WSL2-Linux-Kernel/lib/pldmfw/pldmfw_private.h

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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (C) 2018-2019, Intel Corporation. */
#ifndef _PLDMFW_PRIVATE_H_
#define _PLDMFW_PRIVATE_H_
/* The following data structures define the layout of a firmware binary
* following the "PLDM For Firmware Update Specification", DMTF standard
* #DSP0267.
*
* pldmfw.c uses these structures to implement a simple engine that will parse
* a fw binary file in this format and perform a firmware update for a given
* device.
*
* Due to the variable sized data layout, alignment of fields within these
* structures is not guaranteed when reading. For this reason, all multi-byte
* field accesses should be done using the unaligned access macros.
* Additionally, the standard specifies that multi-byte fields are in
* LittleEndian format.
*
* The structure definitions are not made public, in order to keep direct
* accesses within code that is prepared to deal with the limitation of
* unaligned access.
*/
/* UUID for PLDM firmware packages: f018878c-cb7d-4943-9800-a02f059aca02 */
static const uuid_t pldm_firmware_header_id =
UUID_INIT(0xf018878c, 0xcb7d, 0x4943,
0x98, 0x00, 0xa0, 0x2f, 0x05, 0x9a, 0xca, 0x02);
/* Revision number of the PLDM header format this code supports */
#define PACKAGE_HEADER_FORMAT_REVISION 0x01
/* timestamp104 structure defined in PLDM Base specification */
#define PLDM_TIMESTAMP_SIZE 13
struct __pldm_timestamp {
u8 b[PLDM_TIMESTAMP_SIZE];
} __packed __aligned(1);
/* Package Header Information */
struct __pldm_header {
uuid_t id; /* PackageHeaderIdentifier */
u8 revision; /* PackageHeaderFormatRevision */
__le16 size; /* PackageHeaderSize */
struct __pldm_timestamp release_date; /* PackageReleaseDateTime */
__le16 component_bitmap_len; /* ComponentBitmapBitLength */
u8 version_type; /* PackageVersionStringType */
u8 version_len; /* PackageVersionStringLength */
/*
* DSP0267 also includes the following variable length fields at the
* end of this structure:
*
* PackageVersionString, length is version_len.
*
* The total size of this section is
* sizeof(pldm_header) + version_len;
*/
u8 version_string[]; /* PackageVersionString */
} __packed __aligned(1);
/* Firmware Device ID Record */
struct __pldmfw_record_info {
__le16 record_len; /* RecordLength */
u8 descriptor_count; /* DescriptorCount */
__le32 device_update_flags; /* DeviceUpdateOptionFlags */
u8 version_type; /* ComponentImageSetVersionType */
u8 version_len; /* ComponentImageSetVersionLength */
__le16 package_data_len; /* FirmwareDevicePackageDataLength */
/*
* DSP0267 also includes the following variable length fields at the
* end of this structure:
*
* ApplicableComponents, length is component_bitmap_len from header
* ComponentImageSetVersionString, length is version_len
* RecordDescriptors, a series of TLVs with 16bit type and length
* FirmwareDevicePackageData, length is package_data_len
*
* The total size of each record is
* sizeof(pldmfw_record_info) +
* component_bitmap_len (converted to bytes!) +
* version_len +
* <length of RecordDescriptors> +
* package_data_len
*/
u8 variable_record_data[];
} __packed __aligned(1);
/* Firmware Descriptor Definition */
struct __pldmfw_desc_tlv {
__le16 type; /* DescriptorType */
__le16 size; /* DescriptorSize */
u8 data[]; /* DescriptorData */
} __aligned(1);
/* Firmware Device Identification Area */
struct __pldmfw_record_area {
u8 record_count; /* DeviceIDRecordCount */
/* This is not a struct type because the size of each record varies */
u8 records[];
} __aligned(1);
/* Individual Component Image Information */
struct __pldmfw_component_info {
__le16 classification; /* ComponentClassfication */
__le16 identifier; /* ComponentIdentifier */
__le32 comparison_stamp; /* ComponentComparisonStamp */
__le16 options; /* componentOptions */
__le16 activation_method; /* RequestedComponentActivationMethod */
__le32 location_offset; /* ComponentLocationOffset */
__le32 size; /* ComponentSize */
u8 version_type; /* ComponentVersionStringType */
u8 version_len; /* ComponentVersionStringLength */
/*
* DSP0267 also includes the following variable length fields at the
* end of this structure:
*
* ComponentVersionString, length is version_len
*
* The total size of this section is
* sizeof(pldmfw_component_info) + version_len;
*/
u8 version_string[]; /* ComponentVersionString */
} __packed __aligned(1);
/* Component Image Information Area */
struct __pldmfw_component_area {
__le16 component_image_count;
/* This is not a struct type because the component size varies */
u8 components[];
} __aligned(1);
/**
* pldm_first_desc_tlv
* @start: byte offset of the start of the descriptor TLVs
*
* Converts the starting offset of the descriptor TLVs into a pointer to the
* first descriptor.
*/
#define pldm_first_desc_tlv(start) \
((const struct __pldmfw_desc_tlv *)(start))
/**
* pldm_next_desc_tlv
* @desc: pointer to a descriptor TLV
*
* Finds the pointer to the next descriptor following a given descriptor
*/
#define pldm_next_desc_tlv(desc) \
((const struct __pldmfw_desc_tlv *)((desc)->data + \
get_unaligned_le16(&(desc)->size)))
/**
* pldm_for_each_desc_tlv
* @i: variable to store descriptor index
* @desc: variable to store descriptor pointer
* @start: byte offset of the start of the descriptors
* @count: the number of descriptors
*
* for loop macro to iterate over all of the descriptors of a given PLDM
* record.
*/
#define pldm_for_each_desc_tlv(i, desc, start, count) \
for ((i) = 0, (desc) = pldm_first_desc_tlv(start); \
(i) < (count); \
(i)++, (desc) = pldm_next_desc_tlv(desc))
/**
* pldm_first_record
* @start: byte offset of the start of the PLDM records
*
* Converts a starting offset of the PLDM records into a pointer to the first
* record.
*/
#define pldm_first_record(start) \
((const struct __pldmfw_record_info *)(start))
/**
* pldm_next_record
* @record: pointer to a PLDM record
*
* Finds a pointer to the next record following a given record
*/
#define pldm_next_record(record) \
((const struct __pldmfw_record_info *) \
((const u8 *)(record) + get_unaligned_le16(&(record)->record_len)))
/**
* pldm_for_each_record
* @i: variable to store record index
* @record: variable to store record pointer
* @start: byte offset of the start of the records
* @count: the number of records
*
* for loop macro to iterate over all of the records of a PLDM file.
*/
#define pldm_for_each_record(i, record, start, count) \
for ((i) = 0, (record) = pldm_first_record(start); \
(i) < (count); \
(i)++, (record) = pldm_next_record(record))
/**
* pldm_first_component
* @start: byte offset of the start of the PLDM components
*
* Convert a starting offset of the PLDM components into a pointer to the
* first component
*/
#define pldm_first_component(start) \
((const struct __pldmfw_component_info *)(start))
/**
* pldm_next_component
* @component: pointer to a PLDM component
*
* Finds a pointer to the next component following a given component
*/
#define pldm_next_component(component) \
((const struct __pldmfw_component_info *)((component)->version_string + \
(component)->version_len))
/**
* pldm_for_each_component
* @i: variable to store component index
* @component: variable to store component pointer
* @start: byte offset to the start of the first component
* @count: the number of components
*
* for loop macro to iterate over all of the components of a PLDM file.
*/
#define pldm_for_each_component(i, component, start, count) \
for ((i) = 0, (component) = pldm_first_component(start); \
(i) < (count); \
(i)++, (component) = pldm_next_component(component))
#endif