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vdr/epg.c
Klaus Schmidinger 5a4eb3f104 Version 1.3.5 
- Fixed reading the EPG preferred language parameter from 'setup.conf'.
- Fixed switching to a visible programme in case the current channel has neither
  a video nor an audio PID.
- Fixed editing channels (SID now range checked) and creating new channels (NID,
  TID and RID are now set to 0).
- Fixed transponder handling to make it work with satellites that provide two
  transponders on the same frequency, with different polarization, like Hispasat
  at S30.0W (thanks to Thomas Bergwinkl for pointing this out). See man vdr(5)
  for details about the enhanced channel ID format.
- Since there appears to be no general solution for the UPT error yet, a recording
  now initiates an "emergency exit" if the number of UPT errors during one
  recording exceeds 10 (suggested by Gregoire Favre). Since the UPT error doesn't
  happen on my system, this has not been explicitly tested.
  The "preliminary fix" for the UPT error in VDR/dvbdevice.c has been disabled
  by default, since it makes channel switching unpleasently slow. If you want
  to have that workaround back, you can uncomment the line
  //#define WAIT_FOR_LOCK_AFTER_TUNING 1
  in VDR/dvbdevice.c.
- Adapted the 'sky' plugin to use the actual channel IDs, and to fetch EPG data
  from www.bleb.org.
- Limited automatic retuning to devices that actually provide the transponder
  (necessary for the 'sky' plugin).
- Fixed handling receivers in the 'sky' plugin, so that a recording on the same
  channel won't interrupt an ongoing Transfer Mode.
- Added subtable ID and TSDT handling to 'libsi' (thanks to Marcel Wiesweg).
- Fixed some Russian OSD texts (thanks to Vyacheslav Dikonov).
- Added the 'running status' to the EPG events. This is necessary for implementing
  the VPS function for recording.
- Removed the obsolete 'present' and 'following' handling from the EPG data.
- The EPG data is now always kept sorted chronologically in the internal data
  structures. This also means that any EPG data retrieved through the SVRDP
  command LSTE is guaranteed to be sorted by start time.
- Now using the 'running status' in the channel display, so that a programme
  that has an end time that is before the current time, but is still running,
  will still be shown in the display (provided the broadcasters handle the
  'running status' flag correctly). This also applies to programmes that have
  a start time that is in the future, but are already running.
- Implemented an "EPG linger time", which can be set to have older EPG information
  still displayed in the "Schedule" menu (thanks to Jaakko Hyvätti).
- Added PDCDescriptor handling to 'libsi'.
- Implemented handling the VPS timestamps (aka "Programme Identification Label")
  for full VPS support for timers (provided the tv stations actually broadcast
  this information). The VPS time is displayed in the event info page if it exists
  and is different than the event's start time.
- Extended the SVDRP command LSTE to allow limiting the listed data to a given
  channel, the present or following events, or events at a given time (thanks to
  Thomas Heiligenmann).
- Fixed a typo in libsi/si.h (thanks to Stéphane Esté-Gracias).
- Timers can now be set to use the VPS information to control recording a programme.
  The new setup options "Recording/Use VPS" and "Recording/VPS margin", as well as
  the "VPS" option in the individual timers, can be used to control this feature
  (see MANUAL for details).
  Note that this feature will certainly need a lot of testing before it can be
  called "safe"!
- The "Schedule" and "What's on now/next?" menus now have an additional column
  which displays information on whether there is a timer defined for an event,
  whether an event has a VPS time that's different than its start time, and
  whether an event is currently running (see MANUAL under "The "Schedule" Menu"
  for details).
2004-02-29 18:00:00 +01:00

774 lines
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/*
* epg.c: Electronic Program Guide
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* Original version (as used in VDR before 1.3.0) written by
* Robert Schneider <Robert.Schneider@web.de> and Rolf Hakenes <hakenes@hippomi.de>.
*
* $Id: epg.c 1.13 2004/02/22 14:41:37 kls Exp kls $
*/
#include "epg.h"
#include "libsi/si.h"
#include "timers.h"
#include <ctype.h>
#include <time.h>
// --- cEvent ----------------------------------------------------------------
cEvent::cEvent(tChannelID ChannelID, u_int16_t EventID)
{
channelID = ChannelID;
eventID = EventID;
tableID = 0;
version = 0xFF; // actual version numbers are 0..31
runningStatus = 0;
title = NULL;
shortText = NULL;
description = NULL;
startTime = 0;
duration = 0;
vps = 0;
}
cEvent::~cEvent()
{
free(title);
free(shortText);
free(description);
}
bool cEvent::operator< (const cListObject &ListObject)
{
cEvent *e = (cEvent *)&ListObject;
return startTime < e->startTime;
}
void cEvent::SetEventID(u_int16_t EventID)
{
eventID = EventID;
}
void cEvent::SetTableID(uchar TableID)
{
tableID = TableID;
}
void cEvent::SetVersion(uchar Version)
{
version = Version;
}
void cEvent::SetRunningStatus(int RunningStatus)
{
runningStatus = RunningStatus;
}
void cEvent::SetTitle(const char *Title)
{
title = strcpyrealloc(title, Title);
}
void cEvent::SetShortText(const char *ShortText)
{
shortText = strcpyrealloc(shortText, ShortText);
}
void cEvent::SetDescription(const char *Description)
{
description = strcpyrealloc(description, Description);
}
void cEvent::SetStartTime(time_t StartTime)
{
startTime = StartTime;
}
void cEvent::SetDuration(int Duration)
{
duration = Duration;
}
void cEvent::SetVps(time_t Vps)
{
vps = Vps;
}
bool cEvent::HasTimer(void) const
{
for (cTimer *t = Timers.First(); t; t = Timers.Next(t)) {
if (t->Event() == this)
return true;
}
return false;
}
const char *cEvent::GetDateString(void) const
{
static char buf[25];
struct tm tm_r;
strftime(buf, sizeof(buf), "%d.%m.%Y", localtime_r(&startTime, &tm_r));
return buf;
}
const char *cEvent::GetTimeString(void) const
{
static char buf[25];
struct tm tm_r;
strftime(buf, sizeof(buf), "%R", localtime_r(&startTime, &tm_r));
return buf;
}
const char *cEvent::GetEndTimeString(void) const
{
static char buf[25];
time_t EndTime = startTime + duration;
struct tm tm_r;
strftime(buf, sizeof(buf), "%R", localtime_r(&EndTime, &tm_r));
return buf;
}
const char *cEvent::GetVpsString(void) const
{
static char buf[25];
struct tm tm_r;
strftime(buf, sizeof(buf), "%d.%m %R", localtime_r(&vps, &tm_r));
return buf;
}
void cEvent::Dump(FILE *f, const char *Prefix) const
{
if (startTime + duration >= time(NULL)) {
fprintf(f, "%sE %u %ld %d %X\n", Prefix, eventID, startTime, duration, tableID);
if (!isempty(title))
fprintf(f, "%sT %s\n", Prefix, title);
if (!isempty(shortText))
fprintf(f, "%sS %s\n", Prefix, shortText);
if (!isempty(description))
fprintf(f, "%sD %s\n", Prefix, description);
if (vps)
fprintf(f, "%sV %ld\n", Prefix, vps);
fprintf(f, "%se\n", Prefix);
}
}
bool cEvent::Read(FILE *f, cSchedule *Schedule)
{
if (Schedule) {
cEvent *Event = NULL;
char *s;
while ((s = readline(f)) != NULL) {
char *t = skipspace(s + 1);
switch (*s) {
case 'E': if (!Event) {
unsigned int EventID;
time_t StartTime;
int Duration;
unsigned int TableID = 0;
int n = sscanf(t, "%u %ld %d %X", &EventID, &StartTime, &Duration, &TableID);
if (n == 3 || n == 4) {
Event = (cEvent *)Schedule->GetEvent(EventID, StartTime);
if (!Event)
Event = Schedule->AddEvent(new cEvent(Schedule->ChannelID(), EventID));
if (Event) {
Event->SetTableID(TableID);
Event->SetStartTime(StartTime);
Event->SetDuration(Duration);
}
}
}
break;
case 'T': if (Event)
Event->SetTitle(t);
break;
case 'S': if (Event)
Event->SetShortText(t);
break;
case 'D': if (Event)
Event->SetDescription(t);
break;
case 'V': if (Event)
Event->SetVps(atoi(t));
break;
case 'e': Event = NULL;
break;
case 'c': // to keep things simple we react on 'c' here
return true;
default: esyslog("ERROR: unexpected tag while reading EPG data: %s", s);
return false;
}
}
esyslog("ERROR: unexpected end of file while reading EPG data");
}
return false;
}
#define MAXEPGBUGFIXSTATS 8
#define MAXEPGBUGFIXCHANS 100
struct tEpgBugFixStats {
int hits;
int n;
tChannelID channelIDs[MAXEPGBUGFIXCHANS];
tEpgBugFixStats(void) { hits = n = 0; }
};
tEpgBugFixStats EpgBugFixStats[MAXEPGBUGFIXSTATS];
static void EpgBugFixStat(int Number, tChannelID ChannelID)
{
if (0 <= Number && Number < MAXEPGBUGFIXSTATS) {
tEpgBugFixStats *p = &EpgBugFixStats[Number];
p->hits++;
int i = 0;
for (; i < p->n; i++) {
if (p->channelIDs[i] == ChannelID)
break;
}
if (i == p->n && p->n < MAXEPGBUGFIXCHANS)
p->channelIDs[p->n++] = ChannelID;
}
}
void ReportEpgBugFixStats(bool Reset)
{
if (Setup.EPGBugfixLevel > 0) {
bool GotHits = false;
char buffer[1024];
for (int i = 0; i < MAXEPGBUGFIXSTATS; i++) {
const char *delim = "\t";
tEpgBugFixStats *p = &EpgBugFixStats[i];
if (p->hits) {
bool PrintedStats = false;
char *q = buffer;
*buffer = 0;
for (int c = 0; c < p->n; c++) {
cChannel *channel = Channels.GetByChannelID(p->channelIDs[c], true);
if (channel) {
if (!GotHits) {
dsyslog("=====================");
dsyslog("EPG bugfix statistics");
dsyslog("=====================");
dsyslog("IF SOMEBODY WHO IS IN CHARGE OF THE EPG DATA FOR ONE OF THE LISTED");
dsyslog("CHANNELS READS THIS: PLEASE TAKE A LOOK AT THE FUNCTION cEvent::FixEpgBugs()");
dsyslog("IN VDR/epg.c TO LEARN WHAT'S WRONG WITH YOUR DATA, AND FIX IT!");
dsyslog("=====================");
dsyslog("Fix\tHits\tChannels");
GotHits = true;
}
if (!PrintedStats) {
q += snprintf(q, sizeof(buffer) - (q - buffer), "%d\t%d", i, p->hits);
PrintedStats = true;
}
q += snprintf(q, sizeof(buffer) - (q - buffer), "%s%s", delim, channel->Name());
delim = ", ";
if (q - buffer > 80) {
q += snprintf(q, sizeof(buffer) - (q - buffer), "%s...", delim);
break;
}
}
}
if (*buffer)
dsyslog("%s", buffer);
}
if (Reset)
p->hits = p->n = 0;
}
if (GotHits)
dsyslog("=====================");
}
}
void cEvent::FixEpgBugs(void)
{
// VDR can't usefully handle newline characters in the EPG data, so let's
// always convert them to blanks (independent of the setting of EPGBugfixLevel):
strreplace(title, '\n', ' ');
strreplace(shortText, '\n', ' ');
strreplace(description, '\n', ' ');
// Same for control characters:
strreplace(title, '\x86', ' ');
strreplace(title, '\x87', ' ');
strreplace(shortText, '\x86', ' ');
strreplace(shortText, '\x87', ' ');
strreplace(description, '\x86', ' ');
strreplace(description, '\x87', ' ');
if (Setup.EPGBugfixLevel == 0)
return;
// Some TV stations apparently have their own idea about how to fill in the
// EPG data. Let's fix their bugs as good as we can:
if (title) {
// Some channels put too much information into the ShortText and leave the
// Description empty:
//
// Title
// (NAT, Year Min')[ ["ShortText". ]Description]
//
if (shortText && !description) {
if (*shortText == '(') {
char *e = strchr(shortText + 1, ')');
if (e) {
if (*(e + 1)) {
if (*++e == ' ')
if (*(e + 1) == '"')
e++;
}
else
e = NULL;
char *s = e ? strdup(e) : NULL;
free(shortText);
shortText = s;
EpgBugFixStat(0, ChannelID());
// now the fixes #1 and #2 below will handle the rest
}
}
}
// Some channels put the ShortText in quotes and use either the ShortText
// or the Description field, depending on how long the string is:
//
// Title
// "ShortText". Description
//
if ((shortText == NULL) != (description == NULL)) {
char *p = shortText ? shortText : description;
if (*p == '"') {
const char *delim = "\".";
char *e = strstr(p + 1, delim);
if (e) {
*e = 0;
char *s = strdup(p + 1);
char *d = strdup(e + strlen(delim));
free(shortText);
free(description);
shortText = s;
description = d;
EpgBugFixStat(1, ChannelID());
}
}
}
// Some channels put the Description into the ShortText (preceeded
// by a blank) if there is no actual ShortText and the Description
// is short enough:
//
// Title
// Description
//
if (shortText && !description) {
if (*shortText == ' ') {
memmove(shortText, shortText + 1, strlen(shortText));
description = shortText;
shortText = NULL;
EpgBugFixStat(2, ChannelID());
}
}
// Sometimes they repeat the Title in the ShortText:
//
// Title
// Title
//
if (shortText && strcmp(title, shortText) == 0) {
free(shortText);
shortText = NULL;
EpgBugFixStat(3, ChannelID());
}
// Some channels put the ShortText between double quotes, which is nothing
// but annoying (some even put a '.' after the closing '"'):
//
// Title
// "ShortText"[.]
//
if (shortText && *shortText == '"') {
int l = strlen(shortText);
if (l > 2 && (shortText[l - 1] == '"' || (shortText[l - 1] == '.' && shortText[l - 2] == '"'))) {
memmove(shortText, shortText + 1, l);
char *p = strrchr(shortText, '"');
if (p)
*p = 0;
EpgBugFixStat(4, ChannelID());
}
}
if (Setup.EPGBugfixLevel <= 1)
return;
// Some channels apparently try to do some formatting in the texts,
// which is a bad idea because they have no way of knowing the width
// of the window that will actually display the text.
// Remove excess whitespace:
title = compactspace(title);
shortText = compactspace(shortText);
description = compactspace(description);
// Remove superfluous hyphens:
if (description) {
char *p = description;
while (*p && *(p + 1) && *(p + 2)) {
if (*p == '-' && *(p + 1) == ' ' && *(p + 2) && islower(*(p - 1)) && islower(*(p + 2))) {
if (!startswith(p + 2, "und ")) { // special case in German, as in "Lach- und Sachgeschichten"
memmove(p, p + 2, strlen(p + 2) + 1);
EpgBugFixStat(5, ChannelID());
}
}
p++;
}
}
#define MAX_USEFUL_EPISODE_LENGTH 40
// Some channels put a whole lot of information in the ShortText and leave
// the Description totally empty. So if the ShortText length exceeds
// MAX_USEFUL_EPISODE_LENGTH, let's put this into the Description
// instead:
if (!isempty(shortText) && isempty(description)) {
if (strlen(shortText) > MAX_USEFUL_EPISODE_LENGTH) {
free(description);
description = shortText;
shortText = NULL;
EpgBugFixStat(6, ChannelID());
}
}
// Some channels put the same information into ShortText and Description.
// In that case we delete one of them:
if (shortText && description && strcmp(shortText, description) == 0) {
if (strlen(shortText) > MAX_USEFUL_EPISODE_LENGTH) {
free(shortText);
shortText = NULL;
}
else {
free(description);
description = NULL;
}
EpgBugFixStat(7, ChannelID());
}
// Some channels use the ` ("backtick") character, where a ' (single quote)
// would be normally used. Actually, "backticks" in normal text don't make
// much sense, so let's replace them:
strreplace(title, '`', '\'');
strreplace(shortText, '`', '\'');
strreplace(description, '`', '\'');
}
}
// --- cSchedule -------------------------------------------------------------
cSchedule::cSchedule(tChannelID ChannelID)
{
channelID = ChannelID;
}
cEvent *cSchedule::AddEvent(cEvent *Event)
{
events.Add(Event);
return Event;
}
const cEvent *cSchedule::GetPresentEvent(bool CheckRunningStatus) const
{
const cEvent *pe = NULL;
time_t now = time(NULL);
for (cEvent *p = events.First(); p; p = events.Next(p)) {
if (p->StartTime() <= now && now < p->StartTime() + p->Duration()) {
pe = p;
if (!CheckRunningStatus)
break;
}
if (CheckRunningStatus && p->RunningStatus() >= SI::RunningStatusPausing)
return p;
}
return pe;
}
const cEvent *cSchedule::GetFollowingEvent(bool CheckRunningStatus) const
{
const cEvent *p = GetPresentEvent(CheckRunningStatus);
if (p)
p = events.Next(p);
return p;
}
const cEvent *cSchedule::GetEvent(u_int16_t EventID, time_t StartTime) const
{
// Returns either the event info with the given EventID or, if that one can't
// be found, the one with the given StartTime (or NULL if neither can be found)
cEvent *pt = NULL;
for (cEvent *pe = events.First(); pe; pe = events.Next(pe)) {
if (pe->EventID() == EventID)
return pe;
if (StartTime > 0 && pe->StartTime() == StartTime) // 'StartTime < 0' is apparently used with NVOD channels
pt = pe;
}
return pt;
}
const cEvent *cSchedule::GetEventAround(time_t Time) const
{
const cEvent *pe = NULL;
time_t delta = INT_MAX;
for (cEvent *p = events.First(); p; p = events.Next(p)) {
time_t dt = Time - p->StartTime();
if (dt >= 0 && dt < delta && p->StartTime() + p->Duration() >= Time) {
delta = dt;
pe = p;
}
}
return pe;
}
void cSchedule::SetRunningStatus(cEvent *Event, int RunningStatus)
{
for (cEvent *p = events.First(); p; p = events.Next(p)) {
if (p == Event)
p->SetRunningStatus(RunningStatus);
else if (RunningStatus >= SI::RunningStatusPausing && p->RunningStatus() > SI::RunningStatusNotRunning)
p->SetRunningStatus(SI::RunningStatusNotRunning);
}
}
void cSchedule::ResetVersions(void)
{
for (cEvent *p = events.First(); p; p = events.Next(p))
p->SetVersion(0xFF);
}
void cSchedule::Sort(void)
{
events.Sort();
}
void cSchedule::Cleanup(void)
{
Cleanup(time(NULL));
}
void cSchedule::Cleanup(time_t Time)
{
cEvent *Event;
for (int a = 0; true ; a++) {
Event = events.Get(a);
if (!Event)
break;
if (!Event->HasTimer() && Event->StartTime() + Event->Duration() + Setup.EPGLinger * 60 + 3600 < Time) { // adding one hour for safety
events.Del(Event);
a--;
}
}
}
void cSchedule::Dump(FILE *f, const char *Prefix, eDumpMode DumpMode, time_t AtTime) const
{
cChannel *channel = Channels.GetByChannelID(channelID, true);
if (channel) {
fprintf(f, "%sC %s %s\n", Prefix, channel->GetChannelID().ToString(), channel->Name());
const cEvent *p;
switch (DumpMode) {
case dmAll: {
for (p = events.First(); p; p = events.Next(p))
p->Dump(f, Prefix);
}
break;
case dmPresent: {
if ((p = GetPresentEvent()) != NULL)
p->Dump(f, Prefix);
}
break;
case dmFollowing: {
if ((p = GetFollowingEvent()) != NULL)
p->Dump(f, Prefix);
}
break;
case dmAtTime: {
if ((p = GetEventAround(AtTime)) != NULL)
p->Dump(f, Prefix);
}
break;
}
fprintf(f, "%sc\n", Prefix);
}
}
bool cSchedule::Read(FILE *f, cSchedules *Schedules)
{
if (Schedules) {
char *s;
while ((s = readline(f)) != NULL) {
if (*s == 'C') {
s = skipspace(s + 1);
char *p = strchr(s, ' ');
if (p)
*p = 0; // strips optional channel name
if (*s) {
tChannelID channelID = tChannelID::FromString(s);
if (channelID.Valid()) {
cSchedule *p = Schedules->AddSchedule(channelID);
if (p) {
if (!cEvent::Read(f, p))
return false;
p->Sort();
}
}
else {
esyslog("ERROR: illegal channel ID: %s", s);
return false;
}
}
}
else {
esyslog("ERROR: unexpected tag while reading EPG data: %s", s);
return false;
}
}
return true;
}
return false;
}
// --- cSchedulesLock --------------------------------------------------------
cSchedulesLock::cSchedulesLock(bool WriteLock, int TimeoutMs)
{
locked = cSchedules::schedules.rwlock.Lock(WriteLock, TimeoutMs);
}
cSchedulesLock::~cSchedulesLock()
{
if (locked)
cSchedules::schedules.rwlock.Unlock();
}
// --- cSchedules ------------------------------------------------------------
cSchedules cSchedules::schedules;
const char *cSchedules::epgDataFileName = NULL;
time_t cSchedules::lastCleanup = time(NULL);
time_t cSchedules::lastDump = time(NULL);
const cSchedules *cSchedules::Schedules(cSchedulesLock &SchedulesLock)
{
return SchedulesLock.Locked() ? &schedules : NULL;
}
void cSchedules::SetEpgDataFileName(const char *FileName)
{
delete epgDataFileName;
if (FileName)
epgDataFileName = strdup(FileName);
}
void cSchedules::Cleanup(bool Force)
{
if (Force)
lastDump = 0;
time_t now = time(NULL);
struct tm tm_r;
struct tm *ptm = localtime_r(&now, &tm_r);
if (now - lastCleanup > 3600 && ptm->tm_hour == 5) {
isyslog("cleaning up schedules data");
cSchedulesLock SchedulesLock(true, 1000);
cSchedules *s = (cSchedules *)Schedules(SchedulesLock);
if (s) {
for (cSchedule *p = s->First(); p; p = s->Next(p))
p->Cleanup(now);
}
lastCleanup = now;
ReportEpgBugFixStats(true);
}
if (epgDataFileName && now - lastDump > 600) {
cSafeFile f(epgDataFileName);
if (f.Open()) {
Dump(f);
f.Close();
}
else
LOG_ERROR;
lastDump = now;
}
}
void cSchedules::ResetVersions(void)
{
cSchedulesLock SchedulesLock(true);
cSchedules *s = (cSchedules *)Schedules(SchedulesLock);
if (s) {
for (cSchedule *Schedule = s->First(); Schedule; Schedule = s->Next(Schedule))
Schedule->ResetVersions();
}
}
bool cSchedules::ClearAll(void)
{
cSchedulesLock SchedulesLock(true, 1000);
cSchedules *s = (cSchedules *)Schedules(SchedulesLock);
if (s) {
s->Clear();
return true;
}
return false;
}
bool cSchedules::Dump(FILE *f, const char *Prefix, eDumpMode DumpMode, time_t AtTime)
{
cSchedulesLock SchedulesLock;
cSchedules *s = (cSchedules *)Schedules(SchedulesLock);
if (s) {
for (cSchedule *p = s->First(); p; p = s->Next(p))
p->Dump(f, Prefix, DumpMode, AtTime);
return true;
}
return false;
}
bool cSchedules::Read(FILE *f)
{
cSchedulesLock SchedulesLock(true, 1000);
cSchedules *s = (cSchedules *)Schedules(SchedulesLock);
if (s) {
bool OwnFile = f == NULL;
if (OwnFile) {
if (epgDataFileName && access(epgDataFileName, R_OK) == 0) {
dsyslog("reading EPG data from %s", epgDataFileName);
if ((f = fopen(epgDataFileName, "r")) == NULL) {
LOG_ERROR;
return false;
}
}
else
return false;
}
bool result = cSchedule::Read(f, s);
if (OwnFile)
fclose(f);
return result;
}
return false;
}
cSchedule *cSchedules::AddSchedule(tChannelID ChannelID)
{
ChannelID.ClrRid();
cSchedule *p = (cSchedule *)GetSchedule(ChannelID);
if (!p) {
p = new cSchedule(ChannelID);
Add(p);
}
return p;
}
const cSchedule *cSchedules::GetSchedule(tChannelID ChannelID) const
{
ChannelID.ClrRid();
for (cSchedule *p = First(); p; p = Next(p)) {
if (p->ChannelID() == ChannelID)
return p;
}
return NULL;
}
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