/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * Copyright by the Board of Trustees of the University of Illinois. * * All rights reserved. * * * * This file is part of HDF5. The full HDF5 copyright notice, including * * terms governing use, modification, and redistribution, is contained in * * the COPYING file, which can be found at the root of the source code * * distribution tree, or in https://www.hdfgroup.org/licenses. * * If you do not have access to either file, you may request a copy from * * help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* * Programmer: Robb Matzke * Monday, July 26, 1999 */ #ifndef H5FDpublic_H #define H5FDpublic_H /* Public headers needed by this file */ #include "H5public.h" /* Generic Functions */ #include "H5Fpublic.h" /* Files */ /*****************/ /* Public Macros */ /*****************/ #define H5FD_VFD_DEFAULT 0 /* Default VFL driver value */ /* VFD identifier values * These are H5FD_class_value_t values, NOT hid_t values! */ #define H5_VFD_INVALID ((H5FD_class_value_t)(-1)) #define H5_VFD_SEC2 ((H5FD_class_value_t)(0)) #define H5_VFD_CORE ((H5FD_class_value_t)(1)) #define H5_VFD_LOG ((H5FD_class_value_t)(2)) #define H5_VFD_FAMILY ((H5FD_class_value_t)(3)) #define H5_VFD_MULTI ((H5FD_class_value_t)(4)) #define H5_VFD_STDIO ((H5FD_class_value_t)(5)) #define H5_VFD_SPLITTER ((H5FD_class_value_t)(6)) #ifdef H5_HAVE_PARALLEL #define H5_VFD_MPIO ((H5FD_class_value_t)(7)) #endif #ifdef H5_HAVE_DIRECT #define H5_VFD_DIRECT ((H5FD_class_value_t)(8)) #endif #ifdef H5_HAVE_MIRROR_VFD #define H5_VFD_MIRROR ((H5FD_class_value_t)(9)) #endif #ifdef H5_HAVE_LIBHDFS #define H5_VFD_HDFS ((H5FD_class_value_t)(10)) #endif #ifdef H5_HAVE_ROS3_VFD #define H5_VFD_ROS3 ((H5FD_class_value_t)(11)) #endif #define H5_VFD_ONION ((H5FD_class_value_t)(12)) /* VFD IDs below this value are reserved for library use. */ #define H5_VFD_RESERVED 256 /* Maximum VFD ID */ #define H5_VFD_MAX 65535 /* Define VFL driver features that can be enabled on a per-driver basis */ /* These are returned with the 'query' function pointer in H5FD_class_t */ /* * Defining H5FD_FEAT_AGGREGATE_METADATA for a VFL driver means that * the library will attempt to allocate a larger block for metadata and * then sub-allocate each metadata request from that larger block. */ #define H5FD_FEAT_AGGREGATE_METADATA 0x00000001 /* * Defining H5FD_FEAT_ACCUMULATE_METADATA for a VFL driver means that * the library will attempt to cache metadata as it is written to the file * and build up a larger block of metadata to eventually pass to the VFL * 'write' routine. * * Distinguish between updating the metadata accumulator on writes and * reads. This is particularly (perhaps only, even) important for MPI-I/O * where we guarantee that writes are collective, but reads may not be. * If we were to allow the metadata accumulator to be written during a * read operation, the application would hang. */ #define H5FD_FEAT_ACCUMULATE_METADATA_WRITE 0x00000002 #define H5FD_FEAT_ACCUMULATE_METADATA_READ 0x00000004 #define H5FD_FEAT_ACCUMULATE_METADATA \ (H5FD_FEAT_ACCUMULATE_METADATA_WRITE | H5FD_FEAT_ACCUMULATE_METADATA_READ) /* * Defining H5FD_FEAT_DATA_SIEVE for a VFL driver means that * the library will attempt to cache raw data as it is read from/written to * a file in a "data seive" buffer. See Rajeev Thakur's papers: * http://www.mcs.anl.gov/~thakur/papers/romio-coll.ps.gz * http://www.mcs.anl.gov/~thakur/papers/mpio-high-perf.ps.gz */ #define H5FD_FEAT_DATA_SIEVE 0x00000008 /* * Defining H5FD_FEAT_AGGREGATE_SMALLDATA for a VFL driver means that * the library will attempt to allocate a larger block for "small" raw data * and then sub-allocate "small" raw data requests from that larger block. */ #define H5FD_FEAT_AGGREGATE_SMALLDATA 0x00000010 /* * Defining H5FD_FEAT_IGNORE_DRVRINFO for a VFL driver means that * the library will ignore the driver info that is encoded in the file * for the VFL driver. (This will cause the driver info to be eliminated * from the file when it is flushed/closed, if the file is opened R/W). */ #define H5FD_FEAT_IGNORE_DRVRINFO 0x00000020 /* * Defining the H5FD_FEAT_DIRTY_DRVRINFO_LOAD for a VFL driver means that * the library will mark the driver info dirty when the file is opened * R/W. This will cause the driver info to be re-encoded when the file * is flushed/closed. */ #define H5FD_FEAT_DIRTY_DRVRINFO_LOAD 0x00000040 /* * Defining H5FD_FEAT_POSIX_COMPAT_HANDLE for a VFL driver means that * the handle for the VFD (returned with the 'get_handle' callback) is * of type 'int' and is compatible with POSIX I/O calls. */ #define H5FD_FEAT_POSIX_COMPAT_HANDLE 0x00000080 /* * Defining H5FD_FEAT_HAS_MPI for a VFL driver means that * the driver makes use of MPI communication and code may retrieve * communicator/rank information from it */ #define H5FD_FEAT_HAS_MPI 0x00000100 /* * Defining the H5FD_FEAT_ALLOCATE_EARLY for a VFL driver will force * the library to use the H5D_ALLOC_TIME_EARLY on dataset create * instead of the default H5D_ALLOC_TIME_LATE */ #define H5FD_FEAT_ALLOCATE_EARLY 0x00000200 /* * Defining H5FD_FEAT_ALLOW_FILE_IMAGE for a VFL driver means that * the driver is able to use a file image in the fapl as the initial * contents of a file. */ #define H5FD_FEAT_ALLOW_FILE_IMAGE 0x00000400 /* * Defining H5FD_FEAT_CAN_USE_FILE_IMAGE_CALLBACKS for a VFL driver * means that the driver is able to use callbacks to make a copy of the * image to store in memory. */ #define H5FD_FEAT_CAN_USE_FILE_IMAGE_CALLBACKS 0x00000800 /* * Defining H5FD_FEAT_SUPPORTS_SWMR_IO for a VFL driver means that the * driver supports the single-writer/multiple-readers I/O pattern. */ #define H5FD_FEAT_SUPPORTS_SWMR_IO 0x00001000 /* * Defining H5FD_FEAT_USE_ALLOC_SIZE for a VFL driver * means that the library will just pass the allocation size to the * the driver's allocation callback which will eventually handle alignment. * This is specifically used for the multi/split driver. */ #define H5FD_FEAT_USE_ALLOC_SIZE 0x00002000 /* * Defining H5FD_FEAT_PAGED_AGGR for a VFL driver * means that the driver needs special file space mapping for paged aggregation. * This is specifically used for the multi/split driver. */ #define H5FD_FEAT_PAGED_AGGR 0x00004000 /* * Defining H5FD_FEAT_DEFAULT_VFD_COMPATIBLE for a VFL driver * that creates a file which is compatible with the default VFD. * Generally, this means that the VFD creates a single file that follows * the canonical HDF5 file format. * Regarding the Splitter VFD specifically, only drivers with this flag * enabled may be used as the Write-Only (W/O) channel driver. */ #define H5FD_FEAT_DEFAULT_VFD_COMPATIBLE 0x00008000 /* * Defining H5FD_FEAT_MEMMANAGE for a VFL driver means that * the driver uses special memory management routines or wishes * to do memory management in a specific manner. Therefore, HDF5 * should request that the driver handle any memory management * operations when appropriate. */ #define H5FD_FEAT_MEMMANAGE 0x00010000 /* ctl function definitions: */ #define H5FD_CTL_OPC_RESERVED 512 /* Opcodes below this value are reserved for library use */ #define H5FD_CTL_OPC_EXPER_MIN \ H5FD_CTL_OPC_RESERVED /* Minimum opcode value available for experimental use \ */ #define H5FD_CTL_OPC_EXPER_MAX \ (H5FD_CTL_OPC_RESERVED + 511) /* Maximum opcode value available for experimental use */ /* ctl function op codes: */ #define H5FD_CTL__INVALID_OPCODE 0 #define H5FD_CTL__TEST_OPCODE 1 #define H5FD_CTL__GET_MPI_COMMUNICATOR_OPCODE 2 #define H5FD_CTL__GET_MPI_RANK_OPCODE 3 #define H5FD_CTL__GET_MPI_SIZE_OPCODE 4 #define H5FD_CTL__MEM_ALLOC 5 #define H5FD_CTL__MEM_FREE 6 #define H5FD_CTL__MEM_COPY 7 #define H5FD_CTL__GET_NUM_REVISIONS 8 /* ctl function flags: */ /* Definitions: * * WARNING: While the following definitions of Terminal * and Passthrough VFDs should be workable for now, they * have to be adjusted as our use cases for VFDs expand. * * JRM -- 8/4/21 * * * Terminal VFD: Lowest VFD in the VFD stack through * which all VFD calls pass. Note that this definition * is situational. For example, the sec2 VFD is typically * terminal. However, in the context of the family file * driver, it is not -- the family file driver is the * bottom VFD through which all VFD calls pass, and thus * it is terminal. * * Similarly, on the splitter VFD, a sec2 VFD on the * R/W channel is terminal, but a sec2 VFD on the W/O * channel is not. * * * Pass through VFD: Any VFD that relays all VFD calls * (with the possible exception of some non-I/O related * calls) to underlying VFD(s). */ /* Unknown op codes should be ignored silently unless the * H5FD_CTL__FAIL_IF_UNKNOWN_FLAG is set. * * On terminal VFDs, unknown op codes should generate an * error unconditionally if this flag is set. * * On pass through VFDs, unknown op codes should be routed * to the underlying VFD(s) as indicated by any routing * flags. In the absence of such flags, the VFD should * generate an error. */ #define H5FD_CTL__FAIL_IF_UNKNOWN_FLAG 0x0001 /* The H5FD_CTL__ROUTE_TO_TERMINAL_VFD_FLAG is used only * by non-ternminal VFDs, and only applies to unknown * opcodes. (known op codes should be handled as * appropriate.) * * If this flag is set for an unknown op code, that * op code should be passed to the next VFD down * the VFD stack en-route to the terminal VFD. * If that VFD does not support the ctl call, the * pass through VFD should fail or succeed as directed * by the H5FD_CTL__FAIL_IF_UNKNOWN_FLAG. */ #define H5FD_CTL__ROUTE_TO_TERMINAL_VFD_FLAG 0x0002 /*******************/ /* Public Typedefs */ /*******************/ /* * File driver identifiers. * * Values 0 through 255 are for drivers defined by the HDF5 library. * Values 256 through 511 are available for testing new drivers. * Subsequent values should be obtained from the HDF5 development * team at mailto:help@hdfgroup.org. */ typedef int H5FD_class_value_t; /* Types of allocation requests: see H5Fpublic.h */ typedef enum H5F_mem_t H5FD_mem_t; /** * Define enum for the source of file image callbacks */ //! typedef enum { H5FD_FILE_IMAGE_OP_NO_OP, H5FD_FILE_IMAGE_OP_PROPERTY_LIST_SET, /**< Passed to the \p image_malloc and \p image_memcpy callbacks when a * file image buffer is to be copied while being set in a file access * property list (FAPL)*/ H5FD_FILE_IMAGE_OP_PROPERTY_LIST_COPY, /**< Passed to the \p image_malloc and \p image_memcpy callbacks * when a file image buffer is to be copied when a FAPL is copied*/ H5FD_FILE_IMAGE_OP_PROPERTY_LIST_GET, /** /** * Define structure to hold file image callbacks */ //! typedef struct { /** * \param[in] size Size in bytes of the file image buffer to allocate * \param[in] file_image_op A value from H5FD_file_image_op_t indicating * the operation being performed on the file image * when this callback is invoked * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! void *(*image_malloc)(size_t size, H5FD_file_image_op_t file_image_op, void *udata); //! /** * \param[in] dest Address of the destination buffer * \param[in] src Address of the source buffer * \param[in] file_image_op A value from #H5FD_file_image_op_t indicating * the operation being performed on the file image * when this callback is invoked * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! void *(*image_memcpy)(void *dest, const void *src, size_t size, H5FD_file_image_op_t file_image_op, void *udata); //! /** * \param[in] ptr Pointer to the buffer being reallocated * \param[in] file_image_op A value from #H5FD_file_image_op_t indicating * the operation being performed on the file image * when this callback is invoked * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! void *(*image_realloc)(void *ptr, size_t size, H5FD_file_image_op_t file_image_op, void *udata); //! /** * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! herr_t (*image_free)(void *ptr, H5FD_file_image_op_t file_image_op, void *udata); //! /** * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! void *(*udata_copy)(void *udata); //! /** * \param[in] udata Value passed in in the H5Pset_file_image_callbacks * parameter \p udata */ //! herr_t (*udata_free)(void *udata); //! /** * \brief The final field in the #H5FD_file_image_callbacks_t struct, * provides a pointer to user-defined data. This pointer will be * passed to the image_malloc, image_memcpy, image_realloc, and * image_free callbacks. Define udata as NULL if no user-defined * data is provided. */ void *udata; } H5FD_file_image_callbacks_t; //! /** * Define structure to hold "ctl memory copy" parameters */ //! typedef struct H5FD_ctl_memcpy_args_t { void * dstbuf; /**< Destination buffer */ hsize_t dst_off; /**< Offset within destination buffer */ const void *srcbuf; /**< Source buffer */ hsize_t src_off; /**< Offset within source buffer */ size_t len; /**< Length of data to copy from source buffer */ } H5FD_ctl_memcpy_args_t; //! /********************/ /* Public Variables */ /********************/ /*********************/ /* Public Prototypes */ /*********************/ #ifdef __cplusplus extern "C" { #endif /* Function prototypes */ /* Allows querying a VFD ID for features before the file is opened */ H5_DLL herr_t H5FDdriver_query(hid_t driver_id, unsigned long *flags /*out*/); #ifdef __cplusplus } #endif #endif