int main(int argc, char *argv[])
{
/* build a blob object from some data */
lo_blob btest = lo_blob_new(sizeof(testdata), testdata);
/* an address to send messages to. sometimes it is better to let the server
* pick a port number for you by passing NULL as the last argument */
lo_address t = lo_address_new(NULL, "7770");
if (argc > 1 && argv[1][0] == '-' && argv[1][1] == 'q') {
/* send a message with no arguments to the path /quit */
lo_send(t, "/quit", NULL);
} else {
/* send a message to /foo/bar with two float arguments, report any
* errors */
if (lo_send(t, "/foo/bar", "ff", 0.12345678f, 23.0f) == -1) {
printf("OSC error %d: %s\n", lo_address_errno(t), lo_address_errstr(t));
}
/* send a message to /a/b/c/d with a mixtrure of float and string
* arguments */
lo_send(t, "/a/b/c/d", "sfsff", "one", 0.12345678f, "three",
-0.00000023001f, 1.0);
/* send a 'blob' object to /a/b/c/d */
lo_send(t, "/a/b/c/d", "b", btest);
/* send a jamin scene change instruction with a 32bit integer argument */
lo_send(t, "/jamin/scene", "i", 2);
}
return 0;
}
void OscTransmitter::sendByteArray(const char * path, const unsigned char * data, int length)
{
if(length == 0)
return;
lo_blob b = lo_blob_new(length, data);
lo_message msg = lo_message_new();
lo_message_add_blob(msg, b);
if(debugMessages_) {
cout << path << " ";
lo_message_pp(msg);
}
// Send message to everyone who's currently listening
for(vector<lo_address>::iterator it = addresses_.begin(); it != addresses_.end(); it++) {
lo_send_message(*it, path, msg);
}
lo_blob_free(b);
}
int osc_send_ppm_block(struct track *tr)
{
if(tr) {
int c;
for(c = 0; c < osc_nclient%3; ++c) {
int i = 0;
while(i < tr->length) {
int j = 0;
unsigned char ppm_block[24575];
while(j < 24575 && i < tr->length) {
ppm_block[j] = track_get_ppm(tr, i);
++j;
i += 64;
}
/* build a blob object from some data */
lo_blob blob = lo_blob_new(j, &ppm_block);
//lo_server server = lo_server_thread_get_server(st_tcp);
if (lo_send(address[c], "/xwax/ppm", "ibi",
(int) tr,
blob,
tr->length
) == -1) {
printf("OSC error %d: %s\n", lo_address_errno(address[c]),
lo_address_errstr(address[c]));
}
lo_blob_free(blob);
}
lo_send(address[c], "/xwax/ppm_end", "i", (int) tr);
printf("Sent %p blocks to %s\n", tr, lo_address_get_url(address[c]));
sleep(1); // Wierd bug in liblo that makes second track load not catched by client's track_load_handler if sent too fast
}
}
return 0;
}
void OSC::sendBMU (int x, int y, double state, vector<double> * values)
{
int i;
float *arr;
arr = new float[size+3];
arr[0] = (float)x;
arr[1] = (float)y;
arr[2] = (float)state;
for (i = 0; i < size; i++)
{
arr[i+3] = (float)values->at(i);
}
lo_blob data = lo_blob_new(sizeof(float) * (size+3), arr);
lo_send(addr, "/mikro/bmu", "b", data);
delete [] arr;
}
void OSC::sendStates (float* states, int num)
{
lo_blob data = lo_blob_new(sizeof(float) * num, states);
lo_send(addr, "/mikro/states", "b", data);
}
//this is not a JACK process cylce
int process()
{
if(shutdown_in_progress==1)
{
return 0;
}
if(process_enabled==1)
{
//as long as there is data ready to be sent, read and try to send
//need: handle case where receiver can not read data fast enough
// while(rb_can_read(rb)
// >=input_port_count*bytes_per_sample*period_size)
// {
while(rb_can_read(rb)
>=port_count*bytes_per_sample*period_size)
{
//fake consume
// rb_advance_read_pointer(rb,port_count*bytes_per_sample*period_size);
lo_message mm=lo_message_new();
//add message counter
lo_message_add_int64(mm,message_number_out);
//indicate how many xruns (in sender's JACK)
lo_message_add_int64(mm,remote_xrun_counter);
gettimeofday(&tv, NULL);
lo_timetag tt;
tt.sec=(long)tv.tv_sec;
tt.frac=(long)tv.tv_usec;
lo_message_add_timetag(mm,tt);
lo_message_add_int32(mm,sample_rate);
//blob array, holding one period per channel
// lo_blob blob[input_port_count];
lo_blob blob[port_count];
void* membuf = malloc(period_size*bytes_per_sample);
int i;
for( i=0; i<port_count; i++ )
{
//void* membuf = malloc(period_size*bytes_per_sample);
rb_read (rb, (char*)membuf, period_size*bytes_per_sample);
blob[i]=lo_blob_new(period_size*bytes_per_sample,membuf);
lo_message_add_blob(mm,blob[i]);
}
int ret=lo_send_message(loa_tcp,"/audio",mm);
last_lo_send_message_tcp_return=ret;
if(ret<0)
{
// fprintf(stderr," TCP WARN: msg no: %" PRId64 " size: %" PRId64 " ret: %d ",message_number_out,lo_message_length(mm,"/audio"),ret);
}
else
{
total_bytes_successfully_sent+=ret;
// fprintf(stderr," msg no: %" PRId64 " size: %" PRId64 " ret: %d ",message_number_out,lo_message_length(mm,"/audio"),ret);
message_number_out++;
}
//free
//lo_free(membuf);
lo_message_free(mm);
free(membuf);
//free blobls ...
for( i=0; i<port_count; i++ )
{
free(blob[i]);
}
if(ret<0)
{
return ret;
}
}//end while has data
return 0;
}//end if process enabled
//process not yet enabled, buffering
else
{
if(relaxed_display_counter>=update_display_every_nth_cycle
|| last_test_cycle==1
)
{
if((int)message_number<=0 && starting_transmission==0)
{
fprintf(stderr,"\rwaiting for audio input data...");
}
fflush(stderr);
relaxed_display_counter=0;
}
relaxed_display_counter++;
return 0;
}//end if process not enabled
//return 0;
} //end process
static int osc_send(CSOUND *csound, OSCSEND *p)
{
/* Types I allow at present:
0) int
1) float
2) string
3) double
4) char
5) table as blob
*/
char port[8];
char *pp = port;
char *hh;
if (*p->port<0)
pp = NULL;
else
snprintf(port, 8, "%d", (int) MYFLT2LRND(*p->port));
hh = (char*) p->host->data;
if (*hh=='\0') hh = NULL;
if(p->addr != NULL)
lo_address_free(p->addr);
p->addr = lo_address_new(hh, pp);
if (p->cnt++ ==0 || *p->kwhen!=p->last) {
int i=0;
int msk = 0x20; /* First argument */
lo_message msg = lo_message_new();
char *type = (char*)p->type->data;
MYFLT **arg = p->arg;
p->last = *p->kwhen;
for (i=0; type[i]!='\0'; i++, msk <<=1) {
/* Need to add type checks */
switch (type[i]) {
case 'i':
lo_message_add_int32(msg, (int32_t) MYFLT2LRND(*arg[i]));
break;
case 'l':
case 'h':
lo_message_add_int64(msg, (int64_t) MYFLT2LRND(*arg[i]));
break;
case 'c':
lo_message_add_char(msg, (char) (*arg[i] + FL(0.5)));
break;
case 'm':
{
union a {
int32_t x;
uint8_t m[4];
} mm;
mm.x = *arg[i]+FL(0.5);
lo_message_add_midi(msg, mm.m);
break;
}
case 'f':
lo_message_add_float(msg, (float)(*arg[i]));
break;
case 'd':
lo_message_add_double(msg, (double)(*arg[i]));
break;
case 's':
lo_message_add_string(msg, ((STRINGDAT *)arg[i])->data);
break;
case 'b': /* Boolean */
if (*arg[i]==FL(0.0)) lo_message_add_true(msg);
else lo_message_add_false(msg);
break;
case 't': /* timestamp */
{
lo_timetag tt;
tt.sec = (uint32_t)(*arg[i]+FL(0.5));
msk <<= 1; i++;
if (UNLIKELY(type[i]!='t'))
return csound->PerfError(csound, p->h.insdshead,
Str("Time stamp is two values"));
tt.frac = (uint32_t)(*arg[i]+FL(0.5));
lo_message_add_timetag(msg, tt);
break;
}
//#ifdef SOMEFINEDAY
case 'G': /* fGen Table/blob */
{
lo_blob myblob;
int len, olen;
FUNC *ftp;
void *data;
/* make sure fn exists */
if (LIKELY((ftp=csound->FTnp2Find(csound,arg[i]))!=NULL)) {
len = ftp->flen; /* and set it up */
data = csound->Malloc(csound,
olen=sizeof(FUNC)-sizeof(MYFLT*)+
sizeof(MYFLT)*len);
memcpy(data, ftp, sizeof(FUNC)-sizeof(MYFLT*));
memcpy(data+sizeof(FUNC)-sizeof(MYFLT*),
ftp->ftable, sizeof(MYFLT)*len);
}
else {
return csound->PerfError(csound, p->h.insdshead,
Str("ftable %.2f does not exist"), *arg[i]);
}
myblob = lo_blob_new(olen, data);
lo_message_add_blob(msg, myblob);
csound->Free(csound, data);
lo_blob_free(myblob);
break;
}
//#endif
case 'a': /* Audio as blob */
{
lo_blob myblob;
MYFLT *data = csound->Malloc(csound, sizeof(MYFLT)*(CS_KSMPS+1));
data[0] = CS_KSMPS;
memcpy(&data[1], arg[i], data[0]);
myblob = lo_blob_new(sizeof(MYFLT)*(CS_KSMPS+1), data);
lo_message_add_blob(msg, myblob);
csound->Free(csound, data);
lo_blob_free(myblob);
break;
}
case 'A': /* Array/blob */
{
lo_blob myblob;
int len = 1;
ARRAYDAT *ss;
/* make sure fn exists */
if (LIKELY((ss = (ARRAYDAT*)arg[i]) !=NULL &&
ss->data != NULL)) {
int j, d;
for (j=0,d=ss->dimensions; d>0; j++, d--)
len *= ss->sizes[j];
len *= sizeof(MYFLT);
}
else {
return csound->PerfError(csound, p->h.insdshead,
Str("argument %d is not an array"), i);
}
// two parts needed
{
void *dd = malloc(len+sizeof(int)*(1+ss->dimensions));
memcpy(dd, &ss->dimensions, sizeof(int));
memcpy(dd+sizeof(int), ss->sizes, sizeof(int)*ss->dimensions);
memcpy(dd+sizeof(int)*(1+ss->dimensions), ss->data, len);
/* printf("dd length = %d dimensions = %d, %d %d %.8x %.8x %.8x %.8x\n", */
/* len+sizeof(int)*(1+ss->dimensions), ss->dimensions, */
/* ((int*)dd)[0], ((int*)dd)[1], ((int*)dd)[2], ((int*)dd)[3], */
/* ((int*)dd)[4], ((int*)dd)[5]); */
myblob = lo_blob_new(len, dd);
free(dd);
}
lo_message_add_blob(msg, myblob);
lo_blob_free(myblob);
break;
}
case 'S': csound->Warning(csound, "S unimplemented"); break;
//#endif
default:
csound->Warning(csound, Str("Unknown OSC type %c\n"), type[1]);
}
}
lo_send_message(p->addr, (char*)p->dest->data, msg);
lo_message_free(msg);
}
return OK;
}
static int osc_send(CSOUND *csound, OSCSEND *p)
{
/* Types I allow at present:
0) int
1) float
2) string
3) double
4) char
5) table as blob
*/
if (p->cnt++ ==0 || *p->kwhen!=p->last) {
int i=0;
int msk = 0x20; /* First argument */
lo_message msg = lo_message_new();
char *type = (char*)p->type->data;
MYFLT **arg = p->arg;
p->last = *p->kwhen;
for (i=0; type[i]!='\0'; i++, msk <<=1) {
/* Need to add type checks */
switch (type[i]) {
case 'i':
lo_message_add_int32(msg, (int32_t) MYFLT2LRND(*arg[i]));
break;
case 'l':
lo_message_add_int64(msg, (int64_t) MYFLT2LRND(*arg[i]));
break;
case 'c':
lo_message_add_char(msg, (char) (*arg[i] + FL(0.5)));
break;
case 'm':
{
union a {
int32_t x;
uint8_t m[4];
} mm;
mm.x = *arg[i]+FL(0.5);
lo_message_add_midi(msg, mm.m);
break;
}
case 'f':
lo_message_add_float(msg, (float)(*arg[i]));
break;
case 'd':
lo_message_add_double(msg, (double)(*arg[i]));
break;
case 's':
lo_message_add_string(msg, ((STRINGDAT *)arg[i])->data);
break;
case 'b': /* Boolean */
if (*arg[i]==FL(0.0)) lo_message_add_true(msg);
else lo_message_add_false(msg);
break;
case 't': /* timestamp */
{
lo_timetag tt;
tt.sec = (uint32_t)(*arg[i]+FL(0.5));
msk <<= 1; i++;
if (UNLIKELY(type[i]!='t'))
return csound->PerfError(csound, p->h.insdshead,
Str("Time stamp is two values"));
tt.frac = (uint32_t)(*arg[i]+FL(0.5));
lo_message_add_timetag(msg, tt);
break;
}
//#ifdef SOMEFINEDAY
case 'T': /* Table/blob */
{
lo_blob myblob;
int len;
FUNC *ftp;
void *data;
/* make sure fn exists */
if (LIKELY((ftp=csound->FTnp2Find(csound,arg[i]))!=NULL)) {
data = ftp->ftable;
len = ftp->flen-1; /* and set it up */
}
else {
return csound->PerfError(csound, p->h.insdshead,
Str("ftable %.2f does not exist"), *arg[i]);
}
myblob = lo_blob_new(sizeof(MYFLT)*len, data);
lo_message_add_blob(msg, myblob);
lo_blob_free(myblob);
break;
}
//#endif
default:
csound->Warning(csound, Str("Unknown OSC type %c\n"), type[1]);
}
}
lo_send_message(p->addr, (char*)p->dest->data, msg);
lo_message_free(msg);
}
return OK;
}
void test_deserialise()
{
char *buf, *buf2, *tmp;
const char *types = NULL, *path;
lo_arg **argv = NULL;
size_t len, size;
char data[256];
int result = 0;
lo_blob btest = lo_blob_new(sizeof(testdata), testdata);
uint8_t midi_data[4] = {0xff, 0xf7, 0xAA, 0x00};
lo_timetag tt = {0x1, 0x80000000};
lo_blob b = NULL;
// build a message
lo_message msg = lo_message_new();
TEST(0 == lo_message_get_argc(msg));
lo_message_add_float(msg, 0.12345678f); // 0 f
lo_message_add_int32(msg, 123); // 1 i
lo_message_add_string(msg, "123"); // 2 s
lo_message_add_blob(msg, btest); // 3 b
lo_message_add_midi(msg, midi_data); // 4 m
lo_message_add_int64(msg, 0x0123456789abcdefULL); // 5 h
lo_message_add_timetag(msg, tt); // 6 t
lo_message_add_double(msg, 0.9999); // 7 d
lo_message_add_symbol(msg, "sym"); // 8 S
lo_message_add_char(msg, 'X'); // 9 c
lo_message_add_char(msg, 'Y'); // 10 c
lo_message_add_true(msg); // 11 T
lo_message_add_false(msg); // 12 F
lo_message_add_nil(msg); // 13 N
lo_message_add_infinitum(msg); // 14 I
// test types, args
TEST(15 == lo_message_get_argc(msg));
types = lo_message_get_types(msg);
TEST(NULL != types);
argv = lo_message_get_argv(msg);
TEST(NULL != argv);
TEST('f' == types[0] && fabs(argv[0]->f - 0.12345678f) < FLT_EPSILON);
TEST('i' == types[1] && 123 == argv[1]->i);
TEST('s' == types[2] && !strcmp(&argv[2]->s, "123"));
TEST('b' == types[3]);
b = (lo_blob)argv[3];
TEST(lo_blob_datasize(b) == sizeof(testdata));
TEST(12 == lo_blobsize(b));
TEST(!memcmp(lo_blob_dataptr(b), &testdata, sizeof(testdata)));
TEST('m' == types[4] && !memcmp(&argv[4]->m, midi_data, 4));
TEST('h' == types[5] && 0x0123456789abcdefULL == argv[5]->h);
TEST('t' == types[6] && 1 == argv[6]->t.sec && 0x80000000 == argv[6]->t.frac);
TEST('d' == types[7] && fabs(argv[7]->d - 0.9999) < FLT_EPSILON);
TEST('S' == types[8] && !strcmp(&argv[8]->s, "sym"));
TEST('c' == types[9] && 'X' == argv[9]->c);
TEST('c' == types[10] && 'Y' == argv[10]->c);
TEST('T' == types[11] && NULL == argv[11]);
TEST('F' == types[12] && NULL == argv[12]);
TEST('N' == types[13] && NULL == argv[13]);
TEST('I' == types[14] && NULL == argv[14]);
// serialise it
len = lo_message_length(msg, "/foo");
printf("serialise message_length=%d\n", (int)len);
buf = calloc(len, sizeof(char));
size = 0;
tmp = lo_message_serialise(msg, "/foo", buf, &size);
TEST(tmp == buf && size == len && 92 == len);
lo_message_free(msg);
// deserialise it
printf("deserialise\n");
path = lo_get_path(buf, len);
TEST(NULL != path && !strcmp(path, "/foo"));
msg = lo_message_deserialise(buf, size, NULL);
TEST(NULL != msg);
// repeat same test as above
TEST(15 == lo_message_get_argc(msg));
types = lo_message_get_types(msg);
TEST(NULL != types);
argv = lo_message_get_argv(msg);
TEST(NULL != argv);
TEST('f' == types[0] && fabs(argv[0]->f - 0.12345678f) < FLT_EPSILON);
TEST('i' == types[1] && 123 == argv[1]->i);
TEST('s' == types[2] && !strcmp(&argv[2]->s, "123"));
TEST('b' == types[3]);
b = (lo_blob)argv[3];
TEST(lo_blob_datasize(b) == sizeof(testdata));
TEST(12 == lo_blobsize(b));
TEST(!memcmp(lo_blob_dataptr(b), &testdata, sizeof(testdata)));
TEST('m' == types[4] && !memcmp(&argv[4]->m, midi_data, 4));
TEST('h' == types[5] && 0x0123456789abcdefULL == argv[5]->h);
TEST('t' == types[6] && 1 == argv[6]->t.sec && 0x80000000 == argv[6]->t.frac);
TEST('d' == types[7] && fabs(argv[7]->d - 0.9999) < FLT_EPSILON);
TEST('S' == types[8] && !strcmp(&argv[8]->s, "sym"));
TEST('c' == types[9] && 'X' == argv[9]->c);
TEST('c' == types[10] && 'Y' == argv[10]->c);
TEST('T' == types[11] && NULL == argv[11]);
TEST('F' == types[12] && NULL == argv[12]);
TEST('N' == types[13] && NULL == argv[13]);
TEST('I' == types[14] && NULL == argv[14]);
// serialise it again, compare
len = lo_message_length(msg, "/foo");
printf("serialise message_length=%d\n", (int)len);
buf2 = calloc(len, sizeof(char));
size = 0;
tmp = lo_message_serialise(msg, "/foo", buf2, &size);
TEST(tmp == buf2 && size == len && 92 == len);
TEST(!memcmp(buf, buf2, len));
lo_message_free(msg);
lo_blob_free(btest);
free(buf);
free(buf2);
// deserialise failure tests with invalid message data
msg = lo_message_deserialise(data, 0, &result); // 0 size
TEST(NULL == msg && LO_ESIZE == result);
snprintf(data, 256, "%s", "/foo"); // unterminated path string
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_EINVALIDPATH == result);
snprintf(data, 256, "%s", "/f_o"); // non-0 in pad area
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_EINVALIDPATH == result);
snprintf(data, 256, "%s", "/t__"); // types missing
replace_char(data, 4, '_', '\0');
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_ENOTYPE == result);
snprintf(data, 256, "%s%s", "/t__", "____"); // types empty
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EBADTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",f_"); // short message
replace_char(data, 7, '_', '\0');
msg = lo_message_deserialise(data, 7, &result);
TEST(NULL == msg && LO_EINVALIDTYPE == result);
snprintf(data, 256, "%s%s", "/t__", "ifi_"); // types missing comma
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EBADTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",ifi"); // types unterminated
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EINVALIDTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",ii_"); // not enough arg data
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 12, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
snprintf(data, 256, "%s%s", "/t__", ",ii_"); // not enough arg data again
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 15, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
snprintf(data, 256, "%s%s", "/t__", ",f__"); // too much arg data
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 16, &result);
TEST(NULL == msg && LO_ESIZE == result);
snprintf(data, 256, "%s%s", "/t__", ",bs_"); // blob longer than msg length
replace_char(data, 8, '_', '\0');
*(uint32_t *)(data + 8) = lo_htoo32((uint32_t)99999);
msg = lo_message_deserialise(data, 256, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
}
int main()
{
lo_blob btest = lo_blob_new(sizeof(testdata), testdata);
lo_server_thread st, sta, stb;
lo_server s = lo_server_new(NULL, error);
lo_bundle b;
lo_message m1, m2;
char *server_url, *path, *protocol, *host, *port;
const char *host2, *port2;
lo_address a;
uint8_t midi_data[4] = {0xff, 0xf7, 0xAA, 0x00};
union end_test32 et32;
union end_test64 et64;
lo_timetag tt = {0x1, 0x80000000}, sched;
int count;
int proto;
char cmd[256];
test_deserialise();
sta = lo_server_thread_new("7591", error);
stb = lo_server_thread_new("7591", rep_error);
if (stb) {
fprintf(stderr, "FAILED: create bad server thread object!\n");
exit(1);
}
lo_server_thread_free(sta);
/* leak check */
st = lo_server_thread_new(NULL, error);
lo_server_thread_start(st);
#ifdef WIN32
Sleep(4);
#else
usleep(4000);
#endif
lo_server_thread_stop(st);
lo_server_thread_free(st);
st = lo_server_thread_new(NULL, error);
lo_server_thread_start(st);
lo_server_thread_stop(st);
lo_server_thread_free(st);
st = lo_server_thread_new(NULL, error);
lo_server_thread_free(st);
st = lo_server_thread_new(NULL, error);
lo_server_thread_free(st);
st = lo_server_thread_new(NULL, error);
a = lo_address_new_from_url("osc://localhost/");
TEST(a != NULL);
lo_address_free(a);
a = lo_address_new_from_url("osc.://localhost/");
TEST(a == NULL);
atexit(exitcheck);
printf("type tests\n");
TEST(sizeof(float) == sizeof(int32_t));
TEST(sizeof(double) == sizeof(int64_t));
et32.i = 0x23242526U;
et32.i = lo_htoo32(et32.i);
if (et32.c[0] != 0x23 || et32.c[1] != 0x24 || et32.c[2] != 0x25 ||
et32.c[3] != 0x26) {
fprintf(stderr, "failed 32bit endian conversion test\n");
fprintf(stderr, "0x23242526 -> %X\n", et32.i);
exit(1);
} else {
printf("passed 32bit endian conversion test\n");
}
et64.i = 0x232425262728292AULL;
et64.i = lo_htoo64(et64.i);
if (et64.c[0] != 0x23 || et64.c[1] != 0x24 || et64.c[2] != 0x25 ||
et64.c[3] != 0x26 || et64.c[4] != 0x27 || et64.c[5] != 0x28 ||
et64.c[6] != 0x29 || et64.c[7] != 0x2A) {
fprintf(stderr, "failed 64bit endian conversion\n");
fprintf(stderr, "0x232425262728292A -> %llX\n", (long long unsigned int)et64.i);
exit(1);
} else {
printf("passed 64bit endian conversion\n");
}
printf("\n");
/* OSC URL tests */
path = lo_url_get_path("osc.udp://localhost:9999/a/path/is/here");
if (strcmp(path, "/a/path/is/here")) {
printf("failed lo_url_get_path() test1\n");
printf("'%s' != '/a/path/is/here'\n", path);
exit(1);
} else {
printf("passed lo_url_get_path() test1\n");
}
free(path);
protocol = lo_url_get_protocol("osc.udp://localhost:9999/a/path/is/here");
if (strcmp(protocol, "udp")) {
printf("failed lo_url_get_protocol() test1\n");
printf("'%s' != 'udp'\n", protocol);
exit(1);
} else {
printf("passed lo_url_get_protocol() test1\n");
}
free(protocol);
protocol = lo_url_get_protocol("osc.tcp://localhost:9999/a/path/is/here");
if (strcmp(protocol, "tcp")) {
printf("failed lo_url_get_protocol() test2\n");
printf("'%s' != 'tcp'\n", protocol);
exit(1);
} else {
printf("passed lo_url_get_protocol() test2\n");
}
free(protocol);
protocol = lo_url_get_protocol("osc.udp://[::ffff:localhost]:9999/a/path/is/here");
if (strcmp(protocol, "udp")) {
printf("failed lo_url_get_protocol() test1 (IPv6)\n");
printf("'%s' != 'udp'\n", protocol);
exit(1);
} else {
printf("passed lo_url_get_protocol() test1 (IPv6)\n");
}
free(protocol);
proto = lo_url_get_protocol_id("osc.udp://localhost:9999/a/path/is/here");
if (proto != LO_UDP) {
printf("failed lo_url_get_protocol_id() test1\n");
printf("'%d' != LO_UDP\n", proto);
exit(1);
} else {
printf("passed lo_url_get_protocol_id() test1\n");
}
proto = lo_url_get_protocol_id("osc.tcp://localhost:9999/a/path/is/here");
if (proto != LO_TCP) {
printf("failed lo_url_get_protocol_id() test2\n");
printf("'%d' != LO_TCP\n", proto);
exit(1);
} else {
printf("passed lo_url_get_protocol_id() test2\n");
}
proto = lo_url_get_protocol_id("osc.invalid://localhost:9999/a/path/is/here");
if (proto != -1) {
printf("failed lo_url_get_protocol_id() test3\n");
printf("'%d' != -1\n", proto);
exit(1);
} else {
printf("passed lo_url_get_protocol_id() test3\n");
}
proto = lo_url_get_protocol_id("osc.udp://[::ffff:localhost]:9999/a/path/is/here");
if (proto != LO_UDP) {
printf("failed lo_url_get_protocol_id() test1 (IPv6)\n");
printf("'%d' != LO_UDP\n", proto);
exit(1);
} else {
printf("passed lo_url_get_protocol_id() test1 (IPv6)\n");
}
host = lo_url_get_hostname("osc.udp://foo.example.com:9999/a/path/is/here");
if (strcmp(host, "foo.example.com")) {
printf("failed lo_url_get_hostname() test1\n");
printf("'%s' != 'foo.example.com'\n", host);
exit(1);
} else {
printf("passed lo_url_get_hostname() test1\n");
}
free(host);
host = lo_url_get_hostname("osc.udp://[0000::::0001]:9999/a/path/is/here");
if (strcmp(host, "0000::::0001")) {
printf("failed lo_url_get_hostname() test2 (IPv6)\n");
printf("'%s' != '0000::::0001'\n", host);
exit(1);
} else {
printf("passed lo_url_get_hostname() test2 (IPv6)\n");
}
free(host);
port = lo_url_get_port("osc.udp://localhost:9999/a/path/is/here");
if (strcmp(port, "9999")) {
printf("failed lo_url_get_port() test1\n");
printf("'%s' != '9999'\n", port);
exit(1);
} else {
printf("passed lo_url_get_port() test1\n");
}
free(port);
port = lo_url_get_port("osc.udp://[::ffff:127.0.0.1]:9999/a/path/is/here");
if (strcmp(port, "9999")) {
printf("failed lo_url_get_port() test1 (IPv6)\n");
printf("'%s' != '9999'\n", port);
exit(1);
} else {
printf("passed lo_url_get_port() test1 (IPv6)\n");
}
free(port);
printf("\n");
a = lo_address_new_from_url("osc.tcp://foo.example.com:9999/");
host2 = lo_address_get_hostname(a);
if (strcmp(host2, "foo.example.com")) {
printf("failed lo_address_get_hostname() test\n");
printf("'%s' != 'foo.example.com'\n", host2);
exit(1);
} else {
printf("passed lo_address_get_hostname() test\n");
}
port2 = lo_address_get_port(a);
if (strcmp(port2, "9999")) {
printf("failed lo_address_get_port() test\n");
printf("'%s' != '9999'\n", port2);
exit(1);
} else {
printf("passed lo_address_get_port() test\n");
}
proto = lo_address_get_protocol(a);
if (proto != LO_TCP) {
printf("failed lo_address_get_protocol() test\n");
printf("'%d' != '%d'\n", proto, LO_TCP);
exit(1);
} else {
printf("passed lo_address_get_protocol() test\n");
}
server_url = lo_address_get_url(a);
if (strcmp(server_url, "osc.tcp://foo.example.com:9999/")) {
printf("failed lo_address_get_url() test\n");
printf("'%s' != '%s'\n", server_url, "osc.tcp://foo.example.com:9999/");
exit(1);
} else {
printf("passed lo_address_get_url() test\n");
}
free(server_url);
lo_address_free( a );
printf("\n");
/* Test blod sizes */
if (lo_blob_datasize(btest) != 5 || lo_blobsize(btest) != 12) {
printf("blob is %d (%d) bytes long, should be 5 (12)\n",
lo_blob_datasize(btest), lo_blobsize(btest));
lo_arg_pp(LO_BLOB, btest);
printf(" <- blob\n");
exit(1);
}
/* Server method handler tests */
server_url = lo_server_thread_get_url(st);
a = lo_address_new_from_url(server_url);
printf("Server URL: %s\n", server_url);
free(server_url);
/* add method that will match the path /foo/bar, with two numbers, coerced
* to float and int */
lo_server_thread_add_method(st, "/foo/bar", "fi", foo_handler, lo_server_thread_get_server(st));
lo_server_thread_add_method(st, "/reply", "s", reply_handler, NULL);
lo_server_thread_add_method(st, "/lotsofformats", "fisbmhtdSccTFNI",
lots_handler, NULL);
lo_server_thread_add_method(st, "/coerce", "dfhiSs",
coerce_handler, NULL);
lo_server_thread_add_method(st, "/bundle", NULL,
bundle_handler, NULL);
lo_server_thread_add_method(st, "/timestamp", NULL,
timestamp_handler, NULL);
lo_server_thread_add_method(st, "/jitter", "ti",
jitter_handler, NULL);
lo_server_thread_add_method(st, "/pattern/foo", NULL,
pattern_handler, "foo");
lo_server_thread_add_method(st, "/pattern/bar", NULL,
pattern_handler, "bar");
lo_server_thread_add_method(st, "/pattern/baz", NULL,
pattern_handler, "baz");
lo_server_thread_add_method(st, "/subtest", "i",
subtest_handler, st);
lo_server_thread_add_method(st, "/subtest-reply", "i",
subtest_reply_handler, NULL);
/* add method that will match any path and args */
lo_server_thread_add_method(st, NULL, NULL, generic_handler, NULL);
/* add method that will match the path /quit with no args */
lo_server_thread_add_method(st, "/quit", "", quit_handler, NULL);
/* check that the thread restarts */
lo_server_thread_start(st);
lo_server_thread_stop(st);
lo_server_thread_start(st);
if (lo_send(a, "/foo/bar", "ff", 0.12345678f, 23.0f) == -1) {
printf("OSC error A %d: %s\n", lo_address_errno(a), lo_address_errstr(a));
exit(1);
}
if (lo_send(a, "/foo/bar", "ff", 0.12345678f, 23.0f) == -1) {
printf("OSC error B %d: %s\n", lo_address_errno(a), lo_address_errstr(a));
exit(1);
}
test_validation(a);
test_multicast(st);
lo_send(a, "/", "i", 242);
lo_send(a, "/pattern/", "i", 243);
#ifndef _MSC_VER /* MS compiler refuses to compile this case */
lo_send(a, "/bar", "ff", 0.12345678f, 1.0/0.0);
#endif
lo_send(a, "/lotsofformats", "fisbmhtdSccTFNI", 0.12345678f, 123, "123",
btest, midi_data, 0x0123456789abcdefULL, tt, 0.9999, "sym",
'X', 'Y');
lo_send(a, "/coerce", "fdihsS", 0.1f, 0.2, 123, 124LL, "aaa", "bbb");
lo_send(a, "/coerce", "ffffss", 0.1f, 0.2f, 123.0, 124.0, "aaa", "bbb");
lo_send(a, "/coerce", "ddddSS", 0.1, 0.2, 123.0, 124.0, "aaa", "bbb");
lo_send(a, "/a/b/c/d", "sfsff", "one", 0.12345678f, "three",
-0.00000023001f, 1.0);
lo_send(a, "/a/b/c/d", "b", btest);
TEST(test_varargs(a, "/lotsofformats", "fisbmhtdSccTFNI", 0.12345678f, 123,
"123", btest, midi_data, 0x0123456789abcdefULL, tt,
0.9999, "sym", 'X', 'Y', LO_ARGS_END) == 0);
#ifdef __GNUC__
// Note: Lack of support for variable-argument macros in non-GCC compilers
// does not allow us to test for these conditions.
// too many args
TEST(test_varargs(a, "/lotsofformats", "f", 0.12345678f, 123,
"123", btest, midi_data, 0x0123456789abcdefULL, tt,
0.9999, "sym", 'X', 'Y', LO_ARGS_END) != 0);
// too many types
TEST(test_varargs(a, "/lotsofformats", "fisbmhtdSccTFNI", 0.12345678f, 123,
"123", btest, midi_data, 0x0123456789abcdefULL, tt, 0.5,
LO_ARGS_END) != 0);
#endif
// test lo_message_add
m1 = lo_message_new();
TEST(lo_message_add(m1, "fisbmhtdSccTFNI", 0.12345678f, 123, "123",
btest, midi_data, 0x0123456789abcdefULL, tt, 0.9999, "sym",
'X', 'Y') == 0);
lo_send_message(a, "/lotsofformats", m1);
lo_message_free(m1);
lo_blob_free(btest);
lo_send(a, "/pattern/*", "s", "a");
lo_send(a, "/pattern/ba[rz]", "s", "b");
server_url = lo_server_thread_get_url(st);
sprintf(cmd, "." PATHDELIM "subtest %s &", server_url);
if (system(cmd) != 0) {
fprintf(stderr, "Cannot execute subtest command\n");
exit(1);
}
system(cmd);
free(server_url);
#ifdef WIN32
Sleep(2000);
#else
sleep(2);
#endif
TEST(reply_count == 3);
TEST(pattern_count == 5);
TEST(subtest_count == 2);
TEST(subtest_reply_count == 22);
printf("\n");
{
lo_timetag t = {10,0xFFFFFFFC};
b = lo_bundle_new(t);
}
m1 = lo_message_new();
lo_message_add_string(m1, "abcdefghijklmnopqrstuvwxyz");
lo_message_add_string(m1, "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
lo_bundle_add_message(b, "/bundle", m1);
lo_send_bundle(a, b);
/* This should be safe for multiple copies of the same message. */
lo_bundle_free_messages(b);
{
lo_timetag t = {1,2};
b = lo_bundle_new(t);
}
m1 = lo_message_new();
lo_message_add_int32(m1, 23);
lo_message_add_string(m1, "23");
lo_bundle_add_message(b, "/bundle", m1);
m2 = lo_message_new();
lo_message_add_string(m2, "24");
lo_message_add_int32(m2, 24);
lo_bundle_add_message(b, "/bundle", m2);
lo_bundle_add_message(b, "/bundle", m1);
/*
lo_send_bundle(a, b);
if (a->errnum) {
printf("error %d: %s\n", a->errnum, a->errstr);
exit(1);
}
*/
TEST(lo_send_bundle(a, b) == 88);
/* Test freeing out-of-order copies of messages in a bundle. */
lo_bundle_free_messages(b);
{
lo_timetag t = {10,0xFFFFFFFE};
b = lo_bundle_new(t);
}
m1 = lo_message_new();
lo_message_add_string(m1, "abcdefghijklmnopqrstuvwxyz");
lo_message_add_string(m1, "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
lo_bundle_add_message(b, "/bundle", m1);
lo_send_bundle(a, b);
lo_message_free(m1);
lo_bundle_free(b);
lo_timetag_now(&sched);
sched.sec += 5;
b = lo_bundle_new(sched);
m1 = lo_message_new();
lo_message_add_string(m1, "future");
lo_message_add_string(m1, "time");
lo_message_add_string(m1, "test");
lo_bundle_add_message(b, "/bundle", m1);
lo_send_bundle(a, b);
lo_message_free(m1);
lo_bundle_free(b);
lo_send_timestamped(a, sched, "/bundle", "s", "lo_send_timestamped() test");
/* test bundle timestamp ends up in message struct (and doesn't end up in
unbundled messages) */
lo_timetag_now(&sched);
lo_send_timestamped(a, sched, "/timestamp", "it", 1, sched);
lo_send(a, "/timestamp", "it", 0, sched);
#define JITTER_ITS 25
/* jitter tests */
{
lo_timetag stamps[JITTER_ITS];
lo_timetag now;
int i;
for (i=0; i<JITTER_ITS; i++) {
lo_timetag_now(&now);
stamps[i] = now;
stamps[i].sec += 1;
stamps[i].frac = rand();
lo_send_timestamped(a, stamps[i], "/jitter", "ti", stamps[i], i);
}
}
#ifdef WIN32
Sleep(2000);
#else
sleep(2);
#endif
lo_address_free(a);
TEST(lo_server_thread_events_pending(st));
while (lo_server_thread_events_pending(st)) {
printf("pending events, wait...\n");
#ifdef WIN32
fflush(stdout);
Sleep(1000);
#else
sleep(1);
#endif
}
TEST(bundle_count == 7);
printf("\n");
printf("bundle timing jitter results:\n"
"max jitter = %fs\n"
"avg jitter = %fs\n"
"min jitter = %fs\n\n",
jitter_max, jitter_total/(float)jitter_count, jitter_min);
server_url = lo_server_get_url(s);
lo_server_add_method(s, NULL, NULL, generic_handler, NULL);
a = lo_address_new_from_url(server_url);
TEST(lo_server_recv_noblock(s, 0) == 0);
printf("Testing noblock API on %s\n", server_url);
lo_send(a, "/non-block-test", "f", 23.0);
count = 0;
while (!lo_server_recv_noblock(s, 10) && count++ < 1000) { }
if (count >= 1000) {
printf("lo_server_recv_noblock() test failed\n");
exit(1);
}
/* Delete methods */
lo_server_thread_del_method(st, "/coerce", "dfhiSs");
lo_server_del_method(s, NULL, NULL);
lo_address_free(a);
lo_server_free(s);
free(server_url);
#ifndef WIN32
{ /* UNIX domain tests */
lo_address ua;
lo_server us;
char *addr;
unlink("/tmp/testlo.osc");
us = lo_server_new_with_proto("/tmp/testlo.osc", LO_UNIX, error);
ua = lo_address_new_from_url("osc.unix:///tmp/testlo.osc");
TEST(lo_server_get_protocol(us) == LO_UNIX);
TEST(lo_send(ua, "/unix", "f", 23.0) == 16);
TEST(lo_server_recv(us) == 16);
addr = lo_server_get_url(us);
TEST(!strcmp("osc.unix:////tmp/testlo.osc", addr));
free(addr);
lo_address_free(ua);
ua = lo_address_new_with_proto(LO_UNIX, NULL, "/tmp/testlo.osc");
TEST(lo_send(ua, "/unix", "f", 23.0) == 16);
TEST(lo_server_recv(us) == 16);
lo_server_free(us);
lo_address_free(ua);
}
#endif
{ /* TCP tests */
lo_address ta;
lo_server ts;
char *addr;
ts = lo_server_new_with_proto(NULL, LO_TCP, error);
addr = lo_server_get_url(ts);
ta = lo_address_new_from_url(addr);
if (lo_address_errno(ta)) {
printf("err: %s\n", lo_address_errstr(ta));
exit(1);
}
TEST(lo_server_get_protocol(ts) == LO_TCP);
TEST(lo_send(ta, "/tcp", "f", 23.0) == 16);
TEST(lo_send(ta, "/tcp", "f", 23.0) == 16);
TEST(lo_server_recv(ts) == 16);
TEST(lo_server_recv(ts) == 16);
free(addr);
lo_server_free(ts);
lo_address_free(ta);
}
server_url = lo_server_thread_get_url(st);
a = lo_address_new_from_url(server_url);
/* exit */
lo_send(a, "/quit", NULL);
lo_address_free(a);
while (!done) {
#ifdef WIN32
Sleep(1);
#else
usleep(1000);
#endif
}
lo_server_thread_free(st);
free(server_url);
return 0;
}
