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402 lines
16 KiB
Plaintext
/**
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@if INTERNAL
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@page inmemintern Internal Architecture for NC_INMEMORY Support
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\tableofcontents
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<!-- Note that this file has the .dox extension, but is mostly markdown -->
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<!-- Begin MarkDown -->
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# Introduction {#inmemintern_intro}
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This document describes the internal workings
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of the inmemory features of the netcdf-c library.
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The companion document to this -- inmemory.md --
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describes the "external" operation of the inmemory features.
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This document describes how the in-memory operation
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is implemented both for netcdf-3 files and for netcdf-4 files.
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# Generic Capabilities {#inmemintern_general}
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Both the netcdf-3 and netcdf-4 implementations assume that
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they are initially given a (pointer,size) pair representing
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a chunk of allocated memory of specified size.
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If a file is being created instead of opened, then only the size
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is needed and the netcdf-c library will internally allocate the
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corresponding memory chunk.
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If NC_DISKLESS is being used, then a chunk of memory is allocated
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whose size is the same as the length of the file, and the contents
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of the file is then read into that chunk of memory.
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This information is in general represented by the following struct
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(see include/netcdf_mem.h).
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````
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typedef struct NC_memio {
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size_t size;
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void* memory;
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int flags;
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} NC_memio;
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````
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The flags field describes properties and constraints to be applied
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to the given memory. At the moment, only this one flag is defined.
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````
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#define NC_MEMIO_LOCKED 1
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````
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If this flag is set, then the netcdf library will ensure that
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the original allocated memory is ```locked```, which means
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that it will never be realloc'd nor free'd.
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Note that this flag is ignored when creating a memory file: it is only
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relevant when opening a pre-allocated chunk of memory via the
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_nc_open_mem_ function.
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Note that this flag does not prevent the memory from being modified.
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If there is room, then the memory may be modified in place. If the size
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of the memory needs to be increased and the this flag is set, then
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the operation will fail.
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When the _nc_close_memio_ function is called instead of
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_nc_close_, then the currently allocated memory (and its size)
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is returned. If the _NC_MEMIO_LOCKED_ flag is set, then it
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should be the case that the chunk of memory returned is the same
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as originally provided. However, the size may be different
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because it represents the amount of memory that contains
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meaningful data; this value may be less than the original provided size.
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The actual allocated size for the memory chunk is the same as originally
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provided, so it that value is needed, then the caller must save it somewhere.
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Note also that ownership of the memory chunk is given to the
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caller, and it is the caller's responsibility to _free_ the memory.
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# NetCDF-4 Implementation {#inmemintern_nc4}
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The implementation of in-memory support for netcdf-4 files
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is quite complicated.
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The netCDF-4 implementation relies on the HDF5 library. In order
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to implement in-memory storage of data, the HDF5 core driver is
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used to manage underlying storage of the netcdf-c file.
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An HDF5 driver is an abstract interface that allows different
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underlying storage implementations. So there is a standard file
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driver as well as a core driver, which uses memory as the
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underlying storage.
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Generically, the memory is referred to as a file image [1].
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## libhdf5/nc4mem
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The primary API for in-memory operations is in the file
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libhdf5/nc4mem.c and the defined functions are described in the next sections
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### nc4mem.NC4_open_image_file
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The signature is:
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````
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int NC4_open_image_file(NC_FILE_INFO_T* h5)
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````
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Basically, this function sets up the necessary state information
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to use the HDF5 core driver.
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It obtains the memory chunk and size from the _h5->mem.memio_ field.
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Specifically, this function converts the
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_NC_MEMIO_LOCKED_ flag into using the HDF5 image specific flags:
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_H5LT_FILE_IMAGE_DONT_COPY_ and _H5LT_FILE_IMAGE_DONT_RELEASE_.
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It then invokes the function _libhdf5/nc4memcb/NC4_image_init_
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function to do the necessary HDF5 specific setup.
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### nc4mem.NC4_create_image_file
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The signature is:
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````
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int NC4_create_image_file(NC_FILE_INFO_T* h5, size_t initialsize)
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````
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This function sets up the necessary state information
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to use the HDF5 core driver, but for a newly created file.
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It initializes the memory chunk and size in the _h5->mem.memio_ field
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from the _initialsize_ argument and it leaves the memory chunk pointer NULL.
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It ignores the _NC_MEMIO_LOCKED_ flag.
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It then invokes the function _libhdf5/nc4memcb/NC4_image_init_
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function to do the necessary HDF5 specific setup.
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### libhdf5/hdf5file.c/nc4_close-netcdf4_file
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When a file is closed, this function is invoked. As part of its operation,
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and if the file is an in-memory file, it does one of two things.
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1. If the user provided an _NC_memio_ instance, then return the final image
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in that instance; the user is then responsible for freeing it.
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2. If no _NC_memio_ instance was provided, then just discard the final image.
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## libhdf5/nc4memcb
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The HDF5 core driver uses an abstract interface for managing the
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allocation and free'ing of memory. This interface is defined
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as a set of callback functions [2] that implement the functions
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of this struct.
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````
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typedef struct {
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void *(*_malloc)(size_t size, H5_file_image_op_t op, void *udata);
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void *(*_memcpy)(void *dest, const void *src, size_t size,
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H5_file_image_op_t op, void *udata);
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void *(*_realloc)(void *ptr, size_t size,
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H5_file_image_op_t op, void *udata);
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herr_t (*_free)(void *ptr, H5_file_image_op_t op, void *udata);
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void *(*udata_copy)(void *udata);
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herr_t (*udata_free)(void *udata);
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void *udata;
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} H5_file_image_callbacks_t;
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````
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The _udata_ field at the end defines any extra state needed by the functions.
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Each function is passed the udata as its last argument. The structure of the
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udata is arbitrary, and is passed as _void*_ to the functions.
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The _udata_ structure and callback functions used by the netcdf-c library
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are defined in the file _libhdf5/nc4memcb.c_. Setup is defined by the
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function _NC4_image_init_ in that same file.
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The _udata_ structure used by netcdf is as follows.
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````
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typedef struct {
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void *app_image_ptr; /* Pointer to application buffer */
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size_t app_image_size; /* Size of application buffer */
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void *fapl_image_ptr; /* Pointer to FAPL buffer */
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size_t fapl_image_size; /* Size of FAPL buffer */
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int fapl_ref_count; /* Reference counter for FAPL buffer */
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void *vfd_image_ptr; /* Pointer to VFD buffer (Note: VFD => used by core driver) */
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size_t vfd_image_size; /* Size of VFD buffer */
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int vfd_ref_count; /* Reference counter for VFD buffer */
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unsigned flags; /* Flags indicate how the file image will be opened */
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int ref_count; /* Reference counter on udata struct */
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NC_FILE_INFO_T* h5; /* Pointer to the netcdf parent structure */
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} H5LT_file_image_ud_t;
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````
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It is necessary to understand one more point about the callback functions.
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The first four take an argument of type _H5_file_image_op_t_ -- the operator.
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This is an enumeration that indicates additional context about the purpose for
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which the callback is being invoked. For the purposes of the netcdf-4
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implementation, only the following operators are used.
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- H5FD_FILE_IMAGE_OP_PROPERTY_LIST_SET
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- H5FD_FILE_IMAGE_OP_PROPERTY_LIST_COPY
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- H5FD_FILE_IMAGE_OP_PROPERTY_LIST_GET
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- H5FD_FILE_IMAGE_OP_PROPERTY_LIST_CLOSE
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- H5FD_FILE_IMAGE_OP_FILE_OPEN
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- H5FD_FILE_IMAGE_OP_FILE_RESIZE
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- H5FD_FILE_IMAGE_OP_FILE_CLOSE
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As can be seen, basically the operators indicate if the operation is with respect to
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an HDF5 property list, or with respect to a file (i.e. a core image in this case).
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For each callback described below, the per-operator actions will be described.
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Not all operators are used with all callbacks.
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Internally, the HDF5 core driver thinks it is doing the following:
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1. Allocate memory and copy the incoming memory chunk into that newly allocated memory
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(call image_malloc followed by image_memcpy).
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2. Periodically reallocate the memory to increase its size
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(call image_realloc).
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3. Free up the memory as no longer needed
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(call image_free).
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It turns out that for propertly lists, realloc is never called.
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However the HDF5 core driver follows all of the above steps.
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The following sections describe the callback function operation.
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### libhdf5/nc4memcb/local_image_malloc
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This function is called to allocated an internal chunk of memory so
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the original provided memory is no longer needed. In order to implement
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the netcdf-c semantics, we modify this behavior.
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#### Operator H5FD_FILE_IMAGE_OP_PROPERTY_LIST_SET
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We assume that the property list image info will never need to be modified,
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so we just copy the incoming buffer info (the app_image fields) into the fapl_image fields.
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#### Operator H5FD_FILE_IMAGE_OP_PROPERTY_LIST_COPY
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Basically just return the fapl_image_ptr field, so no actual copying.
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#### Operator H5FD_FILE_IMAGE_OP_PROPERTY_LIST_COPY and H5FD_FILE_IMAGE_OP_PROPERTY_LIST_GET
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Basically just return the fapl_image_ptr field, so no actual copying or malloc needed.
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#### Operator H5FD_FILE_IMAGE_OP_FILE_OPEN
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Since we always start by using the original incoming image buffer, we just
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need to store that pointer and size into the vfd_image fields (remember, vfd is that
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used by the core driver).
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### libhdf5/nc4memcb/local_image_memcpy
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This function is supposed to be used to copy the incoming buffer into an internally
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malloc'd buffer. Since we use the original buffer, no memcpy is actually needed.
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As a safety check, we do actually do a memcpy if, for some reason, the _src_ and _dest_
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arguments are different. In practice, this never happens.
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### libhdf5/nc4memcb/local_image_realloc
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Since the property list image is never realloc'd this is only called with
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_H5FD_FILE_IMAGE_OP_FILE_RESIZE_.
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If the memory is not locked (i.e. the _NC_MEMIO_LOCKED_ flag was not used),
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then we are free to realloc the vfd_ptr. But if the memory is locked,
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then we cannot realloc and we must fake it as follows:
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1. If the chunk is big enough, then pretend to do a realloc by
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changing the vfd_image_size.
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2. If the chunk is not big enough to accommodate the requested new size,
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then fail.
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There is one important complication. It turns out that the image_realloc
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callback is sometimes called with a ptr argument value of NULL. This assumes
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that if realloc is called with a NULL buffer pointer, then it acts like _malloc_.
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Since we have found that some systems to do not implement this, we implement it
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in our local_image_realloc code and do a _malloc_ instead of _realloc_.
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### libhdf5/nc4memcb/local_image_free
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This function is, of course, invoked to deallocate memory.
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It is only invoked with the
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H5FD_FILE_IMAGE_OP_PROPERTY_LIST_CLOSE
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and H5FD_FILE_IMAGE_OP_FILE_CLOSE
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operators.
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#### Operator H5FD_FILE_IMAGE_OP_PROPERTY_LIST_CLOSE
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For the way the netcdf library uses it, it should still be the case that
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the fapl pointer is same as original incoming app_ptr, so we do not need
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to do anything for this operator.
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#### Operator H5FD_FILE_IMAGE_OP_FILE_CLOSE
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Since in our implementation, we maintain control of the memory, this case
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will never free any memory, but may save a pointer to the current vfd memory
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so it can be returned to the original caller, if they want it.
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Specifically the vfd_image_ptr and vfd_image_size are always
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copied to the _udata->h5->mem.memio_ field so they can
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be referenced by higher level code.
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### libhdf5/nc4memcb/local_udata_copy
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Our version of this function only manipulates the reference count.
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### libhdf5/nc4memcb/local_udata_free
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Our version of this function only manipulates the reference count.
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# NetCDF-3 Implementation {#inmemintern_nc3}
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The netcdf-3 code -- in libsrc -- has its own, internal storage
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management API as defined in the file _libsrc/ncio.h_. It implements
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the API in the form of a set of function pointers as defined in the
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structure _struct_ _ncio_. These function have the following signatures
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and semantics.
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- int ncio_relfunc(ncio*, off_t offset, int rflags) --
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Indicate that you are done with the region which begins at offset.
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- int ncio_getfunc(ncio*, off_t offset, size_t extent, int rflags, void **const vpp) --
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Request that the region (offset, extent) be made available through *vpp.
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- int ncio_movefunc(ncio*, off_t to, off_t from, size_t nbytes, int rflags) --
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Like memmove(), safely move possibly overlapping data.
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- int ncio_syncfunc(ncio*) --
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Write out any dirty buffers to disk and ensure that next read will get data from disk.
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- int ncio_pad_lengthfunc(ncio*, off_t length) --
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Sync any changes to disk, then truncate or extend file so its size is length.
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- int ncio_closefunc(ncio*, int doUnlink)
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-- Write out any dirty buffers and ensure that next read will not get cached data.
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Then sync any changes, and then close the open file.
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The _NC_INMEMORY_ semantics are implemented by creating an implementation of the above functions
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specific for handling in-memory support. This is implemented in the file _libsrc/memio.c_.
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## Open/Create/Close
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Open and close related functions exist in _memio.c_ that are not specifically part of the API.
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These functions are defined in the following sections.
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### memio_create
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Signature:
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````
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int memio_create(const char* path, int ioflags, size_t initialsz, off_t igeto, size_t igetsz, size_t* sizehintp, void* parameters /*ignored*/, ncio* *nciopp, void** const mempp)
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````
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Create a new file. Invoke _memio_new_ to create the _ncio_
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instance. If it is intended that the resulting file be
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persisted to the file system, then verify that writing such a
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file is possible. Also create an initial in-memory buffer to
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hold the file data. Otherwise act like e.g. _posixio_create_.
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### memio_open
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Signature:
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````
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int memio_open(const char* path, int ioflags, off_t igeto, size_t igetsz, size_t* sizehintp, void* parameters, ncio* *nciopp, void** const mempp)
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````
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Open an existing file. Invoke _memio_new_ to create the _ncio_
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instance. If it is intended that the resulting file be
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persisted to the file system, then verify that writing such a
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file is possible. Also create an initial in-memory buffer to
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hold the file data. Read the contents of the existing file into
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the allocated memory.
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Otherwise act like e.g. _posixio_open_.
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### memio_extract
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Signature:
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````
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int memio_extract(ncio* const nciop, size_t* sizep, void** memoryp)
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````
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This function is called as part of the NC3_close function in the event that
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the user wants the final in-memory chunk returned to them via _nc_close_mem_.
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It captures the existing in-memory chunk and returns it. At this point,
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memio will no longer have access to that memory.
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## API Semantics
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The semantic interaction of the above API and NC_INMEMORY are described in the following sections.
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### ncio_relfunc
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Just unlock the in-memory chunk.
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### ncio_getfunc
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First guarantee that the requested region exists, and if necessary,
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realloc to make it exist. If realloc is needed, and the
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file is locked, then fail.
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### ncio_movefunc
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First guarantee that the requested destination region exists, and if necessary,
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realloc to make it exist. If realloc is needed, and the
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file is locked, then fail.
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### ncio_syncfunc
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This is a no-op as far as memio is concerned.
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### ncio_pad_lengthfunc
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This may realloc the allocated in-memory buffer to achieve padding
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rounded up to the pagesize.
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### ncio_filesizefunc
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This just returns the used size of the in-memory chunk.
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Note that the allocated size might be larger.
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### ncio_closefunc
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If the usere wants the contents persisted, then write out the used portion
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of the in-memory chunk to the target file.
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Then, if the in-memory chunk is not locked, or for some reason has
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been modified, go ahead and free that memory.
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# References {#inmemintern_bib}
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1. https://support.hdfgroup.org/HDF5/doc1.8/Advanced/FileImageOperations/HDF5FileImageOperations.pdf
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2. https://support.hdfgroup.org/HDF5/doc/RM/RM_H5P.html#Property-SetFileImageCallbacks
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# Point of Contact {#inmemintern_poc}
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__Author__: Dennis Heimbigner<br>
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__Email__: dmh at ucar dot edu<br>
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__Initial Version__: 8/28/2018<br>
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__Last Revised__: 8/28/2018
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<!-- End MarkDown -->
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@endif
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*/
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