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- /** \addtogroup hal */
- /** @{*/
- /*
- * Copyright (c) 2006-2016, ARM Limited, All Rights Reserved
- * SPDX-License-Identifier: Apache-2.0
- *
- * Licensed under the Apache License, Version 2.0 (the "License"); you may
- * not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- * http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
- * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
- #ifndef __DRIVER_STORAGE_H
- #define __DRIVER_STORAGE_H
- #include <stdint.h>
- /****** This file has been deprecated since mbed-os-5.5 *****/
- #ifdef __cplusplus
- extern "C" {
- #endif // __cplusplus
- #include "Driver_Common.h"
- #define ARM_STORAGE_API_VERSION ARM_DRIVER_VERSION_MAJOR_MINOR(1,00) /* API version */
- #define _ARM_Driver_Storage_(n) Driver_Storage##n
- #define ARM_Driver_Storage_(n) _ARM_Driver_Storage_(n)
- #define ARM_STORAGE_INVALID_OFFSET (0xFFFFFFFFFFFFFFFFULL) ///< Invalid address (relative to a storage controller's
- ///< address space). A storage block may never start at this address.
- #define ARM_STORAGE_INVALID_ADDRESS (0xFFFFFFFFUL) ///< Invalid address within the processor's memory address space.
- ///< Refer to memory-mapped storage, i.e. < \ref ARM_DRIVER_STORAGE::ResolveAddress().
- /****** Storage specific error codes *****/
- #define ARM_STORAGE_ERROR_NOT_ERASABLE (ARM_DRIVER_ERROR_SPECIFIC - 1) ///< Part (or all) of the range provided to Erase() isn't erasable.
- #define ARM_STORAGE_ERROR_NOT_PROGRAMMABLE (ARM_DRIVER_ERROR_SPECIFIC - 2) ///< Part (or all) of the range provided to ProgramData() isn't programmable.
- #define ARM_STORAGE_ERROR_PROTECTED (ARM_DRIVER_ERROR_SPECIFIC - 3) ///< Part (or all) of the range to Erase() or ProgramData() is protected.
- #define ARM_STORAGE_ERROR_RUNTIME_OR_INTEGRITY_FAILURE (ARM_DRIVER_ERROR_SPECIFIC - 4) ///< Runtime or sanity-check failure.
- /**
- * \brief Attributes of the storage range within a storage block.
- */
- typedef struct _ARM_STORAGE_BLOCK_ATTRIBUTES {
- uint32_t erasable : 1; ///< Erasing blocks is permitted with a minimum granularity of 'erase_unit'.
- ///< @note: if 'erasable' is 0--i.e. the 'erase' operation isn't available--then
- ///< 'erase_unit' (see below) is immaterial and should be 0.
- uint32_t programmable : 1; ///< Writing to ranges is permitted with a minimum granularity of 'program_unit'.
- ///< Writes are typically achieved through the ProgramData operation (following an erase);
- ///< if storage isn't erasable (see 'erasable' above) but is memory-mapped
- ///< (i.e. 'memory_mapped'), it can be written directly using memory-store operations.
- uint32_t executable : 1; ///< This storage block can hold program data; the processor can fetch and execute code
- ///< sourced from it. Often this is accompanied with the device being 'memory_mapped' (see \ref ARM_STORAGE_INFO).
- uint32_t protectable : 1; ///< The entire block can be protected from program and erase operations. Once protection
- ///< is enabled for a block, its 'erasable' and 'programmable' bits are turned off.
- uint32_t reserved : 28;
- uint32_t erase_unit; ///< Minimum erase size in bytes.
- ///< The offset of the start of the erase-range should also be aligned with this value.
- ///< Applicable if the 'erasable' attribute is set for the block.
- ///< @note: if 'erasable' (see above) is 0--i.e. the 'erase' operation isn't available--then
- ///< 'erase_unit' is immaterial and should be 0.
- uint32_t protection_unit; ///< Minimum protectable size in bytes. Applicable if the 'protectable'
- ///< attribute is set for the block. This should be a divisor of the block's size. A
- ///< block can be considered to be made up of consecutive, individually-protectable fragments.
- } ARM_STORAGE_BLOCK_ATTRIBUTES;
- /**
- * \brief A storage block is a range of memory with uniform attributes. Storage blocks
- * combine to make up the address map of a storage controller.
- */
- typedef struct _ARM_STORAGE_BLOCK {
- uint64_t addr; ///< This is the start address of the storage block. It is
- ///< expressed as an offset from the start of the storage map
- ///< maintained by the owning storage controller.
- uint64_t size; ///< This is the size of the storage block, in units of bytes.
- ///< Together with addr, it describes a range [addr, addr+size).
- ARM_STORAGE_BLOCK_ATTRIBUTES attributes; ///< Attributes for this block.
- } ARM_STORAGE_BLOCK;
- /**
- * The check for a valid ARM_STORAGE_BLOCK.
- */
- #define ARM_STORAGE_VALID_BLOCK(BLK) (((BLK)->addr != ARM_STORAGE_INVALID_OFFSET) && ((BLK)->size != 0))
- /**
- * \brief Values for encoding storage memory-types with respect to programmability.
- *
- * Please ensure that the maximum of the following memory types doesn't exceed 16; we
- * encode this in a 4-bit field within ARM_STORAGE_INFO::programmability.
- */
- #define ARM_STORAGE_PROGRAMMABILITY_RAM (0x0)
- #define ARM_STORAGE_PROGRAMMABILITY_ROM (0x1) ///< Read-only memory.
- #define ARM_STORAGE_PROGRAMMABILITY_WORM (0x2) ///< write-once-read-only-memory (WORM).
- #define ARM_STORAGE_PROGRAMMABILITY_ERASABLE (0x3) ///< re-programmable based on erase. Supports multiple writes.
- /**
- * Values for encoding data-retention levels for storage blocks.
- *
- * Please ensure that the maximum of the following retention types doesn't exceed 16; we
- * encode this in a 4-bit field within ARM_STORAGE_INFO::retention_level.
- */
- #define ARM_RETENTION_WHILE_DEVICE_ACTIVE (0x0) ///< Data is retained only during device activity.
- #define ARM_RETENTION_ACROSS_SLEEP (0x1) ///< Data is retained across processor sleep.
- #define ARM_RETENTION_ACROSS_DEEP_SLEEP (0x2) ///< Data is retained across processor deep-sleep.
- #define ARM_RETENTION_BATTERY_BACKED (0x3) ///< Data is battery-backed. Device can be powered off.
- #define ARM_RETENTION_NVM (0x4) ///< Data is retained in non-volatile memory.
- /**
- * Device Data Security Protection Features. Applicable mostly to EXTERNAL_NVM.
- */
- typedef struct _ARM_STORAGE_SECURITY_FEATURES {
- uint32_t acls : 1; ///< Protection against internal software attacks using ACLs.
- uint32_t rollback_protection : 1; ///< Roll-back protection. Set to true if the creator of the storage
- ///< can ensure that an external attacker can't force an
- ///< older firmware to run or to revert back to a previous state.
- uint32_t tamper_proof : 1; ///< Tamper-proof memory (will be deleted on tamper-attempts using board level or chip level sensors).
- uint32_t internal_flash : 1; ///< Internal flash.
- uint32_t reserved1 : 12;
- /**
- * Encode support for hardening against various classes of attacks.
- */
- uint32_t software_attacks : 1; ///< device software (malware running on the device).
- uint32_t board_level_attacks : 1; ///< board level attacks (debug probes, copy protection fuses.)
- uint32_t chip_level_attacks : 1; ///< chip level attacks (tamper-protection).
- uint32_t side_channel_attacks : 1; ///< side channel attacks.
- uint32_t reserved2 : 12;
- } ARM_STORAGE_SECURITY_FEATURES;
- #define ARM_STORAGE_PROGRAM_CYCLES_INFINITE (0UL) /**< Infinite or unknown endurance for reprogramming. */
- /**
- * \brief Storage information. This contains device-metadata. It is the return
- * value from calling GetInfo() on the storage driver.
- *
- * \details These fields serve a different purpose than the ones contained in
- * \ref ARM_STORAGE_CAPABILITIES, which is another structure containing
- * device-level metadata. ARM_STORAGE_CAPABILITIES describes the API
- * capabilities, whereas ARM_STORAGE_INFO describes the device. Furthermore
- * ARM_STORAGE_CAPABILITIES fits within a single word, and is designed to be
- * passed around by value; ARM_STORAGE_INFO, on the other hand, contains
- * metadata which doesn't fit into a single word and requires the use of
- * pointers to be moved around.
- */
- typedef struct _ARM_STORAGE_INFO {
- uint64_t total_storage; ///< Total available storage, in bytes.
- uint32_t program_unit; ///< Minimum programming size in bytes.
- ///< The offset of the start of the program-range should also be aligned with this value.
- ///< Applicable only if the 'programmable' attribute is set for a block.
- ///< @note: setting program_unit to 0 has the effect of disabling the size and alignment
- ///< restrictions (setting it to 1 also has the same effect).
- uint32_t optimal_program_unit; ///< Optimal programming page-size in bytes. Some storage controllers
- ///< have internal buffers into which to receive data. Writing in chunks of
- ///< 'optimal_program_unit' would achieve maximum programming speed.
- ///< Applicable only if the 'programmable' attribute is set for the underlying block(s).
- uint32_t program_cycles; ///< A measure of endurance for reprogramming.
- ///< Use ARM_STORAGE_PROGRAM_CYCLES_INFINITE for infinite or unknown endurance.
- uint32_t erased_value : 1; ///< Contents of erased memory (usually 1 to indicate erased bytes with state 0xFF).
- uint32_t memory_mapped : 1; ///< This storage device has a mapping onto the processor's memory address space.
- ///< @note: For a memory-mapped block which isn't erasable but is programmable (i.e. if
- ///< 'erasable' is set to 0, but 'programmable' is 1), writes should be possible directly to
- ///< the memory-mapped storage without going through the ProgramData operation.
- uint32_t programmability : 4; ///< A value to indicate storage programmability.
- uint32_t retention_level : 4;
- uint32_t reserved : 22;
- ARM_STORAGE_SECURITY_FEATURES security; ///< \ref ARM_STORAGE_SECURITY_FEATURES
- } ARM_STORAGE_INFO;
- /**
- \brief Operating status of the storage controller.
- */
- typedef struct _ARM_STORAGE_STATUS {
- uint32_t busy : 1; ///< Controller busy flag
- uint32_t error : 1; ///< Read/Program/Erase error flag (cleared on start of next operation)
- } ARM_STORAGE_STATUS;
- /**
- * \brief Storage Driver API Capabilities.
- *
- * This data structure is designed to fit within a single word so that it can be
- * fetched cheaply using a call to driver->GetCapabilities().
- */
- typedef struct _ARM_STORAGE_CAPABILITIES {
- uint32_t asynchronous_ops : 1; ///< Used to indicate if APIs like initialize,
- ///< read, erase, program, etc. can operate in asynchronous mode.
- ///< Setting this bit to 1 means that the driver is capable
- ///< of launching asynchronous operations; command completion is
- ///< signaled by the invocation of a completion callback. If
- ///< set to 1, drivers may still complete asynchronous
- ///< operations synchronously as necessary--in which case they
- ///< return a positive error code to indicate synchronous completion.
- uint32_t erase_all : 1; ///< Supports EraseAll operation.
- uint32_t reserved : 30;
- } ARM_STORAGE_CAPABILITIES;
- /**
- * Command opcodes for Storage. Completion callbacks use these codes to refer to
- * completing commands. Refer to \ref ARM_Storage_Callback_t.
- */
- typedef enum _ARM_STORAGE_OPERATION {
- ARM_STORAGE_OPERATION_GET_VERSION,
- ARM_STORAGE_OPERATION_GET_CAPABILITIES,
- ARM_STORAGE_OPERATION_INITIALIZE,
- ARM_STORAGE_OPERATION_UNINITIALIZE,
- ARM_STORAGE_OPERATION_POWER_CONTROL,
- ARM_STORAGE_OPERATION_READ_DATA,
- ARM_STORAGE_OPERATION_PROGRAM_DATA,
- ARM_STORAGE_OPERATION_ERASE,
- ARM_STORAGE_OPERATION_ERASE_ALL,
- ARM_STORAGE_OPERATION_GET_STATUS,
- ARM_STORAGE_OPERATION_GET_INFO,
- ARM_STORAGE_OPERATION_RESOLVE_ADDRESS,
- ARM_STORAGE_OPERATION_GET_NEXT_BLOCK,
- ARM_STORAGE_OPERATION_GET_BLOCK
- } ARM_STORAGE_OPERATION;
- /**
- * Declaration of the callback-type for command completion.
- *
- * @param [in] status
- * A code to indicate the status of the completed operation. For data
- * transfer operations, the status field is overloaded in case of
- * success to return the count of items successfully transferred; this
- * can be done safely because error codes are negative values.
- *
- * @param [in] operation
- * The command op-code. This value isn't essential for the callback in
- * the presence of the command instance-id, but it is expected that
- * this information could be a quick and useful filter.
- */
- typedef void (*ARM_Storage_Callback_t)(int32_t status, ARM_STORAGE_OPERATION operation);
- /**
- * This is the set of operations constituting the Storage driver. Their
- * implementation is platform-specific, and needs to be supplied by the
- * porting effort.
- *
- * Some APIs within `ARM_DRIVER_STORAGE` will always operate synchronously:
- * GetVersion, GetCapabilities, GetStatus, GetInfo, ResolveAddress,
- * GetNextBlock, and GetBlock. This means that control returns to the caller
- * with a relevant status code only after the completion of the operation (or
- * the discovery of a failure condition).
- *
- * The remainder of the APIs: Initialize, Uninitialize, PowerControl, ReadData,
- * ProgramData, Erase, EraseAll, can function asynchronously if the underlying
- * controller supports it--i.e. if ARM_STORAGE_CAPABILITIES::asynchronous_ops is
- * set. In the case of asynchronous operation, the invocation returns early
- * (with ARM_DRIVER_OK) and results in a completion callback later. If
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is not set, then all such APIs
- * execute synchronously, and control returns to the caller with a status code
- * only after the completion of the operation (or the discovery of a failure
- * condition).
- *
- * If ARM_STORAGE_CAPABILITIES::asynchronous_ops is set, a storage driver may
- * still choose to execute asynchronous operations in a synchronous manner. If
- * so, the driver returns a positive value to indicate successful synchronous
- * completion (or an error code in case of failure) and no further invocation of
- * completion callback should be expected. The expected return value for
- * synchronous completion of such asynchronous operations varies depending on
- * the operation. For operations involving data access, it often equals the
- * amount of data transferred or affected. For non data-transfer operations,
- * such as EraseAll or Initialize, it is usually 1.
- *
- * Here's a code snippet to suggest how asynchronous APIs might be used by
- * callers to handle both synchronous and asynchronous execution by the
- * underlying storage driver:
- * \code
- * ASSERT(ARM_DRIVER_OK == 0); // this is a precondition; it doesn't need to be put in code
- * int32_t returnValue = drv->asynchronousAPI(...);
- * if (returnValue < ARM_DRIVER_OK) {
- * // handle error.
- * } else if (returnValue == ARM_DRIVER_OK) {
- * ASSERT(drv->GetCapabilities().asynchronous_ops == 1);
- * // handle early return from asynchronous execution; remainder of the work is done in the callback handler.
- * } else {
- * ASSERT(returnValue == EXPECTED_RETURN_VALUE_FOR_SYNCHRONOUS_COMPLETION);
- * // handle synchronous completion.
- * }
- * \endcode
- */
- typedef struct _ARM_DRIVER_STORAGE {
- /**
- * \brief Get driver version.
- *
- * The function GetVersion() returns version information of the driver implementation in ARM_DRIVER_VERSION.
- *
- * - API version is the version of the CMSIS-Driver specification used to implement this driver.
- * - Driver version is source code version of the actual driver implementation.
- *
- * Example:
- * \code
- * extern ARM_DRIVER_STORAGE *drv_info;
- *
- * void read_version (void) {
- * ARM_DRIVER_VERSION version;
- *
- * version = drv_info->GetVersion ();
- * if (version.api < 0x10A) { // requires at minimum API version 1.10 or higher
- * // error handling
- * return;
- * }
- * }
- * \endcode
- *
- * @return \ref ARM_DRIVER_VERSION.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- *
- * @note The function GetVersion() can be called any time to obtain the
- * required information from the driver (even before initialization). It
- * always returns the same information.
- */
- ARM_DRIVER_VERSION (*GetVersion)(void);
- /**
- * \brief Get driver capabilities.
- *
- * \details The function GetCapabilities() returns information about
- * capabilities in this driver implementation. The data fields of the struct
- * ARM_STORAGE_CAPABILITIES encode various capabilities, for example if the device
- * is able to execute operations asynchronously.
- *
- * Example:
- * \code
- * extern ARM_DRIVER_STORAGE *drv_info;
- *
- * void read_capabilities (void) {
- * ARM_STORAGE_CAPABILITIES drv_capabilities;
- *
- * drv_capabilities = drv_info->GetCapabilities ();
- * // interrogate capabilities
- *
- * }
- * \endcode
- *
- * @return \ref ARM_STORAGE_CAPABILITIES.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- *
- * @note The function GetCapabilities() can be called any time to obtain the
- * required information from the driver (even before initialization). It
- * always returns the same information.
- */
- ARM_STORAGE_CAPABILITIES (*GetCapabilities)(void);
- /**
- * \brief Initialize the Storage Interface.
- *
- * The function Initialize is called when the middleware component starts
- * operation. In addition to bringing the controller to a ready state,
- * Initialize() receives a callback handler to be invoked upon completion of
- * asynchronous operations.
- *
- * Initialize() needs to be called explicitly before
- * powering the peripheral using PowerControl(), and before initiating other
- * accesses to the storage controller.
- *
- * The function performs the following operations:
- * - Initializes the resources needed for the Storage interface.
- * - Registers the \ref ARM_Storage_Callback_t callback function.
- *
- * To start working with a peripheral the functions Initialize and PowerControl need to be called in this order:
- * drv->Initialize (...); // Allocate I/O pins
- * drv->PowerControl (ARM_POWER_FULL); // Power up peripheral, setup IRQ/DMA
- *
- * - Initialize() typically allocates the I/O resources (pins) for the
- * peripheral. The function can be called multiple times; if the I/O resources
- * are already initialized it performs no operation and just returns with
- * ARM_DRIVER_OK.
- *
- * - PowerControl (ARM_POWER_FULL) sets the peripheral registers including
- * interrupt (NVIC) and optionally DMA. The function can be called multiple
- * times; if the registers are already set it performs no operation and just
- * returns with ARM_DRIVER_OK.
- *
- * To stop working with a peripheral the functions PowerControl and Uninitialize need to be called in this order:
- * drv->PowerControl (ARM_POWER_OFF); // Terminate any pending transfers, reset IRQ/DMA, power off peripheral
- * drv->Uninitialize (...); // Release I/O pins
- *
- * The functions PowerControl and Uninitialize always execute and can be used
- * to put the peripheral into a Safe State, for example after any data
- * transmission errors. To restart the peripheral in an error condition,
- * you should first execute the Stop Sequence and then the Start Sequence.
- *
- * @param [in] callback
- * Caller-defined callback to be invoked upon command completion
- * for asynchronous APIs (including the completion of
- * initialization). Use a NULL pointer when no callback
- * signals are required.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with a status value of ARM_DRIVER_OK or an error-code. In the
- * case of synchronous execution, control returns after completion with a
- * value of 1. Return values less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*Initialize)(ARM_Storage_Callback_t callback);
- /**
- * \brief De-initialize the Storage Interface.
- *
- * The function Uninitialize() de-initializes the resources of Storage interface.
- *
- * It is called when the middleware component stops operation, and wishes to
- * release the software resources used by the interface.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with a status value of ARM_DRIVER_OK or an error-code. In the
- * case of synchronous execution, control returns after completion with a
- * value of 1. Return values less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*Uninitialize)(void);
- /**
- * \brief Control the Storage interface power.
- *
- * The function \b ARM_Storage_PowerControl operates the power modes of the Storage interface.
- *
- * To start working with a peripheral the functions Initialize and PowerControl need to be called in this order:
- * drv->Initialize (...); // Allocate I/O pins
- * drv->PowerControl (ARM_POWER_FULL); // Power up peripheral, setup IRQ/DMA
- *
- * - Initialize() typically allocates the I/O resources (pins) for the
- * peripheral. The function can be called multiple times; if the I/O resources
- * are already initialized it performs no operation and just returns with
- * ARM_DRIVER_OK.
- *
- * - PowerControl (ARM_POWER_FULL) sets the peripheral registers including
- * interrupt (NVIC) and optionally DMA. The function can be called multiple
- * times; if the registers are already set it performs no operation and just
- * returns with ARM_DRIVER_OK.
- *
- * To stop working with a peripheral the functions PowerControl and Uninitialize need to be called in this order:
- *
- * drv->PowerControl (ARM_POWER_OFF); // Terminate any pending transfers, reset IRQ/DMA, power off peripheral
- * drv->Uninitialize (...); // Release I/O pins
- *
- * The functions PowerControl and Uninitialize always execute and can be used
- * to put the peripheral into a Safe State, for example after any data
- * transmission errors. To restart the peripheral in an error condition,
- * you should first execute the Stop Sequence and then the Start Sequence.
- *
- * @param state
- * \ref ARM_POWER_STATE. The target power-state for the storage controller.
- * The parameter state can have the following values:
- * - ARM_POWER_FULL : set-up peripheral for data transfers, enable interrupts
- * (NVIC) and optionally DMA. Can be called multiple times. If the peripheral
- * is already in this mode, then the function performs no operation and returns
- * with ARM_DRIVER_OK.
- * - ARM_POWER_LOW : may use power saving. Returns ARM_DRIVER_ERROR_UNSUPPORTED when not implemented.
- * - ARM_POWER_OFF : terminates any pending data transfers, disables peripheral, disables related interrupts and DMA.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with a status value of ARM_DRIVER_OK or an error-code. In the
- * case of synchronous execution, control returns after completion with a
- * value of 1. Return values less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*PowerControl)(ARM_POWER_STATE state);
- /**
- * \brief read the contents of a given address range from the storage device.
- *
- * \details Read the contents of a range of storage memory into a buffer
- * supplied by the caller. The buffer is owned by the caller and should
- * remain accessible for the lifetime of this command.
- *
- * @param [in] addr
- * This specifies the address from where to read data.
- *
- * @param [out] data
- * The destination of the read operation. The buffer
- * is owned by the caller and should remain accessible for the
- * lifetime of this command.
- *
- * @param [in] size
- * The number of bytes requested to read. The data buffer
- * should be at least as large as this size.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with the number of successfully transferred bytes passed in as
- * the 'status' parameter. In the case of synchronous execution, control
- * returns after completion with a positive transfer-count. Return values
- * less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*ReadData)(uint64_t addr, void *data, uint32_t size);
- /**
- * \brief program (write into) the contents of a given address range of the storage device.
- *
- * \details Write the contents of a given memory buffer into a range of
- * storage memory. In the case of flash memory, the destination range in
- * storage memory typically has its contents in an erased state from a
- * preceding erase operation. The source memory buffer is owned by the
- * caller and should remain accessible for the lifetime of this command.
- *
- * @param [in] addr
- * This is the start address of the range to be written into. It
- * needs to be aligned to the device's \em program_unit
- * specified in \ref ARM_STORAGE_INFO.
- *
- * @param [in] data
- * The source of the write operation. The buffer is owned by the
- * caller and should remain accessible for the lifetime of this
- * command.
- *
- * @param [in] size
- * The number of bytes requested to be written. The buffer
- * should be at least as large as this size. \note 'size' should
- * be a multiple of the device's 'program_unit' (see \ref
- * ARM_STORAGE_INFO).
- *
- * @note It is best for the middleware to write in units of
- * 'optimal_program_unit' (\ref ARM_STORAGE_INFO) of the device.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with the number of successfully transferred bytes passed in as
- * the 'status' parameter. In the case of synchronous execution, control
- * returns after completion with a positive transfer-count. Return values
- * less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*ProgramData)(uint64_t addr, const void *data, uint32_t size);
- /**
- * @brief Erase Storage range.
- *
- * @details This function erases a range of storage specified by [addr, addr +
- * size). Both 'addr' and 'addr + size' should align with the
- * 'erase_unit'(s) of the respective owning storage block(s) (see \ref
- * ARM_STORAGE_BLOCK and \ref ARM_STORAGE_BLOCK_ATTRIBUTES). The range to
- * be erased will have its contents returned to the un-programmed state--
- * i.e. to 'erased_value' (see \ref ARM_STORAGE_BLOCK_ATTRIBUTES), which
- * is usually 1 to indicate the pattern of all ones: 0xFF.
- *
- * @param [in] addr
- * This is the start-address of the range to be erased. It must
- * start at an 'erase_unit' boundary of the underlying block.
- *
- * @param [in] size
- * Size (in bytes) of the range to be erased. 'addr + size'
- * must be aligned with the 'erase_unit' of the underlying
- * block.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return
- * If the range to be erased doesn't align with the erase_units of the
- * respective start and end blocks, ARM_DRIVER_ERROR_PARAMETER is returned.
- * If any part of the range is protected, ARM_STORAGE_ERROR_PROTECTED is
- * returned. If any part of the range is not erasable,
- * ARM_STORAGE_ERROR_NOT_ERASABLE is returned. All such sanity-check
- * failures result in the error code being returned synchronously and the
- * storage bytes within the range remain unaffected.
- * Otherwise the function executes in the following ways:
- * If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with the number of successfully erased bytes passed in as
- * the 'status' parameter. In the case of synchronous execution, control
- * returns after completion with a positive erase-count. Return values
- * less than ARM_DRIVER_OK (0) signify errors.
- *
- * @note Erase() may return a smaller (positive) value than the size of the
- * requested range. The returned value indicates the actual number of bytes
- * erased. It is the caller's responsibility to follow up with an appropriate
- * request to complete the operation.
- *
- * @note in the case of a failed erase (except when
- * ARM_DRIVER_ERROR_PARAMETER, ARM_STORAGE_ERROR_PROTECTED, or
- * ARM_STORAGE_ERROR_NOT_ERASABLE is returned synchronously), the
- * requested range should be assumed to be in an unknown state. The
- * previous contents may not be retained.
- */
- int32_t (*Erase)(uint64_t addr, uint32_t size);
- /**
- * @brief Erase complete storage. Optional function for faster erase of the complete device.
- *
- * This optional function erases the complete device. If the device does not
- * support global erase then the function returns the error value \ref
- * ARM_DRIVER_ERROR_UNSUPPORTED. The data field \em 'erase_all' = 1
- * of the structure \ref ARM_STORAGE_CAPABILITIES encodes that
- * ARM_STORAGE_EraseAll is supported.
- *
- * @note This API may execute asynchronously if
- * ARM_STORAGE_CAPABILITIES::asynchronous_ops is set. Asynchronous
- * execution is optional even if 'asynchronous_ops' is set.
- *
- * @return
- * If any part of the storage range is protected,
- * ARM_STORAGE_ERROR_PROTECTED is returned. If any part of the storage
- * range is not erasable, ARM_STORAGE_ERROR_NOT_ERASABLE is returned. All
- * such sanity-check failures result in the error code being returned
- * synchronously and the storage bytes within the range remain unaffected.
- * Otherwise the function executes in the following ways:
- * If asynchronous activity is launched, an invocation returns
- * ARM_DRIVER_OK, and the caller can expect to receive a callback in the
- * future with ARM_DRIVER_OK passed in as the 'status' parameter. In the
- * case of synchronous execution, control returns after completion with a
- * value of 1. Return values less than ARM_DRIVER_OK (0) signify errors.
- */
- int32_t (*EraseAll)(void);
- /**
- * @brief Get the status of the current (or previous) command executed by the
- * storage controller; stored in the structure \ref ARM_STORAGE_STATUS.
- *
- * @return
- * The status of the underlying controller.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- */
- ARM_STORAGE_STATUS (*GetStatus)(void);
- /**
- * @brief Get information about the Storage device; stored in the structure \ref ARM_STORAGE_INFO.
- *
- * @param [out] info
- * A caller-supplied buffer capable of being filled in with an
- * \ref ARM_STORAGE_INFO.
- *
- * @return ARM_DRIVER_OK if a ARM_STORAGE_INFO structure containing top level
- * metadata about the storage controller is filled into the supplied
- * buffer, else an appropriate error value.
- *
- * @note It is the caller's responsibility to ensure that the buffer passed in
- * is able to be initialized with a \ref ARM_STORAGE_INFO.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- */
- int32_t (*GetInfo)(ARM_STORAGE_INFO *info);
- /**
- * \brief For memory-mapped storage, resolve an address relative to
- * the storage controller into a memory address.
- *
- * @param addr
- * This is the address for which we want a resolution to the
- * processor's physical address space. It is an offset from the
- * start of the storage map maintained by the owning storage
- * controller.
- *
- * @return
- * The resolved address in the processor's address space; else
- * ARM_STORAGE_INVALID_ADDRESS, if no resolution is possible.
- *
- * @note This API returns synchronously. The invocation should return quickly,
- * and result in a resolved address.
- */
- uint32_t (*ResolveAddress)(uint64_t addr);
- /**
- * @brief Advance to the successor of the current block (iterator), or fetch
- * the first block (if 'prev_block' is passed in as NULL).
- *
- * @details This helper function fetches (an iterator to) the next block (or
- * the first block if 'prev_block' is passed in as NULL). In the failure
- * case, a terminating, invalid block iterator is filled into the out
- * parameter: 'next_block'. In combination with \ref
- * ARM_STORAGE_VALID_BLOCK(), it can be used to iterate over the sequence
- * of blocks within the storage map:
- *
- * \code
- * ARM_STORAGE_BLOCK block;
- * for (drv->GetNextBlock(NULL, &block); ARM_STORAGE_VALID_BLOCK(&block); drv->GetNextBlock(&block, &block)) {
- * // make use of block
- * }
- * \endcode
- *
- * @param[in] prev_block
- * An existing block (iterator) within the same storage
- * controller. The memory buffer holding this block is owned
- * by the caller. This pointer may be NULL; if so, the
- * invocation fills in the first block into the out parameter:
- * 'next_block'.
- *
- * @param[out] next_block
- * A caller-owned buffer large enough to be filled in with
- * the following ARM_STORAGE_BLOCK. It is legal to provide the
- * same buffer using 'next_block' as was passed in with 'prev_block'. It
- * is also legal to pass a NULL into this parameter if the
- * caller isn't interested in populating a buffer with the next
- * block--i.e. if the caller only wishes to establish the
- * presence of a next block.
- *
- * @return ARM_DRIVER_OK if a valid next block is found (or first block, if
- * prev_block is passed as NULL); upon successful operation, the contents
- * of the next (or first) block are filled into the buffer pointed to by
- * the parameter 'next_block' and ARM_STORAGE_VALID_BLOCK(next_block) is
- * guaranteed to be true. Upon reaching the end of the sequence of blocks
- * (iterators), or in case the driver is unable to fetch information about
- * the next (or first) block, an error (negative) value is returned and an
- * invalid StorageBlock is populated into the supplied buffer. If
- * prev_block is NULL, the first block is returned.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- */
- int32_t (*GetNextBlock)(const ARM_STORAGE_BLOCK* prev_block, ARM_STORAGE_BLOCK *next_block);
- /**
- * @brief Find the storage block (iterator) encompassing a given storage address.
- *
- * @param[in] addr
- * Storage address in bytes.
- *
- * @param[out] block
- * A caller-owned buffer large enough to be filled in with the
- * ARM_STORAGE_BLOCK encapsulating the given address. This value
- * can also be passed in as NULL if the caller isn't interested
- * in populating a buffer with the block--if the caller only
- * wishes to establish the presence of a containing storage
- * block.
- *
- * @return ARM_DRIVER_OK if a containing storage-block is found. In this case,
- * if block is non-NULL, the buffer pointed to by it is populated with
- * the contents of the storage block--i.e. if block is valid and a block is
- * found, ARM_STORAGE_VALID_BLOCK(block) would return true following this
- * call. If there is no storage block containing the given offset, or in
- * case the driver is unable to resolve an address to a storage-block, an
- * error (negative) value is returned and an invalid StorageBlock is
- * populated into the supplied buffer.
- *
- * @note This API returns synchronously--it does not result in an invocation
- * of a completion callback.
- */
- int32_t (*GetBlock)(uint64_t addr, ARM_STORAGE_BLOCK *block);
- } const ARM_DRIVER_STORAGE;
- #ifdef __cplusplus
- }
- #endif // __cplusplus
- #endif /* __DRIVER_STORAGE_H */
- /** @}*/
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