int
main(int argc, char **argv)
{
const char *progname = argv[0];
struct ccn *ccn = NULL;
struct ccn_charbuf *root = NULL;
struct ccn_charbuf *name = NULL;
struct ccn_charbuf *temp = NULL;
struct ccn_charbuf *templ = NULL;
struct ccn_charbuf *signed_info = NULL;
struct ccn_charbuf *keylocator = NULL;
struct ccn_charbuf *finalblockid = NULL;
struct ccn_keystore *keystore = NULL;
long expire = -1;
long blocksize = 1024;
int i;
int status = 0;
int res;
ssize_t read_res;
unsigned char *buf = NULL;
struct mydata mydata = { 0 };
struct ccn_closure in_content = {.p=&incoming_content, .data=&mydata};
struct ccn_closure in_interest = {.p=&incoming_interest, .data=&mydata};
while ((res = getopt(argc, argv, "hx:b:")) != -1) {
switch (res) {
case 'x':
expire = atol(optarg);
if (expire <= 0)
usage(progname);
break;
case 'b':
blocksize = atol(optarg);
break;
default:
case 'h':
usage(progname);
break;
}
}
argc -= optind;
argv += optind;
if (argv[0] == NULL)
usage(progname);
name = ccn_charbuf_create();
res = ccn_name_from_uri(name, argv[0]);
if (res < 0) {
fprintf(stderr, "%s: bad ccn URI: %s\n", progname, argv[0]);
exit(1);
}
if (argv[1] != NULL)
fprintf(stderr, "%s warning: extra arguments ignored\n", progname);
ccn = ccn_create();
if (ccn_connect(ccn, NULL) == -1) {
perror("Could not connect to ccnd");
exit(1);
}
buf = calloc(1, blocksize);
root = name;
name = ccn_charbuf_create();
temp = ccn_charbuf_create();
templ = ccn_charbuf_create();
signed_info = ccn_charbuf_create();
keystore = ccn_keystore_create();
temp->length = 0;
ccn_charbuf_putf(temp, "%s/.ccnx/.ccnx_keystore", getenv("HOME"));
res = ccn_keystore_init(keystore,
ccn_charbuf_as_string(temp),
"Th1s1sn0t8g00dp8ssw0rd.");
if (res != 0) {
printf("Failed to initialize keystore\n");
exit(1);
}
name->length = 0;
ccn_charbuf_append(name, root->buf, root->length);
/* Set up a handler for interests */
ccn_set_interest_filter(ccn, name, &in_interest);
/* Initiate check to see whether there is already something there. */
temp->length = 0;
ccn_charbuf_putf(temp, "%d", 0);
ccn_name_append(name, temp->buf, temp->length);
templ->length = 0;
ccn_charbuf_append_tt(templ, CCN_DTAG_Interest, CCN_DTAG);
ccn_charbuf_append_tt(templ, CCN_DTAG_Name, CCN_DTAG);
ccn_charbuf_append_closer(templ); /* </Name> */
ccn_charbuf_append_tt(templ, CCN_DTAG_MaxSuffixComponents, CCN_DTAG);
ccn_charbuf_append_tt(templ, 1, CCN_UDATA);
ccn_charbuf_append(templ, "1", 1);
ccn_charbuf_append_closer(templ); /* </MaxSuffixComponents> */
// XXX - use pubid
ccn_charbuf_append_closer(templ); /* </Interest> */
res = ccn_express_interest(ccn, name, &in_content, templ);
if (res < 0) abort();
/* Construct a key locator contining the key itself */
keylocator = ccn_charbuf_create();
ccn_charbuf_append_tt(keylocator, CCN_DTAG_KeyLocator, CCN_DTAG);
ccn_charbuf_append_tt(keylocator, CCN_DTAG_Key, CCN_DTAG);
res = ccn_append_pubkey_blob(keylocator, ccn_keystore_public_key(keystore));
if (res < 0)
ccn_charbuf_destroy(&keylocator);
else {
ccn_charbuf_append_closer(keylocator); /* </Key> */
ccn_charbuf_append_closer(keylocator); /* </KeyLocator> */
}
for (i = 0;; i++) {
read_res = read_full(0, buf, blocksize);
if (read_res < 0) {
perror("read");
read_res = 0;
status = 1;
}
signed_info->length = 0;
if (read_res < blocksize) {
temp->length = 0;
ccn_charbuf_putf(temp, "%d", i);
ccn_name_append(name, temp->buf, temp->length);
finalblockid = ccn_charbuf_create();
ccn_charbuf_append_tt(finalblockid, temp->length, CCN_BLOB);
ccn_charbuf_append(finalblockid, temp->buf, temp->length);
}
res = ccn_signed_info_create(signed_info,
/*pubkeyid*/ccn_keystore_public_key_digest(keystore),
/*publisher_key_id_size*/ccn_keystore_public_key_digest_length(keystore),
/*datetime*/NULL,
/*type*/CCN_CONTENT_DATA,
/*freshness*/ expire,
finalblockid,
keylocator);
/* Put the keylocator in the first block only. */
ccn_charbuf_destroy(&keylocator);
if (res < 0) {
fprintf(stderr, "Failed to create signed_info (res == %d)\n", res);
exit(1);
}
name->length = 0;
ccn_charbuf_append(name, root->buf, root->length);
temp->length = 0;
ccn_charbuf_putf(temp, "%d", i);
ccn_name_append(name, temp->buf, temp->length);
temp->length = 0;
ccn_charbuf_append(temp, buf, read_res);
temp->length = 0;
res = ccn_encode_ContentObject(temp,
name,
signed_info,
buf,
read_res,
NULL,
ccn_keystore_private_key(keystore));
if (res != 0) {
fprintf(stderr, "Failed to encode ContentObject (res == %d)\n", res);
exit(1);
}
if (i == 0) {
/* Finish check for old content */
if (mydata.content_received == 0)
ccn_run(ccn, 100);
if (mydata.content_received > 0) {
fprintf(stderr, "%s: name is in use: %s\n", progname, argv[0]);
exit(1);
}
mydata.outstanding++; /* the first one is free... */
}
res = ccn_put(ccn, temp->buf, temp->length);
if (res < 0) {
fprintf(stderr, "ccn_put failed (res == %d)\n", res);
exit(1);
}
if (read_res < blocksize)
break;
if (mydata.outstanding > 0)
mydata.outstanding--;
else
res = 10;
res = ccn_run(ccn, res * 100);
if (res < 0) {
status = 1;
break;
}
}
free(buf);
buf = NULL;
ccn_charbuf_destroy(&root);
ccn_charbuf_destroy(&name);
ccn_charbuf_destroy(&temp);
ccn_charbuf_destroy(&signed_info);
ccn_charbuf_destroy(&finalblockid);
ccn_keystore_destroy(&keystore);
ccn_destroy(&ccn);
exit(status);
}
void GroupManager::incomingInterest(ccn_upcall_info *info) {
int res;
const char *data = NULL;
const unsigned char *requester = NULL;
const unsigned char *refresher = NULL;
const unsigned char *filter = NULL;
size_t filter_len = 0;
ccn_charbuf *signed_info = NULL;
ccn_charbuf *name = NULL;
ccn_charbuf *content = NULL;
RemoteUser *refreshUser = NULL;
// requesterPrefix starts from index 4 to (info->interest_comps->n - 2)
int nameEnd = 0;
nameEnd = (info->interest_comps)->n - 2;
/* construct reply data
* name format:
* /ndn/broadcast/conference/conference-name/speaker-list/username
*/
signed_info = ccn_charbuf_create();
struct ccn_charbuf *keylocator = ccn_charbuf_create();
ccn_create_keylocator(keylocator, ccn_keystore_public_key(cached_keystore));
res = ccn_signed_info_create(signed_info,
/*pubkeyid*/ get_my_publisher_key_id(),
/*publisher_key_id_size*/ get_my_publisher_key_id_length(),
/*datetime*/ NULL,
/*type*/ CCN_CONTENT_DATA,
///*freshness*/ -1,
/*freshness*/ FRESHNESS,
/*finalblockid*/ NULL,
/*keylocator*/ keylocator);
if (res < 0) {
DPRINT("FAILED TO CREATE signed_info (res == %d)", res);
}
name = ccn_charbuf_create();
content = ccn_charbuf_create();
ccn_name_init(name);
ccn_name_append_components(name, info->interest_ccnb,
info->interest_comps->buf[0], info->interest_comps->buf[nameEnd + 1]);
// append own username
ccn_name_append_str(name, userName.toLocal8Bit().constData());
// get user list, the caller need to free the data buffer allocated
int dlen = userListtoXml(&data);
ccn_encode_ContentObject(content, name, signed_info,
data, dlen,
NULL, get_my_private_key());
// already have the lock, no need to trylock
ccn_put(info->h, content->buf, content->length);
ccn_charbuf_destroy(&signed_info);
ccn_charbuf_destroy(&name);
ccn_charbuf_destroy(&content);
if (data != NULL) {
free((void *)data);
data = NULL;
}
}
int
main(int argc, char **argv)
{
struct ccn_keystore *keystore = NULL;
int res = 0;
struct ccn_charbuf *signed_info = ccn_charbuf_create();
int i;
int sec, usec;
char msgbuf[PAYLOAD_SIZE];
struct timeval start, end;
struct ccn_charbuf *message = ccn_charbuf_create();
struct ccn_charbuf *path = ccn_charbuf_create();
struct ccn_charbuf *seq = ccn_charbuf_create();
struct ccn_charbuf *temp = ccn_charbuf_create();
keystore = ccn_keystore_create();
ccn_charbuf_putf(temp, "%s/.ccnx/.ccnx_keystore", getenv("HOME"));
res = ccn_keystore_init(keystore,
ccn_charbuf_as_string(temp),
"Th1s1sn0t8g00dp8ssw0rd.");
if (res != 0) {
printf("Failed to initialize keystore %s\n", ccn_charbuf_as_string(temp));
exit(1);
}
ccn_charbuf_destroy(&temp);
res = ccn_signed_info_create(signed_info,
/* pubkeyid */ ccn_keystore_public_key_digest(keystore),
/* publisher_key_id_size */ ccn_keystore_public_key_digest_length(keystore),
/* datetime */ NULL,
/* type */ CCN_CONTENT_DATA,
/* freshness */ FRESHNESS,
/*finalblockid*/ NULL,
/* keylocator */ NULL);
srandom(time(NULL));
for (i=0; i<PAYLOAD_SIZE; i++) {
msgbuf[i] = random();
}
printf("Generating %d signed ContentObjects (one . per 100)\n", COUNT);
gettimeofday(&start, NULL);
for (i=0; i<COUNT; i++) {
if (i>0 && (i%100) == 0) {
printf(".");
fflush(stdout);
}
ccn_name_init(path);
ccn_name_append_str(path, "rtp");
ccn_name_append_str(path, "protocol");
ccn_name_append_str(path, "13.2.117.34");
ccn_name_append_str(path, "domain");
ccn_name_append_str(path, "smetters");
ccn_name_append_str(path, "principal");
ccn_name_append_str(path, "2021915340");
ccn_name_append_str(path, "id");
ccn_charbuf_putf(seq, "%u", i);
ccn_name_append(path, seq->buf, seq->length);
ccn_name_append_str(path, "seq");
res = ccn_encode_ContentObject(/* out */ message,
path, signed_info,
msgbuf, PAYLOAD_SIZE,
/* digest_algorithm */ NULL,
ccn_keystore_private_key(keystore));
ccn_charbuf_reset(message);
ccn_charbuf_reset(path);
ccn_charbuf_reset(seq);
}
gettimeofday(&end, NULL);
sec = end.tv_sec - start.tv_sec;
usec = (int)end.tv_usec - (int)start.tv_usec;
while (usec < 0) {
sec--;
usec += 1000000;
}
printf("\nComplete in %d.%06d secs\n", sec, usec);
return(0);
}
PyObject *
_pyccn_cmd_SignedInfo_to_ccn(PyObject *UNUSED(self), PyObject *args,
PyObject *kwds)
{
static char *kwlist[] = {"pubkey_digest", "type", "timestamp",
"freshness", "final_block_id", "key_locator", NULL};
PyObject *py_pubkey_digest, *py_timestamp = Py_None,
*py_final_block = Py_None, *py_key_locator = Py_None;
struct ccn_charbuf *si;
PyObject *py_si;
int r;
size_t publisher_key_id_size;
const void *publisher_key_id;
int type, freshness = -1;
struct ccn_charbuf *timestamp = NULL, *finalblockid = NULL,
*key_locator = NULL;
if (!PyArg_ParseTupleAndKeywords(args, kwds, "Oi|OiOO", kwlist,
&py_pubkey_digest, &type, &py_timestamp, &freshness,
&py_final_block, &py_key_locator))
return NULL;
if (!PyBytes_Check(py_pubkey_digest)) {
PyErr_SetString(PyExc_TypeError, "Must pass a Bytes as pubkey_digest");
return NULL;
} else {
publisher_key_id_size = PyBytes_GET_SIZE(py_pubkey_digest);
publisher_key_id = PyBytes_AS_STRING(py_pubkey_digest);
}
if (py_timestamp != Py_None) {
PyErr_SetString(PyExc_NotImplementedError, "Timestamp is not implemented yet");
return NULL;
} else
timestamp = NULL;
if (py_final_block != Py_None) {
char *s;
Py_ssize_t len;
if (!PyBytes_Check(py_final_block)) {
PyErr_SetString(PyExc_TypeError, "Must pass a bytes as final block");
return NULL;
}
finalblockid = ccn_charbuf_create();
JUMP_IF_NULL_MEM(finalblockid, error);
s = PyBytes_AS_STRING(py_final_block);
len = PyBytes_GET_SIZE(py_final_block);
r = ccn_charbuf_append_tt(finalblockid, len, CCN_BLOB);
JUMP_IF_NEG_MEM(r, error);
r = ccn_charbuf_append(finalblockid, s, len);
JUMP_IF_NEG_MEM(r, error);
} else
finalblockid = NULL;
if (py_key_locator == Py_None)
key_locator = NULL;
else if (CCNObject_IsValid(KEY_LOCATOR, py_key_locator))
key_locator = CCNObject_Get(KEY_LOCATOR, py_key_locator);
else {
PyErr_SetString(PyExc_TypeError, "key_locator needs to be a CCN KeyLocator object");
return NULL;
}
py_si = CCNObject_New_charbuf(SIGNED_INFO, &si);
JUMP_IF_NULL(py_si, error);
r = ccn_signed_info_create(si, publisher_key_id, publisher_key_id_size,
timestamp, type, freshness, finalblockid, key_locator);
ccn_charbuf_destroy(&finalblockid);
if (r < 0) {
Py_DECREF(py_si);
PyErr_SetString(g_PyExc_CCNError, "Error while creating SignedInfo");
return NULL;
}
return py_si;
error:
ccn_charbuf_destroy(&finalblockid);
return NULL;
}
int
main (int argc, char *argv[]) {
struct ccn_charbuf *buffer = ccn_charbuf_create();
struct ccn_charbuf *signed_info = ccn_charbuf_create();
struct ccn_skeleton_decoder dd = {0};
ssize_t res;
char *outname = NULL;
int fd;
int result = 0;
char * contents[] = {"INVITE sip:[email protected] SIP/2.0\nVia: SIP/2.0/UDP 127.0.0.1:5060;rport;branch=z9hG4bK519044721\nFrom: <sip:[email protected]>;tag=2105643453\nTo: Test User <sip:[email protected]>\nCall-ID: [email protected]\nCSeq: 20 INVITE\nContact: <sip:[email protected]:5060>\nMax-Forwards: 70\nUser-Agent: Linphone-1.7.1/eXosip\nSubject: Phone call\nExpires: 120\nAllow: INVITE, ACK, CANCEL, BYE, OPTIONS, REFER, SUBSCRIBE, NOTIFY, MESSAGE\nContent-Type: application/sdp\nContent-Length: 448\n\nv=0\no=jthornto 123456 654321 IN IP4 127.0.0.1\ns=A conversation\nc=IN IP4 127.0.0.1\nt=0 0\nm=audio 7078 RTP/AVP 111 110 0 3 8 101\na=rtpmap:111 speex/16000/1\na=rtpmap:110 speex/8000/1\na=rtpmap:0 PCMU/8000/1\na=rtpmap:3 GSM/8000/1\na=rtpmap:8 PCMA/8000/1\na=rtpmap:101 telephone-event/8000\na=fmtp:101 0-11\nm=video 9078 RTP/AVP 97 98 99\na=rtpmap:97 theora/90000\na=rtpmap:98 H263-1998/90000\na=fmtp:98 CIF=1;QCIF=1\na=rtpmap:99 MP4V-ES/90000\n",
"Quaer #%2d zjduer badone",
"",
NULL};
char * paths[] = { "/sip/protocol/parc.com/domain/foo/principal/invite/verb/[email protected]/id",
"/d/e/f",
"/zero/length/content",
NULL};
struct path * cur_path = NULL;
struct ccn_keystore *keystore = ccn_keystore_create();
char *home = getenv("HOME");
char *keystore_suffix = "/.ccnx/.ccnx_keystore";
char *keystore_name = NULL;
int i;
if (argc == 3 && strcmp(argv[1], "-o") == 0) {
outname = argv[2];
} else {
printf("Usage: %s -o <outfilename>\n", argv[0]);
exit(1);
}
if (home == NULL) {
printf("Unable to determine home directory for keystore\n");
exit(1);
}
keystore_name = calloc(1, strlen(home) + strlen(keystore_suffix) + 1);
strcat(keystore_name, home);
strcat(keystore_name, keystore_suffix);
if (0 != ccn_keystore_init(keystore, keystore_name, "Th1s1sn0t8g00dp8ssw0rd.")) {
printf("Failed to initialize keystore\n");
exit(1);
}
printf("Creating signed_info\n");
res = ccn_signed_info_create(signed_info,
/*pubkeyid*/ccn_keystore_public_key_digest(keystore),
/*publisher_key_id_size*/ccn_keystore_public_key_digest_length(keystore),
/*datetime*/NULL,
/*type*/CCN_CONTENT_GONE,
/*freshness*/ 42,
/*finalblockid*/NULL,
/*keylocator*/NULL);
if (res < 0) {
printf("Failed to create signed_info!\n");
}
res = ccn_skeleton_decode(&dd, signed_info->buf, signed_info->length);
if (!(res == signed_info->length && dd.state == 0)) {
printf("Failed to decode signed_info! Result %d State %d\n", (int)res, dd.state);
result = 1;
}
memset(&dd, 0, sizeof(dd));
printf("Done with signed_info\n");
printf("Encoding sample message data length %d\n", (int)strlen(contents[0]));
cur_path = path_create(paths[0]);
if (encode_message(buffer, cur_path, contents[0], strlen(contents[0]), signed_info, ccn_keystore_private_key(keystore))) {
printf("Failed to encode message!\n");
} else {
printf("Encoded sample message length is %d\n", (int)buffer->length);
res = ccn_skeleton_decode(&dd, buffer->buf, buffer->length);
if (!(res == buffer->length && dd.state == 0)) {
printf("Failed to decode! Result %d State %d\n", (int)res, dd.state);
result = 1;
}
if (outname != NULL) {
fd = open(outname, O_WRONLY|O_CREAT|O_TRUNC, S_IRWXU);
if (fd == -1)
perror(outname);
res = write(fd, buffer->buf, buffer->length);
close(fd);
}
if (decode_message(buffer, cur_path, contents[0], strlen(contents[0]), ccn_keystore_public_key(keystore)) != 0) {
result = 1;
}
printf("Expect signature verification failure: ");
if (buffer->length >= 20)
buffer->buf[buffer->length - 20] += 1;
if (decode_message(buffer, cur_path, contents[0], strlen(contents[0]), ccn_keystore_public_key(keystore)) == 0) {
result = 1;
}
}
path_destroy(&cur_path);
ccn_charbuf_destroy(&buffer);
printf("Done with sample message\n");
/* Now exercise as unit tests */
for (i = 0; paths[i] != NULL && contents[i] != NULL; i++) {
printf("Unit test case %d\n", i);
cur_path = path_create(paths[i]);
buffer = ccn_charbuf_create();
if (encode_message(buffer, cur_path, contents[i], strlen(contents[i]), signed_info, ccn_keystore_private_key(keystore))) {
printf("Failed encode\n");
result = 1;
} else if (decode_message(buffer, cur_path, contents[i], strlen(contents[i]), ccn_keystore_public_key(keystore))) {
printf("Failed decode\n");
result = 1;
}
path_destroy(&cur_path);
ccn_charbuf_destroy(&buffer);
}
/* Test the uri encode / decode routines */
init_all_chars_percent_encoded();
const char *uri_tests[] = {
"_+4", "ccnx:/this/is/a/test", "", "ccnx:/this/is/a/test",
".+4", "../test2?x=2", "?x=2", "ccnx:/this/is/a/test2",
"_-X", "../should/error", "", "",
"_+2", "/missing/scheme", "", "ccnx:/missing/scheme",
".+0", "../../../../../././#/", "#/", "ccnx:/",
".+1", all_chars_percent_encoded, "", all_chars_percent_encoded_canon,
"_+1", all_chars_percent_encoded_canon, "", all_chars_percent_encoded_canon,
".+4", "ccnx:/.../.%2e./...././.....///?...", "?...", "ccnx:/.../.../..../.....",
"_-X", "/%3G?bad-pecent-encode", "", "",
"_-X", "/%3?bad-percent-encode", "", "",
"_-X", "/%#bad-percent-encode", "", "",
"_+3", "ccnx://[email protected]:42/ignore/host/part of uri", "", "ccnx:/ignore/host/part%20of%20uri",
NULL, NULL, NULL, NULL
};
const char **u;
struct ccn_charbuf *uri_out = ccn_charbuf_create();
buffer = ccn_charbuf_create();
for (u = uri_tests; *u != NULL; u += 4, i++) {
printf("Unit test case %d\n", i);
if (u[0][0] != '.')
buffer->length = 0;
res = ccn_name_from_uri(buffer, u[1]);
if (!expected_res(res, u[0][1])) {
printf("Failed: ccn_name_from_uri wrong res %d\n", (int)res);
result = 1;
}
if (res >= 0) {
if (res > strlen(u[1])) {
printf("Failed: ccn_name_from_uri long res %d\n", (int)res);
result = 1;
}
else if (0 != strcmp(u[1] + res, u[2])) {
printf("Failed: ccn_name_from_uri expecting leftover '%s', got '%s'\n", u[2], u[1] + res);
result = 1;
}
uri_out->length = 0;
res = ccn_uri_append(uri_out, buffer->buf, buffer->length, 1);
if (!expected_res(res, u[0][2])) {
printf("Failed: ccn_uri_append wrong res %d\n", (int)res);
result = 1;
}
if (res >= 0) {
if (uri_out->length != strlen(u[3])) {
printf("Failed: ccn_uri_append produced wrong number of characters\n");
result = 1;
}
ccn_charbuf_reserve(uri_out, 1)[0] = 0;
if (0 != strcmp((const char *)uri_out->buf, u[3])) {
printf("Failed: ccn_uri_append produced wrong output\n");
printf("Expected: %s\n", u[3]);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
}
}
}
ccn_charbuf_destroy(&buffer);
ccn_charbuf_destroy(&uri_out);
printf("Name marker tests\n");
do {
const char *expected_uri = "ccnx:/example.com/.../%01/%FE/%01%02%03%04%05%06%07%08/%FD%10%10%10%10%1F%FF/%00%81";
const char *expected_chopped_uri = "ccnx:/example.com/.../%01/%FE";
const char *expected_bumped_uri = "ccnx:/example.com/.../%01/%FF";
const char *expected_bumped2_uri = "ccnx:/example.com/.../%01/%00%00";
printf("Unit test case %d\n", i++);
buffer = ccn_charbuf_create();
uri_out = ccn_charbuf_create();
res = ccn_name_init(buffer);
res |= ccn_name_append_str(buffer, "example.com");
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 1);
res |= ccn_name_append_numeric(buffer, 0xFE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0x0102030405060708ULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_VERSION, 0x101010101FFFULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_SEQNUM, 129);
res |= ccn_uri_append(uri_out, buffer->buf, buffer->length, 1);
if (res < 0) {
printf("Failed: name marker tests had negative res\n");
result = 1;
}
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_uri)) {
printf("Failed: name marker tests produced wrong output\n");
printf("Expected: %s\n", expected_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
res = ccn_name_chop(buffer, NULL, 100);
if (res != -1) {
printf("Failed: ccn_name_chop did not produce error \n");
result = 1;
}
res = ccn_name_chop(buffer, NULL, 4);
if (res != 4) {
printf("Failed: ccn_name_chop got wrong length\n");
result = 1;
}
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length, 1);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_chopped_uri)) {
printf("Failed: ccn_name_chop botch\n");
printf("Expected: %s\n", expected_chopped_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
res = ccn_name_next_sibling(buffer);
if (res != 4) {
printf("Failed: ccn_name_next_sibling got wrong length\n");
result = 1;
}
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length, 1);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_bumped_uri)) {
printf("Failed: ccn_name_next_sibling botch\n");
printf("Expected: %s\n", expected_bumped_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
ccn_name_next_sibling(buffer);
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length, 1);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_bumped2_uri)) {
printf("Failed: ccn_name_next_sibling botch\n");
printf("Expected: %s\n", expected_bumped2_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
ccn_charbuf_destroy(&buffer);
ccn_charbuf_destroy(&uri_out);
} while (0);
printf("Message digest tests\n");
do {
printf("Unit test case %d\n", i++);
struct ccn_digest *dg = ccn_digest_create(CCN_DIGEST_SHA256);
if (dg == NULL) {
printf("Failed: ccn_digest_create returned NULL\n");
result = 1;
break;
}
printf("Unit test case %d\n", i++);
const unsigned char expected_digest[] = {
0xb3, 0x82, 0xcd, 0xb0, 0xe9, 0x5d, 0xf7, 0x3b, 0xe7, 0xdc, 0x19, 0x81, 0x3a, 0xfd, 0xdf, 0x89, 0xfb, 0xd4, 0xd4, 0xa0, 0xdb, 0x11, 0xa6, 0xba, 0x24, 0x16, 0x5b, 0xad, 0x9d, 0x90, 0x72, 0xb0
};
unsigned char actual_digest[sizeof(expected_digest)] = {0};
const char *data = "Content-centric";
if (ccn_digest_size(dg) != sizeof(expected_digest)) {
printf("Failed: wrong digest size\n");
result = 1;
break;
}
printf("Unit test case %d\n", i++);
ccn_digest_init(dg);
res = ccn_digest_update(dg, data, strlen(data));
if (res != 0)
printf("Warning: check res %d\n", (int)res);
printf("Unit test case %d\n", i++);
res = ccn_digest_final(dg, actual_digest, sizeof(expected_digest));
if (res != 0)
printf("Warning: check res %d\n", (int)res);
if (0 != memcmp(actual_digest, expected_digest, sizeof(expected_digest))) {
printf("Failed: wrong digest\n");
result = 1;
break;
}
} while (0);
printf("Really basic PRNG test\n");
do {
unsigned char r1[42];
unsigned char r2[42];
printf("Unit test case %d\n", i++);
ccn_add_entropy(&i, sizeof(i), 0); /* Not much entropy, really. */
ccn_random_bytes(r1, sizeof(r1));
memcpy(r2, r1, sizeof(r2));
ccn_random_bytes(r2, sizeof(r2));
if (0 == memcmp(r1, r2, sizeof(r2))) {
printf("Failed: badly broken PRNG\n");
result = 1;
break;
}
} while (0);
printf("Bloom filter tests\n");
do {
unsigned char seed1[4] = "1492";
const char *a[13] = {
"one", "two", "three", "four",
"five", "six", "seven", "eight",
"nine", "ten", "eleven", "twelve",
"thirteen"
};
struct ccn_bloom *b1 = NULL;
struct ccn_bloom *b2 = NULL;
int j, k, t1, t2;
unsigned short us;
printf("Unit test case %d\n", i++);
b1 = ccn_bloom_create(13, seed1);
for (j = 0; j < 13; j++)
if (ccn_bloom_match(b1, a[j], strlen(a[j]))) break;
if (j < 13) {
printf("Failed: \"%s\" matched empty Bloom filter\n", a[j]);
result = 1;
break;
}
printf("Unit test case %d\n", i++);
for (j = 0; j < 13; j++)
ccn_bloom_insert(b1, a[j], strlen(a[j]));
for (j = 0; j < 13; j++)
if (!ccn_bloom_match(b1, a[j], strlen(a[j]))) break;
if (j < 13) {
printf("Failed: \"%s\" not found when it should have been\n", a[j]);
result = 1;
break;
}
printf("Unit test case %d\n", i++);
for (j = 0, k = 0; j < 13; j++)
if (ccn_bloom_match(b1, a[j]+1, strlen(a[j]+1)))
k++;
if (k > 0) {
printf("Mmm, found %d false positives\n", k);
if (k > 2) {
result = 1;
break;
}
}
unsigned char seed2[5] = "aqfb\0";
for (; seed2[3] <= 'f'; seed2[3]++) {
printf("Unit test case %d (%4s) ", i++, seed2);
b2 = ccn_bloom_create(13, seed2);
for (j = 0; j < 13; j++)
ccn_bloom_insert(b2, a[j], strlen(a[j]));
for (j = 0, k = 0, us = ~0; us > 0; us--) {
t1 = ccn_bloom_match(b1, &us, sizeof(us));
t2 = ccn_bloom_match(b2, &us, sizeof(us));
j += (t1 | t2);
k += (t1 & t2);
}
printf("either=%d both=%d wiresize=%d\n", j, k, ccn_bloom_wiresize(b1));
if (k > 12) {
printf("Failed: Bloom seeding may not be effective\n");
result = 1;
}
ccn_bloom_destroy(&b2);
}
ccn_bloom_destroy(&b1);
} while (0);
printf("ccn_sign_content() tests\n");
do {
struct ccn *h = ccn_create();
struct ccn_charbuf *co = ccn_charbuf_create();
struct ccn_signing_params sparm = CCN_SIGNING_PARAMS_INIT;
struct ccn_parsed_ContentObject pco = {0};
struct ccn_charbuf *name = ccn_charbuf_create();
printf("Unit test case %d\n", i++);
ccn_name_from_uri(name, "ccnx:/test/data/%00%42");
res = ccn_sign_content(h, co, name, NULL, "DATA", 4);
if (res != 0) {
printf("Failed: res == %d\n", (int)res);
result = 1;
}
sparm.template_ccnb = ccn_charbuf_create();
res = ccn_parse_ContentObject(co->buf, co->length, &pco, NULL);
if (res != 0) {
printf("Failed: ccn_parse_ContentObject res == %d\n", (int)res);
result = 1;
break;
}
ccn_charbuf_append(sparm.template_ccnb,
co->buf + pco.offset[CCN_PCO_B_SignedInfo],
pco.offset[CCN_PCO_E_SignedInfo] - pco.offset[CCN_PCO_B_SignedInfo]);
sparm.sp_flags = CCN_SP_TEMPL_TIMESTAMP;
printf("Unit test case %d\n", i++);
res = ccn_sign_content(h, co, name, &sparm, "DATA", 4);
if (res != 0) {
printf("Failed: res == %d\n", (int)res);
result = 1;
}
printf("Unit test case %d\n", i++);
sparm.sp_flags = -1;
res = ccn_sign_content(h, co, name, &sparm, "DATA", 4);
if (res != -1) {
printf("Failed: res == %d\n", (int)res);
result = 1;
}
ccn_charbuf_destroy(&name);
ccn_charbuf_destroy(&sparm.template_ccnb);
ccn_charbuf_destroy(&co);
ccn_destroy(&h);
} while (0);
printf("link tests\n");
do {
struct ccn_charbuf *l = ccn_charbuf_create();
struct ccn_charbuf *name = ccn_charbuf_create();
struct ccn_parsed_Link pl = {0};
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d;
struct ccn_indexbuf *comps = ccn_indexbuf_create();
printf("Unit test case %d\n", i++);
ccn_name_from_uri(name, "ccnx:/test/link/name");
ccnb_append_Link(l, name, "label", NULL);
d = ccn_buf_decoder_start(&decoder, l->buf, l->length);
res = ccn_parse_Link(d, &pl, comps);
if (res != 3 /* components in name */) {
printf("Failed: ccn_parse_Link res == %d\n", (int)res);
result = 1;
}
} while (0);
exit(result);
}
int
main(int argc, char *argv[])
{
struct ccn_charbuf *buffer;
struct ccn_charbuf *signed_info = ccn_charbuf_create();
struct ccn_skeleton_decoder dd = {0};
ssize_t res;
char *outname = NULL;
int result = 0;
char * contents[] = {"INVITE sip:[email protected] SIP/2.0\nVia: SIP/2.0/UDP 127.0.0.1:5060;rport;branch=z9hG4bK519044721\nFrom: <sip:[email protected]>;tag=2105643453\nTo: Test User <sip:[email protected]>\nCall-ID: [email protected]\nCSeq: 20 INVITE\nContact: <sip:[email protected]:5060>\nMax-Forwards: 70\nUser-Agent: Linphone-1.7.1/eXosip\nSubject: Phone call\nExpires: 120\nAllow: INVITE, ACK, CANCEL, BYE, OPTIONS, REFER, SUBSCRIBE, NOTIFY, MESSAGE\nContent-Type: application/sdp\nContent-Length: 448\n\nv=0\no=jthornto 123456 654321 IN IP4 127.0.0.1\ns=A conversation\nc=IN IP4 127.0.0.1\nt=0 0\nm=audio 7078 RTP/AVP 111 110 0 3 8 101\na=rtpmap:111 speex/16000/1\na=rtpmap:110 speex/8000/1\na=rtpmap:0 PCMU/8000/1\na=rtpmap:3 GSM/8000/1\na=rtpmap:8 PCMA/8000/1\na=rtpmap:101 telephone-event/8000\na=fmtp:101 0-11\nm=video 9078 RTP/AVP 97 98 99\na=rtpmap:97 theora/90000\na=rtpmap:98 H263-1998/90000\na=fmtp:98 CIF=1;QCIF=1\na=rtpmap:99 MP4V-ES/90000\n",
"Quaer #%2d zjduer badone",
"",
NULL};
char * paths[] = { "/sip/protocol/parc.com/domain/foo/principal/invite/verb/[email protected]/id",
"/d/e/f",
"/zero/length/content",
NULL};
struct path * cur_path = NULL;
struct ccn_keystore *keystore = ccn_keystore_create();
struct ccn_keystore *aes_keystore = ccn_aes_keystore_create();
char *keystore_name = NULL;
char *keystore_password = NULL;
char *aes_keystore_name = NULL;
unsigned char keybuf[32];
int i;
while ((i = getopt(argc, argv, "a:k:p:o:")) != -1) {
switch (i) {
case 'a':
aes_keystore_name = optarg;
break;
case 'k':
keystore_name = optarg;
break;
case 'p':
keystore_password = optarg;
break;
case 'o':
outname = optarg;
break;
default:
printf("Usage: %s [-k <keystore>] [-o <outfilename>]\n", argv[0]);
exit(1);
}
}
if (keystore_name == NULL)
keystore_name = "test.keystore";
if (aes_keystore_name == NULL)
aes_keystore_name = "test.aeskeystore";
if (keystore_password == NULL)
keystore_password = "******";
res = ccn_keystore_init(keystore, keystore_name, keystore_password);
if (res != 0) {
printf ("Initializing keystore in %s\n", keystore_name);
res = ccn_keystore_file_init(keystore_name, keystore_password,
"ccnxuser", 0, 3650);
if (res != 0) {
fprintf (stderr, "Cannot create keystore [%s]", keystore_name);
return res;
}
res = ccn_keystore_init(keystore, keystore_name, keystore_password);
if (res != 0) {
printf("Failed to initialize keystore\n");
exit(1);
}
}
res = ccn_aes_keystore_init(aes_keystore, aes_keystore_name, keystore_password);
if (res != 0) {
printf ("Initializing AES keystore in %s\n", aes_keystore_name);
ccn_generate_symmetric_key(keybuf, 256);
res = ccn_aes_keystore_file_init(aes_keystore_name, keystore_password, keybuf, 256);
if (res != 0) {
fprintf (stderr, "Cannot create keystore [%s]", keystore_name);
return res;
}
res = ccn_aes_keystore_init(aes_keystore, aes_keystore_name, keystore_password);
if (res != 0) {
printf("Failed to initialize keystore\n");
exit(1);
}
}
printf("Creating signed_info\n");
res = ccn_signed_info_create(signed_info,
/*pubkeyid*/ccn_keystore_key_digest(keystore),
/*publisher_key_id_size*/ccn_keystore_key_digest_length(keystore),
/*timestamp*/NULL,
/*type*/CCN_CONTENT_GONE,
/*freshness*/ 42,
/*finalblockid*/NULL,
/*keylocator*/NULL);
if (res < 0) {
printf("Failed to create signed_info!\n");
}
res = ccn_skeleton_decode(&dd, signed_info->buf, signed_info->length);
if (!(res == signed_info->length && dd.state == 0)) {
printf("Failed to decode signed_info! Result %d State %d\n", (int)res, dd.state);
result = 1;
}
memset(&dd, 0, sizeof(dd));
printf("Done with signed_info\n");
result = encode_sample_test(ccn_keystore_key(keystore), ccn_keystore_public_key(keystore),
ccn_keystore_digest_algorithm(keystore), paths, contents, signed_info, outname);
if (! result) {
result = encode_sample_test(ccn_keystore_key(aes_keystore), ccn_keystore_key(aes_keystore),
ccn_keystore_digest_algorithm(aes_keystore),
paths, contents, signed_info, outname);
}
/* Now exercise as unit tests */
for (i = 0; paths[i] != NULL && contents[i] != NULL; i++) {
printf("Unit test case %d\n", i);
cur_path = path_create(paths[i]);
buffer = ccn_charbuf_create();
if (encode_message(buffer, cur_path, contents[i], strlen(contents[i]), signed_info,
ccn_keystore_key(keystore), ccn_keystore_digest_algorithm(keystore))) {
printf("Failed encode\n");
result = 1;
} else if (decode_message(buffer, cur_path, contents[i], strlen(contents[i]),
ccn_keystore_public_key(keystore))) {
printf("Failed decode\n");
result = 1;
}
ccn_charbuf_destroy(&buffer);
buffer = ccn_charbuf_create();
if (encode_message(buffer, cur_path, contents[i], strlen(contents[i]), signed_info,
ccn_keystore_key(aes_keystore), ccn_keystore_digest_algorithm(aes_keystore))) {
printf("Failed encode\n");
result = 1;
} else if (decode_message(buffer, cur_path, contents[i], strlen(contents[i]), ccn_keystore_key(aes_keystore))) {
printf("Failed decode\n");
result = 1;
}
path_destroy(&cur_path);
ccn_charbuf_destroy(&buffer);
}
/* Test the uri encode / decode routines */
init_all_chars_percent_encoded();
init_all_chars_mixed_encoded();
const char *uri_tests[] = {
"_+4", "ccnx:/this/is/a/test", "", "ccnx:/this/is/a/test",
".+4", "../test2?x=2", "?x=2", "ccnx:/this/is/a/test2",
"_-X", "../should/error", "", "",
"_+2", "/missing/scheme", "", "ccnx:/missing/scheme",
".+0", "../../../../../././#/", "#/", "ccnx:/",
".+1", all_chars_percent_encoded, "", all_chars_percent_encoded_canon,
"_+1", all_chars_percent_encoded_canon, "", all_chars_percent_encoded_canon,
".+4", "ccnx:/.../.%2e./...././.....///?...", "?...", "ccnx:/.../.../..../.....",
"_-X", "/%3G?bad-pecent-encode", "", "",
"_-X", "/%3?bad-percent-encode", "", "",
"_-X", "/%#bad-percent-encode", "", "",
"_+3", "ccnx://[email protected]:42/ignore/host/part of uri", "", "ccnx:/ignore/host/part%20of%20uri",
NULL, NULL, NULL, NULL
};
const char **u;
struct ccn_charbuf *uri_out = ccn_charbuf_create();
buffer = ccn_charbuf_create();
for (u = uri_tests; *u != NULL; u += 4, i++) {
printf("Unit test case %d\n", i);
if (u[0][0] != '.')
buffer->length = 0;
res = ccn_name_from_uri(buffer, u[1]);
if (!expected_res(res, u[0][1])) {
printf("Failed: ccn_name_from_uri wrong res %d\n", (int)res);
result = 1;
}
if (res >= 0) {
if (res > strlen(u[1])) {
printf("Failed: ccn_name_from_uri long res %d\n", (int)res);
result = 1;
}
else if (0 != strcmp(u[1] + res, u[2])) {
printf("Failed: ccn_name_from_uri expecting leftover '%s', got '%s'\n", u[2], u[1] + res);
result = 1;
}
uri_out->length = 0;
res = ccn_uri_append(uri_out, buffer->buf, buffer->length,
CCN_URI_PERCENTESCAPE | CCN_URI_INCLUDESCHEME);
if (!expected_res(res, u[0][2])) {
printf("Failed: ccn_uri_append wrong res %d\n", (int)res);
result = 1;
}
if (res >= 0) {
if (uri_out->length != strlen(u[3])) {
printf("Failed: ccn_uri_append produced wrong number of characters\n");
result = 1;
}
ccn_charbuf_reserve(uri_out, 1)[0] = 0;
if (0 != strcmp((const char *)uri_out->buf, u[3])) {
printf("Failed: ccn_uri_append produced wrong output\n");
printf("Expected: %s\n", u[3]);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
}
}
}
ccn_charbuf_destroy(&buffer);
ccn_charbuf_destroy(&uri_out);
printf("Name marker tests\n");
do {
const char *expected_uri = "ccnx:/example.com/.../%01/%FE/%01%02%03%04%05%06%07%08/%FD%10%10%10%10%1F%FF/%00%81";
const char *expected_chopped_uri = "ccnx:/example.com/.../%01/%FE";
const char *expected_bumped_uri = "ccnx:/example.com/.../%01/%FF";
const char *expected_bumped2_uri = "ccnx:/example.com/.../%01/%00%00";
printf("Unit test case %d\n", i++);
buffer = ccn_charbuf_create();
uri_out = ccn_charbuf_create();
res = ccn_name_init(buffer);
res |= ccn_name_append_str(buffer, "example.com");
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 1);
res |= ccn_name_append_numeric(buffer, 0xFE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0x0102030405060708ULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_VERSION, 0x101010101FFFULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_SEQNUM, 129);
res |= ccn_uri_append(uri_out, buffer->buf, buffer->length,
CCN_URI_PERCENTESCAPE | CCN_URI_INCLUDESCHEME);
if (res < 0) {
printf("Failed: name marker tests had negative res\n");
result = 1;
}
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_uri)) {
printf("Failed: name marker tests produced wrong output\n");
printf("Expected: %s\n", expected_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
res = ccn_name_chop(buffer, NULL, 100);
if (res != -1) {
printf("Failed: ccn_name_chop did not produce error \n");
result = 1;
}
res = ccn_name_chop(buffer, NULL, 4);
if (res != 4) {
printf("Failed: ccn_name_chop got wrong length\n");
result = 1;
}
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length, CCN_URI_INCLUDESCHEME);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_chopped_uri)) {
printf("Failed: ccn_name_chop botch\n");
printf("Expected: %s\n", expected_chopped_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
res = ccn_name_next_sibling(buffer);
if (res != 4) {
printf("Failed: ccn_name_next_sibling got wrong length\n");
result = 1;
}
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length, CCN_URI_INCLUDESCHEME);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_bumped_uri)) {
printf("Failed: ccn_name_next_sibling botch\n");
printf("Expected: %s\n", expected_bumped_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
ccn_name_next_sibling(buffer);
uri_out->length = 0;
ccn_uri_append(uri_out, buffer->buf, buffer->length,
CCN_URI_PERCENTESCAPE | CCN_URI_INCLUDESCHEME);
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_bumped2_uri)) {
printf("Failed: ccn_name_next_sibling botch\n");
printf("Expected: %s\n", expected_bumped2_uri);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
ccn_charbuf_destroy(&buffer);
ccn_charbuf_destroy(&uri_out);
} while (0);
do {
const char *expected_uri_mixed = "ccnx:/example.com/.../%01/%FE/=0102030405060708/=FD101010101FFF/=0081";
printf("Unit test case %d\n", i++);
buffer = ccn_charbuf_create();
uri_out = ccn_charbuf_create();
res = ccn_name_init(buffer);
res |= ccn_name_append_str(buffer, "example.com");
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 1);
res |= ccn_name_append_numeric(buffer, 0xFE, 0);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_NONE, 0x0102030405060708ULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_VERSION, 0x101010101FFFULL);
res |= ccn_name_append_numeric(buffer, CCN_MARKER_SEQNUM, 129);
res |= ccn_uri_append(uri_out, buffer->buf, buffer->length,
CCN_URI_MIXEDESCAPE | CCN_URI_INCLUDESCHEME);
if (res < 0) {
printf("Failed: name marker tests had negative res\n");
result = 1;
}
if (0 != strcmp(ccn_charbuf_as_string(uri_out), expected_uri_mixed)) {
printf("Failed: name marker tests produced wrong output\n");
printf("Expected: %s\n", expected_uri_mixed);
printf(" Actual: %s\n", (const char *)uri_out->buf);
result = 1;
}
ccn_charbuf_destroy(&buffer);
ccn_charbuf_destroy(&uri_out);
} while (0);
printf("Empty component encoding test\n");
do {
struct ccn_charbuf *name = ccn_charbuf_create();
struct ccn_charbuf *expected_encoding = ccn_charbuf_create();
/* manually create an encoding of <Name><Component/></Name> to ensure
* that the regular encoders do not create a 0-length blob as part of
* the empty component.
*/
ccnb_element_begin(expected_encoding, CCN_DTAG_Name);
ccnb_element_begin(expected_encoding, CCN_DTAG_Component);
ccnb_element_end(expected_encoding);
ccnb_element_end(expected_encoding);
ccn_name_from_uri(name, "ccnx:/...");
if (expected_encoding->length != name->length) {
printf("Failed: encoding length %u but expected %u\n", (unsigned) name->length,
(unsigned)expected_encoding->length);
result = 1;
}
for (i = 0; i < expected_encoding->length; i++) {
if (expected_encoding->buf[i] != name->buf[i]) {
printf("Failed: encoding mismatch at %d, got %d but expected %d\n",
i, name->buf[i], expected_encoding->buf[i]);
result = 1;
}
}
} while (0);
printf("Timestamp tests\n");
do {
intmax_t sec;
int nsec;
int r;
int f;
struct ccn_charbuf *a[2];
int t0 = 1363899678;
printf("Unit test case %d\n", i++);
/* Run many increasing inputs and make sure the output is in order. */
a[0] = ccn_charbuf_create();
a[1] = ccn_charbuf_create();
ccnb_append_timestamp_blob(a[1], CCN_MARKER_NONE, t0 - 1, 0);
for (f = 0, nsec = 0, sec = t0; sec < t0 + 20; nsec += 122099) {
while (nsec >= 1000000000) {
sec++;
nsec -= 1000000000;
}
ccn_charbuf_reset(a[f]);
r = ccnb_append_timestamp_blob(a[f], CCN_MARKER_NONE, sec, nsec);
if (r != 0 || a[f]->length != 7 || memcmp(a[1-f]->buf, a[f]->buf, 6) > 0) {
printf("Failed ccnb_append_timestamp_blob(...,%jd,%d)\n", sec, nsec);
result = 1;
}
f = 1 - f;
}
ccn_charbuf_destroy(&a[0]);
ccn_charbuf_destroy(&a[1]);
} while (0);
printf("Message digest tests\n");
do {
printf("Unit test case %d\n", i++);
struct ccn_digest *dg = ccn_digest_create(CCN_DIGEST_SHA256);
if (dg == NULL) {
printf("Failed: ccn_digest_create returned NULL\n");
result = 1;
break;
}
printf("Unit test case %d\n", i++);
const unsigned char expected_digest[] = {
0xb3, 0x82, 0xcd, 0xb0, 0xe9, 0x5d, 0xf7, 0x3b, 0xe7, 0xdc, 0x19, 0x81, 0x3a, 0xfd, 0xdf, 0x89, 0xfb, 0xd4, 0xd4, 0xa0, 0xdb, 0x11, 0xa6, 0xba, 0x24, 0x16, 0x5b, 0xad, 0x9d, 0x90, 0x72, 0xb0
};
unsigned char actual_digest[sizeof(expected_digest)] = {0};
const char *data = "Content-centric";
if (ccn_digest_size(dg) != sizeof(expected_digest)) {
printf("Failed: wrong digest size\n");
result = 1;
break;
}
printf("Unit test case %d\n", i++);
ccn_digest_init(dg);
res = ccn_digest_update(dg, data, strlen(data));
if (res != 0)
printf("Warning: check res %d\n", (int)res);
printf("Unit test case %d\n", i++);
res = ccn_digest_final(dg, actual_digest, sizeof(expected_digest));
if (res != 0)
printf("Warning: check res %d\n", (int)res);
if (0 != memcmp(actual_digest, expected_digest, sizeof(expected_digest))) {
printf("Failed: wrong digest\n");
result = 1;
break;
}
} while (0);
printf("Really basic PRNG test\n");
do {
unsigned char r1[42];
unsigned char r2[42];
printf("Unit test case %d\n", i++);
ccn_add_entropy(&i, sizeof(i), 0); /* Not much entropy, really. */
ccn_random_bytes(r1, sizeof(r1));
memcpy(r2, r1, sizeof(r2));
ccn_random_bytes(r2, sizeof(r2));
if (0 == memcmp(r1, r2, sizeof(r2))) {
printf("Failed: badly broken PRNG\n");
result = 1;
break;
}
} while (0);
printf("Bloom filter tests\n");
do {
unsigned char seed1[4] = "1492";
const char *a[13] = {
"one", "two", "three", "four",
"five", "six", "seven", "eight",
"nine", "ten", "eleven", "twelve",
"thirteen"
};
struct ccn_bloom *b1 = NULL;
struct ccn_bloom *b2 = NULL;
int j, k, t1, t2;
unsigned short us;
printf("Unit test case %d\n", i++);
b1 = ccn_bloom_create(13, seed1);
for (j = 0; j < 13; j++)
if (ccn_bloom_match(b1, a[j], strlen(a[j]))) break;
if (j < 13) {
printf("Failed: \"%s\" matched empty Bloom filter\n", a[j]);
result = 1;
break;
}
printf("Unit test case %d\n", i++);
for (j = 0; j < 13; j++)
ccn_bloom_insert(b1, a[j], strlen(a[j]));
for (j = 0; j < 13; j++)
if (!ccn_bloom_match(b1, a[j], strlen(a[j]))) break;
if (j < 13) {
printf("Failed: \"%s\" not found when it should have been\n", a[j]);
result = 1;
break;
}
printf("Unit test case %d\n", i++);
for (j = 0, k = 0; j < 13; j++)
if (ccn_bloom_match(b1, a[j]+1, strlen(a[j]+1)))
k++;
if (k > 0) {
printf("Mmm, found %d false positives\n", k);
if (k > 2) {
result = 1;
break;
}
}
unsigned char seed2[5] = "aqfb\0";
for (; seed2[3] <= 'f'; seed2[3]++) {
printf("Unit test case %d (%4s) ", i++, seed2);
b2 = ccn_bloom_create(13, seed2);
for (j = 0; j < 13; j++)
ccn_bloom_insert(b2, a[j], strlen(a[j]));
for (j = 0, k = 0, us = ~0; us > 0; us--) {
t1 = ccn_bloom_match(b1, &us, sizeof(us));
t2 = ccn_bloom_match(b2, &us, sizeof(us));
j += (t1 | t2);
k += (t1 & t2);
}
printf("either=%d both=%d wiresize=%d\n", j, k, ccn_bloom_wiresize(b1));
if (k > 12) {
printf("Failed: Bloom seeding may not be effective\n");
result = 1;
}
ccn_bloom_destroy(&b2);
}
ccn_bloom_destroy(&b1);
} while (0);
printf("ccn_sign_content() tests\n");
do {
struct ccn *h = ccn_create();
int res;
res = unit_tests_for_signing(h, &i, 0);
if (res == 1)
result = 1;
printf("Unit test case %d\n", i++);
ccn_destroy(&h);
} while (0);
do {
struct ccn *h = ccn_create();
int res;
res = ccn_load_default_key(h, aes_keystore_name, keystore_password);
if (res < 0) {
result = 1;
printf("Failed: res == %d\n", (int)res);
} else
res = unit_tests_for_signing(h, &i, 1);
if (res == 1)
result = 1;
printf("Unit test case %d\n", i++);
ccn_destroy(&h);
} while (0);
printf("link tests\n");
printf("link tests\n");
do {
struct ccn_charbuf *l = ccn_charbuf_create();
struct ccn_charbuf *name = ccn_charbuf_create();
struct ccn_parsed_Link pl = {0};
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d;
struct ccn_indexbuf *comps = ccn_indexbuf_create();
printf("Unit test case %d\n", i++);
ccn_name_from_uri(name, "ccnx:/test/link/name");
ccnb_append_Link(l, name, "label", NULL);
d = ccn_buf_decoder_start(&decoder, l->buf, l->length);
res = ccn_parse_Link(d, &pl, comps);
if (res != 3 /* components in name */) {
printf("Failed: ccn_parse_Link res == %d\n", (int)res);
result = 1;
}
} while (0);
exit(result);
}
int main(int argc, char** argv) {
int res = 0;
struct ccn* ccn_pub;
struct ccn* ccn_rec;
// Will hold the public/private key used for signing
struct ccn_pkey* public_key = NULL;
struct ccn_pkey* private_key = NULL;
int complete=0;
int outstanding_interests=0;
// We need two ccn handles because the same handle cannot be used
// to answer interests it issues.
//
ccn_pub = ccn_create();
if (ccn_connect(ccn_pub, NULL) == -1) {
fprintf(stderr, "Could not connect to ccnd");
return(1);
}
ccn_rec = ccn_create();
if (ccn_connect(ccn_rec, NULL) == -1) {
fprintf(stderr, "Could not connect to ccnd");
return(1);
}
// Closure to handle upcalls
struct ccn_closure *cl = NULL;
cl = (struct ccn_closure*) calloc(1, sizeof(struct ccn_closure));
cl->p = &packet_handler;
handler_data h_data = { &complete, &outstanding_interests, &public_key, &ccn_pub, &ccn_rec};
cl->data = &h_data;
// Setup our one test name without signature
// The nonce here is just a random string, to avoid content store caching
struct ccn_charbuf* name;
name = ccn_charbuf_create();
ccn_name_from_uri(name, TEST_URI);
ccn_name_append_nonce(name);
fprintf(stderr, "Our name: %s/<nonce>\n", TEST_URI);
// Set up a filter for interests in that name
res = ccn_set_interest_filter(ccn_pub, name, cl);
if (res < 0) {
fprintf(stderr, "Failed to register interest (res == %d)\n", res);
return(1);
}
// Get our default keys -- Why do we have to do all this work??
// Borrowed from ccn_client.c
struct ccn_signing_params name_sp = CCN_SIGNING_PARAMS_INIT;
struct ccn_signing_params p = CCN_SIGNING_PARAMS_INIT;
struct ccn_keystore *keystore = NULL;
struct ccn_charbuf *timestamp = NULL;
struct ccn_charbuf *finalblockid = NULL;
struct ccn_charbuf *keylocator = NULL;
unsigned char* public_key_digest = NULL;
size_t public_key_digest_length = 0;
res = ccn_chk_signing_params(ccn_pub, &name_sp, &p, ×tamp, &finalblockid, &keylocator);
if (res < 0)
return(res);
// For this test, use our default signing keys
get_default_keys(ccn_pub, &p, &keystore,
&public_key, &public_key_digest, &public_key_digest_length, &private_key);
// We'll need a KeyLocator for our ContentObject
// So continue borrowed code
/* Construct a key locator containing the key itself */
build_keylocator_from_key(&keylocator, public_key);
// And a SignedInfo too
struct ccn_charbuf *signed_info = ccn_charbuf_create();
res = ccn_signed_info_create(signed_info,
public_key_digest,
public_key_digest_length,
timestamp,
p.type,
p.freshness,
0, /* FinalBlockID is optional */
keylocator);
// * Test using interests for a name that has one more component than our registered prefix
// This is more representative of real apps...
// 20-May-2011
ccn_name_append_str(name, "some stuff in a name component");
ccn_name_append_nonce(name);
ccn_name_append_nonce(name);
// Sign the interest
struct ccn_charbuf *name_signed = ccn_charbuf_create();
sign_interest(name_signed, name, signed_info, NULL /* default digest alg */, private_key);
// Express the signed interest from a different ccn handle so we get the packet
res = ccn_express_interest(ccn_rec, name_signed, cl, NULL); // TODO: AnswerOriginKind could limit to signed interest?
outstanding_interests++;
// Express an interest with an incorrect namespace
struct ccn_charbuf *name_signed_copy = ccn_charbuf_create();
ccn_charbuf_append_charbuf(name_signed_copy, name_signed);
size_t k = name->length + 10; // Seek into the namespace part of the buffer
name_signed_copy->buf[k] = name_signed_copy->buf[k] + 1;
res = ccn_express_interest(ccn_rec, name_signed_copy, cl, NULL); // TODO: AnswerOriginKind could limit to signed interest?
outstanding_interests++;
// Express an interest with bogus signature
name_signed_copy = ccn_charbuf_create();
ccn_charbuf_append_charbuf(name_signed_copy, name_signed);
k = name->length + 30; // Seek into the signature part of the buffer
name_signed_copy->buf[k] = name_signed_copy->buf[k] + 1;
res = ccn_express_interest(ccn_rec, name_signed_copy, cl, NULL); // TODO: AnswerOriginKind could limit to signed interest?
outstanding_interests++;
if (res < 0) {
fprintf(stderr, "Error expressing interest (res == %d)\n", res);
}
cl = NULL; // freed by ccn?
while(!complete && outstanding_interests>0) {
// Not sure how to handle two ccn_runs?
ccn_run(ccn_rec, 100); /* stop if we run dry for .1 sec */
ccn_run(ccn_pub, 100); /* stop if we run dry for .1 sec */
fflush(stdout);
}
ccn_charbuf_destroy(×tamp);
ccn_charbuf_destroy(&keylocator);
ccn_charbuf_destroy(&finalblockid);
ccn_charbuf_destroy(&signed_info);
ccn_charbuf_destroy(&name);
ccn_charbuf_destroy(&name_signed);
ccn_charbuf_destroy(&name_signed_copy);
ccn_destroy(&ccn_pub);
ccn_destroy(&ccn_rec);
fflush(stderr);
return(0);
}
int NdnMediaProcess::ndnDataSend(const void *buf, size_t len)
{
#define CHARBUF_DESTROY \
ccn_charbuf_destroy(&message);\
ccn_charbuf_destroy(&path); \
ccn_charbuf_destroy(&seq);
UserDataBuf *userBuf = localUdb;
if (userBuf == NULL)
return -1;
int res = 0;
int seq_num = -1;
struct ccn_charbuf *message = ccn_charbuf_create();
struct ccn_charbuf *path = ccn_charbuf_create();
struct ccn_charbuf *seq = ccn_charbuf_create();
unsigned char *ccn_msg = NULL;
size_t ccn_msg_size = 0;
ccn_name_init(path);
seq_num = localSeq++;
ccn_name_from_uri(path, localUdb->user_name.toLocal8Bit().constData());
ccn_name_append_str(path, "audio");
if (seq_num < 0) {
res = -1;
CHARBUF_DESTROY;
return res;
}
ccn_charbuf_putf(seq, "%ld", seq_num);
ccn_name_append(path, seq->buf, seq->length);
struct ccn_charbuf *signed_info = ccn_charbuf_create();
if (cached_keystore == NULL)
init_cached_keystore();
ccn_charbuf *keylocator = ccn_charbuf_create();
ccn_create_keylocator(keylocator, ccn_keystore_public_key(cached_keystore));
/* Create signed_info */
res = ccn_signed_info_create(signed_info,
/* pubkeyid */ get_my_publisher_key_id(),
/* publisher_key_id_size */ get_my_publisher_key_id_length(),
/* datetime */ NULL,
/* type */ CCN_CONTENT_DATA,
/* freshness */ FRESHNESS,
/* finalblockid */ NULL,
/* keylocator */ keylocator);
if (res != 0) {
fprintf(stderr, "signed_info_create failed %d (line %d)\n", res, __LINE__);
}
if (isPrivate) {
unsigned char *enc_buf = NULL;
size_t enc_len = 0;
res = symEncrypt(sessionKey, NULL, (const unsigned char *)buf, len, &enc_buf, &enc_len, AES_BLOCK_SIZE);
if (res != 0) {
fprintf(stderr, "can not decrypt audio\n");
std::exit(1);
}
res = ccn_encode_ContentObject( /* out */ message,
path,
signed_info,
enc_buf, enc_len,
/* keyLocator */ NULL, get_my_private_key());
if (enc_buf != NULL) {
free(enc_buf);
enc_buf = NULL;
}
} else {
res = ccn_encode_ContentObject( /* out */ message,
path,
signed_info,
buf, len,
/* keyLocator */ NULL, get_my_private_key());
}
if (res != 0) {
fprintf(stderr, "encode_ContentObject failed %d (line %d)\n", res, __LINE__);
CHARBUF_DESTROY;
return res;
}
ccn_charbuf_destroy(&signed_info);
ccn_charbuf_destroy(&keylocator);
ccn_msg = (unsigned char *)calloc(1, message->length);
ccn_msg_size = message->length;
memcpy(ccn_msg, message->buf, message->length);
/*
{ struct ccn_parsed_ContentObject o = {0};
res = ccn_parse_ContentObject(ccn_msg, ccn_msg_size, &o, NULL);
if (res < 0) {
fprintf(stderr, "created bad ContentObject, res = %d\n", res);
abort();
}
}
*/
struct buf_list *p = NULL, *b = userBuf->data_buf.buflist;
while (b != NULL) { p = b; b = b->link; }
b = (struct buf_list*)calloc(1, sizeof(struct buf_list));
if (b == NULL) {
CHARBUF_DESTROY;
return -1;
}
if (p != NULL)
p->link = b;
else userBuf->data_buf.buflist = b;
b->buf = ccn_msg;
b->len = ccn_msg_size;
b->link = NULL;
CHARBUF_DESTROY;
return res;
}
int NdnMediaProcess::sendNdnText(const char *text) {
#define CHARBUF_DESTROY \
ccn_charbuf_destroy(&message);\
ccn_charbuf_destroy(&path); \
ccn_charbuf_destroy(&seq);
UserDataBuf *userBuf = localUdb;
if (userBuf == NULL)
return -1;
int res = 0;
int seq_num = -1;
struct ccn_charbuf *message = ccn_charbuf_create();
struct ccn_charbuf *path = ccn_charbuf_create();
struct ccn_charbuf *seq = ccn_charbuf_create();
ccn_name_init(path);
seq_num = textSeq++;
ccn_name_from_uri(path, localUdb->user_name.toLocal8Bit().constData());
ccn_name_append_str(path, "text");
if (seq_num < 0) {
res = -1;
CHARBUF_DESTROY;
return res;
}
ccn_charbuf_putf(seq, "%ld", seq_num);
ccn_name_append(path, seq->buf, seq->length);
struct ccn_charbuf *signed_info = ccn_charbuf_create();
if (cached_keystore == NULL)
init_cached_keystore();
ccn_charbuf *keylocator = ccn_charbuf_create();
ccn_create_keylocator(keylocator, ccn_keystore_public_key(cached_keystore));
/* Create signed_info */
res = ccn_signed_info_create(signed_info,
/* pubkeyid */ get_my_publisher_key_id(),
/* publisher_key_id_size */ get_my_publisher_key_id_length(),
/* datetime */ NULL,
/* type */ CCN_CONTENT_DATA,
/* freshness */ FRESHNESS,
/* finalblockid */ NULL,
/* keylocator */ keylocator);
if (res != 0) {
fprintf(stderr, "signed_info_create failed %d (line %d)\n", res, __LINE__);
}
res = ccn_encode_ContentObject( /* out */ message,
path,
signed_info,
text, strlen(text),
/* keyLocator */ NULL, get_my_private_key());
if (res != 0) {
fprintf(stderr, "encode_ContentObject failed %d (line %d)\n", res, __LINE__);
CHARBUF_DESTROY;
return res;
}
ccn_charbuf_destroy(&signed_info);
ccn_charbuf_destroy(&keylocator);
pthread_mutex_lock(&ccn_mutex);
res = ccn_put(ndnState.ccn, message->buf, message->length);
pthread_mutex_unlock(&ccn_mutex);
}
int main(void)
{
int res =0;
struct ccn *ccn = NULL;
struct ccn_charbuf *name = NULL;
struct ccn_closure *incoming;
//char URI[1024] = "";
name = ccn_charbuf_create();
//char *URI;
//URI = (char *) malloc(1024*sizeof(char));
/*
char URI[1024] = "";
printf("Please enter your light control interest command:");
scanf("%s", URI);
printf("The light control interest command is: %s\n", URI);
*/
res = ccn_name_from_uri(name, URI);
if (res < 0) {
fprintf(stderr, "bad ccn URI: %s\n", URI);
exit(1);
} else {
fprintf(stdout, "ccn URI ok: %s\n", URI);
}
//from test_signed_interest.c
struct ccn* ccn_pub;
struct ccn* ccn_rec;
// Will hold the public/private key used for signing
struct ccn_pkey* public_key = NULL;
struct ccn_pkey* private_key = NULL;
int complete=0;
int outstanding_interests=0;
// We need two ccn handles because the same handle cannot be used
// to answer interests it issues.
//
ccn_pub = ccn_create();
if (ccn_connect(ccn_pub, NULL) == -1) {
fprintf(stderr, "Could not connect to ccnd");
return(1);
}
ccn_rec = ccn_create();
if (ccn_connect(ccn_rec, NULL) == -1) {
fprintf(stderr, "Could not connect to ccnd");
return(1);
}
// using original callback instead of struct in test_signed_interest (for now)
incoming = calloc(1, sizeof(*incoming));
incoming->p = incoming_handler;
// Setup our one test name without signature
//struct ccn_charbuf* name;
//name = ccn_charbuf_create();
//ccn_name_from_uri(name, TEST_URI);
//ccn_name_append_nonce(name);
//fprintf(stderr, "Our name: %s/<nonce>\n", URI);
/*
res = ccn_set_interest_filter(ccn_pub, name, incoming);
if (res < 0) {
fprintf(stderr, "Failed to register interest (res == %d)\n", res);
return(1);
}
*/
// Get our default keys -- Why do we have to do all this work??
// Borrowed from ccn_client.c
struct ccn_signing_params name_sp = CCN_SIGNING_PARAMS_INIT;
struct ccn_signing_params p = CCN_SIGNING_PARAMS_INIT;
struct ccn_keystore *keystore = NULL;
struct ccn_charbuf *timestamp = NULL;
struct ccn_charbuf *finalblockid = NULL;
struct ccn_charbuf *keylocator = NULL;
unsigned char* public_key_digest = NULL;
size_t public_key_digest_length = 0;
res = ccn_chk_signing_params(ccn_pub, &name_sp, &p, ×tamp, &finalblockid, &keylocator);
if (res < 0)
return(res);
// For this test, use our default signing keys
get_default_keys(ccn_pub, &p, &keystore,
&public_key, &public_key_digest, &public_key_digest_length, &private_key);
// We'll need a KeyLocator for our ContentObject
// So continue borrowed code
/* Construct a key locator containing the key itself */
build_keylocator_from_key(&keylocator, public_key);
// And a SignedInfo too
struct ccn_charbuf *signed_info = ccn_charbuf_create();
res = ccn_signed_info_create(signed_info,
public_key_digest,
public_key_digest_length,
timestamp,
p.type,
p.freshness,
0, /* FinalBlockID is optional */
keylocator);
// Sign the interest
struct ccn_charbuf *name_signed = ccn_charbuf_create();
sign_interest(name_signed, name, signed_info, NULL /* default digest alg */, private_key);
// Express the signed interest from a different ccn handle so we get the packet
res = ccn_express_interest(ccn_rec, name_signed, incoming, NULL); // TODO: AnswerOriginKind could limit to signed interest?
outstanding_interests++;
fprintf(stderr,"Signed interested sent.\n");
/*
// chenni's original
// create & express non-signed interest
ccn = ccn_create();
res = ccn_connect(ccn, NULL);
if (res < 0) {
fprintf(stderr, "can't connect: %d\n", res);
ccn_perror(ccn, "ccn_connect");
exit(1);
}
incoming = calloc(1, sizeof(*incoming));
incoming->p = incoming_handler;
res = ccn_express_interest(ccn, name, incoming, NULL);
printf("Waiting for response to interest packet\n");
while (res >= 0) {
printf("running ccn_run...\n");
res = ccn_run(ccn, -1);
}
if (res < 0) {
ccn_perror(ccn, "ccn_run");
exit(1);
}
ccn_charbuf_destroy(&name);
ccn_destroy(&ccn);
*/
return 0;
}
