/*___INFO__MARK_BEGIN__*/ /************************************************************************* * * The Contents of this file are made available subject to the terms of * the Sun Industry Standards Source License Version 1.2 * * Sun Microsystems Inc., March, 2001 * * * Sun Industry Standards Source License Version 1.2 * ================================================= * The contents of this file are subject to the Sun Industry Standards * Source License Version 1.2 (the "License"); You may not use this file * except in compliance with the License. You may obtain a copy of the * License at http://gridengine.sunsource.net/Gridengine_SISSL_license.html * * Software provided under this License is provided on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, * WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS, * MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING. * See the License for the specific provisions governing your rights and * obligations concerning the Software. * * The Initial Developer of the Original Code is: Sun Microsystems, Inc. * * Copyright: 2001 by Sun Microsystems, Inc. * * All Rights Reserved. * ************************************************************************/ /*___INFO__MARK_END__*/ #include #include #include #ifndef WINDOWS #include #include "basis_types.h" #include "sge_os.h" #include "msg_utilbin.h" #include "sge_language.h" #include "sge_prog.h" #include "sge_host.h" #include "sgermon.h" #include "uti/sge_binding_hlp.h" #include "sgeobj/sge_binding.h" #else #include "msg_utilbin.h" #include #include #endif #if defined(PLPA_LINUX) /* for linux kernel version */ #include #endif void usage(void); void print_mem_load(char *, char *, int, double, char*); void check_core_binding(void); #if defined(SOLARIS86) || defined(SOLARISAMD64) void test_solaris_binding(void); #endif #if defined(PLPA_LINUX) void test_linux_plpa(void); #endif #if defined(SOLARIS86) || defined(SOLARISAMD64) || defined(PLPA_LINUX) void fill_socket_core_topology(dstring* msocket, dstring* mcore, dstring* mtopology); #endif void usage() { fprintf(stderr, "%s loadcheck [-cb] | [-int] [-loadval name]\n", MSG_UTILBIN_USAGE); fprintf(stderr, "\t\t[-cb] \t\t\t\t Shows core binding and processor topology related information\n"); fprintf(stderr, "\t\t[-int]\t\t\t\t Print as integer\n"); fprintf(stderr, "\t\t[-loadval]\t\t\t Select specific load value\n"); exit(1); } int main(int argc, char *argv[]) { double avg[3]; int loads; char *name = NULL; #if defined(PLPA_LINUX) || defined(SOLARIS86) || defined(SOLARISAMD64) dstring msocket = DSTRING_INIT; dstring mcore = DSTRING_INIT; dstring mtopology = DSTRING_INIT; #endif #ifdef SGE_LOADMEM sge_mem_info_t mem_info; #endif #ifdef SGE_LOADCPU double total = 0.0; #endif int i, pos = 0, print_as_int = 0, precision = 0, core_binding = 0; char *m = ""; #ifndef WINDOWS DENTER_MAIN(TOP_LAYER, "loadcheck"); #endif #ifdef __SGE_COMPILE_WITH_GETTEXT__ /* init language output for gettext() , it will use the right language */ sge_init_language_func((gettext_func_type) gettext, (setlocale_func_type) setlocale, (bindtextdomain_func_type) bindtextdomain, (textdomain_func_type) textdomain); sge_init_language(NULL,NULL); #endif /* __SGE_COMPILE_WITH_GETTEXT__ */ if (argc == 2 && !strcmp(argv[1], "-cb")) { core_binding = 1; } else { for (i = 1; i < argc;) { if (!strcmp(argv[i], "-int")) print_as_int = 1; else if (!strcmp(argv[i], "-loadval")) { if (i + 1 < argc) pos=i+1; else usage(); i++; } else usage(); i++; } } if (core_binding) { check_core_binding(); #ifndef WINDOWS DEXIT; #endif return 1; } else if (print_as_int) { m = ""; precision = 0; } else { m = "M"; precision = 6; } if ((pos && !strcmp("arch", argv[pos])) || !pos) { const char *arch = ""; #if defined(WINDOWS) arch = "win32-x86"; #else arch = sge_get_arch(); #endif printf("arch %s\n", arch); } if ((pos && !strcmp("num_proc", argv[pos])) || !pos) { int nprocs = 1; #if defined(WINDOWS) SYSTEM_INFO system_info; char buf[100]; GetSystemInfo(&system_info); nprocs = system_info.dwNumberOfProcessors; sprintf(buf, "num_proc %d", nprocs); fflush(stdout); write(1, (const void*)buf, (unsigned int)strlen(buf)); write(1, (const void*)"\0x0a", (unsigned int)1); #else nprocs = sge_nprocs(); printf("num_proc %d\n", nprocs); #endif } #if defined(PLPA_LINUX) || defined(SOLARIS86) || defined(SOLARISAMD64) fill_socket_core_topology(&msocket, &mcore, &mtopology); if ((pos && !strcmp("m_socket", argv[pos])) || !pos) { printf("m_socket %s\n", sge_dstring_get_string(&msocket)); } if ((pos && !strcmp("m_core", argv[pos])) || !pos) { printf("m_core %s\n", sge_dstring_get_string(&mcore)); } if ((pos && !strcmp("m_topology", argv[pos])) || !pos) { printf("m_topology %s\n", sge_dstring_get_string(&mtopology)); } #else if ((pos && !strcmp("m_socket", argv[pos])) || !pos) { printf("m_socket -\n"); } if ((pos && !strcmp("m_core", argv[pos])) || !pos) { printf("m_core -\n"); } if ((pos && !strcmp("m_topology", argv[pos])) || !pos) { printf("m_topology -\n"); } #endif #if defined(WINDOWS) loads = 0; avg[0] = avg[1] = avg[2] = 0; #else loads = sge_getloadavg(avg, 3); #endif if (loads>0 && ((pos && !strcmp("load_short", argv[pos])) || !pos)) printf("load_short %.2f\n", avg[0]); if (loads>1 && ((pos && !strcmp("load_medium", argv[pos])) || !pos)) printf("load_medium %.2f\n", avg[1]); if (loads>2 && ((pos && !strcmp("load_long", argv[pos])) || !pos)) printf("load_long %.2f\n", avg[2]); if (pos) name = argv[pos]; else name = NULL; #ifdef SGE_LOADMEM /* memory load report */ memset(&mem_info, 0, sizeof(sge_mem_info_t)); if (sge_loadmem(&mem_info)) { fprintf(stderr, MSG_SYSTEM_RETMEMORYINDICESFAILED ); fprintf(stderr, "\n"); #ifndef WINDOWS DEXIT; #endif #if defined(PLPA_LINUX) || defined(SOLARIS86) || defined(SOLARISAMD64) sge_dstring_free(&mcore); sge_dstring_free(&msocket); sge_dstring_free(&mtopology); #endif return 1; } print_mem_load(LOAD_ATTR_MEM_FREE, name, precision, mem_info.mem_free, m); print_mem_load(LOAD_ATTR_SWAP_FREE, name, precision, mem_info.swap_free, m); print_mem_load(LOAD_ATTR_VIRTUAL_FREE, name, precision, mem_info.mem_free + mem_info.swap_free, m); print_mem_load(LOAD_ATTR_MEM_TOTAL, name, precision, mem_info.mem_total, m); print_mem_load(LOAD_ATTR_SWAP_TOTAL, name, precision, mem_info.swap_total, m); print_mem_load(LOAD_ATTR_VIRTUAL_TOTAL, name, precision, mem_info.mem_total + mem_info.swap_total, m); print_mem_load(LOAD_ATTR_MEM_USED, name, precision, mem_info.mem_total - mem_info.mem_free, m); print_mem_load(LOAD_ATTR_SWAP_USED, name, precision, mem_info.swap_total - mem_info.swap_free, m); print_mem_load(LOAD_ATTR_VIRTUAL_USED, name, precision,(mem_info.mem_total + mem_info.swap_total) - (mem_info.mem_free + mem_info.swap_free), m); # ifdef IRIX print_mem_load(LOAD_ATTR_SWAP_USED, name, precision, mem_info.swap_rsvd, m); # endif #endif /* SGE_LOADMEM */ #ifdef SGE_LOADCPU loads = sge_getcpuload(&total); sleep(1); loads = sge_getcpuload(&total); if (loads != -1) { print_mem_load("cpu", name, 1, total, "%"); } #endif /* SGE_LOADCPU */ #ifndef WINDOWS DEXIT; #endif #if defined(PLPA_LINUX) || defined(SOLARIS86) || defined(SOLARISAMD64) sge_dstring_free(&mcore); sge_dstring_free(&msocket); sge_dstring_free(&mtopology); #endif return 0; } void print_mem_load( char *name, char *thisone, int precision, double value, char *m ) { if ((thisone && !strcmp(name, thisone)) || !thisone) printf("%-15s %.*f%s\n", name, precision, value, m); } /****** loadcheck/check_core_binding() ***************************************** * NAME * check_core_binding() -- Checks core binding functionality on current host. * * SYNOPSIS * void check_core_binding() * * FUNCTION * Checks core binding functionality on current host. * * INPUTS * * RESULT * void - No result * *******************************************************************************/ void check_core_binding() { /* try if it is possible to use plpa in case of Linux */ #if defined(LINUX) #if !defined(PLPA_LINUX) printf("Your SGE Linux version has no built-in core binding functionality!\n"); #else printf("Your SGE Linux version has built-in core binding functionality!\n"); test_linux_plpa(); #endif #elif defined(SOLARIS) #if defined(SOLARIS86) || defined(SOLARISAMD64) printf("Your SGE Solaris version has built-in core binding functionality!\n"); test_solaris_binding(); #else printf("Your SGE Solaris version has no built-in core binding functionality!\n"); #endif #else printf("Your SGE does currently not support core binding on this platform!\n"); #endif } #if defined(PLPA_LINUX) void test_linux_plpa() { dstring error = DSTRING_INIT; char* topology = NULL; int length = 0; int s, c; struct utsname name; if (uname(&name) != -1) { printf("Your Linux kernel version is: %s\n", name.release); } if (!_has_core_binding(&error)) { printf("Your Linux kernel seems not to offer core binding capabilities for PLPA!\nReason: %s\n", sge_dstring_get_string(&error)); } if (!_has_topology_information()) { printf("No topology information could by retrieved by PLPA!\n"); } else { /* get amount of sockets */ printf("Amount of sockets:\t\t%d\n", get_amount_of_sockets()); /* get amount of cores */ printf("Amount of cores:\t\t%d\n", get_total_amount_of_cores()); /* get topology */ get_topology_linux(&topology, &length); printf("Topology:\t\t\t%s\n", topology); FREE(topology); printf("Mapping of logical socket and core numbers to internal\n"); /* for each socket,core pair get the internal processor number */ /* try multi-mapping */ for (s = 0; s < get_amount_of_sockets(); s++) { for (c = 0; c < get_amount_of_cores(s); c++) { int* proc_ids = NULL; int amount = 0; if (get_processor_ids_linux(s, c, &proc_ids, &amount)) { int i = 0; printf("Internal processor ids for socket %5d core %5d: ", s , c); for (i = 0; i < amount; i++) { printf(" %5d", proc_ids[i]); } printf("\n"); FREE(proc_ids); } else { printf("Couldn't get processor ids for socket %5d core %5d\n", s, c); } } } } sge_dstring_free(&error); return; } #endif #if defined(SOLARIS86) || defined(SOLARISAMD64) /****** loadcheck/test_solaris_binding() *************************************** * NAME * test_solaris_binding() -- Tests Solaris binding and topology information. * * SYNOPSIS * void test_solaris_binding() * * FUNCTION * Tests Solaris binding and checks the amount of cores and sockets * on the system as well as the topology information. * * INPUTS * * RESULT * void - returns nothing * *******************************************************************************/ void test_solaris_binding() { char* topology = NULL; int length; int sockets, cores, s; /* get amount of sockets */ sockets = get_execd_amount_of_sockets(); printf("Amount of sockets:\t\t%d\n", sockets); /* get amount of cores */ cores = get_execd_amount_of_cores(); printf("Amount of cores:\t\t%d\n", cores); /* get topology */ if (get_execd_topology(&topology, &length)) { int** matrix = NULL; int mlength = 0; int* cores = NULL; int size; printf("Topology:\t\t\t%s\n", topology); if (!generate_chipID_coreID_matrix(&matrix, &mlength)) { printf("Couldn't get valid information from kstat cpu_info!\n"); FREE(topology); return; } printf("Dumping internal (kstat) matrix:\n"); for (s = 0; s < mlength; s++) { printf("chip_id: %5d core_id: %5d processor_id: %5d\n", (matrix[s])[0], (matrix[s])[1], (matrix[s])[2]); } free_matrix(matrix, mlength); } else { printf("Couldn't get the topology string!\n"); } } #endif #if defined(PLPA_LINUX) || defined(SOLARIS86) || defined(SOLARISAMD64) /****** loadcheck/fill_socket_core_topology() ********************************** * NAME * fill_socket_core_topology() -- Get load values regarding processor topology. * * SYNOPSIS * void fill_socket_core_topology(dstring* msocket, dstring* mcore, dstring* * mtopology) * * FUNCTION * Gets the values regarding processor topology. * * OUTPUTS * dstring* msocket - The amount of sockets the host have. * dstring* mcore - The amount of cores the host have. * dstring* mtopology - The topology the host have. * * RESULT * void - nothing * *******************************************************************************/ void fill_socket_core_topology(dstring* msocket, dstring* mcore, dstring* mtopology) { int ms, mc; char* topo = NULL; int length = 0; ms = get_execd_amount_of_sockets(); mc = get_execd_amount_of_cores(); if (!get_execd_topology(&topo, &length) || topo == NULL) { topo = sge_strdup(NULL, "-"); } sge_dstring_sprintf(msocket, "%d", ms); sge_dstring_sprintf(mcore, "%d", mc); sge_dstring_append(mtopology, topo); FREE(topo); } #endif