David Smart
Fixed custom headers and Basic authorization, added support for redirection, functional file download interface can be used for SW updates and more.
Dependents: Sample_HTTPClient Sample_HTTPClient LWM2M_NanoService_Ethernet LWM2M_NanoService_Ethernet ... more
Fork of
HTTPClient
by 
Vincent Wochnik
More recent changes - added iCal processing.
Derivative of a derivative, however this one works when it comes to supplying Basic authorization to access a protected resource. Some additional changes to the debug interface to clean it up for consistency with many other components I have.
data/HTTPiCal.cpp
- Committer:
- WiredHome
- Date:
- 2017-07-29
- Revision:
- 44:0e3b0849b2c7
- Parent:
- 43:12a6ae712bcd
- Child:
- 45:accd09953fae
File content as of revision 44:0e3b0849b2c7:
#include "HTTPiCal.h"
//#include "Utility.h" // private memory manager
#ifndef UTILITY_H
#define swMalloc malloc // use the standard
#define swFree free
#endif
//#define DEBUG "iCal"
#include <cstdio>
#if (defined(DEBUG) && !defined(TARGET_LPC11U24))
#define DBG(x, ...) std::printf("[DBG %s %3d] "x"\r\n", DEBUG, __LINE__, ##__VA_ARGS__);
#define WARN(x, ...) std::printf("[WRN %s %3d] "x"\r\n", DEBUG, __LINE__, ##__VA_ARGS__);
#define ERR(x, ...) std::printf("[ERR %s %3d] "x"\r\n", DEBUG, __LINE__, ##__VA_ARGS__);
#define INFO(x, ...) std::printf("[INF %s %3d] "x"\r\n", DEBUG, __LINE__, ##__VA_ARGS__);
#else
#define DBG(x, ...)
#define WARN(x, ...)
#define ERR(x, ...)
#define INFO(x, ...)
#endif
HTTPiCal::HTTPiCal(int count) {
EventList = (Event_T *)swMalloc(count * sizeof(Event_T));
if (EventList) {
EventSpaceCount = count;
EventCount = 0;
seeking = idle;
} else {
error("no space for event list");
}
}
HTTPiCal::~HTTPiCal() {
if (EventList)
swFree(EventList);
}
void HTTPiCal::SetTimeWindow(time_t StartTime, time_t EndTime) {
gridStartTime = StartTime;
gridEndTime = EndTime;
}
bool HTTPiCal::GetEvent(unsigned int i, Event_T * event) {
if (i < EventCount) {
*event = EventList[i];
return true;
} else {
return false;
}
}
void HTTPiCal::writeReset() {
//INFO("writeReset()");
EventCount = 0;
seeking = idle;
lineBuf[0] = '\0';
}
int HTTPiCal::write(const char * buf, size_t len) {
const char * pStart = buf;
const char * pEOL;
size_t origLen = len;
pEOL = strchr(pStart, '\n');
//INFO("\r\n\r\nwrite[%d:%d] = \r\n%s\r\nend-write\r\n", len, pEOL - pStart, buf);
//printf("lineBuf:[%d] %s\r\n", len, buf);
while (pEOL && (pEOL - pStart) < len) {
int lbLen = strlen(lineBuf);
strncpy(lineBuf + lbLen, pStart, (pEOL - pStart));
lineBuf[lbLen + (pEOL - pStart) + 1] = '\0';
if (lineBuf[pEOL - pStart + lbLen - 1] == '\r')
lineBuf[pEOL - pStart + lbLen - 1] = '\0';
//printf("lineBuf:[%s]\r\n", lineBuf);
ParseICalStream(lineBuf, gridStartTime, gridEndTime, -300);
//INFO("");
lineBuf[0] = '\0';
len -= (pEOL - pStart);
pStart = pEOL + 1;
while (pStart && *pStart && *pStart <= ' ') {
pStart++;
len--;
}
if (*pStart)
pEOL = strchr(pStart, '\n');
else
pEOL = NULL;
}
if (len) {
strncpy(lineBuf, pStart, len);
lineBuf[len] = '\0';
//INFO("fragment:[%s]", lineBuf);
}
//INFO("write returns %d", origLen);
return origLen;
}
void HTTPiCal::setDataType(const char* type) {
//INFO("setDataType(%s)", type);
}
//void HTTPiCal::setLocation(const char * location) {
//
//}
void HTTPiCal::setIsChunked(bool chunked) {
INFO("setIsChunked(%d)", chunked);
m_chunked = chunked;
}
void HTTPiCal::setDataLen(size_t len) {
//INFO("setDataLen(%d)", len);
}
const char * RPT_DAYS[] = { "SU", "MO", "TU", "WE", "TH", "FR", "SA", "" };
const char * HTTPiCal::RepeatDayAbbrev(int i)
{
if (i < 7)
return RPT_DAYS[i];
else
return RPT_DAYS[7];
}
void HTTPiCal::SortEvents()
{
bool swapped;
int e;
Event_T Event;
do {
swapped = false;
for (e=0; e<EventCount-1; e++) {
if (EventList[e].Start > EventList[e+1].Start) {
Event = EventList[e];
EventList[e] = EventList[e+1];
EventList[e+1] = Event;
swapped = true;
}
}
} while (swapped);
}
uint16_t HTTPiCal::AtoIxN(const char * p, int n)
{
uint16_t res = 0;
while (n--) {
res = (res * 10) + (*p - '0');
p++;
}
return res;
}
// YYYYMMDD[THHMMSS[Z]]
// VALUE=DATE:YYYYMMDD
time_t HTTPiCal::ParseDateStamp(const char * string, tz_sec_t tzoSec)
{
time_t tStamp;
struct tm t;
struct tm * tnow;
time(&tStamp);
tnow = localtime(&tStamp);
if (strncmp(string, "VALUE=DATE:", 11) == 0) {
string += 11;
}
//INFO("ParseDateStamp(%s,%d)\n", string, tzoSec);
t.tm_year = AtoIxN(string, 4) - 1900;
t.tm_mon = AtoIxN(string+4, 2) - 1;
t.tm_mday = AtoIxN(string+6, 2);
if (strlen(string) > 8) {
t.tm_hour = AtoIxN(string+9, 2);
t.tm_min = AtoIxN(string+11, 2);
t.tm_sec = AtoIxN(string+13, 2);
t.tm_isdst = tnow->tm_isdst;
} else {
t.tm_hour = 0;
t.tm_min = 0;
t.tm_sec = 0;
t.tm_isdst = tnow->tm_isdst;
}
tStamp = mktime(&t);
if (string[strlen(string)-1] == 'Z') {
//INFO("Applying tzoSec %d", tzoSec);
tStamp = tStamp + tzoTZIDSec;
} else {
tStamp = tStamp + tzoSec;
}
return tStamp;
}
// since this returns the string from a static buffer, and unknowing users
// might call this twice in a single command (e.g. printf(..., FormatCTime(time1), FormatCTime(time2));
// this define controls how many of these can execute.
#define NumCallsPerArgList 2
char * HTTPiCal::FormatCTime(time_t t)
{
static char temp[NumCallsPerArgList][30];
static int i = 0;
i %= NumCallsPerArgList;
strcpy(temp[i], ctime(&t));
temp[i][strlen(temp[i])-1] = '\0';
return temp[i++];
}
void HTTPiCal::ShowEventInfo(Event_T & Event)
{
char scratch[80];
#define LF "\r\n"
printf("******* Summary: %s" LF, Event.Summary);
printf(" Location: %s" LF, Event.Location);
printf(" Category: %s" LF, Event.Category);
printf(" Priority: %d" LF, Event.Priority);
sprintf(scratch, "%lu ", Event.Start);
sprintf(scratch + strlen(scratch), "%s", (Event.Start == 0) ? "" : ctime(&Event.Start));
scratch[strlen(scratch)-1] = '\0';
printf(" Start: %s" LF, scratch);
sprintf(scratch, "%lu ", Event.End);
sprintf(scratch + strlen(scratch), "%s", (Event.End == 0) ? "" : ctime(&Event.End));
scratch[strlen(scratch)-1] = '\0';
printf(" End: %s" LF, scratch);
printf(" Count: %d" LF, Event.Count);
printf(" Interval: %d" LF, Event.Interval);
printf(" RepeatFrq: %d" LF, Event.RepeatFreq);
printf(" RepeatDay: %02X" LF, Event.RepeatDays);
printf(" RepeatMonthDay: %08X" LF, Event.RepeatMonthDay);
printf(" RepeatMonthDayRev: %08X" LF, Event.RepeatMonthDayRev);
printf(" RepeatMonth: %04X" LF, Event.RepeatMonths);
sprintf(scratch, "%lu ", Event.Until);
sprintf(scratch + strlen(scratch), "%s", (Event.Until == 0) ? "" : ctime(&Event.Until));
scratch[strlen(scratch)-1] = '\0';
printf(" Until: %s" LF, scratch);
printf("" LF);
}
/// Computes the intersection of time1 and time2 ranges, and modifies time1
/// range to represent the intersection.
///
/// start1 is input as the start of the time1 range, and is written
/// to represent the intersection of the two ranges.
/// end1 is input as the end of the time1 range and is written to
/// represent the intersection of the two ranges.
/// start2 is the start of the time2 range.
/// end2 is the end of the time2 range.
/// returns true if the ranges have an intersection, and the time1 range
/// values have been modified.
///
bool HTTPiCal::TimeIntersects(time_t * start1, time_t * end1, time_t * start2, time_t * end2)
{
// |----Time1----|
// |--Time2--| false
//
// |----Time1----|
// |--Time2--| false
//
// |----Time1----|
// |----Time2----|
// |-Time1-| true
//
// |----Time1----|
// |----Time2----|
// |-Time1-| true
//
// |----Time1-------|
// |-Time2-|
// |-Time1-| true
//
// | Time1 (end1 == 0)
// | Time2 (end2 == 0) true
//
if (*start1 == *start2 && *end1 == 0 && *end2 == 0)
return true;
if (*end1 < *start2 || *end2 < *start1)
return false;
if (max(*start1,*start2) < min(*end1,*end2)) {
*start1 = max(*start1,*start2);
*end1 = min(*end1,*end2);
return true;
} else {
return false;
}
}
bool HTTPiCal::isLeapYear(time_t t)
{
int year;
struct tm * ts;
ts = localtime(&t);
year = 1900 + ts->tm_year + 1;
if ((((year % 4) == 0) && ((year % 100) != 0)) || ((year % 400) == 0))
return true;
else
return false;
}
time_t HTTPiCal::NextInterval(time_t curTime, int repeatFreq, int interval)
{
const time_t secperday = 60*60*24;
const int repeatFactor[] = {0, 1, 7, 30, 365};
int delta = repeatFactor[repeatFreq];
if (repeatFreq == 4 && isLeapYear(curTime))
delta += 1;
//INFO("freq %d, interval %d, delta %d", repeatFreq, interval, delta);
return delta * interval * secperday;
}
// start1,end1 is the time range representing the visible grid
// start2,end2 is the time range of the event being tested
// Event is also the event being tested and permits testing the repeat information.
//
// If the event repeat pattern intersects with the display pattern, indicate this as "true"
//
bool HTTPiCal::RepeatMaskIntersects(time_t * start1, time_t * end1, time_t * start2, time_t * end2, Event_T * Event)
{
bool intersects = false;
//INFO("RepeatFreq: %d", Event->RepeatFreq);
if (Event->RepeatFreq == rptfDaily) {
//INFO("rptfDaily is not handled");
} else if (Event->RepeatFreq == rptfWeekly) {
struct tm * timeinfo;
timeinfo = localtime(start1);
uint8_t daymask = Event->RepeatDays;
// now, check the tm_wday (0=Sunday, 1=Monday, ...) and see if we intersect with the event time
uint8_t testmask = 1 << timeinfo->tm_wday;
//INFO("Mask: Event mask: %02X, test mask: %02X", daymask, testmask);
if (daymask & testmask)
intersects = true;
else
intersects = false;
//INFO(" intersects: %02X", daymask & testmask);
return intersects;
} else if (Event->RepeatFreq == rptfYearly) {
//struct tm * timeinfo;
//timeinfo = localtime(start1);
//INFO("rptfYearly is not handled well yet");
}
//INFO("Mask: no handler, returning true");
return true;
}
bool HTTPiCal::RepeatIntersects(time_t * start1, time_t * end1, time_t * start2, time_t * end2, Event_T * Event)
{
INFO("** 1: (%s, %s)", FormatCTime(*start1), *end1 ? FormatCTime(*end1) : "");
INFO(" 2: (%s, %s)", FormatCTime(*start2), *end2 ? FormatCTime(*end2) : "");
INFO(" ev: (%s, %s)", FormatCTime(Event->Start), Event->End ? FormatCTime(Event->End) : "");
if (TimeIntersects(start1, end1, start2, end2))
return true;
if (Event && Event->RepeatFreq) {
INFO("RepeatFreq: %d", Event->RepeatFreq);
if (Event->Start < *start2 && Event->Until > *start2 ) { // Until=....
INFO("Repeat until: %d", Event->Until);
do {
time_t interval = NextInterval(*start1, Event->RepeatFreq, (Event->Interval == 0) ? 1 : Event->Interval);
*start1 = *start1 + interval;
if (*end1)
*end1 = *end1 + interval;
INFO("** 1: (%s, %s)", FormatCTime(*start1), *end1 ? FormatCTime(*end1) : "");
INFO("until (%24s, %s)", " ", FormatCTime(Event->Until));
INFO(" 2: (%s, %s)", FormatCTime(*start2), *end2 ? FormatCTime(*end2) : "");
if (!RepeatMaskIntersects(start1, end1, start2, end2, Event)) {
continue; // we're not on a repeat cycle (e.g. wrong day of the week)
}
if (TimeIntersects(start1, end1, start2, end2)) {
return true;
}
} while ((*end2 == 0 || *start1 < *end2) && *start1 < Event->Until);
} else if (Event->Start < *start2 && Event->Count) { // Count=
INFO("Repeat count %d", Event->Count);
int count = Event->Count - 1;
do {
time_t interval = NextInterval(*start1, Event->RepeatFreq, (Event->Interval == 0) ? 1 : Event->Interval);
*start1 = *start1 + interval;
if (*end1)
*end1 = *end1 + interval;
INFO("** 1: (%s, %s) - %d", FormatCTime(*start1), *end1 ? FormatCTime(*end1) : "", count);
INFO(" 2: (%s, %s)", FormatCTime(*start2), *end2 ? FormatCTime(*end2) : "");
if (!RepeatMaskIntersects(start1, end1, start2, end2, Event)) {
continue; // we're not on a repeat cycle (e.g. wrong day of the week)
}
if (TimeIntersects(start1, end1, start2, end2)) {
return true;
}
} while (--count && *end1 < *start2);
} else if (Event->Start < *start2) { // no Count= and no Until=
INFO(" no Repeat end");
do {
int rptFreq = Event->RepeatFreq;
if (Event->RepeatFreq == 2 && Event->RepeatDays != 0)
rptFreq--;
time_t interval = NextInterval(*start1, rptFreq, (Event->Interval == 0) ? 1 : Event->Interval);
*start1 = *start1 + interval;
if (*end1)
*end1 = *end1 + interval;
INFO("== 1: (%s, %s)", FormatCTime(*start1), *end1 ? FormatCTime(*end1) : "");
INFO(" 2: (%s, %s)", FormatCTime(*start2), *end2 ? FormatCTime(*end2) : "");
if (!RepeatMaskIntersects(start1, end1, start2, end2, Event)) {
continue; // we're not on a repeat cycle (e.g. wrong day of the week)
}
if (TimeIntersects(start1, end1, start2, end2)) {
return true;
}
} while (*start1 < *end2 || (*end2 == 0 && *start1 < *start2));
} else {
INFO("falling out");
}
}
INFO(" no intersection");
return false;
}
// All the stuff between
// BEGIN:VEVENT
// ...
// END:VEVENT
//
void HTTPiCal::ParseEvent(Event_T * Event, const char * pStart, tz_sec_t tzoSec)
{
INFO("ParseEvent(...,'%s',%d)", pStart, tzoSec);
if (strncmp(pStart, "DTSTART:", 8) == 0) {
Event->Start = ParseDateStamp(pStart+8, tzoSec);
INFO(" Start: %s\n", ctime(&Event->Start));
} else if (strncmp(pStart, "DTSTART;", 8) == 0) {
const char * p = pStart + 8;
tzoSec = ParseTZID(p);
p = strrchr(pStart, ':');
if (p) {
Event->Start = ParseDateStamp(p+1, 0); // example was localtime with GMT -06:00 tzoSec);
INFO(" Start: %s", ctime(&Event->Start));
}
} else if (strncmp(pStart, "DTEND:", 6) == 0) {
Event->End = ParseDateStamp(pStart+6, tzoSec);
//INFO(" End: %d\n", mktime(&Event->eventEnd));
} else if (strncmp(pStart, "DTEND;", 6) == 0) {
const char * p = pStart + 6;
tzoSec = ParseTZID(p);
p = strrchr(pStart, ':');
if (p) {
Event->End = ParseDateStamp(p+1, 0); // example was localtime with GMT -06:00 tzoSec);
INFO(" End: %s", ctime(&Event->End));
}
} else if (strncmp(pStart, "SUMMARY:", 8) == 0) {
strncpy(Event->Summary, pStart+8, SUMMARY_CHARS-1);
Event->Summary[SUMMARY_CHARS-1] = '\0';
//INFO(" Summary: %s\n", Event->Summary);
} else if (strncmp(pStart, "LOCATION:", 9) == 0) {
strncpy(Event->Location, pStart+9, LOCATION_CHARS-1);
Event->Location[LOCATION_CHARS-1] = '\0';
//INFO(" Location: %s\n", Event->Location);
} else if (strncmp(pStart, "PRIORITY:", 9) == 0) {
Event->Priority = *(pStart+9) - '0';
//INFO(" Priority: %d\n", Event->Priority);
} else if (strncmp(pStart, "CATEGORIES:", 11) == 0) {
strncpy(Event->Category, pStart+11, CATEGORY_CHARS-1);
Event->Category[CATEGORY_CHARS-1] = '\0';
//INFO(" Category: %s\n", Event->Category);
} else if (strncmp(pStart, "RRULE:", 6) == 0) {
//RRULE:FREQ=WEEKLY;UNTIL=20140502T180000;BYDAY=MO,TU,WE,TH,FR
const char * p1, *p2;
//INFO("%s", pStart);
p1 = pStart + 6; // p1 = FREQ=WEEKLY;UNTIL=20140502T180000;BYDAY=MO,TU,WE,TH,FR
p2 = strchr(p1, ';');
//if (p2)
// *p2++ = '\0';
while (*p1) {
INFO("%s", p1);
if (strncmp(p1, "FREQ=", 5) == 0) {
//INFO("%s", p1);
p1 += 5; // p1 = WEEKLY;UNTIL=20140502T180000;BYDAY=MO,TU,WE,TH,FR
if (strncmp(p1, "WEEKLY", 6) == 0) {
//INFO(" %s", p1);
Event->RepeatFreq = rptfWeekly;
p1 += 6;
} else if (strncmp(p1, "DAILY", 5) == 0) {
//INFO(" %s", p1);
Event->RepeatFreq = rptfDaily;
p1 += 5;
} else if (strncmp(p1, "MONTHLY", 7) == 0) {
//INFO(" %s", p1);
Event->RepeatFreq = rptfMonthly;
p1 += 7;
} else if (strncmp(p1, "YEARLY", 6) == 0) {
//INFO(" %s", p1);
Event->RepeatFreq = rptfYearly;
p1 += 6;
}
} else if (strncmp(p1, "INTERVAL=", 9) == 0) { // INTERVAL=2
//INFO("%s", p1);
p1 += 9;
Event->Interval = atoi(p1);
} else if (strncmp(p1, "COUNT=", 6) == 0) { // COUNT=12;
//INFO("%s", p1);
p1 += 6; // p1 =
Event->Count = atoi(p1);
} else if (strncmp(p1, "UNTIL=", 6) == 0) {
//INFO("%s", p1);
p1 += 6; // p1 = 20140502T180000;BYDAY=MO,TU,WE,TH,FR
//printf("UNTIL= {%s}\n", p1);
Event->Until = ParseDateStamp(p1, tzoSec);
//printf("UNTIL:: %d: %d\n", Event->Until, tzoSec);
} else if (strncmp(p1, "BYDAY=", 6) == 0) {
//INFO("%s", p1);
p1 += 6; // p1 = MO,TU,WE,TH,FR
while (*p1 >= ' ') {
//INFO(" %s", p1);
for (int d=0; d<7; d++) {
if (strncmp(p1,RepeatDayAbbrev(d),2) == 0) {
Event->RepeatDays |= (1 << d);
//INFO(" %s %02X", RepeatDayAbbrev(d), Event->RepeatDays);
break;
}
}
p1 += 3;
}
//INFO(" RepeatDay: %02X", Event->RepeatDays);
} else if (strncmp(p1, "BYMONTHDAY=", 11) == 0) {
// RRULE:FREQ=MONTHLY;COUNT=10;BYMONTHDAY=2,15
p1 += 11;
while (*p1 >= ' ') {
const char * px = p1;
while (*px >= ' ' && *px != ',') { // find , or ; or <nul>
px++;
}
//if (*px)
// *px++ = '\0';
int num = atoi(p1);
if (num >= 0)
Event->RepeatMonthDay |= (1 << num);
else
Event->RepeatMonthDayRev |= (1 << -num);
p1 = px;
}
INFO(" RepeatMonthDay: %08X", Event->RepeatMonthDay);
} else if (strncmp(p1, "BYMONTH=", 8) == 0) {
// RRULE:FREQ=YEARLY;INTERVAL=2;COUNT=10;BYMONTH=1,2,3
p1 += 8;
while (*p1 >= ' ') {
const char * px = p1;
while (*px >= ' ' && *px != ',') { // find , or ; or <nul>
px++;
}
//if (*px)
// *px++ = '\0';
int num = atoi(p1);
if (num >= 0)
Event->RepeatMonths |= (1 << num);
//else
// ; // Event->RepeatMonthsRev |= (1 << -num);
p1 = px;
}
INFO(" RepeatMonths: %04X", Event->RepeatMonths);
}
if (!p2)
break;
p1 = p2 + 1;
p2 = strchr(p1, ';');
//if (p2)
// *p2++ = '\0';
}
}
}
// TZID="(GMT -06:00)":20140519T063000
// TZID:(UTC-06:00) Central Time (US & Canada)
// TZID:(GMT -06:00)
HTTPiCal::tz_sec_t HTTPiCal::ParseTZID(const char * string)
{
tz_sec_t tzo = 0;
bool sign = false;
INFO("ParseTZID(%s)", string); // TZID="(GMT -06:00)":20140519T063000
string += 5; // "(GMT -06:00)":20140519T063000
if (*string == '"')
string++; // (GMT -06:00)":20140519T063000
if ((strncmp(string, "(UTC", 4) == 0)
|| (strncmp(string, "(GMT", 4) == 0) ){
string += 4;
if (*string == ' ')
string++;
if (*string == '-') {
sign = true;
string++;
}
tzo = atoi(string) * 3600;
string = strchr(string, ':');
if (string) {
string++;
tzo += atoi(string) * 60;
}
if (sign)
tzo = -tzo;
INFO(" tzo = %d", tzo);
} else {
ERR("Unhandled TZID(%s)", string);
}
return tzo;
}
int HTTPiCal::ParseICalStream(const char * pStart, time_t gridStartTime, time_t gridEndTime, tz_min_t tzoMin, bool showEvents)
{
INFO("Parse(%s)", pStart);
//INFO("EventCount: %d, EventSpaceCount: %d, seeking: %d", EventCount, EventSpaceCount, seeking);
if (pStart && *pStart && EventCount < EventSpaceCount) {
switch (seeking) {
case idle:
if (strncmp(pStart, "BEGIN:VTIMEZONE", 15) == 0) {
//INFO("begin:timezone");
seeking = inTimeZone;
} else if (strncmp(pStart, "BEGIN:VEVENT", 12) == 0) {
//INFO("begin:vevent");
seeking = inEvent;
EventList[EventCount].Start = 0;
EventList[EventCount].End = 0;
EventList[EventCount].Until = 0;
EventList[EventCount].Summary[0] = '\0';
EventList[EventCount].Location[0] = '\0';
EventList[EventCount].Category[0] = '\0';
EventList[EventCount].Count = 0;
EventList[EventCount].Interval = 0;
EventList[EventCount].RepeatFreq = rptfNone;
EventList[EventCount].RepeatDays = 0;
EventList[EventCount].RepeatMonthDay = 0;
EventList[EventCount].RepeatMonthDayRev = 0;
EventList[EventCount].RepeatMonths = 0;
EventList[EventCount].Priority = 5; // 5 is Normal
}
break;
case inTimeZone:
//INFO("inTimeZone:");
// Can also pick up daylight savings time
if (strncmp(pStart, "END:VTIMEZONE", 13) == 0) {
seeking = idle;
} else if ((strncmp(pStart, "TZID:", 5) == 0)
|| (strncmp(pStart, "TZID=", 5) == 0) ) {
tzoTZIDSec = ParseTZID(pStart);
tzAdjusted = true;
pStart += 5;
} else if (strncmp(pStart, "BEGIN:STANDARD", 14) == 0) {
} else if (strncmp(pStart, "BEGIN:DAYLIGHT", 14) == 0) {
}
break;
case inEvent:
//INFO("inEvent:");
// inEvent
if (strncmp(pStart, "END:VEVENT", 10) == 0) {
// Timezone offset
if (!tzAdjusted) {
EventList[EventCount].Start += (60 * tzoMin);
if (EventList[EventCount].End)
EventList[EventCount].End += (60 * tzoMin);
}
// Process it
if (showEvents) {
//printf("ev: %d\r\n", EventCount);
ShowEventInfo(EventList[EventCount]);
}
// Force to ALWAYS
time_t aStart = EventList[EventCount].Start;
time_t aEnd = EventList[EventCount].End;
if (gridStartTime
&& RepeatIntersects(&aStart, &aEnd, &gridStartTime, &gridEndTime, &EventList[EventCount])) {
EventCount++;
if (showEvents) {
INFO(" +++++ Added Event %d", EventCount);//, EventList[EventCount].Summary);
}
}
seeking = idle;
} else {
//INFO("parse event data");
ParseEvent(&EventList[EventCount], pStart, 60 * tzoMin);
}
// End of inEvent
break;
default:
INFO("default:");
seeking = idle;
break;
}
} // while
return EventCount;
}