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|
/* unpackOSC is like dumpOSC but outputs two lists: a list of symbols for the path */
/* and a list of floats and/or symbols for the data */
/* This allows for the separation of the protocol and its transport. */
/* Started by Martin Peach 20060420 */
/* This version tries to be standalone from LIBOSC MP 20060425 */
/* MP 20060505 fixed a bug (line 209) where bytes are wrongly interpreted as negative */
/* MP 20070705 added timestamp outlet */
/* dumpOSC.c header follows: */
/*
Written by Matt Wright and Adrian Freed, The Center for New Music and
Audio Technologies, University of California, Berkeley. Copyright (c)
1992,93,94,95,96,97,98,99,2000,01,02,03,04 The Regents of the University of
California (Regents).
Permission to use, copy, modify, distribute, and distribute modified versions
of this software and its documentation without fee and without a signed
licensing agreement, is hereby granted, provided that the above copyright
notice, this paragraph and the following two paragraphs appear in all copies,
modifications, and distributions.
IN NO EVENT SHALL REGENTS BE LIABLE TO ANY PARTY FOR DIRECT, INDIRECT,
SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING LOST PROFITS, ARISING
OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF REGENTS HAS
BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
REGENTS SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE SOFTWARE AND ACCOMPANYING DOCUMENTATION, IF ANY, PROVIDED
HEREUNDER IS PROVIDED "AS IS". REGENTS HAS NO OBLIGATION TO PROVIDE
MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
The OSC webpage is http://cnmat.cnmat.berkeley.edu/OpenSoundControl
*/
/*
dumpOSC.c
server that displays OpenSoundControl messages sent to it
for debugging client udp and UNIX protocol
by Matt Wright, 6/3/97
modified from dumpSC.c, by Matt Wright and Adrian Freed
version 0.2: Added "-silent" option a.k.a. "-quiet"
version 0.3: Incorporated patches from Nicola Bernardini to make
things Linux-friendly. Also added ntohl() in the right places
to support little-endian architectures.
to-do:
More robustness in saying exactly what's wrong with ill-formed
messages. (If they don't make sense, show exactly what was
received.)
Time-based features: print time-received for each packet
Clean up to separate OSC parsing code from socket/select stuff
pd: branched from http://www.cnmat.berkeley.edu/OpenSoundControl/src/dumpOSC/dumpOSC.c
-------------
-- added pd functions
-- socket is made differently than original via pd mechanisms
-- tweaks for Win32 www.zeggz.com/raf 13-April-2002
-- the OSX changes from cnmat didnt make it here yet but this compiles
on OSX anyway.
*/
#if HAVE_CONFIG_H
#include <config.h>
#endif
#include "m_pd.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#ifdef _WIN32
#include <winsock2.h>
#include <sys/timeb.h>
#else
#include <sys/types.h>
#include <netinet/in.h>
#include <ctype.h>
#include <sys/time.h>
#endif /* _WIN32 */
/* Declarations */
#ifdef WIN32
typedef unsigned __int64 osc_time_t;
#else
typedef unsigned long long osc_time_t;
#endif
#define MAX_MESG 65536
/* MAX_MESG was 32768 MP: make same as MAX_UDP_PACKET */
/* ----------------------------- was dumpOSC ------------------------- */
/* You may have to redefine this typedef if ints on your system
aren't 4 bytes. */
typedef unsigned int uint4;
typedef struct
{
uint4 seconds;
uint4 fraction;
} OSCTimeTag;
typedef union
{
int i;
float f;
} intfloat32;
static t_class *unpackOSC_class;
typedef struct _unpackOSC
{
t_object x_obj;
t_outlet *x_data_out;
t_outlet *x_delay_out;
t_atom x_data_at[MAX_MESG];/* symbols making up the path + payload */
int x_data_atc;/* number of symbols to be output */
char x_raw[MAX_MESG];/* bytes making up the entire OSC message */
int x_raw_c;/* number of bytes in OSC message */
int x_bundle_flag;/* non-zero if we are processing a bundle */
} t_unpackOSC;
void unpackOSC_setup(void);
static void *unpackOSC_new(void);
static void unpackOSC_free(t_unpackOSC *x);
static void unpackOSC_list(t_unpackOSC *x, t_symbol *s, int argc, t_atom *argv);
static int unpackOSC_path(t_unpackOSC *x, char *path);
static void unpackOSC_Smessage(t_unpackOSC *x, void *v, int n);
static void unpackOSC_PrintTypeTaggedArgs(t_unpackOSC *x, void *v, int n);
static void unpackOSC_PrintHeuristicallyTypeGuessedArgs(t_unpackOSC *x, void *v, int n, int skipComma);
static char *unpackOSC_DataAfterAlignedString(char *string, char *boundary);
static int unpackOSC_IsNiceString(char *string, char *boundary);
static t_float unpackOSC_DeltaTime(OSCTimeTag tt);
static void *unpackOSC_new(void)
{
t_unpackOSC *x;
x = (t_unpackOSC *)pd_new(unpackOSC_class);
x->x_data_out = outlet_new(&x->x_obj, &s_list);
x->x_delay_out = outlet_new(&x->x_obj, &s_float);
x->x_raw_c = x->x_data_atc = 0;
x->x_bundle_flag = 0;
return (x);
}
static void unpackOSC_free(t_unpackOSC *x)
{
}
void unpackOSC_setup(void)
{
unpackOSC_class = class_new(gensym("unpackOSC"),
(t_newmethod)unpackOSC_new, (t_method)unpackOSC_free,
sizeof(t_unpackOSC), 0, 0);
class_addlist(unpackOSC_class, (t_method)unpackOSC_list);
class_sethelpsymbol(unpackOSC_class, gensym("routeOSC")); /* same help patch as routeOSC*/
}
/* unpackOSC_list expects an OSC packet in the form of a list of floats on [0..255] */
static void unpackOSC_list(t_unpackOSC *x, t_symbol *s, int argc, t_atom *argv)
{
int size, messageLen, i, j;
char *messageName, *args, *buf;
OSCTimeTag tt;
if ((argc%4) != 0)
{
post("unpackOSC: packet size (%d) not a multiple of 4 bytes: dropping packet", argc);
return;
}
/* copy the list to a byte buffer, checking for bytes only */
for (i = 0; i < argc; ++i)
{
if (argv[i].a_type == A_FLOAT)
{
j = (int)argv[i].a_w.w_float;
/* if ((j == argv[i].a_w.w_float) && (j >= 0) && (j <= 255)) */
/* this can miss bytes between 128 and 255 because they are interpreted somewhere as negative */
/* , so change to this: */
if ((j == argv[i].a_w.w_float) && (j >= -128) && (j <= 255))
{
x->x_raw[i] = (char)j;
}
else
{
post("unpackOSC: data out of range (%d), dropping packet", argv[i].a_w.w_float);
return;
}
}
else
{
post("unpackOSC: data not float, dropping packet");
return;
}
}
x->x_raw_c = argc;
buf = x->x_raw;
if ((argc >= 8) && (strncmp(buf, "#bundle", 8) == 0))
{ /* This is a bundle message. */
#ifdef DEBUG
post("unpackOSC: bundle msg: bundles not yet supported\n");
#endif
if (argc < 16)
{
post("unpackOSC: Bundle message too small (%d bytes) for time tag", argc);
return;
}
x->x_bundle_flag = 1;
/* Print the time tag */
#ifdef DEBUG
printf("unpackOSC: [ %lx%08lx\n", ntohl(*((unsigned long *)(buf+8))),
ntohl(*((unsigned long *)(buf+12))));
#endif
/* convert the timetag into a millisecond delay from now */
tt.seconds = ntohl(*((unsigned long *)(buf+8)));
tt.fraction = ntohl(*((unsigned long *)(buf+12)));
/* pd can use a delay in milliseconds */
outlet_float(x->x_delay_out, unpackOSC_DeltaTime(tt));
/* Note: if we wanted to actually use the time tag as a little-endian
64-bit int, we'd have to word-swap the two 32-bit halves of it */
i = 16; /* Skip "#group\0" and time tag */
while(i < argc)
{
size = ntohl(*((int *) (buf + i)));
if ((size % 4) != 0)
{
post("unpackOSC: Bad size count %d in bundle (not a multiple of 4)", size);
return;
}
if ((size + i + 4) > argc)
{
post("unpackOSC: Bad size count %d in bundle (only %d bytes left in entire bundle)",
size, argc-i-4);
return;
}
/* Recursively handle element of bundle */
unpackOSC_list(x, s, size, &argv[i+4]);
i += 4 + size;
}
if (i != argc)
{
post("unpackOSC: This can't happen");
}
x->x_bundle_flag = 0; /* end of bundle */
#ifdef DEBUG
printf("]\n");
#endif
}
else if ((argc == 24) && (strcmp(buf, "#time") == 0))
{
post("unpackOSC: Time message: %s\n :).\n", buf);
return;
}
else
{ /* This is not a bundle message or a time message */
messageName = buf;
args = unpackOSC_DataAfterAlignedString(messageName, buf+x->x_raw_c);
if (args == 0)
{
post("unpackOSC: Bad message name string: (%s) Dropping entire message.",
messageName);
return;
}
#ifdef DEBUG
post("unpackOSC: message name string: %s", messageName);
#endif
messageLen = args-messageName;
/* put the OSC path into a single symbol */
x->x_data_atc = unpackOSC_path(x, messageName); /* returns 1 if path OK, else 0 */
if (x->x_data_atc == 1)
{
unpackOSC_Smessage(x, (void *)args, x->x_raw_c-messageLen);
if (0 == x->x_bundle_flag)
outlet_float(x->x_delay_out, 0); /* no delay for message not in a bundle */
}
}
/*if (x->x_data_atc >= 1) outlet_list(x->x_data_out, &s_list, x->x_data_atc, x->x_data_at);*/
if (x->x_data_atc >= 1)
outlet_anything(x->x_data_out, atom_getsymbol(x->x_data_at), x->x_data_atc-1, x->x_data_at+1);
x->x_data_atc = 0;
}
static int unpackOSC_path(t_unpackOSC *x, char *path)
{
int i;
if (path[0] != '/')
{
post("unpackOSC: bad path (%s)", path);
return 0;
}
for (i = 1; i < MAX_MESG; ++i)
{
if (path[i] == '\0')
{ /* the end of the path: turn path into a symbol */
SETSYMBOL(&x->x_data_at[0],gensym(path));
return 1;
}
}
post("unpackOSC: path too long");
return 0;
}
#define SMALLEST_POSITIVE_FLOAT 0.000001f
static void unpackOSC_Smessage(t_unpackOSC *x, void *v, int n)
{
char *chars = v;
if (n != 0)
{
if (chars[0] == ',')
{
if (chars[1] != ',')
{
/* This message begins with a type-tag string */
unpackOSC_PrintTypeTaggedArgs(x, v, n);
}
else
{
/* Double comma means an escaped real comma, not a type string */
unpackOSC_PrintHeuristicallyTypeGuessedArgs(x, v, n, 1);
}
}
else
{
unpackOSC_PrintHeuristicallyTypeGuessedArgs(x, v, n, 0);
}
}
}
static void unpackOSC_PrintTypeTaggedArgs(t_unpackOSC *x, void *v, int n)
{
char *typeTags, *thisType, *p;
int myargc = x->x_data_atc;
t_atom *mya = x->x_data_at;
typeTags = v;
if (!unpackOSC_IsNiceString(typeTags, typeTags+n))
{
/* No null-termination, so maybe it wasn't a type tag
string after all */
unpackOSC_PrintHeuristicallyTypeGuessedArgs(x, v, n, 0);
return;
}
p = unpackOSC_DataAfterAlignedString(typeTags, typeTags+n);
for (thisType = typeTags + 1; *thisType != 0; ++thisType)
{
switch (*thisType)
{
case 'b': /* blob: an int32 size count followed by that many 8-bit bytes */
{
int i, blob_bytes = ntohl(*((int *) p));
#ifdef DEBUG
post("blob: %lu bytes", blob_bytes);
#endif
p += 4;
for (i = 0; i < blob_bytes; ++i, ++p, ++myargc)
SETFLOAT(mya+myargc,(*(unsigned char *)p));
while (i%4)
{
++i;
++p;
}
break;
}
case 'i': case 'r': case 'm': case 'c':
#ifdef DEBUG
post("integer: %d", ntohl(*((int *) p)));
#endif
SETFLOAT(mya+myargc,(signed)ntohl(*((int *) p)));
myargc++;
p += 4;
break;
case 'f':
{
intfloat32 thisif;
thisif.i = ntohl(*((int *) p));
#ifdef DEBUG
post("float: %f", thisif.f);
#endif
SETFLOAT(mya+myargc, thisif.f);
myargc++;
p += 4;
break;
}
case 'h': case 't':
#ifdef DEBUG
printf("[A 64-bit int] ");
#endif
post("[A 64-bit int] not implemented");
p += 8;
break;
case 'd':
#ifdef DEBUG
printf("[A 64-bit float] ");
#endif
post("[A 64-bit float] not implemented");
p += 8;
break;
case 's': case 'S':
if (!unpackOSC_IsNiceString(p, typeTags+n))
{
post("Type tag said this arg is a string but it's not!\n");
return;
}
else
{
#ifdef DEBUG
post("string: \"%s\"", p);
#endif
SETSYMBOL(mya+myargc,gensym(p));
myargc++;
p = unpackOSC_DataAfterAlignedString(p, typeTags+n);
}
break;
case 'T':
#ifdef DEBUG
printf("[True] ");
#endif
SETFLOAT(mya+myargc,1.);
myargc++;
break;
case 'F':
#ifdef DEBUG
printf("[False] ");
#endif
SETFLOAT(mya+myargc,0.);
myargc++;
break;
case 'N':
#ifdef DEBUG
printf("[Nil]");
#endif
SETFLOAT(mya+myargc,0.);
myargc++;
break;
case 'I':
#ifdef DEBUG
printf("[Infinitum]");
#endif
SETSYMBOL(mya+myargc,gensym("INF"));
myargc++;
break;
default:
post("unpackOSC: [Unrecognized type tag %c]", *thisType);
myargc++;
}
}
x->x_data_atc = myargc;
}
static void unpackOSC_PrintHeuristicallyTypeGuessedArgs(t_unpackOSC *x, void *v, int n, int skipComma)
{
int i;
int *ints;
intfloat32 thisif;
char *chars, *string, *nextString;
int myargc= x->x_data_atc;
t_atom* mya = x->x_data_at;
/* Go through the arguments 32 bits at a time */
ints = v;
chars = v;
for (i = 0; i < n/4; )
{
string = &chars[i*4];
thisif.i = ntohl(ints[i]);
/* Reinterpret the (potentially byte-reversed) thisif as a float */
if (thisif.i >= -1000 && thisif.i <= 1000000)
{
#ifdef DEBUG
printf("%d ", thisif.i);
#endif
SETFLOAT(mya+myargc,(t_float) (thisif.i));
myargc++;
i++;
}
else if (thisif.f >= -1000.f && thisif.f <= 1000000.f &&
(thisif.f <=0.0f || thisif.f >= SMALLEST_POSITIVE_FLOAT))
{
#ifdef DEBUG
printf("%f ", thisif.f);
#endif
SETFLOAT(mya+myargc,thisif.f);
myargc++;
i++;
}
else if (unpackOSC_IsNiceString(string, chars+n))
{
nextString = unpackOSC_DataAfterAlignedString(string, chars+n);
#ifdef DEBUG
printf("\"%s\" ", (i == 0 && skipComma) ? string +1 : string);
#endif
SETSYMBOL(mya+myargc,gensym(string));
myargc++;
i += (nextString-string) / 4;
}
else
{
/* unhandled .. ;) */
#ifdef DEBUG
post("unpackOSC: indeterminate type: 0x%x xx", ints[i]);
#endif
i++;
}
x->x_data_atc = myargc;
}
}
#define STRING_ALIGN_PAD 4
static char *unpackOSC_DataAfterAlignedString(char *string, char *boundary)
{
/* The argument is a block of data beginning with a string. The
string has (presumably) been padded with extra null characters
so that the overall length is a multiple of STRING_ALIGN_PAD
bytes. Return a pointer to the next byte after the null
byte(s). The boundary argument points to the character after
the last valid character in the buffer---if the string hasn't
ended by there, something's wrong.
If the data looks wrong, return 0, and set htm_error_string */
int i;
if ((boundary - string) %4 != 0)
{
post("unpackOSC: DataAfterAlignedString: bad boundary");
return 0;
}
for (i = 0; string[i] != '\0'; i++)
{
if (string + i >= boundary)
{
post("unpackOSC: DataAfterAlignedString: Unreasonably long string");
return 0;
}
}
/* Now string[i] is the first null character */
i++;
for (; (i % STRING_ALIGN_PAD) != 0; i++)
{
if (string + i >= boundary)
{
post("unpackOSC: DataAfterAlignedString: Unreasonably long string");
return 0;
}
if (string[i] != '\0')
{
post("unpackOSC:DataAfterAlignedString: Incorrectly padded string");
return 0;
}
}
return string+i;
}
static int unpackOSC_IsNiceString(char *string, char *boundary)
{
/* Arguments same as DataAfterAlignedString(). Is the given "string"
really a string? I.e., is it a sequence of isprint() characters
terminated with 1-4 null characters to align on a 4-byte boundary?
Returns 1 if true, else 0. */
int i;
if ((boundary - string) %4 != 0)
{
fprintf(stderr, "Internal error: IsNiceString: bad boundary\n");
return 0;
}
for (i = 0; string[i] != '\0'; i++)
if ((!isprint(string[i])) || (string + i >= boundary)) return 0;
/* If we made it this far, it's a null-terminated sequence of printing characters
in the given boundary. Now we just make sure it's null padded... */
/* Now string[i] is the first null character */
i++;
for (; (i % STRING_ALIGN_PAD) != 0; i++)
if (string[i] != '\0') return 0;
return 1;
}
#define SECONDS_FROM_1900_to_1970 2208988800LL /* 17 leap years */
#define TWO_TO_THE_32_OVER_ONE_MILLION 4295LL
#define ONE_MILLION_OVER_TWO_TO_THE_32 0.00023283064365386963
/* return the time difference in milliseconds between an OSC timetag and now */
static t_float unpackOSC_DeltaTime(OSCTimeTag tt)
{
static double onemillion = 1000000.0f;
static double onethousand = 1000.0f;
if (tt.fraction == 1 && tt.seconds == 0) return 0.0; /* immediate */
else
{
OSCTimeTag ttnow;
double ttusec, nowusec, delta;
#ifdef _WIN32
struct _timeb tb;
_ftime(&tb); /* find now */
/* First get the seconds right */
ttnow.seconds = (unsigned) SECONDS_FROM_1900_to_1970 + (unsigned) tb.time;
/* find usec in tt */
ttusec = tt.seconds*onemillion + ONE_MILLION_OVER_TWO_TO_THE_32*tt.fraction;
nowusec = ttnow.seconds*onemillion + tb.millitm*onethousand;
#else
struct timeval tv;
struct timezone tz;
gettimeofday(&tv, &tz); /* find now */
/* First get the seconds right */
ttnow.seconds = (unsigned) SECONDS_FROM_1900_to_1970 + (unsigned) tv.tv_sec;
/* find usec in tt */
ttusec = tt.seconds*onemillion + ONE_MILLION_OVER_TWO_TO_THE_32*tt.fraction;
nowusec = ttnow.seconds*onemillion + tv.tv_usec;
#endif /* ifdef _WIN32 */
/* subtract now from tt to get delta time */
/* if (ttusec < nowusec) return 0.0; */
/*negative delays are all right */
delta = ttusec - nowusec;
return (float)(delta*0.001f);
}
}
/* end of unpackOSC.c */
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