blob: 5c3f153c89b202e25098ab726ec8b60e68814c93 [file] [log] [blame]
/*
* iperf, Copyright (c) 2014-2019, The Regents of the University of
* California, through Lawrence Berkeley National Laboratory (subject
* to receipt of any required approvals from the U.S. Dept. of
* Energy). All rights reserved.
*
* If you have questions about your rights to use or distribute this
* software, please contact Berkeley Lab's Technology Transfer
* Department at TTD@lbl.gov.
*
* NOTICE. This software is owned by the U.S. Department of Energy.
* As such, the U.S. Government has been granted for itself and others
* acting on its behalf a paid-up, nonexclusive, irrevocable,
* worldwide license in the Software to reproduce, prepare derivative
* works, and perform publicly and display publicly. Beginning five
* (5) years after the date permission to assert copyright is obtained
* from the U.S. Department of Energy, and subject to any subsequent
* five (5) year renewals, the U.S. Government is granted for itself
* and others acting on its behalf a paid-up, nonexclusive,
* irrevocable, worldwide license in the Software to reproduce,
* prepare derivative works, distribute copies to the public, perform
* publicly and display publicly, and to permit others to do so.
*
* This code is distributed under a BSD style license, see the LICENSE file
* for complete information.
*/
#ifndef _GNU_SOURCE
# define _GNU_SOURCE
#endif
#define __USE_GNU
#include "iperf_config.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <getopt.h>
#include <errno.h>
#include <signal.h>
#include <unistd.h>
#include <assert.h>
#include <fcntl.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#ifdef HAVE_STDINT_H
#include <stdint.h>
#endif
#include <netinet/tcp.h>
#include <sys/time.h>
#ifndef __Fuchsia__
#include <sys/resource.h>
#endif
#include <sys/mman.h>
#include <sys/stat.h>
#include <sched.h>
#include <setjmp.h>
#include <stdarg.h>
#if defined(HAVE_CPUSET_SETAFFINITY)
#include <sys/param.h>
#include <sys/cpuset.h>
#endif /* HAVE_CPUSET_SETAFFINITY */
#if defined(HAVE_SETPROCESSAFFINITYMASK)
#include <Windows.h>
#endif /* HAVE_SETPROCESSAFFINITYMASK */
#include "net.h"
#include "iperf.h"
#include "iperf_api.h"
#include "iperf_udp.h"
#include "iperf_tcp.h"
#if defined(HAVE_SCTP)
#include "iperf_sctp.h"
#endif /* HAVE_SCTP */
#include "timer.h"
#include "cjson.h"
#include "units.h"
#include "iperf_util.h"
#include "iperf_locale.h"
#include "version.h"
#if defined(HAVE_SSL)
#include <openssl/bio.h>
#include "iperf_auth.h"
#endif /* HAVE_SSL */
/* Forwards. */
static int send_parameters(struct iperf_test *test);
static int get_parameters(struct iperf_test *test);
static int send_results(struct iperf_test *test);
static int get_results(struct iperf_test *test);
static int diskfile_send(struct iperf_stream *sp);
static int diskfile_recv(struct iperf_stream *sp);
static int JSON_write(int fd, cJSON *json);
static void print_interval_results(struct iperf_test *test, struct iperf_stream *sp, cJSON *json_interval_streams);
static cJSON *JSON_read(int fd);
/*************************** Print usage functions ****************************/
void
usage()
{
fputs(usage_shortstr, stderr);
}
void
usage_long(FILE *f)
{
fprintf(f, usage_longstr, UDP_RATE / (1024*1024), DURATION, DEFAULT_TCP_BLKSIZE / 1024, DEFAULT_UDP_BLKSIZE);
}
void warning(char *str)
{
fprintf(stderr, "warning: %s\n", str);
}
/************** Getter routines for some fields inside iperf_test *************/
int
iperf_get_verbose(struct iperf_test *ipt)
{
return ipt->verbose;
}
int
iperf_get_control_socket(struct iperf_test *ipt)
{
return ipt->ctrl_sck;
}
int
iperf_get_control_socket_mss(struct iperf_test *ipt)
{
return ipt->ctrl_sck_mss;
}
int
iperf_get_test_omit(struct iperf_test *ipt)
{
return ipt->omit;
}
int
iperf_get_test_duration(struct iperf_test *ipt)
{
return ipt->duration;
}
uint64_t
iperf_get_test_rate(struct iperf_test *ipt)
{
return ipt->settings->rate;
}
uint64_t
iperf_get_test_fqrate(struct iperf_test *ipt)
{
return ipt->settings->fqrate;
}
int
iperf_get_test_pacing_timer(struct iperf_test *ipt)
{
return ipt->settings->pacing_timer;
}
uint64_t
iperf_get_test_bytes(struct iperf_test *ipt)
{
return (uint64_t) ipt->settings->bytes;
}
uint64_t
iperf_get_test_blocks(struct iperf_test *ipt)
{
return (uint64_t) ipt->settings->blocks;
}
int
iperf_get_test_burst(struct iperf_test *ipt)
{
return ipt->settings->burst;
}
char
iperf_get_test_role(struct iperf_test *ipt)
{
return ipt->role;
}
int
iperf_get_test_reverse(struct iperf_test *ipt)
{
return ipt->reverse;
}
int
iperf_get_test_blksize(struct iperf_test *ipt)
{
return ipt->settings->blksize;
}
FILE *
iperf_get_test_outfile (struct iperf_test *ipt)
{
return ipt->outfile;
}
int
iperf_get_test_socket_bufsize(struct iperf_test *ipt)
{
return ipt->settings->socket_bufsize;
}
double
iperf_get_test_reporter_interval(struct iperf_test *ipt)
{
return ipt->reporter_interval;
}
double
iperf_get_test_stats_interval(struct iperf_test *ipt)
{
return ipt->stats_interval;
}
int
iperf_get_test_num_streams(struct iperf_test *ipt)
{
return ipt->num_streams;
}
int
iperf_get_test_repeating_payload(struct iperf_test *ipt)
{
return ipt->repeating_payload;
}
int
iperf_get_test_server_port(struct iperf_test *ipt)
{
return ipt->server_port;
}
char*
iperf_get_test_server_hostname(struct iperf_test *ipt)
{
return ipt->server_hostname;
}
char*
iperf_get_test_template(struct iperf_test *ipt)
{
return ipt->tmp_template;
}
int
iperf_get_test_protocol_id(struct iperf_test *ipt)
{
return ipt->protocol->id;
}
int
iperf_get_test_json_output(struct iperf_test *ipt)
{
return ipt->json_output;
}
char *
iperf_get_test_json_output_string(struct iperf_test *ipt)
{
return ipt->json_output_string;
}
int
iperf_get_test_zerocopy(struct iperf_test *ipt)
{
return ipt->zerocopy;
}
int
iperf_get_test_get_server_output(struct iperf_test *ipt)
{
return ipt->get_server_output;
}
char
iperf_get_test_unit_format(struct iperf_test *ipt)
{
return ipt->settings->unit_format;
}
char *
iperf_get_test_bind_address(struct iperf_test *ipt)
{
return ipt->bind_address;
}
int
iperf_get_test_udp_counters_64bit(struct iperf_test *ipt)
{
return ipt->udp_counters_64bit;
}
int
iperf_get_test_one_off(struct iperf_test *ipt)
{
return ipt->one_off;
}
int
iperf_get_test_tos(struct iperf_test *ipt)
{
return ipt->settings->tos;
}
char *
iperf_get_test_extra_data(struct iperf_test *ipt)
{
return ipt->extra_data;
}
static const char iperf_version[] = IPERF_VERSION;
char *
iperf_get_iperf_version(void)
{
return (char*)iperf_version;
}
int
iperf_get_test_no_delay(struct iperf_test *ipt)
{
return ipt->no_delay;
}
/************** Setter routines for some fields inside iperf_test *************/
void
iperf_set_verbose(struct iperf_test *ipt, int verbose)
{
ipt->verbose = verbose;
}
void
iperf_set_control_socket(struct iperf_test *ipt, int ctrl_sck)
{
ipt->ctrl_sck = ctrl_sck;
}
void
iperf_set_test_omit(struct iperf_test *ipt, int omit)
{
ipt->omit = omit;
}
void
iperf_set_test_duration(struct iperf_test *ipt, int duration)
{
ipt->duration = duration;
}
void
iperf_set_test_reporter_interval(struct iperf_test *ipt, double reporter_interval)
{
ipt->reporter_interval = reporter_interval;
}
void
iperf_set_test_stats_interval(struct iperf_test *ipt, double stats_interval)
{
ipt->stats_interval = stats_interval;
}
void
iperf_set_test_state(struct iperf_test *ipt, signed char state)
{
ipt->state = state;
}
void
iperf_set_test_blksize(struct iperf_test *ipt, int blksize)
{
ipt->settings->blksize = blksize;
}
void
iperf_set_test_logfile(struct iperf_test *ipt, char *logfile)
{
ipt->logfile = strdup(logfile);
}
void
iperf_set_test_rate(struct iperf_test *ipt, uint64_t rate)
{
ipt->settings->rate = rate;
}
void
iperf_set_test_fqrate(struct iperf_test *ipt, uint64_t fqrate)
{
ipt->settings->fqrate = fqrate;
}
void
iperf_set_test_pacing_timer(struct iperf_test *ipt, int pacing_timer)
{
ipt->settings->pacing_timer = pacing_timer;
}
void
iperf_set_test_bytes(struct iperf_test *ipt, uint64_t bytes)
{
ipt->settings->bytes = (iperf_size_t) bytes;
}
void
iperf_set_test_blocks(struct iperf_test *ipt, uint64_t blocks)
{
ipt->settings->blocks = (iperf_size_t) blocks;
}
void
iperf_set_test_burst(struct iperf_test *ipt, int burst)
{
ipt->settings->burst = burst;
}
void
iperf_set_test_server_port(struct iperf_test *ipt, int srv_port)
{
ipt->server_port = srv_port;
}
void
iperf_set_test_socket_bufsize(struct iperf_test *ipt, int socket_bufsize)
{
ipt->settings->socket_bufsize = socket_bufsize;
}
void
iperf_set_test_num_streams(struct iperf_test *ipt, int num_streams)
{
ipt->num_streams = num_streams;
}
void
iperf_set_test_repeating_payload(struct iperf_test *ipt, int repeating_payload)
{
ipt->repeating_payload = repeating_payload;
}
static void
check_sender_has_retransmits(struct iperf_test *ipt)
{
if (ipt->mode != RECEIVER && ipt->protocol->id == Ptcp && has_tcpinfo_retransmits())
ipt->sender_has_retransmits = 1;
else
ipt->sender_has_retransmits = 0;
}
void
iperf_set_test_role(struct iperf_test *ipt, char role)
{
ipt->role = role;
if (!ipt->reverse) {
if (role == 'c')
ipt->mode = SENDER;
else if (role == 's')
ipt->mode = RECEIVER;
} else {
if (role == 'c')
ipt->mode = RECEIVER;
else if (role == 's')
ipt->mode = SENDER;
}
check_sender_has_retransmits(ipt);
}
void
iperf_set_test_server_hostname(struct iperf_test *ipt, char *server_hostname)
{
ipt->server_hostname = strdup(server_hostname);
}
void
iperf_set_test_template(struct iperf_test *ipt, char *tmp_template)
{
ipt->tmp_template = strdup(tmp_template);
}
void
iperf_set_test_reverse(struct iperf_test *ipt, int reverse)
{
ipt->reverse = reverse;
if (!ipt->reverse) {
if (ipt->role == 'c')
ipt->mode = SENDER;
else if (ipt->role == 's')
ipt->mode = RECEIVER;
} else {
if (ipt->role == 'c')
ipt->mode = RECEIVER;
else if (ipt->role == 's')
ipt->mode = SENDER;
}
check_sender_has_retransmits(ipt);
}
void
iperf_set_test_json_output(struct iperf_test *ipt, int json_output)
{
ipt->json_output = json_output;
}
int
iperf_has_zerocopy( void )
{
return has_sendfile();
}
void
iperf_set_test_zerocopy(struct iperf_test *ipt, int zerocopy)
{
ipt->zerocopy = (zerocopy && has_sendfile());
}
void
iperf_set_test_get_server_output(struct iperf_test *ipt, int get_server_output)
{
ipt->get_server_output = get_server_output;
}
void
iperf_set_test_unit_format(struct iperf_test *ipt, char unit_format)
{
ipt->settings->unit_format = unit_format;
}
#if defined(HAVE_SSL)
void
iperf_set_test_client_username(struct iperf_test *ipt, char *client_username)
{
ipt->settings->client_username = client_username;
}
void
iperf_set_test_client_password(struct iperf_test *ipt, char *client_password)
{
ipt->settings->client_password = client_password;
}
void
iperf_set_test_client_rsa_pubkey(struct iperf_test *ipt, char *client_rsa_pubkey_base64)
{
ipt->settings->client_rsa_pubkey = load_pubkey_from_base64(client_rsa_pubkey_base64);
}
#endif // HAVE_SSL
void
iperf_set_test_bind_address(struct iperf_test *ipt, char *bnd_address)
{
ipt->bind_address = strdup(bnd_address);
}
void
iperf_set_test_udp_counters_64bit(struct iperf_test *ipt, int udp_counters_64bit)
{
ipt->udp_counters_64bit = udp_counters_64bit;
}
void
iperf_set_test_one_off(struct iperf_test *ipt, int one_off)
{
ipt->one_off = one_off;
}
void
iperf_set_test_tos(struct iperf_test *ipt, int tos)
{
ipt->settings->tos = tos;
}
void
iperf_set_test_extra_data(struct iperf_test *ipt, char *dat)
{
ipt->extra_data = dat;
}
void
iperf_set_test_bidirectional(struct iperf_test* ipt, int bidirectional)
{
ipt->bidirectional = bidirectional;
if (bidirectional)
ipt->mode = BIDIRECTIONAL;
else
iperf_set_test_reverse(ipt, ipt->reverse);
}
void
iperf_set_test_no_delay(struct iperf_test* ipt, int no_delay)
{
ipt->no_delay = no_delay;
}
/********************** Get/set test protocol structure ***********************/
struct protocol *
get_protocol(struct iperf_test *test, int prot_id)
{
struct protocol *prot;
SLIST_FOREACH(prot, &test->protocols, protocols) {
if (prot->id == prot_id)
break;
}
if (prot == NULL)
i_errno = IEPROTOCOL;
return prot;
}
int
set_protocol(struct iperf_test *test, int prot_id)
{
struct protocol *prot = NULL;
SLIST_FOREACH(prot, &test->protocols, protocols) {
if (prot->id == prot_id) {
test->protocol = prot;
check_sender_has_retransmits(test);
return 0;
}
}
i_errno = IEPROTOCOL;
return -1;
}
/************************** Iperf callback functions **************************/
void
iperf_on_new_stream(struct iperf_stream *sp)
{
connect_msg(sp);
}
void
iperf_on_test_start(struct iperf_test *test)
{
if (test->json_output) {
cJSON_AddItemToObject(test->json_start, "test_start", iperf_json_printf("protocol: %s num_streams: %d blksize: %d omit: %d duration: %d bytes: %d blocks: %d reverse: %d tos: %d", test->protocol->name, (int64_t) test->num_streams, (int64_t) test->settings->blksize, (int64_t) test->omit, (int64_t) test->duration, (int64_t) test->settings->bytes, (int64_t) test->settings->blocks, test->reverse?(int64_t)1:(int64_t)0, (int64_t) test->settings->tos));
} else {
if (test->verbose) {
if (test->settings->bytes)
iperf_printf(test, test_start_bytes, test->protocol->name, test->num_streams, test->settings->blksize, test->omit, test->settings->bytes, test->settings->tos);
else if (test->settings->blocks)
iperf_printf(test, test_start_blocks, test->protocol->name, test->num_streams, test->settings->blksize, test->omit, test->settings->blocks, test->settings->tos);
else
iperf_printf(test, test_start_time, test->protocol->name, test->num_streams, test->settings->blksize, test->omit, test->duration, test->settings->tos);
}
}
}
/* This converts an IPv6 string address from IPv4-mapped format into regular
** old IPv4 format, which is easier on the eyes of network veterans.
**
** If the v6 address is not v4-mapped it is left alone.
*/
static void
mapped_v4_to_regular_v4(char *str)
{
char *prefix = "::ffff:";
int prefix_len;
prefix_len = strlen(prefix);
if (strncmp(str, prefix, prefix_len) == 0) {
int str_len = strlen(str);
memmove(str, str + prefix_len, str_len - prefix_len + 1);
}
}
void
iperf_on_connect(struct iperf_test *test)
{
time_t now_secs;
const char* rfc1123_fmt = "%a, %d %b %Y %H:%M:%S %Z";
char now_str[100];
char ipr[INET6_ADDRSTRLEN];
int port;
struct sockaddr_storage sa;
struct sockaddr_in *sa_inP;
struct sockaddr_in6 *sa_in6P;
socklen_t len;
now_secs = time((time_t*) 0);
(void) strftime(now_str, sizeof(now_str), rfc1123_fmt, gmtime(&now_secs));
if (test->json_output)
cJSON_AddItemToObject(test->json_start, "timestamp", iperf_json_printf("time: %s timesecs: %d", now_str, (int64_t) now_secs));
else if (test->verbose)
iperf_printf(test, report_time, now_str);
if (test->role == 'c') {
if (test->json_output)
cJSON_AddItemToObject(test->json_start, "connecting_to", iperf_json_printf("host: %s port: %d", test->server_hostname, (int64_t) test->server_port));
else {
iperf_printf(test, report_connecting, test->server_hostname, test->server_port);
if (test->reverse)
iperf_printf(test, report_reverse, test->server_hostname);
}
} else {
len = sizeof(sa);
getpeername(test->ctrl_sck, (struct sockaddr *) &sa, &len);
if (getsockdomain(test->ctrl_sck) == AF_INET) {
sa_inP = (struct sockaddr_in *) &sa;
inet_ntop(AF_INET, &sa_inP->sin_addr, ipr, sizeof(ipr));
port = ntohs(sa_inP->sin_port);
} else {
sa_in6P = (struct sockaddr_in6 *) &sa;
inet_ntop(AF_INET6, &sa_in6P->sin6_addr, ipr, sizeof(ipr));
port = ntohs(sa_in6P->sin6_port);
}
mapped_v4_to_regular_v4(ipr);
if (test->json_output)
cJSON_AddItemToObject(test->json_start, "accepted_connection", iperf_json_printf("host: %s port: %d", ipr, (int64_t) port));
else
iperf_printf(test, report_accepted, ipr, port);
}
if (test->json_output) {
cJSON_AddStringToObject(test->json_start, "cookie", test->cookie);
if (test->protocol->id == SOCK_STREAM) {
if (test->settings->mss)
cJSON_AddNumberToObject(test->json_start, "tcp_mss", test->settings->mss);
else {
cJSON_AddNumberToObject(test->json_start, "tcp_mss_default", test->ctrl_sck_mss);
}
if (test->settings->rate)
cJSON_AddNumberToObject(test->json_start, "target_bitrate", test->settings->rate);
}
} else if (test->verbose) {
iperf_printf(test, report_cookie, test->cookie);
if (test->protocol->id == SOCK_STREAM) {
if (test->settings->mss)
iperf_printf(test, " TCP MSS: %d\n", test->settings->mss);
else {
iperf_printf(test, " TCP MSS: %d (default)\n", test->ctrl_sck_mss);
}
}
if (test->settings->rate)
iperf_printf(test, " Target Bitrate: %llu\n", test->settings->rate);
}
}
void
iperf_on_test_finish(struct iperf_test *test)
{
}
/******************************************************************************/
int
iperf_parse_arguments(struct iperf_test *test, int argc, char **argv)
{
static struct option longopts[] =
{
{"port", required_argument, NULL, 'p'},
{"format", required_argument, NULL, 'f'},
{"interval", required_argument, NULL, 'i'},
{"daemon", no_argument, NULL, 'D'},
{"one-off", no_argument, NULL, '1'},
{"verbose", no_argument, NULL, 'V'},
{"json", no_argument, NULL, 'J'},
{"version", no_argument, NULL, 'v'},
{"server", no_argument, NULL, 's'},
{"client", required_argument, NULL, 'c'},
{"udp", no_argument, NULL, 'u'},
{"bitrate", required_argument, NULL, 'b'},
{"bandwidth", required_argument, NULL, 'b'},
{"time", required_argument, NULL, 't'},
{"bytes", required_argument, NULL, 'n'},
{"blockcount", required_argument, NULL, 'k'},
{"length", required_argument, NULL, 'l'},
{"parallel", required_argument, NULL, 'P'},
{"reverse", no_argument, NULL, 'R'},
{"bidir", no_argument, NULL, OPT_BIDIRECTIONAL},
{"window", required_argument, NULL, 'w'},
{"bind", required_argument, NULL, 'B'},
{"cport", required_argument, NULL, OPT_CLIENT_PORT},
{"set-mss", required_argument, NULL, 'M'},
{"no-delay", no_argument, NULL, 'N'},
{"version4", no_argument, NULL, '4'},
{"version6", no_argument, NULL, '6'},
{"tos", required_argument, NULL, 'S'},
{"dscp", required_argument, NULL, OPT_DSCP},
{"extra-data", required_argument, NULL, OPT_EXTRA_DATA},
#if defined(HAVE_FLOWLABEL)
{"flowlabel", required_argument, NULL, 'L'},
#endif /* HAVE_FLOWLABEL */
{"zerocopy", no_argument, NULL, 'Z'},
{"omit", required_argument, NULL, 'O'},
{"file", required_argument, NULL, 'F'},
{"repeating-payload", no_argument, NULL, OPT_REPEATING_PAYLOAD},
#if defined(HAVE_CPU_AFFINITY)
{"affinity", required_argument, NULL, 'A'},
#endif /* HAVE_CPU_AFFINITY */
{"title", required_argument, NULL, 'T'},
#if defined(HAVE_TCP_CONGESTION)
{"congestion", required_argument, NULL, 'C'},
{"linux-congestion", required_argument, NULL, 'C'},
#endif /* HAVE_TCP_CONGESTION */
#if defined(HAVE_SCTP)
{"sctp", no_argument, NULL, OPT_SCTP},
{"nstreams", required_argument, NULL, OPT_NUMSTREAMS},
{"xbind", required_argument, NULL, 'X'},
#endif
{"pidfile", required_argument, NULL, 'I'},
{"logfile", required_argument, NULL, OPT_LOGFILE},
{"forceflush", no_argument, NULL, OPT_FORCEFLUSH},
{"get-server-output", no_argument, NULL, OPT_GET_SERVER_OUTPUT},
{"udp-counters-64bit", no_argument, NULL, OPT_UDP_COUNTERS_64BIT},
{"no-fq-socket-pacing", no_argument, NULL, OPT_NO_FQ_SOCKET_PACING},
#if defined(HAVE_SSL)
{"username", required_argument, NULL, OPT_CLIENT_USERNAME},
{"rsa-public-key-path", required_argument, NULL, OPT_CLIENT_RSA_PUBLIC_KEY},
{"rsa-private-key-path", required_argument, NULL, OPT_SERVER_RSA_PRIVATE_KEY},
{"authorized-users-path", required_argument, NULL, OPT_SERVER_AUTHORIZED_USERS},
#endif /* HAVE_SSL */
{"fq-rate", required_argument, NULL, OPT_FQ_RATE},
{"pacing-timer", required_argument, NULL, OPT_PACING_TIMER},
{"connect-timeout", required_argument, NULL, OPT_CONNECT_TIMEOUT},
{"debug", no_argument, NULL, 'd'},
{"help", no_argument, NULL, 'h'},
{NULL, 0, NULL, 0}
};
int flag;
int portno;
int blksize;
int server_flag, client_flag, rate_flag, duration_flag;
char *endptr;
#if defined(HAVE_CPU_AFFINITY)
char* comma;
#endif /* HAVE_CPU_AFFINITY */
char* slash;
struct xbind_entry *xbe;
double farg;
blksize = 0;
server_flag = client_flag = rate_flag = duration_flag = 0;
#if defined(HAVE_SSL)
char *client_username = NULL, *client_rsa_public_key = NULL, *server_rsa_private_key = NULL;
#endif /* HAVE_SSL */
while ((flag = getopt_long(argc, argv, "p:f:i:D1VJvsc:ub:t:n:k:l:P:Rw:B:M:N46S:L:ZO:F:A:T:C:dI:hX:", longopts, NULL)) != -1) {
switch (flag) {
case 'p':
portno = atoi(optarg);
if (portno < 1 || portno > 65535) {
i_errno = IEBADPORT;
return -1;
}
test->server_port = portno;
break;
case 'f':
if (!optarg) {
i_errno = IEBADFORMAT;
return -1;
}
test->settings->unit_format = *optarg;
if (test->settings->unit_format == 'k' ||
test->settings->unit_format == 'K' ||
test->settings->unit_format == 'm' ||
test->settings->unit_format == 'M' ||
test->settings->unit_format == 'g' ||
test->settings->unit_format == 'G' ||
test->settings->unit_format == 't' ||
test->settings->unit_format == 'T') {
break;
}
else {
i_errno = IEBADFORMAT;
return -1;
}
break;
case 'i':
/* XXX: could potentially want separate stat collection and reporting intervals,
but just set them to be the same for now */
test->stats_interval = test->reporter_interval = atof(optarg);
if ((test->stats_interval < MIN_INTERVAL || test->stats_interval > MAX_INTERVAL) && test->stats_interval != 0) {
i_errno = IEINTERVAL;
return -1;
}
break;
case 'D':
test->daemon = 1;
server_flag = 1;
break;
case '1':
test->one_off = 1;
server_flag = 1;
break;
case 'V':
test->verbose = 1;
break;
case 'J':
test->json_output = 1;
break;
case 'v':
printf("%s (cJSON %s)\n%s\n%s\n", version, cJSON_Version(), get_system_info(),
get_optional_features());
exit(0);
case 's':
if (test->role == 'c') {
i_errno = IESERVCLIENT;
return -1;
}
iperf_set_test_role(test, 's');
break;
case 'c':
if (test->role == 's') {
i_errno = IESERVCLIENT;
return -1;
}
iperf_set_test_role(test, 'c');
iperf_set_test_server_hostname(test, optarg);
break;
case 'u':
set_protocol(test, Pudp);
client_flag = 1;
break;
case OPT_SCTP:
#if defined(HAVE_SCTP)
set_protocol(test, Psctp);
client_flag = 1;
break;
#else /* HAVE_SCTP */
i_errno = IEUNIMP;
return -1;
#endif /* HAVE_SCTP */
case OPT_NUMSTREAMS:
#if defined(linux) || defined(__FreeBSD__)
test->settings->num_ostreams = unit_atoi(optarg);
client_flag = 1;
#else /* linux */
i_errno = IEUNIMP;
return -1;
#endif /* linux */
case 'b':
slash = strchr(optarg, '/');
if (slash) {
*slash = '\0';
++slash;
test->settings->burst = atoi(slash);
if (test->settings->burst <= 0 ||
test->settings->burst > MAX_BURST) {
i_errno = IEBURST;
return -1;
}
}
test->settings->rate = unit_atof_rate(optarg);
rate_flag = 1;
client_flag = 1;
break;
case 't':
test->duration = atoi(optarg);
if (test->duration > MAX_TIME) {
i_errno = IEDURATION;
return -1;
}
duration_flag = 1;
client_flag = 1;
break;
case 'n':
test->settings->bytes = unit_atoi(optarg);
client_flag = 1;
break;
case 'k':
test->settings->blocks = unit_atoi(optarg);
client_flag = 1;
break;
case 'l':
blksize = unit_atoi(optarg);
client_flag = 1;
break;
case 'P':
test->num_streams = atoi(optarg);
if (test->num_streams > MAX_STREAMS) {
i_errno = IENUMSTREAMS;
return -1;
}
client_flag = 1;
break;
case 'R':
if (test->bidirectional) {
i_errno = IEREVERSEBIDIR;
return -1;
}
iperf_set_test_reverse(test, 1);
client_flag = 1;
break;
case OPT_BIDIRECTIONAL:
if (test->reverse) {
i_errno = IEREVERSEBIDIR;
return -1;
}
iperf_set_test_bidirectional(test, 1);
client_flag = 1;
break;
case 'w':
// XXX: This is a socket buffer, not specific to TCP
// Do sanity checks as double-precision floating point
// to avoid possible integer overflows.
farg = unit_atof(optarg);
if (farg > (double) MAX_TCP_BUFFER) {
i_errno = IEBUFSIZE;
return -1;
}
test->settings->socket_bufsize = (int) farg;
client_flag = 1;
break;
case 'B':
test->bind_address = strdup(optarg);
break;
case OPT_CLIENT_PORT:
portno = atoi(optarg);
if (portno < 1 || portno > 65535) {
i_errno = IEBADPORT;
return -1;
}
test->bind_port = portno;
break;
case 'M':
test->settings->mss = atoi(optarg);
if (test->settings->mss > MAX_MSS) {
i_errno = IEMSS;
return -1;
}
client_flag = 1;
break;
case 'N':
test->no_delay = 1;
client_flag = 1;
break;
case '4':
test->settings->domain = AF_INET;
break;
case '6':
test->settings->domain = AF_INET6;
break;
case 'S':
test->settings->tos = strtol(optarg, &endptr, 0);
if (endptr == optarg ||
test->settings->tos < 0 ||
test->settings->tos > 255) {
i_errno = IEBADTOS;
return -1;
}
client_flag = 1;
break;
case OPT_DSCP:
test->settings->tos = parse_qos(optarg);
if(test->settings->tos < 0) {
i_errno = IEBADTOS;
return -1;
}
client_flag = 1;
break;
case OPT_EXTRA_DATA:
test->extra_data = strdup(optarg);
client_flag = 1;
break;
case 'L':
#if defined(HAVE_FLOWLABEL)
test->settings->flowlabel = strtol(optarg, &endptr, 0);
if (endptr == optarg ||
test->settings->flowlabel < 1 || test->settings->flowlabel > 0xfffff) {
i_errno = IESETFLOW;
return -1;
}
client_flag = 1;
#else /* HAVE_FLOWLABEL */
i_errno = IEUNIMP;
return -1;
#endif /* HAVE_FLOWLABEL */
break;
case 'X':
xbe = (struct xbind_entry *)malloc(sizeof(struct xbind_entry));
if (!xbe) {
i_errno = IESETSCTPBINDX;
return -1;
}
memset(xbe, 0, sizeof(*xbe));
xbe->name = strdup(optarg);
if (!xbe->name) {
i_errno = IESETSCTPBINDX;
return -1;
}
TAILQ_INSERT_TAIL(&test->xbind_addrs, xbe, link);
break;
case 'Z':
if (!has_sendfile()) {
i_errno = IENOSENDFILE;
return -1;
}
test->zerocopy = 1;
client_flag = 1;
break;
case OPT_REPEATING_PAYLOAD:
test->repeating_payload = 1;
client_flag = 1;
break;
case 'O':
test->omit = atoi(optarg);
if (test->omit < 0 || test->omit > 60) {
i_errno = IEOMIT;
return -1;
}
client_flag = 1;
break;
case 'F':
test->diskfile_name = optarg;
break;
case 'A':
#if defined(HAVE_CPU_AFFINITY)
test->affinity = strtol(optarg, &endptr, 0);
if (endptr == optarg ||
test->affinity < 0 || test->affinity > 1024) {
i_errno = IEAFFINITY;
return -1;
}
comma = strchr(optarg, ',');
if (comma != NULL) {
test->server_affinity = atoi(comma+1);
if (test->server_affinity < 0 || test->server_affinity > 1024) {
i_errno = IEAFFINITY;
return -1;
}
client_flag = 1;
}
#else /* HAVE_CPU_AFFINITY */
i_errno = IEUNIMP;
return -1;
#endif /* HAVE_CPU_AFFINITY */
break;
case 'T':
test->title = strdup(optarg);
client_flag = 1;
break;
case 'C':
#if defined(HAVE_TCP_CONGESTION)
test->congestion = strdup(optarg);
client_flag = 1;
#else /* HAVE_TCP_CONGESTION */
i_errno = IEUNIMP;
return -1;
#endif /* HAVE_TCP_CONGESTION */
break;
case 'd':
test->debug = 1;
break;
case 'I':
test->pidfile = strdup(optarg);
server_flag = 1;
break;
case OPT_LOGFILE:
test->logfile = strdup(optarg);
break;
case OPT_FORCEFLUSH:
test->forceflush = 1;
break;
case OPT_GET_SERVER_OUTPUT:
test->get_server_output = 1;
client_flag = 1;
break;
case OPT_UDP_COUNTERS_64BIT:
test->udp_counters_64bit = 1;
break;
case OPT_NO_FQ_SOCKET_PACING:
#if defined(HAVE_SO_MAX_PACING_RATE)
printf("Warning: --no-fq-socket-pacing is deprecated\n");
test->settings->fqrate = 0;
client_flag = 1;
#else /* HAVE_SO_MAX_PACING_RATE */
i_errno = IEUNIMP;
return -1;
#endif
break;
case OPT_FQ_RATE:
#if defined(HAVE_SO_MAX_PACING_RATE)
test->settings->fqrate = unit_atof_rate(optarg);
client_flag = 1;
#else /* HAVE_SO_MAX_PACING_RATE */
i_errno = IEUNIMP;
return -1;
#endif
break;
#if defined(HAVE_SSL)
case OPT_CLIENT_USERNAME:
client_username = strdup(optarg);
break;
case OPT_CLIENT_RSA_PUBLIC_KEY:
client_rsa_public_key = strdup(optarg);
break;
case OPT_SERVER_RSA_PRIVATE_KEY:
server_rsa_private_key = strdup(optarg);
break;
case OPT_SERVER_AUTHORIZED_USERS:
test->server_authorized_users = strdup(optarg);
break;
#endif /* HAVE_SSL */
case OPT_PACING_TIMER:
test->settings->pacing_timer = unit_atoi(optarg);
client_flag = 1;
break;
case OPT_CONNECT_TIMEOUT:
test->settings->connect_timeout = unit_atoi(optarg);
client_flag = 1;
break;
case 'h':
usage_long(stdout);
exit(0);
default:
usage_long(stderr);
exit(1);
}
}
/* Check flag / role compatibility. */
if (test->role == 'c' && server_flag) {
i_errno = IESERVERONLY;
return -1;
}
if (test->role == 's' && client_flag) {
i_errno = IECLIENTONLY;
return -1;
}
#if defined(HAVE_SSL)
if (test->role == 's' && (client_username || client_rsa_public_key)){
i_errno = IECLIENTONLY;
return -1;
} else if (test->role == 'c' && (client_username || client_rsa_public_key) &&
!(client_username && client_rsa_public_key)) {
i_errno = IESETCLIENTAUTH;
return -1;
} else if (test->role == 'c' && (client_username && client_rsa_public_key)){
char *client_password = NULL;
size_t s;
/* Need to copy env var, so we can do a common free */
if ((client_password = getenv("IPERF3_PASSWORD")) != NULL)
client_password = strdup(client_password);
else if (iperf_getpass(&client_password, &s, stdin) < 0){
return -1;
}
if (strlen(client_username) > 20 || strlen(client_password) > 20){
i_errno = IESETCLIENTAUTH;
return -1;
}
if (test_load_pubkey_from_file(client_rsa_public_key) < 0){
i_errno = IESETCLIENTAUTH;
return -1;
}
test->settings->client_username = client_username;
test->settings->client_password = client_password;
test->settings->client_rsa_pubkey = load_pubkey_from_file(client_rsa_public_key);
free(client_rsa_public_key);
client_rsa_public_key = NULL;
}
if (test->role == 'c' && (server_rsa_private_key || test->server_authorized_users)){
i_errno = IESERVERONLY;
return -1;
} else if (test->role == 's' && (server_rsa_private_key || test->server_authorized_users) &&
!(server_rsa_private_key && test->server_authorized_users)) {
i_errno = IESETSERVERAUTH;
return -1;
} else if (test->role == 's' && server_rsa_private_key) {
test->server_rsa_private_key = load_privkey_from_file(server_rsa_private_key);
if (test->server_rsa_private_key == NULL){
i_errno = IESETSERVERAUTH;
return -1;
}
free(server_rsa_private_key);
server_rsa_private_key = NULL;
}
#endif //HAVE_SSL
if (blksize == 0) {
if (test->protocol->id == Pudp)
blksize = 0; /* try to dynamically determine from MSS */
else if (test->protocol->id == Psctp)
blksize = DEFAULT_SCTP_BLKSIZE;
else
blksize = DEFAULT_TCP_BLKSIZE;
}
if ((test->protocol->id != Pudp && blksize <= 0)
|| blksize > MAX_BLOCKSIZE) {
i_errno = IEBLOCKSIZE;
return -1;
}
if (test->protocol->id == Pudp &&
(blksize > 0 &&
(blksize < MIN_UDP_BLOCKSIZE || blksize > MAX_UDP_BLOCKSIZE))) {
i_errno = IEUDPBLOCKSIZE;
return -1;
}
test->settings->blksize = blksize;
if (!rate_flag)
test->settings->rate = test->protocol->id == Pudp ? UDP_RATE : 0;
if ((test->settings->bytes != 0 || test->settings->blocks != 0) && ! duration_flag)
test->duration = 0;
/* Disallow specifying multiple test end conditions. The code actually
** works just fine without this prohibition. As soon as any one of the
** three possible end conditions is met, the test ends. So this check
** could be removed if desired.
*/
if ((duration_flag && test->settings->bytes != 0) ||
(duration_flag && test->settings->blocks != 0) ||
(test->settings->bytes != 0 && test->settings->blocks != 0)) {
i_errno = IEENDCONDITIONS;
return -1;
}
/* For subsequent calls to getopt */
#ifdef __APPLE__
optreset = 1;
#endif
optind = 0;
if ((test->role != 'c') && (test->role != 's')) {
i_errno = IENOROLE;
return -1;
}
/* Show warning if JSON output is used with explicit report format */
if ((test->json_output) && (test->settings->unit_format != 'a')) {
warning("Report format (-f) flag ignored with JSON output (-J)");
}
/* Show warning if JSON output is used with verbose or debug flags */
if (test->json_output && test->verbose) {
warning("Verbose output (-v) may interfere with JSON output (-J)");
}
if (test->json_output && test->debug) {
warning("Debug output (-d) may interfere with JSON output (-J)");
}
return 0;
}
/*
* Open the file specified by test->logfile and set test->outfile to its' FD.
*/
int iperf_open_logfile(struct iperf_test *test)
{
test->outfile = fopen(test->logfile, "a+");
if (test->outfile == NULL) {
i_errno = IELOGFILE;
return -1;
}
return 0;
}
int
iperf_set_send_state(struct iperf_test *test, signed char state)
{
test->state = state;
if (Nwrite(test->ctrl_sck, (char*) &state, sizeof(state), Ptcp) < 0) {
i_errno = IESENDMESSAGE;
return -1;
}
return 0;
}
void
iperf_check_throttle(struct iperf_stream *sp, struct iperf_time *nowP)
{
struct iperf_time temp_time;
double seconds;
uint64_t bits_per_second;
if (sp->test->done)
return;
iperf_time_diff(&sp->result->start_time_fixed, nowP, &temp_time);
seconds = iperf_time_in_secs(&temp_time);
bits_per_second = sp->result->bytes_sent * 8 / seconds;
if (bits_per_second < sp->test->settings->rate) {
sp->green_light = 1;
FD_SET(sp->socket, &sp->test->write_set);
} else {
sp->green_light = 0;
FD_CLR(sp->socket, &sp->test->write_set);
}
}
int
iperf_send(struct iperf_test *test, fd_set *write_setP)
{
register int multisend, r, streams_active;
register struct iperf_stream *sp;
struct iperf_time now;
/* Can we do multisend mode? */
if (test->settings->burst != 0)
multisend = test->settings->burst;
else if (test->settings->rate == 0)
multisend = test->multisend;
else
multisend = 1; /* nope */
for (; multisend > 0; --multisend) {
if (test->settings->rate != 0 && test->settings->burst == 0)
iperf_time_now(&now);
streams_active = 0;
SLIST_FOREACH(sp, &test->streams, streams) {
if ((sp->green_light && sp->sender &&
(write_setP == NULL || FD_ISSET(sp->socket, write_setP)))) {
if ((r = sp->snd(sp)) < 0) {
if (r == NET_SOFTERROR)
break;
i_errno = IESTREAMWRITE;
return r;
}
streams_active = 1;
test->bytes_sent += r;
++test->blocks_sent;
if (test->settings->rate != 0 && test->settings->burst == 0)
iperf_check_throttle(sp, &now);
if (multisend > 1 && test->settings->bytes != 0 && test->bytes_sent >= test->settings->bytes)
break;
if (multisend > 1 && test->settings->blocks != 0 && test->blocks_sent >= test->settings->blocks)
break;
}
}
if (!streams_active)
break;
}
if (test->settings->burst != 0) {
iperf_time_now(&now);
SLIST_FOREACH(sp, &test->streams, streams)
iperf_check_throttle(sp, &now);
}
if (write_setP != NULL)
SLIST_FOREACH(sp, &test->streams, streams)
if (FD_ISSET(sp->socket, write_setP))
FD_CLR(sp->socket, write_setP);
return 0;
}
int
iperf_recv(struct iperf_test *test, fd_set *read_setP)
{
int r;
struct iperf_stream *sp;
SLIST_FOREACH(sp, &test->streams, streams) {
if (FD_ISSET(sp->socket, read_setP) && !sp->sender) {
if ((r = sp->rcv(sp)) < 0) {
i_errno = IESTREAMREAD;
return r;
}
test->bytes_received += r;
++test->blocks_received;
FD_CLR(sp->socket, read_setP);
}
}
return 0;
}
int
iperf_init_test(struct iperf_test *test)
{
struct iperf_time now;
struct iperf_stream *sp;
if (test->protocol->init) {
if (test->protocol->init(test) < 0)
return -1;
}
/* Init each stream. */
if (iperf_time_now(&now) < 0) {
i_errno = IEINITTEST;
return -1;
}
SLIST_FOREACH(sp, &test->streams, streams) {
sp->result->start_time = sp->result->start_time_fixed = now;
}
if (test->on_test_start)
test->on_test_start(test);
return 0;
}
static void
send_timer_proc(TimerClientData client_data, struct iperf_time *nowP)
{
struct iperf_stream *sp = client_data.p;
/* All we do here is set or clear the flag saying that this stream may
** be sent to. The actual sending gets done in the send proc, after
** checking the flag.
*/
iperf_check_throttle(sp, nowP);
}
int
iperf_create_send_timers(struct iperf_test * test)
{
struct iperf_time now;
struct iperf_stream *sp;
TimerClientData cd;
if (iperf_time_now(&now) < 0) {
i_errno = IEINITTEST;
return -1;
}
SLIST_FOREACH(sp, &test->streams, streams) {
sp->green_light = 1;
if (test->settings->rate != 0) {
cd.p = sp;
sp->send_timer = tmr_create(NULL, send_timer_proc, cd, test->settings->pacing_timer, 1);
if (sp->send_timer == NULL) {
i_errno = IEINITTEST;
return -1;
}
}
}
return 0;
}
#if defined(HAVE_SSL)
int test_is_authorized(struct iperf_test *test){
if ( !(test->server_rsa_private_key && test->server_authorized_users)) {
return 0;
}
if (test->settings->authtoken){
char *username = NULL, *password = NULL;
time_t ts;
decode_auth_setting(test->debug, test->settings->authtoken, test->server_rsa_private_key, &username, &password, &ts);
int ret = check_authentication(username, password, ts, test->server_authorized_users);
if (ret == 0){
iperf_printf(test, report_authetication_successed, username, ts);
free(username);
free(password);
return 0;
} else {
iperf_printf(test, report_authetication_failed, username, ts);
free(username);
free(password);
return -1;
}
}
return -1;
}
#endif //HAVE_SSL
/**
* iperf_exchange_parameters - handles the param_Exchange part for client
*
*/
int
iperf_exchange_parameters(struct iperf_test *test)
{
int s;
int32_t err;
if (test->role == 'c') {
if (send_parameters(test) < 0)
return -1;
} else {
if (get_parameters(test) < 0)
return -1;
#if defined(HAVE_SSL)
if (test_is_authorized(test) < 0){
if (iperf_set_send_state(test, SERVER_ERROR) != 0)
return -1;
i_errno = IEAUTHTEST;
err = htonl(i_errno);
if (Nwrite(test->ctrl_sck, (char*) &err, sizeof(err), Ptcp) < 0) {
i_errno = IECTRLWRITE;
return -1;
}
return -1;
}
#endif //HAVE_SSL
if ((s = test->protocol->listen(test)) < 0) {
if (iperf_set_send_state(test, SERVER_ERROR) != 0)
return -1;
err = htonl(i_errno);
if (Nwrite(test->ctrl_sck, (char*) &err, sizeof(err), Ptcp) < 0) {
i_errno = IECTRLWRITE;
return -1;
}
err = htonl(errno);
if (Nwrite(test->ctrl_sck, (char*) &err, sizeof(err), Ptcp) < 0) {
i_errno = IECTRLWRITE;
return -1;
}
return -1;
}
FD_SET(s, &test->read_set);
test->max_fd = (s > test->max_fd) ? s : test->max_fd;
test->prot_listener = s;
// Send the control message to create streams and start the test
if (iperf_set_send_state(test, CREATE_STREAMS) != 0)
return -1;
}
return 0;
}
/*************************************************************/
int
iperf_exchange_results(struct iperf_test *test)
{
if (test->role == 'c') {
/* Send results to server. */
if (send_results(test) < 0)
return -1;
/* Get server results. */
if (get_results(test) < 0)
return -1;
} else {
/* Get client results. */
if (get_results(test) < 0)
return -1;
/* Send results to client. */
if (send_results(test) < 0)
return -1;
}
return 0;
}
/*************************************************************/
static int
send_parameters(struct iperf_test *test)
{
int r = 0;
cJSON *j;
j = cJSON_CreateObject();
if (j == NULL) {
i_errno = IESENDPARAMS;
r = -1;
} else {
if (test->protocol->id == Ptcp)
cJSON_AddTrueToObject(j, "tcp");
else if (test->protocol->id == Pudp)
cJSON_AddTrueToObject(j, "udp");
else if (test->protocol->id == Psctp)
cJSON_AddTrueToObject(j, "sctp");
cJSON_AddNumberToObject(j, "omit", test->omit);
if (test->server_affinity != -1)
cJSON_AddNumberToObject(j, "server_affinity", test->server_affinity);
cJSON_AddNumberToObject(j, "time", test->duration);
if (test->settings->bytes)
cJSON_AddNumberToObject(j, "num", test->settings->bytes);
if (test->settings->blocks)
cJSON_AddNumberToObject(j, "blockcount", test->settings->blocks);
if (test->settings->mss)
cJSON_AddNumberToObject(j, "MSS", test->settings->mss);
if (test->no_delay)
cJSON_AddTrueToObject(j, "nodelay");
cJSON_AddNumberToObject(j, "parallel", test->num_streams);
if (test->reverse)
cJSON_AddTrueToObject(j, "reverse");
if (test->bidirectional)
cJSON_AddTrueToObject(j, "bidirectional");
if (test->settings->socket_bufsize)
cJSON_AddNumberToObject(j, "window", test->settings->socket_bufsize);
if (test->settings->blksize)
cJSON_AddNumberToObject(j, "len", test->settings->blksize);
if (test->settings->rate)
cJSON_AddNumberToObject(j, "bandwidth", test->settings->rate);
if (test->settings->fqrate)
cJSON_AddNumberToObject(j, "fqrate", test->settings->fqrate);
if (test->settings->pacing_timer)
cJSON_AddNumberToObject(j, "pacing_timer", test->settings->pacing_timer);
if (test->settings->burst)
cJSON_AddNumberToObject(j, "burst", test->settings->burst);
if (test->settings->tos)
cJSON_AddNumberToObject(j, "TOS", test->settings->tos);
if (test->settings->flowlabel)
cJSON_AddNumberToObject(j, "flowlabel", test->settings->flowlabel);
if (test->title)
cJSON_AddStringToObject(j, "title", test->title);
if (test->extra_data)
cJSON_AddStringToObject(j, "extra_data", test->extra_data);
if (test->congestion)
cJSON_AddStringToObject(j, "congestion", test->congestion);
if (test->congestion_used)
cJSON_AddStringToObject(j, "congestion_used", test->congestion_used);
if (test->get_server_output)
cJSON_AddNumberToObject(j, "get_server_output", iperf_get_test_get_server_output(test));
if (test->udp_counters_64bit)
cJSON_AddNumberToObject(j, "udp_counters_64bit", iperf_get_test_udp_counters_64bit(test));
if (test->repeating_payload)
cJSON_AddNumberToObject(j, "repeating_payload", test->repeating_payload);
#if defined(HAVE_SSL)
if (test->settings->client_username && test->settings->client_password && test->settings->client_rsa_pubkey){
encode_auth_setting(test->settings->client_username, test->settings->client_password, test->settings->client_rsa_pubkey, &test->settings->authtoken);
cJSON_AddStringToObject(j, "authtoken", test->settings->authtoken);
}
#endif // HAVE_SSL
cJSON_AddStringToObject(j, "client_version", IPERF_VERSION);
if (test->debug) {
printf("send_parameters:\n%s\n", cJSON_Print(j));
}
if (JSON_write(test->ctrl_sck, j) < 0) {
i_errno = IESENDPARAMS;
r = -1;
}
cJSON_Delete(j);
}
return r;
}
/*************************************************************/
static int
get_parameters(struct iperf_test *test)
{
int r = 0;
cJSON *j;
cJSON *j_p;
j = JSON_read(test->ctrl_sck);
if (j == NULL) {
i_errno = IERECVPARAMS;
r = -1;
} else {
if (test->debug) {
char *str;
str = cJSON_Print(j);
printf("get_parameters:\n%s\n", str );
free(str);
}
if ((j_p = cJSON_GetObjectItem(j, "tcp")) != NULL)
set_protocol(test, Ptcp);
if ((j_p = cJSON_GetObjectItem(j, "udp")) != NULL)
set_protocol(test, Pudp);
if ((j_p = cJSON_GetObjectItem(j, "sctp")) != NULL)
set_protocol(test, Psctp);
if ((j_p = cJSON_GetObjectItem(j, "omit")) != NULL)
test->omit = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "server_affinity")) != NULL)
test->server_affinity = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "time")) != NULL)
test->duration = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "num")) != NULL)
test->settings->bytes = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "blockcount")) != NULL)
test->settings->blocks = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "MSS")) != NULL)
test->settings->mss = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "nodelay")) != NULL)
test->no_delay = 1;
if ((j_p = cJSON_GetObjectItem(j, "parallel")) != NULL)
test->num_streams = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "reverse")) != NULL)
iperf_set_test_reverse(test, 1);
if ((j_p = cJSON_GetObjectItem(j, "bidirectional")) != NULL)
iperf_set_test_bidirectional(test, 1);
if ((j_p = cJSON_GetObjectItem(j, "window")) != NULL)
test->settings->socket_bufsize = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "len")) != NULL)
test->settings->blksize = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "bandwidth")) != NULL)
test->settings->rate = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "fqrate")) != NULL)
test->settings->fqrate = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "pacing_timer")) != NULL)
test->settings->pacing_timer = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "burst")) != NULL)
test->settings->burst = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "TOS")) != NULL)
test->settings->tos = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "flowlabel")) != NULL)
test->settings->flowlabel = j_p->valueint;
if ((j_p = cJSON_GetObjectItem(j, "title")) != NULL)
test->title = strdup(j_p->valuestring);
if ((j_p = cJSON_GetObjectItem(j, "extra_data")) != NULL)
test->extra_data = strdup(j_p->valuestring);
if ((j_p = cJSON_GetObjectItem(j, "congestion")) != NULL)
test->congestion = strdup(j_p->valuestring);
if ((j_p = cJSON_GetObjectItem(j, "congestion_used")) != NULL)
test->congestion_used = strdup(j_p->valuestring);
if ((j_p = cJSON_GetObjectItem(j, "get_server_output")) != NULL)
iperf_set_test_get_server_output(test, 1);
if ((j_p = cJSON_GetObjectItem(j, "udp_counters_64bit")) != NULL)
iperf_set_test_udp_counters_64bit(test, 1);
if ((j_p = cJSON_GetObjectItem(j, "repeating_payload")) != NULL)
test->repeating_payload = 1;
#if defined(HAVE_SSL)
if ((j_p = cJSON_GetObjectItem(j, "authtoken")) != NULL)
test->settings->authtoken = strdup(j_p->valuestring);
#endif //HAVE_SSL
if (test->mode && test->protocol->id == Ptcp && has_tcpinfo_retransmits())
test->sender_has_retransmits = 1;
if (test->settings->rate)
cJSON_AddNumberToObject(test->json_start, "target_bitrate", test->settings->rate);
cJSON_Delete(j);
}
return r;
}
/*************************************************************/
static int
send_results(struct iperf_test *test)
{
int r = 0;
cJSON *j;
cJSON *j_streams;
struct iperf_stream *sp;
cJSON *j_stream;
int sender_has_retransmits;
iperf_size_t bytes_transferred;
int retransmits;
struct iperf_time temp_time;
double start_time, end_time;
j = cJSON_CreateObject();
if (j == NULL) {
i_errno = IEPACKAGERESULTS;
r = -1;
} else {
cJSON_AddNumberToObject(j, "cpu_util_total", test->cpu_util[0]);
cJSON_AddNumberToObject(j, "cpu_util_user", test->cpu_util[1]);
cJSON_AddNumberToObject(j, "cpu_util_system", test->cpu_util[2]);
if ( test->mode == RECEIVER )
sender_has_retransmits = -1;
else
sender_has_retransmits = test->sender_has_retransmits;
cJSON_AddNumberToObject(j, "sender_has_retransmits", sender_has_retransmits);
if ( test->congestion_used ) {
cJSON_AddStringToObject(j, "congestion_used", test->congestion_used);
}
/* If on the server and sending server output, then do this */
if (test->role == 's' && test->get_server_output) {
if (test->json_output) {
/* Add JSON output */
cJSON_AddItemReferenceToObject(j, "server_output_json", test->json_top);
}
else {
/* Add textual output */
size_t buflen = 0;
/* Figure out how much room we need to hold the complete output string */
struct iperf_textline *t;
TAILQ_FOREACH(t, &(test->server_output_list), textlineentries) {
buflen += strlen(t->line);
}
/* Allocate and build it up from the component lines */
char *output = calloc(buflen + 1, 1);
TAILQ_FOREACH(t, &(test->server_output_list), textlineentries) {
strncat(output, t->line, buflen);
buflen -= strlen(t->line);
}
cJSON_AddStringToObject(j, "server_output_text", output);
free(output);
}
}
j_streams = cJSON_CreateArray();
if (j_streams == NULL) {
i_errno = IEPACKAGERESULTS;
r = -1;
} else {
cJSON_AddItemToObject(j, "streams", j_streams);
SLIST_FOREACH(sp, &test->streams, streams) {
j_stream = cJSON_CreateObject();
if (j_stream == NULL) {
i_errno = IEPACKAGERESULTS;
r = -1;
} else {
cJSON_AddItemToArray(j_streams, j_stream);
bytes_transferred = sp->sender ? (sp->result->bytes_sent - sp->result->bytes_sent_omit) : sp->result->bytes_received;
retransmits = (sp->sender && test->sender_has_retransmits) ? sp->result->stream_retrans : -1;
cJSON_AddNumberToObject(j_stream, "id", sp->id);
cJSON_AddNumberToObject(j_stream, "bytes", bytes_transferred);
cJSON_AddNumberToObject(j_stream, "retransmits", retransmits);
cJSON_AddNumberToObject(j_stream, "jitter", sp->jitter);
cJSON_AddNumberToObject(j_stream, "errors", sp->cnt_error);
cJSON_AddNumberToObject(j_stream, "packets", sp->packet_count);
iperf_time_diff(&sp->result->start_time, &sp->result->start_time, &temp_time);
start_time = iperf_time_in_secs(&temp_time);
iperf_time_diff(&sp->result->start_time, &sp->result->end_time, &temp_time);
end_time = iperf_time_in_secs(&temp_time);
cJSON_AddNumberToObject(j_stream, "start_time", start_time);
cJSON_AddNumberToObject(j_stream, "end_time", end_time);
}
}
if (r == 0 && test->debug) {
char *str = cJSON_Print(j);
printf("send_results\n%s\n", str);
free(str);
}
if (r == 0 && JSON_write(test->ctrl_sck, j) < 0) {
i_errno = IESENDRESULTS;
r = -1;
}
}
cJSON_Delete(j);
}
return r;
}
/*************************************************************/
static int
get_results(struct iperf_test *test)
{
int r = 0;
cJSON *j;
cJSON *j_cpu_util_total;
cJSON *j_cpu_util_user;
cJSON *j_cpu_util_system;
cJSON *j_remote_congestion_used;
cJSON *j_sender_has_retransmits;
int result_has_retransmits;
cJSON *j_streams;
int n, i;
cJSON *j_stream;
cJSON *j_id;
cJSON *j_bytes;
cJSON *j_retransmits;
cJSON *j_jitter;
cJSON *j_errors;
cJSON *j_packets;
cJSON *j_server_output;
cJSON *j_start_time, *j_end_time;
int sid, cerror, pcount;
double jitter;
iperf_size_t bytes_transferred;
int retransmits;
struct iperf_stream *sp;
j = JSON_read(test->ctrl_sck);
if (j == NULL) {
i_errno = IERECVRESULTS;
r = -1;
} else {
j_cpu_util_total = cJSON_GetObjectItem(j, "cpu_util_total");
j_cpu_util_user = cJSON_GetObjectItem(j, "cpu_util_user");
j_cpu_util_system = cJSON_GetObjectItem(j, "cpu_util_system");
j_sender_has_retransmits = cJSON_GetObjectItem(j, "sender_has_retransmits");
if (j_cpu_util_total == NULL || j_cpu_util_user == NULL || j_cpu_util_system == NULL || j_sender_has_retransmits == NULL) {
i_errno = IERECVRESULTS;
r = -1;
} else {
if (test->debug) {
char *str = cJSON_Print(j);
printf("get_results\n%s\n", str);
free(str);
}
test->remote_cpu_util[0] = j_cpu_util_total->valuedouble;
test->remote_cpu_util[1] = j_cpu_util_user->valuedouble;
test->remote_cpu_util[2] = j_cpu_util_system->valuedouble;
result_has_retransmits = j_sender_has_retransmits->valueint;
if ( test->mode == RECEIVER ) {
test->sender_has_retransmits = result_has_retransmits;
test->other_side_has_retransmits = 0;
}
else if ( test->mode == BIDIRECTIONAL )
test->other_side_has_retransmits = result_has_retransmits;
j_streams = cJSON_GetObjectItem(j, "streams");
if (j_streams == NULL) {
i_errno = IERECVRESULTS;
r = -1;
} else {
n = cJSON_GetArraySize(j_streams);
for (i=0; i<n; ++i) {
j_stream = cJSON_GetArrayItem(j_streams, i);
if (j_stream == NULL) {
i_errno = IERECVRESULTS;
r = -1;
} else {
j_id = cJSON_GetObjectItem(j_stream, "id");
j_bytes = cJSON_GetObjectItem(j_stream, "bytes");
j_retransmits = cJSON_GetObjectItem(j_stream, "retransmits");
j_jitter = cJSON_GetObjectItem(j_stream, "jitter");
j_errors = cJSON_GetObjectItem(j_stream, "errors");
j_packets = cJSON_GetObjectItem(j_stream, "packets");
j_start_time = cJSON_GetObjectItem(j_stream, "start_time");
j_end_time = cJSON_GetObjectItem(j_stream, "end_time");
if (j_id == NULL || j_bytes == NULL || j_retransmits == NULL || j_jitter == NULL || j_errors == NULL || j_packets == NULL) {
i_errno = IERECVRESULTS;
r = -1;
} else {
sid = j_id->valueint;
bytes_transferred = j_bytes->valueint;
retransmits = j_retransmits->valueint;
jitter = j_jitter->valuedouble;
cerror = j_errors->valueint;
pcount = j_packets->valueint;
SLIST_FOREACH(sp, &test->streams, streams)
if (sp->id == sid) break;
if (sp == NULL) {
i_errno = IESTREAMID;
r = -1;
} else {
if (sp->sender) {
sp->jitter = jitter;
sp->cnt_error = cerror;
sp->peer_packet_count = pcount;
sp->result->bytes_received = bytes_transferred;
/*
* We have to handle the possibilty that
* start_time and end_time might not be
* available; this is the case for older (pre-3.2)
* servers.
*
* We need to have result structure members to hold
* the both sides' start_time and end_time.
*/
if (j_start_time && j_end_time) {
sp->result->receiver_time = j_end_time->valuedouble - j_start_time->valuedouble;
}
else {
sp->result->receiver_time = 0.0;
}
} else {
sp->peer_packet_count = pcount;
sp->result->bytes_sent = bytes_transferred;
sp->result->stream_retrans = retransmits;
if (j_start_time && j_end_time) {
sp->result->sender_time = j_end_time->valuedouble - j_start_time->valuedouble;
}
else {
sp->result->sender_time = 0.0;
}
}
}
}
}
}
/*
* If we're the client and we're supposed to get remote results,
* look them up and process accordingly.
*/
if (test->role == 'c' && iperf_get_test_get_server_output(test)) {
/* Look for JSON. If we find it, grab the object so it doesn't get deleted. */
j_server_output = cJSON_DetachItemFromObject(j, "server_output_json");
if (j_server_output != NULL) {
test->json_server_output = j_server_output;
}
else {
/* No JSON, look for textual output. Make a copy of the text for later. */
j_server_output = cJSON_GetObjectItem(j, "server_output_text");
if (j_server_output != NULL) {
test->server_output_text = strdup(j_server_output->valuestring);
}
}
}
}
}
j_remote_congestion_used = cJSON_GetObjectItem(j, "congestion_used");
if (j_remote_congestion_used != NULL) {
test->remote_congestion_used = strdup(j_remote_congestion_used->valuestring);
}
cJSON_Delete(j);
}
return r;
}
/*************************************************************/
static int
JSON_write(int fd, cJSON *json)
{
uint32_t hsize, nsize;
char *str;
int r = 0;
str = cJSON_PrintUnformatted(json);
if (str == NULL)
r = -1;
else {
hsize = strlen(str);
nsize = htonl(hsize);
if (Nwrite(fd, (char*) &nsize, sizeof(nsize), Ptcp) < 0)
r = -1;
else {
if (Nwrite(fd, str, hsize, Ptcp) < 0)
r = -1;
}
free(str);
}
return r;
}
/*************************************************************/
static cJSON *
JSON_read(int fd)
{
uint32_t hsize, nsize;
char *str;
cJSON *json = NULL;
int rc;
/*
* Read a four-byte integer, which is the length of the JSON to follow.
* Then read the JSON into a buffer and parse it. Return a parsed JSON
* structure, NULL if there was an error.
*/
if (Nread(fd, (char*) &nsize, sizeof(nsize), Ptcp) >= 0) {
hsize = ntohl(nsize);
/* Allocate a buffer to hold the JSON */
str = (char *) calloc(sizeof(char), hsize+1); /* +1 for trailing null */
if (str != NULL) {
rc = Nread(fd, str, hsize, Ptcp);
if (rc >= 0) {
/*
* We should be reading in the number of bytes corresponding to the
* length in that 4-byte integer. If we don't the socket might have
* prematurely closed. Only do the JSON parsing if we got the
* correct number of bytes.
*/
if (rc == hsize) {
json = cJSON_Parse(str);
}
else {
printf("WARNING: Size of data read does not correspond to offered length\n");
}
}
}
free(str);
}
return json;
}
/*************************************************************/
/**
* add_to_interval_list -- adds new interval to the interval_list
*/
void
add_to_interval_list(struct iperf_stream_result * rp, struct iperf_interval_results * new)
{
struct iperf_interval_results *irp;
irp = (struct iperf_interval_results *) malloc(sizeof(struct iperf_interval_results));
memcpy(irp, new, sizeof(struct iperf_interval_results));
TAILQ_INSERT_TAIL(&rp->interval_results, irp, irlistentries);
}
/************************************************************/
/**
* connect_msg -- displays connection message
* denoting sender/receiver details
*
*/
void
connect_msg(struct iperf_stream *sp)
{
char ipl[INET6_ADDRSTRLEN], ipr[INET6_ADDRSTRLEN];
int lport, rport;
if (getsockdomain(sp->socket) == AF_INET) {
inet_ntop(AF_INET, (void *) &((struct sockaddr_in *) &sp->local_addr)->sin_addr, ipl, sizeof(ipl));
mapped_v4_to_regular_v4(ipl);
inet_ntop(AF_INET, (void *) &((struct sockaddr_in *) &sp->remote_addr)->sin_addr, ipr, sizeof(ipr));
mapped_v4_to_regular_v4(ipr);
lport = ntohs(((struct sockaddr_in *) &sp->local_addr)->sin_port);
rport = ntohs(((struct sockaddr_in *) &sp->remote_addr)->sin_port);
} else {
inet_ntop(AF_INET6, (void *) &((struct sockaddr_in6 *) &sp->local_addr)->sin6_addr, ipl, sizeof(ipl));
mapped_v4_to_regular_v4(ipl);
inet_ntop(AF_INET6, (void *) &((struct sockaddr_in6 *) &sp->remote_addr)->sin6_addr, ipr, sizeof(ipr));
mapped_v4_to_regular_v4(ipr);
lport = ntohs(((struct sockaddr_in6 *) &sp->local_addr)->sin6_port);
rport = ntohs(((struct sockaddr_in6 *) &sp->remote_addr)->sin6_port);
}
if (sp->test->json_output)
cJSON_AddItemToArray(sp->test->json_connected, iperf_json_printf("socket: %d local_host: %s local_port: %d remote_host: %s remote_port: %d", (int64_t) sp->socket, ipl, (int64_t) lport, ipr, (int64_t) rport));
else
iperf_printf(sp->test, report_connected, sp->socket, ipl, lport, ipr, rport);
}
/**************************************************************************/
struct iperf_test *
iperf_new_test()
{
struct iperf_test *test;
test = (struct iperf_test *) malloc(sizeof(struct iperf_test));
if (!test) {
i_errno = IENEWTEST;
return NULL;
}
/* initialize everything to zero */
memset(test, 0, sizeof(struct iperf_test));
test->settings = (struct iperf_settings *) malloc(sizeof(struct iperf_settings));
if (!test->settings) {
free(test);
i_errno = IENEWTEST;
return NULL;
}
memset(test->settings, 0, sizeof(struct iperf_settings));
/* By default all output goes to stdout */
test->outfile = stdout;
return test;
}
/**************************************************************************/
struct protocol *
protocol_new(void)
{
struct protocol *proto;
proto = malloc(sizeof(struct protocol));
if(!proto) {
return NULL;
}
memset(proto, 0, sizeof(struct protocol));
return proto;
}
void
protocol_free(struct protocol *proto)
{
free(proto);
}
/**************************************************************************/
int
iperf_defaults(struct iperf_test *testp)
{
struct protocol *tcp, *udp;
#if defined(HAVE_SCTP)
struct protocol *sctp;
#endif /* HAVE_SCTP */
testp->omit = OMIT;
testp->duration = DURATION;
testp->diskfile_name = (char*) 0;
testp->affinity = -1;
testp->server_affinity = -1;
TAILQ_INIT(&testp->xbind_addrs);
#if defined(HAVE_CPUSET_SETAFFINITY)
CPU_ZERO(&testp->cpumask);
#endif /* HAVE_CPUSET_SETAFFINITY */
testp->title = NULL;
testp->extra_data = NULL;
testp->congestion = NULL;
testp->congestion_used = NULL;
testp->remote_congestion_used = NULL;
testp->server_port = PORT;
testp->ctrl_sck = -1;
testp->prot_listener = -1;
testp->other_side_has_retransmits = 0;
testp->stats_callback = iperf_stats_callback;
testp->reporter_callback = iperf_reporter_callback;
testp->stats_interval = testp->reporter_interval = 1;
testp->num_streams = 1;
testp->settings->domain = AF_UNSPEC;
testp->settings->unit_format = 'a';
testp->settings->socket_bufsize = 0; /* use autotuning */
testp->settings->blksize = DEFAULT_TCP_BLKSIZE;
testp->settings->rate = 0;
testp->settings->fqrate = 0;
testp->settings->pacing_timer = 1000;
testp->settings->burst = 0;
testp->settings->mss = 0;
testp->settings->bytes = 0;
testp->settings->blocks = 0;
testp->settings->connect_timeout = -1;
memset(testp->cookie, 0, COOKIE_SIZE);
testp->multisend = 10; /* arbitrary */
/* Set up protocol list */
SLIST_INIT(&testp->streams);
SLIST_INIT(&testp->protocols);
tcp = protocol_new();
if (!tcp)
return -1;
tcp->id = Ptcp;
tcp->name = "TCP";
tcp->accept = iperf_tcp_accept;
tcp->listen = iperf_tcp_listen;
tcp->connect = iperf_tcp_connect;
tcp->send = iperf_tcp_send;
tcp->recv = iperf_tcp_recv;
tcp->init = NULL;
SLIST_INSERT_HEAD(&testp->protocols, tcp, protocols);
udp = protocol_new();
if (!udp) {
protocol_free(tcp);
return -1;
}
udp->id = Pudp;
udp->name = "UDP";
udp->accept = iperf_udp_accept;
udp->listen = iperf_udp_listen;
udp->connect = iperf_udp_connect;
udp->send = iperf_udp_send;
udp->recv = iperf_udp_recv;
udp->init = iperf_udp_init;
SLIST_INSERT_AFTER(tcp, udp, protocols);
set_protocol(testp, Ptcp);
#if defined(HAVE_SCTP)
sctp = protocol_new();
if (!sctp) {
protocol_free(tcp);
protocol_free(udp);
return -1;
}
sctp->id = Psctp;
sctp->name = "SCTP";
sctp->accept = iperf_sctp_accept;
sctp->listen = iperf_sctp_listen;
sctp->connect = iperf_sctp_connect;
sctp->send = iperf_sctp_send;
sctp->recv = iperf_sctp_recv;
sctp->init = iperf_sctp_init;
SLIST_INSERT_AFTER(udp, sctp, protocols);
#endif /* HAVE_SCTP */
testp->on_new_stream = iperf_on_new_stream;
testp->on_test_start = iperf_on_test_start;
testp->on_connect = iperf_on_connect;
testp->on_test_finish = iperf_on_test_finish;
TAILQ_INIT(&testp->server_output_list);
return 0;
}
/**************************************************************************/
void
iperf_free_test(struct iperf_test *test)
{
struct protocol *prot;
struct iperf_stream *sp;
/* Free streams */
while (!SLIST_EMPTY(&test->streams)) {
sp = SLIST_FIRST(&test->streams);
SLIST_REMOVE_HEAD(&test->streams, streams);
iperf_free_stream(sp);
}
if (test->server_hostname)
free(test->server_hostname);
if (test->tmp_template)
free(test->tmp_template);
if (test->bind_address)
free(test->bind_address);
if (!TAILQ_EMPTY(&test->xbind_addrs)) {
struct xbind_entry *xbe;
while (!TAILQ_EMPTY(&test->xbind_addrs)) {
xbe = TAILQ_FIRST(&test->xbind_addrs);
TAILQ_REMOVE(&test->xbind_addrs, xbe, link);
if (xbe->ai)
freeaddrinfo(xbe->ai);
free(xbe->name);
free(xbe);
}
}
#if defined(HAVE_SSL)
if (test->server_rsa_private_key)
EVP_PKEY_free(test->server_rsa_private_key);
test->server_rsa_private_key = NULL;
free(test->settings->authtoken);
test->settings->authtoken = NULL;
free(test->settings->client_username);
test->settings->client_username = NULL;
free(test->settings->client_password);
test->settings->client_password = NULL;
if (test->settings->client_rsa_pubkey)
EVP_PKEY_free(test->settings->client_rsa_pubkey);
test->settings->client_rsa_pubkey = NULL;
#endif /* HAVE_SSL */
if (test->settings)
free(test->settings);
if (test->title)
free(test->title);
if (test->extra_data)
free(test->extra_data);
if (test->congestion)
free(test->congestion);
if (test->congestion_used)
free(test->congestion_used);
if (test->remote_congestion_used)
free(test->remote_congestion_used);
if (test->omit_timer != NULL)
tmr_cancel(test->omit_timer);
if (test->timer != NULL)
tmr_cancel(test->timer);
if (test->stats_timer != NULL)
tmr_cancel(test->stats_timer);
if (test->reporter_timer != NULL)
tmr_cancel(test->reporter_timer);
/* Free protocol list */
while (!SLIST_EMPTY(&test->protocols)) {
prot = SLIST_FIRST(&test->protocols);
SLIST_REMOVE_HEAD(&test->protocols, protocols);
free(prot);
}
if (test->server_output_text) {
free(test->server_output_text);
test->server_output_text = NULL;
}
if (test->json_output_string) {
free(test->json_output_string);
test->json_output_string = NULL;
}
/* Free output line buffers, if any (on the server only) */
struct iperf_textline *t;
while (!TAILQ_EMPTY(&test->server_output_list)) {
t = TAILQ_FIRST(&test->server_output_list);
TAILQ_REMOVE(&test->server_output_list, t, textlineentries);
free(t->line);
free(t);
}
/* sctp_bindx: do not free the arguments, only the resolver results */
if (!TAILQ_EMPTY(&test->xbind_addrs)) {
struct xbind_entry *xbe;
TAILQ_FOREACH(xbe, &test->xbind_addrs, link) {
if (xbe->ai) {
freeaddrinfo(xbe->ai);
xbe->ai = NULL;
}
}
}
/* XXX: Why are we setting these values to NULL? */
// test->streams = NULL;
test->stats_callback = NULL;
test->reporter_callback = NULL;
free(test);
}
void
iperf_reset_test(struct iperf_test *test)
{
struct iperf_stream *sp;
/* Free streams */
while (!SLIST_EMPTY(&test->streams)) {
sp = SLIST_FIRST(&test->streams);
SLIST_REMOVE_HEAD(&test->streams, streams);
iperf_free_stream(sp);
}
if (test->omit_timer != NULL) {
tmr_cancel(test->omit_timer);
test->omit_timer = NULL;
}
if (test->timer != NULL) {
tmr_cancel(test->timer);
test->timer = NULL;
}
if (test->stats_timer != NULL) {
tmr_cancel(test->stats_timer);
test->stats_timer = NULL;
}
if (test->reporter_timer != NULL) {
tmr_cancel(test->reporter_timer);
test->reporter_timer = NULL;
}
test->done = 0;
SLIST_INIT(&test->streams);
if (test->remote_congestion_used)
free(test->remote_congestion_used);
test->remote_congestion_used = NULL;
test->role = 's';
test->mode = RECEIVER;
test->sender_has_retransmits = 0;
set_protocol(test, Ptcp);
test->omit = OMIT;
test->duration = DURATION;
test->server_affinity = -1;
#if defined(HAVE_CPUSET_SETAFFINITY)
CPU_ZERO(&test->cpumask);
#endif /* HAVE_CPUSET_SETAFFINITY */
test->state = 0;
test->ctrl_sck = -1;
test->prot_listener = -1;
test->bytes_sent = 0;
test->blocks_sent = 0;
test->bytes_received = 0;
test->blocks_received = 0;
test->other_side_has_retransmits = 0;
test->reverse = 0;
test->bidirectional = 0;
test->no_delay = 0;
FD_ZERO(&test->read_set);
FD_ZERO(&test->write_set);
test->num_streams = 1;
test->settings->socket_bufsize = 0;
test->settings->blksize = DEFAULT_TCP_BLKSIZE;
test->settings->rate = 0;
test->settings->burst = 0;
test->settings->mss = 0;
test->settings->tos = 0;
#if defined(HAVE_SSL)
if (test->settings->authtoken) {
free(test->settings->authtoken);
test->settings->authtoken = NULL;
}
if (test->settings->client_username) {
free(test->settings->client_username);
test->settings->client_username = NULL;
}
if (test->settings->client_password) {
free(test->settings->client_password);
test->settings->client_password = NULL;
}
if (test->settings->client_rsa_pubkey) {
EVP_PKEY_free(test->settings->client_rsa_pubkey);
test->settings->client_rsa_pubkey = NULL;
}
#endif /* HAVE_SSL */
memset(test->cookie, 0, COOKIE_SIZE);
test->multisend = 10; /* arbitrary */
test->udp_counters_64bit = 0;
if (test->title) {
free(test->title);
test->title = NULL;
}
if (test->extra_data) {
free(test->extra_data);
test->extra_data = NULL;
}
/* Free output line buffers, if any (on the server only) */
struct iperf_textline *t;
while (!TAILQ_EMPTY(&test->server_output_list)) {
t = TAILQ_FIRST(&test->server_output_list);
TAILQ_REMOVE(&test->server_output_list, t, textlineentries);
free(t->