/* wifidump.c * wifidump is an extcap tool used to capture Wi-Fi frames using a remote ssh host * * Adapted from sshdump. * * Copyright 2022, Adrian Granados * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ #include "config.h" #define WS_LOG_DOMAIN "wifidump" #include #include #include #include #include #include #include #include #include #include #include #include #include static char* wifidump_extcap_interface; #ifdef _WIN32 #define DEFAULT_WIFIDUMP_EXTCAP_INTERFACE "wifidump.exe" #else #define DEFAULT_WIFIDUMP_EXTCAP_INTERFACE "wifidump" #endif #define WIFIDUMP_VERSION_MAJOR "1" #define WIFIDUMP_VERSION_MINOR "0" #define WIFIDUMP_VERSION_RELEASE "0" #define SSH_READ_BLOCK_SIZE 256 enum { EXTCAP_BASE_OPTIONS_ENUM, OPT_HELP, OPT_VERSION, OPT_REMOTE_HOST, OPT_REMOTE_PORT, OPT_REMOTE_USERNAME, OPT_REMOTE_PASSWORD, OPT_REMOTE_INTERFACE, OPT_REMOTE_CHANNEL_FREQUENCY, OPT_REMOTE_CHANNEL_WIDTH, OPT_REMOTE_FILTER, OPT_SSHKEY, OPT_SSHKEY_PASSPHRASE, OPT_PROXYCOMMAND, OPT_SSH_SHA1, OPT_REMOTE_COUNT }; static const struct ws_option longopts[] = { EXTCAP_BASE_OPTIONS, { "help", ws_no_argument, NULL, OPT_HELP}, { "version", ws_no_argument, NULL, OPT_VERSION}, SSH_BASE_OPTIONS, { "remote-channel-frequency", ws_required_argument, NULL, OPT_REMOTE_CHANNEL_FREQUENCY}, { "remote-channel-width", ws_required_argument, NULL, OPT_REMOTE_CHANNEL_WIDTH}, { 0, 0, 0, 0} }; static const char * remote_capture_functions = "\n" "function iface_down {\n" " local iface=$1\n" " sudo ip link set $iface down > /dev/null 2>&1\n" "}\n" "\n" "function iface_up {\n" " local iface=$1\n" " sudo ip link set $iface up > /dev/null 2>&1\n" "}\n" "\n" "function iface_monitor {\n" " local iface=$1\n" " sudo iw dev $iface set monitor control otherbss > /dev/null 2>&1 ||\n" " sudo iw dev $iface set type monitor control otherbss > /dev/null 2>&1\n" "}\n" "\n" "function iface_scan {\n" " local iface=$1\n" " iface_down $iface &&\n" " sudo iw dev $iface set type managed > /dev/null 2>&1 &&\n" " iface_up $iface &&\n" " sudo iw dev $iface scan > /dev/null 2>&1\n" "}\n" "\n" "function iface_config {\n" " local iface=$1\n" " local freq=$2\n" " local ch_width=$3\n" " local center_freq=$4\n" " if [ $freq -eq $center_freq ]; then\n" " sudo iw dev $1 set freq $freq $ch_width 2>&1\n" " else\n" " sudo iw dev $1 set freq $freq $ch_width $center_freq 2>&1\n" " fi\n" "}\n" "\n" "function iface_start {\n" " local iface=$1\n" " local count=$2\n" " local filter=\"${@:3}\"\n" " if [ $count -gt 0 ]; then\n" " sudo tcpdump -i $iface -U -w - -c $count $filter\n" " else\n" " sudo tcpdump -i $iface -U -w - $filter\n" " fi\n" "}\n" "\n" "function capture_generic {\n" " local iface=$1\n" " local freq=$2\n" " local ch_width=$3\n" " local center_freq=$4\n" " local count=$5\n" " local filter=\"${@:6}\"\n" " if ! { iwconfig $iface | grep Monitor > /dev/null 2>&1; }; then\n" " iface_down $iface &&\n" " iface_monitor $iface &&\n" " iface_up $iface\n" " else\n" " iface_monitor $iface\n" " fi\n" " iface_config $iface $freq $ch_width $center_freq &&\n" " iface_start $iface $count $filter\n" "}\n" "\n" "function capture_iwlwifi {\n" " local iface=$1\n" " local freq=$2\n" " local ch_width=$3\n" " local center_freq=$4\n" " local count=$5\n" " local filter=\"${@:6}\"\n" " INDEX=`sudo iw dev $iface info | grep wiphy | grep -Eo '[0-9]+'`\n" " sudo iw phy phy${INDEX} channels | grep $freq | grep -i disabled > /dev/null 2>&1 &&\n" " iface_scan $iface\n" " MON=${iface}mon\n" " sudo iw $iface interface add $MON type monitor flags none > /dev/null 2>&1\n" " iface_up $MON &&\n" " iface_down $iface &&\n" " iface_config $MON $freq $ch_width $center_freq &&\n" " iface_start $MON $count $filter\n" "}\n" "\n" "function capture {\n" " local iface=$1\n" " local freq=$2\n" " local ch_width=$3\n" " local center_freq=$4\n" " local count=$5\n" " local filter=\"${@:6}\"\n" " if [ \"$iface\" == \"auto\" ]; then\n" " iface=`sudo iw dev | grep -i interface | awk '{ print $2 }' | sort | head -n 1`\n" " fi\n" " local driver=`/usr/sbin/ethtool -i $iface | grep driver | awk '{ print $2 }'`\n" " if [ $driver = \"iwlwifi\" ]; then\n" " capture_iwlwifi $iface $freq $ch_width $center_freq $count $filter\n" " else\n" " capture_generic $iface $freq $ch_width $center_freq $count $filter\n" " fi\n" "}\n" "\n"; static unsigned int wifi_freqs_2dot4_5ghz[] = { 2412, 2417, 2422, 2427, 2432, 2437, 2442, 2447, 2452, 2457, 2462, 2467, 2472, 2484, 5180, 5200, 5220, 5240, 5260, 5280, 5300, 5320, 5500, 5520, 5540, 5560, 5580, 5600, 5620, 5640, 5660, 5680, 5700, 5720, 5745, 5765, 5785, 5805, 5825, 0 }; static unsigned int freq_to_channel(unsigned int freq_mhz) { if (freq_mhz == 2484) return 14; else if (freq_mhz >= 2412 && freq_mhz <= 2484) return ((freq_mhz - 2412) / 5) + 1; else if (freq_mhz >= 5160 && freq_mhz <= 5885) return ((freq_mhz - 5180) / 5) + 36; else if (freq_mhz >= 5955 && freq_mhz <= 7115) return ((freq_mhz - 5955) / 5) + 1; else return 0; } static const char *freq_to_band(unsigned int freq_mhz) { if (freq_mhz >= 2412 && freq_mhz <= 2484) return "2.4 GHz"; else if (freq_mhz >= 5160 && freq_mhz <= 5885) return "5 GHz"; else if (freq_mhz >= 5955 && freq_mhz <= 7115) return "6 GHz"; else return NULL; } static unsigned int center_freq(unsigned int freq_mhz, unsigned int ch_width_mhz) { unsigned int start_freq; if (ch_width_mhz == 20) { return freq_mhz; } else if (ch_width_mhz == 40) { if (freq_mhz >= 5180 && freq_mhz <= 5720) { for (start_freq = 5180; start_freq <= 5700; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 20)) return ((start_freq * 2) + 20) / 2; } } else if (freq_mhz >= 5745 && freq_mhz <= 5765) return 5755; else if (freq_mhz >= 5785 && freq_mhz <= 5805) return 5795; else if (freq_mhz >= 5955 && freq_mhz <= 7095) { for (start_freq = 5955; start_freq <= 7075; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 20)) return ((start_freq * 2) + 20) / 2; } } } else if (ch_width_mhz == 80) { if (freq_mhz >= 5180 && freq_mhz <= 5660) { for (start_freq = 5180; start_freq <= 5660; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 60)) return ((start_freq * 2) + 60) / 2; } } else if (freq_mhz >= 5745 && freq_mhz <= 5805) return 5775; else if (freq_mhz >= 5955 && freq_mhz <= 7055) { for (start_freq = 5955; start_freq <= 6995; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 60)) return ((start_freq * 2) + 60) / 2; } } } else if (ch_width_mhz == 160) { if (freq_mhz >= 5180 && freq_mhz <= 5640) { for (start_freq = 5180; start_freq <= 5500; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 140)) return ((start_freq * 2) + 140) / 2; } } else if (freq_mhz >= 5955 && freq_mhz <= 7055) { for (start_freq = 5955; start_freq <= 6915; start_freq += ch_width_mhz) { if (freq_mhz >= start_freq && freq_mhz <= (start_freq + 140)) return ((start_freq * 2) + 140) / 2; } } } return -1; } static int ssh_loop_read(ssh_channel channel, FILE* fp) { int nbytes; int ret = EXIT_SUCCESS; char buffer[SSH_READ_BLOCK_SIZE]; /* read from stdin until data are available */ while (ssh_channel_is_open(channel) && !ssh_channel_is_eof(channel)) { nbytes = ssh_channel_read(channel, buffer, SSH_READ_BLOCK_SIZE, 0); if (nbytes < 0) { ws_warning("Error reading from channel"); goto end; } if (nbytes == 0) { break; } if (fwrite(buffer, 1, nbytes, fp) != (unsigned)nbytes) { ws_warning("Error writing to fifo"); ret = EXIT_FAILURE; goto end; } fflush(fp); } /* read loop finished... maybe something wrong happened. Read from stderr */ while (ssh_channel_is_open(channel) && !ssh_channel_is_eof(channel)) { nbytes = ssh_channel_read(channel, buffer, SSH_READ_BLOCK_SIZE, 1); if (nbytes < 0) { ws_warning("Error reading from channel"); goto end; } if (fwrite(buffer, 1, nbytes, stderr) != (unsigned)nbytes) { ws_warning("Error writing to stderr"); break; } } end: if (ssh_channel_send_eof(channel) != SSH_OK) { ws_warning("Error sending EOF in ssh channel"); ret = EXIT_FAILURE; } return ret; } static ssh_channel run_ssh_command(ssh_session sshs, const char* capture_functions, const char* iface, const uint16_t channel_frequency, const uint16_t channel_width, const uint16_t center_frequency, const char* cfilter, const uint32_t count) { char* cmdline; ssh_channel channel; char* quoted_iface = NULL; char* quoted_filter = NULL; char* count_str = NULL; unsigned int remote_port = 22; channel = ssh_channel_new(sshs); if (!channel) { ws_warning("Can't create channel"); return NULL; } if (ssh_channel_open_session(channel) != SSH_OK) { ws_warning("Can't open session"); ssh_channel_free(channel); return NULL; } ssh_options_get_port(sshs, &remote_port); quoted_iface = iface ? g_shell_quote(iface) : NULL; quoted_filter = g_shell_quote(cfilter ? cfilter : ""); cmdline = ws_strdup_printf("%s capture %s %u %u %u %u %s", capture_functions, quoted_iface ? quoted_iface : "auto", channel_frequency, channel_width, center_frequency, count, quoted_filter); ws_debug("Running: %s", cmdline); if (ssh_channel_request_exec(channel, cmdline) != SSH_OK) { ws_warning("Can't request exec"); ssh_channel_close(channel); ssh_channel_free(channel); channel = NULL; } g_free(quoted_iface); g_free(quoted_filter); g_free(cmdline); g_free(count_str); return channel; } static int ssh_open_remote_connection(const ssh_params_t* params, const char* capture_functions, const char* iface, const uint16_t channel_frequency, const uint16_t channel_width, const uint16_t center_frequency, const char* cfilter, const uint32_t count, const char* fifo) { ssh_session sshs = NULL; ssh_channel channel = NULL; FILE* fp = stdout; int ret = EXIT_FAILURE; char* err_info = NULL; if (g_strcmp0(fifo, "-")) { /* Open or create the output file */ fp = fopen(fifo, "wb"); if (fp == NULL) { ws_warning("Error creating output file: %s (%s)", fifo, g_strerror(errno)); return EXIT_FAILURE; } } sshs = create_ssh_connection(params, &err_info); if (!sshs) { ws_warning("Error creating connection."); goto cleanup; } channel = run_ssh_command(sshs, capture_functions, iface, channel_frequency, channel_width, center_frequency, cfilter, count); if (!channel) { ws_warning("Can't run ssh command."); goto cleanup; } /* read from channel and write into fp */ if (ssh_loop_read(channel, fp) != EXIT_SUCCESS) { ws_warning("Error in read loop."); ret = EXIT_FAILURE; goto cleanup; } ret = EXIT_SUCCESS; cleanup: if (err_info) ws_warning("%s", err_info); g_free(err_info); /* clean up and exit */ ssh_cleanup(&sshs, &channel); if (g_strcmp0(fifo, "-")) fclose(fp); return ret; } static int list_config(char *interface) { unsigned inc = 0; int i, psc; if (!interface) { ws_warning("ERROR: No interface specified."); return EXIT_FAILURE; } if (g_strcmp0(interface, wifidump_extcap_interface)) { ws_warning("ERROR: interface must be %s", wifidump_extcap_interface); return EXIT_FAILURE; } // Server tab printf("arg {number=%u}{call=--remote-host}{display=Remote SSH server address}" "{type=string}{tooltip=The remote SSH host. It can be both " "an IP address or a hostname}{required=true}{group=Server}\n", inc++); printf("arg {number=%u}{call=--remote-port}{display=Remote SSH server port}" "{type=unsigned}{tooltip=The remote SSH host port (1-65535)}" "{range=1,65535}{group=Server}\n", inc++); // Authentication tab printf("arg {number=%u}{call=--remote-username}{display=Remote SSH server username}" "{type=string}{tooltip=The remote SSH username. If not provided, " "the current user will be used}{group=Authentication}\n", inc++); printf("arg {number=%u}{call=--remote-password}{display=Remote SSH server password}" "{type=password}{tooltip=The SSH password, used when other methods (SSH agent " "or key files) are unavailable.}{group=Authentication}\n", inc++); printf("arg {number=%u}{call=--sshkey}{display=Path to SSH private key}" "{type=fileselect}{tooltip=The path on the local filesystem of the private ssh key}" "{mustexist=true}{group=Authentication}\n", inc++); printf("arg {number=%u}{call=--sshkey-passphrase}{display=SSH key passphrase}" "{type=password}{tooltip=Passphrase to unlock the SSH private key}{group=Authentication}\n", inc++); printf("arg {number=%u}{call=--ssh-sha1}{display=Support SHA-1 keys (deprecated)}" "{type=boolflag}{tooltip=Support keys and key exchange algorithms using SHA-1 (deprecated)}{group=Authentication}" "\n", inc++); // Capture tab printf("arg {number=%u}{call=--remote-interface}{display=Remote interface}" "{type=string}{tooltip=The remote network interface used to capture" "}{default=auto}{group=Capture}\n", inc++); printf("arg {number=%u}{call=--remote-channel-frequency}{display=Remote channel}" "{type=selector}{tooltip=The remote channel used to capture}{group=Capture}\n", inc); unsigned int freq = 0; for (i = 0; (freq = wifi_freqs_2dot4_5ghz[i]); i++) { printf("value {arg=%u}{value=%u}{display=%s, Channel %u}\n", inc, freq, freq_to_band(freq), freq_to_channel(freq)); } for (freq = 5955, psc = 3; freq <= 7115; freq += 20, psc++) { printf("value {arg=%u}{value=%u}{display=%s, Channel %u%s}\n", inc, freq, freq_to_band(freq), freq_to_channel(freq), (psc % 4 == 0) ? " (PSC)" : ""); } inc++; printf("arg {number=%u}{call=--remote-channel-width}{display=Remote channel width}" "{type=selector}{tooltip=The remote channel width used to capture}" "{group=Capture}\n", inc); printf("value {arg=%u}{value=20}{display=20 MHz}\n", inc); printf("value {arg=%u}{value=40}{display=40 MHz}\n", inc); printf("value {arg=%u}{value=80}{display=80 MHz}\n", inc); printf("value {arg=%u}{value=160}{display=160 MHz}\n", inc); inc++; printf("arg {number=%u}{call=--remote-filter}{display=Remote capture filter}{type=string}" "{tooltip=The remote capture filter}{group=Capture}\n", inc++); printf("arg {number=%u}{call=--remote-count}{display=Frames to capture}" "{type=unsigned}{tooltip=The number of remote frames to capture.}" "{group=Capture}\n", inc++); extcap_config_debug(&inc); return EXIT_SUCCESS; } static char* concat_filters(const char* extcap_filter, const char* remote_filter) { if (!extcap_filter && remote_filter) return g_strdup(remote_filter); if (!remote_filter && extcap_filter) return g_strdup(extcap_filter); if (!remote_filter && !extcap_filter) return NULL; return ws_strdup_printf("(%s) and (%s)", extcap_filter, remote_filter); } int main(int argc, char *argv[]) { char* err_msg; int result; int option_idx = 0; ssh_params_t* ssh_params = ssh_params_new(); char* remote_interface = NULL; uint16_t remote_channel_frequency = 0; uint16_t remote_channel_width = 0; uint16_t remote_center_frequency = 0; char* remote_filter = NULL; uint32_t count = 0; int ret = EXIT_FAILURE; extcap_parameters* extcap_conf = g_new0(extcap_parameters, 1); char* help_url; char* help_header = NULL; char* interface_description = g_strdup("Wi-Fi remote capture"); /* Initialize log handler early so we can have proper logging during startup. */ extcap_log_init("wifidump"); wifidump_extcap_interface = g_path_get_basename(argv[0]); /* * Get credential information for later use. */ init_process_policies(); /* * Attempt to get the pathname of the directory containing the * executable file. */ err_msg = configuration_init(argv[0], NULL); if (err_msg != NULL) { ws_warning("Can't get pathname of directory containing the extcap program: %s.", err_msg); g_free(err_msg); } help_url = data_file_url("wifidump.html"); extcap_base_set_util_info(extcap_conf, argv[0], WIFIDUMP_VERSION_MAJOR, WIFIDUMP_VERSION_MINOR, WIFIDUMP_VERSION_RELEASE, help_url); g_free(help_url); add_libssh_info(extcap_conf); if (g_strcmp0(wifidump_extcap_interface, DEFAULT_WIFIDUMP_EXTCAP_INTERFACE)) { char* temp = interface_description; interface_description = ws_strdup_printf("%s, custom version", interface_description); g_free(temp); } extcap_base_register_interface(extcap_conf, wifidump_extcap_interface, interface_description, 147, "Remote capture dependent DLT"); g_free(interface_description); help_header = ws_strdup_printf( " %s --extcap-interfaces\n" " %s --extcap-interface=%s --extcap-dlts\n" " %s --extcap-interface=%s --extcap-config\n" " %s --extcap-interface=%s --remote-host myhost --remote-port 22222 " "--remote-username myuser --remote-interface wlan0 --remote-channel-frequency 5180 " "--remote-channel-width 40 --fifo=FILENAME --capture\n", argv[0], argv[0], wifidump_extcap_interface, argv[0], wifidump_extcap_interface, argv[0], wifidump_extcap_interface); extcap_help_add_header(extcap_conf, help_header); g_free(help_header); extcap_help_add_option(extcap_conf, "--help", "print this help"); extcap_help_add_option(extcap_conf, "--version", "print the version"); extcap_help_add_option(extcap_conf, "--remote-host ", "the remote SSH host"); extcap_help_add_option(extcap_conf, "--remote-port ", "the remote SSH port"); extcap_help_add_option(extcap_conf, "--remote-username ", "the remote SSH username"); extcap_help_add_option(extcap_conf, "--remote-password ", "the remote SSH password. If not specified, ssh-agent and ssh-key are used"); extcap_help_add_option(extcap_conf, "--sshkey ", "the path of the ssh key"); extcap_help_add_option(extcap_conf, "--sshkey-passphrase ", "the passphrase to unlock public ssh"); extcap_help_add_option(extcap_conf, "--ssh-sha1", "support keys and key exchange using SHA-1 (deprecated)"); extcap_help_add_option(extcap_conf, "--remote-interface ", "the remote capture interface"); extcap_help_add_option(extcap_conf, "--remote-channel-frequency ", "the remote channel frequency in MHz"); extcap_help_add_option(extcap_conf, "--remote-channel-width ", "the remote channel width in MHz"); extcap_help_add_option(extcap_conf, "--remote-filter ", "a filter for remote capture"); extcap_help_add_option(extcap_conf, "--remote-count ", "the number of frames to capture"); ws_opterr = 0; ws_optind = 0; if (argc == 1) { extcap_help_print(extcap_conf); goto end; } while ((result = ws_getopt_long(argc, argv, ":", longopts, &option_idx)) != -1) { switch (result) { case OPT_HELP: extcap_help_print(extcap_conf); ret = EXIT_SUCCESS; goto end; case OPT_VERSION: extcap_version_print(extcap_conf); ret = EXIT_SUCCESS; goto end; case OPT_REMOTE_HOST: g_free(ssh_params->host); ssh_params->host = g_strdup(ws_optarg); break; case OPT_REMOTE_PORT: if (!ws_strtou16(ws_optarg, NULL, &ssh_params->port) || ssh_params->port == 0) { ws_warning("Invalid port: %s", ws_optarg); goto end; } break; case OPT_REMOTE_USERNAME: g_free(ssh_params->username); ssh_params->username = g_strdup(ws_optarg); break; case OPT_REMOTE_PASSWORD: g_free(ssh_params->password); ssh_params->password = g_strdup(ws_optarg); memset(ws_optarg, 'X', strlen(ws_optarg)); break; case OPT_SSHKEY: g_free(ssh_params->sshkey_path); ssh_params->sshkey_path = g_strdup(ws_optarg); break; case OPT_SSHKEY_PASSPHRASE: g_free(ssh_params->sshkey_passphrase); ssh_params->sshkey_passphrase = g_strdup(ws_optarg); memset(ws_optarg, 'X', strlen(ws_optarg)); break; case OPT_SSH_SHA1: ssh_params->ssh_sha1 = true; break; case OPT_REMOTE_INTERFACE: g_free(remote_interface); remote_interface = g_strdup(ws_optarg); break; case OPT_REMOTE_CHANNEL_FREQUENCY: if (!ws_strtou16(ws_optarg, NULL, &remote_channel_frequency)) { ws_warning("Invalid channel frequency: %s", ws_optarg); goto end; } break; case OPT_REMOTE_CHANNEL_WIDTH: if (!ws_strtou16(ws_optarg, NULL, &remote_channel_width)) { ws_warning("Invalid channel width: %s", ws_optarg); goto end; } break; case OPT_REMOTE_FILTER: g_free(remote_filter); remote_filter = g_strdup(ws_optarg); break; case OPT_REMOTE_COUNT: if (!ws_strtou32(ws_optarg, NULL, &count)) { ws_warning("Invalid value for count: %s", ws_optarg); goto end; } break; case ':': /* missing option argument */ ws_warning("Option '%s' requires an argument", argv[ws_optind - 1]); break; default: if (!extcap_base_parse_options(extcap_conf, result - EXTCAP_OPT_LIST_INTERFACES, ws_optarg)) { ws_warning("Invalid option: %s", argv[ws_optind - 1]); goto end; } } } extcap_cmdline_debug(argv, argc); if (extcap_base_handle_interface(extcap_conf)) { ret = EXIT_SUCCESS; goto end; } if (extcap_conf->show_config) { ret = list_config(extcap_conf->interface); goto end; } err_msg = ws_init_sockets(); if (err_msg != NULL) { ws_warning("ERROR: %s", err_msg); g_free(err_msg); ws_warning("%s", please_report_bug()); goto end; } if (extcap_conf->capture) { char* filter; if (!ssh_params->host) { ws_warning("Missing parameter: --remote-host"); goto end; } remote_center_frequency = center_freq(remote_channel_frequency, remote_channel_width); filter = concat_filters(extcap_conf->capture_filter, remote_filter); ssh_params_set_log_level(ssh_params, extcap_conf->debug); ret = ssh_open_remote_connection(ssh_params, remote_capture_functions, remote_interface, remote_channel_frequency, remote_channel_width, remote_center_frequency, filter, count, extcap_conf->fifo); g_free(filter); } else { ws_debug("You should not come here... maybe some parameter missing?"); ret = EXIT_FAILURE; } end: /* clean up stuff */ ssh_params_free(ssh_params); g_free(remote_interface); g_free(remote_filter); extcap_base_cleanup(&extcap_conf); return ret; } /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 8 * tab-width: 8 * indent-tabs-mode: t * End: * * vi: set shiftwidth=8 tabstop=8 noexpandtab: * :indentSize=8:tabSize=8:noTabs=false: */