boinc/sched/validate_util.C

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// The contents of this file are subject to the BOINC Public License
// Version 1.0 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://boinc.berkeley.edu/license_1.0.txt
//
// Software distributed under the License is distributed on an "AS IS"
// basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
// License for the specific language governing rights and limitations
// under the License.
//
// The Original Code is the Berkeley Open Infrastructure for Network Computing.
//
// The Initial Developer of the Original Code is the SETI@home project.
// Portions created by the SETI@home project are Copyright (C) 2002
// University of California at Berkeley. All Rights Reserved.
//
// Contributor(s):
//
// Code to facilitate writing validators.
// Can be used as the basis for a validator that accepts everything
// (see validate_trivial.C),
// or that requires strict or fuzzy equality.
#include "validate_util.h"
#include "sched_util.h"
#include "sched_config.h"
#include "parse.h"
#include <cassert>
extern SCHED_CONFIG config;
// get the name of a result's (first) output file
//
int get_output_file_path(RESULT const& result, string& path) {
char buf[256];
bool flag;
flag = parse_str(result.xml_doc_in, "<name>", buf, sizeof(buf));
if (!flag) return -1;
path = config.upload_dir;
path += '/';
path += buf;
return 0;
}
// If we have N correct results, compute a canonical credit as follows:
// - if N==1, give that credit
// - if N==2, give min credit
// - if N>2, toss out min and max, give average of rest
//
double median_mean_credit(vector<RESULT> const& results) {
typedef vector<RESULT>::const_iterator it;
it it_low = results.end(), it_high;
double credit_low = 0, credit_high = 0;
size_t n_valid = 0;
for (it i = results.begin(); i != results.end(); ++i) {
if (i->validate_state != VALIDATE_STATE_VALID) continue;
++n_valid;
if (it_low == results.end()) {
it_low = it_high = i;
credit_low = credit_high = i->claimed_credit;
} else {
if (i->claimed_credit < credit_low) {
it_low = i;
credit_low = i->claimed_credit;
}
if (i->claimed_credit > credit_high) {
it_high = i;
credit_high = i->claimed_credit;
}
}
}
// compute a canonical credit as follows:
// - if N==1, give that credit
// - if N==2, give min credit
// - if N>2, toss out min and max, give average of rest
//
if (n_valid == 1) {
return credit_low;
} else if (n_valid == 2) {
return credit_low;
} else {
double sum = 0;
for (it i = results.begin(); i != results.end(); ++i) {
if (i == it_low) continue;
if (i == it_high) continue;
if (i->validate_state != VALIDATE_STATE_VALID) continue;
sum += i->claimed_credit;
}
return sum/(n_valid-2);
}
}
// Generic validation function that compares each result to each other one
// and sees if there is a strict majority. The comparison function is
// similar to check_pair but takes an additional initialization parameter.
//
// This function takes 3 call-back functions, each of which accept a void*
// and should return !=0 on error:
//
// 1. init_result - initialize all results - for example, call
// read_file_string and compute an MD5. Return a void*
// 2. check_pair_with_data - same as check_pair but with extra data from
// init_result
// 3. cleanup_result - deallocate anything created by init_result. Should
// do nothing with NULL data
//
// see validate_test.C example usage.
//
int generic_check_set_majority(
vector<RESULT>& results, int& canonicalid, double& credit,
init_result_f init_result_f,
check_pair_with_data_f check_pair_with_data_f,
cleanup_result_f cleanup_result_f
) {
assert (!results.empty());
vector<void*> data;
vector<RESULT>::size_type i, j, neq = 0, n = results.size();
data.resize(n);
// 1. INITIALIZE DATA
for (i = 0; i != n; ++i) {
if (init_result_f(results[i], data[i])) {
log_messages.printf(
SchedMessages::CRITICAL,
"check_set_majority: init_result([RESULT#%d %s]) failed\n",
results[i].id, results[i].name);
goto cleanup;
}
}
// 2. COMPARE
for (i = 0; i != n; ++i) {
vector<bool> matches;
matches.resize(n);
neq = 0;
for (j = 0; j != n; ++j) {
bool match = false;
if (i == j) {
++neq;
matches[j] = true;
} else if (check_pair_with_data_f(results[i], data[i], results[j], data[j], match)) {
log_messages.printf(
SchedMessages::CRITICAL,
"check_set_majority: check_pair_with_data([RESULT#%d %s], [RESULT#%d %s]) failed\n",
results[i].id, results[i].name, results[j].id, results[j].name);
} else if (match) {
++neq;
matches[j] = true;
}
}
if (neq > n/2) {
// set validate state for each result
for (j = 0; j != n; ++j) {
results[j].validate_state = matches[j] ? VALIDATE_STATE_VALID : VALIDATE_STATE_INVALID;
}
canonicalid = results[i].id;
credit = median_mean_credit(results);
break;
}
}
cleanup:
// 3. CLEANUP
for (i = 0; i != n; ++i) {
cleanup_result_f(results[i], data[i]);
}
return 0;
}
int generic_check_pair(
RESULT const& r1, RESULT const& r2, bool& match,
init_result_f init_result_f,
check_pair_with_data_f check_pair_with_data_f,
cleanup_result_f cleanup_result_f
) {
void* data1;
void* data2;
int retval;
retval = init_result_f(r1, data1);
if (retval) {
log_messages.printf(
SchedMessages::CRITICAL,
"[RESULT#%d %s] [RESULT#%d %s] Couldn't initialize result 1\n",
r1.id, r1.name, r2.id, r2.name
);
return retval;
}
retval = init_result_f(r2, data2);
if (retval) {
log_messages.printf(
SchedMessages::CRITICAL,
"[RESULT#%d %s] [RESULT#%d %s] Couldn't initialize result 2\n",
r1.id, r1.name, r2.id, r2.name
);
cleanup_result_f(r1, data1);
return retval;
}
retval = check_pair_with_data_f(r1, data1, r2, data2, match);
cleanup_result_f(r1, data1);
cleanup_result_f(r2, data2);
return retval;
}