/*
* ndpiReader.c
*
* Copyright (C) 2011-16 - ntop.org
* nDPI is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* nDPI is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with nDPI. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef linux
#define _GNU_SOURCE
#include <sched.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#ifdef WIN32
#include <winsock2.h> /* winsock.h is included automatically */
#include <process.h>
#include <io.h>
#include <getopt.h>
#define getopt getopt____
#else
#include <unistd.h>
#include <netinet/in.h>
#endif
#include <string.h>
#include <stdarg.h>
#include <search.h>
#include <pcap.h>
#include <signal.h>
#include <pthread.h>
#include <sys/socket.h>
#include "../config.h"
#include "ndpi_api.h"
#ifdef HAVE_JSON_C
#include <json.h>
#endif
#define MAX_NUM_READER_THREADS 16
#define IDLE_SCAN_PERIOD 10 /* msec (use detection_tick_resolution = 1000) */
#define MAX_IDLE_TIME 30000
#define IDLE_SCAN_BUDGET 1024
#define NUM_ROOTS 512
#define MAX_NDPI_FLOWS 200000000
#include "ndpi_util.h"
/** Client parameters **/
static char *_pcap_file[MAX_NUM_READER_THREADS]; /**< Ingress pcap file/interafaces */
static FILE *playlist_fp[MAX_NUM_READER_THREADS] = { NULL }; /**< Ingress playlist */
static FILE *results_file = NULL;
static char *results_path = NULL;
static char *_bpf_filter = NULL; /**< bpf filter */
static char *_protoFilePath = NULL; /**< Protocol file path */
#ifdef HAVE_JSON_C
static char *_jsonFilePath = NULL; /**< JSON file path */
#endif
#ifdef HAVE_JSON_C
static json_object *jArray_known_flows, *jArray_unknown_flows;
#endif
static u_int8_t live_capture = 0;
static u_int8_t undetected_flows_deleted = 0;
/** User preferences **/
static u_int8_t enable_protocol_guess = 1, verbose = 0, nDPI_traceLevel = 0, json_flag = 0;
static u_int16_t decode_tunnels = 0;
static u_int16_t num_loops = 1;
static u_int8_t shutdown_app = 0, quiet_mode = 0;
static u_int8_t num_threads = 1;
#ifdef linux
static int core_affinity[MAX_NUM_READER_THREADS];
#endif
static struct timeval pcap_start, pcap_end;
/** Detection parameters **/
static u_int32_t detection_tick_resolution = 1000;
static time_t capture_for = 0;
static time_t capture_until = 0;
static u_int32_t num_flows;
// struct associated to a workflow for a thread
struct reader_thread {
struct ndpi_workflow * workflow;
pthread_t pthread;
u_int64_t last_idle_scan_time;
u_int32_t idle_scan_idx;
u_int32_t num_idle_flows;
struct ndpi_flow_info *idle_flows[IDLE_SCAN_BUDGET];
};
// array for every thread created for a flow
static struct reader_thread ndpi_thread_info[MAX_NUM_READER_THREADS];
// ID tracking
typedef struct ndpi_id {
u_int8_t ip[4]; // Ip address
struct ndpi_id_struct *ndpi_id; // nDpi worker structure
} ndpi_id_t;
// used memory counters
static u_int32_t current_ndpi_memory = 0, max_ndpi_memory = 0;
/********************** FUNCTIONS ********************* */
/**
* @brief Set main components necessary to the detection
*/
static void setupDetection(u_int16_t thread_id, pcap_t * pcap_handle);
/**
* @brief Print help instructions
*/
static void help(u_int long_help) {
printf("ndpiReader -i <file|device> [-f <filter>][-s <duration>]\n"
" [-p <protos>][-l <loops> [-q][-d][-h][-t][-v <level>]\n"
" [-n <threads>] [-w <file>] [-j <file>]\n\n"
"Usage:\n"
" -i <file.pcap|device> | Specify a pcap file/playlist to read packets from or a device for live capture (comma-separated list)\n"
" -f <BPF filter> | Specify a BPF filter for filtering selected traffic\n"
" -s <duration> | Maximum capture duration in seconds (live traffic capture only)\n"
" -p <file>.protos | Specify a protocol file (eg. protos.txt)\n"
" -l <num loops> | Number of detection loops (test only)\n"
" -n <num threads> | Number of threads. Default: number of interfaces in -i. Ignored with pcap files.\n"
" -j <file.json> | Specify a file to write the content of packets in .json format\n"
#ifdef linux
" -g <id:id...> | Thread affinity mask (one core id per thread)\n"
#endif
" -d | Disable protocol guess and use only DPI\n"
" -q | Quiet mode\n"
" -t | Dissect GTP/TZSP tunnels\n"
" -r | Print nDPI version and git revision\n"
" -w <path> | Write test output on the specified file. This is useful for\n"
" | testing purposes in order to compare results across runs\n"
" -h | This help\n"
" -v <1|2> | Verbose 'unknown protocol' packet print. 1=verbose, 2=very verbose\n");
if(long_help) {
printf("\n\nSupported protocols:\n");
num_threads = 1;
setupDetection(0, NULL);
ndpi_dump_protocols(ndpi_thread_info[0].workflow->ndpi_struct);
}
exit(!long_help);
}
/**
* @brief Option parser
*/
static void parseOptions(int argc, char **argv) {
char *__pcap_file = NULL, *bind_mask = NULL;
int thread_id, opt;
#ifdef linux
u_int num_cores = sysconf(_SC_NPROCESSORS_ONLN);
#endif
while ((opt = getopt(argc, argv, "df:g:i:hp:l:s:tv:V:n:j:rp:w:q")) != EOF) {
switch (opt) {
case 'd':
enable_protocol_guess = 0;
break;
case 'i':
_pcap_file[0] = optarg;
break;
case 'f':
_bpf_filter = optarg;
break;
case 'g':
bind_mask = optarg;
break;
case 'l':
num_loops = atoi(optarg);
break;
case 'n':
num_threads = atoi(optarg);
break;
case 'p':
_protoFilePath = optarg;
break;
case 's':
capture_for = atoi(optarg);
capture_until = capture_for + time(NULL);
break;
case 't':
decode_tunnels = 1;
break;
case 'r':
printf("ndpiReader - nDPI (%s)\n", ndpi_revision());
exit(0);
case 'v':
verbose = atoi(optarg);
break;
case 'V':
printf("%d\n",atoi(optarg) );
nDPI_traceLevel = atoi(optarg);
break;
case 'h':
help(1);
break;
case 'j':
#ifndef HAVE_JSON_C
printf("WARNING: this copy of ndpiReader has been compiled without JSON-C: json export disabled\n");
#else
_jsonFilePath = optarg;
json_flag = 1;
#endif
break;
case 'w':
results_path = strdup(optarg);
if((results_file = fopen(results_path, "w")) == NULL) {
printf("Unable to write in file %s: quitting\n", results_path);
return;
}
break;
case 'q':
quiet_mode = 1;
break;
default:
help(0);
break;
}
}
// check parameters
if(_pcap_file[0] == NULL || strcmp(_pcap_file[0], "") == 0) {
help(0);
}
if(strchr(_pcap_file[0], ',')) { /* multiple ingress interfaces */
num_threads = 0; /* setting number of threads = number of interfaces */
__pcap_file = strtok(_pcap_file[0], ",");
while (__pcap_file != NULL && num_threads < MAX_NUM_READER_THREADS) {
_pcap_file[num_threads++] = __pcap_file;
__pcap_file = strtok(NULL, ",");
}
} else {
if(num_threads > MAX_NUM_READER_THREADS) num_threads = MAX_NUM_READER_THREADS;
for(thread_id = 1; thread_id < num_threads; thread_id++)
_pcap_file[thread_id] = _pcap_file[0];
}
#ifdef linux
for(thread_id = 0; thread_id < num_threads; thread_id++)
core_affinity[thread_id] = -1;
if(num_cores > 1 && bind_mask != NULL) {
char *core_id = strtok(bind_mask, ":");
thread_id = 0;
while (core_id != NULL && thread_id < num_threads) {
core_affinity[thread_id++] = atoi(core_id) % num_cores;
core_id = strtok(NULL, ":");
}
}
#endif
}
/**
* @brief From IPPROTO to string NAME
*/
static char* ipProto2Name(u_short proto_id) {
static char proto[8];
switch(proto_id) {
case IPPROTO_TCP:
return("TCP");
break;
case IPPROTO_UDP:
return("UDP");
break;
case IPPROTO_ICMP:
return("ICMP");
break;
case IPPROTO_ICMPV6:
return("ICMPV6");
break;
case 112:
return("VRRP");
break;
case IPPROTO_IGMP:
return("IGMP");
break;
}
snprintf(proto, sizeof(proto), "%u", proto_id);
return(proto);
}
/**
* @brief A faster replacement for inet_ntoa().
*/
char* intoaV4(unsigned int addr, char* buf, u_short bufLen) {
char *cp, *retStr;
uint byte;
int n;
cp = &buf[bufLen];
*--cp = '\0';
n = 4;
do {
byte = addr & 0xff;
*--cp = byte % 10 + '0';
byte /= 10;
if(byte > 0) {
*--cp = byte % 10 + '0';
byte /= 10;
if(byte > 0)
*--cp = byte + '0';
}
*--cp = '.';
addr >>= 8;
} while (--n > 0);
/* Convert the string to lowercase */
retStr = (char*)(cp+1);
return(retStr);
}
/**
* @brief malloc wrapper function
*/
static void *malloc_wrapper(size_t size) {
current_ndpi_memory += size;
if(current_ndpi_memory > max_ndpi_memory)
max_ndpi_memory = current_ndpi_memory;
return malloc(size);
}
/**
* @brief free wrapper function
*/
static void free_wrapper(void *freeable) {
free(freeable);
}
/**
* @brief Print the flow
*/
static void printFlow(u_int16_t thread_id, struct ndpi_flow_info *flow) {
#ifdef HAVE_JSON_C
json_object *jObj;
#endif
FILE *out = results_file ? results_file : stdout;
if(!json_flag) {
fprintf(out, "\t%u", ++num_flows);
fprintf(out, "\t%s %s%s%s:%u <-> %s%s%s:%u ",
ipProto2Name(flow->protocol),
(flow->ip_version == 6) ? "[" : "",
flow->lower_name,
(flow->ip_version == 6) ? "]" : "",
ntohs(flow->lower_port),
(flow->ip_version == 6) ? "[" : "",
flow->upper_name,
(flow->ip_version == 6) ? "]" : "",
ntohs(flow->upper_port));
if(flow->vlan_id > 0) fprintf(out, "[VLAN: %u]", flow->vlan_id);
if(flow->detected_protocol.master_protocol) {
char buf[64];
fprintf(out, "[proto: %u.%u/%s]",
flow->detected_protocol.master_protocol, flow->detected_protocol.protocol,
ndpi_protocol2name(ndpi_thread_info[thread_id].workflow->ndpi_struct,
flow->detected_protocol, buf, sizeof(buf)));
} else
fprintf(out, "[proto: %u/%s]",
flow->detected_protocol.protocol,
ndpi_get_proto_name(ndpi_thread_info[thread_id].workflow->ndpi_struct, flow->detected_protocol.protocol));
fprintf(out, "[%u pkts/%llu bytes]",
flow->packets, (long long unsigned int)flow->bytes);
if(flow->host_server_name[0] != '\0') fprintf(out, "[Host: %s]", flow->host_server_name);
if(flow->ssl.client_certificate[0] != '\0') fprintf(out, "[SSL client: %s]", flow->ssl.client_certificate);
if(flow->ssl.server_certificate[0] != '\0') fprintf(out, "[SSL server: %s]", flow->ssl.server_certificate);
if(flow->bittorent_hash[0] != '\0') fprintf(out, "[BT Hash: %s]", flow->bittorent_hash);
fprintf(out, "\n");
} else {
#ifdef HAVE_JSON_C
jObj = json_object_new_object();
json_object_object_add(jObj,"protocol",json_object_new_string(ipProto2Name(flow->protocol)));
json_object_object_add(jObj,"host_a.name",json_object_new_string(flow->lower_name));
json_object_object_add(jObj,"host_a.port",json_object_new_int(ntohs(flow->lower_port)));
json_object_object_add(jObj,"host_b.name",json_object_new_string(flow->upper_name));
json_object_object_add(jObj,"host_b.port",json_object_new_int(ntohs(flow->upper_port)));
if(flow->detected_protocol.master_protocol)
json_object_object_add(jObj,"detected.masterprotocol",json_object_new_int(flow->detected_protocol.master_protocol));
json_object_object_add(jObj,"detected.protocol",json_object_new_int(flow->detected_protocol.protocol));
if(flow->detected_protocol.master_protocol) {
char tmp[256];
snprintf(tmp, sizeof(tmp), "%s.%s",
ndpi_get_proto_name(ndpi_thread_info[thread_id].workflow->ndpi_struct, flow->detected_protocol.master_protocol),
ndpi_get_proto_name(ndpi_thread_info[thread_id].workflow->ndpi_struct, flow->detected_protocol.protocol));
json_object_object_add(jObj,"detected.protocol.name",
json_object_new_string(tmp));
} else
json_object_object_add(jObj,"detected.protocol.name",
json_object_new_string(ndpi_get_proto_name(ndpi_thread_info[thread_id].workflow->ndpi_struct,
flow->detected_protocol.protocol)));
json_object_object_add(jObj,"packets",json_object_new_int(flow->packets));
json_object_object_add(jObj,"bytes",json_object_new_int(flow->bytes));
if(flow->host_server_name[0] != '\0')
json_object_object_add(jObj,"host.server.name",json_object_new_string(flow->host_server_name));
if((flow->ssl.client_certificate[0] != '\0') || (flow->ssl.server_certificate[0] != '\0')) {
json_object *sjObj = json_object_new_object();
if(flow->ssl.client_certificate[0] != '\0')
json_object_object_add(sjObj, "client", json_object_new_string(flow->ssl.client_certificate));
if(flow->ssl.server_certificate[0] != '\0')
json_object_object_add(sjObj, "server", json_object_new_string(flow->ssl.server_certificate));
json_object_object_add(jObj, "ssl", sjObj);
}
if(json_flag == 1)
json_object_array_add(jArray_known_flows,jObj);
else if(json_flag == 2)
json_object_array_add(jArray_unknown_flows,jObj);
#endif
}
}
/**
* @brief Unknown Proto Walker
*/
static void node_print_unknown_proto_walker(const void *node, ndpi_VISIT which, int depth, void *user_data) {
struct ndpi_flow_info *flow = *(struct ndpi_flow_info**)node;
u_int16_t thread_id = *((u_int16_t*)user_data);
if(flow->detected_protocol.protocol != NDPI_PROTOCOL_UNKNOWN) return;
if((which == ndpi_preorder) || (which == ndpi_leaf)) /* Avoid walking the same node multiple times */
printFlow(thread_id, flow);
}
/**
* @brief Known Proto Walker
*/
static void node_print_known_proto_walker(const void *node, ndpi_VISIT which, int depth, void *user_data) {
struct ndpi_flow_info *flow = *(struct ndpi_flow_info**)node;
u_int16_t thread_id = *((u_int16_t*)user_data);
if(flow->detected_protocol.protocol == NDPI_PROTOCOL_UNKNOWN) return;
if((which == ndpi_preorder) || (which == ndpi_leaf)) /* Avoid walking the same node multiple times */
printFlow(thread_id, flow);
}
/**
* @brief Guess Undetected Protocol
*/
static u_int16_t node_guess_undetected_protocol(u_int16_t thread_id, struct ndpi_flow_info *flow) {
flow->detected_protocol = ndpi_guess_undetected_protocol(ndpi_thread_info[thread_id].workflow->ndpi_struct,
flow->protocol,
ntohl(flow->lower_ip),
ntohs(flow->lower_port),
ntohl(flow->upper_ip),
ntohs(flow->upper_port));
// printf("Guess state: %u\n", flow->detected_protocol);
if(flow->detected_protocol.protocol != NDPI_PROTOCOL_UNKNOWN)
ndpi_thread_info[thread_id].workflow->stats.guessed_flow_protocols++;
return(flow->detected_protocol.protocol);
}
/**
* @brief Proto Guess Walker
*/
static void node_proto_guess_walker(const void *node, ndpi_VISIT which, int depth, void *user_data) {
struct ndpi_flow_info *flow = *(struct ndpi_flow_info **) node;
u_int16_t thread_id = *((u_int16_t *) user_data);
if((which == ndpi_preorder) || (which == ndpi_leaf)) { /* Avoid walking the same node multiple times */
if((!flow->detection_completed) && flow->ndpi_flow)
flow->detected_protocol = ndpi_detection_giveup(ndpi_thread_info[0].workflow->ndpi_struct, flow->ndpi_flow);
if(enable_protocol_guess) {
if(flow->detected_protocol.protocol == NDPI_PROTOCOL_UNKNOWN) {
node_guess_undetected_protocol(thread_id, flow);
// printFlow(thread_id, flow);
}
}
ndpi_thread_info[thread_id].workflow->stats.protocol_counter[flow->detected_protocol.protocol] += flow->packets;
ndpi_thread_info[thread_id].workflow->stats.protocol_counter_bytes[flow->detected_protocol.protocol] += flow->bytes;
ndpi_thread_info[thread_id].workflow->stats.protocol_flows[flow->detected_protocol.protocol]++;
}
}
/**
* @brief Idle Scan Walker
*/
static void node_idle_scan_walker(const void *node, ndpi_VISIT which, int depth, void *user_data) {
struct ndpi_flow_info *flow = *(struct ndpi_flow_info **) node;
u_int16_t thread_id = *((u_int16_t *) user_data);
if(ndpi_thread_info[thread_id].num_idle_flows == IDLE_SCAN_BUDGET) /* TODO optimise with a budget-based walk */
return;
if((which == ndpi_preorder) || (which == ndpi_leaf)) { /* Avoid walking the same node multiple times */
if(flow->last_seen + MAX_IDLE_TIME < ndpi_thread_info[thread_id].workflow->last_time) {
/* update stats */
node_proto_guess_walker(node, which, depth, user_data);
if((flow->detected_protocol.protocol == NDPI_PROTOCOL_UNKNOWN) && !undetected_flows_deleted)
undetected_flows_deleted = 1;
ndpi_free_flow_info_half(flow);
ndpi_thread_info[thread_id].workflow->stats.ndpi_flow_count--;
/* adding to a queue (we can't delete it from the tree inline ) */
ndpi_thread_info[thread_id].idle_flows[ndpi_thread_info[thread_id].num_idle_flows++] = flow;
}
}
}
/**
* @brief On Protocol Discover - call node_guess_undetected_protocol() for protocol
*/
static void on_protocol_discovered(struct ndpi_workflow * workflow,
struct ndpi_flow_info * flow,
void * udata) {
const u_int16_t thread_id = (uintptr_t) udata;
if(verbose > 1){
if(enable_protocol_guess) {
if(flow->detected_protocol.protocol == NDPI_PROTOCOL_UNKNOWN) {
flow->detected_protocol.protocol = node_guess_undetected_protocol(thread_id, flow),
flow->detected_protocol.master_protocol = NDPI_PROTOCOL_UNKNOWN;
}
}
printFlow(thread_id, flow);
}
}
/**
* @brief Print debug
*/
static void debug_printf(u_int32_t protocol, void *id_struct,
ndpi_log_level_t log_level,
const char *format, ...) {
va_list va_ap;
#ifndef WIN32
struct tm result;
#endif
if(log_level <= nDPI_traceLevel) {
char buf[8192], out_buf[8192];
char theDate[32];
const char *extra_msg = "";
time_t theTime = time(NULL);
va_start (va_ap, format);
if(log_level == NDPI_LOG_ERROR)
extra_msg = "ERROR: ";
else if(log_level == NDPI_LOG_TRACE)
extra_msg = "TRACE: ";
else
extra_msg = "DEBUG: ";
memset(buf, 0, sizeof(buf));
strftime(theDate, 32, "%d/%b/%Y %H:%M:%S", localtime_r(&theTime,&result) );
vsnprintf(buf, sizeof(buf)-1, format, va_ap);
snprintf(out_buf, sizeof(out_buf), "%s %s%s", theDate, extra_msg, buf);
printf("%s", out_buf);
fflush(stdout);
}
va_end(va_ap);
}
/**
* @brief Setup for detection begin
*/
static void setupDetection(u_int16_t thread_id, pcap_t * pcap_handle) {
NDPI_PROTOCOL_BITMASK all;
struct ndpi_workflow_prefs prefs;
memset(&prefs, 0, sizeof(prefs));
prefs.decode_tunnels = decode_tunnels;
prefs.num_roots = NUM_ROOTS;
prefs.max_ndpi_flows = MAX_NDPI_FLOWS;
prefs.quiet_mode = quiet_mode;
prefs.detection_tick_resolution = detection_tick_resolution;
memset(&ndpi_thread_info[thread_id], 0, sizeof(ndpi_thread_info[thread_id]));
ndpi_thread_info[thread_id].workflow = ndpi_workflow_init(&prefs, pcap_handle, malloc_wrapper, free_wrapper, debug_printf);
/* ndpi_thread_info[thread_id].workflow->ndpi_struct->http_dont_dissect_response = 1; */
ndpi_workflow_set_flow_detected_callback(ndpi_thread_info[thread_id].workflow, on_protocol_discovered, (void *)(uintptr_t)thread_id);
// enable all protocols
NDPI_BITMASK_SET_ALL(all);
ndpi_set_protocol_detection_bitmask2(ndpi_thread_info[thread_id].workflow->ndpi_struct, &all);
// clear memory for results
memset(ndpi_thread_info[thread_id].workflow->stats.protocol_counter, 0, sizeof(ndpi_thread_info[thread_id].workflow->stats.protocol_counter));
memset(ndpi_thread_info[thread_id].workflow->stats.protocol_counter_bytes, 0, sizeof(ndpi_thread_info[thread_id].workflow->stats.protocol_counter_bytes));
memset(ndpi_thread_info[thread_id].workflow->stats.protocol_flows, 0, sizeof(ndpi_thread_info[thread_id].workflow->stats.protocol_flows));
if(_protoFilePath != NULL)
ndpi_load_protocols_file(ndpi_thread_info[thread_id].workflow->ndpi_struct, _protoFilePath);
}
/**
* @brief End of detection and free flow
*/
static void terminateDetection(u_int16_t thread_id) {
ndpi_workflow_free(ndpi_thread_info[thread_id].workflow);
}
/**
* @brief Traffic stats format
*/
char* formatTraffic(float numBits, int bits, char *buf) {
char unit;
if(bits)
unit = 'b';
else
unit = 'B';
if(numBits < 1024) {
snprintf(buf, 32, "%lu %c", (unsigned long)numBits, unit);
} else if(numBits < 1048576) {
snprintf(buf, 32, "%.2f K%c", (float)(numBits)/1024, unit);
} else {
float tmpMBits = ((float)numBits)/1048576;
if(tmpMBits < 1024) {
snprintf(buf, 32, "%.2f M%c", tmpMBits, unit);
} else {
tmpMBits /= 1024;
if(tmpMBits < 1024) {
snprintf(buf, 32, "%.2f G%c", tmpMBits, unit);
} else {
snprintf(buf, 32, "%.2f T%c", (float)(tmpMBits)/1024, unit);
}
}
}
return(buf);
}
/**
* @brief Packets stats format
*/
char* formatPackets(float numPkts, char *buf) {
if(numPkts < 1000) {
snprintf(buf, 32, "%.2f", numPkts);
} else if(numPkts < 1000000) {
snprintf(buf, 32, "%.2f K", numPkts/1000);
} else {
numPkts /= 1000000;
snprintf(buf, 32, "%.2f M", numPkts);
}
return(buf);
}
/**
* @brief JSON function init
*/
#ifdef HAVE_JSON_C
static void json_init() {
jArray_known_flows = json_object_new_array();
jArray_unknown_flows = json_object_new_array();
}
#endif
/**
* @brief Bytes stats format
*/
char* formatBytes(u_int32_t howMuch, char *buf, u_int buf_len) {
char unit = 'B';
if(howMuch < 1024) {
snprintf(buf, buf_len, "%lu %c", (unsigned long)howMuch, unit);
} else if(howMuch < 1048576) {
snprintf(buf, buf_len, "%.2f K%c", (float)(howMuch)/1024, unit);
} else {
float tmpGB = ((float)howMuch)/1048576;
if(tmpGB < 1024) {
snprintf(buf, buf_len, "%.2f M%c", tmpGB, unit);
} else {
tmpGB /= 1024;
snprintf(buf, buf_len, "%.2f G%c", tmpGB, unit);
}
}
return(buf);
}
/**
* @brief Print result
*/
static void printResults(u_int64_t tot_usec) {
u_int32_t i;
u_int64_t total_flow_bytes = 0;
u_int avg_pkt_size = 0;
struct ndpi_stats cumulative_stats;
int thread_id;
char buf[32];
#ifdef HAVE_JSON_C
FILE *json_fp = NULL;
json_object *jObj_main, *jObj_trafficStats, *jArray_detProto, *jObj;
#endif
long long unsigned int breed_stats[NUM_BREEDS] = { 0 };
memset(&cumulative_stats, 0, sizeof(cumulative_stats));
for(thread_id = 0; thread_id < num_threads; thread_id++) {
if(ndpi_thread_info[thread_id].workflow->stats.total_wire_bytes == 0) continue;
for(i=0; i<NUM_ROOTS; i++)
ndpi_twalk(ndpi_thread_info[thread_id].workflow->ndpi_flows_root[i], node_proto_guess_walker, &thread_id);
/* Stats aggregation */
cumulative_stats.guessed_flow_protocols += ndpi_thread_info[thread_id].workflow->stats.guessed_flow_protocols;
cumulative_stats.raw_packet_count += ndpi_thread_info[thread_id].workflow->stats.raw_packet_count;
cumulative_stats.ip_packet_count += ndpi_thread_info[thread_id].workflow->stats.ip_packet_count;
cumulative_stats.total_wire_bytes += ndpi_thread_info[thread_id].workflow->stats.total_wire_bytes;
cumulative_stats.total_ip_bytes += ndpi_thread_info[thread_id].workflow->stats.total_ip_bytes;
cumulative_stats.total_discarded_bytes += ndpi_thread_info[thread_id].workflow->stats.total_discarded_bytes;
for(i = 0; i < ndpi_get_num_supported_protocols(ndpi_thread_info[0].workflow->ndpi_struct); i++) {
cumulative_stats.protocol_counter[i] += ndpi_thread_info[thread_id].workflow->stats.protocol_counter[i];
cumulative_stats.protocol_counter_bytes[i] += ndpi_thread_info[thread_id].workflow->stats.protocol_counter_bytes[i];
cumulative_stats.protocol_flows[i] += ndpi_thread_info[thread_id].workflow->stats.protocol_flows[i];
}
cumulative_stats.ndpi_flow_count += ndpi_thread_info[thread_id].workflow->stats.ndpi_flow_count;
cumulative_stats.tcp_count += ndpi_thread_info[thread_id].workflow->stats.tcp_count;
cumulative_stats.udp_count += ndpi_thread_info[thread_id].workflow->stats.udp_count;
cumulative_stats.mpls_count += ndpi_thread_info[thread_id].workflow->stats.mpls_count;
cumulative_stats.pppoe_count += ndpi_thread_info[thread_id].workflow->stats.pppoe_count;
cumulative_stats.vlan_count += ndpi_thread_info[thread_id].workflow->stats.vlan_count;
cumulative_stats.fragmented_count += ndpi_thread_info[thread_id].workflow->stats.fragmented_count;
for(i = 0; i < 6; i++)
cumulative_stats.packet_len[i] += ndpi_thread_info[thread_id].workflow->stats.packet_len[i];
cumulative_stats.max_packet_len += ndpi_thread_info[thread_id].workflow->stats.max_packet_len;
}
if(!quiet_mode) {
printf("\nnDPI Memory statistics:\n");
printf("\tnDPI Memory (once): %-13s\n", formatBytes(sizeof(struct ndpi_detection_module_struct), buf, sizeof(buf)));
printf("\tFlow Memory (per flow): %-13s\n", formatBytes(sizeof(struct ndpi_flow_struct), buf, sizeof(buf)));
printf("\tActual Memory: %-13s\n", formatBytes(current_ndpi_memory, buf, sizeof(buf)));
printf("\tPeak Memory: %-13s\n", formatBytes(max_ndpi_memory, buf, sizeof(buf)));
if(!json_flag) {
printf("\nTraffic statistics:\n");
printf("\tEthernet bytes: %-13llu (includes ethernet CRC/IFC/trailer)\n",
(long long unsigned int)cumulative_stats.total_wire_bytes);
printf("\tDiscarded bytes: %-13llu\n",
(long long unsigned int)cumulative_stats.total_discarded_bytes);
printf("\tIP packets: %-13llu of %llu packets total\n",
(long long unsigned int)cumulative_stats.ip_packet_count,
(long long unsigned int)cumulative_stats.raw_packet_count);
/* In order to prevent Floating point exception in case of no traffic*/
if(cumulative_stats.total_ip_bytes && cumulative_stats.raw_packet_count)
avg_pkt_size = (unsigned int)(cumulative_stats.total_ip_bytes/cumulative_stats.raw_packet_count);
printf("\tIP bytes: %-13llu (avg pkt size %u bytes)\n",
(long long unsigned int)cumulative_stats.total_ip_bytes,avg_pkt_size);
printf("\tUnique flows: %-13u\n", cumulative_stats.ndpi_flow_count);
printf("\tTCP Packets: %-13lu\n", (unsigned long)cumulative_stats.tcp_count);
printf("\tUDP Packets: %-13lu\n", (unsigned long)cumulative_stats.udp_count);
printf("\tVLAN Packets: %-13lu\n", (unsigned long)cumulative_stats.vlan_count);
printf("\tMPLS Packets: %-13lu\n", (unsigned long)cumulative_stats.mpls_count);
printf("\tPPPoE Packets: %-13lu\n", (unsigned long)cumulative_stats.pppoe_count);
printf("\tFragmented Packets: %-13lu\n", (unsigned long)cumulative_stats.fragmented_count);
printf("\tMax Packet size: %-13u\n", cumulative_stats.max_packet_len);
printf("\tPacket Len < 64: %-13lu\n", (unsigned long)cumulative_stats.packet_len[0]);
printf("\tPacket Len 64-128: %-13lu\n", (unsigned long)cumulative_stats.packet_len[1]);
printf("\tPacket Len 128-256: %-13lu\n", (unsigned long)cumulative_stats.packet_len[2]);
printf("\tPacket Len 256-1024: %-13lu\n", (unsigned long)cumulative_stats.packet_len[3]);
printf("\tPacket Len 1024-1500: %-13lu\n", (unsigned long)cumulative_stats.packet_len[4]);
printf("\tPacket Len > 1500: %-13lu\n", (unsigned long)cumulative_stats.packet_len[5]);
if(tot_usec > 0) {
char buf[32], buf1[32];
float t = (float)(cumulative_stats.ip_packet_count*1000000)/(float)tot_usec;
float b = (float)(cumulative_stats.total_wire_bytes * 8 *1000000)/(float)tot_usec;
float traffic_duration;
if (live_capture) traffic_duration = tot_usec;
else traffic_duration = (pcap_end.tv_sec*1000000 + pcap_end.tv_usec) - (pcap_start.tv_sec*1000000 + pcap_start.tv_usec);
printf("\tnDPI throughput: %s pps / %s/sec\n", formatPackets(t, buf), formatTraffic(b, 1, buf1));
t = (float)(cumulative_stats.ip_packet_count*1000000)/(float)traffic_duration;
b = (float)(cumulative_stats.total_wire_bytes * 8 *1000000)/(float)traffic_duration;
printf("\tTraffic throughput: %s pps / %s/sec\n", formatPackets(t, buf), formatTraffic(b, 1, buf1));
printf("\tTraffic duration: %.3f sec\n", traffic_duration/1000000);
}
if(enable_protocol_guess)
printf("\tGuessed flow protos: %-13u\n", cumulative_stats.guessed_flow_protocols);
}
}
if(json_flag) {
#ifdef HAVE_JSON_C
if((json_fp = fopen(_jsonFilePath,"w")) == NULL) {
printf("Error createing .json file %s\n", _jsonFilePath);
json_flag = 0;
} else {
jObj_main = json_object_new_object();
jObj_trafficStats = json_object_new_object();
jArray_detProto = json_object_new_array();
json_object_object_add(jObj_trafficStats,"ethernet.bytes",json_object_new_int64(cumulative_stats.total_wire_bytes));
json_object_object_add(jObj_trafficStats,"discarded.bytes",json_object_new_int64(cumulative_stats.total_discarded_bytes));
json_object_object_add(jObj_trafficStats,"ip.packets",json_object_new_int64(cumulative_stats.ip_packet_count));
json_object_object_add(jObj_trafficStats,"total.packets",json_object_new_int64(cumulative_stats.raw_packet_count));
json_object_object_add(jObj_trafficStats,"ip.bytes",json_object_new_int64(cumulative_stats.total_ip_bytes));
json_object_object_add(jObj_trafficStats,"avg.pkt.size",json_object_new_int(cumulative_stats.total_ip_bytes/cumulative_stats.raw_packet_count));
json_object_object_add(jObj_trafficStats,"unique.flows",json_object_new_int(cumulative_stats.ndpi_flow_count));
json_object_object_add(jObj_trafficStats,"tcp.pkts",json_object_new_int64(cumulative_stats.tcp_count));
json_object_object_add(jObj_trafficStats,"udp.pkts",json_object_new_int64(cumulative_stats.udp_count));
json_object_object_add(jObj_trafficStats,"vlan.pkts",json_object_new_int64(cumulative_stats.vlan_count));
json_object_object_add(jObj_trafficStats,"mpls.pkts",json_object_new_int64(cumulative_stats.mpls_count));
json_object_object_add(jObj_trafficStats,"pppoe.pkts",json_object_new_int64(cumulative_stats.pppoe_count));
json_object_object_add(jObj_trafficStats,"fragmented.pkts",json_object_new_int64(cumulative_stats.fragmented_count));
json_object_object_add(jObj_trafficStats,"max.pkt.size",json_object_new_int(cumulative_stats.max_packet_len));
json_object_object_add(jObj_trafficStats,"pkt.len_min64",json_object_new_int64(cumulative_stats.packet_len[0]));
json_object_object_add(jObj_trafficStats,"pkt.len_64_128",json_object_new_int64(cumulative_stats.packet_len[1]));
json_object_object_add(jObj_trafficStats,"pkt.len_128_256",json_object_new_int64(cumulative_stats.packet_len[2]));
json_object_object_add(jObj_trafficStats,"pkt.len_256_1024",json_object_new_int64(cumulative_stats.packet_len[3]));
json_object_object_add(jObj_trafficStats,"pkt.len_1024_1500",json_object_new_int64(cumulative_stats.packet_len[4]));
json_object_object_add(jObj_trafficStats,"pkt.len_grt1500",json_object_new_int64(cumulative_stats.packet_len[5]));
json_object_object_add(jObj_trafficStats,"guessed.flow.protos",json_object_new_int(cumulative_stats.guessed_flow_protocols));
json_object_object_add(jObj_main,"traffic.statistics",jObj_trafficStats);
}
#endif
}
if((!json_flag) && (!quiet_mode)) printf("\n\nDetected protocols:\n");
for(i = 0; i <= ndpi_get_num_supported_protocols(ndpi_thread_info[0].workflow->ndpi_struct); i++) {
ndpi_protocol_breed_t breed = ndpi_get_proto_breed(ndpi_thread_info[0].workflow->ndpi_struct, i);
if(cumulative_stats.protocol_counter[i] > 0) {
breed_stats[breed] += (long long unsigned int)cumulative_stats.protocol_counter_bytes[i];
if(results_file)
fprintf(results_file, "%s\t%llu\t%llu\t%u\n",
ndpi_get_proto_name(ndpi_thread_info[0].workflow->ndpi_struct, i),
(long long unsigned int)cumulative_stats.protocol_counter[i],
(long long unsigned int)cumulative_stats.protocol_counter_bytes[i],
cumulative_stats.protocol_flows[i]);
if((!json_flag) && (!quiet_mode)) {
printf("\t%-20s packets: %-13llu bytes: %-13llu "
"flows: %-13u\n",
ndpi_get_proto_name(ndpi_thread_info[0].workflow->ndpi_struct, i),
(long long unsigned int)cumulative_stats.protocol_counter[i],
(long long unsigned int)cumulative_stats.protocol_counter_bytes[i],
cumulative_stats.protocol_flows[i]);
} else {
#ifdef HAVE_JSON_C
if(json_fp) {
jObj = json_object_new_object();
json_object_object_add(jObj,"name",json_object_new_string(ndpi_get_proto_name(ndpi_thread_info[0].workflow->ndpi_struct, i)));
json_object_object_add(jObj,"breed",json_object_new_string(ndpi_get_proto_breed_name(ndpi_thread_info[0].workflow->ndpi_struct, breed)));
json_object_object_add(jObj,"packets",json_object_new_int64(cumulative_stats.protocol_counter[i]));
json_object_object_add(jObj,"bytes",json_object_new_int64(cumulative_stats.protocol_counter_bytes[i]));
json_object_object_add(jObj,"flows",json_object_new_int(cumulative_stats.protocol_flows[i]));
json_object_array_add(jArray_detProto,jObj);
}
#endif
}
total_flow_bytes += cumulative_stats.protocol_counter_bytes[i];
}
}
if((!json_flag) && (!quiet_mode)) {
printf("\n\nProtocol statistics:\n");
for(i=0; i < NUM_BREEDS; i++) {
if(breed_stats[i] > 0) {
printf("\t%-20s %13llu bytes\n",
ndpi_get_proto_breed_name(ndpi_thread_info[0].workflow->ndpi_struct, i),
breed_stats[i]);
}
}
}
// printf("\n\nTotal Flow Traffic: %llu (diff: %llu)\n", total_flow_bytes, cumulative_stats.total_ip_bytes-total_flow_bytes);
if(verbose) {
FILE *out = results_file ? results_file : stdout;
if(!json_flag) fprintf(out, "\n");
num_flows = 0;
for(thread_id = 0; thread_id < num_threads; thread_id++) {
for(i=0; i<NUM_ROOTS; i++)
ndpi_twalk(ndpi_thread_info[thread_id].workflow->ndpi_flows_root[i], node_print_known_proto_walker, &thread_id);
}
for(thread_id = 0; thread_id < num_threads; thread_id++) {
if(ndpi_thread_info[thread_id].workflow->stats.protocol_counter[0 /* 0 = Unknown */] > 0) {
if(!json_flag) {
FILE *out = results_file ? results_file : stdout;
fprintf(out, "\n\nUndetected flows:%s\n", undetected_flows_deleted ? " (expired flows are not listed below)" : "");
}
if(json_flag)
json_flag = 2;
break;
}
}
num_flows = 0;
for(thread_id = 0; thread_id < num_threads; thread_id++) {
if(ndpi_thread_info[thread_id].workflow->stats.protocol_counter[0] > 0) {
for(i=0; i<NUM_ROOTS; i++)
ndpi_twalk(ndpi_thread_info[thread_id].workflow->ndpi_flows_root[i], node_print_unknown_proto_walker, &thread_id);
}
}
}
if(json_flag != 0) {
#ifdef HAVE_JSON_C
json_object_object_add(jObj_main,"detected.protos",jArray_detProto);
json_object_object_add(jObj_main,"known.flows",jArray_known_flows);
if(json_object_array_length(jArray_unknown_flows) != 0)
json_object_object_add(jObj_main,"unknown.flows",jArray_unknown_flows);
fprintf(json_fp,"%s\n",json_object_to_json_string(jObj_main));
fclose(json_fp);
#endif
}
}
/**
* @brief Force a pcap_dispatch() or pcap_loop() call to return
*/
static void breakPcapLoop(u_int16_t thread_id) {
if(ndpi_thread_info[thread_id].workflow->pcap_handle != NULL) {
pcap_breakloop(ndpi_thread_info[thread_id].workflow->pcap_handle);
}
}
/**
* @brief Sigproc is executed for each packet in the pcap file
*/
void sigproc(int sig) {
static int called = 0;
int thread_id;
if(called) return; else called = 1;
shutdown_app = 1;
for(thread_id=0; thread_id<num_threads; thread_id++)
breakPcapLoop(thread_id);
}
/**
* @brief Get the next pcap file from a passed playlist
*/
static int getNextPcapFileFromPlaylist(u_int16_t thread_id, char filename[], u_int32_t filename_len) {
if(playlist_fp[thread_id] == NULL) {
if((playlist_fp[thread_id] = fopen(_pcap_file[thread_id], "r")) == NULL)
return -1;
}
next_line:
if(fgets(filename, filename_len, playlist_fp[thread_id])) {
int l = strlen(filename);
if(filename[0] == '\0' || filename[0] == '#') goto next_line;
if(filename[l-1] == '\n') filename[l-1] = '\0';
return 0;
} else {
fclose(playlist_fp[thread_id]);
playlist_fp[thread_id] = NULL;
return -1;
}
}
/**
* @brief Configure the pcap handle
*/
static void configurePcapHandle(pcap_t * pcap_handle) {
if(_bpf_filter != NULL) {
struct bpf_program fcode;
if(pcap_compile(pcap_handle, &fcode, _bpf_filter, 1, 0xFFFFFF00) < 0) {
printf("pcap_compile error: '%s'\n", pcap_geterr(pcap_handle));
} else {
if(pcap_setfilter(pcap_handle, &fcode) < 0) {
printf("pcap_setfilter error: '%s'\n", pcap_geterr(pcap_handle));
} else
printf("Successfully set BPF filter to '%s'\n", _bpf_filter);
}
}
}
/**
* @brief Open a pcap file or a specified device - Always returns a valid pcap_t
*/
static pcap_t * openPcapFileOrDevice(u_int16_t thread_id, const u_char * pcap_file) {
u_int snaplen = 1536;
int promisc = 1;
char pcap_error_buffer[PCAP_ERRBUF_SIZE];
pcap_t * pcap_handle = NULL;
/* trying to open a live interface */
if((pcap_handle = pcap_open_live((char*)pcap_file, snaplen, promisc, 500, pcap_error_buffer)) == NULL) {
capture_for = capture_until = 0;
live_capture = 0;
num_threads = 1; /* Open pcap files in single threads mode */
/* trying to open a pcap file */
if((pcap_handle = pcap_open_offline((char*)pcap_file, pcap_error_buffer)) == NULL) {
char filename[256];
/* trying to open a pcap playlist */
if(getNextPcapFileFromPlaylist(thread_id, filename, sizeof(filename)) != 0 ||
(pcap_handle = pcap_open_offline(filename, pcap_error_buffer)) == NULL) {
printf("ERROR: could not open pcap file or playlist: %s\n", pcap_error_buffer);
exit(-1);
} else {
if((!json_flag) && (!quiet_mode)) printf("Reading packets from playlist %s...\n", pcap_file);
}
} else {
if((!json_flag) && (!quiet_mode)) printf("Reading packets from pcap file %s...\n", pcap_file);
}
} else {
live_capture = 1;
if((!json_flag) && (!quiet_mode)) printf("Capturing live traffic from device %s...\n", pcap_file);
}
configurePcapHandle(pcap_handle);
if(capture_for > 0) {
if((!json_flag) && (!quiet_mode)) printf("Capturing traffic up to %u seconds\n", (unsigned int)capture_for);
#ifndef WIN32
alarm(capture_for);
signal(SIGALRM, sigproc);
#endif
}
return pcap_handle;
}
/**
* @brief Check pcap packet
*/
static void pcap_packet_callback_checked(u_char *args,
const struct pcap_pkthdr *header,
const u_char *packet) {
u_int16_t thread_id = *((u_int16_t*)args);
/* allocate an exact size buffer to check overflows */
uint8_t *packet_checked = malloc(header->caplen);
memcpy(packet_checked, packet, header->caplen);
ndpi_workflow_process_packet(ndpi_thread_info[thread_id].workflow, header, packet_checked);
if((capture_until != 0) && (header->ts.tv_sec >= capture_until)) {
if(ndpi_thread_info[thread_id].workflow->pcap_handle != NULL)
pcap_breakloop(ndpi_thread_info[thread_id].workflow->pcap_handle);
return;
}
/* Check if capture is live or not */
if (!live_capture) {
if (!pcap_start.tv_sec) pcap_start.tv_sec = header->ts.tv_sec, pcap_start.tv_usec = header->ts.tv_usec;
pcap_end.tv_sec = header->ts.tv_sec, pcap_end.tv_usec = header->ts.tv_usec;
}
/* Idle flows cleanup */
if(live_capture) {
if(ndpi_thread_info[thread_id].last_idle_scan_time + IDLE_SCAN_PERIOD < ndpi_thread_info[thread_id].workflow->last_time) {
/* scan for idle flows */
ndpi_twalk(ndpi_thread_info[thread_id].workflow->ndpi_flows_root[ndpi_thread_info[thread_id].idle_scan_idx], node_idle_scan_walker, &thread_id);
/* remove idle flows (unfortunately we cannot do this inline) */
while (ndpi_thread_info[thread_id].num_idle_flows > 0) {
/* search and delete the idle flow from the "ndpi_flow_root" (see struct reader thread) - here flows are the node of a b-tree */
ndpi_tdelete(ndpi_thread_info[thread_id].idle_flows[--ndpi_thread_info[thread_id].num_idle_flows],
&ndpi_thread_info[thread_id].workflow->ndpi_flows_root[ndpi_thread_info[thread_id].idle_scan_idx],
ndpi_workflow_node_cmp);
/* free the memory associated to idle flow in "idle_flows" - (see struct reader thread)*/
ndpi_free_flow_info_half(ndpi_thread_info[thread_id].idle_flows[ndpi_thread_info[thread_id].num_idle_flows]);
ndpi_free(ndpi_thread_info[thread_id].idle_flows[ndpi_thread_info[thread_id].num_idle_flows]);
}
if(++ndpi_thread_info[thread_id].idle_scan_idx == ndpi_thread_info[thread_id].workflow->prefs.num_roots) ndpi_thread_info[thread_id].idle_scan_idx = 0;
ndpi_thread_info[thread_id].last_idle_scan_time = ndpi_thread_info[thread_id].workflow->last_time;
}
}
/* check for buffer changes */
if(memcmp(packet, packet_checked, header->caplen) != 0)
printf("INTERNAL ERROR: ingress packet was nodified by nDPI: this should not happen [thread_id=%u, packetId=%lu]\n",
thread_id, (unsigned long)ndpi_thread_info[thread_id].workflow->stats.raw_packet_count);
free(packet_checked);
}
/**
* @brief Call pcap_loop() to process packets from a live capture or savefile
*/
static void runPcapLoop(u_int16_t thread_id) {
if((!shutdown_app) && (ndpi_thread_info[thread_id].workflow->pcap_handle != NULL))
pcap_loop(ndpi_thread_info[thread_id].workflow->pcap_handle, -1, &pcap_packet_callback_checked, (u_char*)&thread_id);
}
/**
* @brief Process a running thread
*/
void * processing_thread(void *_thread_id) {
long thread_id = (long) _thread_id;
char pcap_error_buffer[PCAP_ERRBUF_SIZE];
#if defined(linux) && defined(HAVE_PTHREAD_SETAFFINITY_NP)
if(core_affinity[thread_id] >= 0) {
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(core_affinity[thread_id], &cpuset);
if(pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset) != 0)
fprintf(stderr, "Error while binding thread %ld to core %d\n", thread_id, core_affinity[thread_id]);
else {
if((!json_flag) && (!quiet_mode)) printf("Running thread %ld on core %d...\n", thread_id, core_affinity[thread_id]);
}
} else
#endif
if((!json_flag) && (!quiet_mode)) printf("Running thread %ld...\n", thread_id);
pcap_loop:
runPcapLoop(thread_id);
if(playlist_fp[thread_id] != NULL) { /* playlist: read next file */
char filename[256];
if(getNextPcapFileFromPlaylist(thread_id, filename, sizeof(filename)) == 0 &&
(ndpi_thread_info[thread_id].workflow->pcap_handle = pcap_open_offline(filename, pcap_error_buffer)) != NULL) {
configurePcapHandle(ndpi_thread_info[thread_id].workflow->pcap_handle);
goto pcap_loop;
}
}
return NULL;
}
/**
* @brief Begin, process, end detection process
*/
void test_lib() {
struct timeval begin, end;
u_int64_t tot_usec;
long thread_id;
#ifdef HAVE_JSON_C
json_init();
#endif
for(thread_id = 0; thread_id < num_threads; thread_id++) {
pcap_t * cap = openPcapFileOrDevice(thread_id, (const u_char*)_pcap_file[thread_id]);
setupDetection(thread_id, cap);
}
gettimeofday(&begin, NULL);
/* Running processing threads */
for(thread_id = 0; thread_id < num_threads; thread_id++)
pthread_create(&ndpi_thread_info[thread_id].pthread, NULL, processing_thread, (void *) thread_id);
/* Waiting for completion */
for(thread_id = 0; thread_id < num_threads; thread_id++)
pthread_join(ndpi_thread_info[thread_id].pthread, NULL);
gettimeofday(&end, NULL);
tot_usec = end.tv_sec*1000000 + end.tv_usec - (begin.tv_sec*1000000 + begin.tv_usec);
/* Printing cumulative results */
printResults(tot_usec);
for(thread_id = 0; thread_id < num_threads; thread_id++) {
if(ndpi_thread_info[thread_id].workflow->pcap_handle != NULL) {
pcap_close(ndpi_thread_info[thread_id].workflow->pcap_handle);
}
terminateDetection(thread_id);
}
}
/**
@brief MAIN FUNCTION
**/
int main(int argc, char **argv) {
int i;
memset(ndpi_thread_info, 0, sizeof(ndpi_thread_info));
memset(&pcap_start, 0, sizeof(pcap_start));
memset(&pcap_end, 0, sizeof(pcap_end));
parseOptions(argc, argv);
if((!json_flag) && (!quiet_mode)) {
printf("\n-----------------------------------------------------------\n"
"* NOTE: This is demo app to show *some* nDPI features.\n"
"* In this demo we have implemented only some basic features\n"
"* just to show you what you can do with the library. Feel \n"
"* free to extend it and send us the patches for inclusion\n"
"------------------------------------------------------------\n\n");
printf("Using nDPI (%s) [%d thread(s)]\n", ndpi_revision(), num_threads);
}
signal(SIGINT, sigproc);
for(i=0; i<num_loops; i++)
test_lib();
if(results_path) free(results_path);
if(results_file) fclose(results_file);
return 0;
}
#ifdef WIN32
#ifndef __GNUC__
#define EPOCHFILETIME (116444736000000000i64)
#else
#define EPOCHFILETIME (116444736000000000LL)
#endif
/**
@brief Timezone
**/
struct timezone {
int tz_minuteswest; /* minutes W of Greenwich */
int tz_dsttime; /* type of dst correction */
};
/**
@brief Set time
**/
int gettimeofday(struct timeval *tv, struct timezone *tz) {
FILETIME ft;
LARGE_INTEGER li;
__int64 t;
static int tzflag;
if(tv) {
GetSystemTimeAsFileTime(&ft);
li.LowPart = ft.dwLowDateTime;
li.HighPart = ft.dwHighDateTime;
t = li.QuadPart; /* In 100-nanosecond intervals */
t -= EPOCHFILETIME; /* Offset to the Epoch time */
t /= 10; /* In microseconds */
tv->tv_sec = (long)(t / 1000000);
tv->tv_usec = (long)(t % 1000000);
}
if(tz) {
if(!tzflag) {
_tzset();
tzflag++;
}
tz->tz_minuteswest = _timezone / 60;
tz->tz_dsttime = _daylight;
}
return 0;
}
#endif /* WIN32 */