diff options
Diffstat (limited to 'testpar')
-rw-r--r-- | testpar/t_cache.c | 911 |
1 files changed, 602 insertions, 309 deletions
diff --git a/testpar/t_cache.c b/testpar/t_cache.c index b6c7870..18140ad 100644 --- a/testpar/t_cache.c +++ b/testpar/t_cache.c @@ -29,9 +29,10 @@ #include "H5Cpkg.h" #include "H5Fpkg.h" #include "H5Iprivate.h" +#include "H5MFprivate.h" -#define BASE_ADDR (haddr_t)512 +#define BASE_ADDR (haddr_t)1024 int nerrors = 0; @@ -46,6 +47,14 @@ const char *FILENAME[NFILENAME]={"CacheTestDummy", NULL}; #endif /* !PATH_MAX */ char filenames[NFILENAME][PATH_MAX]; hid_t fapl; /* file access property list */ +haddr_t max_addr = 0; /* used to store the end of + * the address space used by + * the data array (see below). + */ +hbool_t callbacks_verbose = FALSE; /* flag used to control whether + * the callback functions are in + * verbose mode. + */ int world_mpi_size = -1; @@ -129,11 +138,11 @@ int total_writes = 0; * processes, and thus cannot be marked as dirty unless they * happen to overlap some collective operation. * - * cleared: Boolean flag that is set to true whenever the entry is - * dirty, and is cleared via a call to clear_datum(). + * cleared: Boolean flag that is set to true whenever the entry is + * dirty, and is cleared via a call to datum_clear(). * - * flushed: Boolean flag that is set to true whenever the entry is - * dirty, and is flushed via a call to flush_datum(). + * flushed: Boolean flag that is set to true whenever the entry is + * dirty, and is flushed by the metadata cache. * * reads: Integer field used to maintain a count of the number of * times this entry has been read from the server since @@ -146,6 +155,12 @@ int total_writes = 0; * index: Index of this instance of datum in the data_index[] array * discussed below. * + * aux_ptr: Pointer to the instance of H5AC_aux_t associated with the + * instance of the metadata cache within which this entry + * resides. This field was added to allow us to pass this + * value to the notify callback from the serialize callback. + * It should be NULL when not in use. + * *****************************************************************************/ struct datum @@ -165,6 +180,7 @@ struct datum int reads; int writes; int index; + struct H5AC_aux_t * aux_ptr; }; /***************************************************************************** @@ -373,28 +389,65 @@ static hbool_t serve_rw_count_reset_request(struct mssg_t * mssg_ptr); /* call back functions & related data structures */ -static herr_t clear_datum(H5F_t * f, void * thing, hbool_t dest); -static herr_t destroy_datum(H5F_t H5_ATTR_UNUSED * f, void * thing); -static herr_t flush_datum(H5F_t *f, hid_t H5_ATTR_UNUSED dxpl_id, hbool_t dest, haddr_t addr, - void *thing); -static void * load_datum(H5F_t H5_ATTR_UNUSED *f, hid_t H5_ATTR_UNUSED dxpl_id, haddr_t addr, - void H5_ATTR_UNUSED *udata); -static herr_t size_datum(H5F_t H5_ATTR_UNUSED * f, void * thing, size_t * size_ptr); +static herr_t datum_get_load_size(const void * udata_ptr, + size_t *image_len_ptr); + +static void * datum_deserialize(const void * image_ptr, + size_t len, + void * udata_ptr, + hbool_t * dirty_ptr); + +static herr_t datum_image_len(void *thing, + size_t *image_len_ptr, + hbool_t *compressed_ptr, + size_t *compressed_len_ptr); + +static herr_t datum_serialize(const H5F_t *f, + void *image_ptr, + size_t len, + void *thing_ptr); + +static herr_t datum_notify(H5C_notify_action_t action, void *thing); + +static herr_t datum_free_icr(void * thing); + +static herr_t datum_clear(H5F_t * f, void * thing, hbool_t about_to_destroy); #define DATUM_ENTRY_TYPE H5AC_TEST_ID #define NUMBER_OF_ENTRY_TYPES 1 + +/* Note the use of the H5AC__CLASS_SKIP_READS and H5AC__CLASS_SKIP_WRITES + * flags. As a result of these flags, the metadata cache does no file I/O + * on metadata of the datum type. + * + * Instead, this test uses a server process to keep track of who has + * written and read what, and to verify that there are no messages from + * the past / future. + * + * In the callbacks for the version 2 cache, this activity was hidden in + * the load and flush callbacks. However, now we handle this function in + * notify callbacks for the after load and after flush events. + * + * JRM -- 1/13/15 + */ const H5C_class_t types[NUMBER_OF_ENTRY_TYPES] = { { - DATUM_ENTRY_TYPE, - (H5C_load_func_t)load_datum, - (H5C_flush_func_t)flush_datum, - (H5C_dest_func_t)destroy_datum, - (H5C_clear_func_t)clear_datum, - (H5C_notify_func_t)NULL, - (H5C_size_func_t)size_datum + /* id */ DATUM_ENTRY_TYPE, + /* name */ "datum", + /* mem_type */ H5FD_MEM_DEFAULT, + /* flags */ H5AC__CLASS_SKIP_READS | H5AC__CLASS_SKIP_WRITES, + /* get_load_size */ (H5AC_get_load_size_func_t)datum_get_load_size, + /* deserialize */ (H5AC_deserialize_func_t)datum_deserialize, + /* image_len */ (H5AC_image_len_func_t)datum_image_len, + /* pre_serialize */ (H5AC_pre_serialize_func_t)NULL, + /* serialize */ (H5AC_serialize_func_t)datum_serialize, + /* notify */ (H5AC_notify_func_t)datum_notify, + /* free_icr */ (H5AC_free_icr_func_t)datum_free_icr, + /* clear */ (H5AC_clear_func_t)datum_clear, + /* fsf_size */ (H5AC_get_fsf_size_t)NULL, } }; @@ -787,6 +840,7 @@ init_data(void) data[i].reads = 0; data[i].writes = 0; data[i].index = i; + data[i].aux_ptr = NULL; data_index[i] = i; @@ -796,6 +850,9 @@ init_data(void) j = (j + 1) % num_addr_offsets; } + /* save the end of the address space used by the data array */ + max_addr = addr; + return; } /* init_data() */ @@ -2264,92 +2321,140 @@ serve_rw_count_reset_request(struct mssg_t * mssg_ptr) /*------------------------------------------------------------------------- - * Function: clear_datum + * Function: datum_get_load_size * - * Purpose: Mark the datum as clean and destroy it if requested. - * Do not write it to the server, or increment the version. + * Purpose: Query the image size for an entry before deserializing it * - * Return: SUCCEED + * Return: SUCCEED * - * Programmer: John Mainzer - * 12/29/05 + * Programmer: Quincey Koziol + * 5/18/10 * *------------------------------------------------------------------------- */ static herr_t -clear_datum(H5F_t * f, - void * thing, - hbool_t dest) +datum_get_load_size(const void * udata_ptr, + size_t *image_len_ptr) { + haddr_t addr = *(haddr_t *)udata_ptr; int idx; struct datum * entry_ptr; - HDassert( thing ); + HDassert( udata_ptr ); + HDassert( image_len_ptr ); - entry_ptr = (struct datum *)thing; - - idx = addr_to_datum_index(entry_ptr->base_addr); + idx = addr_to_datum_index(addr); HDassert( idx >= 0 ); HDassert( idx < NUM_DATA_ENTRIES ); HDassert( idx < virt_num_data_entries ); - HDassert( &(data[idx]) == entry_ptr ); - HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); - HDassert( ( entry_ptr->header.size == entry_ptr->len ) || - ( entry_ptr->header.size == entry_ptr->local_len ) ); + entry_ptr = &(data[idx]); - HDassert( entry_ptr->header.is_dirty == entry_ptr->dirty ); + HDassert( addr == entry_ptr->base_addr ); + HDassert( ! entry_ptr->global_pinned ); + HDassert( ! entry_ptr->local_pinned ); - if ( entry_ptr->header.is_dirty ) { + if ( callbacks_verbose ) { - entry_ptr->cleared = TRUE; + HDfprintf(stdout, + "%d: get_load_size() idx = %d, addr = %ld, len = %d.\n", + world_mpi_rank, idx, (long)addr, (int)entry_ptr->local_len); + fflush(stdout); } - entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; + /* Set image length size */ + *image_len_ptr = entry_ptr->local_len; - if ( dest ) { + return(SUCCEED); +} /* get_load_size() */ - destroy_datum(f, thing); + +/*------------------------------------------------------------------------- + * Function: datum_deserialize + * + * Purpose: deserialize the entry. + * + * Return: void * (pointer to the in core representation of the entry) + * + * Programmer: John Mainzer + * 9/20/07 + * + *------------------------------------------------------------------------- + */ +static void * +datum_deserialize(const void * image_ptr, + H5_ATTR_UNUSED size_t len, + void * udata_ptr, + hbool_t * dirty_ptr) +{ + haddr_t addr = *(haddr_t *)udata_ptr; + hbool_t success = TRUE; + int idx; + struct datum * entry_ptr = NULL; + + HDassert( image_ptr != NULL ); + idx = addr_to_datum_index(addr); + + HDassert( idx >= 0 ); + HDassert( idx < NUM_DATA_ENTRIES ); + HDassert( idx < virt_num_data_entries ); + + entry_ptr = &(data[idx]); + + HDassert( addr == entry_ptr->base_addr ); + HDassert( ! entry_ptr->global_pinned ); + HDassert( ! entry_ptr->local_pinned ); + + HDassert( dirty_ptr ); + + if ( callbacks_verbose ) { + + HDfprintf(stdout, + "%d: deserialize() idx = %d, addr = %ld, len = %d, is_dirty = %d.\n", + world_mpi_rank, idx, (long)addr, (int)len, + (int)(entry_ptr->header.is_dirty)); + fflush(stdout); } - datum_clears++; + *dirty_ptr = FALSE; - if ( entry_ptr->header.is_pinned ) { + if ( ! success ) { + + entry_ptr = NULL; - datum_pinned_clears++; - HDassert( entry_ptr->global_pinned || entry_ptr->local_pinned ); } - return(SUCCEED); + return(entry_ptr); -} /* clear_datum() */ +} /* deserialize() */ /*------------------------------------------------------------------------- - * Function: destroy_datum() + * Function: datum_image_len * - * Purpose: Destroy the entry. At present, this means do nothing other - * than verify that the entry is clean. In particular, do not - * write it to the server process. + * Purpose: Return the real (and possibly reduced) length of the image. + * The helper functions verify that the correct version of + * deserialize is being called, and then call deserialize + * proper. * - * Return: SUCCEED + * Return: SUCCEED * - * Programmer: John Mainzer - * 12/29/05 + * Programmer: John Mainzer + * 9/19/07 * *------------------------------------------------------------------------- */ static herr_t -destroy_datum(H5F_t H5_ATTR_UNUSED * f, - void * thing) +datum_image_len(void *thing, size_t *image_len, + hbool_t H5_ATTR_UNUSED *compressed_ptr, size_t H5_ATTR_UNUSED *compressed_len_ptr) { int idx; struct datum * entry_ptr; HDassert( thing ); + HDassert( image_len ); entry_ptr = (struct datum *)thing; @@ -2359,55 +2464,53 @@ destroy_datum(H5F_t H5_ATTR_UNUSED * f, HDassert( idx < NUM_DATA_ENTRIES ); HDassert( idx < virt_num_data_entries ); HDassert( &(data[idx]) == entry_ptr ); + HDassert( entry_ptr->local_len > 0 ); + HDassert( entry_ptr->local_len <= entry_ptr->len ); - HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); - HDassert( ( entry_ptr->header.size == entry_ptr->len ) || - ( entry_ptr->header.size == entry_ptr->local_len ) ); + if(callbacks_verbose) { + HDfprintf(stdout, + "%d: image_len() idx = %d, addr = %ld, len = %d.\n", + world_mpi_rank, idx, (long)(entry_ptr->base_addr), + (int)(entry_ptr->local_len)); + fflush(stdout); + } - HDassert( !(entry_ptr->dirty) ); - HDassert( !(entry_ptr->header.is_dirty) ); - HDassert( !(entry_ptr->global_pinned) ); - HDassert( !(entry_ptr->local_pinned) ); - HDassert( !(entry_ptr->header.is_pinned) ); + HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); - datum_destroys++; + *image_len = entry_ptr->local_len; return(SUCCEED); - -} /* destroy_datum() */ +} /* datum_image_len() */ /*------------------------------------------------------------------------- - * Function: flush_datum + * Function: datum_serialize * - * Purpose: Flush the entry to the server process and mark it as clean. - * Then destroy the entry if requested. + * Purpose: Serialize the supplied entry. * - * Return: SUCCEED if successful, and FAIL otherwise. + * Return: SUCCEED if successful, FAIL otherwise. * - * Programmer: John Mainzer - * 12/29/05 + * Programmer: John Mainzer + * 10/30/07 * *------------------------------------------------------------------------- */ static herr_t -flush_datum(H5F_t *f, - hid_t H5_ATTR_UNUSED dxpl_id, - hbool_t dest, - haddr_t H5_ATTR_UNUSED addr, - void *thing) +datum_serialize(const H5F_t *f, + void *image_ptr, + size_t len, + void *thing_ptr) { - hbool_t was_dirty = FALSE; herr_t ret_value = SUCCEED; int idx; struct datum * entry_ptr; - struct mssg_t mssg; H5C_t * cache_ptr; struct H5AC_aux_t * aux_ptr; - HDassert( thing ); + HDassert( thing_ptr ); + HDassert( image_ptr ); - entry_ptr = (struct datum *)thing; + entry_ptr = (struct datum *)thing_ptr; HDassert( f ); HDassert( f->shared ); @@ -2420,7 +2523,11 @@ flush_datum(H5F_t *f, aux_ptr = (H5AC_aux_t *)(f->shared->cache->aux_ptr); + HDassert( aux_ptr ); HDassert( aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC ); + HDassert( entry_ptr->aux_ptr == NULL ); + + entry_ptr->aux_ptr = aux_ptr; idx = addr_to_datum_index(entry_ptr->base_addr); @@ -2429,96 +2536,19 @@ flush_datum(H5F_t *f, HDassert( idx < virt_num_data_entries ); HDassert( &(data[idx]) == entry_ptr ); - HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); - HDassert( ( entry_ptr->header.size == entry_ptr->len ) || - ( entry_ptr->header.size == entry_ptr->local_len ) ); - - HDassert( entry_ptr->header.is_dirty == entry_ptr->dirty ); - - if ( ( file_mpi_rank != 0 ) && - ( entry_ptr->dirty ) && - ( aux_ptr->metadata_write_strategy == - H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY ) ) { + if ( callbacks_verbose ) { - ret_value = FAIL; HDfprintf(stdout, - "%d:%s: Flushed dirty entry from non-zero file process.", - world_mpi_rank, FUNC); + "%d: serialize() idx = %d, addr = %ld, len = %d.\n", + world_mpi_rank, idx, (long)entry_ptr->header.addr, (int)len); + fflush(stdout); } - if ( ret_value == SUCCEED ) { - - if ( entry_ptr->header.is_dirty ) { - - was_dirty = TRUE; /* so we will receive the ack if requested */ - - /* compose the message */ - mssg.req = WRITE_REQ_CODE; - mssg.src = world_mpi_rank; - mssg.dest = world_server_mpi_rank; - mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = entry_ptr->base_addr; - mssg.len = entry_ptr->len; - mssg.ver = entry_ptr->ver; - mssg.count = 0; - mssg.magic = MSSG_MAGIC; - - if ( ! send_mssg(&mssg, FALSE) ) { - - nerrors++; - ret_value = FAIL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, FUNC); - } - } - else - { - entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; - entry_ptr->flushed = TRUE; - } - } - } - -#if DO_WRITE_REQ_ACK - - if ( ( ret_value == SUCCEED ) && ( was_dirty ) ) { - - if ( ! recv_mssg(&mssg, WRITE_REQ_ACK_CODE) ) { - - nerrors++; - ret_value = FAIL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, FUNC); - } - } else if ( ( mssg.req != WRITE_REQ_ACK_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != entry_ptr->base_addr ) || - ( mssg.len != entry_ptr->len ) || - ( mssg.ver != entry_ptr->ver ) || - ( mssg.magic != MSSG_MAGIC ) ) { - - nerrors++; - ret_value = FAIL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in write req ack.\n", - world_mpi_rank, FUNC); - } - } - } - -#endif /* DO_WRITE_REQ_ACK */ - - if ( ret_value == SUCCEED ) { - - if ( dest ) { + HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); + HDassert( ( entry_ptr->header.size == entry_ptr->len ) || + ( entry_ptr->header.size == entry_ptr->local_len ) ); - ret_value = destroy_datum(f, thing); - } - } + HDassert( entry_ptr->header.is_dirty == entry_ptr->dirty ); datum_flushes++; @@ -2530,97 +2560,130 @@ flush_datum(H5F_t *f, return(ret_value); -} /* flush_datum() */ +} /* datum_serialize() */ + /*------------------------------------------------------------------------- - * Function: load_datum + * Function: datum_notify * - * Purpose: Read the requested entry from the server and mark it as - * clean. + * Purpose: Do the communication with the server we used to do in the + * flush and load callbacks in the version 2 cache. * - * Return: SUCCEED if successful, FAIL otherwise. + * Return: SUCCEED * - * Programmer: John Mainzer - * 12/29/05 - * - * Modifications: + * Programmer: John Mainzer + * 1/12/15 * *------------------------------------------------------------------------- */ - -static void * -load_datum(H5F_t H5_ATTR_UNUSED *f, - hid_t H5_ATTR_UNUSED dxpl_id, - haddr_t addr, - void H5_ATTR_UNUSED *udata) +static herr_t +datum_notify(H5C_notify_action_t action, void *thing) { - hbool_t success = TRUE; - int idx; - struct datum * entry_ptr = NULL; + hbool_t was_dirty = FALSE; + herr_t ret_value = SUCCEED; + struct datum * entry_ptr; + struct H5AC_aux_t * aux_ptr; struct mssg_t mssg; + int idx; - idx = addr_to_datum_index(addr); + HDassert( thing ); + + entry_ptr = (struct datum *)thing; + + idx = addr_to_datum_index(entry_ptr->base_addr); HDassert( idx >= 0 ); HDassert( idx < NUM_DATA_ENTRIES ); HDassert( idx < virt_num_data_entries ); + HDassert( &(data[idx]) == entry_ptr ); - entry_ptr = &(data[idx]); + if ( callbacks_verbose ) { - HDassert( addr == entry_ptr->base_addr ); - HDassert( ! entry_ptr->global_pinned ); - HDassert( ! entry_ptr->local_pinned ); + HDfprintf(stdout, + "%d: notify() action = %d, idx = %d, addr = %ld.\n", + world_mpi_rank, (int) action, idx, + (long)entry_ptr->header.addr); + fflush(stdout); + } - /* compose the read message */ - mssg.req = READ_REQ_CODE; - mssg.src = world_mpi_rank; - mssg.dest = world_server_mpi_rank; - mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = entry_ptr->base_addr; - mssg.len = entry_ptr->len; - mssg.ver = 0; /* bogus -- should be corrected by server */ - mssg.count = 0; /* not used */ - mssg.magic = MSSG_MAGIC; + HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); + HDassert( ( entry_ptr->header.size == entry_ptr->len ) || + ( entry_ptr->header.size == entry_ptr->local_len ) ); - if ( ! send_mssg(&mssg, FALSE) ) { + switch ( action ) + { + case H5AC_NOTIFY_ACTION_AFTER_INSERT: + if ( callbacks_verbose ) { - nerrors++; - success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, FUNC); - } - } + HDfprintf(stdout, + "%d: notify() action = insert, idx = %d, addr = %ld.\n", + world_mpi_rank, idx, (long)entry_ptr->header.addr); + fflush(stdout); + } + /* do nothing */ + break; - if ( success ) { + case H5AC_NOTIFY_ACTION_AFTER_LOAD: + if ( callbacks_verbose ) { + + HDfprintf(stdout, + "%d: notify() action = load, idx = %d, addr = %ld.\n", + world_mpi_rank, idx, (long)entry_ptr->header.addr); + fflush(stdout); + } - if ( ! recv_mssg(&mssg, READ_REQ_REPLY_CODE) ) { + /* compose the read message */ + mssg.req = READ_REQ_CODE; + mssg.src = world_mpi_rank; + mssg.dest = world_server_mpi_rank; + mssg.mssg_num = -1; /* set by send function */ + mssg.base_addr = entry_ptr->base_addr; + mssg.len = entry_ptr->len; + mssg.ver = 0; /* bogus -- should be corrected by server */ + mssg.count = 0; /* not used */ + mssg.magic = MSSG_MAGIC; - nerrors++; - success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, FUNC); + if ( ! send_mssg(&mssg, FALSE) ) { + + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", + world_mpi_rank, FUNC); + } } - } - } - if ( success ) { + if ( ret_value == SUCCEED ) { - if ( ( mssg.req != READ_REQ_REPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != entry_ptr->base_addr ) || - ( mssg.len != entry_ptr->len ) || - ( mssg.ver < entry_ptr->ver ) || - ( mssg.magic != MSSG_MAGIC ) ) { + if ( ! recv_mssg(&mssg, READ_REQ_REPLY_CODE) ) { - nerrors++; - success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in read req reply.\n", - world_mpi_rank, FUNC); + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", + world_mpi_rank, FUNC); + } + } } + + if ( ret_value == SUCCEED ) { + + if ( ( mssg.req != READ_REQ_REPLY_CODE ) || + ( mssg.src != world_server_mpi_rank ) || + ( mssg.dest != world_mpi_rank ) || + ( mssg.base_addr != entry_ptr->base_addr ) || + ( mssg.len != entry_ptr->len ) || + ( mssg.ver < entry_ptr->ver ) || + ( mssg.magic != MSSG_MAGIC ) ) { + + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, + "%d:%s: Bad data in read req reply.\n", + world_mpi_rank, FUNC); + } + #if 0 /* This has been useful debugging code -- keep it for now. */ if ( mssg.req != READ_REQ_REPLY_CODE ) { @@ -2683,58 +2746,223 @@ load_datum(H5F_t H5_ATTR_UNUSED *f, } else { - entry_ptr->ver = mssg.ver; - entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; - } + entry_ptr->ver = mssg.ver; + entry_ptr->dirty = FALSE; + datum_loads++; + } + } + break; + + case H5C_NOTIFY_ACTION_AFTER_FLUSH: + if ( callbacks_verbose ) { + + HDfprintf(stdout, + "%d: notify() action = flush, idx = %d, addr = %ld.\n", + world_mpi_rank, idx, (long)entry_ptr->header.addr); + fflush(stdout); + } + + HDassert( entry_ptr->aux_ptr ); + HDassert( entry_ptr->aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC ); + aux_ptr = entry_ptr->aux_ptr; + entry_ptr->aux_ptr = NULL; + + HDassert(entry_ptr->header.is_dirty); /* JRM */ + + if ( ( file_mpi_rank != 0 ) && + ( entry_ptr->dirty ) && + ( aux_ptr->metadata_write_strategy == + H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY ) ) { + + ret_value = FAIL; + HDfprintf(stdout, + "%d:%s: Flushed dirty entry from non-zero file process.", + world_mpi_rank, FUNC); + } + + if ( ret_value == SUCCEED ) { + + if ( entry_ptr->header.is_dirty ) { + + was_dirty = TRUE; /* so we will receive the ack + * if requested + */ + + /* compose the message */ + mssg.req = WRITE_REQ_CODE; + mssg.src = world_mpi_rank; + mssg.dest = world_server_mpi_rank; + mssg.mssg_num = -1; /* set by send function */ + mssg.base_addr = entry_ptr->base_addr; + mssg.len = entry_ptr->len; + mssg.ver = entry_ptr->ver; + mssg.count = 0; + mssg.magic = MSSG_MAGIC; + + if ( ! send_mssg(&mssg, FALSE) ) { + + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", + world_mpi_rank, FUNC); + } + } + else + { + entry_ptr->dirty = FALSE; + entry_ptr->flushed = TRUE; + } + } + } + +#if DO_WRITE_REQ_ACK + + if ( ( ret_value == SUCCEED ) && ( was_dirty ) ) { + + if ( ! recv_mssg(&mssg, WRITE_REQ_ACK_CODE) ) { + + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", + world_mpi_rank, FUNC); + } + } else if ( ( mssg.req != WRITE_REQ_ACK_CODE ) || + ( mssg.src != world_server_mpi_rank ) || + ( mssg.dest != world_mpi_rank ) || + ( mssg.base_addr != entry_ptr->base_addr ) || + ( mssg.len != entry_ptr->len ) || + ( mssg.ver != entry_ptr->ver ) || + ( mssg.magic != MSSG_MAGIC ) ) { + + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, + "%d:%s: Bad data in write req ack.\n", + world_mpi_rank, FUNC); + } + } + } + +#endif /* DO_WRITE_REQ_ACK */ + + datum_flushes++; + + if ( entry_ptr->header.is_pinned ) { + + datum_pinned_flushes++; + HDassert(entry_ptr->global_pinned || entry_ptr->local_pinned); + } + break; + + case H5AC_NOTIFY_ACTION_BEFORE_EVICT: + if ( callbacks_verbose ) { + + HDfprintf(stdout, + "%d: notify() action = evict, idx = %d, addr = %ld.\n", + world_mpi_rank, idx, (long)entry_ptr->header.addr); + fflush(stdout); + } + + /* do nothing */ + break; + + default: + nerrors++; + ret_value = FAIL; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: Unknown notify action.\n", + world_mpi_rank, FUNC); + } + break; } - if ( ! success ) { + return(ret_value); - entry_ptr = NULL; +} /* datum_notify() */ + + +/*------------------------------------------------------------------------- + * Function: datum_free_icr + * + * Purpose: Nominally, this callback is supposed to free the + * in core representation of the entry. + * + * In the context of this test bed, we use it to do + * do all the processing we used to do on a destroy. + * + * Return: SUCCEED + * + * Programmer: John Mainzer + * 9/19/07 + * + *------------------------------------------------------------------------- + */ +static herr_t +datum_free_icr(void * thing) +{ + int idx; + struct datum * entry_ptr; + + HDassert( thing ); + + entry_ptr = (struct datum *)thing; + + idx = addr_to_datum_index(entry_ptr->base_addr); + HDassert( idx >= 0 ); + HDassert( idx < NUM_DATA_ENTRIES ); + HDassert( idx < virt_num_data_entries ); + HDassert( &(data[idx]) == entry_ptr ); + + if ( callbacks_verbose ) { + + HDfprintf(stdout, + "%d: free_icr() idx = %d, dirty = %d.\n", + world_mpi_rank, idx, (int)(entry_ptr->dirty)); + fflush(stdout); } - datum_loads++; + HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); + HDassert( ( entry_ptr->header.size == entry_ptr->len ) || + ( entry_ptr->header.size == entry_ptr->local_len ) ); - return(entry_ptr); + HDassert( !(entry_ptr->header.is_dirty) ); + HDassert( !(entry_ptr->global_pinned) ); + HDassert( !(entry_ptr->local_pinned) ); + HDassert( !(entry_ptr->header.is_pinned) ); + + datum_destroys++; -} /* load_datum() */ + return(SUCCEED); +} /* datum_free_icr() */ + /*------------------------------------------------------------------------- - * Function: size_datum + * Function: datum_clear * - * Purpose: Get the size of the specified entry. Just look at the - * local copy, as size can't change. + * Purpose: Mark the datum as clean. + * + * Do not write it to the server, or increment the version. * * Return: SUCCEED * * Programmer: John Mainzer - * 6/10/04 - * - * Modifications: - * - * JRM -- 7/11/06 - * Modified function to return the local_len field instead - * of the len field. These two fields usually contain the - * same value, but if the size of an entry is changed, we - * store the altered size in local_len without changing - * len. Note that local_len must be positive, and may - * not exceed len. + * 12/29/05 * *------------------------------------------------------------------------- */ - static herr_t -size_datum(H5F_t H5_ATTR_UNUSED * f, - void * thing, - size_t * size_ptr) +datum_clear(H5F_t H5_ATTR_UNUSED * f, + void * thing, + hbool_t H5_ATTR_UNUSED about_to_destroy) { int idx; struct datum * entry_ptr; HDassert( thing ); - HDassert( size_ptr ); entry_ptr = (struct datum *)thing; @@ -2744,16 +2972,28 @@ size_datum(H5F_t H5_ATTR_UNUSED * f, HDassert( idx < NUM_DATA_ENTRIES ); HDassert( idx < virt_num_data_entries ); HDassert( &(data[idx]) == entry_ptr ); - HDassert( entry_ptr->local_len > 0 ); - HDassert( entry_ptr->local_len <= entry_ptr->len ); HDassert( entry_ptr->header.addr == entry_ptr->base_addr ); + HDassert( ( entry_ptr->header.size == entry_ptr->len ) || + ( entry_ptr->header.size == entry_ptr->local_len ) ); - *size_ptr = entry_ptr->local_len; + HDassert( ( entry_ptr->dirty ) || + ( entry_ptr->header.is_dirty == entry_ptr->dirty ) ); + + entry_ptr->cleared = TRUE; + entry_ptr->dirty = FALSE; + + datum_clears++; + + if ( entry_ptr->header.is_pinned ) { + + datum_pinned_clears++; + HDassert( entry_ptr->global_pinned || entry_ptr->local_pinned ); + } return(SUCCEED); -} /* size_datum() */ +} /* datum_clear() */ /*****************************************************************************/ @@ -2792,6 +3032,8 @@ expunge_entry(H5F_t * file_ptr, HDassert( !(entry_ptr->global_pinned) ); HDassert( !(entry_ptr->local_pinned) ); + entry_ptr->dirty = FALSE; + if ( nerrors == 0 ) { result = H5AC_expunge_entry(file_ptr, (hid_t)-1, &(types[0]), @@ -3280,8 +3522,10 @@ lock_entry(H5F_t * file_ptr, HDassert( ! (entry_ptr->locked) ); cache_entry_ptr = (H5C_cache_entry_t *)H5AC_protect(file_ptr, - H5P_DATASET_XFER_DEFAULT, &(types[0]), entry_ptr->base_addr, - NULL, H5AC_WRITE); + H5P_DATASET_XFER_DEFAULT, + &(types[0]), entry_ptr->base_addr, + &entry_ptr->base_addr, + H5AC__NO_FLAGS_SET); if ( ( cache_entry_ptr != (void *)(&(entry_ptr->header)) ) || ( entry_ptr->header.type != &(types[0]) ) || @@ -3801,6 +4045,7 @@ setup_cache_for_test(hid_t * fid_ptr, H5AC_cache_config_t test_config; H5F_t * file_ptr = NULL; H5C_t * cache_ptr = NULL; + haddr_t actual_base_addr; HDassert ( fid_ptr != NULL ); HDassert ( file_ptr_ptr != NULL ); @@ -3950,6 +4195,54 @@ setup_cache_for_test(hid_t * fid_ptr, } } + /* allocate space for test entries -- do this before we set the + * sync point done callback as it will dirty the superblock, requiring + * another flush. If the sync point done callback is set, this will + * cause a spurious failure. + */ + if ( success ) { /* allocate space for test entries */ + + actual_base_addr = H5MF_alloc(file_ptr, H5FD_MEM_DEFAULT, H5P_DEFAULT, + (hsize_t)(max_addr + BASE_ADDR)); + + if ( actual_base_addr == HADDR_UNDEF ) { + + success = FALSE; + nerrors++; + + if ( verbose ) { + HDfprintf(stdout, "%d:%s: H5MF_alloc() failed.\n", + world_mpi_rank, FUNC); + } + + } else if ( actual_base_addr > BASE_ADDR ) { + + /* If this happens, must increase BASE_ADDR so that the + * actual_base_addr is <= BASE_ADDR. This should only happen + * if the size of the superblock is increase. + */ + success = FALSE; + nerrors++; + + if ( verbose ) { + HDfprintf(stdout, "%d:%s: actual_base_addr > BASE_ADDR.\n", + world_mpi_rank, FUNC); + } + } + } + + + /* flush the file again -- space allocation dirtied superblock */ + if ( success ) { + + if ( H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0 ) { + nerrors++; + if ( verbose ) { + HDfprintf(stdout, "%d:%s: second H5Fflush() failed.\n", + world_mpi_rank, FUNC); + } + } + } #if DO_SYNC_AFTER_WRITE @@ -4138,7 +4431,7 @@ setup_rand(void) { hbool_t use_predefined_seeds = FALSE; int num_predefined_seeds = 3; - unsigned predefined_seeds[3] = {33402, 33505, 33422}; + unsigned predefined_seeds[3] = {18669, 89925, 12577}; unsigned seed; struct timeval tv; @@ -6472,27 +6765,27 @@ trace_file_check(int metadata_write_strategy) { "### HDF5 metadata cache trace file version 1 ###\n", "H5AC_set_cache_auto_resize_config 1 0 1 0 \"t_cache_trace.txt\" 1 0 2097152 0.300000 33554432 1048576 50000 1 0.900000 2.000000 1 1.000000 0.250000 1 4194304 3 0.999000 0.900000 1 1048576 3 1 0.100000 262144 0 0\n", - "H5AC_insert_entry 0x200 25 0x0 2 0\n", - "H5AC_insert_entry 0x202 25 0x0 2 0\n", - "H5AC_insert_entry 0x204 25 0x0 4 0\n", - "H5AC_insert_entry 0x208 25 0x0 6 0\n", - "H5AC_protect 0x200 25 H5AC_WRITE 2 1\n", - "H5AC_mark_entry_dirty 0x200 0\n", - "H5AC_unprotect 0x200 25 0 0 0\n", - "H5AC_protect 0x202 25 H5AC_WRITE 2 1\n", - "H5AC_pin_protected_entry 0x202 0\n", - "H5AC_unprotect 0x202 25 0 0 0\n", - "H5AC_unpin_entry 0x202 0\n", - "H5AC_expunge_entry 0x202 25 0\n", - "H5AC_protect 0x204 25 H5AC_WRITE 4 1\n", - "H5AC_pin_protected_entry 0x204 0\n", - "H5AC_unprotect 0x204 25 0 0 0\n", - "H5AC_mark_entry_dirty 0x204 0 0 0\n", - "H5AC_resize_entry 0x204 2 0\n", - "H5AC_resize_entry 0x204 4 0\n", - "H5AC_unpin_entry 0x204 0\n", - "H5AC_move_entry 0x200 0x8c65 25 0\n", - "H5AC_move_entry 0x8c65 0x200 25 0\n", + "H5AC_insert_entry 0x400 27 0x0 2 0\n", + "H5AC_insert_entry 0x402 27 0x0 2 0\n", + "H5AC_insert_entry 0x404 27 0x0 4 0\n", + "H5AC_insert_entry 0x408 27 0x0 6 0\n", + "H5AC_protect 0x400 27 0x0 2 1\n", + "H5AC_mark_entry_dirty 0x400 0\n", + "H5AC_unprotect 0x400 27 0x0 0\n", + "H5AC_protect 0x402 27 0x0 2 1\n", + "H5AC_pin_protected_entry 0x402 0\n", + "H5AC_unprotect 0x402 27 0x0 0\n", + "H5AC_unpin_entry 0x402 0\n", + "H5AC_expunge_entry 0x402 27 0\n", + "H5AC_protect 0x404 27 0x0 4 1\n", + "H5AC_pin_protected_entry 0x404 0\n", + "H5AC_unprotect 0x404 27 0x0 0\n", + "H5AC_mark_entry_dirty 0x404 0\n", + "H5AC_resize_entry 0x404 2 0\n", + "H5AC_resize_entry 0x404 4 0\n", + "H5AC_unpin_entry 0x404 0\n", + "H5AC_move_entry 0x400 0x8e65 27 0\n", + "H5AC_move_entry 0x8e65 0x400 27 0\n", "H5AC_flush 0\n", NULL }; @@ -6500,27 +6793,27 @@ trace_file_check(int metadata_write_strategy) { "### HDF5 metadata cache trace file version 1 ###\n", "H5AC_set_cache_auto_resize_config 1 0 1 0 \"t_cache_trace.txt\" 1 0 2097152 0.300000 33554432 1048576 50000 1 0.900000 2.000000 1 1.000000 0.250000 1 4194304 3 0.999000 0.900000 1 1048576 3 1 0.100000 262144 1 0\n", - "H5AC_insert_entry 0x200 25 0x0 2 0\n", - "H5AC_insert_entry 0x202 25 0x0 2 0\n", - "H5AC_insert_entry 0x204 25 0x0 4 0\n", - "H5AC_insert_entry 0x208 25 0x0 6 0\n", - "H5AC_protect 0x200 25 H5AC_WRITE 2 1\n", - "H5AC_mark_entry_dirty 0x200 0\n", - "H5AC_unprotect 0x200 25 0 0 0\n", - "H5AC_protect 0x202 25 H5AC_WRITE 2 1\n", - "H5AC_pin_protected_entry 0x202 0\n", - "H5AC_unprotect 0x202 25 0 0 0\n", - "H5AC_unpin_entry 0x202 0\n", - "H5AC_expunge_entry 0x202 25 0\n", - "H5AC_protect 0x204 25 H5AC_WRITE 4 1\n", - "H5AC_pin_protected_entry 0x204 0\n", - "H5AC_unprotect 0x204 25 0 0 0\n", - "H5AC_mark_entry_dirty 0x204 0 0 0\n", - "H5AC_resize_pinned_entry 0x204 2 0\n", - "H5AC_resize_pinned_entry 0x204 4 0\n", - "H5AC_unpin_entry 0x204 0\n", - "H5AC_move_entry 0x200 0x8c65 25 0\n", - "H5AC_move_entry 0x8c65 0x200 25 0\n", + "H5AC_insert_entry 0x400 27 0x0 2 0\n", + "H5AC_insert_entry 0x402 27 0x0 2 0\n", + "H5AC_insert_entry 0x404 27 0x0 4 0\n", + "H5AC_insert_entry 0x408 27 0x0 6 0\n", + "H5AC_protect 0x400 27 0x0 2 1\n", + "H5AC_mark_entry_dirty 0x400 0\n", + "H5AC_unprotect 0x400 27 0x0 0\n", + "H5AC_protect 0x402 27 0x0 2 1\n", + "H5AC_pin_protected_entry 0x402 0\n", + "H5AC_unprotect 0x402 27 0x0 0\n", + "H5AC_unpin_entry 0x402 0\n", + "H5AC_expunge_entry 0x402 27 0\n", + "H5AC_protect 0x404 27 0x0 4 1\n", + "H5AC_pin_protected_entry 0x404 0\n", + "H5AC_unprotect 0x404 27 0x0 0\n", + "H5AC_mark_entry_dirty 0x404 0\n", + "H5AC_resize_entry 0x404 2 0\n", + "H5AC_resize_entry 0x404 4 0\n", + "H5AC_unpin_entry 0x404 0\n", + "H5AC_move_entry 0x400 0x8e65 27 0\n", + "H5AC_move_entry 0x8e65 0x400 27 0\n", "H5AC_flush 0\n", NULL }; |