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qemu / skiboot / 23c01ab3eb4cf0d4487d548257f330d19bef3188 / . / external / opal-prd / hostboot-interface.h
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// SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
/*
* Hostboot runtime interface
*
* Derived from src/include/runtime/interface.h in Hostboot
*
* Copyright 2013-2018 IBM Corp.
*/
#include <stdint.h>
#define HOSTBOOT_RUNTIME_INTERFACE_VERSION 0x9002
/** Memory error types defined for memory_error() interface. */
enum MemoryError_t
{
/** Hardware has reported a solid memory CE that is
* correctable, but continues to report errors on subsequent
* reads. A second CE on that cache line will result in memory
* UE. Therefore, it is advised to migrate off of the address
* range as soon as possible. */
MEMORY_ERROR_CE = 0,
/** Hardware has reported an uncorrectable error in memory
* (memory UE, channel failure, etc). The hypervisor should
* migrate any partitions off this address range as soon as
* possible. Note that these kind of errors will most likely
* result in partition failures. It is advised that the
* hypervisor waits some time for PRD to handle hardware
* attentions so that the hypervisor will know all areas of
* memory that are impacted by the failure. */
MEMORY_ERROR_UE = 1,
/** Firmware has predictively requested service on a part in the memory
* subsystem. The partitions may not have been affected, but it is
* advised to migrate off of the address range as soon as possible to
* avoid potential partition outages. */
MEMORY_ERROR_PREDICTIVE = 2,
};
/** Capability sets, for get_interface_capabilities */
#define HBRT_CAPS_SET0_COMMON 0
#define HBRT_CAPS_SET1_OPAL 1
#define HBRT_CAPS_SET2_PHYP 2
/* Capability flags */
/**
* xscom_read and xscom_write return proper return codes on error.
* Previous implementations may have incorrectly ignored failures.
*/
#define HBRT_CAPS_OPAL_HAS_XSCOM_RC (1ul << 0)
/**
* OPAL supports wakeup interface
*/
#define HBRT_CAPS_OPAL_HAS_WAKEUP_SUPPORT (1ul << 1)
/**
* OPAL supports '2=clear all previous forces' argument
*/
#define HBRT_CAPS_OPAL_HAS_WAKEUP_CLEAR (1ul << 2)
/********************/
/**
* Load types for the load_pm_complex() interface
* HBRT_PM_LOAD: initial load of all lids/sections from scratch,
* preserve nothing
* HBRT_PM_RELOAD: concurrent reload of all lids/sections,
* but preserve runtime updates
*/
#define HBRT_PM_LOAD 0
#define HBRT_PM_RELOAD 1
/** Common return codes for scom_read(), scom_write(). */
#define HBRT_RC_RANGE__SCOM 0x1000
/* RC for a piberr is equal to 0x1000 plus the pib error value,
made into a negative */
#define HBRT_RC_PIBERR_MASK (0x00000000u - 0x00001007u) /* 0xFFFF_EFF9 */
#define HBRT_RC_PIBERR_001_BUSY (0x00000000u - 0x00001001u) /* 0xFFFF_EFFF */
#define HBRT_RC_PIBERR_010_OFFLINE (0x00000000u - 0x00001002u) /* 0xFFFF_EFFE */
#define HBRT_RC_PIBERR_011_PGOOD (0x00000000u - 0x00001003u) /* 0xFFFF_EFFD */
#define HBRT_RC_PIBERR_100_INVALIDADDR (0x00000000u - 0x00001004u) /* 0xFFFF_EFFC */
#define HBRT_RC_PIBERR_101_CLOCKERR (0x00000000u - 0x00001005u) /* 0xFFFF_EFFB */
#define HBRT_RC_PIBERR_110_PARITYERR (0x00000000u - 0x00001006u) /* 0xFFFF_EFFA */
#define HBRT_RC_PIBERR_111_TIMEOUT (0x00000000u - 0x00001007u) /* 0xFFFF_EFF9 */
/* Memory channel failure caused an error out to buffer chip. */
#define HBRT_RC_CHANNEL_FAILURE (0x00000000u - 0x00001008u) /* 0xFFFF_EFF8 */
/* Any host-specific RCs will be this value or bigger */
#define HBRT_RC_NEXT_OPEN_RC (0x00000000u - 0x00001009u) /* 0xFFFF_EFF7 */
/********************/
/** Common return codes for firmware_request(). -0x2000 */
#define HBRT_RC_RANGE__FIRMWARE_REQUEST 0x2000
/* FSP failed due to a a reset/reload. Only applicable when
* hostInterfaces::hbrt_fw_msg::io_type is set to
* HBRT_FW_MSG_HBRT_FSP_REQ
*/
#define HBRT_RC_FSPDEAD -8193 //0x2001
/********************/
/** Common return codes for wakeup(). -0x3000 */
#define HBRT_RC_RANGE__WAKEUP 0x3000
/* Wakeup was rejected because core was in checkstop statte */
#define HBRT_RC_WAKEUP_INVALID_ON_CORE_XSTOP -12289 /* -0x3001 */
/********************/
/* FSP failed due to a a reset/reload. Only applicable when
* hostInterfaces::hbrt_fw_msg::io_type is set to
* HBRT_FW_MSG_HBRT_FSP_REQ
*/
#define HBRT_RC_FSPDEAD -8193 //0x2001
/********************/
struct host_interfaces {
/** Interface version. */
uint64_t interface_version;
/** Put a string to the console. */
void (*puts)(const char*);
/** Critical failure in runtime execution. */
void (*assert)(void);
/** OPTIONAL. Hint to environment that the page may be executed. */
int (*set_page_execute)(void*);
/** malloc */
void *(*malloc)(size_t);
/** free */
void (*free)(void*);
/** realloc */
void *(*realloc)(void*, size_t);
/**
* @brief Send a PEL to the FSP
* @param[in] plid Platform Log identifier
* @param[in] data size in bytes
* @param[in] pointer to data
* @return 0 on success else error code
* @platform FSP
*/
int (*send_error_log)(uint32_t,uint32_t,void *);
/**
* @brief Scan communication read
* @param[in] chip_id (based on devtree defn)
* @param[in] address
* @param[in] pointer to 8-byte data buffer
* @return 0 on success else return code
* @platform FSP,OpenPOWER
*/
int (*scom_read)(uint64_t, uint64_t, void*);
/**
* @brief Scan communication write
* @param[in] chip_id (based on devtree defn)
* @param[in] address
* @param[in] pointer to 8-byte data buffer
* @return 0 on success else return code
* @platform FSP,OpenPOWER
*/
int (*scom_write)(uint64_t, uint64_t, const void *);
/**
* @brief Load a LID from PNOR, FSP, etc.
*
* @param[in] LID number.
* @param[out] Allocated buffer for LID.
* @param[out] Size of LID (in bytes).
*
* @return 0 on success, else RC.
* @platform FSP
*/
int (*lid_load)(uint32_t lid, void **buf, size_t *len);
/**
* @brief Release memory from previously loaded LID.
*
* @param[in] Allocated buffer for LID to release.
*
* @return 0 on success, else RC.
* @platform FSP
*/
int (*lid_unload)(void *buf);
/**
* @brief Get the address of a reserved memory region by its devtree
* name.
*
* @param[in] Devtree name (ex. "ibm,hbrt-vpd-image")
* @param[in] Devtree instance
* @return physical address of region (or NULL).
* @platform FSP,OpenPOWER
*/
uint64_t (*get_reserved_mem)(const char *name, uint32_t instance);
/**
* @brief Force a core to be awake, or clear the force
* @param[in] i_core Core to wake up (pid)
* @param[in] i_mode 0=force awake
* 1=clear force
* 2=clear all previous forces
* @return rc non-zero on error
* @platform FSP
*/
int (*wakeup)( uint32_t i_core, uint32_t i_mode );
/**
* @brief Delay/sleep for at least the time given
*
* The sleep time must be normalised; i_nano_seconds should be between
* 0 and 999999999.
*
* @param[in] seconds
* @param[in] nano seconds
* @platform FSP,OpenPOWER
*/
void (*nanosleep)(uint64_t i_seconds, uint64_t i_nano_seconds);
/**
* @brief Report an OCC error to the host
* @param[in] Failing status that identifies the nature of the fail
* @param[in] Identifier that specifies the failing part
* @platform FSP
*/
void (*report_occ_failure)( uint64_t i_status, uint64_t i_partId );
/**
* @brief Reads the clock value from a POSIX clock.
* @param[in] i_clkId - The clock ID to read.
* @param[out] o_tp - The timespec struct to store the clock value in.
*
* @return 0 or -(errno).
* @retval 0 - SUCCESS.
* @retval -EINVAL - Invalid clock requested.
* @retval -EFAULT - NULL ptr given for timespec struct.
*
* @platform OpenPOWER
*/
int (*clock_gettime)( clockid_t i_clkId, struct timespec* o_tp );
/**
* @brief Read Pnor
* @param[in] i_proc: processor Id
* @param[in] i_partitionName: name of the partition to read
* @param[in] i_offset: offset within the partition
* @param[out] o_data: pointer to the data read
* @param[in] i_sizeBytes: size of data to read
* @retval rc - number of bytes read, or non-zero on error
* @platform OpenPOWER
*/
int (*pnor_read) ( uint32_t i_proc, const char* i_partitionName,
uint64_t i_offset, void* o_data, size_t i_sizeBytes );
/**
* @brief Write to Pnor
* @param[in] i_proc: processor Id
* @param[in] i_partitionName: name of the partition to write
* @param[in] i_offset: offset within the partition
* @param[in] i_data: pointer to the data to write
* @param[in] i_sizeBytes: size of data to write
* @retval rc - number of bytes written, or non-zero on error
* @platform OpenPOWER
*/
int (*pnor_write) ( uint32_t i_proc, const char* i_partitionName,
uint64_t i_offset, void* i_data, size_t i_sizeBytes );
/**
* i2c master description: chip, engine and port packed into
* a single 64-bit argument
*
* ---------------------------------------------------
* | chip | reserved | eng | port |
* | (32) | (16) | (8) | (8) |
* ---------------------------------------------------
*/
#define HBRT_I2C_MASTER_CHIP_SHIFT 32
#define HBRT_I2C_MASTER_CHIP_MASK (0xfffffffful << 32)
#define HBRT_I2C_MASTER_ENGINE_SHIFT 8
#define HBRT_I2C_MASTER_ENGINE_MASK (0xfful << 8)
#define HBRT_I2C_MASTER_PORT_SHIFT 0
#define HBRT_I2C_MASTER_PORT_MASK (0xfful)
/**
* @brief Read data from an i2c device
* @param[in] i_master - Chip/engine/port of i2c bus
* @param[in] i_devAddr - I2C address of device
* @param[in] i_offsetSize - Length of offset (in bytes)
* @param[in] i_offset - Offset within device to read
* @param[in] i_length - Number of bytes to read
* @param[out] o_data - Data that was read
* @return 0 on success else return code
* @platform OpenPOWER
*/
int (*i2c_read)( uint64_t i_master, uint16_t i_devAddr,
uint32_t i_offsetSize, uint32_t i_offset,
uint32_t i_length, void* o_data );
/**
* @brief Write data to an i2c device
* @param[in] i_master - Chip/engine/port of i2c bus
* @param[in] i_devAddr - I2C address of device
* @param[in] i_offsetSize - Length of offset (in bytes)
* @param[in] i_offset - Offset within device to write
* @param[in] i_length - Number of bytes to write
* @param[in] Data to write
* @return 0 on success else return code
* @platform OpenPOWER
*/
int (*i2c_write)( uint64_t i_master, uint16_t i_devAddr,
uint32_t i_offsetSize, uint32_t i_offset,
uint32_t i_length, void* i_data );
/**
* Perform an IPMI transaction
* @param[in] netfn The IPMI netfn byte
* @param[in] cmd The IPMI cmd byte
* @param[in] tx_buf The IPMI packet to send to the host
* @param[in] tx_size The number of bytes, to send
* @param[in] rx_buf A buffer to be populated with the IPMI
* response.
* @param[inout] rx_size The allocated size of the rx buffer on
* input, updated to the size of the response on output.
* This should always begin with the IPMI completion
* code.
*/
int (*ipmi_msg)(uint8_t netfn, uint8_t cmd,
void *tx_buf, size_t tx_size,
void *rx_buf, size_t *rx_size);
/**
* @brief Hardware has reported a memory error. This function requests
* the hypervisor to remove the all addresses within the address range
* given (including endpoints) from the available memory space.
*
* It is understood that the hypervisor may not be able to immediately
* deallocate the memory because it may be in use by a partition.
* Therefore, the hypervisor should cache all requests and deallocate
* the memory once it has been freed.
*
* @param i_startAddr The beginning address of the range.
* @param i_endAddr The end address of the range.
* @param i_errorType See enum MemoryError_t.
*
* @return 0 if the request is successfully received. Any value other
* than 0 on failure. The hypervisor should cache the request and
* return immediately. It should not wait for the request to be
* applied. See note above.
*/
int (*memory_error)( uint64_t i_startAddr, uint64_t i_endAddr,
enum MemoryError_t i_errorType );
/**
* @brief Query the prd infrastructure for interface capabilities.
* @param[in] i_set The set of capabilites to retrieve
*
* @return a bitmask containing the relevant HBRT_CAPS_* for
* this implementation and the specified set.
*/
uint64_t (*get_interface_capabilities)(uint64_t i_set);
/**
* @brief Map a physical address space into usable memory
* @note Repeated calls to map the same memory should not return an
* error
* @param[in] i_physMem Physical address
* @param[in] i_bytes Number of bytes to map in
* @return NULL on error, else pointer to usable memory
* @platform FSP, OpenPOWER
*/
void* (*map_phys_mem)(uint64_t i_physMem, size_t i_bytes);
/**
* @brief Unmap a physical address space from usable memory
* @param[in] i_ptr Previously mapped pointer
* @return 0 on success, else RC
* @platform FSP, OpenPOWER
*/
int (*unmap_phys_mem)(void* i_ptr);
/**
* @brief Modify the SCOM restore section of the HCODE image with the
* given register data
*
* @note The Hypervisor should perform the following actions:
* - insert the data into the HCODE image (p9_stop_api)
*
* @pre HBRT is responsible for enabling special wakeup on the
* associated core(s) before calling this interface
*
* @param i_chipId processor chip ID
* plus ID type, always proc (0x0)
* @param i_section runtime section to update
* (passthru to pore_gen_scom)
* @param i_operation type of operation to perform
* (passthru to pore_gen_scom)
* @param i_scomAddr fully qualified scom address
* @param i_scomData data for operation
*
* @return 0 if the request is successfully received.
* Any value other than 0 on failure.
* @platform FSP, OpenPOWER
*/
int (*hcode_scom_update)(uint64_t i_chipId,
uint32_t i_section,
uint32_t i_operation,
uint64_t i_scomAddr,
uint64_t i_scomData);
/**
* @brief Send a request to firmware, and receive a response
* @details
* req_len bytes are sent to runtime firmware, and resp_len
* bytes received in response.
*
* Both req and resp are allocated by the caller. If resp_len
* is not large enough to contain the full response, an error
* is returned.
*
* @param[in] i_reqLen length of request data
* @param[in] i_req request data
* @param[inout] o_respLen in: size of request data buffer
* out: length of request data
* @param[in] o_resp response data
* @return 0 on success, else RC
* @platform FSP, OpenPOWER
*/
int (*firmware_request)(uint64_t i_reqLen, void *i_req,
uint64_t *o_respLen, void *o_resp);
/* Reserve some space for future growth. */
void (*reserved[27])(void);
};
struct runtime_interfaces {
/** Interface version. */
uint64_t interface_version;
/**
* @brief Execute CxxTests that may be contained in the image.
*
* @param[in] - Pointer to CxxTestStats structure for results reporting.
*/
void (*cxxtestExecute)(void *);
/**
* @brief Get a list of lids numbers of the lids known to HostBoot
*
* @param[out] o_num - the number of lids in the list
* @return a pointer to the list
* @platform FSP
*/
const uint32_t * (*get_lid_list)(size_t * o_num);
/**
* @brief Load OCC Image and common data into mainstore, also setup OCC
* BARSs
*
* @param[in] i_homer_addr_phys - The physical mainstore address of the
* start of the HOMER image
* @param[in] i_homer_addr_va - Virtual memory address of the HOMER
* image
* @param[in] i_common_addr_phys - The physical mainstore address
* of the OCC common area.
* @param[in] i_common_addr_va - Virtual memory address of the common
* area
* @param[in] i_chip - The HW chip id (XSCOM chip ID)
* @return 0 on success else return code
* @platform FSP
*/
int (*occ_load)(uint64_t i_homer_addr_phys,
uint64_t i_homer_addr_va,
uint64_t i_common_addr_phys,
uint64_t i_common_addr_va,
uint64_t i_chip);
/**
* @brief Start OCC on all chips, by module
*
* @param[in] i_chip - Array of functional HW chip ids
* @Note The caller must include a complete modules worth of chips
* @param[in] i_num_chips - Number of chips in the array
* @return 0 on success else return code
* @platform FSP
*/
int (*occ_start)(uint64_t* i_chip, size_t i_num_chips);
/**
* @brief Stop OCC hold OCCs in reset
*
* @param[in] i_chip - Array of functional HW chip ids
* @Note The caller must include a complete modules worth of chips
* @param[in] i_num_chips - Number of chips in the array
* @return 0 on success else return code
* @platform FSP
*/
int (*occ_stop)(uint64_t* i_chip, size_t i_num_chips);
/**
* @brief Notify HTMGT that an OCC has an error to report
*
* @details When an OCC has encountered an error that it wants to
* be reported, this interface will be called to trigger
* HTMGT to collect and commit the error.
*
* @param[i] i_chipId - Id of processor with failing OCC
* @platform OpenPower
*/
void (*process_occ_error) (uint64_t i_chipId);
/**
* @brief Enable chip attentions
*
* @return 0 on success else return code
* @platform OpenPower
*/
int (*enable_attns)(void);
/**
* @brief Disable chip attentions
*
* @return 0 on success else return code
* @platform OpenPower
*/
int (*disable_attns)(void);
/**
* @brief handle chip attentions
*
* @param[in] i_proc - processor chip id at attention XSCOM chip id
* based on devtree defn
* @param[in] i_ipollStatus - processor chip Ipoll status
* @param[in] i_ipollMask - processor chip Ipoll mask
* @return 0 on success else return code
* @platform OpenPower
*/
int (*handle_attns)(uint64_t i_proc, uint64_t i_ipollStatus,
uint64_t i_ipollMask);
/**
* @brief Notify HTMGT that an OCC has failed and needs to be reset
*
* @details When BMC detects an OCC failure that requires a reset,
* this interface will be called to trigger the OCC reset. HTMGT
* maintains a reset count and if there are additional resets
* available, the OCCs get reset/reloaded. If the recovery attempts
* have been exhauseted or the OCC fails to go active, an unrecoverable
* error will be logged and the system will remain in safe mode.
*
* @param[in] i_chipId ChipID which identifies the OCC reporting an
* error
* @platform OpenPOWER
*/
void (*process_occ_reset)(uint64_t i_chipId);
/**
* @brief Change the OCC state
*
* @details This is a blocking call that will change the OCC state.
* The OCCs will only actuate (update processor frequency/ voltages)
* when in Active state. The OCC will only be monitoring/observing
* when in Observation state.
*
* @note When the OCCs are initially started, the state will
* default to Active. If the state is changed to Observation, that
* state will be retained until the next IPL. (If the OCC would get
* reset, it would return to the last requested state)
*
* @param[in] i_occActivation set to true to move OCC to Active state
* or false to move OCC to Observation state
*
* @return 0 on success, or return code if the state did not change.
* @platform OpenPower
*/
int (*enable_occ_actuation)(bool i_occActivation);
/**
* @brief Apply a set of attribute overrides
*
* @param[in] pointer to binary override data
* @param[in] length of override data (bytes)
* @returns 0 on success, or return code if the command failed
*
* @platform OpenPower
*/
int (*apply_attr_override)(uint8_t *i_data, size_t size);
/**
* @brief Send a pass-through command to HTMGT
*
* @details This is a blocking call that will send a command to
* HTMGT.
*
* @note If o_rspLength is returned with a non-zero value, the
* data at the o_rspData should be dumped to stdout in a
* hex dump format.
* @note The maximum response data returned will be 4096 bytes
*
* @param[in] i_cmdLength number of bytes in pass-thru command data
* @param[in] *i_cmdData pointer to pass-thru command data
* @param[out] *o_rspLength pointer to number of bytes returned in
* o_rspData
* @param[out] *o_rspData pointer to a 4096 byte buffer that will
* contain the response data from the command
*
* @returns 0 on success, or return code if the command failed
* @platform OpenPower
*/
int (*mfg_htmgt_pass_thru)(uint16_t i_cmdLength, uint8_t *i_cmdData,
uint16_t *o_rspLength, uint8_t *o_rspData);
/**
* @brief Execute an arbitrary command inside hostboot runtime
* @param[in] Number of arguments (standard C args)
* @param[in] Array of argument values (standard C args)
* @param[out] Response message (NULL terminated), memory allocated
* by hbrt, if o_outString is NULL then no response will
* be sent
* @return 0 on success, else error code
*/
int (*run_command)(int argc, const char **argv, char **o_outString);
/**
* @brief Verify integrity of a secure container
* @param[in] i_pContainer Pointer to a valid secure container,
* Must not be NULL. Container is assumed to be stripped of any
* ECC and must start with a valid secure header (which contains
* the container size information)
* @param[in] i_pHwKeyHash Pointer to a valid hardware keys' hash.
* Must not be NULL.
* @param[in] i_hwKeyHashSize Size of the hardware keys' hash.
* A value which incorrectly states the size of the hardware keys'
* hash will be detected as a verification error or worse, an
* illegal memory access. Must not be 0.
* @note If secureboot is compiled out, the function pointer will be
* set to NULL. If caller's secureboot support is compiled in and
* secureboot is enabled by policy, then caller should treat a NULL
* pointer as a verification failure.
* @return Integer error code indicating success or failure
* @retval 0 Container verified correctly
* @retval !0 API error or otherwise failed to verify container
* @platform FSP, OpenPOWER
*/
int (*verify_container)(const void *i_pContainer,
const void *i_pHwKeyHash,
size_t i_hwKeyHashSize);
/**
* @brief SBE message passing
*
* @details
* This is a blocking call that will pass an SBE message
* with a pass-through command through HBRT to code that
* will process the command and provide a response.
*
* @param[in] i_procChipId Chip ID of the processor whose SBE is
* passing the message and sent the interrupt
*
* @return 0 on success, or return code if the command failed
* @platform FSP, OpenPOWER
*/
int (*sbe_message_passing)(uint32_t i_procChipId);
/**
* @brief Load OCC/HCODE images into mainstore
*
* @param[in] i_chip the HW chip id (XSCOM chip ID)
* @param[in] i_homer_addr the physical mainstore address of the
* start of the HOMER image,
* @param[in] i_occ_common_addr the physical mainstore address of the
* OCC common area, 8MB, used for
* OCC-OCC communication (1 per node)
* @param[in] i_mode selects initial load vs concurrent
* reloads
* HBRT_PM_LOAD:
* load all lids/sections from scratch,
* preserve nothing
* HBRT_PM_RELOAD:
* reload all lids/sections,
* but preserve runtime updates
* @return 0 on success else return code
* @platform FSP, OpenPOWER
*/
int (*load_pm_complex)(uint64_t i_chip,
uint64_t i_homer_addr,
uint64_t i_occ_common_addr,
uint32_t i_mode);
/**
* @brief Start OCC/HCODE on the specified chip
* @param[in] i_chip the HW chip id
* @return 0 on success else return code
* @platform FSP, OpenPOWER
*/
int (*start_pm_complex)(uint64_t i_chip);
/**
* @brief Reset OCC/HCODE on the specified chip
* @param[in] i_chip the HW chip id
* @return 0 on success else return code
* @platform FSP, OpenPOWER
*/
int (*reset_pm_complex)(uint64_t i_chip);
/**
* @brief Query the IPOLL event mask supported by HBRT
*
* @details This call allows the wrapper application to query
* the ipoll event mask to set when the HBRT instance is running. Bits
* that are *set* in this bitmask represent events that will be
* forwarded to the handle_attn() callback.
*
* @return The IPOLL event bits to enable during HBRT execution
* @platform FSP, OpenPOWER
*/
uint64_t (*get_ipoll_events)(void);
/**
* @brief Receive an async notification from firmware
* @param[in] i_len length of notification data
* @param[in] i_data notification data
* @platform FSP, OpenPOWER
*/
void (*firmware_notify)(uint64_t len, void *data);
/**
* @brief Prepare for HBRT concurrent code update
*
* @details This call allows the Host to inform HBRT that a concurrent
* code update has been initiated. HBRT then prepares updated targeting
* data for use by the updated HBRT code.
*
* @return 0 on success else return code
* @platform FSP
*/
int (*prepare_hbrt_update)( void );
/* Reserve some space for future growth. */
void (*reserved[21])(void);
};