// This file is part of BOINC. // http://boinc.berkeley.edu // Copyright (C) 2008 University of California // // BOINC is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License // as published by the Free Software Foundation, // either version 3 of the License, or (at your option) any later version. // // BOINC 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 Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with BOINC. If not, see . // Logic for assigning hosts to homogeneous redundancy (HR) classes #include "error_numbers.h" #include "str_util.h" #include "hr.h" // HR class is encoded as cpu_type + 128*os_type const int nocpu = 1; const int Intel = 2; const int AMD = 3; const int Macintosh = 4; // PowerPC const int AMDAthlon = 5; const int AMDDuron = 6; const int AMDSempron = 7; const int AMDOpteron = 8; const int AMDAthlon64 = 9; const int AMDAthlonXP = 10; const int IntelXeon = 11; const int IntelCeleron = 12; const int IntelPentium = 13; const int IntelPentiumII = 14; const int IntelPentiumIII = 15; const int IntelPentium4 = 16; const int IntelPentiumD = 17; const int IntelPentiumM = 18; const int AMDAthlonMP = 19; const int AMDTurion = 20; const int IntelCore2 = 21; const int ARM = 22; const int noos = 128; const int Linux = 256; const int Windows = 384; const int Darwin = 512; const int freebsd = 640; const int android = 768; #define MAX_HR_CLASS (768+128) inline int os(HOST& host){ if (strcasestr(host.os_name, "Linux")) return Linux; else if (strcasestr(host.os_name, "Windows")) return Windows; else if (strcasestr(host.os_name, "Darwin")) return Darwin; else if (strcasestr(host.os_name, "FreeBSD")) return freebsd; else if (strcasestr(host.os_name, "Android")) return android; else return noos; }; inline int cpu_coarse(HOST& host){ if (strcasestr(host.p_vendor, "Intel")) return Intel; //if (strcasestr(host.p_vendor, "AMD")) return AMD; if (strcasestr(host.p_vendor, "AMD")) return Intel; if (strcasestr(host.p_vendor, "Macintosh")) return Macintosh; if (strcasestr(host.p_vendor, "ARM")) return ARM; return nocpu; } inline int cpu_fine(HOST& host){ if (strcasestr(host.p_vendor, "Intel")) { if (strcasestr(host.p_model, "Xeon")) return IntelXeon; if (strcasestr(host.p_model, "Celeron")) { if (strcasestr(host.p_model, " M ")) return IntelPentiumM; if (strcasestr(host.p_model, " D ")) return IntelPentiumD; if (strcasestr(host.p_model, "III")) return IntelPentiumIII; return IntelCeleron; } if (strcasestr(host.p_model, "Core")) return IntelCore2; if (strcasestr(host.p_model, "Pentium")) { if (strcasestr(host.p_model, "III")) return IntelPentiumIII; if (strcasestr(host.p_model, "II")) return IntelPentiumII; if (strcasestr(host.p_model, " 4 ")) return IntelPentium4; if (strcasestr(host.p_model, " D ")) return IntelPentiumD; if (strcasestr(host.p_model, " M ")) return IntelPentiumM; return IntelPentium; } if (strcasestr(host.p_model, "x86")) { if (strcasestr(host.p_model, "Family 6 Model 6")) return IntelCeleron; if (strcasestr(host.p_model, "Family 6 Model 9")) return IntelPentiumM; if (strcasestr(host.p_model, "Family 6 Model 10")) return IntelXeon; if (strcasestr(host.p_model, "Family 5 Model 1")) return IntelPentium; if (strcasestr(host.p_model, "Family 5 Model 2")) return IntelPentium; if (strcasestr(host.p_model, "Family 6 Model 1")) return IntelPentium; if (strcasestr(host.p_model, "Family 15 Model 1")) return IntelPentium4; if (strcasestr(host.p_model, "Family 15 Model 2")) return IntelPentium4; if (strcasestr(host.p_model, "Family 6 Model 7")) return IntelPentiumIII; if (strcasestr(host.p_model, "Family 6 Model 8" )) return IntelPentiumIII; if (strcasestr(host.p_model, "Family 6 Model 11")) return IntelPentiumIII; if (strcasestr(host.p_model, "Family 6 Model 3")) return IntelPentiumII; if (strcasestr(host.p_model, "Family 6 Model 5")) return IntelPentiumII; } return Intel; } if (strcasestr(host.p_vendor, "AMD")) { if (strcasestr(host.p_model, "Duron")) return AMDDuron; if (strcasestr(host.p_model, "Opteron")) return AMDOpteron; if (strcasestr(host.p_model, "Sempron")) return AMDSempron; if (strcasestr(host.p_model, "Turion")) return AMDTurion; if (strcasestr(host.p_model, "Athlon")) { if (strcasestr(host.p_model, "XP")) return AMDAthlonXP; if (strcasestr(host.p_model, "MP")) return AMDAthlonMP; if (strcasestr(host.p_model, "64")) return AMDAthlon64; return AMDAthlon; } return AMD; } if (strcasestr(host.p_vendor, "Macintosh")) return Macintosh; if (strcasestr(host.p_vendor, "ARM")) return ARM; return nocpu; }; // call this ONLY if hr_unknown_class() returns false int hr_class(HOST& host, int hr_type) { switch (hr_type) { case 1: return os(host) + cpu_fine(host); case 2: return os(host) + cpu_coarse(host); } return 0; } bool hr_unknown_class(HOST& host, int hr_type) { switch (hr_type) { case 1: if (os(host) == noos) return true; if (cpu_fine(host) == nocpu) return true; return false; case 2: switch (os(host)) { case Windows: case Linux: return false; case Darwin: switch(cpu_coarse(host)) { case Intel: case Macintosh: return false; } return true; } return true; } return false; } const char* hr_names[HR_NTYPES] = {"", "fine", "coarse"}; int hr_nclasses[HR_NTYPES] = {0, MAX_HR_CLASS, MAX_HR_CLASS};