/*
* Copyright (C) 2007-2015 Tobias Brunner
* Copyright (C) 2006 Martin Willi
* HSR Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program 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 General Public License
* for more details.
*/
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <getopt.h>
#include <library.h>
#include "stroke_msg.h"
#include "stroke_keywords.h"
struct stroke_token {
char *name;
stroke_keyword_t kw;
};
static char *daemon_name = "charon";
static int output_verbosity = 1; /* CONTROL */
static stroke_msg_t *create_stroke_msg(int type)
{
stroke_msg_t *msg;
INIT(msg,
.type = type,
.length = offsetof(stroke_msg_t, buffer),
);
return msg;
}
#define push_string(msg, field, str) \
push_string_impl(msg, offsetof(stroke_msg_t, field), str)
static void push_string_impl(stroke_msg_t **msg, size_t offset, char *string)
{
size_t cur_len = (*msg)->length, str_len;
if (!string)
{
return;
}
str_len = strlen(string) + 1;
if (cur_len + str_len >= UINT16_MAX)
{
(*msg)->length = UINT16_MAX;
return;
}
while (cur_len + str_len > sizeof(stroke_msg_t) + (*msg)->buflen)
{
*msg = realloc(*msg, sizeof(stroke_msg_t) + (*msg)->buflen +
STROKE_BUF_LEN_INC);
(*msg)->buflen += STROKE_BUF_LEN_INC;
}
(*msg)->length += str_len;
strcpy((char*)*msg + cur_len, string);
*(char**)((char*)*msg + offset) = (char*)cur_len;
}
static int send_stroke_msg(stroke_msg_t *msg)
{
stream_t *stream;
char *uri, buffer[512], *pass;
int count;
if (msg->length == UINT16_MAX)
{
fprintf(stderr, "stroke message exceeds maximum buffer size");
free(msg);
return -1;
}
msg->output_verbosity = output_verbosity;
uri = lib->settings->get_str(lib->settings, "%s.plugins.stroke.socket",
"unix://" STROKE_SOCKET, daemon_name);
stream = lib->streams->connect(lib->streams, uri);
if (!stream)
{
fprintf(stderr, "failed to connect to stroke socket '%s'\n", uri);
free(msg);
return -1;
}
if (!stream->write_all(stream, msg, msg->length))
{
fprintf(stderr, "sending stroke message failed\n");
stream->destroy(stream);
free(msg);
return -1;
}
while ((count = stream->read(stream, buffer, sizeof(buffer)-1, TRUE)) > 0)
{
buffer[count] = '\0';
/* we prompt if we receive a magic keyword */
if ((count >= 12 && streq(buffer + count - 12, "Passphrase:\n")) ||
(count >= 10 && streq(buffer + count - 10, "Password:\n")) ||
(count >= 5 && streq(buffer + count - 5, "PIN:\n")))
{
/* remove trailing newline */
pass = strrchr(buffer, '\n');
if (pass)
{
*pass = ' ';
}
#ifdef HAVE_GETPASS
pass = getpass(buffer);
#else
pass = "";
#endif
if (pass)
{
stream->write_all(stream, pass, strlen(pass));
stream->write_all(stream, "\n", 1);
}
}
else
{
printf("%s", buffer);
}
}
if (count < 0)
{
fprintf(stderr, "reading stroke response failed\n");
}
stream->destroy(stream);
free(msg);
return 0;
}
static int add_connection(char *name,
char *my_id, char *other_id,
char *my_addr, char *other_addr,
char *my_nets, char *other_nets)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_ADD_CONN);
push_string(&msg, add_conn.name, name);
msg->add_conn.version = 2;
msg->add_conn.mode = 1;
msg->add_conn.mobike = 1;
msg->add_conn.dpd.action = 1;
msg->add_conn.install_policy = 1;
push_string(&msg, add_conn.me.id, my_id);
push_string(&msg, add_conn.me.address, my_addr);
msg->add_conn.me.ikeport = 500;
push_string(&msg, add_conn.me.subnets, my_nets);
msg->add_conn.me.sendcert = 1;
msg->add_conn.me.to_port = 65535;
push_string(&msg, add_conn.other.id, other_id);
push_string(&msg, add_conn.other.address, other_addr);
msg->add_conn.other.ikeport = 500;
push_string(&msg, add_conn.other.subnets, other_nets);
msg->add_conn.other.sendcert = 1;
msg->add_conn.other.to_port = 65535;
return send_stroke_msg(msg);
}
static int del_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_DEL_CONN);
push_string(&msg, initiate.name, name);
return send_stroke_msg(msg);
}
static int initiate_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_INITIATE);
push_string(&msg, initiate.name, name);
return send_stroke_msg(msg);
}
static int terminate_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_TERMINATE);
push_string(&msg, initiate.name, name);
return send_stroke_msg(msg);
}
static int terminate_connection_srcip(char *start, char *end)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_TERMINATE_SRCIP);
push_string(&msg, terminate_srcip.start, start);
push_string(&msg, terminate_srcip.end, end);
return send_stroke_msg(msg);
}
static int rekey_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_REKEY);
push_string(&msg, rekey.name, name);
return send_stroke_msg(msg);
}
static int route_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_ROUTE);
push_string(&msg, route.name, name);
return send_stroke_msg(msg);
}
static int unroute_connection(char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_UNROUTE);
push_string(&msg, unroute.name, name);
return send_stroke_msg(msg);
}
static int show_status(stroke_keyword_t kw, char *connection)
{
stroke_msg_t *msg;
switch (kw)
{
case STROKE_STATUSALL:
msg = create_stroke_msg(STR_STATUS_ALL);
break;
case STROKE_STATUSALL_NOBLK:
msg = create_stroke_msg(STR_STATUS_ALL_NOBLK);
break;
default:
msg = create_stroke_msg(STR_STATUS);
break;
}
push_string(&msg, status.name, connection);
return send_stroke_msg(msg);
}
static int list_flags[] = {
LIST_PUBKEYS,
LIST_CERTS,
LIST_CACERTS,
LIST_OCSPCERTS,
LIST_AACERTS,
LIST_ACERTS,
LIST_GROUPS,
LIST_CAINFOS,
LIST_CRLS,
LIST_OCSP,
LIST_ALGS,
LIST_PLUGINS,
LIST_ALL
};
static int list(stroke_keyword_t kw, bool utc)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_LIST);
msg->list.utc = utc;
msg->list.flags = list_flags[kw - STROKE_LIST_FIRST];
return send_stroke_msg(msg);
}
static int reread_flags[] = {
REREAD_SECRETS,
REREAD_CACERTS,
REREAD_OCSPCERTS,
REREAD_AACERTS,
REREAD_ACERTS,
REREAD_CRLS,
REREAD_ALL
};
static int reread(stroke_keyword_t kw)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_REREAD);
msg->reread.flags = reread_flags[kw - STROKE_REREAD_FIRST];
return send_stroke_msg(msg);
}
static int purge_flags[] = {
PURGE_OCSP,
PURGE_CRLS,
PURGE_CERTS,
PURGE_IKE,
};
static int purge(stroke_keyword_t kw)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_PURGE);
msg->purge.flags = purge_flags[kw - STROKE_PURGE_FIRST];
return send_stroke_msg(msg);
}
static int export_flags[] = {
EXPORT_X509,
EXPORT_CONN_CERT,
EXPORT_CONN_CHAIN,
};
static int export(stroke_keyword_t kw, char *selector)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_EXPORT);
push_string(&msg, export.selector, selector);
msg->export.flags = export_flags[kw - STROKE_EXPORT_FIRST];
return send_stroke_msg(msg);
}
static int leases(stroke_keyword_t kw, char *pool, char *address)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_LEASES);
push_string(&msg, leases.pool, pool);
push_string(&msg, leases.address, address);
return send_stroke_msg(msg);
}
static int memusage()
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_MEMUSAGE);
return send_stroke_msg(msg);
}
static int user_credentials(char *name, char *user, char *pass)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_USER_CREDS);
push_string(&msg, user_creds.name, name);
push_string(&msg, user_creds.username, user);
push_string(&msg, user_creds.password, pass);
return send_stroke_msg(msg);
}
static int counters(int reset, char *name)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_COUNTERS);
push_string(&msg, counters.name, name);
msg->counters.reset = reset;
return send_stroke_msg(msg);
}
static int set_loglevel(char *type, u_int level)
{
stroke_msg_t *msg;
msg = create_stroke_msg(STR_LOGLEVEL);
push_string(&msg, loglevel.type, type);
msg->loglevel.level = level;
return send_stroke_msg(msg);
}
static int usage(char *error)
{
FILE *out = error ? stderr : stdout;
fprintf(out, "stroke [OPTIONS] command [ARGUMENTS]\n\n");
fprintf(out, "Options:\n");
fprintf(out, " -h, --help print this information.\n");
fprintf(out, " -d, --daemon=NAME name of the daemon.\n");
fprintf(out, "Commands:\n");
fprintf(out, " Add a connection:\n");
fprintf(out, " stroke add NAME MY_ID OTHER_ID MY_ADDR OTHER_ADDR\\\n");
fprintf(out, " MY_NET OTHER_NET\n");
fprintf(out, " where: ID is any IKEv2 ID \n");
fprintf(out, " ADDR is a IPv4 address\n");
fprintf(out, " NET is a IPv4 subnet in CIDR notation\n");
fprintf(out, " Delete a connection:\n");
fprintf(out, " stroke delete NAME\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " Initiate a connection:\n");
fprintf(out, " stroke up NAME\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " Initiate a connection without blocking:\n");
fprintf(out, " stroke up-nb NAME\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " Terminate a connection:\n");
fprintf(out, " stroke down NAME\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " Terminate a connection without blocking:\n");
fprintf(out, " stroke down-nb NAME\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " Terminate a connection by remote srcip:\n");
fprintf(out, " stroke down-srcip START [END]\n");
fprintf(out, " where: START and optional END define the clients source IP\n");
fprintf(out, " Set loglevel for a logging type:\n");
fprintf(out, " stroke loglevel TYPE LEVEL\n");
fprintf(out, " where: TYPE is any|dmn|mgr|ike|chd|job|cfg|knl|net|asn|enc|tnc|imc|imv|pts|tls|esp|lib\n");
fprintf(out, " LEVEL is -1|0|1|2|3|4\n");
fprintf(out, " Show connection status:\n");
fprintf(out, " stroke status\n");
fprintf(out, " Show extended status information:\n");
fprintf(out, " stroke statusall\n");
fprintf(out, " Show extended status information without blocking:\n");
fprintf(out, " stroke statusall-nb\n");
fprintf(out, " Show list of authority and attribute certificates:\n");
fprintf(out, " stroke listcacerts|listocspcerts|listaacerts|listacerts [--utc]\n");
fprintf(out, " Show list of end entity certificates, ca info records and crls:\n");
fprintf(out, " stroke listcerts|listcainfos|listcrls|listall [--utc]\n");
fprintf(out, " Show list of supported algorithms:\n");
fprintf(out, " stroke listalgs\n");
fprintf(out, " Reload authority and attribute certificates:\n");
fprintf(out, " stroke rereadcacerts|rereadocspcerts|rereadaacerts|rereadacerts\n");
fprintf(out, " Reload secrets and crls:\n");
fprintf(out, " stroke rereadsecrets|rereadcrls|rereadall\n");
fprintf(out, " Purge ocsp cache entries:\n");
fprintf(out, " stroke purgeocsp\n");
fprintf(out, " Purge CRL cache entries:\n");
fprintf(out, " stroke purgecrls\n");
fprintf(out, " Purge X509 cache entries:\n");
fprintf(out, " stroke purgecerts\n");
fprintf(out, " Purge IKE_SAs without a CHILD_SA:\n");
fprintf(out, " stroke purgeike\n");
fprintf(out, " Export credentials to the console:\n");
fprintf(out, " stroke exportx509 DN\n");
fprintf(out, " stroke exportconncert connname\n");
fprintf(out, " stroke exportconnchain connname\n");
fprintf(out, " Show current memory usage:\n");
fprintf(out, " stroke memusage\n");
fprintf(out, " Show leases of a pool:\n");
fprintf(out, " stroke leases [POOL [ADDRESS]]\n");
fprintf(out, " Set username and password for a connection:\n");
fprintf(out, " stroke user-creds NAME USERNAME [PASSWORD]\n");
fprintf(out, " where: NAME is a connection name added with \"stroke add\"\n");
fprintf(out, " USERNAME is the username\n");
fprintf(out, " PASSWORD is the optional password, you'll be asked to enter it if not given\n");
fprintf(out, " Show IKE counters:\n");
fprintf(out, " stroke listcounters [connection-name]\n");
if (error)
{
fprintf(out, "\nError: %s\n", error);
return -1;
}
return 0;
}
int main(int argc, char *argv[])
{
const stroke_token_t *token;
char *cmd;
bool utc = FALSE;
int res = 0;
library_init(NULL, "stroke");
atexit(library_deinit);
while (true)
{
struct option long_opts[] = {
{"help", no_argument, NULL, 'h' },
{"utc", no_argument, NULL, 'u' },
{"daemon", required_argument, NULL, 'd' },
{0,0,0,0},
};
switch (getopt_long(argc, argv, "hd:", long_opts, NULL))
{
case EOF:
break;
case 'h':
return usage(NULL);
case 'd':
daemon_name = optarg;
continue;
case 'u':
utc = TRUE;
continue;
default:
return usage("invalid option");
}
break;
}
if (optind == argc)
{
return usage("command missing");
}
cmd = argv[optind++];
token = in_word_set(cmd, strlen(cmd));
if (token == NULL)
{
return usage("unknown command");
}
/* make argv/argc only cover positional arguments */
argv = &argv[optind];
argc = argc - optind;
switch (token->kw)
{
case STROKE_ADD:
if (argc < 7)
{
return usage("\"add\" needs more arguments...");
}
res = add_connection(argv[0], argv[1], argv[2], argv[3], argv[4],
argv[5], argv[6]);
break;
case STROKE_DELETE:
case STROKE_DEL:
if (argc < 1)
{
return usage("\"delete\" needs a connection name");
}
res = del_connection(argv[0]);
break;
case STROKE_UP_NOBLK:
output_verbosity = -1;
/* fall-through */
case STROKE_UP:
if (argc < 1)
{
return usage("\"up\" needs a connection name");
}
res = initiate_connection(argv[0]);
break;
case STROKE_DOWN_NOBLK:
output_verbosity = -1;
/* fall-through */
case STROKE_DOWN:
if (argc < 1)
{
return usage("\"down\" needs a connection name");
}
res = terminate_connection(argv[0]);
break;
case STROKE_DOWN_SRCIP:
if (argc < 1)
{
return usage("\"down-srcip\" needs start and optional end address");
}
res = terminate_connection_srcip(argv[0], argc > 1 ? argv[1] : NULL);
break;
case STROKE_REKEY:
if (argc < 1)
{
return usage("\"rekey\" needs a connection name");
}
res = rekey_connection(argv[0]);
break;
case STROKE_ROUTE:
if (argc < 1)
{
return usage("\"route\" needs a connection name");
}
res = route_connection(argv[0]);
break;
case STROKE_UNROUTE:
if (argc < 1)
{
return usage("\"unroute\" needs a connection name");
}
res = unroute_connection(argv[0]);
break;
case STROKE_LOGLEVEL:
if (argc < 2)
{
return usage("\"logtype\" needs more parameters...");
}
res = set_loglevel(argv[0], atoi(argv[1]));
break;
case STROKE_STATUS:
case STROKE_STATUSALL:
case STROKE_STATUSALL_NOBLK:
res = show_status(token->kw, argc ? argv[0] : NULL);
break;
case STROKE_LIST_PUBKEYS:
case STROKE_LIST_CERTS:
case STROKE_LIST_CACERTS:
case STROKE_LIST_OCSPCERTS:
case STROKE_LIST_AACERTS:
case STROKE_LIST_ACERTS:
case STROKE_LIST_CAINFOS:
case STROKE_LIST_CRLS:
case STROKE_LIST_OCSP:
case STROKE_LIST_ALGS:
case STROKE_LIST_PLUGINS:
case STROKE_LIST_ALL:
res = list(token->kw, utc);
break;
case STROKE_REREAD_SECRETS:
case STROKE_REREAD_CACERTS:
case STROKE_REREAD_OCSPCERTS:
case STROKE_REREAD_AACERTS:
case STROKE_REREAD_ACERTS:
case STROKE_REREAD_CRLS:
case STROKE_REREAD_ALL:
res = reread(token->kw);
break;
case STROKE_PURGE_OCSP:
case STROKE_PURGE_CRLS:
case STROKE_PURGE_CERTS:
case STROKE_PURGE_IKE:
res = purge(token->kw);
break;
case STROKE_EXPORT_X509:
case STROKE_EXPORT_CONN_CERT:
case STROKE_EXPORT_CONN_CHAIN:
if (argc < 1)
{
return usage("\"export\" needs a name");
}
res = export(token->kw, argv[0]);
break;
case STROKE_LEASES:
res = leases(token->kw, argc ? argv[0] : NULL,
argc > 1 ? argv[1] : NULL);
break;
case STROKE_MEMUSAGE:
res = memusage();
break;
case STROKE_USER_CREDS:
if (argc < 2)
{
return usage("\"user-creds\" needs a connection name, "
"username and optionally a password");
}
res = user_credentials(argv[0], argv[1], argc > 2 ? argv[2] : NULL);
break;
case STROKE_COUNTERS:
case STROKE_COUNTERS_RESET:
res = counters(token->kw == STROKE_COUNTERS_RESET,
argc ? argv[0] : NULL);
break;
default:
return usage(NULL);
}
return res;
}
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