/* * Copyright (C) 2000-2009, Parallels, Inc. All rights reserved. * * This program 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 2 of the License, or * (at your option) any later version. * * This program 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include "ub.h" #include "res.h" #include "validate.h" #include "vzctl_param.h" #include "vzerror.h" #include "logger.h" #include "util.h" int page_size = -1; static struct { char *name; int id; } validate_act2str[] = { {"none", ACT_NONE}, {"warning", ACT_WARN}, {"error", ACT_ERROR}, {"fix", ACT_FIX}, }; int action2id(char *mode) { unsigned int i; if (mode == NULL) return ACT_NONE; for (i = 0; i < sizeof(validate_act2str) / sizeof(*validate_act2str); i++) { if (!strcmp(validate_act2str[i].name, mode)) return validate_act2str[i].id; } return ACT_NONE; } static int read_yn() { char buf[1024]; fprintf(stderr, " (y/n) [y] "); while (fgets(buf, sizeof(buf), stdin) != NULL) { if (buf[0] == 'y' || buf[0] == '\n') { return 1; } else if (buf[0] == 'n') return 0; fprintf(stderr, " (y/n) [y] "); } return 0; } static int check_param(struct ub_struct *param, int log) { int ret = 0; #define CHECKPARAM(name) \ if (param->name == NULL) { \ if (log) \ logger(-1, 0, "Error: parameter " #name \ " not found"); \ ret = 1; \ } \ CHECKPARAM(numproc); CHECKPARAM(numtcpsock); CHECKPARAM(numothersock); CHECKPARAM(oomguarpages) CHECKPARAM(vmguarpages); CHECKPARAM(kmemsize); CHECKPARAM(tcpsndbuf); CHECKPARAM(tcprcvbuf); CHECKPARAM(othersockbuf); CHECKPARAM(dgramrcvbuf); CHECKPARAM(privvmpages); CHECKPARAM(numfile); CHECKPARAM(dcachesize); CHECKPARAM(physpages) CHECKPARAM(numpty) return ret; } int validate(vps_res *param, int recover, int ask) { unsigned long avnumproc; int ret = 0; unsigned long val, val1; unsigned long tmp_val0, tmp_val1; int changed = 0; struct ub_struct *ub; #define SET_MES(val) logger(0, 0, "set to %lu", val); #define SET2_MES(val1, val2) logger(0, 0,"set to %lu:%lu", val1, val2); #define CHECK_BL(x, name) \ if (x != NULL) { \ if (x[0] > x[1]) { \ logger(-1, 0, "Error: barrier should be <= limit for " \ #name " (currently, %lu:%lu)", \ x[0], x[1]); \ if (ask || recover) { \ tmp_val1 = x[0]; \ tmp_val0 = x[0]; \ SET2_MES(tmp_val0, tmp_val1) \ if (ask) recover = read_yn(); \ if (recover) { \ x[1] = tmp_val1; \ changed++; \ } \ } \ if (!recover) ret = 1; \ } \ } else { \ logger(-1, 0, "Error: parameter " #name " not found"); \ ret = 1; \ } #define CHECK_B(name) \ if (ub->name != NULL) { \ if ((ub->name[0] != ub->name[1])) { \ logger(-1, 0, "Error: barrier should be equal to limit" \ " for " #name " (currently, %lu:%lu)", \ ub->name[0], ub->name[1]); \ if (ask || recover) { \ tmp_val0 = max_ul(ub->name[0], ub->name[1]); \ tmp_val1 = tmp_val0; \ SET2_MES(tmp_val0, tmp_val1) \ if (ask) recover = read_yn(); \ if (recover) { \ ub->name[0] = tmp_val0; \ ub->name[1] = tmp_val1; \ changed++; \ } \ } \ if (!recover) ret = 1; \ } \ } else { \ logger(-1, 0, "Error: parameter " #name " not found"); \ ret = 1; \ } if (param == NULL) return 1; ub = ¶m->ub; if (check_param(ub, 1)) return 1; if (ub->avnumproc != NULL) avnumproc = ub->avnumproc[0]; else avnumproc = ub->numproc[0] / 2; /* 1 Check barrier & limit */ /* Primary */ CHECK_B(numproc) CHECK_B(numtcpsock) CHECK_B(numothersock) if (ub->vmguarpages != NULL) { if (ub->vmguarpages[1] != LONG_MAX) { logger(-1, 0, "Error: limit should be = %lu for" " vmguarpages (currently, %lu)", LONG_MAX, ub->vmguarpages[1]); if (ask || recover) { SET_MES((unsigned long) LONG_MAX); if (ask) recover = read_yn(); if (recover) { ub->vmguarpages[1] = LONG_MAX; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } } else { logger(-1, 0, "Error: parameter vmguarpages not found"); ret = 1; } /* Secondary */ CHECK_BL(ub->kmemsize, kmemsize) CHECK_BL(ub->tcpsndbuf, tcpsndbuf) CHECK_BL(ub->tcprcvbuf, tcprcvbuf) CHECK_BL(ub->othersockbuf, othersockbuf) CHECK_BL(ub->dgramrcvbuf, dgramrcvbuf) if (ub->oomguarpages != NULL) { if (ub->oomguarpages[1] != LONG_MAX) { logger(-1, 0, "Error: limit should be = %lu for" " oomguarpages (currently, %lu)", LONG_MAX, ub->oomguarpages[1]); if (ask || recover) { SET_MES((unsigned long) LONG_MAX); if (ask) recover = read_yn(); if (recover) { ub->oomguarpages[1] = LONG_MAX; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } } else { logger(-1, 0, "Error: parameter oomguarpages not found"); ret = 1; } CHECK_BL(ub->privvmpages, privvmpages) /* Auxiliary */ CHECK_BL(ub->lockedpages, lockedpages) CHECK_B(shmpages) if (ub->physpages != NULL) { if (ub->physpages[0] != 0) { logger(-1, 0, "Error: barrier should be = 0 for" " physpages (currently, %lu)", ub->physpages[0]); if (ask || recover) { SET_MES((unsigned long) 0); if (ask) recover = read_yn(); if (recover) { ub->physpages[0] = 0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } if (ub->physpages[1] != LONG_MAX) { logger(-1, 0, "Error: limit should be = %lu for" " physpages (currently, %lu)", LONG_MAX, ub->physpages[1]); if (ask || recover) { SET_MES((unsigned long) LONG_MAX); if (ask) recover = read_yn(); if (recover) { ub->physpages[1] = LONG_MAX; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } } else { logger(-1, 0, "Error: parameter physpages not found"); ret = 1; } CHECK_B(numfile) CHECK_BL(ub->numflock, numflock) CHECK_B(numpty) CHECK_B(numsiginfo) CHECK_BL(ub->dcachesize, dcachesize) CHECK_B(numiptent) if (param->dq.enable == YES) { CHECK_BL(param->dq.diskspace, diskspace) CHECK_BL(param->dq.diskinodes, diskinodes) } /* 2 Check formulas */ val = ub->numfile[0] * 384; val &= LONG_MAX; if (ub->dcachesize[1] < val) { logger(-1, 0, "Warning: dcachesize.lim should be > %lu" " (currently, %lu)", val, ub->dcachesize[1]); if (ask || recover) { SET_MES(val); if (ask) recover = read_yn(); if (recover) { ub->dcachesize[1] = val; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = (40 * 1024 * avnumproc) + ub->dcachesize[1]; val &= LONG_MAX; if (ub->kmemsize[0] < val) { logger(-1, 0, "Error: kmemsize.bar should be > %lu" " (currently, %lu)", val, ub->kmemsize[0]); if (ask || recover) { tmp_val1 = ub->kmemsize[1] + val - ub->kmemsize[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1); if (ask) recover = read_yn(); if (recover) { ub->kmemsize[1] = tmp_val1; ub->kmemsize[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } if (ub->privvmpages[0] < ub->vmguarpages[0]) { logger(-1, 0, "Warning: privvmpages.bar should be > %lu" " (currently, %lu)", ub->vmguarpages[0], ub->privvmpages[0]); if (ask || recover) { tmp_val0 = ub->vmguarpages[0]; tmp_val1 = ub->privvmpages[1] < tmp_val0 ? tmp_val0 : ub->vmguarpages[1]; SET_MES(tmp_val0); if (ask) recover = read_yn(); if (recover) { ub->privvmpages[0] = tmp_val0; ub->privvmpages[1] = tmp_val1; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 2.5 * 1024 * ub->numtcpsock[0]; val &= LONG_MAX; if (ub->tcpsndbuf[1] - ub->tcpsndbuf[0] < val) { logger(-1, 0, "Error: tcpsndbuf.lim-tcpsndbuf.bar" " should be > %lu (currently, %lu-%lu=%lu)", val, ub->tcpsndbuf[1], ub->tcpsndbuf[0], ub->tcpsndbuf[1]-ub->tcpsndbuf[0]); if (ask || recover) { tmp_val1 = ub->tcpsndbuf[0] + val; tmp_val0 = ub->tcpsndbuf[0]; SET2_MES(tmp_val0, tmp_val1); if (ask) recover = read_yn(); if (recover) { ub->tcpsndbuf[1] = tmp_val1; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 2.5 * 1024 * ub->numothersock[0]; val &= LONG_MAX; if (ub->othersockbuf[1] - ub->othersockbuf[0] < val) { logger(-1, 0, "Error: othersockbuf.lim-othersockbuf.bar" " should be > %lu (currently, %lu-%lu=%lu)", val, ub->othersockbuf[1], ub->othersockbuf[0], ub->othersockbuf[1]-ub->othersockbuf[0]); if (ask || recover) { tmp_val1 = ub->othersockbuf[0] + val; tmp_val0 = ub->othersockbuf[0]; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->othersockbuf[1] = tmp_val1; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 2.5 * 1024 * ub->numtcpsock[0]; val &= LONG_MAX; if (ub->tcprcvbuf[1] - ub->tcprcvbuf[0] < val) { logger(-1, 0, "Warning: tcprcvbuf.lim-tcprcvbuf.bar" " should be > %lu (currently, %lu-%lu=%lu)", val, ub->tcprcvbuf[1], ub->tcprcvbuf[0], ub->tcprcvbuf[1] - ub->tcprcvbuf[0]); if (ask || recover) { tmp_val1 = ub->tcprcvbuf[0] + val; tmp_val0 = ub->tcprcvbuf[0]; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->tcprcvbuf[1] = tmp_val1; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 64 * 1024; if (ub->tcprcvbuf[0] < val) { logger(-1, 0, "Warning: tcprcvbuf.bar should be > %lu" " (currently, %lu)", val, ub->tcprcvbuf[0]); if (ask || recover) { tmp_val1 = ub->tcprcvbuf[1]+val-ub->tcprcvbuf[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->tcprcvbuf[1] = tmp_val1; ub->tcprcvbuf[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 64 * 1024; if (ub->tcpsndbuf[0] < val) { logger(-1, 0, "Warning: tcpsndbuf.bar should be > %lu" " (currently, %lu)", val, ub->tcpsndbuf[0]); if (ask || recover) { tmp_val1 = ub->tcpsndbuf[1]+val-ub->tcpsndbuf[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->tcpsndbuf[1] = tmp_val1; ub->tcpsndbuf[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } val = 32 * 1024; val1 = 129 * 1024; if (ub->dgramrcvbuf[0] < val) { logger(-1, 0, "Warning: dgramrcvbuf.bar should be >" " %lu (currently, %lu)", val, ub->dgramrcvbuf[0]); if (ask || recover) { tmp_val1 = ub->dgramrcvbuf[1] + val - ub->dgramrcvbuf[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->dgramrcvbuf[1] = tmp_val1; ub->dgramrcvbuf[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } else if (ub->dgramrcvbuf[0] < val1) { logger(-1, 0, "Recommendation: dgramrcvbuf.bar should be >" " %lu (currently, %lu)", val1, ub->dgramrcvbuf[0]); if (ask || recover) { tmp_val1 = ub->dgramrcvbuf[1] + val1 - ub->dgramrcvbuf[0]; tmp_val0 = val1; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->dgramrcvbuf[1] = tmp_val1; ub->dgramrcvbuf[0] = tmp_val0; changed++; } } // if (!ask) fprintf(stderr, "\n"); } val = 32 * 1024; val1 = 129 * 1024; if (ub->othersockbuf[0] < val) { logger(-1, 0, "Warning: othersockbuf.bar should be >" " %lu (currently, %lu)", val, ub->othersockbuf[0]); if (ask || recover) { tmp_val1 = ub->othersockbuf[1] + val - ub->othersockbuf[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->othersockbuf[1] = tmp_val1; ub->othersockbuf[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } else if (ub->othersockbuf[0] < val1) { logger(-1, 0,"Recommendation: othersockbuf.bar should be >" " %lu (currently, %lu)", val1, ub->othersockbuf[0]); if (ask || recover) { tmp_val1 = ub->othersockbuf[1] + val1 - ub->othersockbuf[0]; tmp_val0 = val1; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->othersockbuf[1] = tmp_val1; ub->othersockbuf[0] = tmp_val0; changed++; } } // if (!ask) fprintf(stderr, "\n"); } val = avnumproc * 32; val1 = ub->numtcpsock[0] + ub->numothersock[0] + ub->numpty[0]; if (val1 > val) val = val1; val &= LONG_MAX; if (ub->numfile[0] < val) { logger(-1, 0, "Warning: numfile should be > %lu" " (currently, %lu)", val, ub->numfile[0]); if (ask || recover) { tmp_val1 = ub->numfile[1] + val - ub->numfile[0]; tmp_val0 = val; SET2_MES(tmp_val0, tmp_val1) if (ask) recover = read_yn(); if (recover) { ub->numfile[1] = tmp_val1; ub->numfile[0] = tmp_val0; changed++; } } if (!recover) ret = 1; // if (!ask) fprintf(stderr, "\n"); } return ret; } int vps_validate(vps_res *param, int mode) { int ret; if (mode == ACT_NONE) return 0; logger(0, 0, "Validating container:"); ret = validate(param, mode == ACT_FIX, 0); if (mode == ACT_ERROR && ret) return VZ_VALIDATE_ERROR; return 0; } int calc_ve_utilization(struct ub_struct *param, struct CRusage *rusage, struct mem_struct *mem, int numerator) { double kmem_net; memset(rusage, 0, sizeof(struct CRusage)); if (param == NULL) return -1; if (check_param(param, 1)) return -1; kmem_net = (double)param->kmemsize[0] + (double)param->tcprcvbuf[0] + (double)param->tcpsndbuf[0] + (double)param->dgramrcvbuf[0] + (double)param->othersockbuf[0]; /* Low memory */ rusage->low_mem = kmem_net; if (!numerator) rusage->low_mem /= mem->lowmem; /* Total RAM */ rusage->total_ram = ((double)param->physpages[0] * page_size + kmem_net); if (!numerator) rusage->total_ram /= mem->ram; /* Mem + Swap */ rusage->mem_swap = ((double)param->oomguarpages[0] * page_size + kmem_net); if (!numerator) rusage->mem_swap /= (mem->ram + mem->swap); /* Allocated memory */ rusage->alloc_mem = ((double)param->privvmpages[0] * page_size + kmem_net); if (!numerator) rusage->alloc_mem /= (mem->ram + mem->swap); return 0; } int calc_ve_commitment(struct ub_struct *param, struct CRusage *rusage, struct mem_struct *mem, int numerator) { double kmem_net; memset(rusage, 0, sizeof(struct CRusage)); if (param == NULL) return -1; if (check_param(param, 1)) return -1; kmem_net = (double)param->kmemsize[1] + (double)param->tcprcvbuf[1] + (double)param->tcpsndbuf[1] + (double)param->dgramrcvbuf[1] + (double)param->othersockbuf[1]; /* Low memory */ rusage->low_mem = kmem_net; if (!numerator) rusage->low_mem /= mem->lowmem; /* Total RAM */ rusage->total_ram = ((double)param->physpages[0] * page_size + kmem_net); if (!numerator) rusage->total_ram /= mem->ram; /* Mem + Swap */ rusage->mem_swap = ((double)param->oomguarpages[0] * page_size + kmem_net); if (!numerator) rusage->mem_swap /= (mem->ram + mem->swap); /* Allocated memory */ rusage->alloc_mem = ((double)param->vmguarpages[0] * page_size + kmem_net); if (!numerator) rusage->alloc_mem /= (mem->ram + mem->swap); /* Allocated memory limit */ rusage->alloc_mem_lim = ((double)param->privvmpages[1] * page_size + kmem_net); if (!numerator) rusage->alloc_mem_lim /= (mem->ram + mem->swap); /* Max Allocated memory limit */ rusage->alloc_mem_max_lim = ((double)param->privvmpages[1] * page_size + kmem_net); if (!numerator) rusage->alloc_mem_max_lim /= mem->ram; return 0; } void inc_rusage(struct CRusage *rusagetotal, struct CRusage *rusage) { if (rusagetotal == NULL || rusage == NULL) return; rusagetotal->low_mem += rusage->low_mem; rusagetotal->total_ram += rusage->total_ram; rusagetotal->mem_swap += rusage->mem_swap; rusagetotal->alloc_mem += rusage->alloc_mem; rusagetotal->alloc_mem_lim += rusage->alloc_mem_lim; if (rusage->alloc_mem_max_lim > rusagetotal->alloc_mem_max_lim) rusagetotal->alloc_mem_max_lim = rusage->alloc_mem_max_lim; } void mul_rusage(struct CRusage *rusage, int k) { if (rusage == NULL) return; rusage->low_mem *= k; rusage->total_ram *= k; rusage->mem_swap *= k; rusage->alloc_mem *= k; rusage->alloc_mem_lim *= k; rusage->alloc_mem_max_lim *= k; } void shift_ubs_param(struct ub_struct *param) { #define SHIFTPARAM(name) \ if (param->name != NULL) { \ param->name[0] = param->name[1]; \ param->name[1] = param->name[2]; \ } SHIFTPARAM(numproc); SHIFTPARAM(numtcpsock); SHIFTPARAM(numothersock); SHIFTPARAM(oomguarpages) SHIFTPARAM(vmguarpages); SHIFTPARAM(kmemsize); SHIFTPARAM(tcpsndbuf); SHIFTPARAM(tcprcvbuf); SHIFTPARAM(othersockbuf); SHIFTPARAM(dgramrcvbuf); SHIFTPARAM(privvmpages); SHIFTPARAM(numfile); SHIFTPARAM(dcachesize); SHIFTPARAM(physpages) SHIFTPARAM(numpty) } int calc_hn_rusage(struct CRusage *ru_comm, struct CRusage *ru_utl) { FILE *fd; struct CRusage utl, comm; char str[STR_SIZE]; char name[STR_SIZE]; const char *fmt; unsigned long held, maxheld, barrier, limit; int found = 0; int id, res; int veid = 0; ub_param ub; struct ub_struct ub_s; struct mem_struct mem; if ((fd = fopen(PROCUBC, "r")) == NULL) { logger(-1, errno, "Unable open " PROCUBC); return -1; } if (ru_comm != NULL) memset(ru_comm, 0, sizeof(*ru_comm)); if (ru_utl != NULL) memset(ru_utl, 0, sizeof(*ru_utl)); memset(&ub, 0, sizeof(ub)); memset(&ub_s, 0, sizeof(ub_s)); while (fgets(str, sizeof(str), fd)) { if ((res = sscanf(str, "%d:", &id)) == 1) { fmt = "%*lu:%s%lu%lu%lu%lu"; found = 1; if (veid) { if (ru_utl != NULL) { calc_ve_utilization(&ub_s, &utl, &mem, 0); inc_rusage(ru_utl, &utl); } if (ru_comm != NULL) { shift_ubs_param(&ub_s); calc_ve_commitment(&ub_s, &comm, &mem, 0); inc_rusage(ru_comm, &comm); } } veid = id; free_ub_param(&ub_s); } else { fmt = "%s%lu%lu%lu%lu"; } if (found) { if ((res = sscanf(str, fmt, name, &held, &maxheld, &barrier, &limit)) != 5) { continue; } if ((res = get_ub_resid(name)) >= 0) { unsigned long *par; par = malloc(sizeof(*par) * 3); par[0] = held; par[1] = barrier; par[2] = limit; add_ub_limit(&ub_s, res, par); } } } /* Last CT in /proc/user_beancounters */ if (veid) { if (ru_utl != NULL) { calc_ve_utilization(&ub_s, &utl, &mem, 0); inc_rusage(ru_utl, &utl); } if (ru_comm != NULL) { shift_ubs_param(&ub_s); calc_ve_commitment(&ub_s, &comm, &mem, 0); inc_rusage(ru_comm, &comm); } free_ub_param(&ub_s); } fclose(fd); return 0; } int check_hn_overcommitment(int veid, struct ub_struct *param, struct ovrc *ovrc) { struct CRusage ru_comm; struct CRusage rusage_ve; int actid; int ret = 0; struct mem_struct mem; if (param == NULL) return 0; actid = ovrc->action; if (ovrc->action == ACT_NONE) return 0; memset(&ru_comm, 0, sizeof(ru_comm)); /* Calculate current HN overcommitment */ if (calc_hn_rusage(&ru_comm, NULL)) return 0; /* Add CT resource usage */ calc_ve_commitment(param, &rusage_ve, &mem, 0); inc_rusage(&ru_comm, &rusage_ve); /* Convert to % */ mul_rusage(&ru_comm, 100); if (ovrc->level_low_mem != NULL && ru_comm.low_mem > *ovrc->level_low_mem) { logger(0, 0, "%s: node is overcommited.", actid == ACT_ERROR ? "Error" : "Warning"); logger(0, 0, "\tLow Memory commitment level (%.3f%%)" " exceeds configured (%.3f%%)", ru_comm.low_mem, *ovrc->level_low_mem); ret = 1; } if (ovrc->level_mem_swap != NULL && ru_comm.mem_swap > *ovrc->level_mem_swap) { if (!ret) logger(0, 0, "%s: node is overcommited.", actid == ACT_ERROR ? "Error" : "Warning"); logger(0, 0, "\tMemory and Swap commitment level (%.3f%%)" " exceeds configured (%.3f%%)", ru_comm.mem_swap, *ovrc->level_mem_swap); ret = 1; } if (ovrc->level_alloc_mem != NULL && ru_comm.alloc_mem > *ovrc->level_alloc_mem) { if (!ret) logger(0, 0, "%s: node is overcommited.", actid == ACT_ERROR ? "Error" : "Warning"); logger(0, 0, "\tAllocated Memory commitment level (%.3f%%)" " exceeds configured (%.3f%%)", ru_comm.alloc_mem, *ovrc->level_alloc_mem); ret = 1; } if (ovrc->level_alloc_mem_lim != NULL && ru_comm.alloc_mem_lim > *ovrc->level_alloc_mem_lim) { if (!ret) logger(0, 0, "%s: node is overcommited.", actid == ACT_ERROR ? "Error" : "Warning"); logger(0, 0, "\tTotal Alloc Limit commitment level (%.3f%%)" " exceeds configured (%.3f%%)", ru_comm.alloc_mem_lim, *ovrc->level_alloc_mem_lim); ret = 1; } return actid == ACT_ERROR ? VZ_OVERCOMMIT_ERROR : 0; }