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|
/*
* Calcurse - text-based organizer
*
* Copyright (c) 2004-2015 calcurse Development Team <misc@calcurse.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the
* following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Send your feedback or comments to : misc@calcurse.org
* Calcurse home page : http://calcurse.org
*
*/
#include <strings.h>
#include <sys/types.h>
#include "calcurse.h"
#define ICALDATEFMT "%Y%m%d"
#define ICALDATETIMEFMT "%Y%m%dT%H%M%S"
typedef enum {
ICAL_VEVENT,
ICAL_VTODO,
ICAL_TYPES
} ical_types_e;
typedef enum {
UNDEFINED,
APPOINTMENT,
EVENT
} ical_vevent_e;
typedef struct {
enum recur_type type;
int freq;
long until;
unsigned count;
} ical_rpt_t;
static void ical_export_header(FILE *);
static void ical_export_recur_events(FILE *, int);
static void ical_export_events(FILE *, int);
static void ical_export_recur_apoints(FILE *, int);
static void ical_export_apoints(FILE *, int);
static void ical_export_todo(FILE *, int);
static void ical_export_footer(FILE *);
static const char *ical_recur_type[RECUR_TYPES] =
{ "", "DAILY", "WEEKLY", "MONTHLY", "YEARLY" };
/* iCal alarm notification. */
static void ical_export_valarm(FILE * stream)
{
fputs("BEGIN:VALARM\n", stream);
pthread_mutex_lock(&nbar.mutex);
fprintf(stream, "TRIGGER:-P%dS\n", nbar.cntdwn);
pthread_mutex_unlock(&nbar.mutex);
fputs("ACTION:DISPLAY\n", stream);
fputs("END:VALARM\n", stream);
}
/* Export header. */
static void ical_export_header(FILE * stream)
{
fputs("BEGIN:VCALENDAR\n", stream);
fprintf(stream, "PRODID:-//calcurse//NONSGML v%s//EN\n", VERSION);
fputs("VERSION:2.0\n", stream);
}
/* Export footer. */
static void ical_export_footer(FILE * stream)
{
fputs("END:VCALENDAR\n", stream);
}
/* Export recurrent events. */
static void ical_export_recur_events(FILE * stream, int export_uid)
{
llist_item_t *i, *j;
char ical_date[BUFSIZ];
LLIST_FOREACH(&recur_elist, i) {
struct recur_event *rev = LLIST_GET_DATA(i);
date_sec2date_fmt(rev->day, ICALDATEFMT, ical_date);
fputs("BEGIN:VEVENT\n", stream);
fprintf(stream, "DTSTART:%s\n", ical_date);
fprintf(stream, "RRULE:FREQ=%s;INTERVAL=%d",
ical_recur_type[rev->rpt->type], rev->rpt->freq);
if (rev->rpt->until != 0) {
date_sec2date_fmt(rev->rpt->until, ICALDATEFMT,
ical_date);
fprintf(stream, ";UNTIL=%s\n", ical_date);
} else {
fputc('\n', stream);
}
if (LLIST_FIRST(&rev->exc)) {
fputs("EXDATE:", stream);
LLIST_FOREACH(&rev->exc, j) {
struct excp *exc = LLIST_GET_DATA(j);
date_sec2date_fmt(exc->st, ICALDATEFMT,
ical_date);
fprintf(stream, "%s", ical_date);
fputc(LLIST_NEXT(j) ? ',' : '\n', stream);
}
}
fprintf(stream, "SUMMARY:%s\n", rev->mesg);
if (export_uid) {
char *hash = recur_event_hash(rev);
fprintf(stream, "UID:%s\n", hash);
mem_free(hash);
}
fputs("END:VEVENT\n", stream);
}
}
/* Export events. */
static void ical_export_events(FILE * stream, int export_uid)
{
llist_item_t *i;
char ical_date[BUFSIZ];
LLIST_FOREACH(&eventlist, i) {
struct event *ev = LLIST_TS_GET_DATA(i);
date_sec2date_fmt(ev->day, ICALDATEFMT, ical_date);
fputs("BEGIN:VEVENT\n", stream);
fprintf(stream, "DTSTART:%s\n", ical_date);
fprintf(stream, "SUMMARY:%s\n", ev->mesg);
if (export_uid) {
char *hash = event_hash(ev);
fprintf(stream, "UID:%s\n", hash);
mem_free(hash);
}
fputs("END:VEVENT\n", stream);
}
}
/* Export recurrent appointments. */
static void ical_export_recur_apoints(FILE * stream, int export_uid)
{
llist_item_t *i, *j;
char ical_datetime[BUFSIZ];
char ical_date[BUFSIZ];
LLIST_TS_LOCK(&recur_alist_p);
LLIST_TS_FOREACH(&recur_alist_p, i) {
struct recur_apoint *rapt = LLIST_TS_GET_DATA(i);
date_sec2date_fmt(rapt->start, ICALDATETIMEFMT,
ical_datetime);
fputs("BEGIN:VEVENT\n", stream);
fprintf(stream, "DTSTART:%s\n", ical_datetime);
if (rapt->dur > 0) {
fprintf(stream, "DURATION:P%ldDT%ldH%ldM%ldS\n",
rapt->dur / DAYINSEC,
(rapt->dur / HOURINSEC) % DAYINHOURS,
(rapt->dur / MININSEC) % HOURINMIN,
rapt->dur % MININSEC);
}
fprintf(stream, "RRULE:FREQ=%s;INTERVAL=%d",
ical_recur_type[rapt->rpt->type], rapt->rpt->freq);
if (rapt->rpt->until != 0) {
date_sec2date_fmt(rapt->rpt->until + HOURINSEC,
ICALDATEFMT, ical_date);
fprintf(stream, ";UNTIL=%s\n", ical_date);
} else {
fputc('\n', stream);
}
if (LLIST_FIRST(&rapt->exc)) {
fputs("EXDATE:", stream);
LLIST_FOREACH(&rapt->exc, j) {
struct excp *exc = LLIST_GET_DATA(j);
date_sec2date_fmt(exc->st, ICALDATEFMT,
ical_date);
fprintf(stream, "%s", ical_date);
fputc(LLIST_NEXT(j) ? ',' : '\n', stream);
}
}
fprintf(stream, "SUMMARY:%s\n", rapt->mesg);
if (rapt->state & APOINT_NOTIFY)
ical_export_valarm(stream);
if (export_uid) {
char *hash = recur_apoint_hash(rapt);
fprintf(stream, "UID:%s\n", hash);
mem_free(hash);
}
fputs("END:VEVENT\n", stream);
}
LLIST_TS_UNLOCK(&recur_alist_p);
}
/* Export appointments. */
static void ical_export_apoints(FILE * stream, int export_uid)
{
llist_item_t *i;
char ical_datetime[BUFSIZ];
LLIST_TS_LOCK(&alist_p);
LLIST_TS_FOREACH(&alist_p, i) {
struct apoint *apt = LLIST_TS_GET_DATA(i);
date_sec2date_fmt(apt->start, ICALDATETIMEFMT,
ical_datetime);
fputs("BEGIN:VEVENT\n", stream);
fprintf(stream, "DTSTART:%s\n", ical_datetime);
if (apt->dur > 0) {
fprintf(stream, "DURATION:P%ldDT%ldH%ldM%ldS\n",
apt->dur / DAYINSEC,
(apt->dur / HOURINSEC) % DAYINHOURS,
(apt->dur / MININSEC) % HOURINMIN,
apt->dur % MININSEC);
}
fprintf(stream, "SUMMARY:%s\n", apt->mesg);
if (apt->state & APOINT_NOTIFY)
ical_export_valarm(stream);
if (export_uid) {
char *hash = apoint_hash(apt);
fprintf(stream, "UID:%s\n", hash);
mem_free(hash);
}
fputs("END:VEVENT\n", stream);
}
LLIST_TS_UNLOCK(&alist_p);
}
/* Export todo items. */
static void ical_export_todo(FILE * stream, int export_uid)
{
llist_item_t *i;
LLIST_FOREACH(&todolist, i) {
struct todo *todo = LLIST_TS_GET_DATA(i);
fputs("BEGIN:VTODO\n", stream);
if (todo->completed)
fprintf(stream, "STATUS:COMPLETED\n");
fprintf(stream, "PRIORITY:%d\n", todo->id);
fprintf(stream, "SUMMARY:%s\n", todo->mesg);
if (export_uid) {
char *hash = todo_hash(todo);
fprintf(stream, "UID:%s\n", hash);
mem_free(hash);
}
fputs("END:VTODO\n", stream);
}
}
/* Print a header to describe import log report format. */
static void ical_log_init(FILE * log, int major, int minor)
{
const char *header =
"+-------------------------------------------------------------------+\n"
"| Calcurse icalendar import log. |\n"
"| |\n"
"| Items imported from icalendar file, version %d.%d |\n"
"| Some items could not be imported, they are described hereafter. |\n"
"| The log line format is as follows: |\n"
"| |\n"
"| TYPE [LINE]: DESCRIPTION |\n"
"| |\n"
"| where: |\n"
"| * TYPE represents the item type ('VEVENT' or 'VTODO') |\n"
"| * LINE is the line in the input stream at which this item begins |\n"
"| * DESCRIPTION indicates why the item could not be imported |\n"
"+-------------------------------------------------------------------+\n\n";
if (log)
fprintf(log, header, major, minor);
}
/*
* Used to build a report of the import process.
* The icalendar item for which a problem occurs is mentioned (by giving its
* first line inside the icalendar file), together with a message describing the
* problem.
*/
static void ical_log(FILE * log, ical_types_e type, unsigned lineno,
char *msg)
{
const char *typestr[ICAL_TYPES] = { "VEVENT", "VTODO" };
RETURN_IF(type < 0 || type >= ICAL_TYPES, _("unknown ical type"));
if (!log)
return;
fprintf(log, "%s [%d]: %s\n", typestr[type], lineno, msg);
}
static void ical_store_todo(int priority, int completed, char *mesg,
char *note, int list)
{
struct todo *todo = todo_add(mesg, priority, completed, note);
if (list) {
char *hash = todo_hash(todo);
printf("%s\n", hash);
mem_free(hash);
}
mem_free(mesg);
erase_note(¬e);
}
static void
ical_store_event(char *mesg, char *note, long day, long end,
ical_rpt_t * rpt, llist_t * exc, int list)
{
const int EVENTID = 1;
struct event *ev;
struct recur_event *rev;
if (rpt) {
rev = recur_event_new(mesg, note, day, EVENTID, rpt->type,
rpt->freq, rpt->until, exc);
mem_free(rpt);
if (list) {
char *hash = recur_event_hash(rev);
printf("%s\n", hash);
mem_free(hash);
}
goto cleanup;
}
if (end == 0 || end - day <= DAYINSEC) {
ev = event_new(mesg, note, day, EVENTID);
if (list) {
char *hash = event_hash(ev);
printf("%s\n", hash);
mem_free(hash);
}
goto cleanup;
}
/*
* Here we have an event that spans over several days.
*
* In iCal, the end specifies when the event is supposed to end, in
* calcurse, the end specifies the time that the last occurrence of the
* event starts, so we need to do some conversion here.
*/
end = day + ((end - day - 1) / DAYINSEC) * DAYINSEC;
rpt = mem_malloc(sizeof(ical_rpt_t));
rpt->type = RECUR_DAILY;
rpt->freq = 1;
rpt->count = 0;
rpt->until = end;
rev = recur_event_new(mesg, note, day, EVENTID, rpt->type,
rpt->freq, rpt->until, exc);
mem_free(rpt);
if (list) {
char *hash = recur_event_hash(rev);
printf("%s\n", hash);
mem_free(hash);
}
cleanup:
mem_free(mesg);
erase_note(¬e);
}
static void
ical_store_apoint(char *mesg, char *note, long start, long dur,
ical_rpt_t * rpt, llist_t * exc, int has_alarm, int list)
{
char state = 0L;
struct apoint *apt;
struct recur_apoint *rapt;
if (has_alarm)
state |= APOINT_NOTIFY;
if (rpt) {
rapt = recur_apoint_new(mesg, note, start, dur, state,
rpt->type, rpt->freq, rpt->until, exc);
mem_free(rpt);
if (list) {
char *hash = recur_apoint_hash(rapt);
printf("%s\n", hash);
mem_free(hash);
}
} else {
apt = apoint_new(mesg, note, start, dur, state);
if (list) {
char *hash = apoint_hash(apt);
printf("%s\n", hash);
mem_free(hash);
}
}
mem_free(mesg);
erase_note(¬e);
}
/*
* Returns an allocated string representing the string given in argument once
* unformatted.
*/
static char *ical_unformat_line(char *line)
{
struct string s;
char *p;
string_init(&s);
for (p = line; *p; p++) {
switch (*p) {
case '\\':
switch (*(p + 1)) {
case 'n':
string_catf(&s, "%c", '\n');
p++;
break;
case 't':
string_catf(&s, "%c", '\t');
p++;
break;
case ';':
case ':':
case ',':
string_catf(&s, "%c", *(p + 1));
p++;
break;
default:
string_catf(&s, "%c", *p);
break;
}
break;
default:
string_catf(&s, "%c", *p);
break;
}
}
return string_buf(&s);
}
static void
ical_readline_init(FILE * fdi, char *buf, char *lstore, unsigned *ln)
{
char *eol;
*buf = *lstore = '\0';
if (fgets(lstore, BUFSIZ, fdi)) {
if ((eol = strchr(lstore, '\n')) != NULL) {
if (*(eol - 1) == '\r')
*(eol - 1) = '\0';
else
*eol = '\0';
}
(*ln)++;
}
}
static int ical_readline(FILE * fdi, char *buf, char *lstore, unsigned *ln)
{
char *eol;
strncpy(buf, lstore, BUFSIZ);
(*ln)++;
while (fgets(lstore, BUFSIZ, fdi) != NULL) {
if ((eol = strchr(lstore, '\n')) != NULL) {
if (*(eol - 1) == '\r')
*(eol - 1) = '\0';
else
*eol = '\0';
}
if (*lstore != SPACE && *lstore != TAB)
break;
strncat(buf, lstore + 1, BUFSIZ - strlen(buf) - 1);
(*ln)++;
}
if (feof(fdi)) {
*lstore = '\0';
if (*buf == '\0')
return 0;
}
return 1;
}
static int
ical_chk_header(FILE * fd, char *buf, char *lstore, unsigned *lineno,
int *major, int *minor)
{
if (!ical_readline(fd, buf, lstore, lineno))
return 0;
if (!starts_with_ci(buf, "BEGIN:VCALENDAR"))
return 0;
while (!sscanf(buf, "VERSION:%d.%d", major, minor)) {
if (!ical_readline(fd, buf, lstore, lineno))
return 0;
}
return 1;
}
/*
* iCalendar date-time format is based on the ISO 8601 complete
* representation. It should be something like : DATE 'T' TIME
* where DATE is 'YYYYMMDD' and TIME is 'HHMMSS'.
* The time and 'T' separator are optional (in the case of an day-long event).
*
* Optionally, if the type pointer is given, specify if it is an event
* (no time is given, meaning it is an all-day event), or an appointment
* (time is given).
*
* The timezone is not yet handled by calcurse.
*/
static time_t ical_datetime2time_t(char *datestr, ical_vevent_e * type)
{
const int FORMAT_DATE = 3, FORMAT_DATETIME = 6, FORMAT_DATETIMEZ = 7;
struct date date;
unsigned hour, min, sec;
char c;
int format;
format = sscanf(datestr, "%04u%02u%02uT%02u%02u%02u%c",
&date.yyyy, &date.mm, &date.dd, &hour, &min, &sec, &c);
if (format == FORMAT_DATE) {
if (type)
*type = EVENT;
return date2sec(date, 0, 0);
} else if (format == FORMAT_DATETIME || format == FORMAT_DATETIMEZ) {
if (type)
*type = APPOINTMENT;
if (format == FORMAT_DATETIMEZ && c == 'Z')
return utcdate2sec(date, hour, min);
else
return date2sec(date, hour, min);
}
return 0;
}
static long ical_durtime2long(char *timestr)
{
char *p = timestr;
int bytes_read;
unsigned hour = 0, min = 0, sec = 0;
if (*p != 'T')
return 0;
p++;
if (strchr(p, 'H')) {
if (sscanf(p, "%uH%n", &hour, &bytes_read) != 1)
return 0;
p += bytes_read;
}
if (strchr(p, 'M')) {
if (sscanf(p, "%uM%n", &min, &bytes_read) != 1)
return 0;
p += bytes_read;
}
if (strchr(p, 'S')) {
if (sscanf(p, "%uS%n", &sec, &bytes_read) != 1)
return 0;
p += bytes_read;
}
return hour * HOURINSEC + min * MININSEC + sec;
}
/*
* Extract from RFC2445:
*
* Value Name: DURATION
*
* Purpose: This value type is used to identify properties that contain
* duration of time.
*
* Formal Definition: The value type is defined by the following
* notation:
*
* dur-value = (["+"] / "-") "P" (dur-date / dur-time / dur-week)
* dur-date = dur-day [dur-time]
* dur-time = "T" (dur-hour / dur-minute / dur-second)
* dur-week = 1*DIGIT "W"
* dur-hour = 1*DIGIT "H" [dur-minute]
* dur-minute = 1*DIGIT "M" [dur-second]
* dur-second = 1*DIGIT "S"
* dur-day = 1*DIGIT "D"
*
* Example: A duration of 15 days, 5 hours and 20 seconds would be:
* P15DT5H0M20S
* A duration of 7 weeks would be:
* P7W
*/
static long ical_dur2long(char *durstr)
{
char *p;
int bytes_read;
struct {
unsigned week, day;
} date;
memset(&date, 0, sizeof date);
p = strchr(durstr, 'P');
if (!p)
return -1;
p++;
if (*p == '-')
return -1;
if (*p == '+')
p++;
if (*p == 'T') {
/* dur-time */
return ical_durtime2long(p);
} else if (strchr(p, 'W')) {
/* dur-week */
if (sscanf(p, "%u", &date.week) == 1)
return date.week * WEEKINDAYS * DAYINSEC;
} else if (strchr(p, 'D')) {
/* dur-date */
if (sscanf(p, "%uD%n", &date.day, &bytes_read) == 1) {
p += bytes_read;
return date.day * DAYINSEC + ical_durtime2long(p);
}
}
return -1;
}
/*
* Compute the vevent repetition end date from the repetition count.
*
* Extract from RFC2445:
* The COUNT rule part defines the number of occurrences at which to
* range-bound the recurrence. The "DTSTART" property value, if specified,
* counts as the first occurrence.
*/
static long ical_compute_rpt_until(long start, ical_rpt_t * rpt)
{
switch (rpt->type) {
case RECUR_DAILY:
return date_sec_change(start, 0, rpt->freq * (rpt->count - 1));
case RECUR_WEEKLY:
return date_sec_change(start, 0,
rpt->freq * WEEKINDAYS * (rpt->count - 1));
case RECUR_MONTHLY:
return date_sec_change(start, rpt->freq * (rpt->count - 1), 0);
case RECUR_YEARLY:
return date_sec_change(start,
rpt->freq * 12 * (rpt->count - 1), 0);
default:
return 0;
}
}
/*
* Read a recurrence rule from an iCalendar RRULE string.
*
* Value Name: RECUR
*
* Purpose: This value type is used to identify properties that contain
* a recurrence rule specification.
*
* Formal Definition: The value type is defined by the following
* notation:
*
* recur = "FREQ"=freq *(
*
* ; either UNTIL or COUNT may appear in a 'recur',
* ; but UNTIL and COUNT MUST NOT occur in the same 'recur'
*
* ( ";" "UNTIL" "=" enddate ) /
* ( ";" "COUNT" "=" 1*DIGIT ) /
*
* ; the rest of these keywords are optional,
* ; but MUST NOT occur more than
* ; once
*
* ( ";" "INTERVAL" "=" 1*DIGIT ) /
* ( ";" "BYSECOND" "=" byseclist ) /
* ( ";" "BYMINUTE" "=" byminlist ) /
* ( ";" "BYHOUR" "=" byhrlist ) /
* ( ";" "BYDAY" "=" bywdaylist ) /
* ( ";" "BYMONTHDAY" "=" bymodaylist ) /
* ( ";" "BYYEARDAY" "=" byyrdaylist ) /
* ( ";" "BYWEEKNO" "=" bywknolist ) /
* ( ";" "BYMONTH" "=" bymolist ) /
* ( ";" "BYSETPOS" "=" bysplist ) /
* ( ";" "WKST" "=" weekday ) /
* ( ";" x-name "=" text )
* )
*/
static ical_rpt_t *ical_read_rrule(FILE * log, char *rrulestr,
unsigned *noskipped, const int itemline)
{
const char count[] = "COUNT=";
const char interv[] = "INTERVAL=";
char freqstr[BUFSIZ];
unsigned interval;
ical_rpt_t *rpt;
char *p;
p = strchr(rrulestr, ':');
if (!p) {
ical_log(log, ICAL_VEVENT, itemline,
_("recurrence rule malformed."));
(*noskipped)++;
return NULL;
}
p++;
rpt = mem_malloc(sizeof(ical_rpt_t));
memset(rpt, 0, sizeof(ical_rpt_t));
if (sscanf(p, "FREQ=%s", freqstr) != 1) {
ical_log(log, ICAL_VEVENT, itemline,
_("recurrence frequence not found."));
(*noskipped)++;
mem_free(rpt);
return NULL;
}
if (starts_with(freqstr, "DAILY")) {
rpt->type = RECUR_DAILY;
} else if (starts_with(freqstr, "WEEKLY")) {
rpt->type = RECUR_WEEKLY;
} else if (starts_with(freqstr, "MONTHLY")) {
rpt->type = RECUR_MONTHLY;
} else if (starts_with(freqstr, "YEARLY")) {
rpt->type = RECUR_YEARLY;
} else {
ical_log(log, ICAL_VEVENT, itemline,
_("recurrence frequence not recognized."));
(*noskipped)++;
mem_free(rpt);
return NULL;
}
/*
* The UNTIL rule part defines a date-time value which bounds the
* recurrence rule in an inclusive manner. If not present, and the
* COUNT rule part is also not present, the RRULE is considered to
* repeat forever.
* The COUNT rule part defines the number of occurrences at which to
* range-bound the recurrence. The "DTSTART" property value, if
* specified, counts as the first occurrence.
*/
if ((p = strstr(rrulestr, "UNTIL")) != NULL) {
rpt->until = ical_datetime2time_t(strchr(p, '=') + 1, NULL);
} else {
unsigned cnt;
char *countstr;
rpt->until = 0;
if ((countstr = strstr(rrulestr, count))) {
countstr += sizeof(count) - 1;
if (sscanf(countstr, "%u", &cnt) == 1)
rpt->count = cnt;
}
}
rpt->freq = 1;
if ((p = strstr(rrulestr, interv))) {
p += sizeof(interv) - 1;
if (sscanf(p, "%u", &interval) == 1)
rpt->freq = interval;
}
return rpt;
}
static void ical_add_exc(llist_t * exc_head, long date)
{
if (date == 0)
return;
struct excp *exc = mem_malloc(sizeof(struct excp));
exc->st = date;
LLIST_ADD(exc_head, exc);
}
/*
* This property defines the list of date/time exceptions for a
* recurring calendar component.
*/
static void
ical_read_exdate(llist_t * exc, FILE * log, char *exstr,
unsigned *noskipped, const int itemline)
{
char *p, *q;
p = strchr(exstr, ':');
if (!p) {
ical_log(log, ICAL_VEVENT, itemline,
_("recurrence exception dates malformed."));
(*noskipped)++;
return;
}
p++;
while ((q = strchr(p, ',')) != NULL) {
char buf[BUFSIZ];
const int buflen = q - p;
strncpy(buf, p, buflen);
buf[buflen] = '\0';
ical_add_exc(exc, ical_datetime2time_t(buf, NULL));
p = ++q;
}
ical_add_exc(exc, ical_datetime2time_t(p, NULL));
}
/* Return an allocated string containing the name of the newly created note. */
static char *ical_read_note(char *line, unsigned *noskipped,
ical_types_e item_type, const int itemline,
FILE * log)
{
char *p, *notestr, *note;
p = strchr(line, ':');
if (!p) {
ical_log(log, item_type, itemline,
_("description malformed."));
(*noskipped)++;
return NULL;
}
p++;
notestr = ical_unformat_line(p);
if (notestr == NULL) {
ical_log(log, item_type, itemline,
_("could not get entire item description."));
(*noskipped)++;
return NULL;
} else if (strlen(notestr) == 0) {
mem_free(notestr);
return NULL;
} else {
note = generate_note(notestr);
mem_free(notestr);
return note;
}
}
/* Returns an allocated string containing the ical item summary. */
static char *ical_read_summary(char *line)
{
char *p, *summary;
p = strchr(line, ':');
if (!p)
return NULL;
summary = ical_unformat_line(p + 1);
if (!summary)
return NULL;
/* Event summaries must not contain newlines. */
for (p = strchr(summary, '\n'); p; p = strchr(p, '\n'))
*p = ' ';
return summary;
}
static void
ical_read_event(FILE * fdi, FILE * log, int list, unsigned *noevents,
unsigned *noapoints, unsigned *noskipped, char *buf,
char *lstore, unsigned *lineno)
{
const int ITEMLINE = *lineno;
ical_vevent_e vevent_type;
char *p;
struct {
llist_t exc;
ical_rpt_t *rpt;
char *mesg, *note;
long start, end, dur;
int has_alarm;
} vevent;
int skip_alarm;
vevent_type = UNDEFINED;
memset(&vevent, 0, sizeof vevent);
LLIST_INIT(&vevent.exc);
skip_alarm = 0;
while (ical_readline(fdi, buf, lstore, lineno)) {
if (skip_alarm) {
/*
* Need to skip VALARM properties because some keywords
* could interfere, such as DURATION, SUMMARY,..
*/
if (starts_with_ci(buf, "END:VALARM"))
skip_alarm = 0;
continue;
}
if (starts_with_ci(buf, "END:VEVENT")) {
if (!vevent.mesg) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("could not retrieve item summary."));
goto cleanup;
}
if (vevent.start == 0) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("item start date is not defined."));
goto cleanup;
}
if (vevent_type == APPOINTMENT && vevent.dur == 0) {
if (vevent.end != 0) {
vevent.dur = vevent.end - vevent.start;
}
if (vevent.dur < 0) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("item has a negative duration."));
goto cleanup;
}
}
if (vevent.rpt && vevent.rpt->count) {
vevent.rpt->until =
ical_compute_rpt_until(vevent.start,
vevent.rpt);
}
switch (vevent_type) {
case APPOINTMENT:
ical_store_apoint(vevent.mesg, vevent.note,
vevent.start, vevent.dur,
vevent.rpt, &vevent.exc,
vevent.has_alarm, list);
(*noapoints)++;
break;
case EVENT:
ical_store_event(vevent.mesg, vevent.note,
vevent.start, vevent.end,
vevent.rpt, &vevent.exc, list);
(*noevents)++;
break;
case UNDEFINED:
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("item could not be identified."));
goto cleanup;
break;
}
return;
}
if (starts_with_ci(buf, "DTSTART")) {
p = strchr(buf, ':');
if (!p) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("event start time malformed."));
goto cleanup;
}
vevent.start = ical_datetime2time_t(++p, &vevent_type);
if (!vevent.start) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("could not retrieve event start time."));
goto cleanup;
}
} else if (starts_with_ci(buf, "DTEND")) {
p = strchr(buf, ':');
if (!p) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("event end time malformed."));
goto cleanup;
}
vevent.end = ical_datetime2time_t(++p, &vevent_type);
if (!vevent.end) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("could not retrieve event end time."));
goto cleanup;
}
} else if (starts_with_ci(buf, "DURATION")) {
vevent.dur = ical_dur2long(buf);
if (vevent.dur <= 0) {
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("item duration malformed."));
goto cleanup;
}
} else if (starts_with_ci(buf, "RRULE")) {
vevent.rpt = ical_read_rrule(log, buf, noskipped,
ITEMLINE);
} else if (starts_with_ci(buf, "EXDATE")) {
ical_read_exdate(&vevent.exc, log, buf, noskipped,
ITEMLINE);
} else if (starts_with_ci(buf, "SUMMARY")) {
vevent.mesg = ical_read_summary(buf);
} else if (starts_with_ci(buf, "BEGIN:VALARM")) {
skip_alarm = vevent.has_alarm = 1;
} else if (starts_with_ci(buf, "DESCRIPTION")) {
vevent.note = ical_read_note(buf, noskipped,
ICAL_VEVENT, ITEMLINE, log);
}
}
ical_log(log, ICAL_VEVENT, ITEMLINE,
_("The ical file seems to be malformed. "
"The end of item was not found."));
cleanup:
if (vevent.note)
mem_free(vevent.note);
if (vevent.mesg)
mem_free(vevent.mesg);
if (vevent.rpt)
mem_free(vevent.rpt);
LLIST_FREE(&vevent.exc);
(*noskipped)++;
}
static void
ical_read_todo(FILE * fdi, FILE * log, int list, unsigned *notodos,
unsigned *noskipped, char *buf, char *lstore,
unsigned *lineno)
{
const int LOWEST = 9;
const int ITEMLINE = *lineno;
struct {
char *mesg, *note;
int has_priority, priority;
int completed;
} vtodo;
int skip_alarm;
memset(&vtodo, 0, sizeof vtodo);
skip_alarm = 0;
while (ical_readline(fdi, buf, lstore, lineno)) {
if (skip_alarm) {
/*
* Need to skip VALARM properties because some keywords
* could interfere, such as DURATION, SUMMARY,..
*/
if (starts_with_ci(buf, "END:VALARM"))
skip_alarm = 0;
continue;
}
if (starts_with_ci(buf, "END:VTODO")) {
if (!vtodo.has_priority)
vtodo.priority = LOWEST;
if (!vtodo.mesg) {
ical_log(log, ICAL_VTODO, ITEMLINE,
_("could not retrieve item summary."));
goto cleanup;
}
ical_store_todo(vtodo.priority, vtodo.completed,
vtodo.mesg, vtodo.note, list);
(*notodos)++;
return;
}
if (starts_with_ci(buf, "PRIORITY:")) {
sscanf(buf, "%d", &vtodo.priority);
if (vtodo.priority >= 1 && vtodo.priority <= 9) {
vtodo.has_priority = 1;
} else {
ical_log(log, ICAL_VTODO, ITEMLINE,
_("item priority is not acceptable "
"(must be between 1 and 9)."));
}
} else if (starts_with_ci(buf, "STATUS:COMPLETED")) {
vtodo.completed = 1;
} else if (starts_with_ci(buf, "SUMMARY")) {
vtodo.mesg = ical_read_summary(buf);
} else if (starts_with_ci(buf, "BEGIN:VALARM")) {
skip_alarm = 1;
} else if (starts_with_ci(buf, "DESCRIPTION")) {
vtodo.note = ical_read_note(buf, noskipped, ICAL_VTODO,
ITEMLINE, log);
}
}
ical_log(log, ICAL_VTODO, ITEMLINE,
_("The ical file seems to be malformed. "
"The end of item was not found."));
cleanup:
if (vtodo.note)
mem_free(vtodo.note);
if (vtodo.mesg)
mem_free(vtodo.mesg);
(*noskipped)++;
}
/* Import calcurse data. */
void
ical_import_data(FILE * stream, FILE * log, int list, unsigned *events,
unsigned *apoints, unsigned *todos, unsigned *lines,
unsigned *skipped)
{
char buf[BUFSIZ], lstore[BUFSIZ];
int major, minor;
ical_readline_init(stream, buf, lstore, lines);
RETURN_IF(!ical_chk_header
(stream, buf, lstore, lines, &major, &minor),
_("Warning: ical header malformed or wrong version number. "
"Aborting..."));
ical_log_init(log, major, minor);
while (ical_readline(stream, buf, lstore, lines)) {
(*lines)++;
if (starts_with_ci(buf, "BEGIN:VEVENT")) {
ical_read_event(stream, log, list, events, apoints,
skipped, buf, lstore, lines);
} else if (starts_with_ci(buf, "BEGIN:VTODO")) {
ical_read_todo(stream, log, list, todos, skipped, buf,
lstore, lines);
}
}
}
/* Export calcurse data. */
void ical_export_data(FILE * stream, int export_uid)
{
ical_export_header(stream);
ical_export_recur_events(stream, export_uid);
ical_export_events(stream, export_uid);
ical_export_recur_apoints(stream, export_uid);
ical_export_apoints(stream, export_uid);
ical_export_todo(stream, export_uid);
ical_export_footer(stream);
}
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