517 lines
16 KiB
C
517 lines
16 KiB
C
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/*
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* Copyright (C) 2010 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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/*
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* WiFi load, scan, associate, unload stress test
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*
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* Repeatedly executes the following sequence:
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*
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* 1. Load WiFi driver
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* 2. Start supplicant
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* 3. Random delay
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* 4. Obtain supplicant status (optional)
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* 5. Stop supplicant
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* 6. Unload WiFi driver
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*
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* The "Obtain supplicant status" step is optional and is pseudo
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* randomly performed 50% of the time. The default range of
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* delay after start supplicant is intentionally selected such
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* that the obtain supplicant status and stop supplicant steps
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* may be performed while the WiFi driver is still performing a scan
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* or associate. The default values are given by DEFAULT_DELAY_MIN
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* and DEFAULT_DELAY_MAX. Other values can be specified through the
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* use of the -d and -D command-line options.
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*
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* Each sequence is refered to as a pass and by default an unlimited
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* number of passes are performed. An override of the range of passes
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* to be executed is available through the use of the -s (start) and
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* -e (end) command-line options. Can also specify a single specific
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* pass via the -p option. There is also a default time in which the
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* test executes, which is given by DEFAULT_DURATION and can be overriden
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* through the use of the -t command-line option.
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*/
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#include <assert.h>
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#include <errno.h>
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#include <libgen.h>
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#include <math.h>
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#define _GNU_SOURCE
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#include <sched.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <time.h>
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#include <unistd.h>
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#include <sys/syscall.h>
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#include <sys/types.h>
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#include <sys/wait.h>
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#include <hardware_legacy/wifi.h>
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#define LOG_TAG "wifiLoadScanAssocTest"
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#include <utils/Log.h>
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#include <testUtil.h>
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#define DEFAULT_START_PASS 0
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#define DEFAULT_END_PASS 999
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#define DEFAULT_DURATION FLT_MAX // A fairly long time, so that
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// range of passes will have
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// precedence
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#define DEFAULT_DELAY_MIN 0.0 // Min delay after start supplicant
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#define DEFAULT_DELAY_MAX 20.0 // Max delay after start supplicant
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#define DELAY_EXP 150.0 // Exponent which determines the
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// amount by which values closer
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// to DELAY_MIN are favored.
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#define CMD_STATUS "wpa_cli status 2>&1"
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#define CMD_STOP_FRAMEWORK "stop 2>&1"
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#define CMD_START_FRAMEWORK "start 2>&1"
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#define MAXSTR 100
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#define MAXCMD 500
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typedef unsigned int bool_t;
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#define true (0 == 0)
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#define false (!true)
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// File scope variables
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cpu_set_t availCPU;
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unsigned int numAvailCPU;
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float delayMin = DEFAULT_DELAY_MIN;
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float delayMax = DEFAULT_DELAY_MAX;
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bool_t driverLoadedAtStart;
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// Command-line mutual exclusion detection flags.
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// Corresponding flag set true once an option is used.
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bool_t eFlag, sFlag, pFlag;
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// File scope prototypes
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static void init(void);
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static void randDelay(void);
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static void randBind(const cpu_set_t *availSet, int *chosenCPU);
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/*
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* Main
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*
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* Performs the following high-level sequence of operations:
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*
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* 1. Command-line parsing
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*
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* 2. Initialization
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*
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* 3. Execute passes that repeatedly perform the WiFi load, scan,
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* associate, unload sequence.
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*
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* 4. Restore state of WiFi driver to state it was at the
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* start of the test.
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*
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* 5. Restart framework
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*/
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int
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main(int argc, char *argv[])
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{
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FILE *fp;
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int rv, opt;
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int cpu;
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char *chptr;
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unsigned int pass;
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char cmd[MAXCMD];
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float duration = DEFAULT_DURATION;
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unsigned int startPass = DEFAULT_START_PASS, endPass = DEFAULT_END_PASS;
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struct timeval startTime, currentTime, delta;
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testSetLogCatTag(LOG_TAG);
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// Parse command line arguments
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while ((opt = getopt(argc, argv, "d:D:s:e:p:t:?")) != -1) {
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switch (opt) {
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case 'd': // Minimum Delay
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delayMin = strtod(optarg, &chptr);
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if ((*chptr != '\0') || (delayMin < 0.0)) {
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testPrintE("Invalid command-line specified minimum delay "
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"of: %s", optarg);
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exit(1);
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}
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break;
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case 'D': // Maximum Delay
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delayMax = strtod(optarg, &chptr);
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if ((*chptr != '\0') || (delayMax < 0.0)) {
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testPrintE("Invalid command-line specified maximum delay "
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"of: %s", optarg);
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exit(2);
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}
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break;
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case 't': // Duration
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duration = strtod(optarg, &chptr);
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if ((*chptr != '\0') || (duration < 0.0)) {
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testPrintE("Invalid command-line specified duration of: %s",
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optarg);
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exit(3);
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}
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break;
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case 's': // Starting Pass
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if (sFlag || pFlag) {
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testPrintE("Invalid combination of command-line options,");
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if (sFlag) {
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testPrintE(" -s flag specified multiple times.");
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} else {
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testPrintE(" -s and -p flags are mutually exclusive.");
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}
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exit(10);
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}
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sFlag = true;
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startPass = strtoul(optarg, &chptr, 10);
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if (*chptr != '\0') {
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testPrintE("Invalid command-line specified starting pass "
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"of: %s", optarg);
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exit(4);
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}
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break;
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case 'e': // Ending Pass
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if (eFlag || pFlag) {
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testPrintE("Invalid combination of command-line options,");
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if (sFlag) {
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testPrintE(" -e flag specified multiple times.");
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} else {
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testPrintE(" -e and -p flags are mutually exclusive.");
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}
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exit(11);
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}
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eFlag = true;
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endPass = strtoul(optarg, &chptr, 10);
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if (*chptr != '\0') {
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testPrintE("Invalid command-line specified ending pass "
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"of: %s", optarg);
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exit(5);
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}
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break;
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case 'p': // Single Specific Pass
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if (pFlag || sFlag || eFlag) {
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testPrintE("Invalid combination of command-line options,");
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if (pFlag) {
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testPrintE(" -p flag specified multiple times.");
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} else {
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testPrintE(" -p and -%c flags are mutually exclusive.",
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(sFlag) ? 's' : 'e');
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}
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exit(12);
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}
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pFlag = true;
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endPass = startPass = strtoul(optarg, &chptr, 10);
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if (*chptr != '\0') {
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testPrintE("Invalid command-line specified pass "
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"of: %s", optarg);
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exit(13);
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}
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break;
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case '?':
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default:
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testPrintE(" %s [options]", basename(argv[0]));
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testPrintE(" options:");
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testPrintE(" -s Starting pass");
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testPrintE(" -e Ending pass");
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testPrintE(" -p Specific single pass");
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testPrintE(" -t Duration");
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testPrintE(" -d Delay min");
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testPrintE(" -D Delay max");
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exit(((optopt == 0) || (optopt == '?')) ? 0 : 6);
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}
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}
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if (delayMax < delayMin) {
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testPrintE("Unexpected maximum delay less than minimum delay");
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testPrintE(" delayMin: %f delayMax: %f", delayMin, delayMax);
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exit(7);
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}
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if (endPass < startPass) {
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testPrintE("Unexpected ending pass before starting pass");
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testPrintE(" startPass: %u endPass: %u", startPass, endPass);
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exit(8);
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}
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if (argc != optind) {
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testPrintE("Unexpected command-line postional argument");
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testPrintE(" %s [-s start_pass] [-e end_pass] [-d duration]",
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basename(argv[0]));
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exit(9);
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}
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testPrintI("duration: %g", duration);
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testPrintI("startPass: %u", startPass);
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testPrintI("endPass: %u", endPass);
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testPrintI("delayMin: %f", delayMin);
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testPrintI("delayMax: %f", delayMax);
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init();
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// For each pass
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gettimeofday(&startTime, NULL);
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for (pass = startPass; pass <= endPass; pass++) {
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// Stop if duration of work has already been performed
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gettimeofday(¤tTime, NULL);
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delta = tvDelta(&startTime, ¤tTime);
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if (tv2double(&delta) > duration) { break; }
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testPrintI("==== Starting pass: %u", pass);
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// Use a pass dependent sequence of random numbers
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srand48(pass);
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// Load WiFi Driver
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randBind(&availCPU, &cpu);
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if ((rv = wifi_load_driver()) != 0) {
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testPrintE("CPU: %i wifi_load_driver() failed, rv: %i\n",
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cpu, rv);
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exit(20);
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}
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testPrintI("CPU: %i wifi_load_driver succeeded", cpu);
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// Start Supplicant
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randBind(&availCPU, &cpu);
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if ((rv = wifi_start_supplicant(false)) != 0) {
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testPrintE("CPU: %i wifi_start_supplicant() failed, rv: %i\n",
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cpu, rv);
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exit(21);
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}
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testPrintI("CPU: %i wifi_start_supplicant succeeded", cpu);
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// Sleep a random amount of time
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randDelay();
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/*
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* Obtain WiFi Status
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* Half the time skip this step, which helps increase the
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* level of randomization.
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*/
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if (testRandBool()) {
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rv = snprintf(cmd, sizeof(cmd), "%s", CMD_STATUS);
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if (rv >= (signed) sizeof(cmd) - 1) {
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testPrintE("Command too long for: %s\n", CMD_STATUS);
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exit(22);
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}
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testExecCmd(cmd);
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}
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// Stop Supplicant
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randBind(&availCPU, &cpu);
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if ((rv = wifi_stop_supplicant(false)) != 0) {
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testPrintE("CPU: %i wifi_stop_supplicant() failed, rv: %i\n",
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cpu, rv);
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exit(23);
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}
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testPrintI("CPU: %i wifi_stop_supplicant succeeded", cpu);
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// Unload WiFi Module
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randBind(&availCPU, &cpu);
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if ((rv = wifi_unload_driver()) != 0) {
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testPrintE("CPU: %i wifi_unload_driver() failed, rv: %i\n",
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cpu, rv);
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exit(24);
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}
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testPrintI("CPU: %i wifi_unload_driver succeeded", cpu);
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testPrintI("==== Completed pass: %u", pass);
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}
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// If needed restore WiFi driver to state it was in at the
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// start of the test. It is assumed that it the driver
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// was loaded, then the wpa_supplicant was also running.
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if (driverLoadedAtStart) {
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// Load driver
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if ((rv = wifi_load_driver()) != 0) {
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testPrintE("main load driver failed, rv: %i", rv);
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exit(25);
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}
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// Start supplicant
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if ((rv = wifi_start_supplicant(false)) != 0) {
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testPrintE("main start supplicant failed, rv: %i", rv);
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exit(26);
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}
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// Obtain WiFi Status
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rv = snprintf(cmd, sizeof(cmd), "%s", CMD_STATUS);
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if (rv >= (signed) sizeof(cmd) - 1) {
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testPrintE("Command too long for: %s\n", CMD_STATUS);
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exit(22);
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}
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testExecCmd(cmd);
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}
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// Start framework
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rv = snprintf(cmd, sizeof(cmd), "%s", CMD_START_FRAMEWORK);
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if (rv >= (signed) sizeof(cmd) - 1) {
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testPrintE("Command too long for: %s\n", CMD_START_FRAMEWORK);
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exit(27);
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}
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testExecCmd(cmd);
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testPrintI("Successfully completed %u passes", pass - startPass);
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return 0;
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}
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/*
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* Initialize
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*
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* Perform testcase initialization, which includes:
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*
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* 1. Determine which CPUs are available for use
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*
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* 2. Determine total number of available CPUs
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*
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* 3. Stop framework
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*
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* 4. Determine whether WiFi driver is loaded and if so
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* stop wpa_supplicant and unload WiFi driver.
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*/
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void
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init(void)
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{
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int rv;
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unsigned int n1;
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char cmd[MAXCMD];
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// Use whichever CPUs are available at start of test
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rv = sched_getaffinity(0, sizeof(availCPU), &availCPU);
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if (rv != 0) {
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testPrintE("init sched_getaffinity failed, rv: %i errno: %i",
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rv, errno);
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exit(40);
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}
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// How many CPUs are available
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numAvailCPU = 0;
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for (n1 = 0; n1 < CPU_SETSIZE; n1++) {
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if (CPU_ISSET(n1, &availCPU)) { numAvailCPU++; }
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}
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testPrintI("numAvailCPU: %u", numAvailCPU);
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// Stop framework
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rv = snprintf(cmd, sizeof(cmd), "%s", CMD_STOP_FRAMEWORK);
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if (rv >= (signed) sizeof(cmd) - 1) {
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testPrintE("Command too long for: %s\n", CMD_STOP_FRAMEWORK);
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exit(41);
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}
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testExecCmd(cmd);
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// Is WiFi driver loaded?
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// If so stop the wpa_supplicant and unload the driver.
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driverLoadedAtStart = is_wifi_driver_loaded();
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testPrintI("driverLoadedAtStart: %u", driverLoadedAtStart);
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if (driverLoadedAtStart) {
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// Stop wpa_supplicant
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// Might already be stopped, in which case request should
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// return immediately with success.
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if ((rv = wifi_stop_supplicant(false)) != 0) {
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testPrintE("init stop supplicant failed, rv: %i", rv);
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exit(42);
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}
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testPrintI("Stopped wpa_supplicant");
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if ((rv = wifi_unload_driver()) != 0) {
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testPrintE("init unload driver failed, rv: %i", rv);
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exit(43);
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}
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testPrintI("WiFi driver unloaded");
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}
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}
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/*
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* Random Delay
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*
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* Delays for a random amount of time within the range given
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* by the file scope variables delayMin and delayMax. The
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* selected amount of delay can come from any part of the
|
||
|
* range, with a bias towards values closer to delayMin.
|
||
|
* The amount of bias is determined by the setting of DELAY_EXP.
|
||
|
* The setting of DELAY_EXP should always be > 1.0, with higher
|
||
|
* values causing a more significant bias toward the value
|
||
|
* of delayMin.
|
||
|
*/
|
||
|
void randDelay(void)
|
||
|
{
|
||
|
const unsigned long nanosecspersec = 1000000000;
|
||
|
float fract, biasedFract, amt;
|
||
|
struct timeval startTime, endTime;
|
||
|
|
||
|
// Obtain start time
|
||
|
gettimeofday(&startTime, NULL);
|
||
|
|
||
|
// Determine random amount to sleep.
|
||
|
// Values closer to delayMin are prefered by an amount
|
||
|
// determined by the value of DELAY_EXP.
|
||
|
fract = testRandFract();
|
||
|
biasedFract = pow(DELAY_EXP, fract) / pow(DELAY_EXP, 1.0);
|
||
|
amt = delayMin + ((delayMax - delayMin) * biasedFract);
|
||
|
|
||
|
// Delay
|
||
|
testDelay(amt);
|
||
|
|
||
|
// Obtain end time and display delta
|
||
|
gettimeofday(&endTime, NULL);
|
||
|
testPrintI("delay: %.2f",
|
||
|
(float) (tv2double(&endTime) - tv2double(&startTime)));
|
||
|
}
|
||
|
|
||
|
static void
|
||
|
randBind(const cpu_set_t *availSet, int *chosenCPU)
|
||
|
{
|
||
|
int rv;
|
||
|
cpu_set_t cpuset;
|
||
|
int chosenAvail, avail, cpu, currentCPU;
|
||
|
|
||
|
// Randomly bind to a CPU
|
||
|
// Lower 16 bits from random number generator thrown away,
|
||
|
// because the low-order bits tend to have the same sequence for
|
||
|
// different seed values.
|
||
|
chosenAvail = testRandMod(numAvailCPU);
|
||
|
CPU_ZERO(&cpuset);
|
||
|
avail = 0;
|
||
|
for (cpu = 0; cpu < CPU_SETSIZE; cpu++) {
|
||
|
if (CPU_ISSET(cpu, availSet)) {
|
||
|
if (chosenAvail == avail) {
|
||
|
CPU_SET(cpu, &cpuset);
|
||
|
break;
|
||
|
}
|
||
|
avail++;
|
||
|
}
|
||
|
}
|
||
|
assert(cpu < CPU_SETSIZE);
|
||
|
sched_setaffinity(0, sizeof(cpuset), &cpuset);
|
||
|
|
||
|
// Confirm executing on requested CPU
|
||
|
if ((currentCPU = sched_getcpu()) < 0) {
|
||
|
testPrintE("randBind sched_getcpu() failed, rv: %i errno: %i",
|
||
|
currentCPU, errno);
|
||
|
exit(80);
|
||
|
|
||
|
}
|
||
|
if (currentCPU != cpu) {
|
||
|
testPrintE("randBind executing on unexpected CPU %i, expected %i",
|
||
|
currentCPU, cpu);
|
||
|
exit(81);
|
||
|
}
|
||
|
|
||
|
// Let the caller know which CPU was chosen
|
||
|
*chosenCPU = cpu;
|
||
|
}
|