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Branch: master
Commit: 2054081eeb
Author: max_10 <max_10@gmx.de>
Date: 2017-09-25 (Mon, 25 Sep 2017)


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No further description and justification available within origin commit message!

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This commit was generated by Migit
This commit is contained in:
max_10
2017-09-25 14:49:38 +02:00
parent 586d362a66
commit 701ed19483
10 changed files with 6 additions and 6042 deletions
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72
libarmbox/README.libtriple
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@@ -1,72 +0,0 @@
libtriple reimplements the interfaces of the libcoolstrem library for
the Tripledragon receiver.
There are a few debugging or configuration helpers which affect the
way libtriple does some things. They are all configured by exporting
environment variables, which are described here:
TRIPLE_NOSCART=1 - makes neutrino *not* do any voltage switching on
SCART pin 8, probably not useful for anyone but me
TRIPLE_DEBUG=... - controls various debugging levels in libtriple
valid values for the different component:
audio 0x01
video 0x02
demux 0x04
play 0x08
power 0x10
init 0x20
ca 0x40
record 0x80
all 0xff
multiple levels are added / ORed together, so if you want to
debug record and playback code, do "export TRIPLE_DEBUG=0x88"
for audio & video use TRIPLE_DEBUG=0x3
DSP_DEVICE
MIX_DEVICE - alternative audio devices for the audioplayer and internet
radio. Those are used to output music to e.g. USB audio devices.
Here is what you need to do:
* look in /dev/sound which devices are already there. Probably
/dev/sound/dsp and /dev/sound/mixer, created by the tdoss driver
* make sure that the USB HC driver is loaded:
modprobe ohci-hcd
* load the USB audio driver:
modprobe audio
* plug in your USB audio device, check with "dmesg" that it is
recognised by the kernel
* look in /dev/sound which new devices are there. Probably it's
/dev/sound/dsp1 and /dev/sound/mixer1. If there are more - well
it's time to experiment ;)
* export DSP_DEVICE=/dev/sound/dsp1 and MIX_DEVICE=/dev/sound/mixer1
(of course the devices you found in the last step)
* from the same shell you exported the variables, start neutrino
(make sure that an already running neutrino is stopped before you
do that)
* start the audioplayer, play a track. Look for log lines like
[LT:106b5788:audio ] PrepareClipPlay: dsp_dev /dev/sound/dsp1 mix_dev /dev/sound/mixer1
* if it works - fine :-)
* if it does not work, look for:
PrepareClipPlay: DSP_DEVICE is set (/dev/sound/dsp1) but cannot be opened, fall back to /dev/sound/dsp
PrepareClipPlay: dsp_dev /dev/sound/dsp mix_dev /dev/sound/mixer1
PrepareClipPlay: open mixer /dev/sound/mixer1 failed (No such file or directory)
* this basically means that the device is not there. Different errors
will get different messages - I cannot trigger those now, so you'll
need to find them out by yourself ;)
* another possible messag you may get is:
PrepareClipPlay: more than one mixer control: devmask 00000021 stereo 00000021
This means that your device has more than one mixer. The set bit
numbers in the devmask are the different mixers, in this case
it would be number 0 and 5. To select one of those, export
MIX_NUMBER=5 or MIX_NUMBER=0 (this code is untested, there may
be bugs)
So now I found out what devices to use, but how do I make that permanent?
That's easy:
* create or extend /etc/rcS.local with
modprobe ohci-hcd
modprobe audio
* create or extend /etc/profile.local with
export DSP_DEVICE=/dev/sound/dsp1
export MIX_DEVICE=/dev/sound/mixer1
* reboot. Enjoy.

3
libarmbox/dmx.cpp
View File

@@ -90,7 +90,6 @@ extern cVideo *videoDecoder;
cDemux *videoDemux = NULL;
cDemux *audioDemux = NULL;
//cDemux *pcrDemux = NULL;
static const char *DMX_T[] = {
"DMX_INVALID",
@@ -486,7 +485,7 @@ bool cDemux::pesFilter(const unsigned short pid)
p_flt.pid = pid;
p_flt.output = DMX_OUT_DECODER;
p_flt.input = DMX_IN_FRONTEND;
p_flt.flags = DMX_IMMEDIATE_START;
p_flt.flags = 0;
switch (dmx_type) {
case DMX_PCR_ONLY_CHANNEL:

273
libarmbox/init.cpp
View File

@@ -1,6 +1,3 @@
#include <config.h>
#include <stdio.h>
#include "init_lib.h"
@@ -12,254 +9,12 @@
#include <string.h>
#include <unistd.h>
#include <linux/dvb/dmx.h>
#include "pwrmngr.h"
#include "lt_debug.h"
#define lt_debug(args...) _lt_debug(TRIPLE_DEBUG_INIT, NULL, args)
#define lt_info(args...) _lt_info(TRIPLE_DEBUG_INIT, NULL, args)
#include <stdio.h>
#include <dirent.h>
#include <unistd.h>
#include <ctype.h>
#include <linux/input.h>
#include <time.h>
#include <poll.h>
#include <errno.h>
#include <pthread.h>
#include <sys/types.h>
#include <sys/prctl.h>
#include <string.h>
#define VIRTUALINPUT "/sys/devices/virtual/input"
#define DEVINPUT "/dev/input"
typedef struct {
const char *name;
const char *desc;
int fd;
unsigned int major;
unsigned int minor;
time_t next_discovery;
} input_device_t;
static input_device_t input_device[] = {
{ "/dev/input/nevis_ir", "lircd", -1, 0, 0, 0 },
{ "/dev/input/tdt_rc", "TDT RC event driver", -1, 0, 0, 0 },
{ "/dev/input/fulan_fp", "fulan front panel buttons", -1, 0, 0, 0 },
{ "/dev/input/event0", NULL, -1, 0, 0, 0 },
{ "/dev/input/event1", NULL, -1, 0, 0, 0 },
{ "/dev/input/event2", NULL, -1, 0, 0, 0 },
{ "/dev/input/event3", NULL, -1, 0, 0, 0 },
{ "/dev/input/event4", NULL, -1, 0, 0, 0 },
{ "/dev/input/event5", NULL, -1, 0, 0, 0 },
{ "/dev/input/event6", NULL, -1, 0, 0, 0 },
{ "/dev/input/event7", NULL, -1, 0, 0, 0 },
{ NULL, NULL, -1, 0, 0, 0 }
};
#define number_of_input_devices (sizeof(input_device)/sizeof(input_device_t) - 1)
static void do_mknod(int i, char *d_name) {
char name[255];
int dev = -1;
// I've no idea how the event device number is actually calculated. Just loop. --martii
for (int j = 0; j < 99 && dev < 0; j++) {
snprintf(name, sizeof(name), VIRTUALINPUT "/%s/event%d/dev", d_name, j);
dev = open (name, O_RDONLY);
}
if (dev > -1) {
char buf[255];
int l = read(dev, buf, sizeof(buf) - 1);
close(dev);
if (l > -1) {
buf[l] = 0;
if (2 == sscanf(buf, "%d:%d", &input_device[i].major, &input_device[i].minor)) {
mknod(input_device[i].name, 0666 | S_IFCHR,
gnu_dev_makedev(input_device[i].major, input_device[i].minor));
}
}
}
}
static void create_input_devices (void) {
DIR *d = opendir (VIRTUALINPUT);
if (d) {
struct dirent *e;
while ((e = readdir(d))) {
char name[255];
if (e->d_name[0] == '.')
continue;
snprintf(name, sizeof(name), VIRTUALINPUT "/%s/name", e->d_name);
int n = open(name, O_RDONLY);
if (n > -1) {
char buf[255];
int l = read(n, buf, sizeof(buf) - 1);
close(n);
if (l > 1) {
do
buf[l--] = 0;
while (l > 1 && buf[l] == '\n');
for (unsigned int i = 0; i < number_of_input_devices; i++)
if (input_device[i].desc && !strcmp(buf, input_device[i].desc)) {
do_mknod(i, e->d_name);
break;
}
}
}
}
closedir(d);
}
// remove any event* files left that point to our "well-known" inputs
d = opendir (DEVINPUT);
if (d) {
struct dirent *e;
while ((e = readdir(d))) {
char name[255];
if (strncmp(e->d_name, "event", 5))
continue;
snprintf(name, sizeof(name), DEVINPUT "/%s", e->d_name);
struct stat st;
if (stat(name, &st))
continue;
for (unsigned int i = 0; i < number_of_input_devices; i++)
if (input_device[i].major &&
gnu_dev_major(st.st_rdev) == input_device[i].major &&
gnu_dev_minor(st.st_rdev) == input_device[i].minor)
unlink(name);
}
closedir(d);
}
}
static pthread_t inmux_task = 0;
static int inmux_thread_running = 0;
static void open_input_devices(void) {
time_t now = time(NULL);
for (unsigned int i = 0; i < number_of_input_devices; i++)
if ((input_device[i].fd < 0) && (input_device[i].next_discovery <= now)) {
input_device[i].next_discovery = now + 60;
input_device[i].fd = open(input_device[i].name, O_RDWR | O_NONBLOCK);
}
}
static void reopen_input_devices(void) {
create_input_devices();
time_t now = time(NULL);
for (unsigned int i = 0; i < number_of_input_devices; i++) {
input_device[i].next_discovery = now + 60;
int fd = open(input_device[i].name, O_RDWR | O_NONBLOCK);
if (fd > -1) {
if (input_device[i].fd > -1) {
dup2(fd, input_device[i].fd);
close (fd);
} else {
input_device[i].fd = fd;
}
} else if (input_device[i].fd > -1) {
close (input_device[i].fd);
input_device[i].fd = -1;
}
}
}
static void close_input_devices(void) {
for (unsigned int i = 0; i < number_of_input_devices; i++)
if (input_device[i].fd > -1) {
close(input_device[i].fd);
input_device[i].fd = -1;
}
}
static void poll_input_devices(void) {
struct pollfd fds[number_of_input_devices];
input_device_t *inputs[number_of_input_devices];
int nfds = 0;
for (unsigned int i = 1; i < number_of_input_devices; i++)
if (input_device[i].fd > -1) {
fds[nfds].fd = input_device[i].fd;
fds[nfds].events = POLLIN | POLLHUP | POLLERR;
fds[nfds].revents = 0;
inputs[nfds] = &input_device[i];
nfds++;
}
if (nfds == 0) {
// Only a single input device, which happens to be our master. poll() to avoid looping too fast.
fds[0].fd = input_device[0].fd;
fds[0].events = POLLIN | POLLHUP | POLLERR;
fds[0].revents = 0;
poll(fds, 1, 60000 /* ms */);
return;
}
int r = poll(fds, nfds, 60000 /* ms */);
if (r < 0) {
if (errno != EAGAIN) {
lt_info("%s: poll(): %m\n", __func__);
inmux_thread_running = 0;
}
return;
}
for (int i = 0; i < nfds && r > 0; i++) {
if (fds[i].revents & POLLIN) {
//fprintf(stderr, "### input from fd %d (%s)\n", fds[i].fd, inputs[i]->name);
struct input_event ev;
while (sizeof(ev) == read(fds[i].fd, &ev, sizeof(ev)))
write(input_device[0].fd, &ev, sizeof(ev));
r--;
} else if (fds[i].revents & (POLLHUP | POLLERR | POLLNVAL)) {
//fprintf(stderr, "### error on %d (%s)\n", fds[i].fd, inputs[i]->name);
close (fds[i].fd);
inputs[i]->fd = -1;
r--;
}
}
}
static void *inmux_thread(void *)
{
char threadname[17];
strncpy(threadname, __func__, sizeof(threadname));
threadname[16] = 0;
prctl (PR_SET_NAME, (unsigned long)&threadname);
inmux_thread_running = 1;
while (inmux_thread_running) {
open_input_devices();
poll_input_devices();
}
return NULL;
}
void start_inmux_thread(void)
{
input_device[0].fd = open(input_device[0].name, O_RDWR | O_NONBLOCK); // nevis_ir. This is mandatory.
if (input_device[0].fd < 0){
lt_info("%s: open(%s): %m\n", __func__, input_device[0].name);
return;
}
if (pthread_create(&inmux_task, 0, inmux_thread, NULL) != 0)
{
lt_info("%s: inmux thread pthread_create: %m\n", __func__);
inmux_thread_running = 0;
return;
}
pthread_detach(inmux_task);
}
void stop_inmux_thread(void)
{
inmux_thread_running = 0;
}
static bool initialized = false;
void init_td_api()
@@ -271,31 +26,7 @@ void init_td_api()
{
cCpuFreqManager f;
f.SetCpuFreq(0); /* CPUFREQ == 0 is the trigger for leaving standby */
create_input_devices();
start_inmux_thread();
#if 0
/* this is a strange hack: the drivers seem to only work correctly after
* demux0 has been used once. After that, we can use demux1,2,... */
struct dmx_pes_filter_params p;
int dmx = open("/dev/dvb/adapter0/demux0", O_RDWR|O_CLOEXEC);
if (dmx < 0)
lt_info("%s: ERROR open /dev/dvb/adapter0/demux0 (%m)\n", __func__);
else
{
memset(&p, 0, sizeof(p));
p.output = DMX_OUT_DECODER;
p.input = DMX_IN_FRONTEND;
p.flags = DMX_IMMEDIATE_START;
p.pes_type = DMX_PES_VIDEO;
ioctl(dmx, DMX_SET_PES_FILTER, &p);
ioctl(dmx, DMX_STOP);
close(dmx);
}
#endif
}
else
reopen_input_devices();
initialized = true;
lt_info("%s end\n", __FUNCTION__);
}
@@ -303,9 +34,5 @@ void init_td_api()
void shutdown_td_api()
{
lt_info("%s, initialized = %d\n", __FUNCTION__, (int)initialized);
if (initialized) {
stop_inmux_thread();
close_input_devices();
}
initialized = false;
}

4284
libarmbox/irmp.c
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File diff suppressed because it is too large Load Diff

528
libarmbox/irmp.h
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@@ -1,528 +0,0 @@
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* irmp.h
*
* Copyright (c) 2009-2011 Frank Meyer - frank(at)fli4l.de
*
* $Id: irmp.h,v 1.70 2012/02/21 08:41:46 fm Exp $
*
* ATMEGA88 @ 8 MHz
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#ifndef _WC_IRMP_H_
#define _WC_IRMP_H_
#if defined(__18CXX) // Microchip C18 declaration of missing typedef
typedef unsigned char uint8_t;
typedef unsigned int uint16_t;
#endif //Microchip C18
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* timing constants:
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
// fm 22.09.2011: may not be more than 16000L, otherwise some JVC codes will not be accepted
#define IRMP_TIMEOUT_TIME 15500.0e-6 // timeout after 15.5 ms darkness
#define IRMP_TIMEOUT_TIME_MS 15500L // timeout after 15.5 ms darkness
#if IRMP_SUPPORT_NIKON_PROTOCOL == 1
#define IRMP_TIMEOUT_NIKON_TIME 29500.0e-6 // 2nd timeout after 29.5 ms darkness (only for NIKON!)
#define IRMP_TIMEOUT_NIKON_TIME_MS 29500L // 2nd timeout after 29.5 ms darkness
typedef uint16_t PAUSE_LEN;
#define IRMP_TIMEOUT_NIKON_LEN (PAUSE_LEN)(F_INTERRUPTS * IRMP_TIMEOUT_NIKON_TIME + 0.5)
#else
#if (F_INTERRUPTS * IRMP_TIMEOUT_TIME_MS) / 1000000 >= 254
typedef uint16_t PAUSE_LEN;
#else
typedef uint8_t PAUSE_LEN;
#endif
#endif
#define IRMP_TIMEOUT_LEN (PAUSE_LEN)(F_INTERRUPTS * IRMP_TIMEOUT_TIME + 0.5)
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* IR protocols
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#define IRMP_SIRCS_PROTOCOL 1 // Sony
#define IRMP_NEC_PROTOCOL 2 // NEC, Pioneer, JVC, Toshiba, NoName etc.
#define IRMP_SAMSUNG_PROTOCOL 3 // Samsung
#define IRMP_MATSUSHITA_PROTOCOL 4 // Matsushita
#define IRMP_KASEIKYO_PROTOCOL 5 // Kaseikyo (Panasonic etc)
#define IRMP_RECS80_PROTOCOL 6 // Philips, Thomson, Nordmende, Telefunken, Saba
#define IRMP_RC5_PROTOCOL 7 // Philips etc
#define IRMP_DENON_PROTOCOL 8 // Denon, Sharp
#define IRMP_RC6_PROTOCOL 9 // Philips etc
#define IRMP_SAMSUNG32_PROTOCOL 10 // Samsung32: no sync pulse at bit 16, length 32 instead of 37
#define IRMP_APPLE_PROTOCOL 11 // Apple, very similar to NEC
#define IRMP_RECS80EXT_PROTOCOL 12 // Philips, Technisat, Thomson, Nordmende, Telefunken, Saba
#define IRMP_NUBERT_PROTOCOL 13 // Nubert
#define IRMP_BANG_OLUFSEN_PROTOCOL 14 // Bang & Olufsen
#define IRMP_GRUNDIG_PROTOCOL 15 // Grundig
#define IRMP_NOKIA_PROTOCOL 16 // Nokia
#define IRMP_SIEMENS_PROTOCOL 17 // Siemens, e.g. Gigaset
#define IRMP_FDC_PROTOCOL 18 // FDC keyboard
#define IRMP_RCCAR_PROTOCOL 19 // RC Car
#define IRMP_JVC_PROTOCOL 20 // JVC (NEC with 16 bits)
#define IRMP_RC6A_PROTOCOL 21 // RC6A, e.g. Kathrein, XBOX
#define IRMP_NIKON_PROTOCOL 22 // Nikon
#define IRMP_RUWIDO_PROTOCOL 23 // Ruwido, e.g. T-Home Mediareceiver
#define IRMP_IR60_PROTOCOL 24 // IR60 (SAB2008)
#define IRMP_KATHREIN_PROTOCOL 25 // Kathrein
#define IRMP_NETBOX_PROTOCOL 26 // Netbox keyboard (bitserial)
#define IRMP_NEC16_PROTOCOL 27 // NEC with 16 bits (incl. sync)
#define IRMP_NEC42_PROTOCOL 28 // NEC with 42 bits
#define IRMP_LEGO_PROTOCOL 29 // LEGO Power Functions RC
#define IRMP_THOMSON_PROTOCOL 30 // Thomson
#define IRMP_GRUNDIG2_PROTOCOL 31 // Grundig, e.g. TP400
#define IRMP_N_PROTOCOLS 31 // number of supported protocols
// some flags of struct IRMP_PARAMETER:
#define IRMP_PARAM_FLAG_IS_MANCHESTER 0x01
#define IRMP_PARAM_FLAG_1ST_PULSE_IS_1 0x02
#define IRMP_PARAM_FLAG_IS_SERIAL 0x04
#define SIRCS_START_BIT_PULSE_TIME 2400.0e-6 // 2400 usec pulse
#define SIRCS_START_BIT_PAUSE_TIME 600.0e-6 // 600 usec pause
#define SIRCS_1_PULSE_TIME 1200.0e-6 // 1200 usec pulse
#define SIRCS_0_PULSE_TIME 600.0e-6 // 600 usec pulse
#define SIRCS_PAUSE_TIME 600.0e-6 // 600 usec pause
#define SIRCS_FRAMES 3 // SIRCS sends each frame 3 times
#define SIRCS_AUTO_REPETITION_PAUSE_TIME 25.0e-3 // auto repetition after 25ms
#define SIRCS_FRAME_REPEAT_PAUSE_TIME 25.0e-3 // frame repeat after 25ms
#define SIRCS_ADDRESS_OFFSET 15 // skip 15 bits
#define SIRCS_ADDRESS_LEN 5 // read up to 5 address bits
#define SIRCS_COMMAND_OFFSET 0 // skip 0 bits
#define SIRCS_COMMAND_LEN 15 // read 12-15 command bits
#define SIRCS_MINIMUM_DATA_LEN 12 // minimum data length
#define SIRCS_COMPLETE_DATA_LEN 20 // complete length - may be up to 20
#define SIRCS_STOP_BIT 0 // has no stop bit
#define SIRCS_LSB 1 // LSB...MSB
#define SIRCS_FLAGS 0 // flags
#define NEC_START_BIT_PULSE_TIME 9000.0e-6 // 9000 usec pulse
#define NEC_START_BIT_PAUSE_TIME 4500.0e-6 // 4500 usec pause
#define NEC_REPEAT_START_BIT_PAUSE_TIME 2250.0e-6 // 2250 usec pause
#define NEC_PULSE_TIME 560.0e-6 // 560 usec pulse
#define NEC_1_PAUSE_TIME 1690.0e-6 // 1690 usec pause
#define NEC_0_PAUSE_TIME 560.0e-6 // 560 usec pause
#define NEC_FRAME_REPEAT_PAUSE_TIME 40.0e-3 // frame repeat after 40ms
#define NEC_ADDRESS_OFFSET 0 // skip 0 bits
#define NEC_ADDRESS_LEN 16 // read 16 address bits
#define NEC_COMMAND_OFFSET 16 // skip 16 bits (8 address + 8 /address)
#define NEC_COMMAND_LEN 16 // read 16 bits (8 command + 8 /command)
#define NEC_COMPLETE_DATA_LEN 32 // complete length
#define NEC_STOP_BIT 1 // has stop bit
#define NEC_LSB 1 // LSB...MSB
#define NEC_FLAGS 0 // flags
#define NEC42_ADDRESS_OFFSET 0 // skip 0 bits
#define NEC42_ADDRESS_LEN 13 // read 13 address bits
#define NEC42_COMMAND_OFFSET 26 // skip 26 bits (2 x 13 address bits)
#define NEC42_COMMAND_LEN 8 // read 8 command bits
#define NEC42_COMPLETE_DATA_LEN 42 // complete length (2 x 13 + 2 x 8)
#define NEC16_ADDRESS_OFFSET 0 // skip 0 bits
#define NEC16_ADDRESS_LEN 8 // read 8 address bits
#define NEC16_COMMAND_OFFSET 8 // skip 8 bits (8 address)
#define NEC16_COMMAND_LEN 8 // read 8 bits (8 command)
#define NEC16_COMPLETE_DATA_LEN 16 // complete length
#define SAMSUNG_START_BIT_PULSE_TIME 4500.0e-6 // 4500 usec pulse
#define SAMSUNG_START_BIT_PAUSE_TIME 4500.0e-6 // 4500 usec pause
#define SAMSUNG_PULSE_TIME 550.0e-6 // 550 usec pulse
#define SAMSUNG_1_PAUSE_TIME 1650.0e-6 // 1650 usec pause
#define SAMSUNG_0_PAUSE_TIME 550.0e-6 // 550 usec pause
#define SAMSUNG_FRAME_REPEAT_PAUSE_TIME 25.0e-3 // frame repeat after 25ms
#define SAMSUNG_ADDRESS_OFFSET 0 // skip 0 bits
#define SAMSUNG_ADDRESS_LEN 16 // read 16 address bits
#define SAMSUNG_ID_OFFSET 17 // skip 16 + 1 sync bit
#define SAMSUNG_ID_LEN 4 // read 4 id bits
#define SAMSUNG_COMMAND_OFFSET 21 // skip 16 + 1 sync + 4 data bits
#define SAMSUNG_COMMAND_LEN 16 // read 16 command bits
#define SAMSUNG_COMPLETE_DATA_LEN 37 // complete length
#define SAMSUNG_STOP_BIT 1 // has stop bit
#define SAMSUNG_LSB 1 // LSB...MSB?
#define SAMSUNG_FLAGS 0 // flags
#define SAMSUNG32_COMMAND_OFFSET 16 // skip 16 bits
#define SAMSUNG32_COMMAND_LEN 16 // read 16 command bits
#define SAMSUNG32_COMPLETE_DATA_LEN 32 // complete length
#define SAMSUNG32_FRAMES 1 // SAMSUNG32 sends each frame 1 times
#define SAMSUNG32_AUTO_REPETITION_PAUSE_TIME 47.0e-3 // repetition after 47 ms
#define SAMSUNG32_FRAME_REPEAT_PAUSE_TIME 47.0e-3 // frame repeat after 47ms
#define MATSUSHITA_START_BIT_PULSE_TIME 3488.0e-6 // 3488 usec pulse
#define MATSUSHITA_START_BIT_PAUSE_TIME 3488.0e-6 // 3488 usec pause
#define MATSUSHITA_PULSE_TIME 872.0e-6 // 872 usec pulse
#define MATSUSHITA_1_PAUSE_TIME 2616.0e-6 // 2616 usec pause
#define MATSUSHITA_0_PAUSE_TIME 872.0e-6 // 872 usec pause
#define MATSUSHITA_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define MATSUSHITA_ADDRESS_OFFSET 12 // skip 12 bits
#define MATSUSHITA_ADDRESS_LEN 12 // read 12 address bits
#define MATSUSHITA_COMMAND_OFFSET 0 // skip 0 bits
#define MATSUSHITA_COMMAND_LEN 12 // read 12 bits (6 custom + 6 command)
#define MATSUSHITA_COMPLETE_DATA_LEN 24 // complete length
#define MATSUSHITA_STOP_BIT 1 // has stop bit
#define MATSUSHITA_LSB 1 // LSB...MSB?
#define MATSUSHITA_FLAGS 0 // flags
#define KASEIKYO_START_BIT_PULSE_TIME 3380.0e-6 // 3380 usec pulse
#define KASEIKYO_START_BIT_PAUSE_TIME 1690.0e-6 // 1690 usec pause
#define KASEIKYO_PULSE_TIME 423.0e-6 // 525 usec pulse
#define KASEIKYO_1_PAUSE_TIME 1269.0e-6 // 525 usec pause
#define KASEIKYO_0_PAUSE_TIME 423.0e-6 // 1690 usec pause
#define KASEIKYO_AUTO_REPETITION_PAUSE_TIME 74.0e-3 // repetition after 74 ms
#define KASEIKYO_FRAME_REPEAT_PAUSE_TIME 74.0e-3 // frame repeat after 74 ms
#define KASEIKYO_ADDRESS_OFFSET 0 // skip 0 bits
#define KASEIKYO_ADDRESS_LEN 16 // read 16 address bits
#define KASEIKYO_COMMAND_OFFSET 28 // skip 28 bits (16 manufacturer & 4 parity & 8 genre)
#define KASEIKYO_COMMAND_LEN 12 // read 12 command bits (10 real command & 2 id)
#define KASEIKYO_COMPLETE_DATA_LEN 48 // complete length
#define KASEIKYO_STOP_BIT 1 // has stop bit
#define KASEIKYO_LSB 1 // LSB...MSB?
#define KASEIKYO_FRAMES 2 // KASEIKYO sends 1st frame 2 times
#define KASEIKYO_FLAGS 0 // flags
#define RECS80_START_BIT_PULSE_TIME 158.0e-6 // 158 usec pulse
#define RECS80_START_BIT_PAUSE_TIME 7432.0e-6 // 7432 usec pause
#define RECS80_PULSE_TIME 158.0e-6 // 158 usec pulse
#define RECS80_1_PAUSE_TIME 7432.0e-6 // 7432 usec pause
#define RECS80_0_PAUSE_TIME 4902.0e-6 // 4902 usec pause
#define RECS80_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define RECS80_ADDRESS_OFFSET 1 // skip 1 bit (toggle bit)
#define RECS80_ADDRESS_LEN 3 // read 3 address bits
#define RECS80_COMMAND_OFFSET 4 // skip 4 bits (1 toggle + 3 address)
#define RECS80_COMMAND_LEN 6 // read 6 command bits
#define RECS80_COMPLETE_DATA_LEN 10 // complete length
#define RECS80_STOP_BIT 1 // has stop bit
#define RECS80_LSB 0 // MSB...LSB
#define RECS80_FLAGS 0 // flags
#define RC5_BIT_TIME 889.0e-6 // 889 usec pulse/pause
#define RC5_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define RC5_ADDRESS_OFFSET 1 // skip 1 bit (2nd start)
#define RC5_ADDRESS_LEN 6 // read 1 toggle bit (for key repetition detection) + 5 address bits
#define RC5_COMMAND_OFFSET 7 // skip 5 bits (2nd start + 1 toggle + 5 address)
#define RC5_COMMAND_LEN 6 // read 6 command bits
#define RC5_COMPLETE_DATA_LEN 13 // complete length
#define RC5_STOP_BIT 0 // has no stop bit
#define RC5_LSB 0 // MSB...LSB
#define RC5_FLAGS IRMP_PARAM_FLAG_IS_MANCHESTER // flags
#define DENON_PULSE_TIME 310.0e-6 // 310 usec pulse in practice, 275 in theory
#define DENON_1_PAUSE_TIME 1780.0e-6 // 1780 usec pause in practice, 1900 in theory
#define DENON_0_PAUSE_TIME 745.0e-6 // 745 usec pause in practice, 775 in theory
#define DENON_FRAMES 2 // DENON sends each frame 2 times
#define DENON_AUTO_REPETITION_PAUSE_TIME 65.0e-3 // inverted repetition after 65ms
#define DENON_FRAME_REPEAT_PAUSE_TIME 65.0e-3 // frame repeat after 65ms
#define DENON_ADDRESS_OFFSET 0 // skip 0 bits
#define DENON_ADDRESS_LEN 5 // read 5 address bits
#define DENON_COMMAND_OFFSET 5 // skip 5
#define DENON_COMMAND_LEN 10 // read 10 command bits
#define DENON_COMPLETE_DATA_LEN 15 // complete length
#define DENON_STOP_BIT 1 // has stop bit
#define DENON_LSB 0 // MSB...LSB
#define DENON_FLAGS 0 // flags
#define RC6_START_BIT_PULSE_TIME 2666.0e-6 // 2.666 msec pulse
#define RC6_START_BIT_PAUSE_TIME 889.0e-6 // 889 usec pause
#define RC6_TOGGLE_BIT_TIME 889.0e-6 // 889 msec pulse/pause
#define RC6_BIT_TIME 444.0e-6 // 889 usec pulse/pause
#define RC6_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define RC6_ADDRESS_OFFSET 5 // skip "1" + 3 mode bits + 1 toggle bit
#define RC6_ADDRESS_LEN 8 // read 8 address bits
#define RC6_COMMAND_OFFSET 13 // skip 12 bits ("1" + 3 mode + 1 toggle + 8 address)
#define RC6_COMMAND_LEN 8 // read 8 command bits
#define RC6_COMPLETE_DATA_LEN_SHORT 21 // complete length
#define RC6_COMPLETE_DATA_LEN_LONG 36 // complete length
#define RC6_STOP_BIT 0 // has no stop bit
#define RC6_LSB 0 // MSB...LSB
#define RC6_FLAGS (IRMP_PARAM_FLAG_IS_MANCHESTER | IRMP_PARAM_FLAG_1ST_PULSE_IS_1) // flags
#define RECS80EXT_START_BIT_PULSE_TIME 158.0e-6 // 158 usec pulse
#define RECS80EXT_START_BIT_PAUSE_TIME 3637.0e-6 // 3637 usec pause
#define RECS80EXT_PULSE_TIME 158.0e-6 // 158 usec pulse
#define RECS80EXT_1_PAUSE_TIME 7432.0e-6 // 7432 usec pause
#define RECS80EXT_0_PAUSE_TIME 4902.0e-6 // 4902 usec pause
#define RECS80EXT_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define RECS80EXT_ADDRESS_OFFSET 2 // skip 2 bits (2nd start + 1 toggle)
#define RECS80EXT_ADDRESS_LEN 4 // read 4 address bits
#define RECS80EXT_COMMAND_OFFSET 6 // skip 6 bits (2nd start + 1 toggle + 4 address)
#define RECS80EXT_COMMAND_LEN 6 // read 6 command bits
#define RECS80EXT_COMPLETE_DATA_LEN 12 // complete length
#define RECS80EXT_STOP_BIT 1 // has stop bit
#define RECS80EXT_LSB 0 // MSB...LSB
#define RECS80EXT_FLAGS 0 // flags
#define NUBERT_START_BIT_PULSE_TIME 1340.0e-6 // 1340 usec pulse
#define NUBERT_START_BIT_PAUSE_TIME 340.0e-6 // 340 usec pause
#define NUBERT_1_PULSE_TIME 1340.0e-6 // 1340 usec pulse
#define NUBERT_1_PAUSE_TIME 340.0e-6 // 340 usec pause
#define NUBERT_0_PULSE_TIME 500.0e-6 // 500 usec pulse
#define NUBERT_0_PAUSE_TIME 1300.0e-6 // 1300 usec pause
#define NUBERT_FRAMES 2 // Nubert sends 2 frames
#define NUBERT_AUTO_REPETITION_PAUSE_TIME 35.0e-3 // auto repetition after 35ms
#define NUBERT_FRAME_REPEAT_PAUSE_TIME 35.0e-3 // frame repeat after 45ms
#define NUBERT_ADDRESS_OFFSET 0 // skip 0 bits
#define NUBERT_ADDRESS_LEN 0 // read 0 address bits
#define NUBERT_COMMAND_OFFSET 0 // skip 0 bits
#define NUBERT_COMMAND_LEN 10 // read 10 bits
#define NUBERT_COMPLETE_DATA_LEN 10 // complete length
#define NUBERT_STOP_BIT 1 // has stop bit
#define NUBERT_LSB 0 // MSB?
#define NUBERT_FLAGS 0 // flags
#define BANG_OLUFSEN_START_BIT1_PULSE_TIME 200.0e-6 // 200 usec pulse
#define BANG_OLUFSEN_START_BIT1_PAUSE_TIME 3125.0e-6 // 3125 usec pause
#define BANG_OLUFSEN_START_BIT2_PULSE_TIME 200.0e-6 // 200 usec pulse
#define BANG_OLUFSEN_START_BIT2_PAUSE_TIME 3125.0e-6 // 3125 usec pause
#define BANG_OLUFSEN_START_BIT3_PULSE_TIME 200.0e-6 // 200 usec pulse
#define BANG_OLUFSEN_START_BIT3_PAUSE_TIME 15625.0e-6 // 15625 usec pause
#define BANG_OLUFSEN_START_BIT4_PULSE_TIME 200.0e-6 // 200 usec pulse
#define BANG_OLUFSEN_START_BIT4_PAUSE_TIME 3125.0e-6 // 3125 usec pause
#define BANG_OLUFSEN_PULSE_TIME 200.0e-6 // 200 usec pulse
#define BANG_OLUFSEN_1_PAUSE_TIME 9375.0e-6 // 9375 usec pause
#define BANG_OLUFSEN_0_PAUSE_TIME 3125.0e-6 // 3125 usec pause
#define BANG_OLUFSEN_R_PAUSE_TIME 6250.0e-6 // 6250 usec pause (repeat last bit)
#define BANG_OLUFSEN_TRAILER_BIT_PAUSE_TIME 12500.0e-6 // 12500 usec pause (trailer bit)
#define BANG_OLUFSEN_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define BANG_OLUFSEN_ADDRESS_OFFSET 0 // no address bits
#define BANG_OLUFSEN_ADDRESS_LEN 0 // no address bits
#define BANG_OLUFSEN_COMMAND_OFFSET 3 // skip startbits 2, 3, 4
#define BANG_OLUFSEN_COMMAND_LEN 16 // read 16 command bits
#define BANG_OLUFSEN_COMPLETE_DATA_LEN 20 // complete length: startbits 2, 3, 4 + 16 data bits + trailer bit
#define BANG_OLUFSEN_STOP_BIT 1 // has stop bit
#define BANG_OLUFSEN_LSB 0 // MSB...LSB
#define BANG_OLUFSEN_FLAGS 0 // flags
#define GRUNDIG_NOKIA_IR60_BIT_TIME 528.0e-6 // 528 usec pulse/pause
#define GRUNDIG_NOKIA_IR60_PRE_PAUSE_TIME 2639.0e-6 // 2639 usec pause after pre bit
#define GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_TIME 117.76e-3 // info frame repeat after 117.76 ms
#define GRUNDIG_NOKIA_IR60_STOP_BIT 0 // has no stop bit
#define GRUNDIG_NOKIA_IR60_LSB 1 // MSB...LSB
#define GRUNDIG_NOKIA_IR60_FLAGS (IRMP_PARAM_FLAG_IS_MANCHESTER | IRMP_PARAM_FLAG_1ST_PULSE_IS_1) // flags
#define GRUNDIG_FRAMES 2 // GRUNDIG sends each frame 1+1 times
#define GRUNDIG_AUTO_REPETITION_PAUSE_TIME 20.0e-3 // repetition after 20ms
#define GRUNDIG_ADDRESS_OFFSET 0 // no address
#define GRUNDIG_ADDRESS_LEN 0 // no address
#define GRUNDIG_COMMAND_OFFSET 1 // skip 1 start bit
#define GRUNDIG_COMMAND_LEN 9 // read 9 command bits
#define GRUNDIG_COMPLETE_DATA_LEN 10 // complete length: 1 start bit + 9 data bits
#define NOKIA_FRAMES 3 // NOKIA sends each frame 1 + 1 + 1 times
#define NOKIA_AUTO_REPETITION_PAUSE_TIME 20.0e-3 // repetition after 20ms
#define NOKIA_ADDRESS_OFFSET 9 // skip 9 bits (1 start bit + 8 data bits)
#define NOKIA_ADDRESS_LEN 8 // 7 address bits
#define NOKIA_COMMAND_OFFSET 1 // skip 1 bit (1 start bit)
#define NOKIA_COMMAND_LEN 8 // read 8 command bits
#define NOKIA_COMPLETE_DATA_LEN 17 // complete length: 1 start bit + 8 address bits + 8 command bits
#define IR60_TIMEOUT_TIME 5000.0e-6 // timeout grundig frame, switch to IR60
#define IR60_ADDRESS_OFFSET 0 // skip 1 bits
#define IR60_ADDRESS_LEN 0 // read 0 address bits
#define IR60_COMMAND_OFFSET 0 // skip 1 bit (start bit after pre bit, always 1)
#define IR60_COMMAND_LEN 7 // read 6 command bits
#define IR60_COMPLETE_DATA_LEN 7 // complete length
#define SIEMENS_OR_RUWIDO_START_BIT_PULSE_TIME 275.0e-6 // 275 usec pulse
#define SIEMENS_OR_RUWIDO_START_BIT_PAUSE_TIME 550.0e-6 // 550 usec pause
#define SIEMENS_OR_RUWIDO_BIT_PULSE_TIME 275.0e-6 // 275 usec short pulse
#define SIEMENS_OR_RUWIDO_BIT_PULSE_TIME_2 550.0e-6 // 550 usec long pulse
#define SIEMENS_OR_RUWIDO_BIT_PAUSE_TIME 275.0e-6 // 275 usec short pause
#define SIEMENS_OR_RUWIDO_BIT_PAUSE_TIME_2 550.0e-6 // 550 usec long pause
#define SIEMENS_OR_RUWIDO_FRAME_REPEAT_PAUSE_TIME 45.0e-3 // frame repeat after 45ms
#define SIEMENS_OR_RUWIDO_STOP_BIT 0 // has no stop bit
#define SIEMENS_OR_RUWIDO_LSB 0 // MSB...LSB
#define SIEMENS_OR_RUWIDO_FLAGS (IRMP_PARAM_FLAG_IS_MANCHESTER | IRMP_PARAM_FLAG_1ST_PULSE_IS_1) // flags
#define RUWIDO_ADDRESS_OFFSET 0 // skip 0 bits
#define RUWIDO_ADDRESS_LEN 9 // read 9 address bits
#define RUWIDO_COMMAND_OFFSET 9 // skip 9 bits
#define RUWIDO_COMMAND_LEN 8 // read 7 + 1 command bits, last bit is only check bit
#define RUWIDO_COMPLETE_DATA_LEN 17 // complete length
#define SIEMENS_ADDRESS_OFFSET 0 // skip 0 bits
#define SIEMENS_ADDRESS_LEN 11 // read 11 bits
#define SIEMENS_COMMAND_OFFSET 11 // skip 11 bits
#define SIEMENS_COMMAND_LEN 11 // read 10 + 1 command bits, last bit is only check bit
#define SIEMENS_COMPLETE_DATA_LEN 22 // complete length
#define FDC_START_BIT_PULSE_TIME 2085.0e-6 // 2085 usec pulse
#define FDC_START_BIT_PAUSE_TIME 966.0e-6 // 966 usec pause
#define FDC_PULSE_TIME 300.0e-6 // 300 usec pulse
#define FDC_1_PAUSE_TIME 715.0e-6 // 715 usec pause
#define FDC_0_PAUSE_TIME 220.0e-6 // 220 usec pause
#define FDC_FRAME_REPEAT_PAUSE_TIME 60.0e-3 // frame repeat after 60ms
#define FDC_ADDRESS_OFFSET 0 // skip 0 bits
#define FDC_ADDRESS_LEN 14 // read 14 address bits, but use only 6, shift 8 into command
#define FDC_COMMAND_OFFSET 20 // skip 20 bits
#define FDC_COMMAND_LEN 12 // read 12 bits
#define FDC_COMPLETE_DATA_LEN 40 // complete length
#define FDC_STOP_BIT 1 // has stop bit
#define FDC_LSB 1 // LSB...MSB
#define FDC_FLAGS 0 // flags
#define RCCAR_START_BIT_PULSE_TIME 2000.0e-6 // 2000 usec pulse
#define RCCAR_START_BIT_PAUSE_TIME 2000.0e-6 // 2000 usec pause
#define RCCAR_PULSE_TIME 600.0e-6 // 360 usec pulse
#define RCCAR_1_PAUSE_TIME 450.0e-6 // 650 usec pause
#define RCCAR_0_PAUSE_TIME 900.0e-6 // 180 usec pause
#define RCCAR_FRAME_REPEAT_PAUSE_TIME 40.0e-3 // frame repeat after 40ms
#define RCCAR_ADDRESS_OFFSET 0 // skip 0 bits
#define RCCAR_ADDRESS_LEN 0 // read 0 address bits
#define RCCAR_COMMAND_OFFSET 0 // skip 0 bits
#define RCCAR_COMMAND_LEN 13 // read 13 bits
#define RCCAR_COMPLETE_DATA_LEN 13 // complete length
#define RCCAR_STOP_BIT 1 // has stop bit
#define RCCAR_LSB 1 // LSB...MSB
#define RCCAR_FLAGS 0 // flags
#define JVC_START_BIT_PULSE_TIME 9000.0e-6 // 9000 usec pulse
#define JVC_START_BIT_PAUSE_TIME 4500.0e-6 // 4500 usec pause
#define JVC_PULSE_TIME 560.0e-6 // 560 usec pulse
#define JVC_1_PAUSE_TIME 1690.0e-6 // 1690 usec pause
#define JVC_0_PAUSE_TIME 560.0e-6 // 560 usec pause
#define JVC_FRAME_REPEAT_PAUSE_TIME 22.0e-3 // frame repeat after 22ms
#define JVC_ADDRESS_OFFSET 0 // skip 0 bits
#define JVC_ADDRESS_LEN 4 // read 4 address bits
#define JVC_COMMAND_OFFSET 4 // skip 4 bits
#define JVC_COMMAND_LEN 12 // read 12 bits
#define JVC_COMPLETE_DATA_LEN 16 // complete length
#define JVC_STOP_BIT 1 // has stop bit
#define JVC_LSB 1 // LSB...MSB
#define JVC_FLAGS 0 // flags
#define NIKON_START_BIT_PULSE_TIME 2200.0e-6 // 2200 usec pulse
#define NIKON_START_BIT_PAUSE_TIME 27100.0e-6 // 27100 usec pause
#define NIKON_PULSE_TIME 500.0e-6 // 500 usec pulse
#define NIKON_1_PAUSE_TIME 3500.0e-6 // 3500 usec pause
#define NIKON_0_PAUSE_TIME 1500.0e-6 // 1500 usec pause
#define NIKON_FRAME_REPEAT_PAUSE_TIME 60.0e-3 // frame repeat after 60ms
#define NIKON_ADDRESS_OFFSET 0 // skip 0 bits
#define NIKON_ADDRESS_LEN 0 // read 0 address bits
#define NIKON_COMMAND_OFFSET 0 // skip 0 bits
#define NIKON_COMMAND_LEN 2 // read 2 bits
#define NIKON_COMPLETE_DATA_LEN 2 // complete length
#define NIKON_STOP_BIT 1 // has stop bit
#define NIKON_LSB 0 // LSB...MSB
#define NIKON_FLAGS 0 // flags
#define KATHREIN_START_BIT_PULSE_TIME 210.0e-6 // 1340 usec pulse
#define KATHREIN_START_BIT_PAUSE_TIME 6218.0e-6 // 340 usec pause
#define KATHREIN_1_PULSE_TIME 210.0e-6 // 1340 usec pulse
#define KATHREIN_1_PAUSE_TIME 3000.0e-6 // 340 usec pause
#define KATHREIN_0_PULSE_TIME 210.0e-6 // 500 usec pulse
#define KATHREIN_0_PAUSE_TIME 1400.0e-6 // 1300 usec pause
#define KATHREIN_SYNC_BIT_PAUSE_LEN_TIME 4600.0e-6 // 4600 usec sync (on 6th and/or 8th bit)
#define KATHREIN_FRAMES 1 // Kathrein sends 1 frame
#define KATHREIN_AUTO_REPETITION_PAUSE_TIME 35.0e-3 // auto repetition after 35ms
#define KATHREIN_FRAME_REPEAT_PAUSE_TIME 35.0e-3 // frame repeat after 35ms
#define KATHREIN_ADDRESS_OFFSET 1 // skip 1 bits
#define KATHREIN_ADDRESS_LEN 4 // read 4 address bits
#define KATHREIN_COMMAND_OFFSET 5 // skip 5 bits
#define KATHREIN_COMMAND_LEN 7 // read 7 bits
#define KATHREIN_COMPLETE_DATA_LEN 13 // complete length
#define KATHREIN_STOP_BIT 1 // has stop bit
#define KATHREIN_LSB 0 // MSB
#define KATHREIN_FLAGS 0 // flags
#define NETBOX_START_BIT_PULSE_TIME 2400.0e-6 // 2400 usec pulse
#define NETBOX_START_BIT_PAUSE_TIME 800.0e-6 // 800 usec pause
#define NETBOX_PULSE_TIME 800.0e-6 // 800 usec pulse
#define NETBOX_PAUSE_TIME 800.0e-6 // 800 usec pause
#define NETBOX_FRAMES 1 // Netbox sends 1 frame
#define NETBOX_AUTO_REPETITION_PAUSE_TIME 35.0e-3 // auto repetition after 35ms
#define NETBOX_FRAME_REPEAT_PAUSE_TIME 35.0e-3 // frame repeat after 35ms
#define NETBOX_ADDRESS_OFFSET 0 // skip 0 bits
#define NETBOX_ADDRESS_LEN 3 // read 3 address bits
#define NETBOX_COMMAND_OFFSET 3 // skip 3 bits
#define NETBOX_COMMAND_LEN 13 // read 13 bits
#define NETBOX_COMPLETE_DATA_LEN 16 // complete length
#define NETBOX_STOP_BIT 0 // has no stop bit
#define NETBOX_LSB 1 // LSB
#define NETBOX_FLAGS IRMP_PARAM_FLAG_IS_SERIAL // flags
#define LEGO_START_BIT_PULSE_TIME 158.0e-6 // 158 usec pulse ( 6 x 1/38kHz)
#define LEGO_START_BIT_PAUSE_TIME 1026.0e-6 // 1026 usec pause (39 x 1/38kHz)
#define LEGO_PULSE_TIME 158.0e-6 // 158 usec pulse ( 6 x 1/38kHz)
#define LEGO_1_PAUSE_TIME 553.0e-6 // 553 usec pause (21 x 1/38kHz)
#define LEGO_0_PAUSE_TIME 263.0e-6 // 263 usec pause (10 x 1/38kHz)
#define LEGO_FRAME_REPEAT_PAUSE_TIME 40.0e-3 // frame repeat after 40ms
#define LEGO_ADDRESS_OFFSET 0 // skip 0 bits
#define LEGO_ADDRESS_LEN 0 // read 0 address bits
#define LEGO_COMMAND_OFFSET 0 // skip 0 bits
#define LEGO_COMMAND_LEN 16 // read 16 bits (12 command + 4 CRC)
#define LEGO_COMPLETE_DATA_LEN 16 // complete length
#define LEGO_STOP_BIT 1 // has stop bit
#define LEGO_LSB 0 // MSB...LSB
#define LEGO_FLAGS 0 // flags
#define THOMSON_PULSE_TIME 550.0e-6 // 550 usec pulse
#define THOMSON_1_PAUSE_TIME 4500.0e-6 // 4500 usec pause
#define THOMSON_0_PAUSE_TIME 2000.0e-6 // 2000 usec pause
#define THOMSON_FRAMES 1 // THOMSON sends 1 frame
#define THOMSON_AUTO_REPETITION_PAUSE_TIME 65.0e-3 // repetition after 65ms
#define THOMSON_FRAME_REPEAT_PAUSE_TIME 65.0e-3 // frame repeat after 65ms
#define THOMSON_ADDRESS_OFFSET 0 // skip 0 bits
#define THOMSON_ADDRESS_LEN 4 // read 4 address bits
#define THOMSON_COMMAND_OFFSET 5 // skip 4 address bits + 1 toggle bit
#define THOMSON_COMMAND_LEN 7 // read 7 command bits
#define THOMSON_COMPLETE_DATA_LEN 12 // complete length
#define THOMSON_STOP_BIT 1 // has stop bit
#define THOMSON_LSB 0 // MSB...LSB
#define THOMSON_FLAGS 0 // flags
#define GRUNDIG2_START_BIT_PULSE_TIME 550.0e-6 // 550 usec pulse
#define GRUNDIG2_START_BIT_PAUSE_TIME 2700.0e-6 // 2700 usec pause
#define GRUNDIG2_BIT_PULSE_TIME 550.0e-6 // 550 usec short pulse
#define GRUNDIG2_BIT_PAUSE_TIME 550.0e-6 // 550 usec short pause
#define GRUNDIG2_FRAME_REPEAT_PAUSE_TIME 100.0e-3 // frame repeat after 100ms
#define GRUNDIG2_STOP_BIT 0 // has no stop bit
#define GRUNDIG2_LSB 1 // MSB...LSB
#define GRUNDIG2_FLAGS (IRMP_PARAM_FLAG_IS_MANCHESTER | IRMP_PARAM_FLAG_1ST_PULSE_IS_1) // flags
#define GRUNDIG2_ADDRESS_OFFSET 0 // skip 0 bits
#define GRUNDIG2_ADDRESS_LEN 0 // read 0 bits
#define GRUNDIG2_COMMAND_OFFSET 0 // skip 0 bits
#define GRUNDIG2_COMMAND_LEN 7 // read 6 + 1 command bits, last bit is always 1
#define GRUNDIG2_COMPLETE_DATA_LEN 7 // complete length
#define AUTO_FRAME_REPETITION_TIME 80.0e-3 // SIRCS/SAMSUNG32/NUBERT: automatic repetition after 25-50ms
// KASEIKYO: automatic repetition after 75ms
#define TRUE 1
#define FALSE 0
#define IRMP_FLAG_REPETITION 0x01
typedef struct
{
uint8_t protocol; // protocol, i.e. NEC_PROTOCOL
uint16_t address; // address
uint16_t command; // command
uint8_t flags; // flags, e.g. repetition
} IRMP_DATA;
extern void irmp_init (void);
extern uint8_t irmp_get_data (IRMP_DATA *);
extern uint8_t irmp_is_busy (void);
extern uint8_t irmp_ISR (uint8_t);
#if IRMP_PROTOCOL_NAMES == 1
extern char * irmp_protocol_names[IRMP_N_PROTOCOLS + 1];
#endif
#if IRMP_USE_CALLBACK == 1
extern void irmp_set_callback_ptr (void (*cb)(uint8_t));
#endif // IRSND_USE_CALLBACK == 1
#endif /* _WC_IRMP_H_ */

191
libarmbox/irmpconfig.h
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@@ -1,191 +0,0 @@
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* irmpconfig.h
*
* Copyright (c) 2009-2011 Frank Meyer - frank(at)fli4l.de
*
* $Id: irmpconfig.h,v 1.80 2012/02/21 08:41:46 fm Exp $
*
* ATMEGA88 @ 8 MHz
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#ifndef _IRMPCONFIG_H_
#define _IRMPCONFIG_H_
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Change F_INTERRUPTS if you change the number of interrupts per second,
* Normally, F_INTERRUPTS should be in the range from 10000 to 15000, typical is 15000
* A value above 15000 costs additional program space, absolute maximum value is 20000.
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#ifndef F_INTERRUPTS
#define F_INTERRUPTS 15000 // interrupts per second, min: 10000, max: 20000, typ: 15000
#endif
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Change settings from 1 to 0 if you want to disable one or more decoders.
* This saves program space.
*
* 1 enable decoder
* 0 disable decoder
*
* The standard decoders are enabled per default.
* Less common protocols are disabled here, you need to enable them manually.
*
* If you want to use FDC or RCCAR simultaneous with RC5 protocol, additional program space is required.
* If you don't need RC5 when using FDC/RCCAR, you should disable RC5.
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
// typical protocols, disable here! Enable Remarks F_INTERRUPTS Program Space
#define IRMP_SUPPORT_SIRCS_PROTOCOL 1 // Sony SIRCS >= 10000 ~150 bytes
#define IRMP_SUPPORT_NEC_PROTOCOL 1 // NEC + APPLE >= 10000 ~300 bytes
#define IRMP_SUPPORT_SAMSUNG_PROTOCOL 1 // Samsung + Samsung32 >= 10000 ~300 bytes
#define IRMP_SUPPORT_MATSUSHITA_PROTOCOL 1 // Matsushita >= 10000 ~50 bytes
#define IRMP_SUPPORT_KASEIKYO_PROTOCOL 1 // Kaseikyo >= 10000 ~250 bytes
#define IRMP_SUPPORT_DENON_PROTOCOL 1 // DENON, Sharp >= 10000 ~250 bytes
// more protocols, enable here! Enable Remarks F_INTERRUPTS Program Space
#define IRMP_SUPPORT_RC5_PROTOCOL 0 // RC5 >= 10000 ~250 bytes
#define IRMP_SUPPORT_RC6_PROTOCOL 0 // RC6 & RC6A >= 10000 ~250 bytes
#define IRMP_SUPPORT_JVC_PROTOCOL 0 // JVC >= 10000 ~150 bytes
#define IRMP_SUPPORT_NEC16_PROTOCOL 0 // NEC16 >= 10000 ~100 bytes
#define IRMP_SUPPORT_NEC42_PROTOCOL 0 // NEC42 >= 10000 ~300 bytes
#define IRMP_SUPPORT_IR60_PROTOCOL 0 // IR60 (SAB2008) >= 10000 ~300 bytes
#define IRMP_SUPPORT_GRUNDIG_PROTOCOL 0 // Grundig >= 10000 ~300 bytes
#define IRMP_SUPPORT_SIEMENS_PROTOCOL 0 // Siemens Gigaset >= 15000 ~550 bytes
#define IRMP_SUPPORT_NOKIA_PROTOCOL 0 // Nokia >= 10000 ~300 bytes
// exotic protocols, enable here! Enable Remarks F_INTERRUPTS Program Space
#define IRMP_SUPPORT_GRUNDIG2_PROTOCOL 0 // Grundig TP400 >= 10000 ~300 bytes
#define IRMP_SUPPORT_KATHREIN_PROTOCOL 0 // Kathrein >= 10000 ~200 bytes
#define IRMP_SUPPORT_NUBERT_PROTOCOL 0 // NUBERT >= 10000 ~50 bytes
#define IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL 0 // Bang & Olufsen >= 10000 ~200 bytes
#define IRMP_SUPPORT_RECS80_PROTOCOL 0 // RECS80 (SAA3004) >= 15000 ~50 bytes
#define IRMP_SUPPORT_RECS80EXT_PROTOCOL 0 // RECS80EXT (SAA3008) >= 15000 ~50 bytes
#define IRMP_SUPPORT_THOMSON_PROTOCOL 0 // Thomson >= 10000 ~250 bytes
#define IRMP_SUPPORT_NIKON_PROTOCOL 0 // NIKON camera >= 10000 ~250 bytes
#define IRMP_SUPPORT_NETBOX_PROTOCOL 0 // Netbox keyboard >= 10000 ~400 bytes (PROTOTYPE!)
#define IRMP_SUPPORT_FDC_PROTOCOL 0 // FDC3402 keyboard >= 10000 (better 15000) ~150 bytes (~400 in combination with RC5)
#define IRMP_SUPPORT_RCCAR_PROTOCOL 0 // RC Car >= 10000 (better 15000) ~150 bytes (~500 in combination with RC5)
#define IRMP_SUPPORT_RUWIDO_PROTOCOL 0 // RUWIDO, T-Home >= 15000 ~550 bytes
#define IRMP_SUPPORT_LEGO_PROTOCOL 0 // LEGO Power RC >= 20000 ~150 bytes
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Change hardware pin here:
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#if defined (PIC_C18) // Microchip C18 Compiler
#include <p18cxxx.h> // main PIC18 h file
#define IRMP_PIN PORTBbits.RB4 // use RB4 as IR input on PIC
#define input(x) (x)
#elif defined (PIC_CCS_COMPILER) // PIC CCS Compiler:
#define IRMP_PIN PIN_B4 // use PB4 as IR input on PIC
#else // AVR:
#ifndef ARDUINO
#define IRMP_PORT PORTB
#define IRMP_DDR DDRB
#define IRMP_PIN PINB
#define IRMP_BIT 6 // use PB6 as IR input on AVR
#else // ARDUINO
#define IRMP_PIN PIND // use digital pin 2 as IR input
#define IRMP_BIT 2 // on arduino
#endif // ARDUINO
#define input(x) ((x) & (1 << IRMP_BIT))
#endif
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Set IRMP_LOGGING to 1 if want to log data to UART with 9600Bd
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#ifndef IRMP_LOGGING
#define IRMP_LOGGING 0 // 1: log IR signal (scan), 0: do not (default)
#endif
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Use external logging routines
* If you enable external logging, you have also to enable IRMP_LOGGING above
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#ifndef IRMP_EXT_LOGGING
#define IRMP_EXT_LOGGING 0 // 1:log, 0: do not log ;
#endif
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Set IRMP_PROTOCOL_NAMES to 1 if want to access protocol names (for logging etc), costs ~300 bytes RAM!
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#define IRMP_PROTOCOL_NAMES 0 // 1: access protocol names, 0: do not (default),
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* Use Callbacks to indicate input signal
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#define IRMP_USE_CALLBACK 0 // flag: 0 = don't use callbacks, 1 = use callbacks, default is 0
/*---------------------------------------------------------------------------------------------------------------------------------------------------
* DO NOT CHANGE THE FOLLOWING LINES !
*---------------------------------------------------------------------------------------------------------------------------------------------------
*/
#if IRMP_SUPPORT_SIEMENS_PROTOCOL == 1 && F_INTERRUPTS < 15000
# warning F_INTERRUPTS too low, SIEMENS protocol disabled (should be at least 15000)
# undef IRMP_SUPPORT_SIEMENS_PROTOCOL
# define IRMP_SUPPORT_SIEMENS_PROTOCOL 0
#endif
#if IRMP_SUPPORT_RUWIDO_PROTOCOL == 1 && F_INTERRUPTS < 15000
# warning F_INTERRUPTS too low, RUWIDO protocol disabled (should be at least 15000)
# undef IRMP_SUPPORT_RUWIDO_PROTOCOL
# define IRMP_SUPPORT_RUWIDO_PROTOCOL 0
#endif
#if IRMP_SUPPORT_RECS80_PROTOCOL == 1 && F_INTERRUPTS < 15000
# warning F_INTERRUPTS too low, RECS80 protocol disabled (should be at least 15000)
# undef IRMP_SUPPORT_RECS80_PROTOCOL
# define IRMP_SUPPORT_RECS80_PROTOCOL 0
#endif
#if IRMP_SUPPORT_RECS80EXT_PROTOCOL == 1 && F_INTERRUPTS < 15000
# warning F_INTERRUPTS too low, RECS80EXT protocol disabled (should be at least 15000)
# undef IRMP_SUPPORT_RECS80EXT_PROTOCOL
# define IRMP_SUPPORT_RECS80EXT_PROTOCOL 0
#endif
#if IRMP_SUPPORT_LEGO_PROTOCOL == 1 && F_INTERRUPTS < 20000
# warning F_INTERRUPTS too low, LEGO protocol disabled (should be at least 20000)
# undef IRMP_SUPPORT_LEGO_PROTOCOL
# define IRMP_SUPPORT_LEGO_PROTOCOL 0
#endif
#if IRMP_SUPPORT_JVC_PROTOCOL == 1 && IRMP_SUPPORT_NEC_PROTOCOL == 0
# warning JVC protocol needs also NEC protocol, NEC protocol enabled
# undef IRMP_SUPPORT_NEC_PROTOCOL
# define IRMP_SUPPORT_NEC_PROTOCOL 1
#endif
#if IRMP_SUPPORT_NEC16_PROTOCOL == 1 && IRMP_SUPPORT_NEC_PROTOCOL == 0
# warning NEC16 protocol needs also NEC protocol, NEC protocol enabled
# undef IRMP_SUPPORT_NEC_PROTOCOL
# define IRMP_SUPPORT_NEC_PROTOCOL 1
#endif
#if IRMP_SUPPORT_NEC42_PROTOCOL == 1 && IRMP_SUPPORT_NEC_PROTOCOL == 0
# warning NEC42 protocol needs also NEC protocol, NEC protocol enabled
# undef IRMP_SUPPORT_NEC_PROTOCOL
# define IRMP_SUPPORT_NEC_PROTOCOL 1
#endif
#if F_INTERRUPTS > 20000
#error F_INTERRUPTS too high (should be not greater than 20000)
#endif
#endif /* _WC_IRMPCONFIG_H_ */

445
libarmbox/lirmp_input.cpp
View File

@@ -1,445 +0,0 @@
/*
* Simulate a linux input device via uinput
* Get lirc remote events, decode with IRMP and inject them via uinput
*
* (C) 2012 Stefan Seyfried
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/* the C++ compiler did not like this code, so let's put it into a
* separate file and compile with gcc insead of g++...
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <pthread.h>
#include <linux/ioctl.h>
#include <linux/input.h>
#include <linux/uinput.h>
#include <inttypes.h>
#include <errno.h>
#include <aotom_main.h>
#include "lirmp_input.h"
extern "C" {
#include "irmp.h"
}
static uint8_t IRMP_PIN;
#include <lt_debug.h>
#define lt_debug(args...) _lt_debug(TRIPLE_DEBUG_INIT, NULL, args)
#define lt_info(args...) _lt_info(TRIPLE_DEBUG_INIT, NULL, args)
/* same defines as in neutrino's rcinput.h */
#define KEY_TTTV KEY_FN_1
#define KEY_TTZOOM KEY_FN_2
#define KEY_REVEAL KEY_FN_D
/* only defined in newer kernels / headers... */
#ifndef KEY_ZOOMIN
#define KEY_ZOOMIN KEY_FN_E
#endif
#ifndef KEY_ZOOMOUT
#define KEY_ZOOMOUT KEY_FN_F
#endif
typedef struct {
uint16_t ir; /* IR command */
int code; /* input key code */
} key_map_t;
static const key_map_t key_map[] = {
{ 0x13, KEY_0 },
{ 0x1a, KEY_1 },
{ 0x1f, KEY_2 },
{ 0x58, KEY_3 },
{ 0x16, KEY_4 },
{ 0x1b, KEY_5 },
{ 0x54, KEY_6 },
{ 0x12, KEY_7 },
{ 0x17, KEY_8 },
{ 0x50, KEY_9 },
{ 0x5f, KEY_OK },
{ 0x59, KEY_TIME },
{ 0x43, KEY_FAVORITES },
{ 0x4f, KEY_SAT },
{ 0x0f, KEY_NEXT }, /* V.Format */
{ 0x1e, KEY_POWER },
{ 0x5a, KEY_MUTE },
{ 0x1c, KEY_MENU },
{ 0x5d, KEY_EPG },
{ 0x07, KEY_INFO },
{ 0x60, KEY_EXIT },
{ 0x48, KEY_PAGEUP },
{ 0x44, KEY_PAGEDOWN },
{ 0x02, KEY_LEFT },
{ 0x40, KEY_RIGHT },
{ 0x03, KEY_UP },
{ 0x5e, KEY_DOWN },
{ 0x0a, KEY_VOLUMEUP },
{ 0x06, KEY_VOLUMEDOWN },
{ 0x49, KEY_RED },
{ 0x4e, KEY_GREEN },
{ 0x11, KEY_YELLOW },
{ 0x4a, KEY_BLUE },
{ 0x4c, KEY_TV }, /* TV/Radio */
{ 0x5c, KEY_VIDEO }, /* FIND */
{ 0x19, KEY_AUDIO }, /* FOLDER */
/* KEY_AUX,
KEY_TEXT,
KEY_TTTV,
KEY_TTZOOM,
KEY_REVEAL,
*/
{ 0x01, KEY_REWIND },
{ 0x53, KEY_FORWARD },
{ 0x22, KEY_STOP },
{ 0x4d, KEY_PAUSE },
{ 0x15, KEY_PLAY },
{ 0x20, KEY_PREVIOUS },
{ 0x23, KEY_NEXT },
// KEY_EJECTCD,
{ 0x10, KEY_RECORD }
};
static const int key_list[] = {
KEY_0,
KEY_1,
KEY_2,
KEY_3,
KEY_4,
KEY_5,
KEY_6,
KEY_7,
KEY_8,
KEY_9,
KEY_OK,
KEY_TIME,
KEY_FAVORITES,
KEY_SAT,
KEY_ZOOMOUT,
KEY_ZOOMIN,
KEY_NEXT,
KEY_POWER,
KEY_MUTE,
KEY_MENU,
KEY_EPG,
KEY_INFO,
KEY_EXIT,
KEY_PAGEUP,
KEY_PAGEDOWN,
KEY_LEFT,
KEY_RIGHT,
KEY_UP,
KEY_DOWN,
KEY_VOLUMEUP,
KEY_VOLUMEDOWN,
KEY_RED,
KEY_GREEN,
KEY_YELLOW,
KEY_BLUE,
KEY_TV,
KEY_VIDEO,
KEY_AUDIO,
// KEY_AUX,
// KEY_TEXT,
// KEY_TTTV,
// KEY_TTZOOM,
// KEY_REVEAL,
KEY_REWIND,
KEY_STOP,
KEY_PAUSE,
KEY_PLAY,
KEY_FORWARD,
KEY_PREVIOUS,
KEY_NEXT,
// KEY_EJECTCD,
KEY_RECORD,
-1
};
static pthread_t thread;
static int thread_running;
static void *input_thread(void *)
{
int uinput;
struct input_event u;
struct uinput_user_dev ud;
FILE *f;
int lircfd;
int pulse;
int i = 0;
int last_pulse = 1;
int last_code = -1;
uint32_t lircdata; /* lirc_t to be correct... */
unsigned int count = 0; /* how many timeouts? */
unsigned int nodec = 0; /* how many timeouts since last decoded? */
int aotom_fd = -1;
IRMP_DATA d;
lt_info("LIRC/IRMP input converter thread starting...\n");
/* modprobe does not complain if the module is already loaded... */
system("/sbin/modprobe uinput");
do {
usleep(100000); /* mdev needs some time to create the device? */
uinput = open("/dev/uinput", O_WRONLY|O_NDELAY);
} while (uinput < 0 && ++count < 100);
if (uinput < 0)
{
lt_info("LIRC/IRMP input thread: unable to open /dev/uinput (%m)\n");
thread_running = 2;
return NULL;
}
fcntl(uinput, F_SETFD, FD_CLOEXEC);
ioctl(uinput, UI_SET_EVBIT, EV_KEY);
/* do not use kernel repeat EV_REP since neutrino will be confused by the
* generated SYN_REPORT events...
ioctl(uinput, UI_SET_EVBIT, EV_REP);
*/
/* register keys */
for (i = 0; key_list[i] != -1; i++)
ioctl(uinput, UI_SET_KEYBIT, key_list[i]);
/* configure the device */
memset(&ud, 0, sizeof(ud));
strncpy(ud.name, "Neutrino LIRC/IRMP to Input Device converter", UINPUT_MAX_NAME_SIZE);
ud.id.version = 0x42;
ud.id.vendor = 0x1234;
ud.id.product = 0x5678;
ud.id.bustype = BUS_I2C; /* ?? */
write(uinput, &ud, sizeof(ud));
if (ioctl(uinput, UI_DEV_CREATE))
{
lt_info("LIRC/IRMP input thread UI_DEV_CREATE: %m\n");
close(uinput);
return NULL;
}
/* this is ugly: parse the new input device from /proc/...devices
* and symlink it to /dev/input/nevis_ir... */
#define DEVLINE "I: Bus=0018 Vendor=1234 Product=5678 Version=0042"
f = fopen("/proc/bus/input/devices", "r");
if (f)
{
int found = 0;
int evdev = -1;
size_t n = 0;
char *line = NULL;
char *p;
char newdev[20];
while (getline(&line, &n, f) != -1)
{
switch(line[0])
{
case 'I':
if (strncmp(line, DEVLINE, strlen(DEVLINE)) == 0)
found = 1;
break;
case 'H':
if (! found)
break;
p = strstr(line, " event");
if (! p)
{
evdev = -1;
break;
}
evdev = atoi(p + 6);
sprintf(newdev, "event%d", evdev);
lt_info("LIRC/IRMP input thread: symlink /dev/input/nevis_ir to %s\n", newdev);
unlink("/dev/input/nevis_ir");
symlink(newdev, "/dev/input/nevis_ir");
break;
default:
break;
}
if (evdev != -1)
break;
}
fclose(f);
free(line);
}
u.type = EV_KEY;
u.value = 0; /* initialize: first event wil be a key press */
lircfd = open("/dev/lirc", O_RDONLY);
if (lircfd < 0)
{
lt_info("%s: open /dev/lirc: %m\n", __func__);
goto out;
}
IRMP_PIN = 0xFF;
/* 50 ms. This should be longer than the longest light pulse */
#define POLL_MS (100 * 1000)
#define LIRC_PULSE 0x01000000
#define LIRC_PULSE_MASK 0x00FFFFFF
lt_info("LIRC/IRMP input converter going into main loop...\n");
aotom_fd = open("/dev/vfd", O_RDONLY);
/* TODO: ioctl to find out if we have a compatible LIRC_MODE2 device */
thread_running = 1;
while (thread_running)
{
fd_set fds;
struct timeval tv;
int ret;
FD_ZERO(&fds);
FD_SET(lircfd, &fds);
tv.tv_sec = 0;
tv.tv_usec = POLL_MS;
/* any singal can interrupt select. we rely on the linux-only feature
* that the timeout is automatcally recalculated in this case! */
do {
ret = select(lircfd + 1, &fds, NULL, NULL, &tv);
} while (ret == -1 && errno == EINTR);
if (ret == -1) {
/* errno != EINTR... */
lt_info("%s: lirmp: lircfd select: %m\n", __func__);
break;
}
if (ret == 0)
{
count++;
nodec++;
lircdata = POLL_MS; /* timeout */
pulse = !last_pulse; /* lirc sends data on signal change */
if (last_code != -1 && nodec > 1)
{
// fprintf(stderr, "timeout!\n");
u.code = last_code;
u.value = 0; /* release */
write(uinput, &u, sizeof(u));
last_code = -1;
}
}
else
{
if (read(lircfd, &lircdata, sizeof(lircdata)) != sizeof(lircdata))
{
perror("read");
break;
}
pulse = (lircdata & LIRC_PULSE); /* we got light... */
last_pulse = pulse;
lircdata &= LIRC_PULSE_MASK; /* how long the pulse was in microseconds */
}
if (ret && count)
{
if (count * POLL_MS > lircdata)
lircdata = 0;
else
lircdata -= count * POLL_MS;
count = 0;
}
//printf("lircdata: ret:%d c:%d %d\n", ret, ch - '0', lircdata);
lircdata /= (1000000 / F_INTERRUPTS);
if (pulse)
IRMP_PIN = 0x00;
else
IRMP_PIN = 0xff;
do {
(void) irmp_ISR (IRMP_PIN);
if (irmp_get_data (&d))
{
nodec = 0;
lt_debug("irmp_get_data proto: %2d addr: 0x%04x cmd: 0x%04x fl: %d\n",
d.protocol, d.address, d.command, d.flags);
/* todo: do we need to complete the loop if we already
* detected the singal in this pulse? */
if (d.protocol == IRMP_NEC_PROTOCOL && d.address == 0xba45)
{
for (i = 0; i < (int)(sizeof(key_map)/sizeof(key_map_t)); i++)
{
if (key_map[i].ir == d.command)
{
if (last_code != -1 && last_code != key_map[i].code)
{
u.code = last_code;
u.value = 0;
write(uinput, &u, sizeof(u));
}
u.code = key_map[i].code;
u.value = (d.flags & 0x1) + 1;
//lt_debug("uinput write: value: %d code: %d\n", u.value, u.code);
last_code = u.code;
write(uinput, &u, sizeof(u));
if (aotom_fd > -1) {
struct aotom_ioctl_data vfd_data;
vfd_data.u.led.led_nr = 1;
vfd_data.u.led.on = 10;
ioctl(aotom_fd, VFDSETLED, &vfd_data);
}
break;
}
}
}
}
} while (lircdata-- > 0);
}
/* clean up */
close (lircfd);
if (aotom_fd > -1)
close(aotom_fd);
out:
ioctl(uinput, UI_DEV_DESTROY);
return NULL;
}
void start_input_thread(void)
{
if (pthread_create(&thread, 0, input_thread, NULL) != 0)
{
lt_info("%s: LIRC/IRMP input thread pthread_create: %m\n", __func__);
thread_running = 0;
return;
}
/* wait until the device is created before continuing */
while (! thread_running)
usleep(1000);
if (thread_running == 2) /* failed... :-( */
thread_running = 0;
}
void stop_input_thread(void)
{
if (! thread_running)
return;
thread_running = 0;
pthread_join(thread, NULL);
}

7
libarmbox/lirmp_input.h
View File

@@ -1,7 +0,0 @@
/* functions from lirmp_input.cpp */
#ifndef __LIRMP_INPUT_H_
#define __LIRMP_INPUT_H_
void start_input_thread(void);
void stop_input_thread(void);
#endif

240
libarmbox/video.cpp
View File

@@ -619,25 +619,6 @@ int cVideo::getBlank(void)
return ret;
}
/* this function is regularly called, checks if video parameters
changed and triggers appropriate actions */
void cVideo::VideoParamWatchdog(void)
{
#if 0
static unsigned int _v_info = (unsigned int) -1;
unsigned int v_info;
if (fd == -1)
return;
ioctl(fd, MPEG_VID_GET_V_INFO_RAW, &v_info);
if (_v_info != v_info)
{
lt_debug("%s params changed. old: %08x new: %08x\n", __FUNCTION__, _v_info, v_info);
setAspectRatio(-1, -1);
}
_v_info = v_info;
#endif
}
void cVideo::Pig(int x, int y, int w, int h, int osd_w, int osd_h, int startx, int starty, int endx, int endy)
{
char buffer[64];
@@ -857,226 +838,11 @@ void cVideo::SetColorFormat(COLOR_FORMAT color_format) {
proc_put("/proc/stb/avs/0/colorformat", p, strlen(p));
}
/* get an image of the video screen
* this code is inspired by dreambox AIO-grab,
* git://schwerkraft.elitedvb.net/aio-grab/aio-grab.git
* and the patches for STi support from
* https://github.com/Schischu/STLinux.BSP-Duckbox.git */
/* static lookup tables for faster yuv2rgb conversion */
static const uint32_t yuv2rgbtable_y[256] = {
0xFFED5EA0, 0xFFEE88B6, 0xFFEFB2CC, 0xFFF0DCE2, 0xFFF206F8, 0xFFF3310E, 0xFFF45B24, 0xFFF5853A,
0xFFF6AF50, 0xFFF7D966, 0xFFF9037C, 0xFFFA2D92, 0xFFFB57A8, 0xFFFC81BE, 0xFFFDABD4, 0xFFFED5EA,
0x00000000, 0x00012A16, 0x0002542C, 0x00037E42, 0x0004A858, 0x0005D26E, 0x0006FC84, 0x0008269A,
0x000950B0, 0x000A7AC6, 0x000BA4DC, 0x000CCEF2, 0x000DF908, 0x000F231E, 0x00104D34, 0x0011774A,
0x0012A160, 0x0013CB76, 0x0014F58C, 0x00161FA2, 0x001749B8, 0x001873CE, 0x00199DE4, 0x001AC7FA,
0x001BF210, 0x001D1C26, 0x001E463C, 0x001F7052, 0x00209A68, 0x0021C47E, 0x0022EE94, 0x002418AA,
0x002542C0, 0x00266CD6, 0x002796EC, 0x0028C102, 0x0029EB18, 0x002B152E, 0x002C3F44, 0x002D695A,
0x002E9370, 0x002FBD86, 0x0030E79C, 0x003211B2, 0x00333BC8, 0x003465DE, 0x00358FF4, 0x0036BA0A,
0x0037E420, 0x00390E36, 0x003A384C, 0x003B6262, 0x003C8C78, 0x003DB68E, 0x003EE0A4, 0x00400ABA,
0x004134D0, 0x00425EE6, 0x004388FC, 0x0044B312, 0x0045DD28, 0x0047073E, 0x00483154, 0x00495B6A,
0x004A8580, 0x004BAF96, 0x004CD9AC, 0x004E03C2, 0x004F2DD8, 0x005057EE, 0x00518204, 0x0052AC1A,
0x0053D630, 0x00550046, 0x00562A5C, 0x00575472, 0x00587E88, 0x0059A89E, 0x005AD2B4, 0x005BFCCA,
0x005D26E0, 0x005E50F6, 0x005F7B0C, 0x0060A522, 0x0061CF38, 0x0062F94E, 0x00642364, 0x00654D7A,
0x00667790, 0x0067A1A6, 0x0068CBBC, 0x0069F5D2, 0x006B1FE8, 0x006C49FE, 0x006D7414, 0x006E9E2A,
0x006FC840, 0x0070F256, 0x00721C6C, 0x00734682, 0x00747098, 0x00759AAE, 0x0076C4C4, 0x0077EEDA,
0x007918F0, 0x007A4306, 0x007B6D1C, 0x007C9732, 0x007DC148, 0x007EEB5E, 0x00801574, 0x00813F8A,
0x008269A0, 0x008393B6, 0x0084BDCC, 0x0085E7E2, 0x008711F8, 0x00883C0E, 0x00896624, 0x008A903A,
0x008BBA50, 0x008CE466, 0x008E0E7C, 0x008F3892, 0x009062A8, 0x00918CBE, 0x0092B6D4, 0x0093E0EA,
0x00950B00, 0x00963516, 0x00975F2C, 0x00988942, 0x0099B358, 0x009ADD6E, 0x009C0784, 0x009D319A,
0x009E5BB0, 0x009F85C6, 0x00A0AFDC, 0x00A1D9F2, 0x00A30408, 0x00A42E1E, 0x00A55834, 0x00A6824A,
0x00A7AC60, 0x00A8D676, 0x00AA008C, 0x00AB2AA2, 0x00AC54B8, 0x00AD7ECE, 0x00AEA8E4, 0x00AFD2FA,
0x00B0FD10, 0x00B22726, 0x00B3513C, 0x00B47B52, 0x00B5A568, 0x00B6CF7E, 0x00B7F994, 0x00B923AA,
0x00BA4DC0, 0x00BB77D6, 0x00BCA1EC, 0x00BDCC02, 0x00BEF618, 0x00C0202E, 0x00C14A44, 0x00C2745A,
0x00C39E70, 0x00C4C886, 0x00C5F29C, 0x00C71CB2, 0x00C846C8, 0x00C970DE, 0x00CA9AF4, 0x00CBC50A,
0x00CCEF20, 0x00CE1936, 0x00CF434C, 0x00D06D62, 0x00D19778, 0x00D2C18E, 0x00D3EBA4, 0x00D515BA,
0x00D63FD0, 0x00D769E6, 0x00D893FC, 0x00D9BE12, 0x00DAE828, 0x00DC123E, 0x00DD3C54, 0x00DE666A,
0x00DF9080, 0x00E0BA96, 0x00E1E4AC, 0x00E30EC2, 0x00E438D8, 0x00E562EE, 0x00E68D04, 0x00E7B71A,
0x00E8E130, 0x00EA0B46, 0x00EB355C, 0x00EC5F72, 0x00ED8988, 0x00EEB39E, 0x00EFDDB4, 0x00F107CA,
0x00F231E0, 0x00F35BF6, 0x00F4860C, 0x00F5B022, 0x00F6DA38, 0x00F8044E, 0x00F92E64, 0x00FA587A,
0x00FB8290, 0x00FCACA6, 0x00FDD6BC, 0x00FF00D2, 0x01002AE8, 0x010154FE, 0x01027F14, 0x0103A92A,
0x0104D340, 0x0105FD56, 0x0107276C, 0x01085182, 0x01097B98, 0x010AA5AE, 0x010BCFC4, 0x010CF9DA,
0x010E23F0, 0x010F4E06, 0x0110781C, 0x0111A232, 0x0112CC48, 0x0113F65E, 0x01152074, 0x01164A8A
};
static const uint32_t yuv2rgbtable_ru[256] = {
0xFEFDA500, 0xFEFFA9B6, 0xFF01AE6C, 0xFF03B322, 0xFF05B7D8, 0xFF07BC8E, 0xFF09C144, 0xFF0BC5FA,
0xFF0DCAB0, 0xFF0FCF66, 0xFF11D41C, 0xFF13D8D2, 0xFF15DD88, 0xFF17E23E, 0xFF19E6F4, 0xFF1BEBAA,
0xFF1DF060, 0xFF1FF516, 0xFF21F9CC, 0xFF23FE82, 0xFF260338, 0xFF2807EE, 0xFF2A0CA4, 0xFF2C115A,
0xFF2E1610, 0xFF301AC6, 0xFF321F7C, 0xFF342432, 0xFF3628E8, 0xFF382D9E, 0xFF3A3254, 0xFF3C370A,
0xFF3E3BC0, 0xFF404076, 0xFF42452C, 0xFF4449E2, 0xFF464E98, 0xFF48534E, 0xFF4A5804, 0xFF4C5CBA,
0xFF4E6170, 0xFF506626, 0xFF526ADC, 0xFF546F92, 0xFF567448, 0xFF5878FE, 0xFF5A7DB4, 0xFF5C826A,
0xFF5E8720, 0xFF608BD6, 0xFF62908C, 0xFF649542, 0xFF6699F8, 0xFF689EAE, 0xFF6AA364, 0xFF6CA81A,
0xFF6EACD0, 0xFF70B186, 0xFF72B63C, 0xFF74BAF2, 0xFF76BFA8, 0xFF78C45E, 0xFF7AC914, 0xFF7CCDCA,
0xFF7ED280, 0xFF80D736, 0xFF82DBEC, 0xFF84E0A2, 0xFF86E558, 0xFF88EA0E, 0xFF8AEEC4, 0xFF8CF37A,
0xFF8EF830, 0xFF90FCE6, 0xFF93019C, 0xFF950652, 0xFF970B08, 0xFF990FBE, 0xFF9B1474, 0xFF9D192A,
0xFF9F1DE0, 0xFFA12296, 0xFFA3274C, 0xFFA52C02, 0xFFA730B8, 0xFFA9356E, 0xFFAB3A24, 0xFFAD3EDA,
0xFFAF4390, 0xFFB14846, 0xFFB34CFC, 0xFFB551B2, 0xFFB75668, 0xFFB95B1E, 0xFFBB5FD4, 0xFFBD648A,
0xFFBF6940, 0xFFC16DF6, 0xFFC372AC, 0xFFC57762, 0xFFC77C18, 0xFFC980CE, 0xFFCB8584, 0xFFCD8A3A,
0xFFCF8EF0, 0xFFD193A6, 0xFFD3985C, 0xFFD59D12, 0xFFD7A1C8, 0xFFD9A67E, 0xFFDBAB34, 0xFFDDAFEA,
0xFFDFB4A0, 0xFFE1B956, 0xFFE3BE0C, 0xFFE5C2C2, 0xFFE7C778, 0xFFE9CC2E, 0xFFEBD0E4, 0xFFEDD59A,
0xFFEFDA50, 0xFFF1DF06, 0xFFF3E3BC, 0xFFF5E872, 0xFFF7ED28, 0xFFF9F1DE, 0xFFFBF694, 0xFFFDFB4A,
0x00000000, 0x000204B6, 0x0004096C, 0x00060E22, 0x000812D8, 0x000A178E, 0x000C1C44, 0x000E20FA,
0x001025B0, 0x00122A66, 0x00142F1C, 0x001633D2, 0x00183888, 0x001A3D3E, 0x001C41F4, 0x001E46AA,
0x00204B60, 0x00225016, 0x002454CC, 0x00265982, 0x00285E38, 0x002A62EE, 0x002C67A4, 0x002E6C5A,
0x00307110, 0x003275C6, 0x00347A7C, 0x00367F32, 0x003883E8, 0x003A889E, 0x003C8D54, 0x003E920A,
0x004096C0, 0x00429B76, 0x0044A02C, 0x0046A4E2, 0x0048A998, 0x004AAE4E, 0x004CB304, 0x004EB7BA,
0x0050BC70, 0x0052C126, 0x0054C5DC, 0x0056CA92, 0x0058CF48, 0x005AD3FE, 0x005CD8B4, 0x005EDD6A,
0x0060E220, 0x0062E6D6, 0x0064EB8C, 0x0066F042, 0x0068F4F8, 0x006AF9AE, 0x006CFE64, 0x006F031A,
0x007107D0, 0x00730C86, 0x0075113C, 0x007715F2, 0x00791AA8, 0x007B1F5E, 0x007D2414, 0x007F28CA,
0x00812D80, 0x00833236, 0x008536EC, 0x00873BA2, 0x00894058, 0x008B450E, 0x008D49C4, 0x008F4E7A,
0x00915330, 0x009357E6, 0x00955C9C, 0x00976152, 0x00996608, 0x009B6ABE, 0x009D6F74, 0x009F742A,
0x00A178E0, 0x00A37D96, 0x00A5824C, 0x00A78702, 0x00A98BB8, 0x00AB906E, 0x00AD9524, 0x00AF99DA,
0x00B19E90, 0x00B3A346, 0x00B5A7FC, 0x00B7ACB2, 0x00B9B168, 0x00BBB61E, 0x00BDBAD4, 0x00BFBF8A,
0x00C1C440, 0x00C3C8F6, 0x00C5CDAC, 0x00C7D262, 0x00C9D718, 0x00CBDBCE, 0x00CDE084, 0x00CFE53A,
0x00D1E9F0, 0x00D3EEA6, 0x00D5F35C, 0x00D7F812, 0x00D9FCC8, 0x00DC017E, 0x00DE0634, 0x00E00AEA,
0x00E20FA0, 0x00E41456, 0x00E6190C, 0x00E81DC2, 0x00EA2278, 0x00EC272E, 0x00EE2BE4, 0x00F0309A,
0x00F23550, 0x00F43A06, 0x00F63EBC, 0x00F84372, 0x00FA4828, 0x00FC4CDE, 0x00FE5194, 0x00100564A
};
static const uint32_t yuv2rgbtable_gu[256] = {
0xFFCDD300, 0xFFCE375A, 0xFFCE9BB4, 0xFFCF000E, 0xFFCF6468, 0xFFCFC8C2, 0xFFD02D1C, 0xFFD09176,
0xFFD0F5D0, 0xFFD15A2A, 0xFFD1BE84, 0xFFD222DE, 0xFFD28738, 0xFFD2EB92, 0xFFD34FEC, 0xFFD3B446,
0xFFD418A0, 0xFFD47CFA, 0xFFD4E154, 0xFFD545AE, 0xFFD5AA08, 0xFFD60E62, 0xFFD672BC, 0xFFD6D716,
0xFFD73B70, 0xFFD79FCA, 0xFFD80424, 0xFFD8687E, 0xFFD8CCD8, 0xFFD93132, 0xFFD9958C, 0xFFD9F9E6,
0xFFDA5E40, 0xFFDAC29A, 0xFFDB26F4, 0xFFDB8B4E, 0xFFDBEFA8, 0xFFDC5402, 0xFFDCB85C, 0xFFDD1CB6,
0xFFDD8110, 0xFFDDE56A, 0xFFDE49C4, 0xFFDEAE1E, 0xFFDF1278, 0xFFDF76D2, 0xFFDFDB2C, 0xFFE03F86,
0xFFE0A3E0, 0xFFE1083A, 0xFFE16C94, 0xFFE1D0EE, 0xFFE23548, 0xFFE299A2, 0xFFE2FDFC, 0xFFE36256,
0xFFE3C6B0, 0xFFE42B0A, 0xFFE48F64, 0xFFE4F3BE, 0xFFE55818, 0xFFE5BC72, 0xFFE620CC, 0xFFE68526,
0xFFE6E980, 0xFFE74DDA, 0xFFE7B234, 0xFFE8168E, 0xFFE87AE8, 0xFFE8DF42, 0xFFE9439C, 0xFFE9A7F6,
0xFFEA0C50, 0xFFEA70AA, 0xFFEAD504, 0xFFEB395E, 0xFFEB9DB8, 0xFFEC0212, 0xFFEC666C, 0xFFECCAC6,
0xFFED2F20, 0xFFED937A, 0xFFEDF7D4, 0xFFEE5C2E, 0xFFEEC088, 0xFFEF24E2, 0xFFEF893C, 0xFFEFED96,
0xFFF051F0, 0xFFF0B64A, 0xFFF11AA4, 0xFFF17EFE, 0xFFF1E358, 0xFFF247B2, 0xFFF2AC0C, 0xFFF31066,
0xFFF374C0, 0xFFF3D91A, 0xFFF43D74, 0xFFF4A1CE, 0xFFF50628, 0xFFF56A82, 0xFFF5CEDC, 0xFFF63336,
0xFFF69790, 0xFFF6FBEA, 0xFFF76044, 0xFFF7C49E, 0xFFF828F8, 0xFFF88D52, 0xFFF8F1AC, 0xFFF95606,
0xFFF9BA60, 0xFFFA1EBA, 0xFFFA8314, 0xFFFAE76E, 0xFFFB4BC8, 0xFFFBB022, 0xFFFC147C, 0xFFFC78D6,
0xFFFCDD30, 0xFFFD418A, 0xFFFDA5E4, 0xFFFE0A3E, 0xFFFE6E98, 0xFFFED2F2, 0xFFFF374C, 0xFFFF9BA6,
0x00000000, 0x0000645A, 0x0000C8B4, 0x00012D0E, 0x00019168, 0x0001F5C2, 0x00025A1C, 0x0002BE76,
0x000322D0, 0x0003872A, 0x0003EB84, 0x00044FDE, 0x0004B438, 0x00051892, 0x00057CEC, 0x0005E146,
0x000645A0, 0x0006A9FA, 0x00070E54, 0x000772AE, 0x0007D708, 0x00083B62, 0x00089FBC, 0x00090416,
0x00096870, 0x0009CCCA, 0x000A3124, 0x000A957E, 0x000AF9D8, 0x000B5E32, 0x000BC28C, 0x000C26E6,
0x000C8B40, 0x000CEF9A, 0x000D53F4, 0x000DB84E, 0x000E1CA8, 0x000E8102, 0x000EE55C, 0x000F49B6,
0x000FAE10, 0x0010126A, 0x001076C4, 0x0010DB1E, 0x00113F78, 0x0011A3D2, 0x0012082C, 0x00126C86,
0x0012D0E0, 0x0013353A, 0x00139994, 0x0013FDEE, 0x00146248, 0x0014C6A2, 0x00152AFC, 0x00158F56,
0x0015F3B0, 0x0016580A, 0x0016BC64, 0x001720BE, 0x00178518, 0x0017E972, 0x00184DCC, 0x0018B226,
0x00191680, 0x00197ADA, 0x0019DF34, 0x001A438E, 0x001AA7E8, 0x001B0C42, 0x001B709C, 0x001BD4F6,
0x001C3950, 0x001C9DAA, 0x001D0204, 0x001D665E, 0x001DCAB8, 0x001E2F12, 0x001E936C, 0x001EF7C6,
0x001F5C20, 0x001FC07A, 0x002024D4, 0x0020892E, 0x0020ED88, 0x002151E2, 0x0021B63C, 0x00221A96,
0x00227EF0, 0x0022E34A, 0x002347A4, 0x0023ABFE, 0x00241058, 0x002474B2, 0x0024D90C, 0x00253D66,
0x0025A1C0, 0x0026061A, 0x00266A74, 0x0026CECE, 0x00273328, 0x00279782, 0x0027FBDC, 0x00286036,
0x0028C490, 0x002928EA, 0x00298D44, 0x0029F19E, 0x002A55F8, 0x002ABA52, 0x002B1EAC, 0x002B8306,
0x002BE760, 0x002C4BBA, 0x002CB014, 0x002D146E, 0x002D78C8, 0x002DDD22, 0x002E417C, 0x002EA5D6,
0x002F0A30, 0x002F6E8A, 0x002FD2E4, 0x0030373E, 0x00309B98, 0x0030FFF2, 0x0031644C, 0x0031C8A6
};
static const uint32_t yuv2rgbtable_gv[256] = {
0xFF97E900, 0xFF98B92E, 0xFF99895C, 0xFF9A598A, 0xFF9B29B8, 0xFF9BF9E6, 0xFF9CCA14, 0xFF9D9A42,
0xFF9E6A70, 0xFF9F3A9E, 0xFFA00ACC, 0xFFA0DAFA, 0xFFA1AB28, 0xFFA27B56, 0xFFA34B84, 0xFFA41BB2,
0xFFA4EBE0, 0xFFA5BC0E, 0xFFA68C3C, 0xFFA75C6A, 0xFFA82C98, 0xFFA8FCC6, 0xFFA9CCF4, 0xFFAA9D22,
0xFFAB6D50, 0xFFAC3D7E, 0xFFAD0DAC, 0xFFADDDDA, 0xFFAEAE08, 0xFFAF7E36, 0xFFB04E64, 0xFFB11E92,
0xFFB1EEC0, 0xFFB2BEEE, 0xFFB38F1C, 0xFFB45F4A, 0xFFB52F78, 0xFFB5FFA6, 0xFFB6CFD4, 0xFFB7A002,
0xFFB87030, 0xFFB9405E, 0xFFBA108C, 0xFFBAE0BA, 0xFFBBB0E8, 0xFFBC8116, 0xFFBD5144, 0xFFBE2172,
0xFFBEF1A0, 0xFFBFC1CE, 0xFFC091FC, 0xFFC1622A, 0xFFC23258, 0xFFC30286, 0xFFC3D2B4, 0xFFC4A2E2,
0xFFC57310, 0xFFC6433E, 0xFFC7136C, 0xFFC7E39A, 0xFFC8B3C8, 0xFFC983F6, 0xFFCA5424, 0xFFCB2452,
0xFFCBF480, 0xFFCCC4AE, 0xFFCD94DC, 0xFFCE650A, 0xFFCF3538, 0xFFD00566, 0xFFD0D594, 0xFFD1A5C2,
0xFFD275F0, 0xFFD3461E, 0xFFD4164C, 0xFFD4E67A, 0xFFD5B6A8, 0xFFD686D6, 0xFFD75704, 0xFFD82732,
0xFFD8F760, 0xFFD9C78E, 0xFFDA97BC, 0xFFDB67EA, 0xFFDC3818, 0xFFDD0846, 0xFFDDD874, 0xFFDEA8A2,
0xFFDF78D0, 0xFFE048FE, 0xFFE1192C, 0xFFE1E95A, 0xFFE2B988, 0xFFE389B6, 0xFFE459E4, 0xFFE52A12,
0xFFE5FA40, 0xFFE6CA6E, 0xFFE79A9C, 0xFFE86ACA, 0xFFE93AF8, 0xFFEA0B26, 0xFFEADB54, 0xFFEBAB82,
0xFFEC7BB0, 0xFFED4BDE, 0xFFEE1C0C, 0xFFEEEC3A, 0xFFEFBC68, 0xFFF08C96, 0xFFF15CC4, 0xFFF22CF2,
0xFFF2FD20, 0xFFF3CD4E, 0xFFF49D7C, 0xFFF56DAA, 0xFFF63DD8, 0xFFF70E06, 0xFFF7DE34, 0xFFF8AE62,
0xFFF97E90, 0xFFFA4EBE, 0xFFFB1EEC, 0xFFFBEF1A, 0xFFFCBF48, 0xFFFD8F76, 0xFFFE5FA4, 0xFFFF2FD2,
0x00000000, 0x0000D02E, 0x0001A05C, 0x0002708A, 0x000340B8, 0x000410E6, 0x0004E114, 0x0005B142,
0x00068170, 0x0007519E, 0x000821CC, 0x0008F1FA, 0x0009C228, 0x000A9256, 0x000B6284, 0x000C32B2,
0x000D02E0, 0x000DD30E, 0x000EA33C, 0x000F736A, 0x00104398, 0x001113C6, 0x0011E3F4, 0x0012B422,
0x00138450, 0x0014547E, 0x001524AC, 0x0015F4DA, 0x0016C508, 0x00179536, 0x00186564, 0x00193592,
0x001A05C0, 0x001AD5EE, 0x001BA61C, 0x001C764A, 0x001D4678, 0x001E16A6, 0x001EE6D4, 0x001FB702,
0x00208730, 0x0021575E, 0x0022278C, 0x0022F7BA, 0x0023C7E8, 0x00249816, 0x00256844, 0x00263872,
0x002708A0, 0x0027D8CE, 0x0028A8FC, 0x0029792A, 0x002A4958, 0x002B1986, 0x002BE9B4, 0x002CB9E2,
0x002D8A10, 0x002E5A3E, 0x002F2A6C, 0x002FFA9A, 0x0030CAC8, 0x00319AF6, 0x00326B24, 0x00333B52,
0x00340B80, 0x0034DBAE, 0x0035ABDC, 0x00367C0A, 0x00374C38, 0x00381C66, 0x0038EC94, 0x0039BCC2,
0x003A8CF0, 0x003B5D1E, 0x003C2D4C, 0x003CFD7A, 0x003DCDA8, 0x003E9DD6, 0x003F6E04, 0x00403E32,
0x00410E60, 0x0041DE8E, 0x0042AEBC, 0x00437EEA, 0x00444F18, 0x00451F46, 0x0045EF74, 0x0046BFA2,
0x00478FD0, 0x00485FFE, 0x0049302C, 0x004A005A, 0x004AD088, 0x004BA0B6, 0x004C70E4, 0x004D4112,
0x004E1140, 0x004EE16E, 0x004FB19C, 0x005081CA, 0x005151F8, 0x00522226, 0x0052F254, 0x0053C282,
0x005492B0, 0x005562DE, 0x0056330C, 0x0057033A, 0x0057D368, 0x0058A396, 0x005973C4, 0x005A43F2,
0x005B1420, 0x005BE44E, 0x005CB47C, 0x005D84AA, 0x005E54D8, 0x005F2506, 0x005FF534, 0x0060C562,
0x00619590, 0x006265BE, 0x006335EC, 0x0064061A, 0x0064D648, 0x0065A676, 0x006676A4, 0x006746D2
};
static const uint32_t yuv2rgbtable_bv[256] = {
0xFF33A280, 0xFF353B3B, 0xFF36D3F6, 0xFF386CB1, 0xFF3A056C, 0xFF3B9E27, 0xFF3D36E2, 0xFF3ECF9D,
0xFF406858, 0xFF420113, 0xFF4399CE, 0xFF453289, 0xFF46CB44, 0xFF4863FF, 0xFF49FCBA, 0xFF4B9575,
0xFF4D2E30, 0xFF4EC6EB, 0xFF505FA6, 0xFF51F861, 0xFF53911C, 0xFF5529D7, 0xFF56C292, 0xFF585B4D,
0xFF59F408, 0xFF5B8CC3, 0xFF5D257E, 0xFF5EBE39, 0xFF6056F4, 0xFF61EFAF, 0xFF63886A, 0xFF652125,
0xFF66B9E0, 0xFF68529B, 0xFF69EB56, 0xFF6B8411, 0xFF6D1CCC, 0xFF6EB587, 0xFF704E42, 0xFF71E6FD,
0xFF737FB8, 0xFF751873, 0xFF76B12E, 0xFF7849E9, 0xFF79E2A4, 0xFF7B7B5F, 0xFF7D141A, 0xFF7EACD5,
0xFF804590, 0xFF81DE4B, 0xFF837706, 0xFF850FC1, 0xFF86A87C, 0xFF884137, 0xFF89D9F2, 0xFF8B72AD,
0xFF8D0B68, 0xFF8EA423, 0xFF903CDE, 0xFF91D599, 0xFF936E54, 0xFF95070F, 0xFF969FCA, 0xFF983885,
0xFF99D140, 0xFF9B69FB, 0xFF9D02B6, 0xFF9E9B71, 0xFFA0342C, 0xFFA1CCE7, 0xFFA365A2, 0xFFA4FE5D,
0xFFA69718, 0xFFA82FD3, 0xFFA9C88E, 0xFFAB6149, 0xFFACFA04, 0xFFAE92BF, 0xFFB02B7A, 0xFFB1C435,
0xFFB35CF0, 0xFFB4F5AB, 0xFFB68E66, 0xFFB82721, 0xFFB9BFDC, 0xFFBB5897, 0xFFBCF152, 0xFFBE8A0D,
0xFFC022C8, 0xFFC1BB83, 0xFFC3543E, 0xFFC4ECF9, 0xFFC685B4, 0xFFC81E6F, 0xFFC9B72A, 0xFFCB4FE5,
0xFFCCE8A0, 0xFFCE815B, 0xFFD01A16, 0xFFD1B2D1, 0xFFD34B8C, 0xFFD4E447, 0xFFD67D02, 0xFFD815BD,
0xFFD9AE78, 0xFFDB4733, 0xFFDCDFEE, 0xFFDE78A9, 0xFFE01164, 0xFFE1AA1F, 0xFFE342DA, 0xFFE4DB95,
0xFFE67450, 0xFFE80D0B, 0xFFE9A5C6, 0xFFEB3E81, 0xFFECD73C, 0xFFEE6FF7, 0xFFF008B2, 0xFFF1A16D,
0xFFF33A28, 0xFFF4D2E3, 0xFFF66B9E, 0xFFF80459, 0xFFF99D14, 0xFFFB35CF, 0xFFFCCE8A, 0xFFFE6745,
0x00000000, 0x000198BB, 0x00033176, 0x0004CA31, 0x000662EC, 0x0007FBA7, 0x00099462, 0x000B2D1D,
0x000CC5D8, 0x000E5E93, 0x000FF74E, 0x00119009, 0x001328C4, 0x0014C17F, 0x00165A3A, 0x0017F2F5,
0x00198BB0, 0x001B246B, 0x001CBD26, 0x001E55E1, 0x001FEE9C, 0x00218757, 0x00232012, 0x0024B8CD,
0x00265188, 0x0027EA43, 0x002982FE, 0x002B1BB9, 0x002CB474, 0x002E4D2F, 0x002FE5EA, 0x00317EA5,
0x00331760, 0x0034B01B, 0x003648D6, 0x0037E191, 0x00397A4C, 0x003B1307, 0x003CABC2, 0x003E447D,
0x003FDD38, 0x004175F3, 0x00430EAE, 0x0044A769, 0x00464024, 0x0047D8DF, 0x0049719A, 0x004B0A55,
0x004CA310, 0x004E3BCB, 0x004FD486, 0x00516D41, 0x005305FC, 0x00549EB7, 0x00563772, 0x0057D02D,
0x005968E8, 0x005B01A3, 0x005C9A5E, 0x005E3319, 0x005FCBD4, 0x0061648F, 0x0062FD4A, 0x00649605,
0x00662EC0, 0x0067C77B, 0x00696036, 0x006AF8F1, 0x006C91AC, 0x006E2A67, 0x006FC322, 0x00715BDD,
0x0072F498, 0x00748D53, 0x0076260E, 0x0077BEC9, 0x00795784, 0x007AF03F, 0x007C88FA, 0x007E21B5,
0x007FBA70, 0x0081532B, 0x0082EBE6, 0x008484A1, 0x00861D5C, 0x0087B617, 0x00894ED2, 0x008AE78D,
0x008C8048, 0x008E1903, 0x008FB1BE, 0x00914A79, 0x0092E334, 0x00947BEF, 0x009614AA, 0x0097AD65,
0x00994620, 0x009ADEDB, 0x009C7796, 0x009E1051, 0x009FA90C, 0x00A141C7, 0x00A2DA82, 0x00A4733D,
0x00A60BF8, 0x00A7A4B3, 0x00A93D6E, 0x00AAD629, 0x00AC6EE4, 0x00AE079F, 0x00AFA05A, 0x00B13915,
0x00B2D1D0, 0x00B46A8B, 0x00B60346, 0x00B79C01, 0x00B934BC, 0x00BACD77, 0x00BC6632, 0x00BDFEED,
0x00BF97A8, 0x00C13063, 0x00C2C91E, 0x00C461D9, 0x00C5FA94, 0x00C7934F, 0x00C92C0A, 0x00CAC4C5
};
#define OUT(x) \
out[OUTITER] = (uint8_t)*(decode_surface + x)&0xFF; \
OUTITER += OUTINC;
#define OUT4(x) \
OUT(x + 0x03); \
OUT(x + 0x02); \
OUT(x + 0x01); \
OUT(x + 0x00);
#define OUT8(x) \
OUT4(x + 0x04); \
OUT4(x + 0x00);
#define OUT_LU_16A(x) \
OUT8(x); \
OUT8(x + 0x40);
#define OUT_CH_8A(x) \
OUT4(x); \
OUT4(x + 0x20);
//pppppppppppppppp
//x: macroblock address
//l: line 0-15
#define OUT_LU_16(x,l) \
OUT_LU_16A(x + (l/4) * 0x10 + (l%2) * 0x80 + ((l/2)%2?0x00:0x08));
//pppppppp
//x: macroblock address
//l: line 0-7
//b: 0=cr 1=cb
#define OUT_CH_8(x,l,b) \
OUT_CH_8A(x + (l/4) * 0x10 + (l%2) * 0x40 + ((l/2)%2?0x00:0x08) + (b?0x04:0x00));
//----
#define CLAMP(x) ((x < 0) ? 0 : ((x > 255) ? 255 : x))
#define SWAP(x,y) { x ^= y; y ^= x; x ^= y; }
/* TODO: aspect ratio correction and PIP */
bool cVideo::GetScreenImage(unsigned char * &video, int &xres, int &yres, bool get_video, bool get_osd, bool scale_to_video)
{
lt_info("%s: get_video: %d get_osd: %d scale_to_video: %d\n",
__func__, get_video, get_osd, scale_to_video);
lt_info("%s: video 0x%p xres %d yres %d vid %d osd %d scale %d\n",
__func__, video, xres, yres, get_video, get_osd, scale_to_video);
return true;
}

1
libarmbox/video_lib.h
View File

@@ -200,7 +200,6 @@ class cVideo
void Standby(unsigned int bOn);
void Pig(int x, int y, int w, int h, int osd_w = 1064, int osd_h = 600, int startx = 0, int starty = 0, int endx = 1279, int endy = 719);
void SetControl(int, int);
void VideoParamWatchdog(void);
void setContrast(int val);
void SetVideoMode(analog_mode_t mode);
void SetDBDR(int) { return; };