/** * @file bmc.c * @note Copyright (C) 2011 Richard Cochran * * 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., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include "bmc.h" #include "ds.h" int dscmp2(struct dataset *a, struct dataset *b) { int diff; unsigned int A = a->stepsRemoved, B = b->stepsRemoved; if (A + 1 < B) return A_BETTER; if (B + 1 < A) return B_BETTER; /* * We ignore the "error-1" conditions mentioned in the * standard, since there is nothing we can do about it anyway. */ if (A < B) { diff = memcmp(&b->receiver, &b->sender, sizeof(b->receiver)); if (diff < 0) return A_BETTER; if (diff > 0) return A_BETTER_TOPO; /* error-1 */ return 0; } if (A > B) { diff = memcmp(&a->receiver, &a->sender, sizeof(a->receiver)); if (diff < 0) return B_BETTER; if (diff > 0) return B_BETTER_TOPO; /* error-1 */ return 0; } diff = memcmp(&a->sender, &b->sender, sizeof(a->sender)); if (diff < 0) return A_BETTER_TOPO; if (diff > 0) return B_BETTER_TOPO; if (a->receiver.portNumber < b->receiver.portNumber) return A_BETTER_TOPO; if (a->receiver.portNumber > b->receiver.portNumber) return B_BETTER_TOPO; /* * If we got this far, it means "error-2" has occured. */ return 0; } int dscmp(struct dataset *a, struct dataset *b) { int diff; if (a == b) return 0; if (a && !b) return A_BETTER; if (b && !a) return B_BETTER; diff = memcmp(&a->identity, &b->identity, sizeof(a->identity)); if (!diff) return dscmp2(a, b); if (a->priority1 < b->priority1) return A_BETTER; if (a->priority1 > b->priority1) return B_BETTER; if (a->quality.clockClass < b->quality.clockClass) return A_BETTER; if (a->quality.clockClass > b->quality.clockClass) return B_BETTER; if (a->quality.clockAccuracy < b->quality.clockAccuracy) return A_BETTER; if (a->quality.clockAccuracy > b->quality.clockAccuracy) return B_BETTER; if (a->quality.offsetScaledLogVariance < b->quality.offsetScaledLogVariance) return A_BETTER; if (a->quality.offsetScaledLogVariance > b->quality.offsetScaledLogVariance) return B_BETTER; if (a->priority2 < b->priority2) return A_BETTER; if (a->priority2 > b->priority2) return B_BETTER; return diff < 0 ? A_BETTER : B_BETTER; } enum port_state bmc_state_decision(struct clock *c, struct port *r, int (*compare)(struct dataset *a, struct dataset *b)) { struct dataset *clock_ds, *clock_best, *port_best; enum port_state ps; clock_ds = clock_default_ds(c); clock_best = clock_best_foreign(c); port_best = port_best_foreign(r); ps = port_state(r); if (!port_best && PS_LISTENING == ps) return ps; if (clock_class(c) <= 127) { if (compare(clock_ds, port_best) > 0) { return PS_GRAND_MASTER; /*M1*/ } else { return PS_PASSIVE; /*P1*/ } } if (compare(clock_ds, clock_best) > 0) { return PS_GRAND_MASTER; /*M2*/ } if (clock_best_port(c) == r) { return PS_SLAVE; /*S1*/ } if (compare(clock_best, port_best) == A_BETTER_TOPO) { return PS_PASSIVE; /*P2*/ } else { return PS_MASTER; /*M3*/ } }