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| author | Allen Byrne <byrn@hdfgroup.org> | 2020-10-01 16:47:45 (GMT) |
|---|---|---|
| committer | Allen Byrne <byrn@hdfgroup.org> | 2020-10-01 16:47:45 (GMT) |
| commit | 1ba1f2f3222cbe8df0bf601929a4bffd478d7e02 (patch) | |
| tree | ae51dfc33cf40432dad25a5088767115a98f195e /testpar/t_cache.c | |
| parent | 8eef7d295cc3dd134aef0a826f1de4287629996d (diff) | |
| download | hdf5-1ba1f2f3222cbe8df0bf601929a4bffd478d7e02.zip hdf5-1ba1f2f3222cbe8df0bf601929a4bffd478d7e02.tar.gz hdf5-1ba1f2f3222cbe8df0bf601929a4bffd478d7e02.tar.bz2 | |
Source formatted
Diffstat (limited to 'testpar/t_cache.c')
| -rw-r--r-- | testpar/t_cache.c | 4889 |
1 files changed, 2189 insertions, 2700 deletions
diff --git a/testpar/t_cache.c b/testpar/t_cache.c index 25ffbc8..05cc83f 100644 --- a/testpar/t_cache.c +++ b/testpar/t_cache.c @@ -20,61 +20,56 @@ #include "H5Iprivate.h" #include "H5ACprivate.h" -#define H5C_PACKAGE /*suppress error about including H5Cpkg */ +#define H5C_PACKAGE /*suppress error about including H5Cpkg */ #include "H5Cpkg.h" -#define H5AC_PACKAGE /*suppress error about including H5ACpkg */ +#define H5AC_PACKAGE /*suppress error about including H5ACpkg */ #include "H5ACpkg.h" -#define H5F_PACKAGE /*suppress error about including H5Fpkg */ +#define H5F_PACKAGE /*suppress error about including H5Fpkg */ #include "H5Fpkg.h" +int nerrors = 0; +int failures = 0; +hbool_t verbose = TRUE; /* used to control error messages */ -int nerrors = 0; -int failures = 0; -hbool_t verbose = TRUE; /* used to control error messages */ - -#define NFILENAME 2 +#define NFILENAME 2 #define PARATESTFILE filenames[0] -const char *FILENAME[NFILENAME]={"CacheTestDummy", NULL}; +const char *FILENAME[NFILENAME] = {"CacheTestDummy", NULL}; #ifndef PATH_MAX -#define PATH_MAX 512 -#endif /* !PATH_MAX */ -char filenames[NFILENAME][PATH_MAX]; -hid_t fapl; /* file access property list */ - - -int world_mpi_size = -1; -int world_mpi_rank = -1; -int world_server_mpi_rank = -1; -MPI_Comm world_mpi_comm = MPI_COMM_NULL; -int file_mpi_size = -1; -int file_mpi_rank = -1; -MPI_Comm file_mpi_comm = MPI_COMM_NULL; - +#define PATH_MAX 512 +#endif /* !PATH_MAX */ +char filenames[NFILENAME][PATH_MAX]; +hid_t fapl; /* file access property list */ + +int world_mpi_size = -1; +int world_mpi_rank = -1; +int world_server_mpi_rank = -1; +MPI_Comm world_mpi_comm = MPI_COMM_NULL; +int file_mpi_size = -1; +int file_mpi_rank = -1; +MPI_Comm file_mpi_comm = MPI_COMM_NULL; /* the following globals are used to maintain rudementary statistics * to check the validity of the statistics maintained by H5C.c */ -long datum_clears = 0; -long datum_pinned_clears = 0; -long datum_destroys = 0; -long datum_flushes = 0; -long datum_pinned_flushes = 0; -long datum_loads = 0; -long global_pins = 0; -long global_dirty_pins = 0; +long datum_clears = 0; +long datum_pinned_clears = 0; +long datum_destroys = 0; +long datum_flushes = 0; +long datum_pinned_flushes = 0; +long datum_loads = 0; +long global_pins = 0; +long global_dirty_pins = 0; long local_pins = 0; - /* the following fields are used by the server process only */ -int total_reads = 0; -int total_writes = 0; - +int total_reads = 0; +int total_writes = 0; /***************************************************************************** * struct datum @@ -148,23 +143,22 @@ int total_writes = 0; * *****************************************************************************/ -struct datum -{ - H5C_cache_entry_t header; - haddr_t base_addr; - size_t len; - size_t local_len; - int ver; - hbool_t dirty; - hbool_t valid; - hbool_t locked; - hbool_t global_pinned; - hbool_t local_pinned; - hbool_t cleared; - hbool_t flushed; - int reads; - int writes; - int index; +struct datum { + H5C_cache_entry_t header; + haddr_t base_addr; + size_t len; + size_t local_len; + int ver; + hbool_t dirty; + hbool_t valid; + hbool_t locked; + hbool_t global_pinned; + hbool_t local_pinned; + hbool_t cleared; + hbool_t flushed; + int reads; + int writes; + int index; }; /***************************************************************************** @@ -182,11 +176,10 @@ struct datum * *****************************************************************************/ -#define NUM_DATA_ENTRIES 100000 +#define NUM_DATA_ENTRIES 100000 struct datum data[NUM_DATA_ENTRIES]; - /* Many tests use the size of data array as the size of test loops. * On some machines, this results in unacceptably long test runs. * @@ -201,14 +194,13 @@ struct datum data[NUM_DATA_ENTRIES]; * Further, this value must be consistant across all processes. */ -#define STD_VIRT_NUM_DATA_ENTRIES NUM_DATA_ENTRIES -#define EXPRESS_VIRT_NUM_DATA_ENTRIES (NUM_DATA_ENTRIES / 10) +#define STD_VIRT_NUM_DATA_ENTRIES NUM_DATA_ENTRIES +#define EXPRESS_VIRT_NUM_DATA_ENTRIES (NUM_DATA_ENTRIES / 10) /* Use a smaller test size to avoid creating huge MPE logfiles. */ -#define MPE_VIRT_NUM_DATA_ENTIES (NUM_DATA_ENTRIES / 100) +#define MPE_VIRT_NUM_DATA_ENTIES (NUM_DATA_ENTRIES / 100) int virt_num_data_entries = NUM_DATA_ENTRIES; - /***************************************************************************** * data_index array * @@ -225,7 +217,6 @@ int virt_num_data_entries = NUM_DATA_ENTRIES; int data_index[NUM_DATA_ENTRIES]; - /***************************************************************************** * The following two #defines are used to control code that is in turn used * to force "POSIX" semantics on the server process used to simulate metadata @@ -255,8 +246,7 @@ int data_index[NUM_DATA_ENTRIES]; *****************************************************************************/ #define DO_WRITE_REQ_ACK TRUE -#define DO_SYNC_AFTER_WRITE FALSE - +#define DO_SYNC_AFTER_WRITE FALSE /***************************************************************************** * struct mssg @@ -286,42 +276,40 @@ int data_index[NUM_DATA_ENTRIES]; * *****************************************************************************/ -#define WRITE_REQ_CODE 0 -#define WRITE_REQ_ACK_CODE 1 -#define READ_REQ_CODE 2 -#define READ_REQ_REPLY_CODE 3 -#define SYNC_REQ_CODE 4 -#define SYNC_ACK_CODE 5 -#define REQ_TTL_WRITES_CODE 6 -#define REQ_TTL_WRITES_RPLY_CODE 7 -#define REQ_TTL_READS_CODE 8 +#define WRITE_REQ_CODE 0 +#define WRITE_REQ_ACK_CODE 1 +#define READ_REQ_CODE 2 +#define READ_REQ_REPLY_CODE 3 +#define SYNC_REQ_CODE 4 +#define SYNC_ACK_CODE 5 +#define REQ_TTL_WRITES_CODE 6 +#define REQ_TTL_WRITES_RPLY_CODE 7 +#define REQ_TTL_READS_CODE 8 #define REQ_TTL_READS_RPLY_CODE 9 #define REQ_ENTRY_WRITES_CODE 10 -#define REQ_ENTRY_WRITES_RPLY_CODE 11 -#define REQ_ENTRY_READS_CODE 12 -#define REQ_ENTRY_READS_RPLY_CODE 13 -#define REQ_RW_COUNT_RESET_CODE 14 -#define REQ_RW_COUNT_RESET_RPLY_CODE 15 -#define DONE_REQ_CODE 16 -#define MAX_REQ_CODE 16 - -#define MSSG_MAGIC 0x1248 - -struct mssg_t -{ - int req; - int src; - int dest; - long int mssg_num; - haddr_t base_addr; - unsigned len; - int ver; - unsigned count; - unsigned magic; +#define REQ_ENTRY_WRITES_RPLY_CODE 11 +#define REQ_ENTRY_READS_CODE 12 +#define REQ_ENTRY_READS_RPLY_CODE 13 +#define REQ_RW_COUNT_RESET_CODE 14 +#define REQ_RW_COUNT_RESET_RPLY_CODE 15 +#define DONE_REQ_CODE 16 +#define MAX_REQ_CODE 16 + +#define MSSG_MAGIC 0x1248 + +struct mssg_t { + int req; + int src; + int dest; + long int mssg_num; + haddr_t base_addr; + unsigned len; + int ver; + unsigned count; + unsigned magic; }; -MPI_Datatype mpi_mssg_t; /* for MPI derived type created from mssg */ - +MPI_Datatype mpi_mssg_t; /* for MPI derived type created from mssg */ /*****************************************************************************/ /************************** function declarations ****************************/ @@ -335,19 +323,16 @@ static void reset_stats(void); static hbool_t set_up_file_communicator(void); - /* data array manipulation functions */ -static int addr_to_datum_index(haddr_t base_addr); +static int addr_to_datum_index(haddr_t base_addr); static void init_data(void); - /* test coodination related functions */ -static int do_express_test(void); +static int do_express_test(void); static void do_sync(void); -static int get_max_nerrors(void); - +static int get_max_nerrors(void); /* mssg xfer related functions */ @@ -356,88 +341,68 @@ static hbool_t send_mssg(struct mssg_t *mssg_ptr, hbool_t add_req_to_tag); static hbool_t setup_derived_types(void); static hbool_t takedown_derived_types(void); - /* server functions */ static hbool_t reset_server_counters(void); static hbool_t server_main(void); -static hbool_t serve_read_request(struct mssg_t * mssg_ptr); -static hbool_t serve_sync_request(struct mssg_t * mssg_ptr); -static hbool_t serve_write_request(struct mssg_t * mssg_ptr); -static hbool_t serve_total_writes_request(struct mssg_t * mssg_ptr); -static hbool_t serve_total_reads_request(struct mssg_t * mssg_ptr); -static hbool_t serve_entry_writes_request(struct mssg_t * mssg_ptr); -static hbool_t serve_entry_reads_request(struct mssg_t * mssg_ptr); -static hbool_t serve_rw_count_reset_request(struct mssg_t * mssg_ptr); - +static hbool_t serve_read_request(struct mssg_t *mssg_ptr); +static hbool_t serve_sync_request(struct mssg_t *mssg_ptr); +static hbool_t serve_write_request(struct mssg_t *mssg_ptr); +static hbool_t serve_total_writes_request(struct mssg_t *mssg_ptr); +static hbool_t serve_total_reads_request(struct mssg_t *mssg_ptr); +static hbool_t serve_entry_writes_request(struct mssg_t *mssg_ptr); +static hbool_t serve_entry_reads_request(struct mssg_t *mssg_ptr); +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 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); - -#define DATUM_ENTRY_TYPE H5AC_TEST_ID + void H5_ATTR_UNUSED *udata); +static herr_t size_datum(H5F_t H5_ATTR_UNUSED *f, void *thing, size_t *size_ptr); -#define NUMBER_OF_ENTRY_TYPES 1 +#define DATUM_ENTRY_TYPE H5AC_TEST_ID -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_size_func_t)size_datum - } -}; +#define NUMBER_OF_ENTRY_TYPES 1 +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_size_func_t)size_datum}}; /* test utility functions */ -static void expunge_entry(H5F_t * file_ptr, int32_t idx); -static void insert_entry(H5C_t * cache_ptr, H5F_t * file_ptr, - int32_t idx, unsigned int flags); -static void local_pin_and_unpin_random_entries(H5F_t * file_ptr, int min_idx, - int max_idx, int min_count, - int max_count); -static void local_pin_random_entry(H5F_t * file_ptr, int min_idx, int max_idx); -static void local_unpin_all_entries(H5F_t * file_ptr, hbool_t via_unprotect); -static int local_unpin_next_pinned_entry(H5F_t * file_ptr, int start_idx, - hbool_t via_unprotect); -static void lock_and_unlock_random_entries(H5F_t * file_ptr, int min_idx, int max_idx, - int min_count, int max_count); -static void lock_and_unlock_random_entry(H5F_t * file_ptr, - int min_idx, int max_idx); -static void lock_entry(H5F_t * file_ptr, int32_t idx); +static void expunge_entry(H5F_t *file_ptr, int32_t idx); +static void insert_entry(H5C_t *cache_ptr, H5F_t *file_ptr, int32_t idx, unsigned int flags); +static void local_pin_and_unpin_random_entries(H5F_t *file_ptr, int min_idx, int max_idx, int min_count, + int max_count); +static void local_pin_random_entry(H5F_t *file_ptr, int min_idx, int max_idx); +static void local_unpin_all_entries(H5F_t *file_ptr, hbool_t via_unprotect); +static int local_unpin_next_pinned_entry(H5F_t *file_ptr, int start_idx, hbool_t via_unprotect); +static void lock_and_unlock_random_entries(H5F_t *file_ptr, int min_idx, int max_idx, int min_count, + int max_count); +static void lock_and_unlock_random_entry(H5F_t *file_ptr, int min_idx, int max_idx); +static void lock_entry(H5F_t *file_ptr, int32_t idx); static void mark_entry_dirty(int32_t idx); -static void pin_entry(H5F_t * file_ptr, int32_t idx, hbool_t global, hbool_t dirty); +static void pin_entry(H5F_t *file_ptr, int32_t idx, hbool_t global, hbool_t dirty); #ifdef H5_METADATA_TRACE_FILE static void pin_protected_entry(int32_t idx, hbool_t global); #endif /* H5_METADATA_TRACE_FILE */ -static void move_entry(H5F_t * file_ptr, int32_t old_idx, int32_t new_idx); +static void move_entry(H5F_t *file_ptr, int32_t old_idx, int32_t new_idx); static hbool_t reset_server_counts(void); -static void resize_entry(int32_t idx, size_t new_size); -static hbool_t setup_cache_for_test(hid_t * fid_ptr, - H5F_t ** file_ptr_ptr, - H5C_t ** cache_ptr_ptr, - int metadata_write_strategy); -static void setup_rand(void); +static void resize_entry(int32_t idx, size_t new_size); +static hbool_t setup_cache_for_test(hid_t *fid_ptr, H5F_t **file_ptr_ptr, H5C_t **cache_ptr_ptr, + int metadata_write_strategy); +static void setup_rand(void); static hbool_t take_down_cache(hid_t fid); static hbool_t verify_entry_reads(haddr_t addr, int expected_entry_reads); static hbool_t verify_entry_writes(haddr_t addr, int expected_entry_writes); static hbool_t verify_total_reads(int expected_total_reads); static hbool_t verify_total_writes(int expected_total_writes); -static void verify_writes(int num_writes, haddr_t * written_entries_tbl); -static void unlock_entry(H5F_t * file_ptr, int32_t type, unsigned int flags); -static void unpin_entry(H5F_t * file_ptr, int32_t idx, hbool_t global, - hbool_t dirty, hbool_t via_unprotect); - +static void verify_writes(int num_writes, haddr_t *written_entries_tbl); +static void unlock_entry(H5F_t *file_ptr, int32_t type, unsigned int flags); +static void unpin_entry(H5F_t *file_ptr, int32_t idx, hbool_t global, hbool_t dirty, hbool_t via_unprotect); /* test functions */ @@ -449,7 +414,6 @@ static hbool_t smoke_check_4(int metadata_write_strategy); static hbool_t smoke_check_5(int metadata_write_strategy); static hbool_t trace_file_check(int metadata_write_strategy); - /*****************************************************************************/ /****************************** stats functions ******************************/ /*****************************************************************************/ @@ -477,17 +441,12 @@ static hbool_t trace_file_check(int metadata_write_strategy); static void print_stats(void) { - HDfprintf(stdout, - "%d: datum clears / pinned clears / destroys = %ld / %ld / %ld\n", - world_mpi_rank, datum_clears, datum_pinned_clears, - datum_destroys ); - HDfprintf(stdout, - "%d: datum flushes / pinned flushes / loads = %ld / %ld / %ld\n", - world_mpi_rank, datum_flushes, datum_pinned_flushes, - datum_loads ); - HDfprintf(stdout, - "%d: pins: global / global dirty / local = %ld / %ld / %ld\n", - world_mpi_rank, global_pins, global_dirty_pins, local_pins); + HDfprintf(stdout, "%d: datum clears / pinned clears / destroys = %ld / %ld / %ld\n", world_mpi_rank, + datum_clears, datum_pinned_clears, datum_destroys); + HDfprintf(stdout, "%d: datum flushes / pinned flushes / loads = %ld / %ld / %ld\n", world_mpi_rank, + datum_flushes, datum_pinned_flushes, datum_loads); + HDfprintf(stdout, "%d: pins: global / global dirty / local = %ld / %ld / %ld\n", world_mpi_rank, + global_pins, global_dirty_pins, local_pins); HDfflush(stdout); return; @@ -495,7 +454,6 @@ print_stats(void) } /* print_stats() */ #endif /* NOT_USED */ - /***************************************************************************** * * Function: reset_stats() @@ -515,21 +473,20 @@ print_stats(void) static void reset_stats(void) { - datum_clears = 0; - datum_pinned_clears = 0; - datum_destroys = 0; - datum_flushes = 0; - datum_pinned_flushes = 0; - datum_loads = 0; + datum_clears = 0; + datum_pinned_clears = 0; + datum_destroys = 0; + datum_flushes = 0; + datum_pinned_flushes = 0; + datum_loads = 0; global_pins = 0; - global_dirty_pins = 0; - local_pins = 0; + global_dirty_pins = 0; + local_pins = 0; return; } /* reset_stats() */ - /*****************************************************************************/ /**************************** MPI setup functions ****************************/ /*****************************************************************************/ @@ -556,133 +513,124 @@ reset_stats(void) static hbool_t set_up_file_communicator(void) { - const char * fcn_name = "set_up_file_communicator()"; - hbool_t success = TRUE; - int mpi_result; - int num_excluded_ranks; - int excluded_ranks[1]; - MPI_Group file_group; - MPI_Group world_group; + const char *fcn_name = "set_up_file_communicator()"; + hbool_t success = TRUE; + int mpi_result; + int num_excluded_ranks; + int excluded_ranks[1]; + MPI_Group file_group; + MPI_Group world_group; - if ( success ) { + if (success) { mpi_result = MPI_Comm_group(world_mpi_comm, &world_group); - if ( mpi_result != MPI_SUCCESS ) { + if (mpi_result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: MPI_Comm_group() failed with error %d.\n", - world_mpi_rank, fcn_name, mpi_result); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Comm_group() failed with error %d.\n", world_mpi_rank, fcn_name, + mpi_result); } } } - if ( success ) { + if (success) { num_excluded_ranks = 1; - excluded_ranks[0] = world_server_mpi_rank; - mpi_result = MPI_Group_excl(world_group, num_excluded_ranks, - excluded_ranks, &file_group); + excluded_ranks[0] = world_server_mpi_rank; + mpi_result = MPI_Group_excl(world_group, num_excluded_ranks, excluded_ranks, &file_group); - if ( mpi_result != MPI_SUCCESS ) { + if (mpi_result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: MPI_Group_excl() failed with error %d.\n", - world_mpi_rank, fcn_name, mpi_result); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Group_excl() failed with error %d.\n", world_mpi_rank, fcn_name, + mpi_result); } } } - if ( success ) { + if (success) { - mpi_result = MPI_Comm_create(world_mpi_comm, file_group, - &file_mpi_comm); + mpi_result = MPI_Comm_create(world_mpi_comm, file_group, &file_mpi_comm); - if ( mpi_result != MPI_SUCCESS ) { + if (mpi_result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: MPI_Comm_create() failed with error %d.\n", - world_mpi_rank, fcn_name, mpi_result); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Comm_create() failed with error %d.\n", world_mpi_rank, + fcn_name, mpi_result); } + } + else { - } else { - - if ( world_mpi_rank != world_server_mpi_rank ) { + if (world_mpi_rank != world_server_mpi_rank) { - if ( file_mpi_comm == MPI_COMM_NULL ) { + if (file_mpi_comm == MPI_COMM_NULL) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: file_mpi_comm == MPI_COMM_NULL.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: file_mpi_comm == MPI_COMM_NULL.\n", world_mpi_rank, + fcn_name); } } - } else { + } + else { file_mpi_size = world_mpi_size - 1; /* needed by the server */ - if ( file_mpi_comm != MPI_COMM_NULL ) { + if (file_mpi_comm != MPI_COMM_NULL) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: file_mpi_comm != MPI_COMM_NULL.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: file_mpi_comm != MPI_COMM_NULL.\n", world_mpi_rank, + fcn_name); } } } } } - if ( ( success ) && ( world_mpi_rank != world_server_mpi_rank ) ) { + if ((success) && (world_mpi_rank != world_server_mpi_rank)) { mpi_result = MPI_Comm_size(file_mpi_comm, &file_mpi_size); - if ( mpi_result != MPI_SUCCESS ) { + if (mpi_result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: MPI_Comm_size() failed with error %d.\n", - world_mpi_rank, fcn_name, mpi_result); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Comm_size() failed with error %d.\n", world_mpi_rank, fcn_name, + mpi_result); } } } - if ( ( success ) && ( world_mpi_rank != world_server_mpi_rank ) ) { + if ((success) && (world_mpi_rank != world_server_mpi_rank)) { mpi_result = MPI_Comm_rank(file_mpi_comm, &file_mpi_rank); - if ( mpi_result != MPI_SUCCESS ) { + if (mpi_result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: MPI_Comm_rank() failed with error %d.\n", - world_mpi_rank, fcn_name, mpi_result); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Comm_rank() failed with error %d.\n", world_mpi_rank, fcn_name, + mpi_result); } } } - return(success); + return (success); } /* set_up_file_communicator() */ - /*****************************************************************************/ /******************** data array manipulation functions **********************/ /*****************************************************************************/ @@ -705,36 +653,33 @@ static int addr_to_datum_index(haddr_t base_addr) { /* const char * fcn_name = "addr_to_datum_index()"; */ - int top = NUM_DATA_ENTRIES - 1; - int bottom = 0; - int middle = (NUM_DATA_ENTRIES - 1) / 2; + int top = NUM_DATA_ENTRIES - 1; + int bottom = 0; + int middle = (NUM_DATA_ENTRIES - 1) / 2; int ret_value = -1; - while ( top >= bottom ) - { - if ( base_addr < data[data_index[middle]].base_addr ) { + while (top >= bottom) { + if (base_addr < data[data_index[middle]].base_addr) { - top = middle - 1; + top = middle - 1; middle = (top + bottom) / 2; - - } else if ( base_addr > data[data_index[middle]].base_addr ) { + } + else if (base_addr > data[data_index[middle]].base_addr) { bottom = middle + 1; middle = (top + bottom) / 2; - - } else /* ( base_addr == data[data_index[middle]].base_addr ) */ { + } + else /* ( base_addr == data[data_index[middle]].base_addr ) */ { ret_value = data_index[middle]; - bottom = top + 1; /* to force exit from while loop */ - + bottom = top + 1; /* to force exit from while loop */ } } - return(ret_value); + return (ret_value); } /* addr_to_datum_index() */ - /***************************************************************************** * * Function: init_data() @@ -760,21 +705,18 @@ init_data(void) * At present, I am using the first 20 entries of the Fibonacci * sequence multiplied by 2. We will see how it works. */ - const int num_addr_offsets = 20; - const haddr_t addr_offsets[20] = { 2, 2, 4, 6, 10, - 16, 26, 42, 68, 110, - 178, 288, 466, 754, 1220, - 1974, 3194, 5168, 8362, 13539}; - int i; - int j = 0; - haddr_t addr = 512; + const int num_addr_offsets = 20; + const haddr_t addr_offsets[20] = {2, 2, 4, 6, 10, 16, 26, 42, 68, 110, + 178, 288, 466, 754, 1220, 1974, 3194, 5168, 8362, 13539}; + int i; + int j = 0; + haddr_t addr = 512; /* this must hold so moves don't change entry size. */ - HDassert( (NUM_DATA_ENTRIES / 2) % 20 == 0 ); - HDassert( (virt_num_data_entries / 2) % 20 == 0 ); + HDassert((NUM_DATA_ENTRIES / 2) % 20 == 0); + HDassert((virt_num_data_entries / 2) % 20 == 0); - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { + for (i = 0; i < NUM_DATA_ENTRIES; i++) { data[i].base_addr = addr; data[i].len = (size_t)(addr_offsets[j]); data[i].local_len = (size_t)(addr_offsets[j]); @@ -782,18 +724,18 @@ init_data(void) data[i].dirty = FALSE; data[i].valid = FALSE; data[i].locked = FALSE; - data[i].global_pinned = FALSE; - data[i].local_pinned = FALSE; - data[i].cleared = FALSE; - data[i].flushed = FALSE; + data[i].global_pinned = FALSE; + data[i].local_pinned = FALSE; + data[i].cleared = FALSE; + data[i].flushed = FALSE; data[i].reads = 0; data[i].writes = 0; - data[i].index = i; + data[i].index = i; - data_index[i] = i; + data_index[i] = i; addr += addr_offsets[j]; - HDassert( addr > data[i].base_addr ); + HDassert(addr > data[i].base_addr); j = (j + 1) % num_addr_offsets; } @@ -802,7 +744,6 @@ init_data(void) } /* init_data() */ - /*****************************************************************************/ /******************** test coodination related functions *********************/ /*****************************************************************************/ @@ -830,35 +771,29 @@ init_data(void) static int do_express_test(void) { - const char * fcn_name = "do_express_test()"; - int express_test; - int max_express_test; - int result; + const char *fcn_name = "do_express_test()"; + int express_test; + int max_express_test; + int result; express_test = GetTestExpress(); - result = MPI_Allreduce((void *)&express_test, - (void *)&max_express_test, - 1, - MPI_INT, - MPI_MAX, - world_mpi_comm); + result = + MPI_Allreduce((void *)&express_test, (void *)&max_express_test, 1, MPI_INT, MPI_MAX, world_mpi_comm); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; max_express_test = -1; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Allreduce() failed.\n", - world_mpi_rank, fcn_name ); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Allreduce() failed.\n", world_mpi_rank, fcn_name); } } - return(max_express_test); + return (max_express_test); } /* do_express_test() */ - /***************************************************************************** * * Function: do_sync() @@ -879,14 +814,14 @@ do_express_test(void) static void do_sync(void) { - const char * fcn_name = "do_sync()"; + const char *fcn_name = "do_sync()"; struct mssg_t mssg; - if ( nerrors <= 0 ) { + if (nerrors <= 0) { /* compose the message */ - mssg.req = SYNC_REQ_CODE; + mssg.req = SYNC_REQ_CODE; mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ @@ -896,43 +831,38 @@ do_sync(void) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { - nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + nerrors++; + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( nerrors <= 0 ) { + if (nerrors <= 0) { - if ( ! recv_mssg(&mssg, SYNC_ACK_CODE) ) { + if (!recv_mssg(&mssg, SYNC_ACK_CODE)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } - } else if ( ( mssg.req != SYNC_ACK_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.magic != MSSG_MAGIC ) ) { + } + else if ((mssg.req != SYNC_ACK_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.magic != MSSG_MAGIC)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in sync ack.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in sync ack.\n", world_mpi_rank, fcn_name); } - } + } } return; } /* do_sync() */ - /***************************************************************************** * * Function: get_max_nerrors() @@ -951,32 +881,25 @@ do_sync(void) static int get_max_nerrors(void) { - const char * fcn_name = "get_max_nerrors()"; - int max_nerrors; - int result; + const char *fcn_name = "get_max_nerrors()"; + int max_nerrors; + int result; - result = MPI_Allreduce((void *)&nerrors, - (void *)&max_nerrors, - 1, - MPI_INT, - MPI_MAX, - world_mpi_comm); + result = MPI_Allreduce((void *)&nerrors, (void *)&max_nerrors, 1, MPI_INT, MPI_MAX, world_mpi_comm); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; max_nerrors = -1; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Allreduce() failed.\n", - world_mpi_rank, fcn_name ); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Allreduce() failed.\n", world_mpi_rank, fcn_name); } } - return(max_nerrors); + return (max_nerrors); } /* get_max_nerrors() */ - /*****************************************************************************/ /************************ mssg xfer related functions ************************/ /*****************************************************************************/ @@ -1001,71 +924,64 @@ get_max_nerrors(void) * *****************************************************************************/ -#define CACHE_TEST_TAG 99 /* different from any used by the library */ +#define CACHE_TEST_TAG 99 /* different from any used by the library */ static hbool_t -recv_mssg(struct mssg_t *mssg_ptr, - int mssg_tag_offset) +recv_mssg(struct mssg_t *mssg_ptr, int mssg_tag_offset) { - const char * fcn_name = "recv_mssg()"; - hbool_t success = TRUE; - int mssg_tag = CACHE_TEST_TAG; - int result; - MPI_Status status; + const char *fcn_name = "recv_mssg()"; + hbool_t success = TRUE; + int mssg_tag = CACHE_TEST_TAG; + int result; + MPI_Status status; - if ( ( mssg_ptr == NULL ) || - ( mssg_tag_offset < 0 ) || - ( mssg_tag_offset> MAX_REQ_CODE ) ) { + if ((mssg_ptr == NULL) || (mssg_tag_offset < 0) || (mssg_tag_offset > MAX_REQ_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: bad param(s) on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: bad param(s) on entry.\n", world_mpi_rank, fcn_name); } - } else { + } + else { mssg_tag += mssg_tag_offset; } - if ( success ) { + if (success) { - result = MPI_Recv((void *)mssg_ptr, 1, mpi_mssg_t, MPI_ANY_SOURCE, - mssg_tag, world_mpi_comm, &status); + result = MPI_Recv((void *)mssg_ptr, 1, mpi_mssg_t, MPI_ANY_SOURCE, mssg_tag, world_mpi_comm, &status); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Recv() failed.\n", - world_mpi_rank, fcn_name ); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Recv() failed.\n", world_mpi_rank, fcn_name); } - } else if ( mssg_ptr->magic != MSSG_MAGIC ) { + } + else if (mssg_ptr->magic != MSSG_MAGIC) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: invalid magic.\n", world_mpi_rank, - fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: invalid magic.\n", world_mpi_rank, fcn_name); } - } else if ( mssg_ptr->src != status.MPI_SOURCE ) { + } + else if (mssg_ptr->src != status.MPI_SOURCE) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: mssg_ptr->src != status.MPI_SOURCE.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: mssg_ptr->src != status.MPI_SOURCE.\n", world_mpi_rank, fcn_name); } } } - return(success); + return (success); } /* recv_mssg() */ - /***************************************************************************** * * Function: send_mssg() @@ -1088,60 +1004,50 @@ recv_mssg(struct mssg_t *mssg_ptr, * *****************************************************************************/ static hbool_t -send_mssg(struct mssg_t *mssg_ptr, - hbool_t add_req_to_tag) +send_mssg(struct mssg_t *mssg_ptr, hbool_t add_req_to_tag) { - const char * fcn_name = "send_mssg()"; - hbool_t success = TRUE; - int mssg_tag = CACHE_TEST_TAG; - int result; + const char *fcn_name = "send_mssg()"; + hbool_t success = TRUE; + int mssg_tag = CACHE_TEST_TAG; + int result; static long mssg_num = 0; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->src != world_mpi_rank ) || - ( mssg_ptr->dest < 0 ) || - ( mssg_ptr->dest == mssg_ptr->src ) || - ( mssg_ptr->dest >= world_mpi_size ) || - ( mssg_ptr->req < 0 ) || - ( mssg_ptr->req > MAX_REQ_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->src != world_mpi_rank) || (mssg_ptr->dest < 0) || + (mssg_ptr->dest == mssg_ptr->src) || (mssg_ptr->dest >= world_mpi_size) || (mssg_ptr->req < 0) || + (mssg_ptr->req > MAX_REQ_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Invalid mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Invalid mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { mssg_ptr->mssg_num = mssg_num++; - if ( add_req_to_tag ) { + if (add_req_to_tag) { - mssg_tag += mssg_ptr->req; - } + mssg_tag += mssg_ptr->req; + } - result = MPI_Send((void *)mssg_ptr, 1, mpi_mssg_t, - mssg_ptr->dest, mssg_tag, world_mpi_comm); + result = MPI_Send((void *)mssg_ptr, 1, mpi_mssg_t, mssg_ptr->dest, mssg_tag, world_mpi_comm); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Send() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Send() failed.\n", world_mpi_rank, fcn_name); } } } - return(success); + return (success); } /* send_mssg() */ - /***************************************************************************** * * Function: setup_derived_types() @@ -1159,79 +1065,73 @@ send_mssg(struct mssg_t *mssg_ptr, static hbool_t setup_derived_types(void) { - const char * fcn_name = "setup_derived_types()"; - hbool_t success = TRUE; - int i; - int result; - MPI_Datatype mpi_types[9] = {MPI_INT, MPI_INT, MPI_INT, MPI_LONG, - HADDR_AS_MPI_TYPE, MPI_INT, MPI_INT, - MPI_INT, MPI_UNSIGNED}; - int block_len[9] = {1, 1, 1, 1, 1, 1, 1, 1, 1}; - MPI_Aint displs[9]; + const char * fcn_name = "setup_derived_types()"; + hbool_t success = TRUE; + int i; + int result; + MPI_Datatype mpi_types[9] = {MPI_INT, MPI_INT, MPI_INT, MPI_LONG, HADDR_AS_MPI_TYPE, + MPI_INT, MPI_INT, MPI_INT, MPI_UNSIGNED}; + int block_len[9] = {1, 1, 1, 1, 1, 1, 1, 1, 1}; + MPI_Aint displs[9]; struct mssg_t sample; /* used to compute displacements */ /* setup the displacements array */ - if ( ( MPI_SUCCESS != MPI_Get_address(&sample.req, &displs[0]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.src, &displs[1]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.dest, &displs[2]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.mssg_num, &displs[3]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.base_addr, &displs[4]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.len, &displs[5]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.ver, &displs[6]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.count, &displs[7]) ) || - ( MPI_SUCCESS != MPI_Get_address(&sample.magic, &displs[8]) ) ) { + if ((MPI_SUCCESS != MPI_Get_address(&sample.req, &displs[0])) || + (MPI_SUCCESS != MPI_Get_address(&sample.src, &displs[1])) || + (MPI_SUCCESS != MPI_Get_address(&sample.dest, &displs[2])) || + (MPI_SUCCESS != MPI_Get_address(&sample.mssg_num, &displs[3])) || + (MPI_SUCCESS != MPI_Get_address(&sample.base_addr, &displs[4])) || + (MPI_SUCCESS != MPI_Get_address(&sample.len, &displs[5])) || + (MPI_SUCCESS != MPI_Get_address(&sample.ver, &displs[6])) || + (MPI_SUCCESS != MPI_Get_address(&sample.count, &displs[7])) || + (MPI_SUCCESS != MPI_Get_address(&sample.magic, &displs[8]))) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Address() call failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Address() call failed.\n", world_mpi_rank, fcn_name); } - - } else { + } + else { /* Now calculate the actual displacements */ - for ( i = 8; i >= 0; --i) - { + for (i = 8; i >= 0; --i) { displs[i] -= displs[0]; } } - if ( success ) { + if (success) { result = MPI_Type_create_struct(9, block_len, displs, mpi_types, &mpi_mssg_t); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Type_struct() call failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Type_struct() call failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { result = MPI_Type_commit(&mpi_mssg_t); - if ( result != MPI_SUCCESS) { + if (result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Type_commit() call failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Type_commit() call failed.\n", world_mpi_rank, fcn_name); } } } - return(success); + return (success); } /* setup_derived_types */ - /***************************************************************************** * * Function: takedown_derived_types() @@ -1249,27 +1149,25 @@ setup_derived_types(void) static hbool_t takedown_derived_types(void) { - const char * fcn_name = "takedown_derived_types()"; - hbool_t success = TRUE; - int result; + const char *fcn_name = "takedown_derived_types()"; + hbool_t success = TRUE; + int result; result = MPI_Type_free(&mpi_mssg_t); - if ( result != MPI_SUCCESS ) { + if (result != MPI_SUCCESS) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: MPI_Type_free() call failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: MPI_Type_free() call failed.\n", world_mpi_rank, fcn_name); } } - return(success); + return (success); } /* takedown_derived_types() */ - /*****************************************************************************/ /***************************** server functions ******************************/ /*****************************************************************************/ @@ -1291,57 +1189,53 @@ takedown_derived_types(void) static hbool_t reset_server_counters(void) { - const char * fcn_name = "reset_server_counters()"; - hbool_t success = TRUE; - int i; - long actual_total_reads = 0; - long actual_total_writes = 0; + const char *fcn_name = "reset_server_counters()"; + hbool_t success = TRUE; + int i; + long actual_total_reads = 0; + long actual_total_writes = 0; - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - if ( data[i].reads > 0 ) { + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + if (data[i].reads > 0) { actual_total_reads += data[i].reads; data[i].reads = 0; } - if ( data[i].writes > 0 ) { + if (data[i].writes > 0) { actual_total_writes += data[i].writes; data[i].writes = 0; } } - if ( actual_total_reads != total_reads ) { + if (actual_total_reads != total_reads) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: actual/total reads mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, + if (verbose) { + HDfprintf(stdout, "%d:%s: actual/total reads mismatch (%ld/%ld).\n", world_mpi_rank, fcn_name, actual_total_reads, total_reads); } } - if ( actual_total_writes != total_writes ) { + if (actual_total_writes != total_writes) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: actual/total writes mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, + if (verbose) { + HDfprintf(stdout, "%d:%s: actual/total writes mismatch (%ld/%ld).\n", world_mpi_rank, fcn_name, actual_total_writes, total_writes); } } - total_reads = 0; + total_reads = 0; total_writes = 0; - return(success); + return (success); } /* reset_server_counters() */ - /***************************************************************************** * * Function: server_main() @@ -1368,132 +1262,127 @@ reset_server_counters(void) static hbool_t server_main(void) { - const char * fcn_name = "server_main()"; - hbool_t done = FALSE; - hbool_t success = TRUE; - int done_count = 0; + const char * fcn_name = "server_main()"; + hbool_t done = FALSE; + hbool_t success = TRUE; + int done_count = 0; struct mssg_t mssg; - if ( world_mpi_rank != world_server_mpi_rank ) { + if (world_mpi_rank != world_server_mpi_rank) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: This isn't the server process?!?!?\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: This isn't the server process?!?!?\n", world_mpi_rank, fcn_name); } } - - while ( ( success ) && ( ! done ) ) - { + while ((success) && (!done)) { success = recv_mssg(&mssg, 0); - if ( success ) { + if (success) { - switch ( mssg.req ) - { - case WRITE_REQ_CODE: - success = serve_write_request(&mssg); - break; + switch (mssg.req) { + case WRITE_REQ_CODE: + success = serve_write_request(&mssg); + break; - case WRITE_REQ_ACK_CODE: + case WRITE_REQ_ACK_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received write ack?!?.\n", fcn_name); - break; + break; - case READ_REQ_CODE: + case READ_REQ_CODE: success = serve_read_request(&mssg); - break; + break; - case READ_REQ_REPLY_CODE: + case READ_REQ_REPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received read req reply?!?.\n", fcn_name); - break; + break; - case SYNC_REQ_CODE: + case SYNC_REQ_CODE: success = serve_sync_request(&mssg); - break; + break; - case SYNC_ACK_CODE: + case SYNC_ACK_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received sync ack?!?.\n", fcn_name); - break; + break; - case REQ_TTL_WRITES_CODE: - success = serve_total_writes_request(&mssg); - break; + case REQ_TTL_WRITES_CODE: + success = serve_total_writes_request(&mssg); + break; - case REQ_TTL_WRITES_RPLY_CODE: + case REQ_TTL_WRITES_RPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received total writes reply?!?.\n", fcn_name); - break; + break; - case REQ_TTL_READS_CODE: - success = serve_total_reads_request(&mssg); - break; + case REQ_TTL_READS_CODE: + success = serve_total_reads_request(&mssg); + break; - case REQ_TTL_READS_RPLY_CODE: + case REQ_TTL_READS_RPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received total reads reply?!?.\n", fcn_name); - break; + break; - case REQ_ENTRY_WRITES_CODE: - success = serve_entry_writes_request(&mssg); - break; + case REQ_ENTRY_WRITES_CODE: + success = serve_entry_writes_request(&mssg); + break; - case REQ_ENTRY_WRITES_RPLY_CODE: + case REQ_ENTRY_WRITES_RPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received entry writes reply?!?.\n", fcn_name); - break; + break; - case REQ_ENTRY_READS_CODE: - success = serve_entry_reads_request(&mssg); - break; + case REQ_ENTRY_READS_CODE: + success = serve_entry_reads_request(&mssg); + break; - case REQ_ENTRY_READS_RPLY_CODE: + case REQ_ENTRY_READS_RPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received entry reads reply?!?.\n", fcn_name); - break; + break; - case REQ_RW_COUNT_RESET_CODE: - success = serve_rw_count_reset_request(&mssg); - break; + case REQ_RW_COUNT_RESET_CODE: + success = serve_rw_count_reset_request(&mssg); + break; - case REQ_RW_COUNT_RESET_RPLY_CODE: + case REQ_RW_COUNT_RESET_RPLY_CODE: success = FALSE; - if(verbose) + if (verbose) HDfprintf(stdout, "%s: Received RW count reset reply?!?.\n", fcn_name); - break; + break; - case DONE_REQ_CODE: - done_count++; - if(done_count >= file_mpi_size) - done = TRUE; - break; + case DONE_REQ_CODE: + done_count++; + if (done_count >= file_mpi_size) + done = TRUE; + break; - default: + default: nerrors++; success = FALSE; - if(verbose) - HDfprintf(stdout, "%d:%s: Unknown request code.\n", world_mpi_rank, fcn_name); - break; + if (verbose) + HDfprintf(stdout, "%d:%s: Unknown request code.\n", world_mpi_rank, fcn_name); + break; } } } - return(success); + return (success); } /* server_main() */ - /***************************************************************************** * * Function: serve_read_request() @@ -1513,63 +1402,58 @@ server_main(void) * *****************************************************************************/ static hbool_t -serve_read_request(struct mssg_t * mssg_ptr) +serve_read_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_read_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; - int target_index; - haddr_t target_addr; + const char * fcn_name = "serve_read_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; + int target_index; + haddr_t target_addr; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != READ_REQ_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != READ_REQ_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { - target_addr = mssg_ptr->base_addr; + target_addr = mssg_ptr->base_addr; target_index = addr_to_datum_index(target_addr); - if ( target_index < 0 ) { + if (target_index < 0) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", - world_mpi_rank, fcn_name, target_addr); + if (verbose) { + HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", world_mpi_rank, fcn_name, + target_addr); } - } else if ( data[target_index].len != mssg_ptr->len ) { + } + else if (data[target_index].len != mssg_ptr->len) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: data[i].len = %Zu != mssg->len = %d.\n", - world_mpi_rank, fcn_name, - data[target_index].len, mssg_ptr->len); + if (verbose) { + HDfprintf(stdout, "%d:%s: data[i].len = %Zu != mssg->len = %d.\n", world_mpi_rank, fcn_name, + data[target_index].len, mssg_ptr->len); } - } else if ( ! (data[target_index].valid) ) { + } + else if (!(data[target_index].valid)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: proc %d read invalid entry. idx/base_addr = %d/0x%llx.\n", - world_mpi_rank, fcn_name, - mssg_ptr->src, - target_index, - (long long)(data[target_index].base_addr)); + if (verbose) { + HDfprintf(stdout, "%d:%s: proc %d read invalid entry. idx/base_addr = %d/0x%llx.\n", + world_mpi_rank, fcn_name, mssg_ptr->src, target_index, + (long long)(data[target_index].base_addr)); } - } else { + } + else { /* compose the reply message */ reply.req = READ_REQ_REPLY_CODE; @@ -1579,46 +1463,40 @@ serve_read_request(struct mssg_t * mssg_ptr) reply.base_addr = data[target_index].base_addr; reply.len = data[target_index].len; reply.ver = data[target_index].ver; - reply.count = 0; + reply.count = 0; reply.magic = MSSG_MAGIC; - /* and update the counters */ - total_reads++; + /* and update the counters */ + total_reads++; (data[target_index].reads)++; } } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { + if (report_mssg) { - if ( success ) { + if (success) { - HDfprintf(stdout, "%d read 0x%llx. len = %d. ver = %d.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (int)(data[target_index].len), + HDfprintf(stdout, "%d read 0x%llx. len = %d. ver = %d.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (int)(data[target_index].len), (int)(data[target_index].ver)); + } + else { - } else { - - HDfprintf(stdout, "%d read 0x%llx FAILED. len = %d. ver = %d.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (int)(data[target_index].len), + HDfprintf(stdout, "%d read 0x%llx FAILED. len = %d. ver = %d.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (int)(data[target_index].len), (int)(data[target_index].ver)); - } } - return(success); + return (success); } /* serve_read_request() */ - /***************************************************************************** * * Function: serve_sync_request() @@ -1641,26 +1519,23 @@ serve_read_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_sync_request(struct mssg_t * mssg_ptr) +serve_sync_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_sync_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; + const char * fcn_name = "serve_sync_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != SYNC_REQ_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != SYNC_REQ_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { /* compose the reply message */ reply.req = SYNC_ACK_CODE; @@ -1670,33 +1545,31 @@ serve_sync_request(struct mssg_t * mssg_ptr) reply.base_addr = 0; reply.len = 0; reply.ver = 0; - reply.count = 0; + reply.count = 0; reply.magic = MSSG_MAGIC; } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { + if (report_mssg) { - if ( success ) { + if (success) { HDfprintf(stdout, "%d sync.\n", (int)(mssg_ptr->src)); - - } else { + } + else { HDfprintf(stdout, "%d sync FAILED.\n", (int)(mssg_ptr->src)); - } } - return(success); + return (success); } /* serve_sync_request() */ - /***************************************************************************** * * Function: serve_write_request() @@ -1716,81 +1589,76 @@ serve_sync_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_write_request(struct mssg_t * mssg_ptr) +serve_write_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_write_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; - int target_index; - int new_ver_num; - haddr_t target_addr; + const char *fcn_name = "serve_write_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; + int target_index; + int new_ver_num; + haddr_t target_addr; #if DO_WRITE_REQ_ACK struct mssg_t reply; #endif /* DO_WRITE_REQ_ACK */ - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != WRITE_REQ_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != WRITE_REQ_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { - target_addr = mssg_ptr->base_addr; + target_addr = mssg_ptr->base_addr; target_index = addr_to_datum_index(target_addr); - if ( target_index < 0 ) { + if (target_index < 0) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", - world_mpi_rank, fcn_name, target_addr); + if (verbose) { + HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", world_mpi_rank, fcn_name, + target_addr); } - } else if ( data[target_index].len != mssg_ptr->len ) { + } + else if (data[target_index].len != mssg_ptr->len) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: data[i].len = %Zu != mssg->len = %d.\n", - world_mpi_rank, fcn_name, + if (verbose) { + HDfprintf(stdout, "%d:%s: data[i].len = %Zu != mssg->len = %d.\n", world_mpi_rank, fcn_name, data[target_index].len, mssg_ptr->len); } } } - if ( success ) { + if (success) { new_ver_num = mssg_ptr->ver; /* this check should catch duplicate writes */ - if ( new_ver_num <= data[target_index].ver ) { + if (new_ver_num <= data[target_index].ver) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: new ver = %d <= old ver = %d.\n", - world_mpi_rank, fcn_name, + if (verbose) { + HDfprintf(stdout, "%d:%s: new ver = %d <= old ver = %d.\n", world_mpi_rank, fcn_name, new_ver_num, data[target_index].ver); } } } - if ( success ) { + if (success) { - /* process the write */ - data[target_index].ver = new_ver_num; + /* process the write */ + data[target_index].ver = new_ver_num; data[target_index].valid = TRUE; /* and update the counters */ - total_writes++; + total_writes++; (data[target_index].writes)++; #if DO_WRITE_REQ_ACK @@ -1806,39 +1674,32 @@ serve_write_request(struct mssg_t * mssg_ptr) reply.count = 0; reply.magic = MSSG_MAGIC; - /* and send it */ + /* and send it */ success = send_mssg(&reply, TRUE); #endif /* DO_WRITE_REQ_ACK */ - } - if ( report_mssg ) { + if (report_mssg) { - if ( success ) { + if (success) { - HDfprintf(stdout, "%d write 0x%llx. len = %d. ver = %d.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (int)(data[target_index].len), + HDfprintf(stdout, "%d write 0x%llx. len = %d. ver = %d.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (int)(data[target_index].len), (int)(data[target_index].ver)); + } + else { - } else { - - HDfprintf(stdout, "%d write 0x%llx FAILED. len = %d. ver = %d.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (int)(data[target_index].len), + HDfprintf(stdout, "%d write 0x%llx FAILED. len = %d. ver = %d.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (int)(data[target_index].len), (int)(data[target_index].ver)); - } } - return(success); + return (success); } /* serve_write_request() */ - /***************************************************************************** * * Function: serve_total_writes_request() @@ -1859,26 +1720,23 @@ serve_write_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_total_writes_request(struct mssg_t * mssg_ptr) +serve_total_writes_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_total_writes_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; + const char * fcn_name = "serve_total_writes_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != REQ_TTL_WRITES_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != REQ_TTL_WRITES_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { /* compose the reply message */ reply.req = REQ_TTL_WRITES_RPLY_CODE; @@ -1892,33 +1750,27 @@ serve_total_writes_request(struct mssg_t * mssg_ptr) reply.magic = MSSG_MAGIC; } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { - - if ( success ) { + if (report_mssg) { - HDfprintf(stdout, "%d request total writes %ld.\n", - (int)(mssg_ptr->src), - total_writes); + if (success) { - } else { - - HDfprintf(stdout, "%d request total writes %ld -- FAILED.\n", - (int)(mssg_ptr->src), - total_writes); + HDfprintf(stdout, "%d request total writes %ld.\n", (int)(mssg_ptr->src), total_writes); + } + else { + HDfprintf(stdout, "%d request total writes %ld -- FAILED.\n", (int)(mssg_ptr->src), total_writes); } } - return(success); + return (success); } /* serve_total_writes_request() */ - /***************************************************************************** * * Function: serve_total_reads_request() @@ -1939,26 +1791,23 @@ serve_total_writes_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_total_reads_request(struct mssg_t * mssg_ptr) +serve_total_reads_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_total_reads_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; + const char * fcn_name = "serve_total_reads_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != REQ_TTL_READS_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != REQ_TTL_READS_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { /* compose the reply message */ reply.req = REQ_TTL_READS_RPLY_CODE; @@ -1972,33 +1821,27 @@ serve_total_reads_request(struct mssg_t * mssg_ptr) reply.magic = MSSG_MAGIC; } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { - - if ( success ) { + if (report_mssg) { - HDfprintf(stdout, "%d request total reads %ld.\n", - (int)(mssg_ptr->src), - total_reads); + if (success) { - } else { - - HDfprintf(stdout, "%d request total reads %ld -- FAILED.\n", - (int)(mssg_ptr->src), - total_reads); + HDfprintf(stdout, "%d request total reads %ld.\n", (int)(mssg_ptr->src), total_reads); + } + else { + HDfprintf(stdout, "%d request total reads %ld -- FAILED.\n", (int)(mssg_ptr->src), total_reads); } } - return(success); + return (success); } /* serve_total_reads_request() */ - /***************************************************************************** * * Function: serve_entry_writes_request() @@ -2019,41 +1862,39 @@ serve_total_reads_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_entry_writes_request(struct mssg_t * mssg_ptr) +serve_entry_writes_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_entry_writes_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; - int target_index; - haddr_t target_addr; + const char * fcn_name = "serve_entry_writes_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; + int target_index; + haddr_t target_addr; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != REQ_ENTRY_WRITES_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != REQ_ENTRY_WRITES_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { - target_addr = mssg_ptr->base_addr; + target_addr = mssg_ptr->base_addr; target_index = addr_to_datum_index(target_addr); - if ( target_index < 0 ) { + if (target_index < 0) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", - world_mpi_rank, fcn_name, target_addr); + if (verbose) { + HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", world_mpi_rank, fcn_name, + target_addr); } - } else { + } + else { /* compose the reply message */ reply.req = REQ_ENTRY_WRITES_RPLY_CODE; @@ -2063,40 +1904,34 @@ serve_entry_writes_request(struct mssg_t * mssg_ptr) reply.base_addr = target_addr; reply.len = 0; reply.ver = 0; - reply.count = data[target_index].writes; + reply.count = data[target_index].writes; reply.magic = MSSG_MAGIC; } } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { - - if ( success ) { + if (report_mssg) { - HDfprintf(stdout, "%d request entry 0x%llx writes = %ld.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (long)(data[target_index].writes)); + if (success) { - } else { - - HDfprintf(stdout, "%d request entry 0x%llx writes = %ld FAILED.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (long)(data[target_index].writes)); + HDfprintf(stdout, "%d request entry 0x%llx writes = %ld.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (long)(data[target_index].writes)); + } + else { + HDfprintf(stdout, "%d request entry 0x%llx writes = %ld FAILED.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (long)(data[target_index].writes)); } } - return(success); + return (success); } /* serve_entry_writes_request() */ - /***************************************************************************** * * Function: serve_entry_reads_request() @@ -2117,41 +1952,39 @@ serve_entry_writes_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_entry_reads_request(struct mssg_t * mssg_ptr) +serve_entry_reads_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_entry_reads_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; - int target_index; - haddr_t target_addr; + const char * fcn_name = "serve_entry_reads_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; + int target_index; + haddr_t target_addr; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != REQ_ENTRY_READS_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != REQ_ENTRY_READS_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { - target_addr = mssg_ptr->base_addr; + target_addr = mssg_ptr->base_addr; target_index = addr_to_datum_index(target_addr); - if ( target_index < 0 ) { + if (target_index < 0) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", - world_mpi_rank, fcn_name, target_addr); + if (verbose) { + HDfprintf(stdout, "%d:%s: addr lookup failed for %a.\n", world_mpi_rank, fcn_name, + target_addr); } - } else { + } + else { /* compose the reply message */ reply.req = REQ_ENTRY_READS_RPLY_CODE; @@ -2161,40 +1994,34 @@ serve_entry_reads_request(struct mssg_t * mssg_ptr) reply.base_addr = target_addr; reply.len = 0; reply.ver = 0; - reply.count = (long)(data[target_index].reads); + reply.count = (long)(data[target_index].reads); reply.magic = MSSG_MAGIC; } } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { - - if ( success ) { + if (report_mssg) { - HDfprintf(stdout, "%d request entry 0x%llx reads = %ld.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (long)(data[target_index].reads)); + if (success) { - } else { - - HDfprintf(stdout, "%d request entry 0x%llx reads = %ld FAILED.\n", - (int)(mssg_ptr->src), - (long long)(data[target_index].base_addr), - (long)(data[target_index].reads)); + HDfprintf(stdout, "%d request entry 0x%llx reads = %ld.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (long)(data[target_index].reads)); + } + else { + HDfprintf(stdout, "%d request entry 0x%llx reads = %ld FAILED.\n", (int)(mssg_ptr->src), + (long long)(data[target_index].base_addr), (long)(data[target_index].reads)); } } - return(success); + return (success); } /* serve_entry_reads_request() */ - /***************************************************************************** * * Function: serve_rw_count_reset_request() @@ -2214,31 +2041,28 @@ serve_entry_reads_request(struct mssg_t * mssg_ptr) * *****************************************************************************/ static hbool_t -serve_rw_count_reset_request(struct mssg_t * mssg_ptr) +serve_rw_count_reset_request(struct mssg_t *mssg_ptr) { - const char * fcn_name = "serve_rw_count_reset_request()"; - hbool_t report_mssg = FALSE; - hbool_t success = TRUE; + const char * fcn_name = "serve_rw_count_reset_request()"; + hbool_t report_mssg = FALSE; + hbool_t success = TRUE; struct mssg_t reply; - if ( ( mssg_ptr == NULL ) || - ( mssg_ptr->req != REQ_RW_COUNT_RESET_CODE ) || - ( mssg_ptr->magic != MSSG_MAGIC ) ) { + if ((mssg_ptr == NULL) || (mssg_ptr->req != REQ_RW_COUNT_RESET_CODE) || (mssg_ptr->magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad mssg on entry.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { success = reset_server_counters(); } - if ( success ) { + if (success) { /* compose the reply message */ reply.req = REQ_RW_COUNT_RESET_RPLY_CODE; @@ -2252,36 +2076,31 @@ serve_rw_count_reset_request(struct mssg_t * mssg_ptr) reply.magic = MSSG_MAGIC; } - if ( success ) { + if (success) { success = send_mssg(&reply, TRUE); } - if ( report_mssg ) { - - if ( success ) { + if (report_mssg) { - HDfprintf(stdout, "%d request R/W counter reset.\n", - (int)(mssg_ptr->src)); + if (success) { - } else { - - HDfprintf(stdout, "%d request R/w counter reset FAILED.\n", - (int)(mssg_ptr->src)); + HDfprintf(stdout, "%d request R/W counter reset.\n", (int)(mssg_ptr->src)); + } + else { + HDfprintf(stdout, "%d request R/w counter reset FAILED.\n", (int)(mssg_ptr->src)); } } - return(success); + return (success); } /* serve_rw_count_reset_request() */ - /*****************************************************************************/ /**************************** Call back functions ****************************/ /*****************************************************************************/ - /*------------------------------------------------------------------------- * Function: clear_datum * @@ -2296,57 +2115,52 @@ serve_rw_count_reset_request(struct mssg_t * mssg_ptr) *------------------------------------------------------------------------- */ static herr_t -clear_datum(H5F_t * f, - void * thing, - hbool_t dest) +clear_datum(H5F_t *f, void *thing, hbool_t dest) { - int idx; - struct datum * entry_ptr; + int idx; + struct datum *entry_ptr; - HDassert( thing ); + 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 ); + 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 ) ); + 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 ); + HDassert(entry_ptr->header.is_dirty == entry_ptr->dirty); - if ( entry_ptr->header.is_dirty ) { + if (entry_ptr->header.is_dirty) { entry_ptr->cleared = TRUE; } entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; + entry_ptr->dirty = FALSE; - if ( dest ) { + if (dest) { destroy_datum(f, thing); - } datum_clears++; - if ( entry_ptr->header.is_pinned ) { + if (entry_ptr->header.is_pinned) { datum_pinned_clears++; - HDassert( entry_ptr->global_pinned || entry_ptr->local_pinned ); + HDassert(entry_ptr->global_pinned || entry_ptr->local_pinned); } - return(SUCCEED); + return (SUCCEED); } /* clear_datum() */ - /*------------------------------------------------------------------------- * Function: destroy_datum() * @@ -2362,40 +2176,37 @@ clear_datum(H5F_t * f, *------------------------------------------------------------------------- */ static herr_t -destroy_datum(H5F_t H5_ATTR_UNUSED * f, - void * thing) +destroy_datum(H5F_t H5_ATTR_UNUSED *f, void *thing) { - int idx; - struct datum * entry_ptr; + int idx; + struct datum *entry_ptr; - HDassert( thing ); + 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 ); + 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 ) ); + 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->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->dirty)); + HDassert(!(entry_ptr->header.is_dirty)); + HDassert(!(entry_ptr->global_pinned)); + HDassert(!(entry_ptr->local_pinned)); + HDassert(!(entry_ptr->header.is_pinned)); datum_destroys++; - return(SUCCEED); + return (SUCCEED); } /* destroy_datum() */ - /*------------------------------------------------------------------------- * Function: flush_datum * @@ -2410,67 +2221,58 @@ destroy_datum(H5F_t H5_ATTR_UNUSED * f, *------------------------------------------------------------------------- */ 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) +flush_datum(H5F_t *f, hid_t H5_ATTR_UNUSED dxpl_id, hbool_t dest, haddr_t H5_ATTR_UNUSED addr, void *thing) { - const char * fcn_name = "flush_datum()"; - 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; + const char * fcn_name = "flush_datum()"; + 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); entry_ptr = (struct datum *)thing; - HDassert( f ); - HDassert( f->shared ); - HDassert( f->shared->cache ); + HDassert(f); + HDassert(f->shared); + HDassert(f->shared->cache); cache_ptr = f->shared->cache; - HDassert( cache_ptr->magic == H5C__H5C_T_MAGIC ); - HDassert( cache_ptr->aux_ptr ); + HDassert(cache_ptr->magic == H5C__H5C_T_MAGIC); + HDassert(cache_ptr->aux_ptr); aux_ptr = (H5AC_aux_t *)(f->shared->cache->aux_ptr); - HDassert( aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC ); + HDassert(aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC); 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 ); + 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 ) ); + 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 ); + 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 ((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, fcn_name); + HDfprintf(stdout, "%d:%s: Flushed dirty entry from non-zero file process.", world_mpi_rank, fcn_name); } - if ( ret_value == SUCCEED ) { + if (ret_value == SUCCEED) { - if ( entry_ptr->header.is_dirty ) { + if (entry_ptr->header.is_dirty) { - was_dirty = TRUE; /* so we will receive the ack if requested */ + was_dirty = TRUE; /* so we will receive the ack if requested */ /* compose the message */ mssg.req = WRITE_REQ_CODE; @@ -2483,58 +2285,51 @@ flush_datum(H5F_t *f, mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; ret_value = FAIL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } - else - { + else { entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; - entry_ptr->flushed = TRUE; + entry_ptr->dirty = FALSE; + entry_ptr->flushed = TRUE; } } } #if DO_WRITE_REQ_ACK - if ( ( ret_value == SUCCEED ) && ( was_dirty ) ) { + if ((ret_value == SUCCEED) && (was_dirty)) { - if ( ! recv_mssg(&mssg, WRITE_REQ_ACK_CODE) ) { + 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, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } - } 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 ) ) { + } + 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, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in write req ack.\n", world_mpi_rank, fcn_name); } } } #endif /* DO_WRITE_REQ_ACK */ - if ( ret_value == SUCCEED ) { + if (ret_value == SUCCEED) { - if ( dest ) { + if (dest) { ret_value = destroy_datum(f, thing); } @@ -2542,13 +2337,13 @@ flush_datum(H5F_t *f, datum_flushes++; - if ( entry_ptr->header.is_pinned ) { + if (entry_ptr->header.is_pinned) { datum_pinned_flushes++; - HDassert( entry_ptr->global_pinned || entry_ptr->local_pinned ); + HDassert(entry_ptr->global_pinned || entry_ptr->local_pinned); } - return(ret_value); + return (ret_value); } /* flush_datum() */ @@ -2569,28 +2364,25 @@ flush_datum(H5F_t *f, */ 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) +load_datum(H5F_t H5_ATTR_UNUSED *f, hid_t H5_ATTR_UNUSED dxpl_id, haddr_t addr, void H5_ATTR_UNUSED *udata) { - const char * fcn_name = "load_datum()"; - hbool_t success = TRUE; - int idx; - struct datum * entry_ptr = NULL; + const char * fcn_name = "load_datum()"; + hbool_t success = TRUE; + int idx; + struct datum *entry_ptr = NULL; struct mssg_t mssg; idx = addr_to_datum_index(addr); - HDassert( idx >= 0 ); - HDassert( idx < NUM_DATA_ENTRIES ); - HDassert( idx < virt_num_data_entries ); + 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(addr == entry_ptr->base_addr); + HDassert(!entry_ptr->global_pinned); + HDassert(!entry_ptr->local_pinned); /* compose the read message */ mssg.req = READ_REQ_CODE; @@ -2603,46 +2395,39 @@ load_datum(H5F_t H5_ATTR_UNUSED *f, mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, READ_REQ_REPLY_CODE) ) { + if (!recv_mssg(&mssg, READ_REQ_REPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - 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 ((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++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in read req reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in read req reply.\n", world_mpi_rank, fcn_name); } -#if 0 /* This has been useful debugging code -- keep it for now. */ +#if 0 /* This has been useful debugging code -- keep it for now. */ if ( mssg.req != READ_REQ_REPLY_CODE ) { HDfprintf(stdout, "%d:%s: mssg.req != READ_REQ_REPLY_CODE.\n", @@ -2694,23 +2479,23 @@ load_datum(H5F_t H5_ATTR_UNUSED *f, world_mpi_rank, fcn_name); } #endif /* JRM */ - } else { + } + else { - entry_ptr->ver = mssg.ver; + entry_ptr->ver = mssg.ver; entry_ptr->header.is_dirty = FALSE; - entry_ptr->dirty = FALSE; + entry_ptr->dirty = FALSE; } } - if ( ! success ) { + if (!success) { entry_ptr = NULL; - } datum_loads++; - return(entry_ptr); + return (entry_ptr); } /* load_datum() */ @@ -2739,36 +2524,33 @@ load_datum(H5F_t H5_ATTR_UNUSED *f, */ static herr_t -size_datum(H5F_t H5_ATTR_UNUSED * f, - void * thing, - size_t * size_ptr) +size_datum(H5F_t H5_ATTR_UNUSED *f, void *thing, size_t *size_ptr) { - int idx; - struct datum * entry_ptr; + int idx; + struct datum *entry_ptr; - HDassert( thing ); - HDassert( size_ptr ); + HDassert(thing); + HDassert(size_ptr); 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 ); - HDassert( entry_ptr->local_len > 0 ); - HDassert( entry_ptr->local_len <= entry_ptr->len ); + HDassert(idx >= 0); + 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.addr == entry_ptr->base_addr); *size_ptr = entry_ptr->local_len; - return(SUCCEED); + return (SUCCEED); } /* size_datum() */ - /*****************************************************************************/ /************************** test utility functions ***************************/ /*****************************************************************************/ @@ -2788,57 +2570,53 @@ size_datum(H5F_t H5_ATTR_UNUSED * f, * *****************************************************************************/ static void -expunge_entry(H5F_t * file_ptr, - int32_t idx) +expunge_entry(H5F_t *file_ptr, int32_t idx) { - const char * fcn_name = "expunge_entry()"; - hbool_t in_cache; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "expunge_entry()"; + hbool_t in_cache; + herr_t result; + struct datum *entry_ptr; - HDassert( file_ptr ); - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( !(entry_ptr->locked) ); - HDassert( !(entry_ptr->global_pinned) ); - HDassert( !(entry_ptr->local_pinned) ); + HDassert(!(entry_ptr->locked)); + HDassert(!(entry_ptr->global_pinned)); + HDassert(!(entry_ptr->local_pinned)); - if ( nerrors == 0 ) { + if (nerrors == 0) { - result = H5AC_expunge_entry(file_ptr, (hid_t)-1, &(types[0]), - entry_ptr->header.addr, H5AC__NO_FLAGS_SET); + result = + H5AC_expunge_entry(file_ptr, (hid_t)-1, &(types[0]), entry_ptr->header.addr, H5AC__NO_FLAGS_SET); - if ( result < 0 ) { + if (result < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Error in H5AC_expunge_entry().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Error in H5AC_expunge_entry().\n", world_mpi_rank, fcn_name); } } - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); - HDassert( ! ((entry_ptr->header).is_dirty) ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); + HDassert(!((entry_ptr->header).is_dirty)); - result = H5C_get_entry_status(file_ptr, entry_ptr->base_addr, - NULL, &in_cache, NULL, NULL, NULL); + result = H5C_get_entry_status(file_ptr, entry_ptr->base_addr, NULL, &in_cache, NULL, NULL, NULL); - if ( result < 0 ) { + if (result < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Error in H5C_get_entry_status().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Error in H5C_get_entry_status().\n", world_mpi_rank, fcn_name); } - } else if ( in_cache ) { + } + else if (in_cache) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Expunged entry still in cache?!?\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Expunged entry still in cache?!?\n", world_mpi_rank, fcn_name); } } } @@ -2847,7 +2625,6 @@ expunge_entry(H5F_t * file_ptr, } /* expunge_entry() */ - /***************************************************************************** * Function: insert_entry() * @@ -2870,94 +2647,84 @@ expunge_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -insert_entry(H5C_t * cache_ptr, - H5F_t * file_ptr, - int32_t idx, - unsigned int flags) +insert_entry(H5C_t *cache_ptr, H5F_t *file_ptr, int32_t idx, unsigned int flags) { - const char * fcn_name = "insert_entry()"; - hbool_t insert_pinned; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "insert_entry()"; + hbool_t insert_pinned; + herr_t result; + struct datum *entry_ptr; - HDassert( cache_ptr ); - HDassert( file_ptr ); - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert(cache_ptr); + HDassert(file_ptr); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( !(entry_ptr->locked) ); + HDassert(!(entry_ptr->locked)); - insert_pinned = ((flags & H5C__PIN_ENTRY_FLAG) != 0 ); + insert_pinned = ((flags & H5C__PIN_ENTRY_FLAG) != 0); - if ( nerrors == 0 ) { + if (nerrors == 0) { (entry_ptr->ver)++; entry_ptr->dirty = TRUE; - result = H5AC_insert_entry(file_ptr, H5P_DATASET_XFER_DEFAULT, &(types[0]), - entry_ptr->base_addr, (void *)(&(entry_ptr->header)), flags); + result = H5AC_insert_entry(file_ptr, H5P_DATASET_XFER_DEFAULT, &(types[0]), entry_ptr->base_addr, + (void *)(&(entry_ptr->header)), flags); - if ( ( result < 0 ) || - ( entry_ptr->header.type != &(types[0]) ) || - ( entry_ptr->len != entry_ptr->header.size ) || - ( entry_ptr->base_addr != entry_ptr->header.addr ) ) { + if ((result < 0) || (entry_ptr->header.type != &(types[0])) || + (entry_ptr->len != entry_ptr->header.size) || (entry_ptr->base_addr != entry_ptr->header.addr)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Error in H5AC_insert_entry().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Error in H5AC_insert_entry().\n", world_mpi_rank, fcn_name); } } - if ( ! (entry_ptr->header.is_dirty) ) { + if (!(entry_ptr->header.is_dirty)) { - /* it is possible that we just exceeded the dirty bytes - * threshold, triggering a write of the newly inserted - * entry. Test for this, and only flag an error if this - * is not the case. - */ + /* it is possible that we just exceeded the dirty bytes + * threshold, triggering a write of the newly inserted + * entry. Test for this, and only flag an error if this + * is not the case. + */ - struct H5AC_aux_t * aux_ptr; + struct H5AC_aux_t *aux_ptr; - aux_ptr = ((H5AC_aux_t *)(cache_ptr->aux_ptr)); + aux_ptr = ((H5AC_aux_t *)(cache_ptr->aux_ptr)); - if ( ! ( ( aux_ptr != NULL ) && - ( aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC ) && - ( aux_ptr->dirty_bytes == 0 ) ) ) { + if (!((aux_ptr != NULL) && (aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC) && + (aux_ptr->dirty_bytes == 0))) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: data[%d].header.is_dirty = %d.\n", - world_mpi_rank, fcn_name, idx, - (int)(data[idx].header.is_dirty)); - } + if (verbose) { + HDfprintf(stdout, "%d:%s: data[%d].header.is_dirty = %d.\n", world_mpi_rank, fcn_name, + idx, (int)(data[idx].header.is_dirty)); + } } } - if ( insert_pinned ) { + if (insert_pinned) { - HDassert( entry_ptr->header.is_pinned ); + HDassert(entry_ptr->header.is_pinned); entry_ptr->global_pinned = TRUE; - global_pins++; - - } else { + global_pins++; + } + else { - HDassert( ! ( entry_ptr->header.is_pinned ) ); + HDassert(!(entry_ptr->header.is_pinned)); entry_ptr->global_pinned = FALSE; - } /* HDassert( entry_ptr->header.is_dirty ); */ - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); } return; } /* insert_entry() */ - /***************************************************************************** * Function: local_pin_and_unpin_random_entries() * @@ -2973,60 +2740,53 @@ insert_entry(H5C_t * cache_ptr, * *****************************************************************************/ static void -local_pin_and_unpin_random_entries(H5F_t * file_ptr, - int min_idx, - int max_idx, - int min_count, - int max_count) +local_pin_and_unpin_random_entries(H5F_t *file_ptr, int min_idx, int max_idx, int min_count, int max_count) { /* const char * fcn_name = "local_pin_and_unpin_random_entries()"; */ - if ( nerrors == 0 ) { + if (nerrors == 0) { hbool_t via_unprotect; - int count; - int i; - int idx; - - HDassert( file_ptr ); - HDassert( 0 <= min_idx ); - HDassert( min_idx < max_idx ); - HDassert( max_idx < NUM_DATA_ENTRIES ); - HDassert( max_idx < virt_num_data_entries ); - HDassert( 0 <= min_count ); - HDassert( min_count < max_count ); + int count; + int i; + int idx; + + HDassert(file_ptr); + HDassert(0 <= min_idx); + HDassert(min_idx < max_idx); + HDassert(max_idx < NUM_DATA_ENTRIES); + HDassert(max_idx < virt_num_data_entries); + HDassert(0 <= min_count); + HDassert(min_count < max_count); - count = (HDrand() % (max_count - min_count)) + min_count; + count = (HDrand() % (max_count - min_count)) + min_count; - HDassert( min_count <= count ); - HDassert( count <= max_count ); + HDassert(min_count <= count); + HDassert(count <= max_count); - for ( i = 0; i < count; i++ ) - { + for (i = 0; i < count; i++) { local_pin_random_entry(file_ptr, min_idx, max_idx); - } + } - count = (HDrand() % (max_count - min_count)) + min_count; + count = (HDrand() % (max_count - min_count)) + min_count; - HDassert( min_count <= count ); - HDassert( count <= max_count ); + HDassert(min_count <= count); + HDassert(count <= max_count); - i = 0; - idx = 0; + i = 0; + idx = 0; - while ( ( i < count ) && ( idx >= 0 ) ) - { - via_unprotect = ( (((unsigned)i) & 0x0001) == 0 ); - idx = local_unpin_next_pinned_entry(file_ptr, idx, via_unprotect); - i++; - } + while ((i < count) && (idx >= 0)) { + via_unprotect = ((((unsigned)i) & 0x0001) == 0); + idx = local_unpin_next_pinned_entry(file_ptr, idx, via_unprotect); + i++; + } } return; } /* local_pin_and_unpin_random_entries() */ - /***************************************************************************** * Function: local_pin_random_entry() * @@ -3044,28 +2804,24 @@ local_pin_and_unpin_random_entries(H5F_t * file_ptr, * *****************************************************************************/ static void -local_pin_random_entry(H5F_t * file_ptr, - int min_idx, - int max_idx) +local_pin_random_entry(H5F_t *file_ptr, int min_idx, int max_idx) { /* const char * fcn_name = "local_pin_random_entry()"; */ int idx; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( 0 <= min_idx ); - HDassert( min_idx < max_idx ); - HDassert( max_idx < NUM_DATA_ENTRIES ); - HDassert( max_idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert(0 <= min_idx); + HDassert(min_idx < max_idx); + HDassert(max_idx < NUM_DATA_ENTRIES); + HDassert(max_idx < virt_num_data_entries); - do - { + do { idx = (HDrand() % (max_idx - min_idx)) + min_idx; - HDassert( min_idx <= idx ); - HDassert( idx <= max_idx ); - } - while ( data[idx].global_pinned || data[idx].local_pinned ); + HDassert(min_idx <= idx); + HDassert(idx <= max_idx); + } while (data[idx].global_pinned || data[idx].local_pinned); pin_entry(file_ptr, idx, FALSE, FALSE); } @@ -3074,7 +2830,6 @@ local_pin_random_entry(H5F_t * file_ptr, } /* local_pin_random_entry() */ - /***************************************************************************** * Function: local_unpin_all_entries() * @@ -3089,31 +2844,27 @@ local_pin_random_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -local_unpin_all_entries(H5F_t * file_ptr, - hbool_t via_unprotect) +local_unpin_all_entries(H5F_t *file_ptr, hbool_t via_unprotect) { /* const char * fcn_name = "local_unpin_all_entries()"; */ - if ( nerrors == 0 ) { + if (nerrors == 0) { int idx; - HDassert( file_ptr ); + HDassert(file_ptr); - idx = 0; + idx = 0; - while ( idx >= 0 ) - { - idx = local_unpin_next_pinned_entry(file_ptr, - idx, via_unprotect); - } + while (idx >= 0) { + idx = local_unpin_next_pinned_entry(file_ptr, idx, via_unprotect); + } } return; } /* local_unpin_all_entries() */ - /***************************************************************************** * Function: local_unpin_next_pinned_entry() * @@ -3131,48 +2882,43 @@ local_unpin_all_entries(H5F_t * file_ptr, * *****************************************************************************/ static int -local_unpin_next_pinned_entry(H5F_t * file_ptr, - int start_idx, - hbool_t via_unprotect) +local_unpin_next_pinned_entry(H5F_t *file_ptr, int start_idx, hbool_t via_unprotect) { /* const char * fcn_name = "local_unpin_next_pinned_entry()"; */ - int i = 0; + int i = 0; int idx = -1; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( 0 <= start_idx ); - HDassert( start_idx < NUM_DATA_ENTRIES ); - HDassert( start_idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert(0 <= start_idx); + HDassert(start_idx < NUM_DATA_ENTRIES); + HDassert(start_idx < virt_num_data_entries); - idx = start_idx; + idx = start_idx; - while ( ( i < virt_num_data_entries ) && - ( ! ( data[idx].local_pinned ) ) ) - { - i++; - idx++; - if ( idx >= virt_num_data_entries ) { - idx = 0; + while ((i < virt_num_data_entries) && (!(data[idx].local_pinned))) { + i++; + idx++; + if (idx >= virt_num_data_entries) { + idx = 0; + } } - } - - if ( data[idx].local_pinned ) { - unpin_entry(file_ptr, idx, FALSE, FALSE, via_unprotect); + if (data[idx].local_pinned) { - } else { + unpin_entry(file_ptr, idx, FALSE, FALSE, via_unprotect); + } + else { - idx = -1; - } + idx = -1; + } } - return(idx); + return (idx); } /* local_unpin_next_pinned_entry() */ - /***************************************************************************** * Function: lock_and_unlock_random_entries() * @@ -3189,29 +2935,24 @@ local_unpin_next_pinned_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -lock_and_unlock_random_entries(H5F_t * file_ptr, - int min_idx, - int max_idx, - int min_count, - int max_count) +lock_and_unlock_random_entries(H5F_t *file_ptr, int min_idx, int max_idx, int min_count, int max_count) { /* const char * fcn_name = "lock_and_unlock_random_entries()"; */ int count; int i; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( 0 <= min_count ); - HDassert( min_count < max_count ); + HDassert(file_ptr); + HDassert(0 <= min_count); + HDassert(min_count < max_count); count = (HDrand() % (max_count - min_count)) + min_count; - HDassert( min_count <= count ); - HDassert( count <= max_count ); + HDassert(min_count <= count); + HDassert(count <= max_count); - for ( i = 0; i < count; i++ ) - { + for (i = 0; i < count; i++) { lock_and_unlock_random_entry(file_ptr, min_idx, max_idx); } } @@ -3220,7 +2961,6 @@ lock_and_unlock_random_entries(H5F_t * file_ptr, } /* lock_and_unlock_random_entries() */ - /***************************************************************************** * Function: lock_and_unlock_random_entry() * @@ -3236,35 +2976,32 @@ lock_and_unlock_random_entries(H5F_t * file_ptr, * *****************************************************************************/ static void -lock_and_unlock_random_entry(H5F_t * file_ptr, - int min_idx, - int max_idx) +lock_and_unlock_random_entry(H5F_t *file_ptr, int min_idx, int max_idx) { /* const char * fcn_name = "lock_and_unlock_random_entry()"; */ int idx; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( 0 <= min_idx ); - HDassert( min_idx < max_idx ); - HDassert( max_idx < NUM_DATA_ENTRIES ); - HDassert( max_idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert(0 <= min_idx); + HDassert(min_idx < max_idx); + HDassert(max_idx < NUM_DATA_ENTRIES); + HDassert(max_idx < virt_num_data_entries); idx = (HDrand() % (max_idx - min_idx)) + min_idx; - HDassert( min_idx <= idx ); - HDassert( idx <= max_idx ); + HDassert(min_idx <= idx); + HDassert(idx <= max_idx); - lock_entry(file_ptr, idx); - unlock_entry(file_ptr, idx, H5AC__NO_FLAGS_SET); + lock_entry(file_ptr, idx); + unlock_entry(file_ptr, idx, H5AC__NO_FLAGS_SET); } return; } /* lock_and_unlock_random_entry() */ - /***************************************************************************** * Function: lock_entry() * @@ -3285,50 +3022,46 @@ lock_and_unlock_random_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -lock_entry(H5F_t * file_ptr, - int32_t idx) +lock_entry(H5F_t *file_ptr, int32_t idx) { - const char * fcn_name = "lock_entry()"; - struct datum * entry_ptr; - H5C_cache_entry_t * cache_entry_ptr; + const char * fcn_name = "lock_entry()"; + struct datum * entry_ptr; + H5C_cache_entry_t *cache_entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( ! (entry_ptr->locked) ); + HDassert(!(entry_ptr->locked)); - cache_entry_ptr = (H5C_cache_entry_t *)H5AC_protect(file_ptr, -1, &(types[0]), - entry_ptr->base_addr, NULL, H5AC_WRITE); + cache_entry_ptr = (H5C_cache_entry_t *)H5AC_protect(file_ptr, -1, &(types[0]), entry_ptr->base_addr, + NULL, H5AC_WRITE); - if ( ( cache_entry_ptr != (void *)(&(entry_ptr->header)) ) || - ( entry_ptr->header.type != &(types[0]) ) || - ( ( entry_ptr->len != entry_ptr->header.size ) && - ( entry_ptr->local_len != entry_ptr->header.size ) ) || - ( entry_ptr->base_addr != entry_ptr->header.addr ) ) { + if ((cache_entry_ptr != (void *)(&(entry_ptr->header))) || (entry_ptr->header.type != &(types[0])) || + ((entry_ptr->len != entry_ptr->header.size) && + (entry_ptr->local_len != entry_ptr->header.size)) || + (entry_ptr->base_addr != entry_ptr->header.addr)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: error in H5AC_protect().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: error in H5AC_protect().\n", world_mpi_rank, fcn_name); } - } else { - - entry_ptr->locked = TRUE; + } + else { - } + entry_ptr->locked = TRUE; + } - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); } return; } /* lock_entry() */ - /***************************************************************************** * Function: mark_entry_dirty() * @@ -3345,45 +3078,41 @@ lock_entry(H5F_t * file_ptr, static void mark_entry_dirty(int32_t idx) { - const char * fcn_name = "mark_entry_dirty()"; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "mark_entry_dirty()"; + herr_t result; + struct datum *entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert ( entry_ptr->locked || entry_ptr->global_pinned ); - HDassert ( ! (entry_ptr->local_pinned) ); + HDassert(entry_ptr->locked || entry_ptr->global_pinned); + HDassert(!(entry_ptr->local_pinned)); (entry_ptr->ver)++; entry_ptr->dirty = TRUE; - result = H5AC_mark_entry_dirty( (void *)entry_ptr); + result = H5AC_mark_entry_dirty((void *)entry_ptr); - if ( result < 0 ) { + if (result < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: error in H5AC_mark_entry_dirty().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: error in H5AC_mark_entry_dirty().\n", world_mpi_rank, fcn_name); } } - else if ( ! ( entry_ptr->locked ) ) - { - global_dirty_pins++; - } + else if (!(entry_ptr->locked)) { + global_dirty_pins++; + } } return; } /* mark_entry_dirty() */ - /***************************************************************************** * Function: pin_entry() * @@ -3398,59 +3127,54 @@ mark_entry_dirty(int32_t idx) * *****************************************************************************/ static void -pin_entry(H5F_t * file_ptr, - int32_t idx, - hbool_t global, - hbool_t dirty) +pin_entry(H5F_t *file_ptr, int32_t idx, hbool_t global, hbool_t dirty) { /* const char * fcn_name = "pin_entry()"; */ - unsigned int flags = H5AC__PIN_ENTRY_FLAG; - struct datum * entry_ptr; + unsigned int flags = H5AC__PIN_ENTRY_FLAG; + struct datum *entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert ( ! (entry_ptr->global_pinned) ); - HDassert ( ! (entry_ptr->local_pinned) ); - HDassert ( ! ( dirty && ( ! global ) ) ); + HDassert(!(entry_ptr->global_pinned)); + HDassert(!(entry_ptr->local_pinned)); + HDassert(!(dirty && (!global))); - lock_entry(file_ptr, idx); - - if ( dirty ) { - - flags |= H5AC__DIRTIED_FLAG; - } + lock_entry(file_ptr, idx); - unlock_entry(file_ptr, idx, flags); + if (dirty) { - HDassert( (entry_ptr->header).is_pinned ); - HDassert( ( ! dirty ) || ( (entry_ptr->header).is_dirty ) ); + flags |= H5AC__DIRTIED_FLAG; + } - if ( global ) { + unlock_entry(file_ptr, idx, flags); - entry_ptr->global_pinned = TRUE; + HDassert((entry_ptr->header).is_pinned); + HDassert((!dirty) || ((entry_ptr->header).is_dirty)); - global_pins++; + if (global) { - } else { + entry_ptr->global_pinned = TRUE; - entry_ptr->local_pinned = TRUE; + global_pins++; + } + else { - local_pins++; + entry_ptr->local_pinned = TRUE; - } + local_pins++; + } } return; } /* pin_entry() */ - #ifdef H5_METADATA_TRACE_FILE /***************************************************************************** * Function: pin_protected_entry() @@ -3467,54 +3191,48 @@ pin_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -pin_protected_entry(int32_t idx, - hbool_t global) +pin_protected_entry(int32_t idx, hbool_t global) { - const char * fcn_name = "pin_protected_entry()"; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "pin_protected_entry()"; + herr_t result; + struct datum *entry_ptr; - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( entry_ptr->locked ); + HDassert(entry_ptr->locked); - if ( nerrors == 0 ) { + if (nerrors == 0) { - result = H5AC_pin_protected_entry((void *)entry_ptr); + result = H5AC_pin_protected_entry((void *)entry_ptr); - if ( ( result < 0 ) || - ( entry_ptr->header.type != &(types[0]) ) || - ( ( entry_ptr->len != entry_ptr->header.size ) && - ( entry_ptr->local_len != entry_ptr->header.size ) )|| - ( entry_ptr->base_addr != entry_ptr->header.addr ) || - ( ! ( (entry_ptr->header).is_pinned ) ) ) { + if ((result < 0) || (entry_ptr->header.type != &(types[0])) || + ((entry_ptr->len != entry_ptr->header.size) && + (entry_ptr->local_len != entry_ptr->header.size)) || + (entry_ptr->base_addr != entry_ptr->header.addr) || (!((entry_ptr->header).is_pinned))) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: Error in H5AC_pin_protected entry().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Error in H5AC_pin_protected entry().\n", world_mpi_rank, fcn_name); } } - if ( global ) { - - entry_ptr->global_pinned = TRUE; + if (global) { - global_pins++; - - } else { + entry_ptr->global_pinned = TRUE; - entry_ptr->local_pinned = TRUE; + global_pins++; + } + else { - local_pins++; + entry_ptr->local_pinned = TRUE; - } + local_pins++; + } - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); } return; @@ -3522,7 +3240,6 @@ pin_protected_entry(int32_t idx, } /* pin_protected_entry() */ #endif /* H5_METADATA_TRACE_FILE */ - /***************************************************************************** * Function: move_entry() * @@ -3540,34 +3257,32 @@ pin_protected_entry(int32_t idx, * *****************************************************************************/ static void -move_entry(H5F_t * file_ptr, - int32_t old_idx, - int32_t new_idx) +move_entry(H5F_t *file_ptr, int32_t old_idx, int32_t new_idx) { - const char * fcn_name = "move_entry()"; - herr_t result; + const char * fcn_name = "move_entry()"; + herr_t result; int tmp; - size_t tmp_len; - haddr_t old_addr = HADDR_UNDEF; - haddr_t new_addr = HADDR_UNDEF; - struct datum * old_entry_ptr; - struct datum * new_entry_ptr; + size_t tmp_len; + haddr_t old_addr = HADDR_UNDEF; + haddr_t new_addr = HADDR_UNDEF; + struct datum *old_entry_ptr; + struct datum *new_entry_ptr; - if ( ( nerrors == 0 ) && ( old_idx != new_idx ) ) { + if ((nerrors == 0) && (old_idx != new_idx)) { - HDassert( file_ptr ); - HDassert( ( 0 <= old_idx ) && ( old_idx < NUM_DATA_ENTRIES ) ); - HDassert( old_idx < virt_num_data_entries ); - HDassert( ( 0 <= new_idx ) && ( new_idx < NUM_DATA_ENTRIES ) ); - HDassert( new_idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert((0 <= old_idx) && (old_idx < NUM_DATA_ENTRIES)); + HDassert(old_idx < virt_num_data_entries); + HDassert((0 <= new_idx) && (new_idx < NUM_DATA_ENTRIES)); + HDassert(new_idx < virt_num_data_entries); old_entry_ptr = &(data[old_idx]); new_entry_ptr = &(data[new_idx]); - HDassert( ((old_entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); - HDassert( !(old_entry_ptr->header.is_protected) ); - HDassert( !(old_entry_ptr->locked) ); - HDassert( old_entry_ptr->len == new_entry_ptr->len ); + HDassert(((old_entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); + HDassert(!(old_entry_ptr->header.is_protected)); + HDassert(!(old_entry_ptr->locked)); + HDassert(old_entry_ptr->len == new_entry_ptr->len); old_addr = old_entry_ptr->base_addr; new_addr = new_entry_ptr->base_addr; @@ -3579,8 +3294,8 @@ move_entry(H5F_t * file_ptr, * now as it is possible that the rename will trigger a * sync point. */ - if(old_entry_ptr->ver < new_entry_ptr->ver) - old_entry_ptr->ver = new_entry_ptr->ver; + if (old_entry_ptr->ver < new_entry_ptr->ver) + old_entry_ptr->ver = new_entry_ptr->ver; else (old_entry_ptr->ver)++; @@ -3594,60 +3309,56 @@ move_entry(H5F_t * file_ptr, old_entry_ptr->index = new_entry_ptr->index; new_entry_ptr->index = tmp; - if(old_entry_ptr->local_len != new_entry_ptr->local_len) { - tmp_len = old_entry_ptr->local_len; - old_entry_ptr->local_len = new_entry_ptr->local_len; - new_entry_ptr->local_len = tmp_len; - } /* end if */ + if (old_entry_ptr->local_len != new_entry_ptr->local_len) { + tmp_len = old_entry_ptr->local_len; + old_entry_ptr->local_len = new_entry_ptr->local_len; + new_entry_ptr->local_len = tmp_len; + } /* end if */ result = H5AC_move_entry(file_ptr, &(types[0]), old_addr, new_addr); - if ( ( result < 0 ) || ( old_entry_ptr->header.addr != new_addr ) ) { + if ((result < 0) || (old_entry_ptr->header.addr != new_addr)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5AC_move_entry() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5AC_move_entry() failed.\n", world_mpi_rank, fcn_name); } + } + else { - } else { + HDassert(((old_entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); - HDassert( ((old_entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); + if (!(old_entry_ptr->header.is_dirty)) { - if ( ! (old_entry_ptr->header.is_dirty) ) { + /* it is possible that we just exceeded the dirty bytes + * threshold, triggering a write of the newly inserted + * entry. Test for this, and only flag an error if this + * is not the case. + */ - /* it is possible that we just exceeded the dirty bytes - * threshold, triggering a write of the newly inserted - * entry. Test for this, and only flag an error if this - * is not the case. - */ + struct H5AC_aux_t *aux_ptr; - struct H5AC_aux_t * aux_ptr; + aux_ptr = ((H5AC_aux_t *)(file_ptr->shared->cache->aux_ptr)); - aux_ptr = ((H5AC_aux_t *)(file_ptr->shared->cache->aux_ptr)); - - if ( ! ( ( aux_ptr != NULL ) && - ( aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC ) && - ( aux_ptr->dirty_bytes == 0 ) ) ) { + if (!((aux_ptr != NULL) && (aux_ptr->magic == H5AC__H5AC_AUX_T_MAGIC) && + (aux_ptr->dirty_bytes == 0))) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: data[%d].header.is_dirty = %d.\n", - world_mpi_rank, fcn_name, new_idx, - (int)(data[new_idx].header.is_dirty)); - } + if (verbose) { + HDfprintf(stdout, "%d:%s: data[%d].header.is_dirty = %d.\n", world_mpi_rank, fcn_name, + new_idx, (int)(data[new_idx].header.is_dirty)); + } } - } else { + } + else { - HDassert( old_entry_ptr->header.is_dirty ); + HDassert(old_entry_ptr->header.is_dirty); } } } } /* move_entry() */ - /***************************************************************************** * * Function: reset_server_counts() @@ -3665,11 +3376,11 @@ move_entry(H5F_t * file_ptr, static hbool_t reset_server_counts(void) { - const char * fcn_name = "reset_server_counts()"; - hbool_t success = TRUE; /* will set to FALSE if appropriate. */ + const char * fcn_name = "reset_server_counts()"; + hbool_t success = TRUE; /* will set to FALSE if appropriate. */ struct mssg_t mssg; - if ( success ) { + if (success) { /* compose the message */ mssg.req = REQ_RW_COUNT_RESET_CODE; @@ -3682,51 +3393,43 @@ reset_server_counts(void) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, REQ_RW_COUNT_RESET_RPLY_CODE) ) { + if (!recv_mssg(&mssg, REQ_RW_COUNT_RESET_RPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } - } else if ( ( mssg.req != REQ_RW_COUNT_RESET_RPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != 0 ) || - ( mssg.len != 0 ) || - ( mssg.ver != 0 ) || - ( mssg.count != 0 ) || - ( mssg.magic != MSSG_MAGIC ) ) { + } + else if ((mssg.req != REQ_RW_COUNT_RESET_RPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != 0) || (mssg.len != 0) || + (mssg.ver != 0) || (mssg.count != 0) || (mssg.magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: Bad data in req r/w counter reset reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in req r/w counter reset reply.\n", world_mpi_rank, + fcn_name); } } } - return(success); + return (success); } /* reset_server_counts() */ - /***************************************************************************** * Function: resize_entry() * @@ -3743,47 +3446,44 @@ reset_server_counts(void) * *****************************************************************************/ static void -resize_entry(int32_t idx, - size_t new_size) +resize_entry(int32_t idx, size_t new_size) { - const char * fcn_name = "resize_entry()"; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "resize_entry()"; + herr_t result; + struct datum *entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); - HDassert( !(entry_ptr->locked) ); - HDassert( ( entry_ptr->global_pinned ) && - ( ! entry_ptr->local_pinned ) ); - HDassert( ( entry_ptr->header.size == entry_ptr->len ) || - ( entry_ptr->header.size == entry_ptr->local_len ) ); - HDassert( new_size > 0 ); - HDassert( new_size <= entry_ptr->len ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); + HDassert(!(entry_ptr->locked)); + HDassert((entry_ptr->global_pinned) && (!entry_ptr->local_pinned)); + HDassert((entry_ptr->header.size == entry_ptr->len) || + (entry_ptr->header.size == entry_ptr->local_len)); + HDassert(new_size > 0); + HDassert(new_size <= entry_ptr->len); - result = H5AC_resize_entry((void *)entry_ptr, new_size); + result = H5AC_resize_entry((void *)entry_ptr, new_size); - if ( result < 0 ) { + if (result < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5AC_resize_entry() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5AC_resize_entry() failed.\n", world_mpi_rank, fcn_name); } + } + else { - } else { - - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); - HDassert( entry_ptr->header.is_dirty ); - HDassert( entry_ptr->header.size == new_size ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); + HDassert(entry_ptr->header.is_dirty); + HDassert(entry_ptr->header.size == new_size); - entry_ptr->dirty = TRUE; - entry_ptr->local_len = new_size; + entry_ptr->dirty = TRUE; + entry_ptr->local_len = new_size; /* touch up version. */ @@ -3795,7 +3495,6 @@ resize_entry(int32_t idx, } /* resize_entry() */ - /***************************************************************************** * * Function: setup_cache_for_test() @@ -3816,99 +3515,91 @@ resize_entry(int32_t idx, * *****************************************************************************/ static hbool_t -setup_cache_for_test(hid_t * fid_ptr, - H5F_t ** file_ptr_ptr, - H5C_t ** cache_ptr_ptr, - int metadata_write_strategy) +setup_cache_for_test(hid_t *fid_ptr, H5F_t **file_ptr_ptr, H5C_t **cache_ptr_ptr, int metadata_write_strategy) { - const char * fcn_name = "setup_cache_for_test()"; - hbool_t success = FALSE; /* will set to TRUE if appropriate. */ - hbool_t enable_rpt_fcn = FALSE; - hid_t fid = -1; + const char * fcn_name = "setup_cache_for_test()"; + hbool_t success = FALSE; /* will set to TRUE if appropriate. */ + hbool_t enable_rpt_fcn = FALSE; + hid_t fid = -1; H5AC_cache_config_t config; H5AC_cache_config_t test_config; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; - HDassert ( fid_ptr != NULL ); - HDassert ( file_ptr_ptr != NULL ); - HDassert ( cache_ptr_ptr != NULL ); + HDassert(fid_ptr != NULL); + HDassert(file_ptr_ptr != NULL); + HDassert(cache_ptr_ptr != NULL); fid = H5Fcreate(filenames[0], H5F_ACC_TRUNC, H5P_DEFAULT, fapl); - if ( fid < 0 ) { + if (fid < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fcreate() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fcreate() failed.\n", world_mpi_rank, fcn_name); } - } else if ( H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0 ) { + } + else if (H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", world_mpi_rank, fcn_name); } - } else { + } + else { file_ptr = (H5F_t *)H5I_object_verify(fid, H5I_FILE); } - if ( file_ptr == NULL ) { + if (file_ptr == NULL) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Can't get file_ptr.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Can't get file_ptr.\n", world_mpi_rank, fcn_name); } - } else { + } + else { cache_ptr = file_ptr->shared->cache; } - if ( cache_ptr == NULL ) { + if (cache_ptr == NULL) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Can't get cache_ptr.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Can't get cache_ptr.\n", world_mpi_rank, fcn_name); } - } else if ( cache_ptr->magic != H5C__H5C_T_MAGIC ) { + } + else if (cache_ptr->magic != H5C__H5C_T_MAGIC) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad cache_ptr magic.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad cache_ptr magic.\n", world_mpi_rank, fcn_name); } - } else { - *fid_ptr = fid; - *file_ptr_ptr = file_ptr; + } + else { + *fid_ptr = fid; + *file_ptr_ptr = file_ptr; *cache_ptr_ptr = cache_ptr; H5C_stats__reset(cache_ptr); success = TRUE; } - if ( success ) { + if (success) { config.version = H5AC__CURR_CACHE_CONFIG_VERSION; - if ( H5AC_get_cache_auto_resize_config(cache_ptr, &config) - != SUCCEED ) { - - HDfprintf(stdout, - "%d:%s: H5AC_get_cache_auto_resize_config(1) failed.\n", - world_mpi_rank, fcn_name); + if (H5AC_get_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { - } else { + HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config(1) failed.\n", world_mpi_rank, + fcn_name); + } + else { config.rpt_fcn_enabled = enable_rpt_fcn; config.metadata_write_strategy = metadata_write_strategy; - if ( H5AC_set_cache_auto_resize_config(cache_ptr, &config) - != SUCCEED ) { + if (H5AC_set_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { - HDfprintf(stdout, - "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", - world_mpi_rank, fcn_name); - - } else if ( enable_rpt_fcn ) { + HDfprintf(stdout, "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", world_mpi_rank, + fcn_name); + } + else if (enable_rpt_fcn) { - HDfprintf(stdout, "%d:%s: rpt_fcn enabled.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: rpt_fcn enabled.\n", world_mpi_rank, fcn_name); } } } @@ -3918,32 +3609,29 @@ setup_cache_for_test(hid_t * fid_ptr, * we can't do our usual checks in the serial case. */ - if ( success ) /* verify that the metadata write strategy is as expected */ + if (success) /* verify that the metadata write strategy is as expected */ { - if ( cache_ptr->aux_ptr == NULL ) { + if (cache_ptr->aux_ptr == NULL) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: cache_ptr->aux_ptr == NULL.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: cache_ptr->aux_ptr == NULL.\n", world_mpi_rank, fcn_name); } - } else if ( ((H5AC_aux_t *)(cache_ptr->aux_ptr))->magic != - H5AC__H5AC_AUX_T_MAGIC ) { + } + else if (((H5AC_aux_t *)(cache_ptr->aux_ptr))->magic != H5AC__H5AC_AUX_T_MAGIC) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: cache_ptr->aux_ptr->magic != H5AC__H5AC_AUX_T_MAGIC.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: cache_ptr->aux_ptr->magic != H5AC__H5AC_AUX_T_MAGIC.\n", + world_mpi_rank, fcn_name); } - } else if( ((H5AC_aux_t *)(cache_ptr->aux_ptr))->metadata_write_strategy - != metadata_write_strategy ) { + } + else if (((H5AC_aux_t *)(cache_ptr->aux_ptr))->metadata_write_strategy != metadata_write_strategy) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: bad cache_ptr->aux_ptr->metadata_write_strategy\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: bad cache_ptr->aux_ptr->metadata_write_strategy\n", world_mpi_rank, + fcn_name); } } } @@ -3952,68 +3640,57 @@ setup_cache_for_test(hid_t * fid_ptr, * when we get the current configuration. */ - if ( success ) { + if (success) { test_config.version = H5AC__CURR_CACHE_CONFIG_VERSION; - if ( H5AC_get_cache_auto_resize_config(cache_ptr, &test_config) - != SUCCEED ) { - - HDfprintf(stdout, - "%d:%s: H5AC_get_cache_auto_resize_config(2) failed.\n", - world_mpi_rank, fcn_name); + if (H5AC_get_cache_auto_resize_config(cache_ptr, &test_config) != SUCCEED) { - } else if ( test_config.metadata_write_strategy != - metadata_write_strategy ) { + HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config(2) failed.\n", world_mpi_rank, + fcn_name); + } + else if (test_config.metadata_write_strategy != metadata_write_strategy) { nerrors++; - if ( verbose ) { + if (verbose) { - HDfprintf(stdout, - "%d:%s: unexpected metadata_write_strategy.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: unexpected metadata_write_strategy.\n", world_mpi_rank, fcn_name); } } } - #if DO_SYNC_AFTER_WRITE - if ( success ) { + if (success) { - if ( H5AC_set_write_done_callback(cache_ptr, do_sync) != SUCCEED ) { + if (H5AC_set_write_done_callback(cache_ptr, do_sync) != SUCCEED) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: H5C_set_write_done_callback failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5C_set_write_done_callback failed.\n", world_mpi_rank, fcn_name); } - } + } } #endif /* DO_SYNC_AFTER_WRITE */ - if ( success ) { + if (success) { - if ( H5AC_set_sync_point_done_callback(cache_ptr, verify_writes) != - SUCCEED ) { + if (H5AC_set_sync_point_done_callback(cache_ptr, verify_writes) != SUCCEED) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: H5AC_set_sync_point_done_callback failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5AC_set_sync_point_done_callback failed.\n", world_mpi_rank, + fcn_name); } - } + } } - return(success); + return (success); } /* setup_cache_for_test() */ - /***************************************************************************** * * Function: verify_writes() @@ -4042,40 +3719,36 @@ setup_cache_for_test(hid_t * fid_ptr, * *****************************************************************************/ static void -verify_writes(int num_writes, - haddr_t * written_entries_tbl) +verify_writes(int num_writes, haddr_t *written_entries_tbl) { - const char * fcn_name = "verify_writes()"; - const hbool_t report = FALSE; - hbool_t proceed = TRUE; - int i = 0; + const char * fcn_name = "verify_writes()"; + const hbool_t report = FALSE; + hbool_t proceed = TRUE; + int i = 0; - HDassert( world_mpi_rank != world_server_mpi_rank ); - HDassert( num_writes >= 0 ); - HDassert( ( num_writes == 0 ) || - ( written_entries_tbl != NULL ) ); + HDassert(world_mpi_rank != world_server_mpi_rank); + HDassert(num_writes >= 0); + HDassert((num_writes == 0) || (written_entries_tbl != NULL)); /* barrier to ensure that all other processes are ready to leave * the sync point as well. */ - if ( proceed ) { + if (proceed) { - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { proceed = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: barrier 1 failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: barrier 1 failed.\n", world_mpi_rank, fcn_name); } } } - if(proceed) + if (proceed) proceed = verify_total_writes(num_writes); - while ( ( proceed ) && ( i < num_writes ) ) - { + while ((proceed) && (i < num_writes)) { proceed = verify_entry_writes(written_entries_tbl[i], 1); i++; } @@ -4083,37 +3756,33 @@ verify_writes(int num_writes, /* barrier to ensure that all other processes have finished verifying * the number of writes before we reset the counters. */ - if ( proceed ) { + if (proceed) { - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { proceed = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: barrier 2 failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: barrier 2 failed.\n", world_mpi_rank, fcn_name); } } } - if ( proceed ) { + if (proceed) { proceed = reset_server_counts(); } /* if requested, display status of check to stdout */ - if ( ( report ) && ( file_mpi_rank == 0 ) ) { - - if ( proceed ) { - - HDfprintf(stdout, "%d:%s: verified %d writes.\n", - world_mpi_rank, fcn_name, num_writes); + if ((report) && (file_mpi_rank == 0)) { - } else { + if (proceed) { - HDfprintf(stdout, "%d:%s: FAILED to verify %d writes.\n", - world_mpi_rank, fcn_name, num_writes); + HDfprintf(stdout, "%d:%s: verified %d writes.\n", world_mpi_rank, fcn_name, num_writes); + } + else { + HDfprintf(stdout, "%d:%s: FAILED to verify %d writes.\n", world_mpi_rank, fcn_name, num_writes); } } @@ -4123,15 +3792,14 @@ verify_writes(int num_writes, * but I can think of at least one likely change to the metadata write * strategies that will require it -- hence its insertion now. */ - if ( proceed ) { + if (proceed) { - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { proceed = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: barrier 3 failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: barrier 3 failed.\n", world_mpi_rank, fcn_name); } } } @@ -4140,7 +3808,6 @@ verify_writes(int num_writes, } /* verify_writes() */ - /***************************************************************************** * * Function: setup_rand() @@ -4163,39 +3830,36 @@ verify_writes(int num_writes, static void setup_rand(void) { - const char * fcn_name = "setup_rand()"; - hbool_t use_predefined_seeds = FALSE; - int num_predefined_seeds = 3; - unsigned predefined_seeds[3] = {33402, 33505, 33422}; - unsigned seed; + const char * fcn_name = "setup_rand()"; + hbool_t use_predefined_seeds = FALSE; + int num_predefined_seeds = 3; + unsigned predefined_seeds[3] = {33402, 33505, 33422}; + unsigned seed; struct timeval tv; - if ( ( use_predefined_seeds ) && - ( world_mpi_size == num_predefined_seeds ) ) { + if ((use_predefined_seeds) && (world_mpi_size == num_predefined_seeds)) { - HDassert( world_mpi_rank >= 0 ); - HDassert( world_mpi_rank < world_mpi_size ); + HDassert(world_mpi_rank >= 0); + HDassert(world_mpi_rank < world_mpi_size); - seed = predefined_seeds[world_mpi_rank]; - HDfprintf(stdout, "%d:%s: predefined_seed = %d.\n", - world_mpi_rank, fcn_name, seed); + seed = predefined_seeds[world_mpi_rank]; + HDfprintf(stdout, "%d:%s: predefined_seed = %d.\n", world_mpi_rank, fcn_name, seed); fflush(stdout); - HDsrand(seed); - - } else { + HDsrand(seed); + } + else { - if ( HDgettimeofday(&tv, NULL) != 0 ) { + if (HDgettimeofday(&tv, NULL) != 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: gettimeofday() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: gettimeofday() failed.\n", world_mpi_rank, fcn_name); } - } else { + } + else { seed = (unsigned)tv.tv_usec; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: seed = %d.\n", - world_mpi_rank, fcn_name, seed); + if (verbose) { + HDfprintf(stdout, "%d:%s: seed = %d.\n", world_mpi_rank, fcn_name, seed); fflush(stdout); } HDsrand(seed); @@ -4206,7 +3870,6 @@ setup_rand(void) } /* setup_rand() */ - /***************************************************************************** * * Function: take_down_cache() @@ -4226,41 +3889,40 @@ setup_rand(void) static hbool_t take_down_cache(hid_t fid) { - const char * fcn_name = "take_down_cache()"; - hbool_t success = FALSE; /* will set to TRUE if appropriate. */ + const char *fcn_name = "take_down_cache()"; + hbool_t success = FALSE; /* will set to TRUE if appropriate. */ /* close the file and delete it */ - if ( H5Fclose(fid) < 0 ) { + if (H5Fclose(fid) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fclose() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fclose() failed.\n", world_mpi_rank, fcn_name); } + } + else if (world_mpi_rank == world_server_mpi_rank) { - } else if ( world_mpi_rank == world_server_mpi_rank ) { - - if ( HDremove(filenames[0]) < 0 ) { + if (HDremove(filenames[0]) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: HDremove() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: HDremove() failed.\n", world_mpi_rank, fcn_name); } - } else { + } + else { - success = TRUE; + success = TRUE; } - } else { + } + else { success = TRUE; } - return(success); + return (success); } /* take_down_cache() */ - /***************************************************************************** * Function: verify_entry_reads * @@ -4282,15 +3944,14 @@ take_down_cache(hid_t fid) *------------------------------------------------------------------------- */ static hbool_t -verify_entry_reads(haddr_t addr, - int expected_entry_reads) +verify_entry_reads(haddr_t addr, int expected_entry_reads) { - const char * fcn_name = "verify_entry_reads()"; - hbool_t success = TRUE; - int reported_entry_reads; + const char * fcn_name = "verify_entry_reads()"; + hbool_t success = TRUE; + int reported_entry_reads; struct mssg_t mssg; - if ( success ) { + if (success) { /* compose the message */ mssg.req = REQ_ENTRY_READS_CODE; @@ -4303,72 +3964,63 @@ verify_entry_reads(haddr_t addr, mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, REQ_ENTRY_READS_RPLY_CODE) ) { + if (!recv_mssg(&mssg, REQ_ENTRY_READS_RPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ( mssg.req != REQ_ENTRY_READS_RPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != addr ) || - ( mssg.len != 0 ) || - ( mssg.ver != 0 ) || - ( mssg.magic != MSSG_MAGIC ) ) { + if ((mssg.req != REQ_ENTRY_READS_RPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != addr) || (mssg.len != 0) || (mssg.ver != 0) || + (mssg.magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in req entry reads reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in req entry reads reply.\n", world_mpi_rank, fcn_name); } - } else { + } + else { reported_entry_reads = mssg.count; } } - if ( ! success ) { + if (!success) { - if ( reported_entry_reads != expected_entry_reads ) { + if (reported_entry_reads != expected_entry_reads) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: rep/exp entry 0x%llx reads mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, (long long)addr, - reported_entry_reads, expected_entry_reads); + if (verbose) { + HDfprintf(stdout, "%d:%s: rep/exp entry 0x%llx reads mismatch (%ld/%ld).\n", world_mpi_rank, + fcn_name, (long long)addr, reported_entry_reads, expected_entry_reads); } } } - return(success); + return (success); } /* verify_entry_reads() */ - /***************************************************************************** * Function: verify_entry_writes * @@ -4390,15 +4042,14 @@ verify_entry_reads(haddr_t addr, *------------------------------------------------------------------------- */ static hbool_t -verify_entry_writes(haddr_t addr, - int expected_entry_writes) +verify_entry_writes(haddr_t addr, int expected_entry_writes) { - const char * fcn_name = "verify_entry_writes()"; - hbool_t success = TRUE; - int reported_entry_writes; + const char * fcn_name = "verify_entry_writes()"; + hbool_t success = TRUE; + int reported_entry_writes; struct mssg_t mssg; - if ( success ) { + if (success) { /* compose the message */ mssg.req = REQ_ENTRY_WRITES_CODE; @@ -4411,72 +4062,63 @@ verify_entry_writes(haddr_t addr, mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, REQ_ENTRY_WRITES_RPLY_CODE) ) { + if (!recv_mssg(&mssg, REQ_ENTRY_WRITES_RPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ( mssg.req != REQ_ENTRY_WRITES_RPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != addr ) || - ( mssg.len != 0 ) || - ( mssg.ver != 0 ) || - ( mssg.magic != MSSG_MAGIC ) ) { + if ((mssg.req != REQ_ENTRY_WRITES_RPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != addr) || (mssg.len != 0) || (mssg.ver != 0) || + (mssg.magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in req entry writes reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in req entry writes reply.\n", world_mpi_rank, fcn_name); } - } else { + } + else { reported_entry_writes = mssg.count; } } - if ( ! success ) { + if (!success) { - if ( reported_entry_writes != expected_entry_writes ) { + if (reported_entry_writes != expected_entry_writes) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: rep/exp entry 0x%llx writes mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, (long long)addr, - reported_entry_writes, expected_entry_writes); + if (verbose) { + HDfprintf(stdout, "%d:%s: rep/exp entry 0x%llx writes mismatch (%ld/%ld).\n", world_mpi_rank, + fcn_name, (long long)addr, reported_entry_writes, expected_entry_writes); } } } - return(success); + return (success); } /* verify_entry_writes() */ - /***************************************************************************** * * Function: verify_total_reads() @@ -4499,12 +4141,12 @@ verify_entry_writes(haddr_t addr, static hbool_t verify_total_reads(int expected_total_reads) { - const char * fcn_name = "verify_total_reads()"; - hbool_t success = TRUE; /* will set to FALSE if appropriate. */ - long reported_total_reads; + const char * fcn_name = "verify_total_reads()"; + hbool_t success = TRUE; /* will set to FALSE if appropriate. */ + long reported_total_reads; struct mssg_t mssg; - if ( success ) { + if (success) { /* compose the message */ mssg.req = REQ_TTL_READS_CODE; @@ -4517,68 +4159,59 @@ verify_total_reads(int expected_total_reads) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, REQ_TTL_READS_RPLY_CODE) ) { + if (!recv_mssg(&mssg, REQ_TTL_READS_RPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } - } else if ( ( mssg.req != REQ_TTL_READS_RPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != 0 ) || - ( mssg.len != 0 ) || - ( mssg.ver != 0 ) || - ( mssg.magic != MSSG_MAGIC ) ) { + } + else if ((mssg.req != REQ_TTL_READS_RPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != 0) || (mssg.len != 0) || + (mssg.ver != 0) || (mssg.magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in req total reads reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in req total reads reply.\n", world_mpi_rank, fcn_name); } - } else { + } + else { reported_total_reads = mssg.count; } } - if ( success ) { + if (success) { - if ( reported_total_reads != expected_total_reads ) { + if (reported_total_reads != expected_total_reads) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: reported/expected total reads mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, - reported_total_reads, expected_total_reads); - + if (verbose) { + HDfprintf(stdout, "%d:%s: reported/expected total reads mismatch (%ld/%ld).\n", + world_mpi_rank, fcn_name, reported_total_reads, expected_total_reads); } } } - return(success); + return (success); } /* verify_total_reads() */ - /***************************************************************************** * * Function: verify_total_writes() @@ -4601,12 +4234,12 @@ verify_total_reads(int expected_total_reads) static hbool_t verify_total_writes(int expected_total_writes) { - const char * fcn_name = "verify_total_writes()"; - hbool_t success = TRUE; /* will set to FALSE if appropriate. */ - long reported_total_writes; + const char * fcn_name = "verify_total_writes()"; + hbool_t success = TRUE; /* will set to FALSE if appropriate. */ + long reported_total_writes; struct mssg_t mssg; - if ( success ) { + if (success) { /* compose the message */ mssg.req = REQ_TTL_WRITES_CODE; @@ -4619,67 +4252,59 @@ verify_total_writes(int expected_total_writes) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! send_mssg(&mssg, FALSE) ) { + if (!send_mssg(&mssg, FALSE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed.\n", world_mpi_rank, fcn_name); } } } - if ( success ) { + if (success) { - if ( ! recv_mssg(&mssg, REQ_TTL_WRITES_RPLY_CODE) ) { + if (!recv_mssg(&mssg, REQ_TTL_WRITES_RPLY_CODE)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } - } else if ( ( mssg.req != REQ_TTL_WRITES_RPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != 0 ) || - ( mssg.len != 0 ) || - ( mssg.ver != 0 ) || - ( mssg.magic != MSSG_MAGIC ) ) { + } + else if ((mssg.req != REQ_TTL_WRITES_RPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != 0) || (mssg.len != 0) || + (mssg.ver != 0) || (mssg.magic != MSSG_MAGIC)) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in req total reads reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in req total reads reply.\n", world_mpi_rank, fcn_name); } - } else { + } + else { reported_total_writes = mssg.count; } } - if ( success ) { + if (success) { - if ( reported_total_writes != expected_total_writes ) { + if (reported_total_writes != expected_total_writes) { nerrors++; success = FALSE; - if ( verbose ) { - HDfprintf(stdout, - "%d:%s: reported/expected total writes mismatch (%ld/%ld).\n", - world_mpi_rank, fcn_name, - reported_total_writes, expected_total_writes); + if (verbose) { + HDfprintf(stdout, "%d:%s: reported/expected total writes mismatch (%ld/%ld).\n", + world_mpi_rank, fcn_name, reported_total_writes, expected_total_writes); } } } - return(success); + return (success); } /* verify_total_writes() */ - /***************************************************************************** * Function: unlock_entry() * @@ -4700,65 +4325,56 @@ verify_total_writes(int expected_total_writes) *****************************************************************************/ void -unlock_entry(H5F_t * file_ptr, - int32_t idx, - unsigned int flags) +unlock_entry(H5F_t *file_ptr, int32_t idx, unsigned int flags) { - const char * fcn_name = "unlock_entry()"; - herr_t dirtied; - herr_t result; - struct datum * entry_ptr; + const char * fcn_name = "unlock_entry()"; + herr_t dirtied; + herr_t result; + struct datum *entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( entry_ptr->locked ); + HDassert(entry_ptr->locked); - dirtied = ((flags & H5AC__DIRTIED_FLAG) == H5AC__DIRTIED_FLAG ); + dirtied = ((flags & H5AC__DIRTIED_FLAG) == H5AC__DIRTIED_FLAG); - if ( dirtied ) { + if (dirtied) { (entry_ptr->ver)++; entry_ptr->dirty = TRUE; } - result = H5AC_unprotect(file_ptr, H5P_DATASET_XFER_DEFAULT, &(types[0]), - entry_ptr->base_addr, (void *)(&(entry_ptr->header)), flags); + result = H5AC_unprotect(file_ptr, H5P_DATASET_XFER_DEFAULT, &(types[0]), entry_ptr->base_addr, + (void *)(&(entry_ptr->header)), flags); - if ( ( result < 0 ) || - ( entry_ptr->header.type != &(types[0]) ) || - ( ( entry_ptr->len != entry_ptr->header.size ) && - ( entry_ptr->local_len != entry_ptr->header.size ) ) || - ( entry_ptr->base_addr != entry_ptr->header.addr ) ) { + if ((result < 0) || (entry_ptr->header.type != &(types[0])) || + ((entry_ptr->len != entry_ptr->header.size) && + (entry_ptr->local_len != entry_ptr->header.size)) || + (entry_ptr->base_addr != entry_ptr->header.addr)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: error in H5C_unprotect().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: error in H5C_unprotect().\n", world_mpi_rank, fcn_name); } - } else { + } + else { entry_ptr->locked = FALSE; + } - } - - HDassert( ((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE ); + HDassert(((entry_ptr->header).type)->id == DATUM_ENTRY_TYPE); - if ( ( (flags & H5AC__DIRTIED_FLAG) != 0 ) && - ( (flags & H5C__DELETED_FLAG) == 0 ) && - ( ! ( ( ( world_mpi_rank == 0 ) && ( entry_ptr->flushed ) ) - || - ( ( world_mpi_rank != 0 ) && ( entry_ptr->cleared ) ) - ) - ) - ) { - HDassert( entry_ptr->header.is_dirty ); - HDassert( entry_ptr->dirty ); + if (((flags & H5AC__DIRTIED_FLAG) != 0) && ((flags & H5C__DELETED_FLAG) == 0) && + (!(((world_mpi_rank == 0) && (entry_ptr->flushed)) || + ((world_mpi_rank != 0) && (entry_ptr->cleared))))) { + HDassert(entry_ptr->header.is_dirty); + HDassert(entry_ptr->dirty); } } @@ -4766,7 +4382,6 @@ unlock_entry(H5F_t * file_ptr, } /* unlock_entry() */ - /***************************************************************************** * Function: unpin_entry() * @@ -4786,85 +4401,75 @@ unlock_entry(H5F_t * file_ptr, * *****************************************************************************/ static void -unpin_entry(H5F_t * file_ptr, - int32_t idx, - hbool_t global, - hbool_t dirty, - hbool_t via_unprotect) +unpin_entry(H5F_t *file_ptr, int32_t idx, hbool_t global, hbool_t dirty, hbool_t via_unprotect) { - const char * fcn_name = "unpin_entry()"; - herr_t result; - unsigned int flags = H5AC__UNPIN_ENTRY_FLAG; - struct datum * entry_ptr; + const char * fcn_name = "unpin_entry()"; + herr_t result; + unsigned int flags = H5AC__UNPIN_ENTRY_FLAG; + struct datum *entry_ptr; - if ( nerrors == 0 ) { + if (nerrors == 0) { - HDassert( file_ptr ); - HDassert( ( 0 <= idx ) && ( idx < NUM_DATA_ENTRIES ) ); - HDassert( idx < virt_num_data_entries ); + HDassert(file_ptr); + HDassert((0 <= idx) && (idx < NUM_DATA_ENTRIES)); + HDassert(idx < virt_num_data_entries); entry_ptr = &(data[idx]); - HDassert( (entry_ptr->header).is_pinned ); - HDassert ( ! ( entry_ptr->global_pinned && entry_ptr->local_pinned) ); - HDassert ( ( global && entry_ptr->global_pinned ) || - ( ! global && entry_ptr->local_pinned ) ); - HDassert ( ! ( dirty && ( ! global ) ) ); - - if ( via_unprotect ) { + HDassert((entry_ptr->header).is_pinned); + HDassert(!(entry_ptr->global_pinned && entry_ptr->local_pinned)); + HDassert((global && entry_ptr->global_pinned) || (!global && entry_ptr->local_pinned)); + HDassert(!(dirty && (!global))); - lock_entry(file_ptr, idx); + if (via_unprotect) { - if ( dirty ) { + lock_entry(file_ptr, idx); - flags |= H5AC__DIRTIED_FLAG; - } + if (dirty) { - unlock_entry(file_ptr, idx, flags); - - } else { + flags |= H5AC__DIRTIED_FLAG; + } - if ( dirty ) { + unlock_entry(file_ptr, idx, flags); + } + else { - mark_entry_dirty(idx); + if (dirty) { - } + mark_entry_dirty(idx); + } - result = H5AC_unpin_entry(entry_ptr); + result = H5AC_unpin_entry(entry_ptr); - if ( result < 0 ) { + if (result < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: error in H5AC_unpin_entry().\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: error in H5AC_unpin_entry().\n", world_mpi_rank, fcn_name); } + } } - } - - HDassert( ! ((entry_ptr->header).is_pinned) ); - - if ( global ) { - entry_ptr->global_pinned = FALSE; + HDassert(!((entry_ptr->header).is_pinned)); - } else { + if (global) { - entry_ptr->local_pinned = FALSE; + entry_ptr->global_pinned = FALSE; + } + else { - } + entry_ptr->local_pinned = FALSE; + } } return; } /* unpin_entry() */ - /*****************************************************************************/ /****************************** test functions *******************************/ /*****************************************************************************/ - /***************************************************************************** * * Function: server_smoke_check() @@ -4881,12 +4486,12 @@ unpin_entry(H5F_t * file_ptr, static hbool_t server_smoke_check(void) { - const char * fcn_name = "server_smoke_check()"; - hbool_t success = TRUE; - int max_nerrors; + const char * fcn_name = "server_smoke_check()"; + hbool_t success = TRUE; + int max_nerrors; struct mssg_t mssg; - if ( world_mpi_rank == 0 ) { + if (world_mpi_rank == 0) { TESTING("server smoke check"); } @@ -4895,15 +4500,14 @@ server_smoke_check(void) init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } } @@ -4920,97 +4524,89 @@ server_smoke_check(void) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( ! ( success = send_mssg(&mssg, FALSE) ) ) { + if (!(success = send_mssg(&mssg, FALSE))) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on write.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on write.\n", world_mpi_rank, fcn_name); } } #if DO_WRITE_REQ_ACK /* try to receive the write ack from the server */ - if ( success ) { + if (success) { success = recv_mssg(&mssg, WRITE_REQ_ACK_CODE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } } } /* verify that we received the expected ack message */ - if ( success ) { + if (success) { - if ( ( mssg.req != WRITE_REQ_ACK_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != data[world_mpi_rank].base_addr ) || - ( mssg.len != data[world_mpi_rank].len ) || - ( mssg.ver != data[world_mpi_rank].ver ) || - ( mssg.magic != MSSG_MAGIC ) ) { + if ((mssg.req != WRITE_REQ_ACK_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != data[world_mpi_rank].base_addr) || + (mssg.len != data[world_mpi_rank].len) || (mssg.ver != data[world_mpi_rank].ver) || + (mssg.magic != MSSG_MAGIC)) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in write req ack.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in write req ack.\n", world_mpi_rank, fcn_name); } } } #endif /* DO_WRITE_REQ_ACK */ - do_sync(); + do_sync(); - /* barrier to allow all writes to complete */ - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + /* barrier to allow all writes to complete */ + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: barrier 1 failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: barrier 1 failed.\n", world_mpi_rank, fcn_name); } } /* verify that the expected entries have been written, the total */ - if ( success ) { + if (success) { success = verify_entry_writes(data[world_mpi_rank].base_addr, 1); } - if ( success ) { + if (success) { success = verify_entry_reads(data[world_mpi_rank].base_addr, 0); } - if ( success ) { + if (success) { success = verify_total_writes(world_mpi_size - 1); } - if ( success ) { + if (success) { success = verify_total_reads(0); } - /* barrier to allow all writes to complete */ - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + /* barrier to allow all writes to complete */ + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { + if (verbose) { - HDfprintf(stdout, "%d:%s: barrier 2 failed.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: barrier 2 failed.\n", world_mpi_rank, fcn_name); } } @@ -5025,144 +4621,134 @@ server_smoke_check(void) mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( success ) { + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on write.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on write.\n", world_mpi_rank, fcn_name); } } } /* try to receive the reply from the server */ - if ( success ) { + if (success) { success = recv_mssg(&mssg, READ_REQ_REPLY_CODE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: recv_mssg() failed.\n", world_mpi_rank, fcn_name); } } } /* verify that we got the expected result */ - if ( success ) { + if (success) { - if ( ( mssg.req != READ_REQ_REPLY_CODE ) || - ( mssg.src != world_server_mpi_rank ) || - ( mssg.dest != world_mpi_rank ) || - ( mssg.base_addr != data[world_mpi_rank].base_addr ) || - ( mssg.len != data[world_mpi_rank].len ) || - ( mssg.ver != data[world_mpi_rank].ver ) || - ( mssg.magic != MSSG_MAGIC ) ) { + if ((mssg.req != READ_REQ_REPLY_CODE) || (mssg.src != world_server_mpi_rank) || + (mssg.dest != world_mpi_rank) || (mssg.base_addr != data[world_mpi_rank].base_addr) || + (mssg.len != data[world_mpi_rank].len) || (mssg.ver != data[world_mpi_rank].ver) || + (mssg.magic != MSSG_MAGIC)) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: Bad data in read req reply.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: Bad data in read req reply.\n", world_mpi_rank, fcn_name); } } } - /* barrier to allow all writes to complete */ - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + /* barrier to allow all writes to complete */ + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: barrier 3 failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: barrier 3 failed.\n", world_mpi_rank, fcn_name); } } /* verify that the expected entries have been read, and the total */ - if ( success ) { + if (success) { success = verify_entry_writes(data[world_mpi_rank].base_addr, 1); } - if ( success ) { + if (success) { success = verify_entry_reads(data[world_mpi_rank].base_addr, 1); } - if ( success ) { + if (success) { success = verify_total_writes(world_mpi_size - 1); } - if ( success ) { + if (success) { success = verify_total_reads(world_mpi_size - 1); } - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { + if (verbose) { - HDfprintf(stdout, "%d:%s: barrier 4 failed.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: barrier 4 failed.\n", world_mpi_rank, fcn_name); } } /* reset the counters */ - if ( success ) { + if (success) { success = reset_server_counts(); } - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { + if (verbose) { - HDfprintf(stdout, "%d:%s: barrier 5 failed.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: barrier 5 failed.\n", world_mpi_rank, fcn_name); } } /* verify that the counters have been reset */ - if ( success ) { + if (success) { success = verify_entry_writes(data[world_mpi_rank].base_addr, 0); } - if ( success ) { + if (success) { success = verify_entry_reads(data[world_mpi_rank].base_addr, 0); } - if ( success ) { + if (success) { success = verify_total_writes(0); } - if ( success ) { + if (success) { success = verify_total_reads(0); } - if ( MPI_SUCCESS != MPI_Barrier(file_mpi_comm) ) { + if (MPI_SUCCESS != MPI_Barrier(file_mpi_comm)) { success = FALSE; nerrors++; - if ( verbose ) { + if (verbose) { - HDfprintf(stdout, "%d:%s: barrier 6 failed.\n", - world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: barrier 6 failed.\n", world_mpi_rank, fcn_name); } } @@ -5171,22 +4757,21 @@ server_smoke_check(void) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ mssg.count = 0; mssg.magic = MSSG_MAGIC; - if ( success ) { + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } @@ -5194,26 +4779,25 @@ server_smoke_check(void) max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { - - if ( max_nerrors == 0 ) { + if (world_mpi_rank == 0) { - PASSED(); + if (max_nerrors == 0) { - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* server_smoke_check() */ - /***************************************************************************** * * Function: smoke_check_1() @@ -5230,101 +4814,93 @@ server_smoke_check(void) static hbool_t smoke_check_1(int metadata_write_strategy) { - const char * fcn_name = "smoke_check_1()"; - hbool_t success = TRUE; - int i; - int max_nerrors; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + const char * fcn_name = "smoke_check_1()"; + hbool_t success = TRUE; + int i; + int max_nerrors; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; struct mssg_t mssg; - switch ( metadata_write_strategy ) { + switch (metadata_write_strategy) { - case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #1 -- process 0 only md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: + if (world_mpi_rank == 0) { + TESTING("smoke check #1 -- process 0 only md write strategy"); } - break; + break; - case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #1 -- distributed md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: + if (world_mpi_rank == 0) { + TESTING("smoke check #1 -- distributed md write strategy"); } - break; + break; default: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #1 -- unknown md write strategy"); + if (world_mpi_rank == 0) { + TESTING("smoke check #1 -- unknown md write strategy"); } - break; + break; } nerrors = 0; init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } } else /* run the clients */ { - if ( ! setup_cache_for_test(&fid, &file_ptr, &cache_ptr, - metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } } - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { + for (i = 0; i < (virt_num_data_entries / 2); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); } - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); } /* Move the first half of the entries... */ - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + for (i = 0; i < (virt_num_data_entries / 2); i++) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); } /* ...and then move them back. */ - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); } - if ( fid >= 0 ) { + if (fid >= 0) { - if ( ! take_down_cache(fid) ) { + if (!take_down_cache(fid)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } } @@ -5333,10 +4909,9 @@ smoke_check_1(int metadata_write_strategy) * and are clean. */ - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - HDassert( data_index[i] == i ); - HDassert( ! (data[i].dirty) ); + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + HDassert(data_index[i] == i); + HDassert(!(data[i].dirty)); } /* compose the done message */ @@ -5344,22 +4919,21 @@ smoke_check_1(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( success ) { + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } @@ -5367,26 +4941,25 @@ smoke_check_1(int metadata_write_strategy) max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { - - if ( max_nerrors == 0 ) { + if (world_mpi_rank == 0) { - PASSED(); + if (max_nerrors == 0) { - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* smoke_check_1() */ - /***************************************************************************** * * Function: smoke_check_2() @@ -5406,148 +4979,127 @@ smoke_check_1(int metadata_write_strategy) static hbool_t smoke_check_2(int metadata_write_strategy) { - const char * fcn_name = "smoke_check_2()"; - hbool_t success = TRUE; - int i; - int max_nerrors; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + const char * fcn_name = "smoke_check_2()"; + hbool_t success = TRUE; + int i; + int max_nerrors; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; struct mssg_t mssg; - switch ( metadata_write_strategy ) { + switch (metadata_write_strategy) { - case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #2 -- process 0 only md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: + if (world_mpi_rank == 0) { + TESTING("smoke check #2 -- process 0 only md write strategy"); } - break; + break; - case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #2 -- distributed md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: + if (world_mpi_rank == 0) { + TESTING("smoke check #2 -- distributed md write strategy"); } - break; + break; default: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #2 -- unknown md write strategy"); + if (world_mpi_rank == 0) { + TESTING("smoke check #2 -- unknown md write strategy"); } - break; + break; } nerrors = 0; init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } } else /* run the clients */ { - if ( ! setup_cache_for_test(&fid, &file_ptr, &cache_ptr, - metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } } - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { + for (i = 0; i < (virt_num_data_entries / 2); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, 0, 10); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, 0, 10); } } - for ( i = 0; i < (virt_num_data_entries / 2); i+=61 ) - { - /* Make sure we don't step on any locally pinned entries */ - if ( data[i].local_pinned ) { - unpin_entry(file_ptr, i, FALSE, FALSE, FALSE); - } + for (i = 0; i < (virt_num_data_entries / 2); i += 61) { + /* Make sure we don't step on any locally pinned entries */ + if (data[i].local_pinned) { + unpin_entry(file_ptr, i, FALSE, FALSE, FALSE); + } - pin_entry(file_ptr, i, TRUE, FALSE); - } + pin_entry(file_ptr, i, TRUE, FALSE); + } - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-=2 ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 20), - 0, 100); - local_pin_and_unpin_random_entries(file_ptr, 0, - (virt_num_data_entries / 4), - 0, 3); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i -= 2) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 20), 0, 100); + local_pin_and_unpin_random_entries(file_ptr, 0, (virt_num_data_entries / 4), 0, 3); } - for ( i = 0; i < (virt_num_data_entries / 2); i+=2 ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 10), - 0, 100); + for (i = 0; i < (virt_num_data_entries / 2); i += 2) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 10), 0, 100); } - /* we can't move pinned entries, so release any local pins now. */ - local_unpin_all_entries(file_ptr, FALSE); + /* we can't move pinned entries, so release any local pins now. */ + local_unpin_all_entries(file_ptr, FALSE); /* Move the first half of the entries... */ - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - ((virt_num_data_entries / 50) - 1), - 0, 100); + for (i = 0; i < (virt_num_data_entries / 2); i++) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, ((virt_num_data_entries / 50) - 1), 0, 100); } /* ...and then move them back. */ - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 100), - 0, 100); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 100), 0, 100); } - for ( i = 0; i < (virt_num_data_entries / 2); i+=61 ) - { - hbool_t via_unprotect = ( (((unsigned)i) & 0x01) == 0 ); - hbool_t dirty = ( (((unsigned)i) & 0x02) == 0 ); + for (i = 0; i < (virt_num_data_entries / 2); i += 61) { + hbool_t via_unprotect = ((((unsigned)i) & 0x01) == 0); + hbool_t dirty = ((((unsigned)i) & 0x02) == 0); - unpin_entry(file_ptr, i, TRUE, dirty, via_unprotect); - } + unpin_entry(file_ptr, i, TRUE, dirty, via_unprotect); + } - if ( fid >= 0 ) { + if (fid >= 0) { - if ( ! take_down_cache(fid) ) { + if (!take_down_cache(fid)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } } @@ -5556,10 +5108,9 @@ smoke_check_2(int metadata_write_strategy) * and are clean. */ - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - HDassert( data_index[i] == i ); - HDassert( ! (data[i].dirty) ); + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + HDassert(data_index[i] == i); + HDassert(!(data[i].dirty)); } /* compose the done message */ @@ -5567,22 +5118,21 @@ smoke_check_2(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( success ) { + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } @@ -5590,26 +5140,25 @@ smoke_check_2(int metadata_write_strategy) max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { - - if ( max_nerrors == 0 ) { + if (world_mpi_rank == 0) { - PASSED(); + if (max_nerrors == 0) { - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* smoke_check_2() */ - /***************************************************************************** * * Function: smoke_check_3() @@ -5632,215 +5181,211 @@ smoke_check_2(int metadata_write_strategy) static hbool_t smoke_check_3(int metadata_write_strategy) { - const char * fcn_name = "smoke_check_3()"; - hbool_t success = TRUE; - int cp = 0; - int i; - int max_nerrors; - int min_count; - int max_count; - int min_idx; - int max_idx; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + const char * fcn_name = "smoke_check_3()"; + hbool_t success = TRUE; + int cp = 0; + int i; + int max_nerrors; + int min_count; + int max_count; + int min_idx; + int max_idx; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; struct mssg_t mssg; - switch ( metadata_write_strategy ) { + switch (metadata_write_strategy) { - case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #3 -- process 0 only md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: + if (world_mpi_rank == 0) { + TESTING("smoke check #3 -- process 0 only md write strategy"); } - break; + break; - case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #3 -- distributed md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: + if (world_mpi_rank == 0) { + TESTING("smoke check #3 -- distributed md write strategy"); } - break; + break; default: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #3 -- unknown md write strategy"); + if (world_mpi_rank == 0) { + TESTING("smoke check #3 -- unknown md write strategy"); } - break; + break; } /* 0 */ - if ( verbose ) { HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } nerrors = 0; init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { /* 1 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } /* 2 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } } else /* run the clients */ { /* 1 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } - if ( ! setup_cache_for_test(&fid, &file_ptr, &cache_ptr, - metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } } /* 2 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } min_count = 100 / ((file_mpi_rank + 1) * (file_mpi_rank + 1)); max_count = min_count + 50; - for ( i = 0; i < (virt_num_data_entries / 4); i++ ) - { + for (i = 0; i < (virt_num_data_entries / 4); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } } /* 3 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} - + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } min_count = 100 / ((file_mpi_rank + 2) * (file_mpi_rank + 2)); max_count = min_count + 50; - for ( i = (virt_num_data_entries / 4); - i < (virt_num_data_entries / 2); - i++ ) - { + for (i = (virt_num_data_entries / 4); i < (virt_num_data_entries / 2); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); - if ( i % 59 == 0 ) { + if (i % 59 == 0) { - hbool_t dirty = ( (i % 2) == 0); + hbool_t dirty = ((i % 2) == 0); - if ( data[i].local_pinned ) { - unpin_entry(file_ptr, i, FALSE, FALSE, FALSE); - } + if (data[i].local_pinned) { + unpin_entry(file_ptr, i, FALSE, FALSE, FALSE); + } - pin_entry(file_ptr, i, TRUE, dirty); + pin_entry(file_ptr, i, TRUE, dirty); - HDassert( !dirty || data[i].header.is_dirty ); - HDassert( data[i].header.is_pinned ); - HDassert( data[i].global_pinned ); - HDassert( ! data[i].local_pinned ); - } + HDassert(!dirty || data[i].header.is_dirty); + HDassert(data[i].header.is_pinned); + HDassert(data[i].global_pinned); + HDassert(!data[i].local_pinned); + } - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } - local_pin_and_unpin_random_entries(file_ptr, 0, - virt_num_data_entries / 4, - 0, (file_mpi_rank + 2)); - - } + local_pin_and_unpin_random_entries(file_ptr, 0, virt_num_data_entries / 4, 0, + (file_mpi_rank + 2)); + } /* 4 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} - + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } - /* flush the file to be sure that we have no problems flushing - * pinned entries - */ - if ( H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0 ) { + /* flush the file to be sure that we have no problems flushing + * pinned entries + */ + if (H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", world_mpi_rank, fcn_name); } } /* 5 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} - + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } min_idx = 0; - max_idx = ((virt_num_data_entries / 10) / - ((file_mpi_rank + 1) * (file_mpi_rank + 1))) - 1; - if ( max_idx <= min_idx ) { + max_idx = ((virt_num_data_entries / 10) / ((file_mpi_rank + 1) * (file_mpi_rank + 1))) - 1; + if (max_idx <= min_idx) { max_idx = min_idx + 10; } - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - if ( ( i >= (virt_num_data_entries / 4) ) && ( i % 59 == 0 ) ) { + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + if ((i >= (virt_num_data_entries / 4)) && (i % 59 == 0)) { - hbool_t via_unprotect = ( (((unsigned)i) & 0x02) == 0 ); - hbool_t dirty = ( (((unsigned)i) & 0x04) == 0 ); + hbool_t via_unprotect = ((((unsigned)i) & 0x02) == 0); + hbool_t dirty = ((((unsigned)i) & 0x04) == 0); - HDassert( data[i].global_pinned ); - HDassert( ! data[i].local_pinned ); + HDassert(data[i].global_pinned); + HDassert(!data[i].local_pinned); - unpin_entry(file_ptr, i, TRUE, dirty, - via_unprotect); - } - if ( i % 2 == 0 ) { + unpin_entry(file_ptr, i, TRUE, dirty, via_unprotect); + } + if (i % 2 == 0) { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - local_pin_and_unpin_random_entries(file_ptr, 0, - virt_num_data_entries / 2, - 0, 2); - lock_and_unlock_random_entries(file_ptr, - min_idx, max_idx, 0, 100); - } + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + local_pin_and_unpin_random_entries(file_ptr, 0, virt_num_data_entries / 2, 0, 2); + lock_and_unlock_random_entries(file_ptr, min_idx, max_idx, 0, 100); + } } /* 6 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } min_idx = 0; - max_idx = ((virt_num_data_entries / 10) / - ((file_mpi_rank + 3) * (file_mpi_rank + 3))) - 1; - if ( max_idx <= min_idx ) { + max_idx = ((virt_num_data_entries / 10) / ((file_mpi_rank + 3) * (file_mpi_rank + 3))) - 1; + if (max_idx <= min_idx) { max_idx = min_idx + 10; } - for ( i = 0; i < (virt_num_data_entries / 2); i+=2 ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - lock_and_unlock_random_entries(file_ptr, - min_idx, max_idx, 0, 100); + for (i = 0; i < (virt_num_data_entries / 2); i += 2) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + lock_and_unlock_random_entries(file_ptr, min_idx, max_idx, 0, 100); } /* 7 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } /* we can't move pinned entries, so release any local pins now. */ local_unpin_all_entries(file_ptr, FALSE); @@ -5849,32 +5394,30 @@ smoke_check_3(int metadata_write_strategy) max_count = min_count + 100; /* move the first half of the entries... */ - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 20), - min_count, max_count); + for (i = 0; i < (virt_num_data_entries / 2); i++) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 20), min_count, max_count); } /* 8 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } /* ...and then move them back. */ - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 40), - min_count, max_count); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 40), min_count, max_count); } /* 9 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } /* finally, do some dirty lock/unlocks while we give the cache * a chance t reduce its size. @@ -5882,51 +5425,49 @@ smoke_check_3(int metadata_write_strategy) min_count = 200 / ((file_mpi_rank + 1) * (file_mpi_rank + 1)); max_count = min_count + 100; - for ( i = 0; i < (virt_num_data_entries / 2); i+=2 ) - { - local_pin_and_unpin_random_entries(file_ptr, 0, - (virt_num_data_entries / 2), - 0, 5); + for (i = 0; i < (virt_num_data_entries / 2); i += 2) { + local_pin_and_unpin_random_entries(file_ptr, 0, (virt_num_data_entries / 2), 0, 5); - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } } /* 10 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } /* release any local pins before we take down the cache. */ local_unpin_all_entries(file_ptr, FALSE); - if ( fid >= 0 ) { + if (fid >= 0) { - if ( ! take_down_cache(fid) ) { + if (!take_down_cache(fid)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } } /* 11 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } /* verify that all instances of datum are back where the started * and are clean. */ - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - HDassert( data_index[i] == i ); - HDassert( ! (data[i].dirty) ); + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + HDassert(data_index[i] == i); + HDassert(!(data[i].dirty)); } /* compose the done message */ @@ -5934,53 +5475,52 @@ smoke_check_3(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( success ) { - + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } /* 12 */ - if ( verbose ) {HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++);} + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } } max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { - - if ( max_nerrors == 0 ) { + if (world_mpi_rank == 0) { - PASSED(); + if (max_nerrors == 0) { - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* smoke_check_3() */ - /***************************************************************************** * * Function: smoke_check_4() @@ -6003,211 +5543,185 @@ smoke_check_3(int metadata_write_strategy) static hbool_t smoke_check_4(int metadata_write_strategy) { - const char * fcn_name = "smoke_check_4()"; - hbool_t success = TRUE; - int i; - int max_nerrors; - int min_count; - int max_count; - int min_idx; - int max_idx; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + const char * fcn_name = "smoke_check_4()"; + hbool_t success = TRUE; + int i; + int max_nerrors; + int min_count; + int max_count; + int min_idx; + int max_idx; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; struct mssg_t mssg; - switch ( metadata_write_strategy ) { + switch (metadata_write_strategy) { - case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #4 -- process 0 only md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: + if (world_mpi_rank == 0) { + TESTING("smoke check #4 -- process 0 only md write strategy"); } - break; + break; - case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #4 -- distributed md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: + if (world_mpi_rank == 0) { + TESTING("smoke check #4 -- distributed md write strategy"); } - break; + break; default: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #4 -- unknown md write strategy"); + if (world_mpi_rank == 0) { + TESTING("smoke check #4 -- unknown md write strategy"); } - break; + break; } nerrors = 0; init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } } else /* run the clients */ { - if ( ! setup_cache_for_test(&fid, &file_ptr, &cache_ptr, - metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } } - min_count = 100 * (file_mpi_rank % 4); max_count = min_count + 50; - for ( i = 0; i < (virt_num_data_entries / 4); i++ ) - { + for (i = 0; i < (virt_num_data_entries / 4); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } } min_count = 10 * (file_mpi_rank % 4); max_count = min_count + 100; - for ( i = (virt_num_data_entries / 4); - i < (virt_num_data_entries / 2); - i++ ) - { - if ( i % 2 == 0 ) { + for (i = (virt_num_data_entries / 4); i < (virt_num_data_entries / 2); i++) { + if (i % 2 == 0) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); + } + else { - } else { - - /* Insert some entries pinned, and then unpin them - * immediately. We have tested pinned entries elsewhere, - * so it should be sufficient to verify that the - * entries are in fact pinned (which unpin_entry() should do). - */ + /* Insert some entries pinned, and then unpin them + * immediately. We have tested pinned entries elsewhere, + * so it should be sufficient to verify that the + * entries are in fact pinned (which unpin_entry() should do). + */ insert_entry(cache_ptr, file_ptr, i, H5C__PIN_ENTRY_FLAG); unpin_entry(file_ptr, i, TRUE, FALSE, FALSE); - } + } - if ( i % 59 == 0 ) { + if (i % 59 == 0) { - hbool_t dirty = ( (i % 2) == 0); + hbool_t dirty = ((i % 2) == 0); - if ( data[i].local_pinned ) { + if (data[i].local_pinned) { unpin_entry(file_ptr, i, FALSE, FALSE, FALSE); } pin_entry(file_ptr, i, TRUE, dirty); - HDassert( !dirty || data[i].header.is_dirty ); - HDassert( data[i].header.is_pinned ); - HDassert( data[i].global_pinned ); - HDassert( ! data[i].local_pinned ); + HDassert(!dirty || data[i].header.is_dirty); + HDassert(data[i].header.is_pinned); + HDassert(data[i].global_pinned); + HDassert(!data[i].local_pinned); } - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } - local_pin_and_unpin_random_entries(file_ptr, 0, - (virt_num_data_entries / 4), - 0, (file_mpi_rank + 2)); + local_pin_and_unpin_random_entries(file_ptr, 0, (virt_num_data_entries / 4), 0, + (file_mpi_rank + 2)); } - /* flush the file to be sure that we have no problems flushing - * pinned entries - */ - if ( H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0 ) { + * pinned entries + */ + if (H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", world_mpi_rank, fcn_name); } } - min_idx = 0; - max_idx = (((virt_num_data_entries / 10) / 4) * - ((file_mpi_rank % 4) + 1)) - 1; + max_idx = (((virt_num_data_entries / 10) / 4) * ((file_mpi_rank % 4) + 1)) - 1; - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - if ( ( i >= (virt_num_data_entries / 4) ) && ( i % 59 == 0 ) ) { + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + if ((i >= (virt_num_data_entries / 4)) && (i % 59 == 0)) { - hbool_t via_unprotect = ( (((unsigned)i) & 0x02) == 0 ); - hbool_t dirty = ( (((unsigned)i) & 0x04) == 0 ); + hbool_t via_unprotect = ((((unsigned)i) & 0x02) == 0); + hbool_t dirty = ((((unsigned)i) & 0x04) == 0); - HDassert( data[i].global_pinned ); - HDassert( ! data[i].local_pinned ); + HDassert(data[i].global_pinned); + HDassert(!data[i].local_pinned); unpin_entry(file_ptr, i, TRUE, dirty, via_unprotect); } - if ( i % 2 == 0 ) { + if (i % 2 == 0) { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - lock_and_unlock_random_entries(file_ptr, - min_idx, max_idx, 0, 100); - } + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + lock_and_unlock_random_entries(file_ptr, min_idx, max_idx, 0, 100); + } } min_idx = 0; - max_idx = (((virt_num_data_entries / 10) / 8) * - ((file_mpi_rank % 4) + 1)) - 1; + max_idx = (((virt_num_data_entries / 10) / 8) * ((file_mpi_rank % 4) + 1)) - 1; - for ( i = 0; i < (virt_num_data_entries / 2); i+=2 ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - lock_and_unlock_random_entries(file_ptr, - min_idx, max_idx, 0, 100); + for (i = 0; i < (virt_num_data_entries / 2); i += 2) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + lock_and_unlock_random_entries(file_ptr, min_idx, max_idx, 0, 100); } - /* we can't move pinned entries, so release any local pins now. */ - local_unpin_all_entries(file_ptr, FALSE); + /* we can't move pinned entries, so release any local pins now. */ + local_unpin_all_entries(file_ptr, FALSE); min_count = 10 * (file_mpi_rank % 4); max_count = min_count + 100; /* move the first half of the entries... */ - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 20), - min_count, max_count); + for (i = 0; i < (virt_num_data_entries / 2); i++) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 20), min_count, max_count); } /* ...and then move them back. */ - for ( i = (virt_num_data_entries / 2) - 1; i >= 0; i-- ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); - lock_and_unlock_random_entries(file_ptr, 0, - (virt_num_data_entries / 40), - min_count, max_count); + for (i = (virt_num_data_entries / 2) - 1; i >= 0; i--) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + move_entry(file_ptr, i, (i + (virt_num_data_entries / 2))); + lock_and_unlock_random_entries(file_ptr, 0, (virt_num_data_entries / 40), min_count, max_count); } /* finally, do some dirty lock/unlocks while we give the cache @@ -6216,26 +5730,23 @@ smoke_check_4(int metadata_write_strategy) min_count = 100 * (file_mpi_rank % 4); max_count = min_count + 100; - for ( i = 0; i < (virt_num_data_entries / 2); i+=2 ) - { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + for (i = 0; i < (virt_num_data_entries / 2); i += 2) { + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - if ( i > 100 ) { + if (i > 100) { - lock_and_unlock_random_entries(file_ptr, (i - 100), i, - min_count, max_count); + lock_and_unlock_random_entries(file_ptr, (i - 100), i, min_count, max_count); } } - if ( fid >= 0 ) { + if (fid >= 0) { - if ( ! take_down_cache(fid) ) { + if (!take_down_cache(fid)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } } @@ -6244,10 +5755,9 @@ smoke_check_4(int metadata_write_strategy) * and are clean. */ - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - HDassert( data_index[i] == i ); - HDassert( ! (data[i].dirty) ); + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + HDassert(data_index[i] == i); + HDassert(!(data[i].dirty)); } /* compose the done message */ @@ -6255,23 +5765,21 @@ smoke_check_4(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( success ) { - + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } @@ -6279,26 +5787,25 @@ smoke_check_4(int metadata_write_strategy) max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { - - if ( max_nerrors == 0 ) { + if (world_mpi_rank == 0) { - PASSED(); + if (max_nerrors == 0) { - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* smoke_check_4() */ - /***************************************************************************** * * Function: smoke_check_5() @@ -6316,203 +5823,190 @@ smoke_check_4(int metadata_write_strategy) static hbool_t smoke_check_5(int metadata_write_strategy) { - const char * fcn_name = "smoke_check_5()"; - hbool_t success = TRUE; - int cp = 0; - int i; - int max_nerrors; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; + const char * fcn_name = "smoke_check_5()"; + hbool_t success = TRUE; + int cp = 0; + int i; + int max_nerrors; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; struct mssg_t mssg; - switch ( metadata_write_strategy ) { + switch (metadata_write_strategy) { - case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #5 -- process 0 only md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: + if (world_mpi_rank == 0) { + TESTING("smoke check #5 -- process 0 only md write strategy"); } - break; + break; - case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #5 -- distributed md write strategy"); + case H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED: + if (world_mpi_rank == 0) { + TESTING("smoke check #5 -- distributed md write strategy"); } - break; + break; default: - if ( world_mpi_rank == 0 ) { - TESTING("smoke check #5 -- unknown md write strategy"); + if (world_mpi_rank == 0) { + TESTING("smoke check #5 -- unknown md write strategy"); } - break; + break; } - /* 0 */ - if ( verbose ) { HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + } nerrors = 0; init_data(); reset_stats(); - if ( world_mpi_rank == world_server_mpi_rank ) { + if (world_mpi_rank == world_server_mpi_rank) { /* 1 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - if ( ! server_main() ) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: server_main() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } /* 2 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } } else /* run the clients */ { /* 1 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - if ( ! setup_cache_for_test(&fid, &file_ptr, &cache_ptr, - metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } } /* 2 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - for ( i = 0; i < (virt_num_data_entries / 2); i++ ) - { + for (i = 0; i < (virt_num_data_entries / 2); i++) { insert_entry(cache_ptr, file_ptr, i, H5AC__NO_FLAGS_SET); } /* 3 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - /* flush the file so we can lock known clean entries. */ - if ( H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0 ) { + /* flush the file so we can lock known clean entries. */ + if (H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", world_mpi_rank, fcn_name); } } /* 4 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - for ( i = 0; i < (virt_num_data_entries / 4); i++ ) - { - lock_entry(file_ptr, i); + for (i = 0; i < (virt_num_data_entries / 4); i++) { + lock_entry(file_ptr, i); - if ( i % 2 == 0 ) - { - mark_entry_dirty(i); - } + if (i % 2 == 0) { + mark_entry_dirty(i); + } - unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); + unlock_entry(file_ptr, i, H5AC__NO_FLAGS_SET); - if ( i % 2 == 1 ) - { - if ( i % 4 == 1 ) { + if (i % 2 == 1) { + if (i % 4 == 1) { - lock_entry(file_ptr, i); - unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); - } + lock_entry(file_ptr, i); + unlock_entry(file_ptr, i, H5AC__DIRTIED_FLAG); + } - expunge_entry(file_ptr, i); - } + expunge_entry(file_ptr, i); + } } /* 5 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - for ( i = (virt_num_data_entries / 2) - 1; - i >= (virt_num_data_entries / 4); - i-- ) - { - pin_entry(file_ptr, i, TRUE, FALSE); + for (i = (virt_num_data_entries / 2) - 1; i >= (virt_num_data_entries / 4); i--) { + pin_entry(file_ptr, i, TRUE, FALSE); - if ( i % 2 == 0 ) - { - if ( i % 8 <= 4 ) { + if (i % 2 == 0) { + if (i % 8 <= 4) { - resize_entry(i, data[i].len / 2); - } + resize_entry(i, data[i].len / 2); + } mark_entry_dirty(i); - if ( i % 8 <= 4 ) { + if (i % 8 <= 4) { - resize_entry(i, data[i].len); - } - } + resize_entry(i, data[i].len); + } + } - unpin_entry(file_ptr, i, TRUE, FALSE, FALSE); + unpin_entry(file_ptr, i, TRUE, FALSE, FALSE); } /* 6 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } - if ( fid >= 0 ) { + if (fid >= 0) { - if ( ! take_down_cache(fid) ) { + if (!take_down_cache(fid)) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } } /* 7 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } /* verify that all instance of datum are back where the started * and are clean. */ - for ( i = 0; i < NUM_DATA_ENTRIES; i++ ) - { - HDassert( data_index[i] == i ); - HDassert( ! (data[i].dirty) ); + for (i = 0; i < NUM_DATA_ENTRIES; i++) { + HDassert(data_index[i] == i); + HDassert(!(data[i].dirty)); } /* 8 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } /* compose the done message */ @@ -6520,54 +6014,52 @@ smoke_check_5(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if ( success ) { + if (success) { success = send_mssg(&mssg, FALSE); - if ( ! success ) { + if (!success) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } } /* 9 */ - if ( verbose ) { - HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); + if (verbose) { + HDfprintf(stderr, "%d: cp = %d\n", world_mpi_rank, cp++); } } max_nerrors = get_max_nerrors(); - if ( world_mpi_rank == 0 ) { + if (world_mpi_rank == 0) { - if ( max_nerrors == 0 ) { + if (max_nerrors == 0) { - PASSED(); - - } else { + PASSED(); + } + else { failures++; H5_FAILED(); } } - success = ( ( success ) && ( max_nerrors == 0 ) ); + success = ((success) && (max_nerrors == 0)); - return(success); + return (success); } /* smoke_check_5() */ - /***************************************************************************** * * Function: trace_file_check() @@ -6614,87 +6106,87 @@ trace_file_check(int metadata_write_strategy) #ifdef H5_METADATA_TRACE_FILE - const char * fcn_name = "trace_file_check()"; - const char *((* expected_output)[]) = NULL; - const char * expected_output_0[] = - { - "### 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_flush 0\n", - NULL - }; - const char * expected_output_1[] = - { - "### 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_flush 0\n", - NULL - }; - char buffer[256]; - char trace_file_name[64]; - hbool_t done = FALSE; - int i; - int max_nerrors; - int expected_line_len; - int actual_line_len; - hid_t fid = -1; - H5F_t * file_ptr = NULL; - H5C_t * cache_ptr = NULL; - FILE * trace_file_ptr = NULL; + const char *fcn_name = "trace_file_check()"; + const char *((*expected_output)[]) = NULL; + const char *expected_output_0[] = { + "### 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_flush 0\n", + NULL}; + const char *expected_output_1[] = { + "### 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_flush 0\n", + NULL}; + char buffer[256]; + char trace_file_name[64]; + hbool_t done = FALSE; + int i; + int max_nerrors; + int expected_line_len; + int actual_line_len; + hid_t fid = -1; + H5F_t * file_ptr = NULL; + H5C_t * cache_ptr = NULL; + FILE * trace_file_ptr = NULL; H5AC_cache_config_t config; - struct mssg_t mssg; + struct mssg_t mssg; #endif /* H5_METADATA_TRACE_FILE */ - switch(metadata_write_strategy) { + switch (metadata_write_strategy) { case H5AC_METADATA_WRITE_STRATEGY__PROCESS_0_ONLY: #ifdef H5_METADATA_TRACE_FILE expected_output = &expected_output_0; #endif /* H5_METADATA_TRACE_FILE */ - if(world_mpi_rank == 0) + if (world_mpi_rank == 0) TESTING("trace file collection -- process 0 only md write strategy"); break; @@ -6702,7 +6194,7 @@ trace_file_check(int metadata_write_strategy) #ifdef H5_METADATA_TRACE_FILE expected_output = &expected_output_1; #endif /* H5_METADATA_TRACE_FILE */ - if(world_mpi_rank == 0) + if (world_mpi_rank == 0) TESTING("trace file collection -- distributed md write strategy"); break; @@ -6713,7 +6205,7 @@ trace_file_check(int metadata_write_strategy) */ expected_output = &expected_output_0; #endif /* H5_METADATA_TRACE_FILE */ - if(world_mpi_rank == 0) + if (world_mpi_rank == 0) TESTING("trace file collection -- unknown md write strategy"); break; } /* end switch */ @@ -6724,43 +6216,45 @@ trace_file_check(int metadata_write_strategy) init_data(); reset_stats(); - if(world_mpi_rank == world_server_mpi_rank) { + if (world_mpi_rank == world_server_mpi_rank) { - if(!server_main()) { + if (!server_main()) { /* some error occured in the server -- report failure */ nerrors++; - if ( verbose ) + if (verbose) HDfprintf(stdout, "%d:%s: server_main() failed.\n", world_mpi_rank, fcn_name); } } else { /* run the clients */ - if(!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy) ) { + if (!setup_cache_for_test(&fid, &file_ptr, &cache_ptr, metadata_write_strategy)) { nerrors++; - fid = -1; + fid = -1; cache_ptr = NULL; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: setup_cache_for_test() failed.\n", world_mpi_rank, fcn_name); } - if(nerrors == 0) { + if (nerrors == 0) { config.version = H5AC__CURR_CACHE_CONFIG_VERSION; - if(H5AC_get_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { + if (H5AC_get_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { nerrors++; - HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config() failed.\n", world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config() failed.\n", world_mpi_rank, + fcn_name); } else { config.open_trace_file = TRUE; strcpy(config.trace_file_name, "t_cache_trace.txt"); - if(H5AC_set_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { + if (H5AC_set_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { nerrors++; - HDfprintf(stdout, "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", world_mpi_rank, + fcn_name); } } } /* end if */ @@ -6792,36 +6286,38 @@ trace_file_check(int metadata_write_strategy) move_entry(file_ptr, 0, 20); move_entry(file_ptr, 0, 20); - if(H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { + if (H5Fflush(fid, H5F_SCOPE_GLOBAL) < 0) { nerrors++; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: H5Fflush() failed.\n", world_mpi_rank, fcn_name); } - if(nerrors == 0) { + if (nerrors == 0) { config.version = H5AC__CURR_CACHE_CONFIG_VERSION; - if(H5AC_get_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { + if (H5AC_get_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { nerrors++; - HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config() failed.\n", world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: H5AC_get_cache_auto_resize_config() failed.\n", world_mpi_rank, + fcn_name); } else { - config.open_trace_file = FALSE; - config.close_trace_file = TRUE; + config.open_trace_file = FALSE; + config.close_trace_file = TRUE; config.trace_file_name[0] = '\0'; - if(H5AC_set_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { + if (H5AC_set_cache_auto_resize_config(cache_ptr, &config) != SUCCEED) { nerrors++; - HDfprintf(stdout, "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", world_mpi_rank, fcn_name); + HDfprintf(stdout, "%d:%s: H5AC_set_cache_auto_resize_config() failed.\n", world_mpi_rank, + fcn_name); } } } /* end if */ - if(fid >= 0) { - if(!take_down_cache(fid)) { + if (fid >= 0) { + if (!take_down_cache(fid)) { nerrors++; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: take_down_cache() failed.\n", world_mpi_rank, fcn_name); } } /* end if */ @@ -6830,7 +6326,7 @@ trace_file_check(int metadata_write_strategy) * and are clean. */ - for(i = 0; i < NUM_DATA_ENTRIES; i++) { + for (i = 0; i < NUM_DATA_ENTRIES; i++) { HDassert(data_index[i] == i); HDassert(!(data[i].dirty)); } @@ -6840,62 +6336,66 @@ trace_file_check(int metadata_write_strategy) mssg.src = world_mpi_rank; mssg.dest = world_server_mpi_rank; mssg.mssg_num = -1; /* set by send function */ - mssg.base_addr = 0; /* not used */ - mssg.len = 0; /* not used */ - mssg.ver = 0; /* not used */ - mssg.count = 0; /* not used */ + mssg.base_addr = 0; /* not used */ + mssg.len = 0; /* not used */ + mssg.ver = 0; /* not used */ + mssg.count = 0; /* not used */ mssg.magic = MSSG_MAGIC; - if(success) { + if (success) { success = send_mssg(&mssg, FALSE); - if(!success) { + if (!success) { nerrors++; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); } } /* end if */ nerrors++; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: send_mssg() failed on done.\n", world_mpi_rank, fcn_name); - if(nerrors == 0) { + if (nerrors == 0) { HDsprintf(trace_file_name, "t_cache_trace.txt.%d", (int)file_mpi_rank); - if((trace_file_ptr = HDfopen(trace_file_name, "r")) == NULL ) { + if ((trace_file_ptr = HDfopen(trace_file_name, "r")) == NULL) { nerrors++; - if(verbose) + if (verbose) HDfprintf(stdout, "%d:%s: HDfopen failed.\n", world_mpi_rank, fcn_name); } - } + } i = 0; - while((nerrors == 0) && (!done)) { + while ((nerrors == 0) && (!done)) { /* Get lines of actual and expected data */ - if((*expected_output)[i] == NULL) + if ((*expected_output)[i] == NULL) expected_line_len = (size_t)0; else expected_line_len = HDstrlen((*expected_output)[i]); - if(HDfgets(buffer, 255, trace_file_ptr) != NULL) + if (HDfgets(buffer, 255, trace_file_ptr) != NULL) actual_line_len = HDstrlen(buffer); else actual_line_len = (size_t)0; /* Compare the lines */ /* Handle running out of data */ - if((actual_line_len == 0) || (expected_line_len == 0)) { + if ((actual_line_len == 0) || (expected_line_len == 0)) { done = TRUE; } - else if((actual_line_len != expected_line_len) || (HDstrcmp(buffer, (*expected_output)[i]) != 0)) { + else if ((actual_line_len != expected_line_len) || + (HDstrcmp(buffer, (*expected_output)[i]) != 0)) { nerrors++; - if(verbose) { - HDfprintf(stdout, "%d:%s: Unexpected data in trace file line %d.\n", world_mpi_rank, fcn_name, i); - HDfprintf(stdout, "%d:%s: expected = \"%s\" %d\n", world_mpi_rank, fcn_name, (*expected_output)[i], expected_line_len); - HDfprintf(stdout, "%d:%s: actual = \"%s\" %d\n", world_mpi_rank, fcn_name, buffer, actual_line_len); + if (verbose) { + HDfprintf(stdout, "%d:%s: Unexpected data in trace file line %d.\n", world_mpi_rank, + fcn_name, i); + HDfprintf(stdout, "%d:%s: expected = \"%s\" %d\n", world_mpi_rank, fcn_name, + (*expected_output)[i], expected_line_len); + HDfprintf(stdout, "%d:%s: actual = \"%s\" %d\n", world_mpi_rank, fcn_name, buffer, + actual_line_len); } } else { @@ -6904,7 +6404,7 @@ trace_file_check(int metadata_write_strategy) } /* Clean up the trace file */ - if(trace_file_ptr != NULL) { + if (trace_file_ptr != NULL) { HDfclose(trace_file_ptr); trace_file_ptr = NULL; #if 1 @@ -6915,9 +6415,9 @@ trace_file_check(int metadata_write_strategy) max_nerrors = get_max_nerrors(); - if(world_mpi_rank == 0) { + if (world_mpi_rank == 0) { - if(max_nerrors == 0) { + if (max_nerrors == 0) { PASSED(); } else { @@ -6930,18 +6430,17 @@ trace_file_check(int metadata_write_strategy) #else /* H5_METADATA_TRACE_FILE */ - if(world_mpi_rank == 0) { + if (world_mpi_rank == 0) { SKIPPED(); HDfprintf(stdout, " trace file support disabled.\n"); } #endif /* H5_METADATA_TRACE_FILE */ - return(success); + return (success); } /* trace_file_check() */ - /***************************************************************************** * * Function: main() @@ -6958,63 +6457,63 @@ trace_file_check(int metadata_write_strategy) int main(int argc, char **argv) { - const char * fcn_name = "main()"; - int express_test; - unsigned u; - int mpi_size; - int mpi_rank; - int max_nerrors; + const char *fcn_name = "main()"; + int express_test; + unsigned u; + int mpi_size; + int mpi_rank; + int max_nerrors; MPI_Init(&argc, &argv); MPI_Comm_size(MPI_COMM_WORLD, &mpi_size); MPI_Comm_rank(MPI_COMM_WORLD, &mpi_rank); - world_mpi_size = mpi_size; - world_mpi_rank = mpi_rank; + world_mpi_size = mpi_size; + world_mpi_rank = mpi_rank; world_server_mpi_rank = mpi_size - 1; - world_mpi_comm = MPI_COMM_WORLD; + world_mpi_comm = MPI_COMM_WORLD; /* Attempt to turn off atexit post processing so that in case errors * happen during the test and the process is aborted, it will not get * hang in the atexit post processing in which it may try to make MPI * calls. By then, MPI calls may not work. */ - if (H5dont_atexit() < 0){ - HDprintf("%d:Failed to turn off atexit processing. Continue.\n", - mpi_rank); + if (H5dont_atexit() < 0) { + HDprintf("%d:Failed to turn off atexit processing. Continue.\n", mpi_rank); }; H5open(); express_test = do_express_test(); -#if 0 /* JRM */ +#if 0 /* JRM */ express_test = 0; #endif /* JRM */ - if ( express_test ) { - - virt_num_data_entries = EXPRESS_VIRT_NUM_DATA_ENTRIES; + if (express_test) { - } else { + virt_num_data_entries = EXPRESS_VIRT_NUM_DATA_ENTRIES; + } + else { - virt_num_data_entries = STD_VIRT_NUM_DATA_ENTRIES; + virt_num_data_entries = STD_VIRT_NUM_DATA_ENTRIES; } #ifdef H5_HAVE_MPE - if ( MAINPROCESS ) { HDprintf(" Tests compiled for MPE.\n"); } + if (MAINPROCESS) { + HDprintf(" Tests compiled for MPE.\n"); + } virt_num_data_entries = MPE_VIRT_NUM_DATA_ENTIES; #endif /* H5_HAVE_MPE */ - - if (MAINPROCESS){ - HDprintf("===================================\n"); - HDprintf("Parallel metadata cache tests\n"); - HDprintf(" mpi_size = %d\n", mpi_size); - HDprintf(" express_test = %d\n", express_test); - HDprintf("===================================\n"); + if (MAINPROCESS) { + HDprintf("===================================\n"); + HDprintf("Parallel metadata cache tests\n"); + HDprintf(" mpi_size = %d\n", mpi_size); + HDprintf(" express_test = %d\n", express_test); + HDprintf("===================================\n"); } - if ( mpi_size < 3 ) { + if (mpi_size < 3) { - if ( MAINPROCESS ) { + if (MAINPROCESS) { HDprintf(" Need at least 3 processes. Exiting.\n"); } @@ -7033,65 +6532,57 @@ main(int argc, char **argv) */ /* setup file access property list with the world communicator */ - if ( FAIL == (fapl = H5Pcreate(H5P_FILE_ACCESS)) ) { + if (FAIL == (fapl = H5Pcreate(H5P_FILE_ACCESS))) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Pcreate() failed 1.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Pcreate() failed 1.\n", world_mpi_rank, fcn_name); } } - if ( H5Pset_fapl_mpio(fapl, world_mpi_comm, MPI_INFO_NULL) < 0 ) { + if (H5Pset_fapl_mpio(fapl, world_mpi_comm, MPI_INFO_NULL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Pset_fapl_mpio() failed 1.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Pset_fapl_mpio() failed 1.\n", world_mpi_rank, fcn_name); } } /* fix the file names */ - for ( u = 0; u < sizeof(FILENAME) / sizeof(FILENAME[0]) - 1; ++u ) - { - if ( h5_fixname(FILENAME[u], fapl, filenames[u], - sizeof(filenames[u])) == NULL ) { + for (u = 0; u < sizeof(FILENAME) / sizeof(FILENAME[0]) - 1; ++u) { + if (h5_fixname(FILENAME[u], fapl, filenames[u], sizeof(filenames[u])) == NULL) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: h5_fixname() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: h5_fixname() failed.\n", world_mpi_rank, fcn_name); } break; } } /* close the fapl before we set it up again */ - if ( H5Pclose(fapl) < 0 ) { + if (H5Pclose(fapl) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Pclose() failed.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Pclose() failed.\n", world_mpi_rank, fcn_name); } } /* now create the fapl again, excluding the server process. */ - if ( world_mpi_rank != world_server_mpi_rank ) { + if (world_mpi_rank != world_server_mpi_rank) { /* setup file access property list */ - if ( FAIL == (fapl = H5Pcreate(H5P_FILE_ACCESS)) ) { - nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Pcreate() failed 2.\n", - world_mpi_rank, fcn_name); + if (FAIL == (fapl = H5Pcreate(H5P_FILE_ACCESS))) { + nerrors++; + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Pcreate() failed 2.\n", world_mpi_rank, fcn_name); } } - if ( H5Pset_fapl_mpio(fapl, file_mpi_comm, MPI_INFO_NULL) < 0 ) { + if (H5Pset_fapl_mpio(fapl, file_mpi_comm, MPI_INFO_NULL) < 0) { nerrors++; - if ( verbose ) { - HDfprintf(stdout, "%d:%s: H5Pset_fapl_mpio() failed 2.\n", - world_mpi_rank, fcn_name); + if (verbose) { + HDfprintf(stdout, "%d:%s: H5Pset_fapl_mpio() failed 2.\n", world_mpi_rank, fcn_name); } } } @@ -7100,15 +6591,15 @@ main(int argc, char **argv) max_nerrors = get_max_nerrors(); - if ( max_nerrors != 0 ) { + if (max_nerrors != 0) { /* errors in setup -- no point in continuing */ - if ( world_mpi_rank == 0 ) { + if (world_mpi_rank == 0) { HDfprintf(stdout, "Errors in test initialization. Exiting.\n"); } - goto finish; + goto finish; } /* run the tests */ @@ -7145,16 +6636,15 @@ finish: * and exit. */ MPI_Barrier(MPI_COMM_WORLD); - if (MAINPROCESS){ /* only process 0 reports */ - HDprintf("===================================\n"); - if (failures){ - HDprintf("***metadata cache tests detected %d failures***\n", - failures); - } - else{ - HDprintf("metadata cache tests finished with no failures\n"); - } - HDprintf("===================================\n"); + if (MAINPROCESS) { /* only process 0 reports */ + HDprintf("===================================\n"); + if (failures) { + HDprintf("***metadata cache tests detected %d failures***\n", failures); + } + else { + HDprintf("metadata cache tests finished with no failures\n"); + } + HDprintf("===================================\n"); } takedown_derived_types(); @@ -7166,6 +6656,5 @@ finish: MPI_Finalize(); /* cannot just return (failures) because exit code is limited to 1byte */ - return(failures != 0); + return (failures != 0); } - |