/* Copyright (C) 2005-2023 Free Software Foundation, Inc. Contributed by Richard Henderson . This file is part of the GNU Offloading and Multi Processing Library (libgomp). Libgomp is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. Libgomp is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . */ /* This file defines the OpenMP internal control variables and arranges for them to be initialized from environment variables at startup. */ #define _GNU_SOURCE #include "libgomp.h" #include "gomp-constants.h" #include #ifndef LIBGOMP_OFFLOADED_ONLY #include "libgomp_f.h" #include "oacc-int.h" #include #include #include #ifdef HAVE_INTTYPES_H # include /* For PRIu64. */ #endif #ifdef STRING_WITH_STRINGS # include # include #else # ifdef HAVE_STRING_H # include # else # ifdef HAVE_STRINGS_H # include # endif # endif #endif #include #include "thread-stacksize.h" #ifndef HAVE_STRTOULL # define strtoull(ptr, eptr, base) strtoul (ptr, eptr, base) #endif #endif /* LIBGOMP_OFFLOADED_ONLY */ #include "secure_getenv.h" #include "environ.h" /* Default values of ICVs according to the OpenMP standard. */ const struct gomp_default_icv gomp_default_icv_values = { .nthreads_var = 1, .thread_limit_var = UINT_MAX, .run_sched_var = GFS_DYNAMIC, .run_sched_chunk_size = 1, .default_device_var = 0, .max_active_levels_var = 1, .bind_var = omp_proc_bind_false, .nteams_var = 0, .teams_thread_limit_var = 0, .dyn_var = false }; struct gomp_task_icv gomp_global_icv = { .nthreads_var = gomp_default_icv_values.nthreads_var, .thread_limit_var = gomp_default_icv_values.thread_limit_var, .run_sched_var = gomp_default_icv_values.run_sched_var, .run_sched_chunk_size = gomp_default_icv_values.run_sched_chunk_size, .default_device_var = gomp_default_icv_values.default_device_var, .dyn_var = gomp_default_icv_values.dyn_var, .max_active_levels_var = gomp_default_icv_values.max_active_levels_var, .bind_var = gomp_default_icv_values.bind_var, .target_data = NULL }; /* List for initial "_DEV", "_ALL", and "_DEV_X" ICVs like OMP_NUM_TEAMS_DEV, OMP_NUM_TEAMS_ALL, or OMP_NUM_TEAMS_DEV_42. */ struct gomp_icv_list *gomp_initial_icv_list = NULL; /* List for "_DEV_X" ICVs like OMP_NUM_TEAMS_DEV_42. This list contains all device-specific ICVs that are copied from host to device and back. */ struct gomp_offload_icv_list *gomp_offload_icv_list = NULL; bool gomp_cancel_var = false; enum gomp_target_offload_t gomp_target_offload_var = GOMP_TARGET_OFFLOAD_DEFAULT; int gomp_max_task_priority_var = 0; #ifndef HAVE_SYNC_BUILTINS gomp_mutex_t gomp_managed_threads_lock; #endif unsigned long gomp_available_cpus = 1, gomp_managed_threads = 1; unsigned long long gomp_spin_count_var, gomp_throttled_spin_count_var; unsigned long *gomp_nthreads_var_list, gomp_nthreads_var_list_len; char *gomp_bind_var_list; unsigned long gomp_bind_var_list_len; void **gomp_places_list; unsigned long gomp_places_list_len; uintptr_t gomp_def_allocator = omp_default_mem_alloc; int gomp_debug_var; unsigned int gomp_num_teams_var; int gomp_nteams_var; int gomp_teams_thread_limit_var; bool gomp_display_affinity_var; char *gomp_affinity_format_var = "level %L thread %i affinity %A"; size_t gomp_affinity_format_len; char *goacc_device_type; int goacc_device_num; int goacc_default_dims[GOMP_DIM_MAX]; #ifndef LIBGOMP_OFFLOADED_ONLY static int wait_policy = -1; static unsigned long stacksize = GOMP_DEFAULT_STACKSIZE; static void print_env_var_error (const char *env, const char *val) { gomp_error ("Invalid value for environment variable %.*s: %s", (int) (val - env - 1), env, val); } /* Parse the OMP_SCHEDULE environment variable. */ static bool parse_schedule (const char *env, const char *val, void *const params[]) { enum gomp_schedule_type *schedule = (enum gomp_schedule_type *) params[0]; int *chunk_size = (int *) params[1]; char *end; unsigned long value; int monotonic = 0; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (strncasecmp (val, "monotonic", 9) == 0) { monotonic = 1; val += 9; } else if (strncasecmp (val, "nonmonotonic", 12) == 0) { monotonic = -1; val += 12; } if (monotonic) { while (isspace ((unsigned char) *val)) ++val; if (*val != ':') goto unknown; ++val; while (isspace ((unsigned char) *val)) ++val; } if (strncasecmp (val, "static", 6) == 0) { *schedule = GFS_STATIC; val += 6; } else if (strncasecmp (val, "dynamic", 7) == 0) { *schedule = GFS_DYNAMIC; val += 7; } else if (strncasecmp (val, "guided", 6) == 0) { *schedule = GFS_GUIDED; val += 6; } else if (strncasecmp (val, "auto", 4) == 0) { *schedule = GFS_AUTO; val += 4; } else goto unknown; if (monotonic == 1 || (monotonic == 0 && *schedule == GFS_STATIC)) *schedule |= GFS_MONOTONIC; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') { *chunk_size = (*schedule & ~GFS_MONOTONIC) != GFS_STATIC; return true; } if (*val++ != ',') goto unknown; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; errno = 0; value = strtoul (val, &end, 10); if (errno || end == val) goto invalid; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') goto invalid; if ((int)value != value) goto invalid; if (value == 0 && (*schedule & ~GFS_MONOTONIC) != GFS_STATIC) value = 1; *chunk_size = value; return true; unknown: print_env_var_error (env, val); return false; invalid: char name[val - env]; memcpy (name, env, val - env - 1); name[val - env - 1] = '\0'; gomp_error ("Invalid value for chunk size in " "environment variable %s: %s", name, val); return false; } /* Parse an unsigned long environment variable. Return true if one was present and it was successfully parsed. If SECURE, use secure_getenv to the environment variable. */ static bool parse_unsigned_long_1 (const char *env, const char *val, unsigned long *pvalue, bool allow_zero) { char *end; unsigned long value; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; errno = 0; value = strtoul (val, &end, 10); if (errno || end == val || (long) value <= 0 - allow_zero) goto invalid; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') goto invalid; *pvalue = value; return true; invalid: print_env_var_error (env, val); return false; } /* As parse_unsigned_long_1, but always use getenv. */ static bool parse_unsigned_long (const char *env, const char *val, void *const params[]) { unsigned long upper = (uintptr_t) params[2]; unsigned long pvalue = 0; bool ret = parse_unsigned_long_1 (env, val, &pvalue, (bool) params[1]); if (!ret) return false; if (upper == 0) *(unsigned long *) params[0] = pvalue; else { if (pvalue > upper) pvalue = upper; if (upper <= UCHAR_MAX) *(unsigned char *) params[0] = pvalue; else if (upper <= UINT_MAX) *(unsigned int *) params[0] = pvalue; else *(unsigned long *) params[0] = pvalue; } return ret; } /* Parse a positive int environment variable. Return true if one was present and it was successfully parsed. If SECURE, use secure_getenv to the environment variable. */ static bool parse_int_1 (const char *env, const char *val, int *pvalue, bool allow_zero) { unsigned long value; if (!parse_unsigned_long_1 (env, val, &value, allow_zero)) return false; if (value > INT_MAX) { print_env_var_error (env, val); return false; } *pvalue = (int) value; return true; } static bool parse_int (const char *env, const char *val, void *const params[]) { return parse_int_1 (env, val, (int *) params[0], (bool) params[1]); } /* As parse_int_1, but use getenv_secure. */ static bool parse_int_secure (const char *env, int *pvalue, bool allow_zero) { return parse_int_1 (env, secure_getenv (env), pvalue, allow_zero); } /* Parse an unsigned long list environment variable. Return true if one was present and it was successfully parsed. */ static bool parse_unsigned_long_list (const char *env, const char *val, void *const params[]) { unsigned long *p1stvalue = (unsigned long *) params[0]; unsigned long **pvalues = (unsigned long **) params[1]; unsigned long *pnvalues = (unsigned long *) params[2]; char *end; unsigned long value, *values = NULL; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; errno = 0; value = strtoul (val, &end, 10); if (errno || (long) value <= 0) goto invalid; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') { if (*end == ',') { unsigned long nvalues = 0, nalloced = 0; do { val = end + 1; if (nvalues == nalloced) { unsigned long *n; nalloced = nalloced ? nalloced * 2 : 16; n = realloc (values, nalloced * sizeof (unsigned long)); if (n == NULL) { free (values); char name[val - env]; memcpy (name, env, val - env - 1); name[val - env - 1] = '\0'; gomp_error ("Out of memory while trying to parse" " environment variable %s", name); return false; } values = n; if (nvalues == 0) values[nvalues++] = value; } while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; errno = 0; value = strtoul (val, &end, 10); if (errno || (long) value <= 0) goto invalid; values[nvalues++] = value; while (isspace ((unsigned char) *end)) ++end; if (*end == '\0') break; if (*end != ',') goto invalid; } while (1); *p1stvalue = values[0]; *pvalues = values; *pnvalues = nvalues; return true; } goto invalid; } else { *pnvalues = 0; *pvalues = NULL; } *p1stvalue = value; return true; invalid: free (values); print_env_var_error (env, val); return false; } static bool parse_target_offload (const char *env, const char *val, void *const params[]) { int new_offload = -1; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (strncasecmp (val, "default", 7) == 0) { val += 7; new_offload = GOMP_TARGET_OFFLOAD_DEFAULT; } else if (strncasecmp (val, "mandatory", 9) == 0) { val += 9; new_offload = GOMP_TARGET_OFFLOAD_MANDATORY; } else if (strncasecmp (val, "disabled", 8) == 0) { val += 8; new_offload = GOMP_TARGET_OFFLOAD_DISABLED; } while (isspace ((unsigned char) *val)) ++val; if (new_offload != -1 && *val == '\0') { *(enum gomp_target_offload_t *) params[0] = new_offload; return true; } print_env_var_error (env, val); return false; } /* Parse environment variable set to a boolean or list of omp_proc_bind_t enum values. Return true if one was present and it was successfully parsed. */ static bool parse_bind_var (const char *env, const char *val, void *const params[]) { char *p1stvalue = (char *) params[0]; char **pvalues = (char **) params[1]; unsigned long *pnvalues = (unsigned long *) params[2]; char value = omp_proc_bind_false, *values = NULL; int i; static struct proc_bind_kinds { const char name[7]; const char len; omp_proc_bind_t kind; } kinds[] = { { "false", 5, omp_proc_bind_false }, { "true", 4, omp_proc_bind_true }, { "master", 6, omp_proc_bind_master }, { "primary", 7, omp_proc_bind_primary }, { "close", 5, omp_proc_bind_close }, { "spread", 6, omp_proc_bind_spread } }; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; for (i = 0; i < 6; i++) if (strncasecmp (val, kinds[i].name, kinds[i].len) == 0) { value = kinds[i].kind; val += kinds[i].len; break; } if (i == 6) goto invalid; while (isspace ((unsigned char) *val)) ++val; if (*val != '\0') { if (*val == ',') { unsigned long nvalues = 0, nalloced = 0; if (value == omp_proc_bind_false || value == omp_proc_bind_true) goto invalid; do { val++; if (nvalues == nalloced) { char *n; nalloced = nalloced ? nalloced * 2 : 16; n = realloc (values, nalloced); if (n == NULL) { free (values); char name[val - env]; memcpy (name, env, val - env - 1); name[val - env - 1] = '\0'; gomp_error ("Out of memory while trying to parse" " environment variable %s", name); return false; } values = n; if (nvalues == 0) values[nvalues++] = value; } while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; for (i = 2; i < 6; i++) if (strncasecmp (val, kinds[i].name, kinds[i].len) == 0) { value = kinds[i].kind; val += kinds[i].len; break; } if (i == 6) goto invalid; values[nvalues++] = value; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') break; if (*val != ',') goto invalid; } while (1); *p1stvalue = values[0]; *pvalues = values; *pnvalues = nvalues; return true; } goto invalid; } *p1stvalue = value; return true; invalid: free (values); print_env_var_error (env, val); return false; } static bool parse_one_place (char **envp, bool *negatep, unsigned long *lenp, long *stridep) { char *env = *envp, *start; void *p = gomp_places_list ? gomp_places_list[gomp_places_list_len] : NULL; unsigned long len = 1; long stride = 1; int pass; bool any_negate = false; bool has_braces = true; *negatep = false; while (isspace ((unsigned char) *env)) ++env; if (*env == '!') { *negatep = true; ++env; while (isspace ((unsigned char) *env)) ++env; } if (*env != '{') { char *end; unsigned long this_num; errno = 0; this_num = strtoul (env, &end, 10); if (errno || end == env) return false; env = end - 1; has_braces = false; if (gomp_places_list && !gomp_affinity_add_cpus (p, this_num, 1, 1, false)) return false; } else { ++env; while (isspace ((unsigned char) *env)) ++env; } start = env; for (pass = 0; pass < (any_negate ? 2 : has_braces); pass++) { env = start; do { unsigned long this_num, this_len = 1; long this_stride = 1; bool this_negate = (*env == '!'); char *end; if (this_negate) { if (gomp_places_list) any_negate = true; ++env; while (isspace ((unsigned char) *env)) ++env; } errno = 0; this_num = strtoul (env, &end, 10); if (errno || end == env) return false; env = end; while (isspace ((unsigned char) *env)) ++env; if (*env == ':') { ++env; if (this_negate) return false; while (isspace ((unsigned char) *env)) ++env; errno = 0; this_len = strtoul (env, &env, 10); if (errno || this_len == 0) return false; while (isspace ((unsigned char) *env)) ++env; if (*env == ':') { ++env; while (isspace ((unsigned char) *env)) ++env; errno = 0; this_stride = strtol (env, &end, 10); if (errno || end == env) return false; env = end; while (isspace ((unsigned char) *env)) ++env; } } if (gomp_places_list && pass == this_negate) { if (this_negate) { if (!gomp_affinity_remove_cpu (p, this_num)) return false; } else if (!gomp_affinity_add_cpus (p, this_num, this_len, this_stride, false)) return false; } if (*env == '}') break; if (*env != ',') return false; ++env; } while (1); } ++env; while (isspace ((unsigned char) *env)) ++env; if (*env == ':') { char *end; if (*negatep) return false; ++env; while (isspace ((unsigned char) *env)) ++env; errno = 0; len = strtoul (env, &env, 10); if (errno || len == 0 || len >= 65536) return false; while (isspace ((unsigned char) *env)) ++env; if (*env == ':') { ++env; while (isspace ((unsigned char) *env)) ++env; errno = 0; stride = strtol (env, &end, 10); if (errno || end == env) return false; env = end; while (isspace ((unsigned char) *env)) ++env; } } *envp = env; *lenp = len; *stridep = stride; return true; } static bool parse_places_var (const char *name, bool ignore) { char *env = getenv (name), *end; bool any_negate = false; int level = 0; unsigned long count = 0; if (env == NULL) return false; while (isspace ((unsigned char) *env)) ++env; if (*env == '\0') goto invalid; if (strncasecmp (env, "threads", 7) == 0) { env += 7; level = 1; } else if (strncasecmp (env, "cores", 5) == 0) { env += 5; level = 2; } else if (strncasecmp (env, "sockets", 7) == 0) { env += 7; level = 3; } else if (strncasecmp (env, "ll_caches", 9) == 0) { env += 9; level = 4; } else if (strncasecmp (env, "numa_domains", 12) == 0) { env += 12; level = 5; } if (level) { count = ULONG_MAX; while (isspace ((unsigned char) *env)) ++env; if (*env != '\0') { if (*env++ != '(') goto invalid; while (isspace ((unsigned char) *env)) ++env; errno = 0; count = strtoul (env, &end, 10); if (errno || end == env) goto invalid; env = end; while (isspace ((unsigned char) *env)) ++env; if (*env != ')') goto invalid; ++env; while (isspace ((unsigned char) *env)) ++env; if (*env != '\0') goto invalid; } if (ignore) return false; return gomp_affinity_init_level (level, count, false); } count = 0; end = env; do { bool negate; unsigned long len; long stride; if (!parse_one_place (&end, &negate, &len, &stride)) goto invalid; if (negate) { if (!any_negate) count++; any_negate = true; } else count += len; if (count > 65536) goto invalid; if (*end == '\0') break; if (*end != ',') goto invalid; end++; } while (1); if (ignore) return false; gomp_places_list_len = 0; gomp_places_list = gomp_affinity_alloc (count, false); if (gomp_places_list == NULL) return false; do { bool negate; unsigned long len; long stride; gomp_affinity_init_place (gomp_places_list[gomp_places_list_len]); if (!parse_one_place (&env, &negate, &len, &stride)) goto invalid; if (negate) { void *p; for (count = 0; count < gomp_places_list_len; count++) if (gomp_affinity_same_place (gomp_places_list[count], gomp_places_list[gomp_places_list_len])) break; if (count == gomp_places_list_len) { gomp_error ("Trying to remove a non-existing place from list " "of places"); goto invalid; } p = gomp_places_list[count]; memmove (&gomp_places_list[count], &gomp_places_list[count + 1], (gomp_places_list_len - count - 1) * sizeof (void *)); --gomp_places_list_len; gomp_places_list[gomp_places_list_len] = p; } else if (len == 1) ++gomp_places_list_len; else { for (count = 0; count < len - 1; count++) if (!gomp_affinity_copy_place (gomp_places_list[gomp_places_list_len + count + 1], gomp_places_list[gomp_places_list_len + count], stride)) goto invalid; gomp_places_list_len += len; } if (*env == '\0') break; env++; } while (1); if (gomp_places_list_len == 0) { gomp_error ("All places have been removed"); goto invalid; } if (!gomp_affinity_finalize_place_list (false)) goto invalid; return true; invalid: free (gomp_places_list); gomp_places_list = NULL; gomp_places_list_len = 0; gomp_error ("Invalid value for environment variable %s", name); return false; } /* Parse the OMP_STACKSIZE environment varible. Return true if one was present and it was successfully parsed. */ static bool parse_stacksize (const char *env, const char *val, void *const params[]) { char *end; unsigned long value, shift = 10; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') goto invalid; errno = 0; value = strtoul (val, &end, 10); if (errno || end == val) goto invalid; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') { switch (tolower ((unsigned char) *end)) { case 'b': shift = 0; break; case 'k': break; case 'm': shift = 20; break; case 'g': shift = 30; break; default: goto invalid; } ++end; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') goto invalid; } if (((value << shift) >> shift) != value) goto invalid; *(unsigned long *) params[0] = value << shift; return true; invalid: print_env_var_error (env, val); return false; } /* Parse the GOMP_SPINCOUNT environment varible. Return true if one was present and it was successfully parsed. */ static bool parse_spincount (const char *name, unsigned long long *pvalue) { char *env, *end; unsigned long long value, mult = 1; env = getenv (name); if (env == NULL) return false; while (isspace ((unsigned char) *env)) ++env; if (*env == '\0') goto invalid; if (strncasecmp (env, "infinite", 8) == 0 || strncasecmp (env, "infinity", 8) == 0) { value = ~0ULL; end = env + 8; goto check_tail; } errno = 0; value = strtoull (env, &end, 10); if (errno || end == env) goto invalid; while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') { switch (tolower ((unsigned char) *end)) { case 'k': mult = 1000LL; break; case 'm': mult = 1000LL * 1000LL; break; case 'g': mult = 1000LL * 1000LL * 1000LL; break; case 't': mult = 1000LL * 1000LL * 1000LL * 1000LL; break; default: goto invalid; } ++end; check_tail: while (isspace ((unsigned char) *end)) ++end; if (*end != '\0') goto invalid; } if (value > ~0ULL / mult) value = ~0ULL; else value *= mult; *pvalue = value; return true; invalid: gomp_error ("Invalid value for environment variable %s", name); return false; } /* Parse a boolean value for environment variable NAME and store the result in VALUE. Return true if one was present and it was successfully parsed. */ static bool parse_boolean (const char *env, const char *val, void *const params[]) { bool *value = (bool *) params[0]; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (strncasecmp (val, "true", 4) == 0) { *value = true; val += 4; } else if (strncasecmp (val, "false", 5) == 0) { *value = false; val += 5; } else val = "X"; while (isspace ((unsigned char) *val)) ++val; if (*val != '\0') { print_env_var_error (env, val); return false; } return true; } /* Parse the OMP_WAIT_POLICY environment variable and return the value. */ static bool parse_wait_policy (const char *env, const char *val, void *const params[]) { int *pvalue = (int *) params[0]; int ret = -1; if (val == NULL) { *pvalue = -1; return false; } while (isspace ((unsigned char) *val)) ++val; if (strncasecmp (val, "active", 6) == 0) { ret = 1; val += 6; } else if (strncasecmp (val, "passive", 7) == 0) { ret = 0; val += 7; } else val = "X"; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') { *pvalue = ret; return true; } print_env_var_error (env, val); *pvalue = -1; return false; } /* Parse the GOMP_CPU_AFFINITY environment varible. Return true if one was present and it was successfully parsed. */ static bool parse_affinity (bool ignore) { char *env, *end, *start; int pass; unsigned long cpu_beg, cpu_end, cpu_stride; size_t count = 0, needed; env = getenv ("GOMP_CPU_AFFINITY"); if (env == NULL) return false; start = env; for (pass = 0; pass < 2; pass++) { env = start; if (pass == 1) { if (ignore) return false; gomp_places_list_len = 0; gomp_places_list = gomp_affinity_alloc (count, true); if (gomp_places_list == NULL) return false; } do { while (isspace ((unsigned char) *env)) ++env; errno = 0; cpu_beg = strtoul (env, &end, 0); if (errno || end == env || cpu_beg >= 65536) goto invalid; cpu_end = cpu_beg; cpu_stride = 1; env = end; if (*env == '-') { errno = 0; cpu_end = strtoul (++env, &end, 0); if (errno || end == env || cpu_end >= 65536 || cpu_end < cpu_beg) goto invalid; env = end; if (*env == ':') { errno = 0; cpu_stride = strtoul (++env, &end, 0); if (errno || cpu_stride == 0 || cpu_stride >= 65536) goto invalid; env = end; } } needed = (cpu_end - cpu_beg) / cpu_stride + 1; if (pass == 0) count += needed; else { while (needed--) { void *p = gomp_places_list[gomp_places_list_len]; gomp_affinity_init_place (p); if (gomp_affinity_add_cpus (p, cpu_beg, 1, 0, true)) ++gomp_places_list_len; cpu_beg += cpu_stride; } } while (isspace ((unsigned char) *env)) ++env; if (*env == ',') env++; else if (*env == '\0') break; } while (1); } if (gomp_places_list_len == 0) { free (gomp_places_list); gomp_places_list = NULL; return false; } return true; invalid: gomp_error ("Invalid value for enviroment variable GOMP_CPU_AFFINITY"); return false; } /* Parse the OMP_ALLOCATOR environment variable and return the value. */ static bool parse_allocator (const char *env, const char *val, void *const params[]) { uintptr_t *ret = (uintptr_t *) params[0]; *ret = omp_default_mem_alloc; if (val == NULL) return false; while (isspace ((unsigned char) *val)) ++val; if (0) ; #define C(v) \ else if (strncasecmp (val, #v, sizeof (#v) - 1) == 0) \ { \ *ret = v; \ val += sizeof (#v) - 1; \ } C (omp_default_mem_alloc) C (omp_large_cap_mem_alloc) C (omp_const_mem_alloc) C (omp_high_bw_mem_alloc) C (omp_low_lat_mem_alloc) C (omp_cgroup_mem_alloc) C (omp_pteam_mem_alloc) C (omp_thread_mem_alloc) #undef C else val = "X"; while (isspace ((unsigned char) *val)) ++val; if (*val == '\0') return true; print_env_var_error (env, val); *ret = omp_default_mem_alloc; return false; } static void parse_acc_device_type (void) { const char *env = getenv ("ACC_DEVICE_TYPE"); if (env && *env != '\0') goacc_device_type = strdup (env); else goacc_device_type = NULL; } static void parse_gomp_openacc_dim (void) { /* The syntax is the same as for the -fopenacc-dim compilation option. */ const char *var_name = "GOMP_OPENACC_DIM"; const char *env_var = getenv (var_name); const char *pos = env_var; int i; if (!env_var) return; for (i = 0; *pos && i != GOMP_DIM_MAX; i++) { char *eptr; long val; if (i && *pos++ != ':') break; if (*pos == ':') continue; errno = 0; val = strtol (pos, &eptr, 10); if (errno || eptr == pos || val < 0 || (unsigned)val != val) break; goacc_default_dims[i] = (int)val; pos = (const char *) eptr; } } /* Helper function for omp_display_env which prints the values of run_sched_var. 'device' can be 'host', 'dev', 'all' or a particular device number. */ static void print_schedule (enum gomp_schedule_type run_sched_var, int run_sched_chunk_size, const char *device) { fprintf (stderr, " [%s] OMP_SCHEDULE = '", device); if ((run_sched_var & GFS_MONOTONIC)) { if (run_sched_var != (GFS_MONOTONIC | GFS_STATIC)) fputs ("MONOTONIC:", stderr); } else if (run_sched_var == GFS_STATIC) fputs ("NONMONOTONIC:", stderr); switch (run_sched_var & ~GFS_MONOTONIC) { case GFS_RUNTIME: fputs ("RUNTIME", stderr); if (run_sched_chunk_size != 1) fprintf (stderr, ",%d", run_sched_chunk_size); break; case GFS_STATIC: fputs ("STATIC", stderr); if (run_sched_chunk_size != 0) fprintf (stderr, ",%d", run_sched_chunk_size); break; case GFS_DYNAMIC: fputs ("DYNAMIC", stderr); if (run_sched_chunk_size != 1) fprintf (stderr, ",%d", run_sched_chunk_size); break; case GFS_GUIDED: fputs ("GUIDED", stderr); if (run_sched_chunk_size != 1) fprintf (stderr, ",%d", run_sched_chunk_size); break; case GFS_AUTO: fputs ("AUTO", stderr); break; } fputs ("'\n", stderr); } /* Helper function for omp_display_env which prints the values of proc_bind_var. 'device' can be 'host', 'dev', 'all', or a particular device number. */ static void print_proc_bind (char proc_bind_var, unsigned long len, char **list, const char *device) { fprintf (stderr, " [%s] OMP_PROC_BIND = '", device); switch (proc_bind_var) { case omp_proc_bind_false: fputs ("FALSE", stderr); break; case omp_proc_bind_true: fputs ("TRUE", stderr); break; case omp_proc_bind_master: fputs ("MASTER", stderr); /* TODO: Change to PRIMARY for OpenMP 5.1. */ break; case omp_proc_bind_close: fputs ("CLOSE", stderr); break; case omp_proc_bind_spread: fputs ("SPREAD", stderr); break; } for (int i = 1; i < len; i++) switch ((*list)[i]) { case omp_proc_bind_master: fputs (",MASTER", stderr); /* TODO: Change to PRIMARY for OpenMP 5.1. */ break; case omp_proc_bind_close: fputs (",CLOSE", stderr); break; case omp_proc_bind_spread: fputs (",SPREAD", stderr); break; } fputs ("'\n", stderr); } enum gomp_parse_type { PARSE_INT = 1, PARSE_BOOL = 2, PARSE_UINT = 3, PARSE_ULONG = 4, PARSE_UCHAR = 5, PARSE_SCHEDULE =6, PARSE_BIND = 7 }; /* The following table contains items that help parsing environment variables and fill corresponding ICVs with values. FLAG_VARS contain all ICVS which are affected by the environment variable. FLAGS determine what variant of environment variable is allowed. */ #define ENTRY(NAME) NAME, sizeof (NAME) - 1 static const struct envvar { const char *name; int name_len; uint8_t flag_vars[3]; uint8_t flag; bool (*parse_func) (const char *, const char *, void *const[]); } envvars[] = { { ENTRY ("SCHEDULE"), { GOMP_ICV_SCHEDULE, GOMP_ICV_SCHEDULE_CHUNK_SIZE }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_schedule }, { ENTRY ("NUM_TEAMS"), { GOMP_ICV_NTEAMS }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_int }, { ENTRY ("DYNAMIC"), { GOMP_ICV_DYNAMIC }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_boolean }, { ENTRY ("TEAMS_THREAD_LIMIT"), { GOMP_ICV_TEAMS_THREAD_LIMIT }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_int }, { ENTRY ("THREAD_LIMIT"), { GOMP_ICV_THREAD_LIMIT }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_unsigned_long }, { ENTRY ("NUM_THREADS"), { GOMP_ICV_NTHREADS, GOMP_ICV_NTHREADS_LIST, GOMP_ICV_NTHREADS_LIST_LEN }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_unsigned_long_list }, { ENTRY ("PROC_BIND"), { GOMP_ICV_BIND, GOMP_ICV_BIND_LIST, GOMP_ICV_BIND_LIST_LEN }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_bind_var }, { ENTRY ("MAX_ACTIVE_LEVELS"), { GOMP_ICV_MAX_ACTIVE_LEVELS }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_unsigned_long }, { ENTRY ("WAIT_POLICY"), { GOMP_ICV_WAIT_POLICY }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_wait_policy }, { ENTRY ("STACKSIZE"), { GOMP_ICV_STACKSIZE }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_stacksize }, { ENTRY ("CANCELLATION"), { GOMP_ICV_CANCELLATION }, 0, &parse_boolean }, { ENTRY ("DISPLAY_AFFINITY"), { GOMP_ICV_DISPLAY_AFFINITY }, 0, &parse_boolean }, { ENTRY ("TARGET_OFFLOAD"), { GOMP_ICV_TARGET_OFFLOAD }, 0, &parse_target_offload }, { ENTRY ("MAX_TASK_PRIORITY"), { GOMP_ICV_MAX_TASK_PRIORITY }, 0, &parse_int }, { ENTRY ("ALLOCATOR"), { GOMP_ICV_ALLOCATOR }, 0, &parse_allocator }, { ENTRY ("DEFAULT_DEVICE"), { GOMP_ICV_DEFAULT_DEVICE }, GOMP_ENV_SUFFIX_DEV | GOMP_ENV_SUFFIX_ALL | GOMP_ENV_SUFFIX_DEV_X, &parse_int } }; #undef ENTRY #define OMP_VAR_CNT (sizeof (envvars) / sizeof (envvars[0])) /* The following table is used to apply the hierarchy of ICV variants for host variables, e.g. nteams_var is set to OMP_NUM_TEAMS_ALL if OMP_NUM_TEAMS is undefined. */ static const struct host_envvar { unsigned char flag_var; void *dest[3]; int type_code; } host_envvars[] = { { GOMP_ICV_NTEAMS, { &gomp_nteams_var }, PARSE_INT }, { GOMP_ICV_DYNAMIC, { &gomp_global_icv.dyn_var }, PARSE_BOOL }, { GOMP_ICV_DEFAULT_DEVICE, { &gomp_global_icv.default_device_var }, PARSE_INT }, { GOMP_ICV_TEAMS_THREAD_LIMIT, { &gomp_teams_thread_limit_var }, PARSE_INT }, { GOMP_ICV_SCHEDULE, { &gomp_global_icv.run_sched_var, &gomp_global_icv.run_sched_chunk_size }, PARSE_SCHEDULE }, { GOMP_ICV_THREAD_LIMIT, { &gomp_global_icv.thread_limit_var }, PARSE_UINT }, { GOMP_ICV_NTHREADS, { &gomp_global_icv.nthreads_var, &gomp_nthreads_var_list, &gomp_nthreads_var_list_len }, PARSE_ULONG }, { GOMP_ICV_BIND, { &gomp_global_icv.bind_var, &gomp_bind_var_list, &gomp_bind_var_list_len }, PARSE_BIND }, { GOMP_ICV_MAX_ACTIVE_LEVELS, { &gomp_global_icv.max_active_levels_var }, PARSE_UCHAR }, }; #define OMP_HOST_VAR_CNT (sizeof (host_envvars) / sizeof (host_envvars[0])) #define INT_MAX_STR_LEN 10 bool gomp_get_icv_flag (uint32_t value, enum gomp_icvs icv) { return value & (1 << (icv - 1)); } static void gomp_set_icv_flag (uint32_t *value, enum gomp_icvs icv) { *value |= 1 << (icv - 1); } static void print_device_specific_icvs (int icv_code) { struct gomp_icv_list *list = gomp_initial_icv_list; int i; char dev_num[INT_MAX_STR_LEN + 1]; while (list != NULL) { if (list->device_num < 0) { list = list->next; continue; } switch (icv_code) { case GOMP_ICV_NTEAMS: if (gomp_get_icv_flag (list->flags, GOMP_ICV_NTEAMS)) fprintf (stderr, " [%d] OMP_NUM_TEAMS = '%d'\n", list->device_num, list->icvs.nteams_var); break; case GOMP_ICV_DYNAMIC: if (gomp_get_icv_flag (list->flags, GOMP_ICV_DYNAMIC)) fprintf (stderr, " [%d] OMP_DYNAMIC = '%s'\n", list->device_num, list->icvs.dyn_var ? "TRUE" : "FALSE"); break; case GOMP_ICV_TEAMS_THREAD_LIMIT: if (gomp_get_icv_flag (list->flags, GOMP_ICV_TEAMS_THREAD_LIMIT)) fprintf (stderr, " [%d] OMP_TEAMS_THREAD_LIMIT = '%u'\n", list->device_num, list->icvs.teams_thread_limit_var); break; case GOMP_ICV_SCHEDULE: if (!(gomp_get_icv_flag (list->flags, GOMP_ICV_SCHEDULE))) break; sprintf (dev_num, "%d", list->device_num); print_schedule (list->icvs.run_sched_var, list->icvs.run_sched_chunk_size, dev_num); break; case GOMP_ICV_THREAD_LIMIT: if (gomp_get_icv_flag (list->flags, GOMP_ICV_THREAD_LIMIT)) fprintf (stderr, " [%d] OMP_THREAD_LIMIT = '%d'\n", list->device_num, list->icvs.thread_limit_var); break; case GOMP_ICV_NTHREADS: if (!(gomp_get_icv_flag (list->flags, GOMP_ICV_NTHREADS))) break; fprintf (stderr, " [%d] OMP_NUM_THREADS = '%lu", list->device_num, list->icvs.nthreads_var); for (i = 1; i < list->icvs.nthreads_var_list_len; i++) fprintf (stderr, ",%lu", list->icvs.nthreads_var_list[i]); fputs ("'\n", stderr); break; case GOMP_ICV_MAX_ACTIVE_LEVELS: fprintf (stderr, " [%d] OMP_MAX_ACTIVE_LEVELS = '%u'\n", list->device_num, list->icvs.max_active_levels_var); break; case GOMP_ICV_BIND: if (!(gomp_get_icv_flag (list->flags, GOMP_ICV_BIND))) break; sprintf (dev_num, "%d", list->device_num); print_proc_bind (list->icvs.bind_var, list->icvs.bind_var_list_len, &list->icvs.bind_var_list, dev_num); break; case GOMP_ICV_WAIT_POLICY: if (gomp_get_icv_flag (list->flags, GOMP_ICV_WAIT_POLICY)) fprintf (stderr, " [%d] OMP_WAIT_POLICY = '%s'\n", list->device_num, list->icvs.wait_policy > 0 ? "ACTIVE" : "PASSIVE"); break; case GOMP_ICV_STACKSIZE: if (gomp_get_icv_flag (list->flags, GOMP_ICV_STACKSIZE)) fprintf (stderr, " [%d] OMP_STACKSIZE = '%lu'\n", list->device_num, list->icvs.stacksize); break; } list = list->next; } } void omp_display_env (int verbose) { int i; struct gomp_icv_list *dev = gomp_get_initial_icv_item (GOMP_DEVICE_NUM_FOR_DEV); struct gomp_icv_list *all = gomp_get_initial_icv_item (GOMP_DEVICE_NUM_FOR_ALL); struct gomp_icv_list *none = gomp_get_initial_icv_item (GOMP_DEVICE_NUM_FOR_NO_SUFFIX); fputs ("\nOPENMP DISPLAY ENVIRONMENT BEGIN\n", stderr); fputs (" _OPENMP = '201511'\n", stderr); fprintf (stderr, " [host] OMP_DYNAMIC = '%s'\n", none->icvs.dyn_var ? "TRUE" : "FALSE"); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_DYNAMIC)) fprintf (stderr, " [all] OMP_DYNAMIC = '%s'\n", all->icvs.dyn_var ? "TRUE" : "FALSE"); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_DYNAMIC)) fprintf (stderr, " [device] OMP_DYNAMIC = '%s'\n", dev->icvs.dyn_var ? "TRUE" : "FALSE"); print_device_specific_icvs (GOMP_ICV_DYNAMIC); /* The OMP_NESTED environment variable has been deprecated. */ fprintf (stderr, " [host] OMP_NESTED = '%s'\n", none->icvs.max_active_levels_var > 1 ? "TRUE" : "FALSE"); fprintf (stderr, " [host] OMP_NUM_THREADS = '%lu", none->icvs.nthreads_var); for (i = 1; i < none->icvs.nthreads_var_list_len; i++) fprintf (stderr, ",%lu", none->icvs.nthreads_var_list[i]); fputs ("'\n", stderr); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_NTHREADS)) { fprintf (stderr, " [all] OMP_NUM_THREADS = '%lu", all->icvs.nthreads_var); for (i = 1; i < all->icvs.nthreads_var_list_len; i++) fprintf (stderr, ",%lu", all->icvs.nthreads_var_list[i]); fputs ("'\n", stderr); } if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_NTHREADS)) { fprintf (stderr, " [device] OMP_NUM_THREADS = '%lu", dev->icvs.nthreads_var); for (i = 1; i < dev->icvs.nthreads_var_list_len; i++) fprintf (stderr, ",%lu", dev->icvs.nthreads_var_list[i]); fputs ("'\n", stderr); } print_device_specific_icvs (GOMP_ICV_NTHREADS); print_schedule (none->icvs.run_sched_var, none->icvs.run_sched_chunk_size, "host"); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_SCHEDULE)) print_schedule (all->icvs.run_sched_var, all->icvs.run_sched_chunk_size, "all"); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_SCHEDULE)) print_schedule (dev->icvs.run_sched_var, dev->icvs.run_sched_chunk_size, "device"); print_device_specific_icvs (GOMP_ICV_SCHEDULE); print_proc_bind (none->icvs.bind_var, none->icvs.bind_var_list_len, &none->icvs.bind_var_list, "host"); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_BIND)) print_proc_bind (all->icvs.bind_var, all->icvs.bind_var_list_len, &all->icvs.bind_var_list, "all"); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_BIND)) print_proc_bind (dev->icvs.bind_var, dev->icvs.bind_var_list_len, &dev->icvs.bind_var_list, "device"); print_device_specific_icvs (GOMP_ICV_BIND); fputs (" [host] OMP_PLACES = '", stderr); for (i = 0; i < gomp_places_list_len; i++) { fputs ("{", stderr); gomp_affinity_print_place (gomp_places_list[i]); fputs (i + 1 == gomp_places_list_len ? "}" : "},", stderr); } fputs ("'\n", stderr); fprintf (stderr, " [host] OMP_STACKSIZE = '%lu'\n", none->icvs.stacksize); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_STACKSIZE)) fprintf (stderr, " [all] OMP_STACKSIZE = '%lu'\n", all->icvs.stacksize); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_STACKSIZE)) fprintf (stderr, " [device] OMP_STACKSIZE = '%lu'\n", dev->icvs.stacksize); print_device_specific_icvs (GOMP_ICV_STACKSIZE); /* GOMP's default value is actually neither active nor passive. */ fprintf (stderr, " [host] OMP_WAIT_POLICY = '%s'\n", none->icvs.wait_policy > 0 ? "ACTIVE" : "PASSIVE"); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_WAIT_POLICY)) fprintf (stderr, " [all] OMP_WAIT_POLICY = '%s'\n", all->icvs.wait_policy > 0 ? "ACTIVE" : "PASSIVE"); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_WAIT_POLICY)) fprintf (stderr, " [device] OMP_WAIT_POLICY = '%s'\n", dev->icvs.wait_policy > 0 ? "ACTIVE" : "PASSIVE"); print_device_specific_icvs (GOMP_ICV_WAIT_POLICY); fprintf (stderr, " [host] OMP_THREAD_LIMIT = '%u'\n", none->icvs.thread_limit_var); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_THREAD_LIMIT)) fprintf (stderr, " [all] OMP_THREAD_LIMIT = '%d'\n", all->icvs.thread_limit_var); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_THREAD_LIMIT)) fprintf (stderr, " [device] OMP_THREAD_LIMIT = '%d'\n", dev->icvs.thread_limit_var); print_device_specific_icvs (GOMP_ICV_THREAD_LIMIT); fprintf (stderr, " [host] OMP_MAX_ACTIVE_LEVELS = '%u'\n", none->icvs.max_active_levels_var); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_MAX_ACTIVE_LEVELS)) fprintf (stderr, " [all] OMP_MAX_ACTIVE_LEVELS = '%u'\n", all->icvs.max_active_levels_var); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_MAX_ACTIVE_LEVELS)) fprintf (stderr, " [device] OMP_MAX_ACTIVE_LEVELS = '%u'\n", dev->icvs.max_active_levels_var); print_device_specific_icvs (GOMP_ICV_MAX_ACTIVE_LEVELS); fprintf (stderr, " [host] OMP_NUM_TEAMS = '%d'\n", none->icvs.nteams_var); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_NTEAMS)) fprintf (stderr, " [all] OMP_NUM_TEAMS = '%d'\n", all->icvs.nteams_var); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_NTEAMS)) fprintf (stderr, " [device] OMP_NUM_TEAMS = '%d'\n", dev->icvs.nteams_var); print_device_specific_icvs (GOMP_ICV_NTEAMS); fprintf (stderr, " [host] OMP_TEAMS_THREAD_LIMIT = '%u'\n", none->icvs.teams_thread_limit_var); if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_TEAMS_THREAD_LIMIT)) fprintf (stderr, " [all] OMP_TEAMS_THREAD_LIMIT = '%u'\n", all->icvs.teams_thread_limit_var); if (dev != NULL && gomp_get_icv_flag (dev->flags, GOMP_ICV_TEAMS_THREAD_LIMIT)) fprintf (stderr, " [device] OMP_TEAMS_THREAD_LIMIT = '%u'\n", dev->icvs.teams_thread_limit_var); print_device_specific_icvs (GOMP_ICV_TEAMS_THREAD_LIMIT); fprintf (stderr, " [all] OMP_CANCELLATION = '%s'\n", gomp_cancel_var ? "TRUE" : "FALSE"); fprintf (stderr, " [all] OMP_DEFAULT_DEVICE = '%d'\n", none->icvs.default_device_var); fprintf (stderr, " [all] OMP_MAX_TASK_PRIORITY = '%d'\n", gomp_max_task_priority_var); fprintf (stderr, " [all] OMP_DISPLAY_AFFINITY = '%s'\n", gomp_display_affinity_var ? "TRUE" : "FALSE"); fprintf (stderr, " [host] OMP_AFFINITY_FORMAT = '%s'\n", gomp_affinity_format_var); fprintf (stderr, " [host] OMP_ALLOCATOR = '"); switch (gomp_def_allocator) { #define C(v) case v: fputs (#v, stderr); break; C (omp_default_mem_alloc) C (omp_large_cap_mem_alloc) C (omp_const_mem_alloc) C (omp_high_bw_mem_alloc) C (omp_low_lat_mem_alloc) C (omp_cgroup_mem_alloc) C (omp_pteam_mem_alloc) C (omp_thread_mem_alloc) #undef C default: break; } fputs ("'\n", stderr); fputs (" [all] OMP_TARGET_OFFLOAD = '", stderr); switch (gomp_target_offload_var) { case GOMP_TARGET_OFFLOAD_DEFAULT: fputs ("DEFAULT", stderr); break; case GOMP_TARGET_OFFLOAD_MANDATORY: fputs ("MANDATORY", stderr); break; case GOMP_TARGET_OFFLOAD_DISABLED: fputs ("DISABLED", stderr); break; } fputs ("'\n", stderr); if (verbose) { fputs (" [host] GOMP_CPU_AFFINITY = ''\n", stderr); fprintf (stderr, " [host] GOMP_STACKSIZE = '%lu'\n", stacksize); #ifdef HAVE_INTTYPES_H fprintf (stderr, " [host] GOMP_SPINCOUNT = '%"PRIu64"'\n", (uint64_t) gomp_spin_count_var); #else fprintf (stderr, " [host] GOMP_SPINCOUNT = '%lu'\n", (unsigned long) gomp_spin_count_var); #endif } fputs ("OPENMP DISPLAY ENVIRONMENT END\n", stderr); } ialias (omp_display_env) static void handle_omp_display_env (void) { const char *env; bool display = false; bool verbose = false; env = getenv ("OMP_DISPLAY_ENV"); if (env == NULL) return; while (isspace ((unsigned char) *env)) ++env; if (strncasecmp (env, "true", 4) == 0) { display = true; env += 4; } else if (strncasecmp (env, "false", 5) == 0) { display = false; env += 5; } else if (strncasecmp (env, "verbose", 7) == 0) { display = true; verbose = true; env += 7; } else env = "X"; while (isspace ((unsigned char) *env)) ++env; if (*env != '\0') gomp_error ("Invalid value for environment variable OMP_DISPLAY_ENV"); if (display) ialias_call (omp_display_env) (verbose); } /* Helper function for initialize_env. Extracts the device number from an environment variable name. ENV is the complete environment variable. DEV_NUM_PTR points to the start of the device number in the environment variable string. DEV_NUM_LEN is the returned length of the device num string. */ static bool get_device_num (char *env, char *dev_num_ptr, int *dev_num, int *dev_num_len) { char *end; unsigned long val = strtoul (dev_num_ptr, &end, 10); if (val > INT_MAX || *end != '=' || (dev_num_ptr[0] == '0' && end != dev_num_ptr + 1) || (dev_num_ptr[0] < '0' || dev_num_ptr[0] > '9')) { gomp_error ("Invalid device number in %s", env); return false; } *dev_num = val; *dev_num_len = end - dev_num_ptr; return true; } static void get_icv_member_addr (struct gomp_initial_icvs *icvs, int icv_code, void *icv_addr[3]) { if (icv_code == 0 || icv_addr == NULL) return; icv_addr[0] = icv_addr[1] = icv_addr[2] = NULL; switch (icv_code) { case GOMP_ICV_NTEAMS: icv_addr[0] = &icvs->nteams_var; /* icv_addr[1] = (void *) false; */ break; case GOMP_ICV_DYNAMIC: icv_addr[0] = &(*icvs).dyn_var; break; case GOMP_ICV_TEAMS_THREAD_LIMIT: icv_addr[0] = &icvs->teams_thread_limit_var; /* icv_addr[1] = (void *) false; */ break; case GOMP_ICV_SCHEDULE: icv_addr[0] = &icvs->run_sched_var; icv_addr[1] = &icvs->run_sched_chunk_size; break; case GOMP_ICV_THREAD_LIMIT: icv_addr[0] = &icvs->thread_limit_var; /* icv_addr[1] = (void *) false; */ icv_addr[2] = (void *) UINT_MAX; break; case GOMP_ICV_NTHREADS: icv_addr[0] = &icvs->nthreads_var; icv_addr[1] = &icvs->nthreads_var_list; icv_addr[2] = &icvs->nthreads_var_list_len; break; case GOMP_ICV_MAX_ACTIVE_LEVELS: icv_addr[0] = &icvs->max_active_levels_var; icv_addr[1] = (void *) true; icv_addr[2] = (void *) gomp_supported_active_levels; break; case GOMP_ICV_BIND: icv_addr[0] = &icvs->bind_var; icv_addr[1] = &icvs->bind_var_list; icv_addr[2] = &icvs->bind_var_list_len; break; case GOMP_ICV_WAIT_POLICY: icv_addr[0] = &icvs->wait_policy; break; case GOMP_ICV_STACKSIZE: icv_addr[0] = &icvs->stacksize; break; case GOMP_ICV_CANCELLATION: icv_addr[0] = &gomp_cancel_var; break; case GOMP_ICV_DISPLAY_AFFINITY: icv_addr[0] = &gomp_display_affinity_var; break; case GOMP_ICV_TARGET_OFFLOAD: icv_addr[0] = &gomp_target_offload_var; break; case GOMP_ICV_MAX_TASK_PRIORITY: icv_addr[0] = &gomp_max_task_priority_var; break; case GOMP_ICV_ALLOCATOR: icv_addr[0] = &gomp_def_allocator; break; case GOMP_ICV_DEFAULT_DEVICE: icv_addr[0] = &icvs->default_device_var; icv_addr[1] = (void *) true; break; } } struct gomp_icv_list * gomp_get_initial_icv_item (int dev_num) { struct gomp_icv_list *l = gomp_initial_icv_list; while (l != NULL && l->device_num != dev_num) l = l->next; return l; } static void initialize_icvs (struct gomp_initial_icvs *icvs) { icvs->nthreads_var_list = NULL; icvs->bind_var_list = NULL; icvs->nthreads_var = gomp_default_icv_values.nthreads_var; icvs->nthreads_var_list_len = 0; icvs->bind_var_list_len = 0; icvs->stacksize = 0; icvs->thread_limit_var = gomp_default_icv_values.thread_limit_var; icvs->run_sched_var = gomp_default_icv_values.run_sched_var; icvs->run_sched_chunk_size = gomp_default_icv_values.run_sched_chunk_size; icvs->default_device_var = gomp_default_icv_values.default_device_var; icvs->dyn_var = gomp_default_icv_values.dyn_var; icvs->max_active_levels_var = gomp_default_icv_values.max_active_levels_var; icvs->bind_var = gomp_default_icv_values.bind_var; icvs->nteams_var = gomp_default_icv_values.nteams_var; icvs->teams_thread_limit_var = gomp_default_icv_values.teams_thread_limit_var; icvs->wait_policy = -1; } /* Helper function for initialize_env to add a device specific ICV value to gomp_initial_icv_list. */ static uint32_t * add_initial_icv_to_list (int dev_num, int icv_code, void *icv_addr[3]) { struct gomp_icv_list *last = NULL, *l = gomp_initial_icv_list; while (l != NULL && l->device_num != dev_num) { last = l; l = l->next; } if (l == NULL) { l = ((struct gomp_icv_list *) gomp_malloc_cleared (sizeof (struct gomp_icv_list))); l->device_num = dev_num; initialize_icvs (&l->icvs); if (dev_num < 0) { l->next = gomp_initial_icv_list; gomp_initial_icv_list = l; } else { l->next = NULL; if (last == NULL) gomp_initial_icv_list = l; else last->next = l; } } get_icv_member_addr (&l->icvs, icv_code, icv_addr); return &l->flags; } /* Return true if STR string starts with PREFIX. */ static inline bool startswith (const char *str, const char *prefix) { return strncmp (str, prefix, strlen (prefix)) == 0; } static void __attribute__((constructor)) initialize_env (void) { char **env; int omp_var, dev_num = 0, dev_num_len = 0, i; bool ignore = false; char *env_val; void *params[3]; uint32_t *flag_var_addr = NULL; unsigned pos; struct gomp_icv_list *all, *none; /* Do a compile time check that mkomp_h.pl did good job. */ omp_check_defines (); #ifndef HAVE_SYNC_BUILTINS gomp_mutex_init (&gomp_managed_threads_lock); #endif gomp_init_num_threads (); gomp_available_cpus = gomp_global_icv.nthreads_var; /* Initial values for host environment variables should always exist even if there is no explicitly set host environment variable. Moreover, they are set to the initial global values. */ add_initial_icv_to_list (GOMP_DEVICE_NUM_FOR_NO_SUFFIX, 0, NULL); none = gomp_get_initial_icv_item (GOMP_DEVICE_NUM_FOR_NO_SUFFIX); initialize_icvs (&none->icvs); for (env = environ; *env != 0; env++) { if (!startswith (*env, "OMP_")) continue; /* Name of the environment variable without suffix "OMP_". */ char *name = *env + sizeof ("OMP_") - 1; for (omp_var = 0; omp_var < OMP_VAR_CNT; omp_var++) { if (startswith (name, envvars[omp_var].name)) { pos = envvars[omp_var].name_len; if (name[pos] == '=') { pos++; flag_var_addr = add_initial_icv_to_list (GOMP_DEVICE_NUM_FOR_NO_SUFFIX, envvars[omp_var].flag_vars[0], params); } else if (startswith (&name[pos], "_DEV=") && envvars[omp_var].flag & GOMP_ENV_SUFFIX_DEV) { pos += 5; flag_var_addr = add_initial_icv_to_list (GOMP_DEVICE_NUM_FOR_DEV, envvars[omp_var].flag_vars[0], params); } else if (startswith (&name[pos], "_ALL=") && envvars[omp_var].flag & GOMP_ENV_SUFFIX_ALL) { pos += 5; flag_var_addr = add_initial_icv_to_list (GOMP_DEVICE_NUM_FOR_ALL, envvars[omp_var].flag_vars[0], params); } else if (startswith (&name[pos], "_DEV_") && envvars[omp_var].flag & GOMP_ENV_SUFFIX_DEV_X) { pos += 5; if (!get_device_num (*env, &name[pos], &dev_num, &dev_num_len)) break; pos += dev_num_len + 1; flag_var_addr = add_initial_icv_to_list (dev_num, envvars[omp_var].flag_vars[0], params); } else { gomp_error ("Invalid environment variable in %s", *env); break; } env_val = &name[pos]; if (envvars[omp_var].parse_func (*env, env_val, params)) { for (i = 0; i < 3; ++i) if (envvars[omp_var].flag_vars[i]) gomp_set_icv_flag (flag_var_addr, envvars[omp_var].flag_vars[i]); else break; } break; } } } all = gomp_get_initial_icv_item (GOMP_DEVICE_NUM_FOR_ALL); for (omp_var = 0; omp_var < OMP_HOST_VAR_CNT; omp_var++) { if (none != NULL && gomp_get_icv_flag (none->flags, host_envvars[omp_var].flag_var)) get_icv_member_addr (&none->icvs, host_envvars[omp_var].flag_var, params); else if (all != NULL && gomp_get_icv_flag (all->flags, host_envvars[omp_var].flag_var)) get_icv_member_addr (&all->icvs, host_envvars[omp_var].flag_var, params); else continue; switch (host_envvars[omp_var].type_code) { case PARSE_INT: for (i = 0; i < 3; ++i) if (host_envvars[omp_var].dest[i] != NULL && params[i] != NULL) *(int *) (host_envvars[omp_var].dest[i]) = *(int *) params[i]; break; case PARSE_BOOL: for (i = 0; i < 3; ++i) if (host_envvars[omp_var].dest[i] != NULL && params[i] != NULL) *(bool *) (host_envvars[omp_var].dest[i]) = *(bool *) params[i]; break; case PARSE_UINT: for (i = 0; i < 3; ++i) if (host_envvars[omp_var].dest[i] != NULL && params[i] != NULL) *(unsigned int *) (host_envvars[omp_var].dest[i]) = *(unsigned int *) params[i]; break; case PARSE_ULONG: for (i = 0; i < 3; ++i) if (host_envvars[omp_var].dest[i] != NULL && params[i] != NULL) *(unsigned long *) (host_envvars[omp_var].dest[i]) = *(unsigned long *) params[i]; break; case PARSE_UCHAR: for (i = 0; i < 3; ++i) if (host_envvars[omp_var].dest[i] != NULL && params[i] != NULL) *(unsigned char *) (host_envvars[omp_var].dest[i]) = *(unsigned char *) params[i]; break; case PARSE_SCHEDULE: *(enum gomp_schedule_type *) (host_envvars[omp_var].dest[0]) = *(enum gomp_schedule_type *) params[0]; *(int *) (host_envvars[omp_var].dest[1]) = *(int *) params[1]; break; case PARSE_BIND: *(char *) (host_envvars[omp_var].dest[0]) = *(char *) params[0]; *(char **) (host_envvars[omp_var].dest[1]) = *(char **) params[1]; *(unsigned long *) (host_envvars[omp_var].dest[2]) = *(unsigned long *) params[2]; break; } } if (((none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_BIND)) || (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_BIND))) && gomp_global_icv.bind_var == omp_proc_bind_false) ignore = true; if (!((none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_MAX_ACTIVE_LEVELS)) || (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_MAX_ACTIVE_LEVELS)))) { bool nested = true; const char *env = getenv ("OMP_NESTED"); /* OMP_NESTED is deprecated in OpenMP 5.0. */ if (parse_boolean ("OMP_NESTED", env, (void *[]) {&nested})) gomp_global_icv.max_active_levels_var = nested ? gomp_supported_active_levels : 1; else if (gomp_nthreads_var_list_len > 1 || gomp_bind_var_list_len > 1) gomp_global_icv.max_active_levels_var = gomp_supported_active_levels; } /* Process GOMP_* variables and dependencies between parsed ICVs. */ parse_int_secure ("GOMP_DEBUG", &gomp_debug_var, true); /* Make sure OMP_PLACES and GOMP_CPU_AFFINITY env vars are always parsed if present in the environment. If OMP_PROC_BIND was set explicitly to false, don't populate places list though. If places list was successfully set from OMP_PLACES, only parse but don't process GOMP_CPU_AFFINITY. If OMP_PROC_BIND was not set in the environment, default to OMP_PROC_BIND=true if OMP_PLACES or GOMP_CPU_AFFINITY was successfully parsed into a places list, otherwise to OMP_PROC_BIND=false. */ if (parse_places_var ("OMP_PLACES", ignore)) { if (gomp_global_icv.bind_var == omp_proc_bind_false) gomp_global_icv.bind_var = true; ignore = true; } if (parse_affinity (ignore)) { if (gomp_global_icv.bind_var == omp_proc_bind_false) gomp_global_icv.bind_var = true; ignore = true; } if (gomp_global_icv.bind_var != omp_proc_bind_false) gomp_init_affinity (); { const char *env = getenv ("OMP_AFFINITY_FORMAT"); if (env != NULL) gomp_set_affinity_format (env, strlen (env)); } if (none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_WAIT_POLICY)) wait_policy = none->icvs.wait_policy; else if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_WAIT_POLICY)) wait_policy = all->icvs.wait_policy; if (!parse_spincount ("GOMP_SPINCOUNT", &gomp_spin_count_var)) { /* Using a rough estimation of 100000 spins per msec, use 5 min blocking for OMP_WAIT_POLICY=active, 3 msec blocking when OMP_WAIT_POLICY is not specificed and 0 when OMP_WAIT_POLICY=passive. Depending on the CPU speed, this can be e.g. 5 times longer or 5 times shorter. */ if (wait_policy > 0) gomp_spin_count_var = 30000000000LL; else if (wait_policy < 0) gomp_spin_count_var = 300000LL; } /* gomp_throttled_spin_count_var is used when there are more libgomp managed threads than available CPUs. Use very short spinning. */ if (wait_policy > 0) gomp_throttled_spin_count_var = 1000LL; else if (wait_policy < 0) gomp_throttled_spin_count_var = 100LL; if (gomp_throttled_spin_count_var > gomp_spin_count_var) gomp_throttled_spin_count_var = gomp_spin_count_var; /* Not strictly environment related, but ordering constructors is tricky. */ pthread_attr_init (&gomp_thread_attr); if (!(none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_STACKSIZE))) { const char *env = getenv ("GOMP_STACKSIZE"); if (env != NULL && parse_stacksize ("GOMP_STACKSIZE", env, (void *[3]) {&none->icvs.stacksize})) gomp_set_icv_flag (&none->flags, GOMP_ICV_STACKSIZE); } if (none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_STACKSIZE)) stacksize = none->icvs.stacksize; else if (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_STACKSIZE)) stacksize = all->icvs.stacksize; if ((none != NULL && gomp_get_icv_flag (none->flags, GOMP_ICV_STACKSIZE)) || (all != NULL && gomp_get_icv_flag (all->flags, GOMP_ICV_STACKSIZE)) || GOMP_DEFAULT_STACKSIZE) { int err; err = pthread_attr_setstacksize (&gomp_thread_attr, stacksize); #ifdef PTHREAD_STACK_MIN if (err == EINVAL) { if (stacksize < PTHREAD_STACK_MIN) gomp_error ("Stack size less than minimum of %luk", PTHREAD_STACK_MIN / 1024ul + (PTHREAD_STACK_MIN % 1024 != 0)); else gomp_error ("Stack size larger than system limit"); } else #endif if (err != 0) gomp_error ("Stack size change failed: %s", strerror (err)); } handle_omp_display_env (); /* OpenACC. */ if (!parse_int ("ACC_DEVICE_NUM", getenv ("ACC_DEVICE_NUM"), (void *[]) {&goacc_device_num, (void *) true})) goacc_device_num = 0; parse_acc_device_type (); parse_gomp_openacc_dim (); goacc_runtime_initialize (); goacc_profiling_initialize (); } #endif /* LIBGOMP_OFFLOADED_ONLY */