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audk/OvmfPkg/Library/HardwareInfoLib/HardwareInfoPciHostBridgeLib.c
Nicolas Ojeda Leon 6c9f218bc0 OvmfPkg/Library: Create base HardwareInfoLib for PCI Host Bridges 
Create the Hardware Info library base together with the specifics to
describe PCI Host Bridges.

The Hardware Info library is intended to be used for disclosing
non-discoverable hardware information from the host to the guest in
Ovmf platforms. Core functionality will provide the possibility to
parse information from a generic BLOB into runtime structures. The
library is conceived in a generic way so that further hardware
elements can also be described using it. For such purpose the length
of the BLOB is not restricted but instead regarded as a sequence of
header-info elements that allow the parsing during runtime. The first
type of hardware defined will be PCI host bridges, providing the
possibility to define multiple and specify the resources each of them
can use. This enables the guest firmware to configure PCI resources
properly. Having the size of each individual element favors the reuse
of a single interface to convey descriptions of an arbitrary number
of heterogenous hardware elements. Furthermore, flexible access
mechanisms coupled with the size will grant the possibility of
interpreting them in a single run.

Define the base types of the generic Hardware Info library to parse
heterogeneous data. Also provide the specific changes to support
PCI host bridges as the first hardware type supported by the
library.
Additionally, define the HOST_BRIDGE_INFO structure to describe PCI
host bridges along with the functionality to parse such information
into proper structures used by the PCI driver in a centralized manner
and taking care of versioning.

As an example and motivation, the library will be used to define
multiple PCI host bridges for complex platforms that require it.
The first means of transportation that will be used is going to be
fw-cfg, over which a stream of bytes will be transferred and later
parsed by the hardware info library. Accordingly, the PCI driver
will make use of these host bridges definitions to populate the
list of Root Bridges and proceed with the configuration and discovery
of underlying hardware components.

As mentioned before, the binary data to be parsed by the Hardware
Info library should be organized as a sequence of Header-element
pairs in which the header describes the type and size of the associated
element that comes right after it. As an illustration, to provide
inforation of 3 host bridges the data, conceptually, would look
like this:

Header PCI Host Bridge (type and size) # 1
PCI Host Bridge info # 1
Header PCI Host Bridge (type and size) # 2
PCI Host Bridge info # 2
Header PCI Host Bridge (type and size) # 3
PCI Host Bridge info # 3

Cc: Alexander Graf <graf@amazon.de>
Cc: Gerd Hoffmann <kraxel@redhat.com>
Acked-by: Gerd Hoffmann <kraxel@redhat.com>
Signed-off-by: Nicolas Ojeda Leon <ncoleon@amazon.com>
2022-06-22 15:34:16 +00:00

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/**@file
Hardware info library with types and accessors to parse information about
PCI host bridges.
Copyright 2021 - 2022 Amazon.com, Inc. or its affiliates. All Rights Reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent
**/
#include <Library/DebugLib.h>
#include "HardwareInfoPciHostBridgeLib.h"
#define IS_RANGE_INVALID(Start, Size, MaxValue) (Start >= MaxValue || Size == 0)
/**
Calculate the last (inclusive) address of a range.
@param[in] Start First address of the range
@param[in] Size Size of the range
@return Last address of the range
**/
STATIC
UINT64
GetRangeEnd (
IN UINT64 Start,
IN UINT64 Size,
IN UINT64 MaxValue
)
{
if (IS_RANGE_INVALID (Start, Size, MaxValue)) {
return 0;
}
return Start + Size - 1;
}
/**
Internal helper to update LastAddress if the Limit address
of the Mem aperture is higher than the provided value.
@param[in] Mem Pointer to aperture whose limit is
to be compared against accumulative
last address.
@param[out] LastAddress Pointer to accumulative last address
to be updated if Limit is higher
**/
STATIC
VOID
UpdateLastAddressIfHigher (
IN PCI_ROOT_BRIDGE_APERTURE *Mem,
OUT UINT64 *LastAddress
)
{
if (Mem->Limit > *LastAddress) {
*LastAddress = Mem->Limit;
}
}
EFI_STATUS
HardwareInfoPciHostBridgeLastMmioAddress (
IN CONST HOST_BRIDGE_INFO *HostBridge,
IN UINTN DataSize,
IN BOOLEAN HighMem,
OUT UINT64 *LastMmioAddress
)
{
EFI_STATUS Status;
PCI_ROOT_BRIDGE_APERTURE Mem;
PCI_ROOT_BRIDGE_APERTURE MemAbove4G;
PCI_ROOT_BRIDGE_APERTURE PMem;
PCI_ROOT_BRIDGE_APERTURE PMemAbove4G;
if (LastMmioAddress == NULL) {
return EFI_INVALID_PARAMETER;
}
//
// Set the output to the lowest possible value so that if some step fails
// the overall outcome reflects no information found
//
*LastMmioAddress = 0;
Status = HardwareInfoPciHostBridgeGetApertures (
HostBridge,
DataSize,
NULL,
&Mem,
&MemAbove4G,
&PMem,
&PMemAbove4G,
NULL
);
//
// Forward error to caller but ignore warnings given that, very likely,
// the host bridge will have a PIO aperture we are explicitly
// ignoring here since we care only about MMIO resources.
//
if (EFI_ERROR (Status)) {
return Status;
}
if (HighMem) {
UpdateLastAddressIfHigher (&MemAbove4G, LastMmioAddress);
UpdateLastAddressIfHigher (&PMemAbove4G, LastMmioAddress);
} else {
UpdateLastAddressIfHigher (&Mem, LastMmioAddress);
UpdateLastAddressIfHigher (&PMem, LastMmioAddress);
}
return EFI_SUCCESS;
}
/**
Set the boundaries of an aperture to invalid values having
size zero and start MaxValue (yields Start > Limit which
depicts an invalid range)
@param[in] MaxValue Max value of the aperture's range (depends
on the data type)
@param[out] Aperture Aperture object to invalidate
**/
STATIC
VOID
InvalidateRootBridgeAperture (
OUT PCI_ROOT_BRIDGE_APERTURE *Aperture
)
{
if (Aperture == NULL) {
return;
}
Aperture->Base = MAX_UINT64;
Aperture->Limit = 0;
}
/**
Fill a PCI ROOT BRIDGE APERTURE with the proper values calculated
from the provided start and size.
@param[in] Start Start address of the aperture
@param[in] Size Size, in bytes, of the aperture
@param[in] MaxValue Max value a valid address could take and which
represents an invalid start address.
@param[out] Aperture Pointer to the aperture to be filled
@retval EFI_SUCCESS Aperture was filled successfully
@retval EFI_INVALID_PARAMETER Range depicted by Start and Size is
valid but ignored because aperture
pointer is NULL
@retval EFI_WARN_BUFFER_TOO_SMALL Aperture pointer is invalid but the
range also is so no harm.
**/
STATIC
EFI_STATUS
FillHostBridgeAperture (
IN UINT64 Start,
IN UINT64 Size,
IN UINT64 MaxValue,
OUT PCI_ROOT_BRIDGE_APERTURE *Aperture
)
{
UINT64 End;
End = GetRangeEnd (Start, Size, MaxValue);
if (Aperture == NULL) {
if (!IS_RANGE_INVALID (Start, Size, MaxValue)) {
//
// Report an error to the caller since the range specified in
// the host bridge's resources is non-empty but the provided
// aperture pointer is null, thus the valid range is ignored.
//
return EFI_INVALID_PARAMETER;
}
return EFI_WARN_BUFFER_TOO_SMALL;
}
if (IS_RANGE_INVALID (Start, Size, MaxValue)) {
//
// Fill Aperture with invalid range values to signal the
// absence of an address space (empty range)
//
InvalidateRootBridgeAperture (Aperture);
} else {
Aperture->Base = Start;
Aperture->Limit = End;
}
return EFI_SUCCESS;
}
/**
Merge 2 ranges (normal and prefetchable) into a single aperture
comprehending the addresses encompassed by both of them. If both
ranges are not empty they must be contiguous for correctness.
@param[in] Start Range start address
@param[in] Size Range size in bytes
@param[in] PStart Prefetchable range start address
@param[in] PSize Prefetchable range size in bytes
@param[in] MaxValue Max value a valid address could take and which
represents an invalid start address.
@param[out] Aperture Pointer to the aperture to be filled
@retval EFI_SUCCESS Aperture was filled successfully
@retval EFI_INVALID_PARAMETER Either range depicted by Start, Size
or PStart, PSize or both are valid
but ignored because aperture pointer
is NULL
@retval EFI_WARN_BUFFER_TOO_SMALL Aperture pointer is invalid but both
ranges are too so no harm.
**/
STATIC
EFI_STATUS
MergeHostBridgeApertures (
IN UINT64 Start,
IN UINT64 Size,
IN UINT64 PStart,
IN UINT64 PSize,
IN UINT64 MaxValue,
OUT PCI_ROOT_BRIDGE_APERTURE *Aperture
)
{
UINT64 PEnd;
if (Aperture == NULL) {
if (!IS_RANGE_INVALID (Start, Size, MaxValue) ||
!IS_RANGE_INVALID (PStart, PSize, MaxValue))
{
//
// Report an error to the caller since the range specified in
// the host bridge's resources is non-empty but the provided
// aperture pointer is null, thus the valid range is ignored.
//
return EFI_INVALID_PARAMETER;
}
return EFI_WARN_BUFFER_TOO_SMALL;
}
//
// Start from an empty range (Limit < Base)
//
InvalidateRootBridgeAperture (Aperture);
if (!IS_RANGE_INVALID (Start, Size, MaxValue)) {
Aperture->Base = Start;
Aperture->Limit = Start + Size - 1;
}
if (!IS_RANGE_INVALID (PStart, PSize, MaxValue)) {
PEnd = PStart + PSize - 1;
if (PStart < Aperture->Base) {
Aperture->Base = PStart;
}
if (PEnd > Aperture->Limit) {
Aperture->Limit = PEnd;
}
}
return EFI_SUCCESS;
}
EFI_STATUS
HardwareInfoPciHostBridgeGetBusNrRange (
IN CONST HOST_BRIDGE_INFO *HostBridge,
IN UINTN DataSize,
OUT UINTN *BusNrStart,
OUT UINTN *BusNrLast
)
{
if ((HostBridge == NULL) || (DataSize == 0) ||
(BusNrStart == NULL) || (BusNrLast == NULL))
{
return EFI_INVALID_PARAMETER;
}
//
// For now only version 0 is supported
//
if (HostBridge->Version != 0) {
return EFI_INCOMPATIBLE_VERSION;
}
*BusNrStart = HostBridge->BusNrStart;
*BusNrLast = HostBridge->BusNrLast;
return EFI_SUCCESS;
}
EFI_STATUS
HardwareInfoPciHostBridgeGetApertures (
IN CONST HOST_BRIDGE_INFO *HostBridge,
IN UINTN DataSize,
OUT PCI_ROOT_BRIDGE_APERTURE *Io,
OUT PCI_ROOT_BRIDGE_APERTURE *Mem,
OUT PCI_ROOT_BRIDGE_APERTURE *MemAbove4G,
OUT PCI_ROOT_BRIDGE_APERTURE *PMem,
OUT PCI_ROOT_BRIDGE_APERTURE *PMemAbove4G,
OUT PCI_ROOT_BRIDGE_APERTURE *PcieConfig
)
{
EFI_STATUS Status;
BOOLEAN StickyError;
StickyError = FALSE;
if ((HostBridge == NULL) || (DataSize == 0)) {
return EFI_INVALID_PARAMETER;
}
//
// For now only version 0 is supported
//
if (HostBridge->Version != 0) {
return EFI_INCOMPATIBLE_VERSION;
}
Status = FillHostBridgeAperture (
HostBridge->IoStart,
HostBridge->IoSize,
MAX_UINT32,
Io
);
StickyError |= EFI_ERROR (Status);
Status = FillHostBridgeAperture (
HostBridge->PcieConfigStart,
HostBridge->PcieConfigSize,
MAX_UINT64,
PcieConfig
);
StickyError |= EFI_ERROR (Status);
if (HostBridge->Flags.Bits.CombineMemPMem) {
Status = MergeHostBridgeApertures (
HostBridge->MemStart,
HostBridge->MemSize,
HostBridge->PMemStart,
HostBridge->PMemSize,
MAX_UINT32,
Mem
);
StickyError |= EFI_ERROR (Status);
Status = MergeHostBridgeApertures (
HostBridge->MemAbove4GStart,
HostBridge->MemAbove4GSize,
HostBridge->PMemAbove4GStart,
HostBridge->PMemAbove4GSize,
MAX_UINT64,
MemAbove4G
);
StickyError |= EFI_ERROR (Status);
//
// Invalidate unused apertures
//
InvalidateRootBridgeAperture (PMem);
InvalidateRootBridgeAperture (PMemAbove4G);
} else {
Status = FillHostBridgeAperture (
HostBridge->MemStart,
HostBridge->MemSize,
MAX_UINT32,
Mem
);
StickyError |= EFI_ERROR (Status);
Status = FillHostBridgeAperture (
HostBridge->PMemStart,
HostBridge->PMemSize,
MAX_UINT32,
PMem
);
StickyError |= EFI_ERROR (Status);
Status = FillHostBridgeAperture (
HostBridge->MemAbove4GStart,
HostBridge->MemAbove4GSize,
MAX_UINT64,
MemAbove4G
);
StickyError |= EFI_ERROR (Status);
Status = FillHostBridgeAperture (
HostBridge->PMemAbove4GStart,
HostBridge->PMemAbove4GSize,
MAX_UINT64,
PMem
);
StickyError |= EFI_ERROR (Status);
}
if (StickyError) {
//
// If any function returned an error it is due to a valid range
// specified in the host bridge that was ignored due to a NULL
// pointer. Translate it to a warning to allow for calling with
// only a subset of the apertures.
//
return EFI_WARN_STALE_DATA;
}
return EFI_SUCCESS;
}
EFI_STATUS
HardwareInfoPciHostBridgeGetFlags (
IN CONST HOST_BRIDGE_INFO *HostBridge,
IN UINTN DataSize,
OUT UINT64 *Attributes OPTIONAL,
OUT BOOLEAN *DmaAbove4G OPTIONAL,
OUT BOOLEAN *NoExtendedConfigSpace OPTIONAL,
OUT BOOLEAN *CombineMemPMem OPTIONAL
)
{
if ((HostBridge == NULL) || (DataSize == 0)) {
return EFI_INVALID_PARAMETER;
}
//
// For now only version 0 is supported
//
if (HostBridge->Version != 0) {
return EFI_INCOMPATIBLE_VERSION;
}
if (Attributes) {
*Attributes = HostBridge->Attributes;
}
if (DmaAbove4G) {
*DmaAbove4G = !!HostBridge->Flags.Bits.DmaAbove4G;
}
if (NoExtendedConfigSpace) {
*NoExtendedConfigSpace = !!HostBridge->Flags.Bits.NoExtendedConfigSpace;
}
if (CombineMemPMem) {
*CombineMemPMem = !!HostBridge->Flags.Bits.CombineMemPMem;
}
return EFI_SUCCESS;
}
EFI_STATUS
HardwareInfoPciHostBridgeGet (
IN CONST HOST_BRIDGE_INFO *HostBridge,
IN UINTN DataSize,
OUT UINTN *BusNrStart,
OUT UINTN *BusNrLast,
OUT UINT64 *Attributes OPTIONAL,
OUT BOOLEAN *DmaAbove4G OPTIONAL,
OUT BOOLEAN *NoExtendedConfigSpace OPTIONAL,
OUT BOOLEAN *CombineMemPMem OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *Io OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *Mem OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *MemAbove4G OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *PMem OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *PMemAbove4G OPTIONAL,
OUT PCI_ROOT_BRIDGE_APERTURE *PcieConfig OPTIONAL
)
{
EFI_STATUS Status;
Status = HardwareInfoPciHostBridgeGetBusNrRange (
HostBridge,
DataSize,
BusNrStart,
BusNrLast
);
if (EFI_ERROR (Status)) {
return Status;
}
Status = HardwareInfoPciHostBridgeGetFlags (
HostBridge,
DataSize,
Attributes,
DmaAbove4G,
NoExtendedConfigSpace,
CombineMemPMem
);
if (EFI_ERROR (Status)) {
return Status;
}
Status = HardwareInfoPciHostBridgeGetApertures (
HostBridge,
DataSize,
Io,
Mem,
MemAbove4G,
PMem,
PMemAbove4G,
PcieConfig
);
return Status;
}
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