/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * 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. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /* * Purpose: This is a "pass through" VOL connector, which forwards each * VOL callback to an underlying connector. * * It is designed as an example VOL connector for developers to * use when creating new connectors, especially connectors that * are outside of the HDF5 library. As such, it should _NOT_ * include _any_ private HDF5 header files. This connector should * therefore only make public HDF5 API calls and use standard C / * POSIX calls. * * Note that the HDF5 error stack must be preserved on code paths * that could be invoked when the underlying VOL connector's * callback can fail. * */ /* Header files needed */ /* Do NOT include private HDF5 files here! */ #include #include #include #include #include /* Public HDF5 file */ #include "hdf5.h" /* This connector's header */ #include "H5VLpassthru.h" /**********/ /* Macros */ /**********/ /* Whether to display log message when callback is invoked */ /* (Uncomment to enable) */ /* #define ENABLE_PASSTHRU_LOGGING */ /* Hack for missing va_copy() in old Visual Studio editions * (from H5win2_defs.h - used on VS2012 and earlier) */ #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER < 1800) #define va_copy(D, S) ((D) = (S)) #endif /************/ /* Typedefs */ /************/ /* The pass through VOL info object */ typedef struct H5VL_pass_through_t { hid_t under_vol_id; /* ID for underlying VOL connector */ void *under_object; /* Info object for underlying VOL connector */ } H5VL_pass_through_t; /* The pass through VOL wrapper context */ typedef struct H5VL_pass_through_wrap_ctx_t { hid_t under_vol_id; /* VOL ID for under VOL */ void *under_wrap_ctx; /* Object wrapping context for under VOL */ } H5VL_pass_through_wrap_ctx_t; /********************* */ /* Function prototypes */ /********************* */ /* Helper routines */ static herr_t H5VL_pass_through_file_specific_reissue(void *obj, hid_t connector_id, H5VL_file_specific_t specific_type, hid_t dxpl_id, void **req, ...); static herr_t H5VL_pass_through_request_specific_reissue(void *obj, hid_t connector_id, H5VL_request_specific_t specific_type, ...); static herr_t H5VL_pass_through_link_create_reissue(H5VL_link_create_type_t create_type, void *obj, const H5VL_loc_params_t *loc_params, hid_t connector_id, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req, ...); static H5VL_pass_through_t *H5VL_pass_through_new_obj(void *under_obj, hid_t under_vol_id); static herr_t H5VL_pass_through_free_obj(H5VL_pass_through_t *obj); /* "Management" callbacks */ static herr_t H5VL_pass_through_init(hid_t vipl_id); static herr_t H5VL_pass_through_term(void); /* VOL info callbacks */ static void * H5VL_pass_through_info_copy(const void *info); static herr_t H5VL_pass_through_info_cmp(int *cmp_value, const void *info1, const void *info2); static herr_t H5VL_pass_through_info_free(void *info); static herr_t H5VL_pass_through_info_to_str(const void *info, char **str); static herr_t H5VL_pass_through_str_to_info(const char *str, void **info); /* VOL object wrap / retrieval callbacks */ static void * H5VL_pass_through_get_object(const void *obj); static herr_t H5VL_pass_through_get_wrap_ctx(const void *obj, void **wrap_ctx); static void * H5VL_pass_through_wrap_object(void *obj, H5I_type_t obj_type, void *wrap_ctx); static void * H5VL_pass_through_unwrap_object(void *obj); static herr_t H5VL_pass_through_free_wrap_ctx(void *obj); /* Attribute callbacks */ static void * H5VL_pass_through_attr_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t type_id, hid_t space_id, hid_t acpl_id, hid_t aapl_id, hid_t dxpl_id, void **req); static void * H5VL_pass_through_attr_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t aapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_attr_read(void *attr, hid_t mem_type_id, void *buf, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_attr_write(void *attr, hid_t mem_type_id, const void *buf, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_attr_get(void *obj, H5VL_attr_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_attr_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_attr_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_attr_optional(void *obj, H5VL_attr_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_attr_close(void *attr, hid_t dxpl_id, void **req); /* Dataset callbacks */ static void * H5VL_pass_through_dataset_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t lcpl_id, hid_t type_id, hid_t space_id, hid_t dcpl_id, hid_t dapl_id, hid_t dxpl_id, void **req); static void * H5VL_pass_through_dataset_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t dapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_dataset_read(void *dset, hid_t mem_type_id, hid_t mem_space_id, hid_t file_space_id, hid_t plist_id, void *buf, void **req); static herr_t H5VL_pass_through_dataset_write(void *dset, hid_t mem_type_id, hid_t mem_space_id, hid_t file_space_id, hid_t plist_id, const void *buf, void **req); static herr_t H5VL_pass_through_dataset_get(void *dset, H5VL_dataset_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_dataset_specific(void *obj, H5VL_dataset_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_dataset_optional(void *obj, H5VL_dataset_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_dataset_close(void *dset, hid_t dxpl_id, void **req); /* Datatype callbacks */ static void *H5VL_pass_through_datatype_commit(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t type_id, hid_t lcpl_id, hid_t tcpl_id, hid_t tapl_id, hid_t dxpl_id, void **req); static void *H5VL_pass_through_datatype_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t tapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_datatype_get(void *dt, H5VL_datatype_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_datatype_specific(void *obj, H5VL_datatype_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_datatype_optional(void *obj, H5VL_datatype_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_datatype_close(void *dt, hid_t dxpl_id, void **req); /* File callbacks */ static void * H5VL_pass_through_file_create(const char *name, unsigned flags, hid_t fcpl_id, hid_t fapl_id, hid_t dxpl_id, void **req); static void * H5VL_pass_through_file_open(const char *name, unsigned flags, hid_t fapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_file_get(void *file, H5VL_file_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_file_specific(void *file, H5VL_file_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_file_optional(void *file, H5VL_file_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_file_close(void *file, hid_t dxpl_id, void **req); /* Group callbacks */ static void * H5VL_pass_through_group_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t lcpl_id, hid_t gcpl_id, hid_t gapl_id, hid_t dxpl_id, void **req); static void * H5VL_pass_through_group_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t gapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_group_get(void *obj, H5VL_group_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_group_specific(void *obj, H5VL_group_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_group_optional(void *obj, H5VL_group_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_group_close(void *grp, hid_t dxpl_id, void **req); /* Link callbacks */ static herr_t H5VL_pass_through_link_create(H5VL_link_create_type_t create_type, void *obj, const H5VL_loc_params_t *loc_params, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_link_copy(void *src_obj, const H5VL_loc_params_t *loc_params1, void *dst_obj, const H5VL_loc_params_t *loc_params2, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_link_move(void *src_obj, const H5VL_loc_params_t *loc_params1, void *dst_obj, const H5VL_loc_params_t *loc_params2, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_link_get(void *obj, const H5VL_loc_params_t *loc_params, H5VL_link_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_link_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_link_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_link_optional(void *obj, H5VL_link_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); /* Object callbacks */ static void * H5VL_pass_through_object_open(void *obj, const H5VL_loc_params_t *loc_params, H5I_type_t *opened_type, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_object_copy(void *src_obj, const H5VL_loc_params_t *src_loc_params, const char *src_name, void *dst_obj, const H5VL_loc_params_t *dst_loc_params, const char *dst_name, hid_t ocpypl_id, hid_t lcpl_id, hid_t dxpl_id, void **req); static herr_t H5VL_pass_through_object_get(void *obj, const H5VL_loc_params_t *loc_params, H5VL_object_get_t get_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_object_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_object_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments); static herr_t H5VL_pass_through_object_optional(void *obj, H5VL_object_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments); /* Container/connector introspection callbacks */ static herr_t H5VL_pass_through_introspect_get_conn_cls(void *obj, H5VL_get_conn_lvl_t lvl, const H5VL_class_t **conn_cls); static herr_t H5VL_pass_through_introspect_opt_query(void *obj, H5VL_subclass_t cls, int opt_type, hbool_t *supported); /* Async request callbacks */ static herr_t H5VL_pass_through_request_wait(void *req, uint64_t timeout, H5ES_status_t *status); static herr_t H5VL_pass_through_request_notify(void *obj, H5VL_request_notify_t cb, void *ctx); static herr_t H5VL_pass_through_request_cancel(void *req); static herr_t H5VL_pass_through_request_specific(void *req, H5VL_request_specific_t specific_type, va_list arguments); static herr_t H5VL_pass_through_request_optional(void *req, H5VL_request_optional_t opt_type, va_list arguments); static herr_t H5VL_pass_through_request_free(void *req); /* Blob callbacks */ static herr_t H5VL_pass_through_blob_put(void *obj, const void *buf, size_t size, void *blob_id, void *ctx); static herr_t H5VL_pass_through_blob_get(void *obj, const void *blob_id, void *buf, size_t size, void *ctx); static herr_t H5VL_pass_through_blob_specific(void *obj, void *blob_id, H5VL_blob_specific_t specific_type, va_list arguments); static herr_t H5VL_pass_through_blob_optional(void *obj, void *blob_id, H5VL_blob_optional_t opt_type, va_list arguments); /* Token callbacks */ static herr_t H5VL_pass_through_token_cmp(void *obj, const H5O_token_t *token1, const H5O_token_t *token2, int *cmp_value); static herr_t H5VL_pass_through_token_to_str(void *obj, H5I_type_t obj_type, const H5O_token_t *token, char **token_str); static herr_t H5VL_pass_through_token_from_str(void *obj, H5I_type_t obj_type, const char *token_str, H5O_token_t *token); /* Generic optional callback */ static herr_t H5VL_pass_through_optional(void *obj, int op_type, hid_t dxpl_id, void **req, va_list arguments); /*******************/ /* Local variables */ /*******************/ /* Pass through VOL connector class struct */ static const H5VL_class_t H5VL_pass_through_g = { H5VL_VERSION, /* VOL class struct version */ (H5VL_class_value_t)H5VL_PASSTHRU_VALUE, /* value */ H5VL_PASSTHRU_NAME, /* name */ 0, /* capability flags */ H5VL_pass_through_init, /* initialize */ H5VL_pass_through_term, /* terminate */ { /* info_cls */ sizeof(H5VL_pass_through_info_t), /* size */ H5VL_pass_through_info_copy, /* copy */ H5VL_pass_through_info_cmp, /* compare */ H5VL_pass_through_info_free, /* free */ H5VL_pass_through_info_to_str, /* to_str */ H5VL_pass_through_str_to_info /* from_str */ }, { /* wrap_cls */ H5VL_pass_through_get_object, /* get_object */ H5VL_pass_through_get_wrap_ctx, /* get_wrap_ctx */ H5VL_pass_through_wrap_object, /* wrap_object */ H5VL_pass_through_unwrap_object, /* unwrap_object */ H5VL_pass_through_free_wrap_ctx /* free_wrap_ctx */ }, { /* attribute_cls */ H5VL_pass_through_attr_create, /* create */ H5VL_pass_through_attr_open, /* open */ H5VL_pass_through_attr_read, /* read */ H5VL_pass_through_attr_write, /* write */ H5VL_pass_through_attr_get, /* get */ H5VL_pass_through_attr_specific, /* specific */ H5VL_pass_through_attr_optional, /* optional */ H5VL_pass_through_attr_close /* close */ }, { /* dataset_cls */ H5VL_pass_through_dataset_create, /* create */ H5VL_pass_through_dataset_open, /* open */ H5VL_pass_through_dataset_read, /* read */ H5VL_pass_through_dataset_write, /* write */ H5VL_pass_through_dataset_get, /* get */ H5VL_pass_through_dataset_specific, /* specific */ H5VL_pass_through_dataset_optional, /* optional */ H5VL_pass_through_dataset_close /* close */ }, { /* datatype_cls */ H5VL_pass_through_datatype_commit, /* commit */ H5VL_pass_through_datatype_open, /* open */ H5VL_pass_through_datatype_get, /* get_size */ H5VL_pass_through_datatype_specific, /* specific */ H5VL_pass_through_datatype_optional, /* optional */ H5VL_pass_through_datatype_close /* close */ }, { /* file_cls */ H5VL_pass_through_file_create, /* create */ H5VL_pass_through_file_open, /* open */ H5VL_pass_through_file_get, /* get */ H5VL_pass_through_file_specific, /* specific */ H5VL_pass_through_file_optional, /* optional */ H5VL_pass_through_file_close /* close */ }, { /* group_cls */ H5VL_pass_through_group_create, /* create */ H5VL_pass_through_group_open, /* open */ H5VL_pass_through_group_get, /* get */ H5VL_pass_through_group_specific, /* specific */ H5VL_pass_through_group_optional, /* optional */ H5VL_pass_through_group_close /* close */ }, { /* link_cls */ H5VL_pass_through_link_create, /* create */ H5VL_pass_through_link_copy, /* copy */ H5VL_pass_through_link_move, /* move */ H5VL_pass_through_link_get, /* get */ H5VL_pass_through_link_specific, /* specific */ H5VL_pass_through_link_optional /* optional */ }, { /* object_cls */ H5VL_pass_through_object_open, /* open */ H5VL_pass_through_object_copy, /* copy */ H5VL_pass_through_object_get, /* get */ H5VL_pass_through_object_specific, /* specific */ H5VL_pass_through_object_optional /* optional */ }, { /* introspect_cls */ H5VL_pass_through_introspect_get_conn_cls, /* get_conn_cls */ H5VL_pass_through_introspect_opt_query, /* opt_query */ }, { /* request_cls */ H5VL_pass_through_request_wait, /* wait */ H5VL_pass_through_request_notify, /* notify */ H5VL_pass_through_request_cancel, /* cancel */ H5VL_pass_through_request_specific, /* specific */ H5VL_pass_through_request_optional, /* optional */ H5VL_pass_through_request_free /* free */ }, { /* blob_cls */ H5VL_pass_through_blob_put, /* put */ H5VL_pass_through_blob_get, /* get */ H5VL_pass_through_blob_specific, /* specific */ H5VL_pass_through_blob_optional /* optional */ }, { /* token_cls */ H5VL_pass_through_token_cmp, /* cmp */ H5VL_pass_through_token_to_str, /* to_str */ H5VL_pass_through_token_from_str /* from_str */ }, H5VL_pass_through_optional /* optional */ }; /* The connector identification number, initialized at runtime */ static hid_t H5VL_PASSTHRU_g = H5I_INVALID_HID; /*------------------------------------------------------------------------- * Function: H5VL__pass_through_new_obj * * Purpose: Create a new pass through object for an underlying object * * Return: Success: Pointer to the new pass through object * Failure: NULL * * Programmer: Quincey Koziol * Monday, December 3, 2018 * *------------------------------------------------------------------------- */ static H5VL_pass_through_t * H5VL_pass_through_new_obj(void *under_obj, hid_t under_vol_id) { H5VL_pass_through_t *new_obj; new_obj = (H5VL_pass_through_t *)calloc(1, sizeof(H5VL_pass_through_t)); new_obj->under_object = under_obj; new_obj->under_vol_id = under_vol_id; H5Iinc_ref(new_obj->under_vol_id); return new_obj; } /* end H5VL__pass_through_new_obj() */ /*------------------------------------------------------------------------- * Function: H5VL__pass_through_free_obj * * Purpose: Release a pass through object * * Note: Take care to preserve the current HDF5 error stack * when calling HDF5 API calls. * * Return: Success: 0 * Failure: -1 * * Programmer: Quincey Koziol * Monday, December 3, 2018 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_free_obj(H5VL_pass_through_t *obj) { hid_t err_id; err_id = H5Eget_current_stack(); H5Idec_ref(obj->under_vol_id); H5Eset_current_stack(err_id); free(obj); return 0; } /* end H5VL__pass_through_free_obj() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_register * * Purpose: Register the pass-through VOL connector and retrieve an ID * for it. * * Return: Success: The ID for the pass-through VOL connector * Failure: -1 * * Programmer: Quincey Koziol * Wednesday, November 28, 2018 * *------------------------------------------------------------------------- */ hid_t H5VL_pass_through_register(void) { /* Singleton register the pass-through VOL connector ID */ if (H5VL_PASSTHRU_g < 0) H5VL_PASSTHRU_g = H5VLregister_connector(&H5VL_pass_through_g, H5P_DEFAULT); return H5VL_PASSTHRU_g; } /* end H5VL_pass_through_register() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_init * * Purpose: Initialize this VOL connector, performing any necessary * operations for the connector that will apply to all containers * accessed with the connector. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_init(hid_t vipl_id) { #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INIT\n"); #endif /* Shut compiler up about unused parameter */ (void)vipl_id; return 0; } /* end H5VL_pass_through_init() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_term * * Purpose: Terminate this VOL connector, performing any necessary * operations for the connector that release connector-wide * resources (usually created / initialized with the 'init' * callback). * * Return: Success: 0 * Failure: (Can't fail) * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_term(void) { #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL TERM\n"); #endif /* Reset VOL ID */ H5VL_PASSTHRU_g = H5I_INVALID_HID; return 0; } /* end H5VL_pass_through_term() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_info_copy * * Purpose: Duplicate the connector's info object. * * Returns: Success: New connector info object * Failure: NULL * *--------------------------------------------------------------------------- */ static void * H5VL_pass_through_info_copy(const void *_info) { const H5VL_pass_through_info_t *info = (const H5VL_pass_through_info_t *)_info; H5VL_pass_through_info_t * new_info; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INFO Copy\n"); #endif /* Allocate new VOL info struct for the pass through connector */ new_info = (H5VL_pass_through_info_t *)calloc(1, sizeof(H5VL_pass_through_info_t)); /* Increment reference count on underlying VOL ID, and copy the VOL info */ new_info->under_vol_id = info->under_vol_id; H5Iinc_ref(new_info->under_vol_id); if (info->under_vol_info) H5VLcopy_connector_info(new_info->under_vol_id, &(new_info->under_vol_info), info->under_vol_info); return new_info; } /* end H5VL_pass_through_info_copy() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_info_cmp * * Purpose: Compare two of the connector's info objects, setting *cmp_value, * following the same rules as strcmp(). * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_info_cmp(int *cmp_value, const void *_info1, const void *_info2) { const H5VL_pass_through_info_t *info1 = (const H5VL_pass_through_info_t *)_info1; const H5VL_pass_through_info_t *info2 = (const H5VL_pass_through_info_t *)_info2; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INFO Compare\n"); #endif /* Sanity checks */ assert(info1); assert(info2); /* Initialize comparison value */ *cmp_value = 0; /* Compare under VOL connector classes */ H5VLcmp_connector_cls(cmp_value, info1->under_vol_id, info2->under_vol_id); if (*cmp_value != 0) return 0; /* Compare under VOL connector info objects */ H5VLcmp_connector_info(cmp_value, info1->under_vol_id, info1->under_vol_info, info2->under_vol_info); if (*cmp_value != 0) return 0; return 0; } /* end H5VL_pass_through_info_cmp() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_info_free * * Purpose: Release an info object for the connector. * * Note: Take care to preserve the current HDF5 error stack * when calling HDF5 API calls. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_info_free(void *_info) { H5VL_pass_through_info_t *info = (H5VL_pass_through_info_t *)_info; hid_t err_id; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INFO Free\n"); #endif err_id = H5Eget_current_stack(); /* Release underlying VOL ID and info */ if (info->under_vol_info) H5VLfree_connector_info(info->under_vol_id, info->under_vol_info); H5Idec_ref(info->under_vol_id); H5Eset_current_stack(err_id); /* Free pass through info object itself */ free(info); return 0; } /* end H5VL_pass_through_info_free() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_info_to_str * * Purpose: Serialize an info object for this connector into a string * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_info_to_str(const void *_info, char **str) { const H5VL_pass_through_info_t *info = (const H5VL_pass_through_info_t *)_info; H5VL_class_value_t under_value = (H5VL_class_value_t)-1; char * under_vol_string = NULL; size_t under_vol_str_len = 0; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INFO To String\n"); #endif /* Get value and string for underlying VOL connector */ H5VLget_value(info->under_vol_id, &under_value); H5VLconnector_info_to_str(info->under_vol_info, info->under_vol_id, &under_vol_string); /* Determine length of underlying VOL info string */ if (under_vol_string) under_vol_str_len = strlen(under_vol_string); /* Allocate space for our info */ size_t strSize = 32 + under_vol_str_len; *str = (char *)H5allocate_memory(strSize, (hbool_t)0); assert(*str); /* Encode our info */ snprintf(*str, strSize, "under_vol=%u;under_info={%s}", (unsigned)under_value, (under_vol_string ? under_vol_string : "")); return 0; } /* end H5VL_pass_through_info_to_str() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_str_to_info * * Purpose: Deserialize a string into an info object for this connector. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_str_to_info(const char *str, void **_info) { H5VL_pass_through_info_t *info; unsigned under_vol_value; const char * under_vol_info_start, *under_vol_info_end; hid_t under_vol_id; void * under_vol_info = NULL; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INFO String To Info\n"); #endif /* Retrieve the underlying VOL connector value and info */ sscanf(str, "under_vol=%u;", &under_vol_value); under_vol_id = H5VLregister_connector_by_value((H5VL_class_value_t)under_vol_value, H5P_DEFAULT); under_vol_info_start = strchr(str, '{'); under_vol_info_end = strrchr(str, '}'); assert(under_vol_info_end > under_vol_info_start); if (under_vol_info_end != (under_vol_info_start + 1)) { char *under_vol_info_str; under_vol_info_str = (char *)malloc((size_t)(under_vol_info_end - under_vol_info_start)); memcpy(under_vol_info_str, under_vol_info_start + 1, (size_t)((under_vol_info_end - under_vol_info_start) - 1)); *(under_vol_info_str + (under_vol_info_end - under_vol_info_start)) = '\0'; H5VLconnector_str_to_info(under_vol_info_str, under_vol_id, &under_vol_info); free(under_vol_info_str); } /* end else */ /* Allocate new pass-through VOL connector info and set its fields */ info = (H5VL_pass_through_info_t *)calloc(1, sizeof(H5VL_pass_through_info_t)); info->under_vol_id = under_vol_id; info->under_vol_info = under_vol_info; /* Set return value */ *_info = info; return 0; } /* end H5VL_pass_through_str_to_info() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_get_object * * Purpose: Retrieve the 'data' for a VOL object. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static void * H5VL_pass_through_get_object(const void *obj) { const H5VL_pass_through_t *o = (const H5VL_pass_through_t *)obj; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL Get object\n"); #endif return H5VLget_object(o->under_object, o->under_vol_id); } /* end H5VL_pass_through_get_object() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_get_wrap_ctx * * Purpose: Retrieve a "wrapper context" for an object * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_get_wrap_ctx(const void *obj, void **wrap_ctx) { const H5VL_pass_through_t * o = (const H5VL_pass_through_t *)obj; H5VL_pass_through_wrap_ctx_t *new_wrap_ctx; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL WRAP CTX Get\n"); #endif /* Allocate new VOL object wrapping context for the pass through connector */ new_wrap_ctx = (H5VL_pass_through_wrap_ctx_t *)calloc(1, sizeof(H5VL_pass_through_wrap_ctx_t)); /* Increment reference count on underlying VOL ID, and copy the VOL info */ new_wrap_ctx->under_vol_id = o->under_vol_id; H5Iinc_ref(new_wrap_ctx->under_vol_id); H5VLget_wrap_ctx(o->under_object, o->under_vol_id, &new_wrap_ctx->under_wrap_ctx); /* Set wrap context to return */ *wrap_ctx = new_wrap_ctx; return 0; } /* end H5VL_pass_through_get_wrap_ctx() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_wrap_object * * Purpose: Use a "wrapper context" to wrap a data object * * Return: Success: Pointer to wrapped object * Failure: NULL * *--------------------------------------------------------------------------- */ static void * H5VL_pass_through_wrap_object(void *obj, H5I_type_t obj_type, void *_wrap_ctx) { H5VL_pass_through_wrap_ctx_t *wrap_ctx = (H5VL_pass_through_wrap_ctx_t *)_wrap_ctx; H5VL_pass_through_t * new_obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL WRAP Object\n"); #endif /* Wrap the object with the underlying VOL */ under = H5VLwrap_object(obj, obj_type, wrap_ctx->under_vol_id, wrap_ctx->under_wrap_ctx); if (under) new_obj = H5VL_pass_through_new_obj(under, wrap_ctx->under_vol_id); else new_obj = NULL; return new_obj; } /* end H5VL_pass_through_wrap_object() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_unwrap_object * * Purpose: Unwrap a wrapped object, discarding the wrapper, but returning * underlying object. * * Return: Success: Pointer to unwrapped object * Failure: NULL * *--------------------------------------------------------------------------- */ static void * H5VL_pass_through_unwrap_object(void *obj) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL UNWRAP Object\n"); #endif /* Unrap the object with the underlying VOL */ under = H5VLunwrap_object(o->under_object, o->under_vol_id); if (under) H5VL_pass_through_free_obj(o); return under; } /* end H5VL_pass_through_unwrap_object() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_free_wrap_ctx * * Purpose: Release a "wrapper context" for an object * * Note: Take care to preserve the current HDF5 error stack * when calling HDF5 API calls. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_free_wrap_ctx(void *_wrap_ctx) { H5VL_pass_through_wrap_ctx_t *wrap_ctx = (H5VL_pass_through_wrap_ctx_t *)_wrap_ctx; hid_t err_id; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL WRAP CTX Free\n"); #endif err_id = H5Eget_current_stack(); /* Release underlying VOL ID and wrap context */ if (wrap_ctx->under_wrap_ctx) H5VLfree_wrap_ctx(wrap_ctx->under_wrap_ctx, wrap_ctx->under_vol_id); H5Idec_ref(wrap_ctx->under_vol_id); H5Eset_current_stack(err_id); /* Free pass through wrap context object itself */ free(wrap_ctx); return 0; } /* end H5VL_pass_through_free_wrap_ctx() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_create * * Purpose: Creates an attribute on an object. * * Return: Success: Pointer to attribute object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_attr_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t type_id, hid_t space_id, hid_t acpl_id, hid_t aapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *attr; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Create\n"); #endif under = H5VLattr_create(o->under_object, loc_params, o->under_vol_id, name, type_id, space_id, acpl_id, aapl_id, dxpl_id, req); if (under) { attr = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else attr = NULL; return (void *)attr; } /* end H5VL_pass_through_attr_create() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_open * * Purpose: Opens an attribute on an object. * * Return: Success: Pointer to attribute object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_attr_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t aapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *attr; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Open\n"); #endif under = H5VLattr_open(o->under_object, loc_params, o->under_vol_id, name, aapl_id, dxpl_id, req); if (under) { attr = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else attr = NULL; return (void *)attr; } /* end H5VL_pass_through_attr_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_read * * Purpose: Reads data from attribute. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_read(void *attr, hid_t mem_type_id, void *buf, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)attr; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Read\n"); #endif ret_value = H5VLattr_read(o->under_object, o->under_vol_id, mem_type_id, buf, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_attr_read() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_write * * Purpose: Writes data to attribute. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_write(void *attr, hid_t mem_type_id, const void *buf, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)attr; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Write\n"); #endif ret_value = H5VLattr_write(o->under_object, o->under_vol_id, mem_type_id, buf, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_attr_write() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_get * * Purpose: Gets information about an attribute * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_get(void *obj, H5VL_attr_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Get\n"); #endif ret_value = H5VLattr_get(o->under_object, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_attr_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_specific * * Purpose: Specific operation on attribute * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_attr_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Specific\n"); #endif ret_value = H5VLattr_specific(o->under_object, loc_params, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_attr_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_optional * * Purpose: Perform a connector-specific operation on an attribute * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_optional(void *obj, H5VL_attr_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Optional\n"); #endif ret_value = H5VLattr_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_attr_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_attr_close * * Purpose: Closes an attribute. * * Return: Success: 0 * Failure: -1, attr not closed. * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_attr_close(void *attr, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)attr; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL ATTRIBUTE Close\n"); #endif ret_value = H5VLattr_close(o->under_object, o->under_vol_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); /* Release our wrapper, if underlying attribute was closed */ if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_attr_close() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_create * * Purpose: Creates a dataset in a container * * Return: Success: Pointer to a dataset object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_dataset_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t lcpl_id, hid_t type_id, hid_t space_id, hid_t dcpl_id, hid_t dapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *dset; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Create\n"); #endif under = H5VLdataset_create(o->under_object, loc_params, o->under_vol_id, name, lcpl_id, type_id, space_id, dcpl_id, dapl_id, dxpl_id, req); if (under) { dset = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else dset = NULL; return (void *)dset; } /* end H5VL_pass_through_dataset_create() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_open * * Purpose: Opens a dataset in a container * * Return: Success: Pointer to a dataset object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_dataset_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t dapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *dset; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Open\n"); #endif under = H5VLdataset_open(o->under_object, loc_params, o->under_vol_id, name, dapl_id, dxpl_id, req); if (under) { dset = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else dset = NULL; return (void *)dset; } /* end H5VL_pass_through_dataset_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_read * * Purpose: Reads data elements from a dataset into a buffer. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_read(void *dset, hid_t mem_type_id, hid_t mem_space_id, hid_t file_space_id, hid_t plist_id, void *buf, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dset; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Read\n"); #endif ret_value = H5VLdataset_read(o->under_object, o->under_vol_id, mem_type_id, mem_space_id, file_space_id, plist_id, buf, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_dataset_read() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_write * * Purpose: Writes data elements from a buffer into a dataset. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_write(void *dset, hid_t mem_type_id, hid_t mem_space_id, hid_t file_space_id, hid_t plist_id, const void *buf, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dset; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Write\n"); #endif ret_value = H5VLdataset_write(o->under_object, o->under_vol_id, mem_type_id, mem_space_id, file_space_id, plist_id, buf, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_dataset_write() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_get * * Purpose: Gets information about a dataset * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_get(void *dset, H5VL_dataset_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dset; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Get\n"); #endif ret_value = H5VLdataset_get(o->under_object, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_dataset_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_specific * * Purpose: Specific operation on a dataset * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_specific(void *obj, H5VL_dataset_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; hid_t under_vol_id; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL H5Dspecific\n"); #endif // Save copy of underlying VOL connector ID and prov helper, in case of // refresh destroying the current object under_vol_id = o->under_vol_id; ret_value = H5VLdataset_specific(o->under_object, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_dataset_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_optional * * Purpose: Perform a connector-specific operation on a dataset * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_optional(void *obj, H5VL_dataset_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Optional\n"); #endif ret_value = H5VLdataset_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_dataset_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_dataset_close * * Purpose: Closes a dataset. * * Return: Success: 0 * Failure: -1, dataset not closed. * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_dataset_close(void *dset, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dset; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATASET Close\n"); #endif ret_value = H5VLdataset_close(o->under_object, o->under_vol_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); /* Release our wrapper, if underlying dataset was closed */ if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_dataset_close() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_commit * * Purpose: Commits a datatype inside a container. * * Return: Success: Pointer to datatype object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_datatype_commit(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t type_id, hid_t lcpl_id, hid_t tcpl_id, hid_t tapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *dt; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Commit\n"); #endif under = H5VLdatatype_commit(o->under_object, loc_params, o->under_vol_id, name, type_id, lcpl_id, tcpl_id, tapl_id, dxpl_id, req); if (under) { dt = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else dt = NULL; return (void *)dt; } /* end H5VL_pass_through_datatype_commit() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_open * * Purpose: Opens a named datatype inside a container. * * Return: Success: Pointer to datatype object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_datatype_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t tapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *dt; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Open\n"); #endif under = H5VLdatatype_open(o->under_object, loc_params, o->under_vol_id, name, tapl_id, dxpl_id, req); if (under) { dt = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else dt = NULL; return (void *)dt; } /* end H5VL_pass_through_datatype_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_get * * Purpose: Get information about a datatype * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_datatype_get(void *dt, H5VL_datatype_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dt; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Get\n"); #endif ret_value = H5VLdatatype_get(o->under_object, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_datatype_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_specific * * Purpose: Specific operations for datatypes * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_datatype_specific(void *obj, H5VL_datatype_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; hid_t under_vol_id; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Specific\n"); #endif // Save copy of underlying VOL connector ID and prov helper, in case of // refresh destroying the current object under_vol_id = o->under_vol_id; ret_value = H5VLdatatype_specific(o->under_object, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_datatype_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_optional * * Purpose: Perform a connector-specific operation on a datatype * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_datatype_optional(void *obj, H5VL_datatype_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Optional\n"); #endif ret_value = H5VLdatatype_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_datatype_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_datatype_close * * Purpose: Closes a datatype. * * Return: Success: 0 * Failure: -1, datatype not closed. * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_datatype_close(void *dt, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)dt; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL DATATYPE Close\n"); #endif assert(o->under_object); ret_value = H5VLdatatype_close(o->under_object, o->under_vol_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); /* Release our wrapper, if underlying datatype was closed */ if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_datatype_close() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_create * * Purpose: Creates a container using this connector * * Return: Success: Pointer to a file object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_file_create(const char *name, unsigned flags, hid_t fcpl_id, hid_t fapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_info_t *info; H5VL_pass_through_t * file; hid_t under_fapl_id; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL FILE Create\n"); #endif /* Get copy of our VOL info from FAPL */ H5Pget_vol_info(fapl_id, (void **)&info); /* Make sure we have info about the underlying VOL to be used */ if (!info) return NULL; /* Copy the FAPL */ under_fapl_id = H5Pcopy(fapl_id); /* Set the VOL ID and info for the underlying FAPL */ H5Pset_vol(under_fapl_id, info->under_vol_id, info->under_vol_info); /* Open the file with the underlying VOL connector */ under = H5VLfile_create(name, flags, fcpl_id, under_fapl_id, dxpl_id, req); if (under) { file = H5VL_pass_through_new_obj(under, info->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, info->under_vol_id); } /* end if */ else file = NULL; /* Close underlying FAPL */ H5Pclose(under_fapl_id); /* Release copy of our VOL info */ H5VL_pass_through_info_free(info); return (void *)file; } /* end H5VL_pass_through_file_create() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_open * * Purpose: Opens a container created with this connector * * Return: Success: Pointer to a file object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_file_open(const char *name, unsigned flags, hid_t fapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_info_t *info; H5VL_pass_through_t * file; hid_t under_fapl_id; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL FILE Open\n"); #endif /* Get copy of our VOL info from FAPL */ H5Pget_vol_info(fapl_id, (void **)&info); /* Make sure we have info about the underlying VOL to be used */ if (!info) return NULL; /* Copy the FAPL */ under_fapl_id = H5Pcopy(fapl_id); /* Set the VOL ID and info for the underlying FAPL */ H5Pset_vol(under_fapl_id, info->under_vol_id, info->under_vol_info); /* Open the file with the underlying VOL connector */ under = H5VLfile_open(name, flags, under_fapl_id, dxpl_id, req); if (under) { file = H5VL_pass_through_new_obj(under, info->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, info->under_vol_id); } /* end if */ else file = NULL; /* Close underlying FAPL */ H5Pclose(under_fapl_id); /* Release copy of our VOL info */ H5VL_pass_through_info_free(info); return (void *)file; } /* end H5VL_pass_through_file_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_get * * Purpose: Get info about a file * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_file_get(void *file, H5VL_file_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)file; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL FILE Get\n"); #endif ret_value = H5VLfile_get(o->under_object, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_file_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_specific_reissue * * Purpose: Re-wrap vararg arguments into a va_list and reissue the * file specific callback to the underlying VOL connector. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_file_specific_reissue(void *obj, hid_t connector_id, H5VL_file_specific_t specific_type, hid_t dxpl_id, void **req, ...) { va_list arguments; herr_t ret_value; va_start(arguments, req); ret_value = H5VLfile_specific(obj, connector_id, specific_type, dxpl_id, req, arguments); va_end(arguments); return ret_value; } /* end H5VL_pass_through_file_specific_reissue() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_specific * * Purpose: Specific operation on file * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_file_specific(void *file, H5VL_file_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)file; hid_t under_vol_id = -1; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL FILE Specific\n"); #endif /* Unpack arguments to get at the child file pointer when mounting a file */ if (specific_type == H5VL_FILE_MOUNT) { H5I_type_t loc_type; const char * name; H5VL_pass_through_t *child_file; hid_t plist_id; /* Retrieve parameters for 'mount' operation, so we can unwrap the child file */ loc_type = (H5I_type_t)va_arg(arguments, int); /* enum work-around */ name = va_arg(arguments, const char *); child_file = (H5VL_pass_through_t *)va_arg(arguments, void *); plist_id = va_arg(arguments, hid_t); /* Keep the correct underlying VOL ID for possible async request token */ under_vol_id = o->under_vol_id; /* Re-issue 'file specific' call, using the unwrapped pieces */ ret_value = H5VL_pass_through_file_specific_reissue(o->under_object, o->under_vol_id, specific_type, dxpl_id, req, (int)loc_type, name, child_file->under_object, plist_id); } /* end if */ else if (specific_type == H5VL_FILE_IS_ACCESSIBLE || specific_type == H5VL_FILE_DELETE) { H5VL_pass_through_info_t *info; hid_t fapl_id, under_fapl_id; const char * name; htri_t * ret; /* Get the arguments for the 'is accessible' check */ fapl_id = va_arg(arguments, hid_t); name = va_arg(arguments, const char *); ret = va_arg(arguments, htri_t *); /* Get copy of our VOL info from FAPL */ H5Pget_vol_info(fapl_id, (void **)&info); /* Make sure we have info about the underlying VOL to be used */ if (!info) return (-1); /* Copy the FAPL */ under_fapl_id = H5Pcopy(fapl_id); /* Set the VOL ID and info for the underlying FAPL */ H5Pset_vol(under_fapl_id, info->under_vol_id, info->under_vol_info); /* Keep the correct underlying VOL ID for possible async request token */ under_vol_id = info->under_vol_id; /* Re-issue 'file specific' call */ ret_value = H5VL_pass_through_file_specific_reissue(NULL, info->under_vol_id, specific_type, dxpl_id, req, under_fapl_id, name, ret); /* Close underlying FAPL */ H5Pclose(under_fapl_id); /* Release copy of our VOL info */ H5VL_pass_through_info_free(info); } /* end else-if */ else { va_list my_arguments; /* Make a copy of the argument list for later, if reopening */ if (specific_type == H5VL_FILE_REOPEN) va_copy(my_arguments, arguments); /* Keep the correct underlying VOL ID for possible async request token */ under_vol_id = o->under_vol_id; ret_value = H5VLfile_specific(o->under_object, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Wrap file struct pointer, if we reopened one */ if (specific_type == H5VL_FILE_REOPEN) { if (ret_value >= 0) { void **ret = va_arg(my_arguments, void **); if (ret && *ret) *ret = H5VL_pass_through_new_obj(*ret, o->under_vol_id); } /* end if */ /* Finish use of copied vararg list */ va_end(my_arguments); } /* end if */ } /* end else */ /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_file_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_optional * * Purpose: Perform a connector-specific operation on a file * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_file_optional(void *file, H5VL_file_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)file; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL File Optional\n"); #endif ret_value = H5VLfile_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_file_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_file_close * * Purpose: Closes a file. * * Return: Success: 0 * Failure: -1, file not closed. * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_file_close(void *file, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)file; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL FILE Close\n"); #endif ret_value = H5VLfile_close(o->under_object, o->under_vol_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); /* Release our wrapper, if underlying file was closed */ if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_file_close() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_create * * Purpose: Creates a group inside a container * * Return: Success: Pointer to a group object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_group_create(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t lcpl_id, hid_t gcpl_id, hid_t gapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *group; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL GROUP Create\n"); #endif under = H5VLgroup_create(o->under_object, loc_params, o->under_vol_id, name, lcpl_id, gcpl_id, gapl_id, dxpl_id, req); if (under) { group = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else group = NULL; return (void *)group; } /* end H5VL_pass_through_group_create() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_open * * Purpose: Opens a group inside a container * * Return: Success: Pointer to a group object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_group_open(void *obj, const H5VL_loc_params_t *loc_params, const char *name, hid_t gapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *group; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL GROUP Open\n"); #endif under = H5VLgroup_open(o->under_object, loc_params, o->under_vol_id, name, gapl_id, dxpl_id, req); if (under) { group = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else group = NULL; return (void *)group; } /* end H5VL_pass_through_group_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_get * * Purpose: Get info about a group * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_group_get(void *obj, H5VL_group_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL GROUP Get\n"); #endif ret_value = H5VLgroup_get(o->under_object, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_group_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_specific * * Purpose: Specific operation on a group * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_group_specific(void *obj, H5VL_group_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; hid_t under_vol_id; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL GROUP Specific\n"); #endif // Save copy of underlying VOL connector ID and prov helper, in case of // refresh destroying the current object under_vol_id = o->under_vol_id; ret_value = H5VLgroup_specific(o->under_object, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_group_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_optional * * Purpose: Perform a connector-specific operation on a group * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_group_optional(void *obj, H5VL_group_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL GROUP Optional\n"); #endif ret_value = H5VLgroup_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_group_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_group_close * * Purpose: Closes a group. * * Return: Success: 0 * Failure: -1, group not closed. * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_group_close(void *grp, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)grp; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL H5Gclose\n"); #endif ret_value = H5VLgroup_close(o->under_object, o->under_vol_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); /* Release our wrapper, if underlying file was closed */ if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_group_close() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_create_reissue * * Purpose: Re-wrap vararg arguments into a va_list and reissue the * link create callback to the underlying VOL connector. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_create_reissue(H5VL_link_create_type_t create_type, void *obj, const H5VL_loc_params_t *loc_params, hid_t connector_id, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req, ...) { va_list arguments; herr_t ret_value; va_start(arguments, req); ret_value = H5VLlink_create(create_type, obj, loc_params, connector_id, lcpl_id, lapl_id, dxpl_id, req, arguments); va_end(arguments); return ret_value; } /* end H5VL_pass_through_link_create_reissue() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_create * * Purpose: Creates a hard / soft / UD / external link. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_create(H5VL_link_create_type_t create_type, void *obj, const H5VL_loc_params_t *loc_params, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; hid_t under_vol_id = -1; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Create\n"); #endif /* Try to retrieve the "under" VOL id */ if (o) under_vol_id = o->under_vol_id; /* Fix up the link target object for hard link creation */ if (H5VL_LINK_CREATE_HARD == create_type) { void * cur_obj; H5VL_loc_params_t *cur_params; /* Retrieve the object & loc params for the link target */ cur_obj = va_arg(arguments, void *); cur_params = va_arg(arguments, H5VL_loc_params_t *); /* If it's a non-NULL pointer, find the 'under object' and re-set the property */ if (cur_obj) { /* Check if we still need the "under" VOL ID */ if (under_vol_id < 0) under_vol_id = ((H5VL_pass_through_t *)cur_obj)->under_vol_id; /* Set the object for the link target */ cur_obj = ((H5VL_pass_through_t *)cur_obj)->under_object; } /* end if */ /* Re-issue 'link create' call, using the unwrapped pieces */ ret_value = H5VL_pass_through_link_create_reissue(create_type, (o ? o->under_object : NULL), loc_params, under_vol_id, lcpl_id, lapl_id, dxpl_id, req, cur_obj, cur_params); } /* end if */ else ret_value = H5VLlink_create(create_type, (o ? o->under_object : NULL), loc_params, under_vol_id, lcpl_id, lapl_id, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_link_create() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_copy * * Purpose: Renames an object within an HDF5 container and copies it to a new * group. The original name SRC is unlinked from the group graph * and then inserted with the new name DST (which can specify a * new path for the object) as an atomic operation. The names * are interpreted relative to SRC_LOC_ID and * DST_LOC_ID, which are either file IDs or group ID. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_copy(void *src_obj, const H5VL_loc_params_t *loc_params1, void *dst_obj, const H5VL_loc_params_t *loc_params2, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o_src = (H5VL_pass_through_t *)src_obj; H5VL_pass_through_t *o_dst = (H5VL_pass_through_t *)dst_obj; hid_t under_vol_id = -1; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Copy\n"); #endif /* Retrieve the "under" VOL id */ if (o_src) under_vol_id = o_src->under_vol_id; else if (o_dst) under_vol_id = o_dst->under_vol_id; assert(under_vol_id > 0); ret_value = H5VLlink_copy((o_src ? o_src->under_object : NULL), loc_params1, (o_dst ? o_dst->under_object : NULL), loc_params2, under_vol_id, lcpl_id, lapl_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_link_copy() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_move * * Purpose: Moves a link within an HDF5 file to a new group. The original * name SRC is unlinked from the group graph * and then inserted with the new name DST (which can specify a * new path for the object) as an atomic operation. The names * are interpreted relative to SRC_LOC_ID and * DST_LOC_ID, which are either file IDs or group ID. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_move(void *src_obj, const H5VL_loc_params_t *loc_params1, void *dst_obj, const H5VL_loc_params_t *loc_params2, hid_t lcpl_id, hid_t lapl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o_src = (H5VL_pass_through_t *)src_obj; H5VL_pass_through_t *o_dst = (H5VL_pass_through_t *)dst_obj; hid_t under_vol_id = -1; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Move\n"); #endif /* Retrieve the "under" VOL id */ if (o_src) under_vol_id = o_src->under_vol_id; else if (o_dst) under_vol_id = o_dst->under_vol_id; assert(under_vol_id > 0); ret_value = H5VLlink_move((o_src ? o_src->under_object : NULL), loc_params1, (o_dst ? o_dst->under_object : NULL), loc_params2, under_vol_id, lcpl_id, lapl_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_link_move() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_get * * Purpose: Get info about a link * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_get(void *obj, const H5VL_loc_params_t *loc_params, H5VL_link_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Get\n"); #endif ret_value = H5VLlink_get(o->under_object, loc_params, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_link_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_specific * * Purpose: Specific operation on a link * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_link_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Specific\n"); #endif ret_value = H5VLlink_specific(o->under_object, loc_params, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_link_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_link_optional * * Purpose: Perform a connector-specific operation on a link * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_link_optional(void *obj, H5VL_link_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL LINK Optional\n"); #endif ret_value = H5VLlink_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_link_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_object_open * * Purpose: Opens an object inside a container. * * Return: Success: Pointer to object * Failure: NULL * *------------------------------------------------------------------------- */ static void * H5VL_pass_through_object_open(void *obj, const H5VL_loc_params_t *loc_params, H5I_type_t *opened_type, hid_t dxpl_id, void **req) { H5VL_pass_through_t *new_obj; H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; void * under; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL OBJECT Open\n"); #endif under = H5VLobject_open(o->under_object, loc_params, o->under_vol_id, opened_type, dxpl_id, req); if (under) { new_obj = H5VL_pass_through_new_obj(under, o->under_vol_id); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); } /* end if */ else new_obj = NULL; return (void *)new_obj; } /* end H5VL_pass_through_object_open() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_object_copy * * Purpose: Copies an object inside a container. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_object_copy(void *src_obj, const H5VL_loc_params_t *src_loc_params, const char *src_name, void *dst_obj, const H5VL_loc_params_t *dst_loc_params, const char *dst_name, hid_t ocpypl_id, hid_t lcpl_id, hid_t dxpl_id, void **req) { H5VL_pass_through_t *o_src = (H5VL_pass_through_t *)src_obj; H5VL_pass_through_t *o_dst = (H5VL_pass_through_t *)dst_obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL OBJECT Copy\n"); #endif ret_value = H5VLobject_copy(o_src->under_object, src_loc_params, src_name, o_dst->under_object, dst_loc_params, dst_name, o_src->under_vol_id, ocpypl_id, lcpl_id, dxpl_id, req); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o_src->under_vol_id); return ret_value; } /* end H5VL_pass_through_object_copy() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_object_get * * Purpose: Get info about an object * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_object_get(void *obj, const H5VL_loc_params_t *loc_params, H5VL_object_get_t get_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL OBJECT Get\n"); #endif ret_value = H5VLobject_get(o->under_object, loc_params, o->under_vol_id, get_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_object_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_object_specific * * Purpose: Specific operation on an object * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_object_specific(void *obj, const H5VL_loc_params_t *loc_params, H5VL_object_specific_t specific_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; hid_t under_vol_id; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL OBJECT Specific\n"); #endif // Save copy of underlying VOL connector ID and prov helper, in case of // refresh destroying the current object under_vol_id = o->under_vol_id; ret_value = H5VLobject_specific(o->under_object, loc_params, o->under_vol_id, specific_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, under_vol_id); return ret_value; } /* end H5VL_pass_through_object_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_object_optional * * Purpose: Perform a connector-specific operation for an object * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_object_optional(void *obj, H5VL_object_optional_t opt_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL OBJECT Optional\n"); #endif ret_value = H5VLobject_optional(o->under_object, o->under_vol_id, opt_type, dxpl_id, req, arguments); /* Check for async request */ if (req && *req) *req = H5VL_pass_through_new_obj(*req, o->under_vol_id); return ret_value; } /* end H5VL_pass_through_object_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_introspect_get_conn_clss * * Purpose: Query the connector class. * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_introspect_get_conn_cls(void *obj, H5VL_get_conn_lvl_t lvl, const H5VL_class_t **conn_cls) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INTROSPECT GetConnCls\n"); #endif /* Check for querying this connector's class */ if (H5VL_GET_CONN_LVL_CURR == lvl) { *conn_cls = &H5VL_pass_through_g; ret_value = 0; } /* end if */ else ret_value = H5VLintrospect_get_conn_cls(o->under_object, o->under_vol_id, lvl, conn_cls); return ret_value; } /* end H5VL_pass_through_introspect_get_conn_cls() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_introspect_opt_query * * Purpose: Query if an optional operation is supported by this connector * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_introspect_opt_query(void *obj, H5VL_subclass_t cls, int opt_type, hbool_t *supported) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL INTROSPECT OptQuery\n"); #endif ret_value = H5VLintrospect_opt_query(o->under_object, o->under_vol_id, cls, opt_type, supported); return ret_value; } /* end H5VL_pass_through_introspect_opt_query() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_wait * * Purpose: Wait (with a timeout) for an async operation to complete * * Note: Releases the request if the operation has completed and the * connector callback succeeds * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_wait(void *obj, uint64_t timeout, H5ES_status_t *status) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Wait\n"); #endif ret_value = H5VLrequest_wait(o->under_object, o->under_vol_id, timeout, status); if (ret_value >= 0 && *status != H5ES_STATUS_IN_PROGRESS) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_request_wait() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_notify * * Purpose: Registers a user callback to be invoked when an asynchronous * operation completes * * Note: Releases the request, if connector callback succeeds * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_notify(void *obj, H5VL_request_notify_t cb, void *ctx) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Notify\n"); #endif ret_value = H5VLrequest_notify(o->under_object, o->under_vol_id, cb, ctx); if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_request_notify() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_cancel * * Purpose: Cancels an asynchronous operation * * Note: Releases the request, if connector callback succeeds * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_cancel(void *obj) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Cancel\n"); #endif ret_value = H5VLrequest_cancel(o->under_object, o->under_vol_id); if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_request_cancel() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_specific_reissue * * Purpose: Re-wrap vararg arguments into a va_list and reissue the * request specific callback to the underlying VOL connector. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_specific_reissue(void *obj, hid_t connector_id, H5VL_request_specific_t specific_type, ...) { va_list arguments; herr_t ret_value; va_start(arguments, specific_type); ret_value = H5VLrequest_specific(obj, connector_id, specific_type, arguments); va_end(arguments); return ret_value; } /* end H5VL_pass_through_request_specific_reissue() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_specific * * Purpose: Specific operation on a request * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_specific(void *obj, H5VL_request_specific_t specific_type, va_list arguments) { herr_t ret_value = -1; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Specific\n"); #endif if (H5VL_REQUEST_WAITANY == specific_type || H5VL_REQUEST_WAITSOME == specific_type || H5VL_REQUEST_WAITALL == specific_type) { va_list tmp_arguments; size_t req_count; /* Sanity check */ assert(obj == NULL); /* Get enough info to call the underlying connector */ va_copy(tmp_arguments, arguments); req_count = va_arg(tmp_arguments, size_t); /* Can only use a request to invoke the underlying VOL connector when there's >0 requests */ if (req_count > 0) { void ** req_array; void ** under_req_array; uint64_t timeout; H5VL_pass_through_t *o; size_t u; /* Local index variable */ /* Get the request array */ req_array = va_arg(tmp_arguments, void **); /* Get a request to use for determining the underlying VOL connector */ o = (H5VL_pass_through_t *)req_array[0]; /* Create array of underlying VOL requests */ under_req_array = (void **)malloc(req_count * sizeof(void **)); for (u = 0; u < req_count; u++) under_req_array[u] = ((H5VL_pass_through_t *)req_array[u])->under_object; /* Remove the timeout value from the vararg list (it's used in all the calls below) */ timeout = va_arg(tmp_arguments, uint64_t); /* Release requests that have completed */ if (H5VL_REQUEST_WAITANY == specific_type) { size_t * idx; /* Pointer to the index of completed request */ H5ES_status_t *status; /* Pointer to the request's status */ /* Retrieve the remaining arguments */ idx = va_arg(tmp_arguments, size_t *); assert(*idx <= req_count); status = va_arg(tmp_arguments, H5ES_status_t *); /* Reissue the WAITANY 'request specific' call */ ret_value = H5VL_pass_through_request_specific_reissue(o->under_object, o->under_vol_id, specific_type, req_count, under_req_array, timeout, idx, status); /* Release the completed request, if it completed */ if (ret_value >= 0 && *status != H5ES_STATUS_IN_PROGRESS) { H5VL_pass_through_t *tmp_o; tmp_o = (H5VL_pass_through_t *)req_array[*idx]; H5VL_pass_through_free_obj(tmp_o); } /* end if */ } /* end if */ else if (H5VL_REQUEST_WAITSOME == specific_type) { size_t * outcount; /* # of completed requests */ unsigned * array_of_indices; /* Array of indices for completed requests */ H5ES_status_t *array_of_statuses; /* Array of statuses for completed requests */ /* Retrieve the remaining arguments */ outcount = va_arg(tmp_arguments, size_t *); assert(*outcount <= req_count); array_of_indices = va_arg(tmp_arguments, unsigned *); array_of_statuses = va_arg(tmp_arguments, H5ES_status_t *); /* Reissue the WAITSOME 'request specific' call */ ret_value = H5VL_pass_through_request_specific_reissue( o->under_object, o->under_vol_id, specific_type, req_count, under_req_array, timeout, outcount, array_of_indices, array_of_statuses); /* If any requests completed, release them */ if (ret_value >= 0 && *outcount > 0) { unsigned *idx_array; /* Array of indices of completed requests */ /* Retrieve the array of completed request indices */ idx_array = va_arg(tmp_arguments, unsigned *); /* Release the completed requests */ for (u = 0; u < *outcount; u++) { H5VL_pass_through_t *tmp_o; tmp_o = (H5VL_pass_through_t *)req_array[idx_array[u]]; H5VL_pass_through_free_obj(tmp_o); } /* end for */ } /* end if */ } /* end else-if */ else { /* H5VL_REQUEST_WAITALL == specific_type */ H5ES_status_t *array_of_statuses; /* Array of statuses for completed requests */ /* Retrieve the remaining arguments */ array_of_statuses = va_arg(tmp_arguments, H5ES_status_t *); /* Reissue the WAITALL 'request specific' call */ ret_value = H5VL_pass_through_request_specific_reissue( o->under_object, o->under_vol_id, specific_type, req_count, under_req_array, timeout, array_of_statuses); /* Release the completed requests */ if (ret_value >= 0) { for (u = 0; u < req_count; u++) { if (array_of_statuses[u] != H5ES_STATUS_IN_PROGRESS) { H5VL_pass_through_t *tmp_o; tmp_o = (H5VL_pass_through_t *)req_array[u]; H5VL_pass_through_free_obj(tmp_o); } /* end if */ } /* end for */ } /* end if */ } /* end else */ /* Release array of requests for underlying connector */ free(under_req_array); } /* end if */ /* Finish use of copied vararg list */ va_end(tmp_arguments); } /* end if */ else { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; ret_value = H5VLrequest_specific(o->under_object, o->under_vol_id, specific_type, arguments); } /* end else */ return ret_value; } /* end H5VL_pass_through_request_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_optional * * Purpose: Perform a connector-specific operation for a request * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_optional(void *obj, H5VL_request_optional_t opt_type, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Optional\n"); #endif ret_value = H5VLrequest_optional(o->under_object, o->under_vol_id, opt_type, arguments); return ret_value; } /* end H5VL_pass_through_request_optional() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_request_free * * Purpose: Releases a request, allowing the operation to complete without * application tracking * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_request_free(void *obj) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL REQUEST Free\n"); #endif ret_value = H5VLrequest_free(o->under_object, o->under_vol_id); if (ret_value >= 0) H5VL_pass_through_free_obj(o); return ret_value; } /* end H5VL_pass_through_request_free() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_blob_put * * Purpose: Handles the blob 'put' callback * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_blob_put(void *obj, const void *buf, size_t size, void *blob_id, void *ctx) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL BLOB Put\n"); #endif ret_value = H5VLblob_put(o->under_object, o->under_vol_id, buf, size, blob_id, ctx); return ret_value; } /* end H5VL_pass_through_blob_put() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_blob_get * * Purpose: Handles the blob 'get' callback * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_blob_get(void *obj, const void *blob_id, void *buf, size_t size, void *ctx) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL BLOB Get\n"); #endif ret_value = H5VLblob_get(o->under_object, o->under_vol_id, blob_id, buf, size, ctx); return ret_value; } /* end H5VL_pass_through_blob_get() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_blob_specific * * Purpose: Handles the blob 'specific' callback * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_blob_specific(void *obj, void *blob_id, H5VL_blob_specific_t specific_type, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL BLOB Specific\n"); #endif ret_value = H5VLblob_specific(o->under_object, o->under_vol_id, blob_id, specific_type, arguments); return ret_value; } /* end H5VL_pass_through_blob_specific() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_blob_optional * * Purpose: Handles the blob 'optional' callback * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_blob_optional(void *obj, void *blob_id, H5VL_blob_optional_t opt_type, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL BLOB Optional\n"); #endif ret_value = H5VLblob_optional(o->under_object, o->under_vol_id, blob_id, opt_type, arguments); return ret_value; } /* end H5VL_pass_through_blob_optional() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_token_cmp * * Purpose: Compare two of the connector's object tokens, setting * *cmp_value, following the same rules as strcmp(). * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_token_cmp(void *obj, const H5O_token_t *token1, const H5O_token_t *token2, int *cmp_value) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL TOKEN Compare\n"); #endif /* Sanity checks */ assert(obj); assert(token1); assert(token2); assert(cmp_value); ret_value = H5VLtoken_cmp(o->under_object, o->under_vol_id, token1, token2, cmp_value); return ret_value; } /* end H5VL_pass_through_token_cmp() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_token_to_str * * Purpose: Serialize the connector's object token into a string. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_token_to_str(void *obj, H5I_type_t obj_type, const H5O_token_t *token, char **token_str) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL TOKEN To string\n"); #endif /* Sanity checks */ assert(obj); assert(token); assert(token_str); ret_value = H5VLtoken_to_str(o->under_object, obj_type, o->under_vol_id, token, token_str); return ret_value; } /* end H5VL_pass_through_token_to_str() */ /*--------------------------------------------------------------------------- * Function: H5VL_pass_through_token_from_str * * Purpose: Deserialize the connector's object token from a string. * * Return: Success: 0 * Failure: -1 * *--------------------------------------------------------------------------- */ static herr_t H5VL_pass_through_token_from_str(void *obj, H5I_type_t obj_type, const char *token_str, H5O_token_t *token) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL TOKEN From string\n"); #endif /* Sanity checks */ assert(obj); assert(token); assert(token_str); ret_value = H5VLtoken_from_str(o->under_object, obj_type, o->under_vol_id, token_str, token); return ret_value; } /* end H5VL_pass_through_token_from_str() */ /*------------------------------------------------------------------------- * Function: H5VL_pass_through_optional * * Purpose: Handles the generic 'optional' callback * * Return: SUCCEED / FAIL * *------------------------------------------------------------------------- */ herr_t H5VL_pass_through_optional(void *obj, int op_type, hid_t dxpl_id, void **req, va_list arguments) { H5VL_pass_through_t *o = (H5VL_pass_through_t *)obj; herr_t ret_value; #ifdef ENABLE_PASSTHRU_LOGGING printf("------- PASS THROUGH VOL generic Optional\n"); #endif ret_value = H5VLoptional(o->under_object, o->under_vol_id, op_type, dxpl_id, req, arguments); return ret_value; } /* end H5VL_pass_through_optional() */