├── vm_configurations.c --> C file of scenario specific VM configs
│ └── vm_configurations.h --> H file of scenario specific VM configs
├── <scenario_2>
├── <scenario_3>
└── <scenario...>
The new layout would decouple board configs and VM configs completely:
The boards folder stores kinds of supported boards info, each board folder
stores scenario-irrelevant board configs only, which could be totally got from
a physical platform and works for all scenarios;
The scenarios folder stores VM configs of kinds of working scenario. In each
scenario folder, besides the generic scenario specific VM configs, the board
specific VM configs would be put in a embedded board folder.
In new layout, all configs files will be removed out of hypervisor folder and
moved to a separate folder. This would make hypervisor LoC calculation more
precisely with below fomula:
typical LoC = Loc(hypervisor) + Loc(one vm_configs)
which
Loc(one vm_configs) = Loc(misc/vm_configs/boards/<board>)
+ LoC(misc/vm_configs/scenarios/<scenario>/<board>)
+ Loc(misc/vm_configs/scenarios/<scenario>/vm_configurations.c
+ Loc(misc/vm_configs/scenarios/<scenario>/vm_configurations.h
Tracked-On: #5077
Signed-off-by: Victor Sun <victor.sun@intel.com>
Reviewed-by: Jason Chen CJ <jason.cj.chen@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
The information needed to enable MSI-x emulation.
Only enable MSI-x emuation for the devices in msix_emul_devs array.
Currently, only EHL has the need to enable MSI-x emulation for TSN
devices.
Tracked-On: #4831
Signed-off-by: Binbin Wu <binbin.wu@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
ve820.c is a common file in arch/x86/guest/ now, so move function of
create_sos_vm_e820() to this file to make code structure clear;
Tracked-On: #4458
Signed-off-by: Victor Sun <victor.sun@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
This patch adds RDT MBA support to detect, configure and
and setup MBA throttle registers based on VM configuration.
Tracked-On: #3725
Signed-off-by: Vijay Dhanraj <vijay.dhanraj@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
is not set
This patch does the following,
1. Removes RDT code if CONFIG_RDT_ENABLED flag is
not set.
2. Set the CONFIG_RDT_ENABLED flag only on platforms
that support RDT so that build scripts will automatically
reflect the config.
Tracked-On: #3715
Signed-off-by: Yin Fengwei <fengwei.yin@intel.com>
Signed-off-by: Vijay Dhanraj <vijay.dhanraj@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
Upcoming intel platforms can support both L2 and L3
but our current code only supports either L2 or L3 CAT.
So split the MSRs so that we can support allocation
for both L2 and L3.
This patch does the following,
1. splits programming of L2 and L3 cache resource
based on the resource ID.
2. Replace generic platform_clos_array struct with resource
specific struct in all the existing board.c files.
Tracked-On: #3715
Signed-off-by: Vijay Dhanraj <vijay.dhanraj@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
MISRA C requires specified bounds for arrays declaration, previous declaration
of platform_clos_array in board.h does not meet the requirement.
Tracked-On: #3987
Signed-off-by: Victor Sun <victor.sun@intel.com>
The DMAR info is board specific so move the structure definition to board.c.
As a configruation file, the whole board.c could be generated by acrn-config
tool for each board.
Please note we only provide DMAR info MACROs for nuc7i7dnb board. For other
boards, ACPI_PARSE_ENABLED must be set to y in Kconfig to let hypervisor parse
DMAR info, or use acrn-config tool to generate DMAR info MACROs if user won't
enable ACPI parse code for FuSa consideration.
The patch also moves the function of get_dmar_info() to vtd.c, so dmar_info.c
could be removed.
Tracked-On: #3977
Signed-off-by: Victor Sun <victor.sun@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
Currently the Px Cx supported SoCs which listed in cpu_state_tbl.c is limited,
and it is not a wise option to build a huge state table data base to support
Px/Cx for other SoCs. This patch give a alternative solution that build a board
specific cpu state table in board.c which could be auto-generated by offline
tool, then the CPU Px/Cx of customer board could be enabled;
Hypervisor will search the cpu state table in cpu_state_tbl[] first, if not
found then go check board_cpu_state_tbl. If no matched cpu state table is found
then Px/Cx will not be supported;
Tracked-On: #3477
Signed-off-by: Victor Sun <victor.sun@intel.com>
Preparing for hybrid mode:
- create vE820 for pre-launched VMs and do other init code when the
vm_config->type is PRE_LAUNCHED_VM.
- create ve820.c for each board because without wrapping by
CONFIG_PARTITION_MODE, ve820_entry[] needs to be visible even when
compiling target boards that haven't enabled pre-launched VMs.
- remove create_prelaunched_vm_e820() from vm.c and implement board
specific function for each $(CONFIG_BOARD)/ve820.c. The reasons being:
- don't need to define ve820_entry[32] for those boards that don't
support pre-launched VMs.
- more importantly, this makes it much easier to create different per-VM
vE820 when it's needed.
Tracked-On: #2291
Signed-off-by: Zide Chen <zide.chen@intel.com>
IF CAT is supported, and we want setup initial values to
IA32_Type_MASK_n MSRs, We can define a global structure
platform_clos_array[PLATFORM_CLOS_NUM], it has 2 members:
1.msr_index, the MSR address of IA32_Type_MASK_n
2.clos_masky, the initial valuses
Global varible platform_clos_num is the number of IA32_Type_MASK_n,
from IA32_Type_MASK_0 to IA32_Type_MASK_<CLOS_MAX_NUM - 1>
Tracked-On: #2462
Signed-off-by: Tao Yuhong <yuhong.tao@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
