2016-06-15 23:48:41 +02:00
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#ifndef FRAMEWORK_STORAGEMANAGER_LOCALPOOL_H_
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#define FRAMEWORK_STORAGEMANAGER_LOCALPOOL_H_
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#include <framework/objectmanager/SystemObject.h>
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#include <framework/serviceinterface/ServiceInterfaceStream.h>
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#include <framework/storagemanager/StorageManagerIF.h>
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2018-07-12 16:29:32 +02:00
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#include <framework/objectmanager/ObjectManagerIF.h>
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#include <framework/internalError/InternalErrorReporterIF.h>
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2020-05-29 16:37:46 +02:00
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#include <framework/storagemanager/StorageAccessor.h>
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#include <cstring>
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2016-06-15 23:48:41 +02:00
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/**
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* @brief The LocalPool class provides an intermediate data storage with
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* a fixed pool size policy.
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2020-05-29 16:37:46 +02:00
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* @details The class implements the StorageManagerIF interface. While the
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2016-06-15 23:48:41 +02:00
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* total number of pools is fixed, the element sizes in one pool and
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* the number of pool elements per pool are set on construction.
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* The full amount of memory is allocated on construction.
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* The overhead is 4 byte per pool element to store the size
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* information of each stored element.
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* To maintain an "empty" information, the pool size is limited to
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* 0xFFFF-1 bytes.
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* It is possible to store empty packets in the pool.
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* The local pool is NOT thread-safe.
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2020-05-29 16:41:23 +02:00
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* @author Bastian Baetz
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2016-06-15 23:48:41 +02:00
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*/
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template<uint8_t NUMBER_OF_POOLS = 5>
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class LocalPool: public SystemObject, public StorageManagerIF {
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public:
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/**
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* @brief This definition generally sets the number of different sized pools.
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* @details This must be less than the maximum number of pools (currently 0xff).
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*/
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// static const uint32_t NUMBER_OF_POOLS;
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/**
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* @brief This is the default constructor for a pool manager instance.
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* @details By passing two arrays of size NUMBER_OF_POOLS, the constructor
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* allocates memory (with \c new) for store and size_list. These
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* regions are all set to zero on start up.
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* @param setObjectId The object identifier to be set. This allows for
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* multiple instances of LocalPool in the system.
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* @param element_sizes An array of size NUMBER_OF_POOLS in which the size
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* of a single element in each pool is determined.
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* <b>The sizes must be provided in ascending order.
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* </b>
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* @param n_elements An array of size NUMBER_OF_POOLS in which the
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* number of elements for each pool is determined.
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* The position of these values correspond to those in
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* element_sizes.
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* @param registered Register the pool in object manager or not. Default is false (local pool).
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* @param spillsToHigherPools
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* A variable to determine whether higher n pools are used if the store is full.
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*/
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LocalPool(object_id_t setObjectId,
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const uint16_t element_sizes[NUMBER_OF_POOLS],
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const uint16_t n_elements[NUMBER_OF_POOLS],
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bool registered = false,
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bool spillsToHigherPools = false);
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/**
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* @brief In the LocalPool's destructor all allocated memory is freed.
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*/
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virtual ~LocalPool(void);
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/**
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* Documentation: See StorageManagerIF.h
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*/
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ReturnValue_t addData(store_address_t* storageId, const uint8_t * data,
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size_t size, bool ignoreFault = false) override;
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ReturnValue_t getFreeElement(store_address_t* storageId,const size_t size,
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uint8_t** p_data, bool ignoreFault = false) override;
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ConstAccessorPair getData(store_address_t packet_id) override;
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ReturnValue_t getData(store_address_t packet_id, ConstStorageAccessor&) override;
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ReturnValue_t getData(store_address_t packet_id, const uint8_t** packet_ptr,
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size_t * size) override;
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AccessorPair modifyData(store_address_t packet_id) override;
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ReturnValue_t modifyData(store_address_t packet_id, StorageAccessor&) override;
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ReturnValue_t modifyData(store_address_t packet_id, uint8_t** packet_ptr,
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size_t * size) override;
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virtual ReturnValue_t deleteData(store_address_t) override;
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virtual ReturnValue_t deleteData(uint8_t* ptr, size_t size,
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store_address_t* storeId = NULL) override;
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void clearStore() override;
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ReturnValue_t initialize() override;
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protected:
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/**
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* With this helper method, a free element of \c size is reserved.
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* @param size The minimum packet size that shall be reserved.
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* @param[out] address Storage ID of the reserved data.
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* @return - #RETURN_OK on success,
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* - the return codes of #getPoolIndex or #findEmpty otherwise.
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*/
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virtual ReturnValue_t reserveSpace(const uint32_t size,
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store_address_t* address, bool ignoreFault);
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InternalErrorReporterIF *internalErrorReporter;
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private:
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/**
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* Indicates that this element is free.
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* This value limits the maximum size of a pool. Change to larger data type if increase is required.
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*/
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static const uint32_t STORAGE_FREE = 0xFFFFFFFF;
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/**
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* @brief In this array, the element sizes of each pool is stored.
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* @details The sizes are maintained for internal pool management. The sizes
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* must be set in ascending order on construction.
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*/
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uint32_t element_sizes[NUMBER_OF_POOLS];
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/**
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* @brief n_elements stores the number of elements per pool.
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* @details These numbers are maintained for internal pool management.
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*/
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uint16_t n_elements[NUMBER_OF_POOLS];
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/**
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* @brief store represents the actual memory pool.
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* @details It is an array of pointers to memory, which was allocated with
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* a \c new call on construction.
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*/
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uint8_t* store[NUMBER_OF_POOLS];
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/**
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* @brief The size_list attribute stores the size values of every pool element.
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* @details As the number of elements is determined on construction, the size list
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* is also dynamically allocated there.
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*/
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uint32_t* size_list[NUMBER_OF_POOLS];
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bool spillsToHigherPools; //!< A variable to determine whether higher n pools are used if the store is full.
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/**
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* @brief This method safely stores the given data in the given packet_id.
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* @details It also sets the size in size_list. The method does not perform
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* any range checks, these are done in advance.
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* @param packet_id The storage identifier in which the data shall be stored.
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* @param data The data to be stored.
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* @param size The size of the data to be stored.
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*/
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void write(store_address_t packet_id, const uint8_t* data, size_t size);
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/**
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* @brief A helper method to read the element size of a certain pool.
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* @param pool_index The pool in which to look.
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* @return Returns the size of an element or 0.
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*/
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uint32_t getPageSize(uint16_t pool_index);
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/**
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* @brief This helper method looks up a fitting pool for a given size.
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* @details The pools are looked up in ascending order, so the first that
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* fits is used.
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* @param packet_size The size of the data to be stored.
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* @return Returns the pool that fits or StorageManagerIF::INVALID_ADDRESS.
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*/
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/**
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* @brief This helper method looks up a fitting pool for a given size.
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* @details The pools are looked up in ascending order, so the first that
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* fits is used.
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* @param packet_size The size of the data to be stored.
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* @param[out] poolIndex The fitting pool index found.
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* @return - #RETURN_OK on success,
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* - #DATA_TOO_LARGE otherwise.
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*/
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ReturnValue_t getPoolIndex(size_t packet_size, uint16_t* poolIndex,
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uint16_t startAtIndex = 0);
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/**
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* @brief This helper method calculates the true array position in store
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* of a given packet id.
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* @details The method does not perform any range checks, these are done in
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* advance.
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* @param packet_id The packet id to look up.
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* @return Returns the position of the data in store.
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*/
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uint32_t getRawPosition(store_address_t packet_id);
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/**
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* @brief This is a helper method to find an empty element in a given pool.
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* @details The method searches size_list for the first empty element, so
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* duration grows with the fill level of the pool.
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* @param pool_index The pool in which the search is performed.
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* @param[out] element The first found element in the pool.
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* @return - #RETURN_OK on success,
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* - #DATA_STORAGE_FULL if the store is full
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*/
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2018-07-12 16:29:32 +02:00
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ReturnValue_t findEmpty(uint16_t pool_index, uint16_t* element);
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2016-06-15 23:48:41 +02:00
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};
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#include <framework/storagemanager/LocalPool.tpp>
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#endif /* FRAMEWORK_STORAGEMANAGER_LOCALPOOL_H_ */
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