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//<>< (C) 2016 C. N. Lohr, MOSTLY Under MIT/x11 License.
//
//Based off of https://github.com/collabora/OSVR-Vive-Libre
// Originally Copyright 2016 Philipp Zabel
// Originally Copyright 2016 Lubosz Sarnecki <lubosz.sarnecki@collabora.co.uk>
// Originally Copyright (C) 2013 Fredrik Hultin
// Originally Copyright (C) 2013 Jakob Bornecrantz
//
//But, re-written as best as I can to get it put under an open souce license instead of a forced-source license.
//If there are portions of the code too similar to the original, I would like to know so they can be re-written.
//All MIT/x11 Licensed Code in this file may be relicensed freely under the GPL or LGPL licenses.
#include "survive_internal.h"
#include <stdint.h>
#include <string.h>
#define POP1 (*(readdata++))
#define POP2 (*(((uint16_t*)((readdata+=2)-2))))
#define POP4 (*(((uint32_t*)((readdata+=4)-4))))
//Pass pointer to end-of-string
int ARCANEPOP( uint8_t ** end, uint8_t * start )
{
//78
//a8 03
uint8_t tnum;
uint32_t accumulator;
tnum = (*end)[0];
accumulator = (tnum&0x7f);
(*end)--;
if( ( tnum & 0x80 ) || ( *end == start ) ) return accumulator;
tnum = (*end)[0];
accumulator = (accumulator<<7)|(tnum&0x7f);
(*end)--;
if( ( tnum & 0x80 ) || ( *end == start ) ) return accumulator;
tnum = (*end)[0];
(*end)--;
accumulator = (accumulator<<7)|(tnum&0x7f);
if( ( tnum & 0x80 ) || ( *end == start ) ) return accumulator;
tnum = (*end)[0];
(*end)--;
accumulator = (accumulator<<7)|(tnum&0x7f);
return accumulator;
}
struct LightcapElement
{
uint8_t sensor_id;
uint8_t type;
uint16_t length;
uint32_t timestamp;
} __attribute__((packed));
static void handle_lightcap( struct SurviveObject * so, struct LightcapElement * le )
{
struct SurviveContext * ct = so->ctx;
if( le->type != 0xfe || le->length < 50 ) return;
//le->timestamp += (le->length/2);
if( le->length > 900 ) //Pulse longer than 18us?
{
int32_t deltat = (uint32_t)le->timestamp - (uint32_t)ct->last_photo_time;
if( deltat > 2000 || deltat < -2000 ) //New pulse. (may be inverted)
{
ct->last_photo_time = le->timestamp;
ct->total_photo_time = 0;
ct->total_photos = 0;
ct->total_pulsecode_time = 0;
survive_light_process( so, le->sensor_id, -1, 0, le->timestamp );
}
else
{
ct->total_pulsecode_time += le->length;
ct->total_photo_time += deltat;
ct->total_photos++;
}
}
else if( le->length < 900 && le->length > 50 && ct->total_photos )
{
int32_t dl = (ct->total_photo_time/ct->total_photos);
int32_t tpco = (ct->total_pulsecode_time/ct->total_photos);
//Adding length
int32_t offset_from = le->timestamp - dl - ct->last_photo_time + le->length/2;
//Long pulse-code from IR flood.
//Make sure it fits nicely into a divisible-by-500 time.
int32_t acode = (tpco+125)/250;
if( acode & 1 ) return;
acode>>=1;
survive_light_process( so, le->sensor_id, acode, offset_from, le->timestamp );
}
else
{
//Runt pulse.
}
}
static void handle_watchman( struct SurviveObject * w, uint8_t * readdata )
{
int i;
uint8_t startread[29];
memcpy( startread, readdata, 29 );
#if 0
printf( "DAT: " );
for( i = 0; i < 29; i++ )
{
printf( "%02x ", readdata[i] );
}
printf("\n");
#endif
uint8_t time1 = POP1;
uint8_t qty = POP1;
uint8_t time2 = POP1;
uint8_t type = POP1;
qty-=2;
int propset = 0;
int doimu = 0;
if( (type & 0xf0) == 0xf0 )
{
propset |= 4;
//printf( "%02x %02x %02x %02x\n", qty, type, time1, time2 );
type &= ~0x10;
if( type & 0x01 )
{
qty-=1;
w->buttonmask = POP1;
type &= ~0x01;
}
if( type & 0x04 )
{
qty-=1;
w->axis1 = ( POP1 ) * 128;
type &= ~0x04;
}
if( type & 0x02 )
{
qty-=4;
w->axis2 = POP2;
w->axis3 = POP2;
type &= ~0x02;
}
//XXX TODO: Is this correct? It looks SO WACKY
type &= 0x7f;
if( type == 0x68 ) doimu = 1;
type &= 0x0f;
if( type == 0x00 && qty ) { type = POP1; qty--; }
}
if( type == 0xe1 )
{
propset |= 1;
w->charging = readdata[0]>>7;
w->charge = POP1&0x7f; qty--;
w->ison = 1;
if( qty )
{
qty--;
type = POP1; //IMU usually follows.
}
}
if( ( ( type & 0xe8 ) == 0xe8 ) || doimu ) //Hmm, this looks kind of yucky... we can get e8's that are accelgyro's but, cleared by first propset.
{
propset |= 2;
survive_imu_process( w, (int16_t *)&readdata[1], (time1<<24)|(time2<<16)|readdata[0], 0 );
int16_t * k = (int16_t *)readdata+1;
//printf( "Match8 %d %d %d %d %d %3d %3d\n", qty, k[0], k[1], k[2], k[3], k[4], k[5] );
readdata += 13; qty -= 13;
type &= ~0xe8;
if( qty )
{
qty--;
type = POP1;
}
}
if( qty )
{
qty++;
readdata--;
*readdata = type;
//Put type back on stack. It might have changed
//from above.
#if 0 //Doesn't work!!!!
int reads = qty/6;
int leds[6];
leds[0] = type;
for( i = 1; i < reads; i++ )
{
leds[i] = POP1;
}
for( i = 0; i < reads; i++ )
{
printf( "%02x: ", leds[i] );
for( i = 0; i < 5; i++ )
{
printf( "%02x ", POP1 );
}
printf( "\n" );
}
#endif
//What does post data look like?
//1) code, code, code, PAAYYLOOAAADDD
//"code" typically has 2 or fewer bits in word set.
// code = 0x00 = expect 5 bytes
// code = 0x08 = expect 5 bytes
// code = 0x10 = expect 5 bytes
// code = 0x5c = ???? ... 12?
// code = 0x91 = ???? ... 25 bytes?
#if 1
static int lasttime;
// good good maybe? probably wrong
int mytimex = (time1<<24)|(time2<<16)|(readdata[4]<<8)|(readdata[5]);
int diff = mytimex - lasttime;
lasttime = mytimex;
printf( "POST %d: %4d (%02x%02x) - ", propset, qty, time1, time2 );
for( i = 0; i < qty + 4; i++ )
{
printf( "%02x ", readdata[i] );
}
printf("\n");
#endif
//XXX XXX XXX This code is awful. Rejigger to make go fast.
uint8_t * end = &readdata[qty-4];
uint8_t * start = readdata;
//XXX TODO: Do something clever here to get the MSB for the timecode. Can do by
//looking at the difference of the msb of the wrong packet and last OR difference from this
//and IMU timecode.
uint32_t imutime = (time1<<24) | (time2<<16);
uint32_t mytime = (end[1] << 0)|(end[2] << 8)|(end[3] << 16);
mytime |= (time1<<24);
int32_t tdiff = mytime - imutime;
if( tdiff > 0x7fffff ) { mytime -= 0x01000000; }
if( tdiff < -0x7fffff ) { mytime += 0x01000000; }
uint32_t parameters[25];
int parplace = 0;
while( end != start )
{
uint32_t acpop = ARCANEPOP( &end, start );
parameters[parplace++] = acpop;
int remain = end - start + 1;
if( (parplace+1) / 2 >= remain ) break;
}
uint32_t lights[10];
int lightno = 0;
while( end >= start )
{
lights[lightno++] = end[0];
end--;
}
if( (parplace+1)/2 != lightno )
{
struct SurviveContext * ctx = w->ctx;
SV_INFO( "Watchman code count doesn't match" );
return;
}
//What I think I know:
// 2 pulses: mytime pulse? deltime? deltime? pulse? deltime?
// 3 pulses: mytime pulse? deltime? deltime? pulse? deltime? deltime? pulse deltime?
// Maybe pulse codes are change in masks?
//One light on then off. Events (1358180290): 50/( 112/ 1714)50/( 107/ -1)
// LED 50 / LED 60
// 5a/(7 >< 90)60/( 7 <> 1719)5a/(7/90)60/(7/-1)
// 50 then
// 7 later) 60 on
// 90 later, 60 only
// 7 later, 60 off.
// 1719 later, 50 on
// 7 later, 60 on.
// 90 later, 50 off
// 7 later, 60 off.
//Notes: All LEDs are divisble by 8.
//That leaves us 3 bits earlier in the message.
//
//
//Assumptions: Bit 0 1
//XXX DISCARD BETWEEN HERE
//More details. Example:
// 40 only / 40 and 48 / 48 only
// 49/( 139/ 102)41/( 130/ -1)
// 48 only / 48 and 40 / 40 only
// 41/( 129/ 102)49/( 132/ -1)
//
// 00 then 08+00 then 08 only
// 09/( 133/ 100)01/( 135/ -1)
// 08 then 08+00 then 00 only
// 01/( 133/ 102)09/( 133/ -1)
//
// 10 then 10+00+08 then 00+08
// 0a/( 107/ 20)73/( 93/ 17)11/( 132/ -1)
// 08+00 then 10+08+00 then 10
// 6a/( 34/ 35)12/( 86/ 125)0a/( 20/ -1)
//
// 08 then 10+08 then 10
// 11/( 136/ 97)09/( 136/ -1)
// 08 then nothing then 10
// 10/( 104/ 161)08/( 102/ -1)
// 10/( 105/ 425)08/( 102/ -1) (LONGER DELAY BETWEEN)
// 10/( 369/ 423)08/( 102/ -1) (LONGER FIRST PULSE)
// 40 -> 48 -> 50 50/( 523/ 2260)48/( 520/ 2260)40/( 873/ -1)
//AND HERE!!! XXX DISCARD
//I think the format is:
// mytime = start of events
// mask = LEDs on.
// parameter = delta
// mask = Led mask switching
static int olddel = 0;
int lightmask = lights[0];
//
//
//
//Operting on mytime
printf( "Events (%10d): ", mytime );
for( i = 0; i < lightno; i++ )
{
int deltaA = parameters[parplace-i*2-1];
int deltaB = -1;
if( parplace-i*2-2 >= 0 )
deltaB = parameters[parplace-i*2-2];
printf( "%02x/(%5d/%5d)", lightmask, deltaA, deltaB );
if( lightno-i-2 >= 0 )
lightmask = lights[i+1];
}
printf( "\n");
//Three distinct motions.
// 40 nothing (long wait) 48 nothing 50 nothing (long pulse)
// 40/( 524/ 2262)48/( 522/ 570)50/( 874/ -1)
// 40, 40+48, 48 only.
// 41/( 529/ 517)49/( 875/ -1)
// 48, 48+40, 40 only
// 49/( 525/ 518)41/( 877/ -1)
// 48 then 48+40 then 48 only //XXX SERIOUSLY????
// 40/( 526/ 524)4a/( 869/ -1)
// 48 then 48+50 then 50 only.
// 49/( 528/ 518)51/( 881/ -1)
// 50 then 48+50 then 48 only.
// 51/( 528/ 520)49/( 523/ -1)
// 48 then 48+50 then 50 only.
// 49/( 527/ 518)51/( 532/ -1)
// 48 then 48+50 then 48 only //INCORRECT BELOW HERE XXX DO NOT TRUST!!!
// 50/( 527/ 524)4a/( 515/ -1) //No, really... wat?
// 50 then 48+50 then 50 only
// 48/( 529/ 521)52/( 524/ -1) // oh come on!
// 50 then 48+50 then 50 only then 50+40 then 50 only.
// 40/( 5364/ 2292)50/( 5363/283869)48/( 526/ 521)52/( 522/ -1)
/*
for( i = 0; i < lightno; i++ )
{
struct LightcapElement le;
le.sensor_id = lights[lightno-i-1];
le.type = 0xfe;
le.length = parameters[parplace-i*2-1];
le.timestamp = mytime;
handle_lightcap( w, &le );
int delta = le.timestamp - olddel;
olddel = le.timestamp;
printf( "LIGHTCAP: %02x %3d %10lu %d\n", le.sensor_id, le.length, le.timestamp, delta );
int pl = parplace-i*2-2;
if( pl>=0 )
mytime += parameters[parplace-i*2-2];
}
*/
#if 0
printf( " SRR: " );
for( i = 0; i < 29; i++ )
{
printf( "%02x ", startread[i] );
}
printf( "\n" );
#endif
}
return;
//NO, seriously, there is something wacky going on here.
// else if( type == 0xe8 && sensor_id == 15 )
// {
// printf( "IMU\n" );
// }
/*
{
printf( "PSIDPIN:%3d ", qty );
w->charging = readdata[0]>>7;
w->charge = readdata[0]&0x7f;
w->ison = 1;
printf( "%02x/%02x/%02x/%02x: ", type, qty, time1, time2 );
for( i = 0; i < 25; i++ )
{
printf( "%02x ", readdata[i] );
}
printf("\n");
/*
//WHAT IS THIS???
printf( "%02x/%02x/%02x/%02x: ", type, sensor_id, time1, time2 );
for( i = 0; i < 25; i++ )
{
printf( "%02x ", readdata[i] );
}
printf("\n");*/
}
void survive_data_cb( struct SurviveUSBInterface * si )
{
int size = si->actual_len;
struct SurviveContext * ctx = si->ctx;
#if 0
int i;
printf( "%16s: %d: ", si->hname, len );
for( i = 0; i < size; i++ )
{
printf( "%02x ", si->buffer[i] );
}
printf( "\n" );
return;
#endif
int iface = si->which_interface_am_i;
uint8_t * readdata = si->buffer;
int id = POP1;
// printf( "%16s Size: %2d ID: %d / %d\n", si->hname, size, id, iface );
switch( si->which_interface_am_i )
{
case USB_IF_HMD:
{
struct SurviveObject * headset = &ctx->headset;
readdata+=2;
headset->buttonmask = POP1; //Lens
headset->axis2 = POP2; //Lens Separation
readdata+=2;
headset->buttonmask |= POP1; //Button
readdata+=3;
readdata++; //Proxchange, No change = 0, Decrease = 1, Increase = 2
readdata++;
headset->axis3 = POP2; //Proximity << how close to face are you? Less than 80 = not on face.
headset->axis1 = POP2; //IPD << what is this?
headset->ison = 1;
break;
}
case USB_IF_LIGHTHOUSE:
{
int i;
//printf( "%d -> ", size );
for( i = 0; i < 3; i++ )
{
/*
for( i = 0; i < 17; i++ )
{
printf( "%02x ", readdata[i] );
}
printf( "\n" );
*/
//handle_lightdata( (struct LightpulseStructure *)readdata );
int16_t * acceldata = (int16_t*)readdata;
readdata += 12;
uint32_t timecode = POP4;
uint8_t code = POP1;
//printf( "%d ", code );
int8_t cd = code - ctx->oldcode;
if( cd > 0 )
{
ctx->oldcode = code;
survive_imu_process( &ctx->headset, acceldata, timecode, code );
}
}
//DONE OK.
break;
}
case USB_IF_WATCHMAN1:
case USB_IF_WATCHMAN2:
{
struct SurviveObject * w = &ctx->watchman[si->which_interface_am_i-USB_IF_WATCHMAN1];
if( id == 35 )
{
handle_watchman( w, readdata);
}
else if( id == 36 )
{
handle_watchman( w, readdata);
handle_watchman( w, readdata+29 );
}
else if( id == 38 )
{
w->ison = 0;
}
else
{
SV_INFO( "Unknown watchman code %d\n", id );
}
break;
}
case USB_IF_LIGHTCAP:
{
//Done!
int i;
for( i = 0; i < 7; i++ )
{
handle_lightcap( &ctx->headset, (struct LightcapElement*)&readdata[i*8] );
}
break;
}
}
}
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