#include "../pith/headers.h" #include "../pith/mailpart.h" #include "../pith/store.h" #include "../pith/string.h" #include "../pith/ical.h" typedef struct ical_iana_comp_s { char *comp; /* component name */ size_t len; /* size of component name (strlen(x->comp)) */ int pos; /* position of this component in comp array */ void *(*parse)(char **); /* parser */ void (*give)(void **); /* free memory */ } ICAL_COMP_S; typedef struct ical_iana_prop_s { char *prop; /* component PROPerty name */ size_t len; /* size of component name (strlen(x->prop)) */ int pos; /* location of this component in the prop array */ void *(*parse)(); /* parser */ void (*give)(void **); /* free memory */ } ICAL_PROP_S; int ical_january_first(int); /* args: year */ void ical_adjust_date(struct tm *, VTIMEZONE_S *); void ical_initialize(void); int ical_non_ascii_valid(unsigned char); char *ical_unfold_line(char *); ICLINE_S *ical_parse_line(char **, char *); ICLINE_S *ical_cline_cpy(ICLINE_S *); ICAL_PARAMETER_S *ical_parameter_cpy(ICAL_PARAMETER_S *param); char *ical_get_value(char **); unsigned char *ical_decode(char *, unsigned short); /* parse component */ void *ical_parse_vcalendar(char **); void *ical_parse_vevent(char **); void *ical_parse_vtodo(char **); void *ical_parse_vjournal(char **); void *ical_parse_vfreebusy(char **); void *ical_parse_vtimezone(char **); void *ical_parse_valarm(char **); void *ical_parse_timezone(char **); ICAL_S *ical_parse_unknown_comp(char **, int); ICAL_S *ical_parse_generic_comp(char **, int); /* free components */ void ical_free_vevent(void **); void ical_free_vtodo(void **); void ical_free_vjournal(void **); void ical_free_vfreebusy(void **); void ical_free_vtimezone(void **); void ical_free_timezone(void **); void ical_free_valarm(void **); void ical_free_unknown_comp(ICAL_S **); /* parse properties */ void *ical_cline_from_token(void *, char **, char *); void *ical_gencline_from_token(void *, char **, char *); void *ical_parse_rrule(void *, char **, char *); void *ical_parse_time(void *, char **, char *); void *ical_parse_offset(void *, char **, char *); void *ical_parse_freq(void *, char *); void *ical_parse_until(void *, char *); void *ical_parse_count(void *, char *); void *ical_parse_interval(void *, char *); void *ical_parse_weekday_list(void *, char *); void *ical_parse_number_list(void *, char *); int ical_get_number_value(char *, int, int); void ical_set_date(ICLINE_S *, VTIMEZONE_S *); void ical_set_date_vevent(void *, void *); /* free properties */ void ical_free_prop(void ***, ICAL_PROP_S *, int); void ical_free_cline(void **); void ical_free_param(ICAL_PARAMETER_S **); void ical_free_gencline(void **); void ical_free_rrule(void **); void ical_fs_give(void **); void ical_free_weekday_list(void **); /* utility functions */ void ical_date_time (char *, size_t, struct tm *); char *ical_get_tzid(ICAL_PARAMETER_S *); /* globals */ struct tm day_zero; /* date for january 1, 1601 */ int month_len[] = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}; #define UTF8_COMPLETE (1) #define NEED_MORE (2) char *ical_buf; unsigned long ical_buf_len; /* parsing structures */ /* this is the list of V-components to a Calendar from RFC 5545 */ ICAL_COMP_S ical_comp[] = { {"VCALENDAR", 9, VCalendar, ical_parse_vcalendar, ical_free_vcalendar}, {"VTIMEZONE", 9, VTimeZone, ical_parse_vtimezone, ical_free_vtimezone}, {"VEVENT", 6, VEvent, ical_parse_vevent, ical_free_vevent}, {"VTODO", 5, VTodo, ical_parse_vtodo, ical_free_vtodo}, {"VJOURNAL", 8, VJournal, ical_parse_vjournal, ical_free_vjournal}, {"VALARM", 6, VAlarm, ical_parse_valarm, ical_free_valarm}, {"VFREEBUSY", 9, VFreeBusy, ical_parse_vfreebusy, ical_free_vfreebusy}, {NULL, 0, VUnknown, NULL, 0} }; /* array for properties */ ICAL_PROP_S rrule_prop[] = { {"FREQ", 4, RRFreq, ical_parse_freq, ical_fs_give}, {"UNTIL", 5, RRUntil, ical_parse_until, ical_fs_give}, {"COUNT", 5, RRCount, ical_parse_count, ical_fs_give}, {"INTERVAL", 8, RRInterval, ical_parse_interval, ical_fs_give}, {"BYSECOND", 8, RRBysecond, ical_parse_number_list, ical_free_weekday_list}, {"BYMINUTE", 8, RRByminute, ical_parse_number_list, ical_free_weekday_list}, {"BYHOUR", 6, RRByhour, ical_parse_number_list, ical_free_weekday_list}, {"BYDAY", 5, RRByday, ical_parse_weekday_list,ical_free_weekday_list}, {"BYWEEKNO", 8, RRByweekno, 0, 0}, {"BYMONTH", 7, RRBymonth, ical_parse_number_list, ical_free_weekday_list}, {"BYSETPOS", 8, RRBysetpos, 0, 0}, {"BYWKST", 6, RRWkst, 0, 0}, {"BYMONTHDAY", 10, RRBymonthday, 0, 0}, {"BYYEARDAY", 9, RRByyearday, 0, 0}, {NULL, 0, RRUnknown, 0, 0} }; ICAL_PROP_S event_prop[] = { {"DTSTAMP", 7, EvDtstamp, ical_cline_from_token, ical_free_cline}, {"UID", 3, EvUid, ical_cline_from_token, ical_free_cline}, {"DTSTART", 7, EvDtstart, ical_cline_from_token, ical_free_cline}, {"CLASS", 5, EvClass, ical_cline_from_token, ical_free_cline}, {"CREATED", 7, EvCreated, ical_cline_from_token, ical_free_cline}, {"DESCRIPTION", 11, EvDescription, ical_cline_from_token, ical_free_cline}, {"GEO", 3, EvGeo, ical_cline_from_token, ical_free_cline}, {"LASTMOD", 7, EvLastMod, ical_cline_from_token, ical_free_cline}, {"LOCATION", 8, EvLocation, ical_cline_from_token, ical_free_cline}, {"ORGANIZER", 9, EvOrganizer, ical_cline_from_token, ical_free_cline}, {"PRIORITY", 8, EvPriority, ical_cline_from_token, ical_free_cline}, {"SEQUENCE", 8, EvSequence, ical_cline_from_token, ical_free_cline}, {"STATUS", 6, EvStatus, ical_cline_from_token, ical_free_cline}, {"SUMMARY", 7, EvSummary, ical_cline_from_token, ical_free_cline}, {"TRANSP", 6, EvTransp, ical_cline_from_token, ical_free_cline}, {"URL", 3, EvUrl, ical_cline_from_token, ical_free_cline}, {"RECURRENCE-ID", 13, EvRecurrence, ical_cline_from_token, ical_free_cline}, {"RRULE", 5, EvRrule, ical_parse_rrule, ical_free_rrule}, {"DTEND", 5, EvDtend, ical_cline_from_token, ical_free_cline}, {"DURATION", 8, EvDuration, ical_cline_from_token, ical_free_cline}, {"ATTACH", 6, EvAttach, ical_gencline_from_token, ical_free_gencline}, {"ATTENDEE", 8, EvAttendee, ical_gencline_from_token, ical_free_gencline}, {"CATEGORIES", 10, EvCategories, ical_gencline_from_token, ical_free_gencline}, {"COMMENT", 7, EvComment, ical_gencline_from_token, ical_free_gencline}, {"CONTACT", 7, EvContact, ical_gencline_from_token, ical_free_gencline}, {"EXDATE", 6, EvExdate, ical_gencline_from_token, ical_free_gencline}, {"RSTATUS", 7, EvRstatus, ical_gencline_from_token, ical_free_gencline}, {"RELATED", 7, EvRelated, ical_gencline_from_token, ical_free_gencline}, {"RESOURCES", 9, EvResources, ical_gencline_from_token, ical_free_gencline}, {"RDATE", 5, EvRdate, ical_gencline_from_token, ical_free_gencline}, {NULL, 0, EvUnknown, 0, 0} }; ICAL_PROP_S tz_comp[] = { {"TZID", 4, TZCid, ical_cline_from_token, ical_free_cline}, {"LAST-MODIFIED", 13, TZCLastMod, ical_cline_from_token, ical_free_cline}, {"TZURL", 5, TZCUrl, ical_cline_from_token, ical_free_cline}, {NULL, 0, TZCUnknown, 0, 0} }; ICAL_PROP_S tz_prop[] = { {"DTSTART", 7, TZPDtstart, ical_parse_time, ical_fs_give}, {"TZOFFSETTO", 10, TZPOffsetto, ical_parse_offset, ical_fs_give}, {"TZOFFSETFROM", 12, TZPOffsetfrom, ical_parse_offset, ical_fs_give}, {"RRULE", 5, TZPRrule, ical_parse_rrule, ical_free_rrule}, {"COMMENT", 7, TZPComment, ical_gencline_from_token, ical_free_gencline}, {"RDATE", 5, TZPRdate, ical_gencline_from_token, ical_free_gencline}, {"TZNAME", 6, TZPTzname, ical_gencline_from_token, ical_free_gencline}, {NULL, 0, TZPUnknown, 0, 0} }; ICAL_PROP_S alarm_prop[] = { {"ACTION", 6, AlAction, ical_cline_from_token, ical_free_cline}, {"TRIGGER", 7, AlTrigger, ical_cline_from_token, ical_free_cline}, {"DURATION", 8, AlDuration, ical_cline_from_token, ical_free_cline}, {"REPEAT", 6, AlRepeat, ical_cline_from_token, ical_free_cline}, {"DESCRIPTION", 11, AlDescription, ical_cline_from_token, ical_free_cline}, {"SUMMARY", 7, AlSummary, ical_cline_from_token, ical_free_cline}, {"ATTACH", 6, AlAttach, ical_gencline_from_token, ical_free_gencline}, {"ATTENDEE", 8, AlAttendee, ical_gencline_from_token, ical_free_gencline}, {NULL, 0, AlUnknown, 0, 0} }; /* some useful macros for character analysis */ #define ical_wspace(X) \ ((X) == ' ' || (X) == '\t') #define ical_name_allowed_char(X) \ (((X) >= 'A' && (X) <= 'Z') || \ ((X) >= 'a' && (X) <= 'z') || \ (X) == '-' ) #define ical_control(X) \ (((X) >= 0x00 && (X) <= 0x08) || \ ((X) >= 0x0A && (X) <= 0x1F) || \ (X) == 0x7F) #define ical_safe_char(X) \ (ical_non_ascii_valid(X) \ || ical_wspace(X) \ || (X) == 0x21 \ || ((X) >= 0x23 && (X) <= 0x2B) \ || ((X) >= 0x2D && (X) <= 0x39) \ || ((X) >= 0x3C && (X) <= 0x7E)) #define ical_qsafe_char(X) \ (ical_non_ascii_valid((X)) \ || ical_wspace(X) \ || (X) == 0x21 \ || ((X) >= 0x23 && (X) <= 0x7E)) #define ical_value_char(X) \ (ical_non_ascii_valid(X) \ || ical_wspace(X) \ || ((X) >= 0x21 && (X) <= 0x7E)) /* Finally, here begins the code. */ unsigned char * ical_decode(char *text, unsigned short encoding) { unsigned char *t; unsigned long callen; size_t tlen; if(encoding == ENCQUOTEDPRINTABLE){ t = rfc822_qprint ((unsigned char *) text,strlen(text),&callen); if(t != NULL){ tlen = strlen(text) + 1; strncpy(text, (char *) t, tlen); text[tlen - 1] = '\0'; fs_give((void **) &t); } } return (unsigned char *) text; } /* Return code: 0 - if no errors -1 - if an error occurred Args: a pointer to the text. If there is an error, the text is not modified. */ int ical_remove_escapes(char **textp) { char *text, *s, *t; int rv = 0; int escaped; size_t tlen; if(textp == NULL) return 0; t = cpystr(*textp); /* work on a copy of the text */ tlen = strlen(*textp) + 1; /* and record its size */ /* the variable text below points to the beginning of the filtered text */ for (text = s = t, escaped = 0; rv == 0 && *s != '\0'; s++){ if(*s == '\\' && escaped == 0){ escaped = 1; continue; } if(escaped){ switch(*s){ case '\\': case ',': case ';': *t++ = *s; break; case 'n': case 'N': *t++ = '\n'; break; default: rv = -1; break; } escaped = 0; } else *t++ = *s; } *t = '\0'; /* tie off filtered text */ t = text; /* reset t to the beginning */ if(rv == 0){ strncpy(*textp, t, tlen); /* overwrite given text with filtered text */ (*textp)[tlen - 1] = '\0'; } fs_give((void **) &t); return rv; } void ical_debug(char *fcn, char *text) { char piece[50]; strncpy(piece, text, 49); piece[sizeof(piece)-1] = '\0'; dprint((2, "%s: %s\n", fcn, piece)); } /*** *** FREE MEMORY FUNCTIONS ***/ void ical_free_param(ICAL_PARAMETER_S **param) { if(param == NULL || *param == NULL) return; if((*param)->name) fs_give((void **) &(*param)->name); if((*param)->value) fs_give((void **) &(*param)->value); if((*param)->next) ical_free_param(&(*param)->next); fs_give((void **)param); } void ical_free_cline(void **icv) { ICLINE_S **ic = (ICLINE_S **) icv; if(ic == NULL || *ic == NULL) return; if((*ic)->token) fs_give((void **) &(*ic)->token); if((*ic)->param) ical_free_param(&(*ic)->param); if((*ic)->value) fs_give((void **) &(*ic)->value); fs_give(icv); } void ical_free_gencline(void **giclpv) { GEN_ICLINE_S **giclp = (GEN_ICLINE_S **) giclpv; if(giclp == NULL || *giclp == NULL) return; if((*giclp)->cline) ical_free_cline((void **) &(*giclp)->cline); if((*giclp)->next) ical_free_gencline((void **) &(*giclp)->next); fs_give((void **)giclp); } void ical_free_vcalendar(void **vcalpv) { VCALENDAR_S **vcalp = (VCALENDAR_S **)vcalpv; if(vcalp == NULL || *vcalp == NULL) return; if((*vcalp)->prodid) ical_free_cline((void **) &(*vcalp)->prodid); if((*vcalp)->version) ical_free_cline((void **) &(*vcalp)->version); if((*vcalp)->calscale) ical_free_cline((void **) &(*vcalp)->calscale); if((*vcalp)->method) ical_free_cline((void **) &(*vcalp)->method); if((*vcalp)->uk_prop) ical_free_gencline((void **) &(*vcalp)->uk_prop); if((*vcalp)->comp){ Cal_comp i; for(i = 0; i < VUnknown; i++) if((*vcalp)->comp[i]) (ical_comp[i].give)(&(*vcalp)->comp[i]); fs_give((void **) &(*vcalp)->comp); } if((*vcalp)->uk_comp) ical_free_unknown_comp(&(*vcalp)->uk_comp); fs_give(vcalpv); } void ical_free_vevent(void **veventpv) { VEVENT_S **veventp = (VEVENT_S **) veventpv; if(veventp == NULL || *veventp == NULL) return; ical_free_prop(&(*veventp)->prop, event_prop, EvUnknown); if((*veventp)->uk_prop) ical_free_gencline((void **) &(*veventp)->uk_prop); if((*veventp)->valarm) ical_free_valarm((void **) &(*veventp)->valarm); if((*veventp)->next) ical_free_vevent((void **) &(*veventp)->next); fs_give(veventpv); } void ical_fs_give(void **x) { if(x != NULL && *x != NULL) fs_give(x); } void ical_free_rrule(void **rrulepv) { RRULE_S **rrulep = (RRULE_S **) rrulepv; if(rrulep && *rrulep){ ical_free_prop(&(*rrulep)->prop, rrule_prop, RRUnknown); ical_free_param(&(*rrulep)->param); fs_give(rrulepv); } } void ical_free_weekday_list(void **wkdylv) { BYWKDY_S **wkdyl = (BYWKDY_S **) wkdylv; if(wkdyl == NULL) return; if((*wkdyl)->next) ical_free_weekday_list((void **) &(*wkdyl)->next); fs_give(wkdylv); } void ical_free_vtodo(void **vtodopv) { } void ical_free_vjournal(void **vjournalpv) { } void ical_free_vfreebusy(void **vfbpv) { } void ical_free_prop(void ***propv, ICAL_PROP_S *aux_comp, int max) { int i, j; if(propv == NULL || *propv == NULL) return; for(i = 0; i < max; i++) if((*propv)[i]){ for(j = 0; aux_comp[j].prop != NULL && aux_comp[j].pos != i; j++); if(aux_comp[j].give) (aux_comp[j].give)(&(*propv)[i]); } fs_give((void **) propv); } void ical_free_vtimezone(void **vtzpv) { VTIMEZONE_S **vtzp = (VTIMEZONE_S **) vtzpv; if(vtzp == NULL || *vtzp == NULL) return; ical_free_prop(&(*vtzp)->prop, tz_comp, TZCUnknown); if((*vtzp)->uk_prop) ical_free_gencline((void **) &(*vtzp)->uk_prop); if((*vtzp)->standardc) ical_free_timezone((void **) &(*vtzp)->standardc); if((*vtzp)->daylightc) ical_free_timezone((void **) &(*vtzp)->daylightc); fs_give(vtzpv); } void ical_free_timezone(void **tzpv) { ICAL_TZPROP_S **tzp = (ICAL_TZPROP_S **) tzpv; if(tzp == NULL || *tzp == NULL) return; ical_free_prop(&(*tzp)->prop, tz_prop, TZPUnknown); if((*tzp)->uk_prop) ical_free_gencline((void **) &(*tzp)->uk_prop); if((*tzp)->next) ical_free_timezone((void **) &(*tzp)->next); fs_give(tzpv); } void ical_free_valarm(void **valarmpv) { VALARM_S **valarmp = (VALARM_S **) valarmpv; if(valarmp == NULL || *valarmp == NULL) return; ical_free_prop(&(*valarmp)->prop, alarm_prop, AlUnknown); if((*valarmp)->uk_prop) ical_free_gencline((void **) &(*valarmp)->uk_prop); if((*valarmp)->next) ical_free_timezone((void **) &(*valarmp)->next); fs_give(valarmpv); } void ical_free_unknown_comp(ICAL_S **icalp) { int i; if(icalp == NULL || *icalp == NULL) return; for(i = 0; ical_comp[i].comp && strucmp((*icalp)->comp,ical_comp[i].comp); i++); if(ical_comp[i].give) (ical_comp[i].give)(&(*icalp)->value); else ical_free_gencline((void **) &(*icalp)->value); fs_give((void **)&(*icalp)->comp); ical_free_unknown_comp(&(*icalp)->next); ical_free_unknown_comp(&(*icalp)->branch); fs_give((void **)icalp); } char * ical_unfold_line(char *line) { int i, j; if(line == NULL) return NULL; for(i = 0, j = 0; line[j] != '\0';) switch(line[j]){ case '\r': if(line[j+1] == '\n' && ical_wspace(line[j+2])){ j += 3; /* get past white space */ continue; } case '\n': if(ical_wspace(line[j+1])){ j += 2; /* get past white space */ continue; } default : line[i++] = line[j++]; } line[i] = '\0'; return line; } ICAL_PARAMETER_S * ical_get_parameter(char **line) { ICAL_PARAMETER_S *param = NULL; char *s; if(line == NULL || *line == NULL) return NULL; for(s = *line; s && *s && ical_name_allowed_char(*s) ; s++); if(*s == '='){ int quoted; char c; param = fs_get(sizeof(ICAL_PARAMETER_S)); memset((void *)param, 0, sizeof(ICAL_PARAMETER_S)); *s = '\0'; param->name = cpystr(*line); *s = '='; *line = s+1; /* step over '=' */ quoted = **line == '"' ? 1 : 0; if(quoted != 0){ for(s = ++*line; s && *s && ical_qsafe_char((unsigned char) *s); s++); if(*s != '"'){ /* error, do not parse this line */ ical_free_param(¶m); *line = strchr(s, ':'); /* reset line to closest ':' */ return NULL; } } else for(s = *line; s && *s && (ical_safe_char((unsigned char) *s)); s++); c = *s; *s = '\0'; param->value = cpystr(*line); *s = c; /* restore character */ *line = quoted ? s + 1 : s; if(**line == ';'){ ++*line; param->next = ical_get_parameter(line); } } return param; } char * ical_get_value(char **line) { char *s, *t; if(line == NULL || *line == NULL) return NULL; for (s = *line; *s && ical_value_char((unsigned char) *s); s++); if(*s == '\r'){ *s = '\0'; t = cpystr(*line); *s = '\r'; *line = s+2; } else{ t = NULL; s = strchr(*line, '\r'); if(s != NULL) *line = s + 2; } return t; } ICAL_PARAMETER_S * ical_parameter_cpy(ICAL_PARAMETER_S *param) { ICAL_PARAMETER_S *rv; if(param == NULL) return NULL; rv = fs_get(sizeof(ICAL_PARAMETER_S)); memset((void *)rv, 0, sizeof(ICAL_PARAMETER_S)); if(param->name) rv->name = cpystr(param->name); if(param->value) rv->value = cpystr(param->value); if(param->next) rv->next = ical_parameter_cpy(param->next); return rv; } ICLINE_S * ical_cline_cpy(ICLINE_S *icl) { ICLINE_S *rv; if(icl == NULL) return NULL; rv = fs_get(sizeof(ICLINE_S)); memset((void *)rv, 0, sizeof(ICLINE_S)); if(icl->token) rv->token = cpystr(icl->token); if(icl->param) rv->param = ical_parameter_cpy(icl->param); if(icl->value) rv->value = cpystr(icl->value); return rv; } /* Given a \r\n-ending line (called *text), isolate the occurrence * of the token in that line. * Return the token, and modify the pointer to *text to point to the * end of the token. Modify sep to contain the character following * the token * ical-line = token ':'/';' rest of the line\r\n * on error return null, and set *text to the next line, if possible. */ char * ical_isolate_token(char **text, char *sep) { char *s, *t; for(t = s = *text; *t && ical_name_allowed_char(*s); s++); /* only followed by parameter or value */ if(*s == ':' || *s == ';'){ *sep = *s; *s = '\0'; /* isolate token at pointer s */ *text = s; } else{ /* bad data - bail out of here */ t = NULL; if(*s == '\0' || (s = strstr(s, "\r\n")) == NULL) *text = NULL; else /* move to next line */ *text = s + 2; } return t; } VCALENDAR_S * ical_parse_text(char *text) { char *s; VCALENDAR_S *vcal = NULL; ical_debug("ical_parse_text", text); ical_initialize(); text = ical_unfold_line(text); for(s = text; s && *s != '\0'; s++){ if(*s != 'B' && *s != 'b') continue; if(!struncmp(s+1, "EGIN:VCALENDAR\r\n", 16)){ s += 17; /* 17 = strlen("BEGIN:VCALENDAR\r\n") */ vcal = (VCALENDAR_S *) ical_parse_vcalendar(&s); break; } } return vcal; } void * ical_parse_time(void *ic_datep, char **text, char *token) { struct tm *datep; ICLINE_S *icl; datep = fs_get(sizeof(struct tm)); icl = ical_parse_line(text, token); ical_parse_date(icl->value, datep); ical_free_cline((void **) &icl); ic_datep = (void *) datep; return ic_datep; } void * ical_parse_interval(void *longvp, char *value) { unsigned long *longp; longp = fs_get(sizeof(unsigned long)); *longp = atoi(value); longvp = (void *) longp; return longvp; } void * ical_parse_offset(void *offsetv, char **text, char *token) { ICLINE_S *icl; char *value; int h, m, *offset; offset = fs_get(sizeof(int)); icl = ical_parse_line(text, token); if(*icl->value == '+' || *icl->value == '-') value = icl->value + 1; else value = icl->value; h = ical_get_number_value(value, 0, 2); m = ical_get_number_value(value, 2, 4); *offset = 60*(60*h + m); if(*icl->value == '-') *offset *= -1; ical_free_cline((void **) &icl); offsetv = (void *) offset; return offsetv; } /* This function processes the information in *text, and returns * a pointer to the information in iclp, but only if iclp is NULL * otherwise, it simply returns the current value and advances the * pointer to *text. * Call this function as follows * rv = (cast here *) ical_cline_from_token((void *)rv, &text, token); */ void * ical_cline_from_token(void *iclp, char **text, char *token) { ICLINE_S *icl; ical_debug("ical_cline_from_token", *text); icl = ical_parse_line(text, token); if(iclp != NULL) ical_free_cline((void **)&icl); else iclp = (void *) icl; return iclp; } void * ical_gencline_from_token(void *giclv, char **text, char *token) { GEN_ICLINE_S *gicl= NULL; if(!struncmp(*text, token, strlen(token))){ gicl = fs_get(sizeof(GEN_ICLINE_S)); memset((void *) gicl, 0, sizeof(GEN_ICLINE_S)); gicl->cline = ical_parse_line(text, token); // gicl->line = (ICLINE_S *) ical_cline_from_token((void *) gicl->cline, text, token); gicl->next = (GEN_ICLINE_S *) ical_gencline_from_token((void *) gicl->next, text, token); } if(giclv != NULL) ical_free_gencline((void **) &gicl); else giclv = (void *) gicl; return giclv; } /*** *** PARSE COMPONENT FUNCTIONS ***/ void * ical_parse_vcalendar(char **text) { char *s, *t; char c; VCALENDAR_S *vcal; void *v; dprint((9, "ical_parse_vcalendar:\n")); ical_debug("ical_parse_vcalendar", *text); vcal = fs_get(sizeof(VCALENDAR_S)); memset((void *) vcal, 0, sizeof(VCALENDAR_S)); /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore character */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ int i; switch(*s){ case 'B': case 'b': if(!struncmp(s+1, "EGIN", 4)){ s += 6; /* 6 = strlen("BEGIN:") */ for(i = 0; ical_comp[i].comp && (struncmp(s, ical_comp[i].comp, ical_comp[i].len) || struncmp(s + ical_comp[i].len, "\r\n", 2)); i++); if(ical_comp[i].parse){ s += ical_comp[i].len + 2; v = (ical_comp[i].parse)(&s); if(vcal->comp == NULL){ vcal->comp = fs_get((VUnknown+1)*sizeof(void *)); memset((void *) vcal->comp, 0, (VUnknown+1)*sizeof(void *)); } if(vcal->comp[ical_comp[i].pos] == NULL) vcal->comp[ical_comp[i].pos] = v; else{ if((vcal->method && vcal->method->value && strucmp(vcal->method->value, "PUBLISH")) || struncmp(ical_comp[i].comp, "VEVENT", 6)) (ical_comp[i].give)(&v); else{ VEVENT_S *vevent = (VEVENT_S *) vcal->comp[VEvent]; for(; vevent && vevent->next; vevent = vevent->next); vevent->next = v; } } } else { v = (void *) ical_parse_unknown_comp(&s, 0); if(vcal->uk_comp == NULL) vcal->uk_comp = (ICAL_S *) v; else{ ICAL_S *ic; for(ic = vcal->uk_comp; ic && ic->branch; ic = ic->branch); ic->branch = (ICAL_S *) v; } } } else ukn++; break; case 'C': case 'c': if(!struncmp(s+1, "ALSCALE", 7)){ v = (void *) vcal->calscale; v = ical_cline_from_token(v, &s, "CALSCALE"); vcal->calscale = (ICLINE_S *) v; } else ukn++; break; case 'E': case 'e': if(!struncmp(s+1, "ND", 2)){ *t = c; s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, "VCALENDAR\r\n", 11)){ *text = s + 11; /* 11 = strlen("VCALENDAR\r\n") */ return (void *) vcal; } // else ukn++; FIX THIS, this is not quite right } else ukn++; break; case 'M': case 'm': if(!struncmp(s+1, "ETHOD", 5)){ v = (void *) vcal->method; v = ical_cline_from_token(v, &s, "METHOD"); vcal->method = (ICLINE_S *) v; } else ukn++; break; case 'P': case 'p': if(!struncmp(s+1, "RODID", 5)){ v = (void *) vcal->prodid; v = ical_cline_from_token(v, &s, "PRODID"); vcal->prodid = (ICLINE_S *) v; } else ukn++; break; case 'V': case 'v': if(!struncmp(s+1, "ERSION", 6)){ v = (void *) vcal->version; v = ical_cline_from_token(v, &s, "VERSION"); vcal->version = (ICLINE_S *) v; } else ukn++; break; default : ukn++; break; } /* end of switch(*s) */ if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(vcal->uk_prop == NULL){ vcal->uk_prop = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)vcal->uk_prop, 0, sizeof(GEN_ICLINE_S)); vcal->uk_prop->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gcl; for (gcl = vcal->uk_prop; gcl && gcl->next; gcl = gcl->next); gcl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl->next, 0, sizeof(GEN_ICLINE_S)); gcl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } *text = s; /* ok, we have parsed the vcalendar, now parse some special properties */ /* start by parsing dates */ ical_set_date_vevent(vcal->comp[VEvent], vcal->comp[VTimeZone]); return (void *) vcal; } void * ical_parse_vevent(char **text) { char *s, *t; char c; VEVENT_S *vevent; ical_debug("ical_parse_vevent", *text); vevent = fs_get(sizeof(VEVENT_S)); memset((void *)vevent, 0, sizeof(VEVENT_S)); /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore separator */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ if(!struncmp(s, "BEGIN", 5)){ s += 6; /* 6 = strlen("BEGIN:") */ if(!struncmp(s, "VALARM\r\n", 8)){ s += 8; /* 8 = strlen("VALARM\r\n"); */ if(vevent->valarm == NULL) vevent->valarm = ical_parse_valarm(&s); else{ VALARM_S *valrm; for(valrm = vevent->valarm; valrm && valrm->next; valrm = valrm->next); valrm->next = ical_parse_valarm(&s); } } else { ICAL_S *uk_comp = ical_parse_unknown_comp(&s, 0); ical_free_unknown_comp(&uk_comp); } } else if(!struncmp(s, "END", t-s-1)){ s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, "VEVENT\r\n",8)){ *text = s + 8; /* 8 = strlen("VCALENDAR\r\n") */ return (void *) vevent; } } else{ Event_prop i; for(i = 0; i < EvUnknown; i++) if(!struncmp(s, event_prop[i].prop, t-s)) break; if(event_prop[i].parse){ void *v; if(vevent->prop == NULL){ vevent->prop = fs_get((EvUnknown+1)*sizeof(void *)); memset((void *)vevent->prop, 0, (EvUnknown+1)*sizeof(void *)); } v = vevent->prop[event_prop[i].pos]; v = (event_prop[i].parse)(v , &s, event_prop[i].prop); vevent->prop[event_prop[i].pos] = v; } else ukn++; } if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(vevent->uk_prop == NULL){ vevent->uk_prop = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)vevent->uk_prop, 0, sizeof(GEN_ICLINE_S)); vevent->uk_prop->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gcl; for (gcl = vevent->uk_prop; gcl && gcl->next; gcl = gcl->next); gcl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl->next, 0, sizeof(GEN_ICLINE_S)); gcl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } *text = s; return (void *) vevent; } void * ical_parse_vtimezone(char **text) { char *s, *t; char c; void *v; VTIMEZONE_S *vtz; ical_debug("ical_parse_vtimezone", *text); vtz = fs_get(sizeof(VTIMEZONE_S)); memset((void *)vtz, 0, sizeof(VTIMEZONE_S)); /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore separator */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ if(!struncmp(s, "BEGIN", 5)){ s += 6; /* 6 = strlen("BEGIN:") */ if(!struncmp(s, "STANDARD\r\n", 10)){ s += 10; /* 10 = strlen("STANDARD\r\n"); */ v = ical_parse_timezone(&s); if(vtz->standardc == NULL) vtz->standardc = (ICAL_TZPROP_S *) v; else{ ICAL_TZPROP_S *dl; for(dl = vtz->standardc; dl && dl->next; dl = dl->next); dl->next = (ICAL_TZPROP_S *) v; } } else if(!struncmp(s, "DAYLIGHT\r\n", 10)){ s += 10; /* 10 = strlen("DAYLIGHT\r\n"); */ v = ical_parse_timezone(&s); if(vtz->daylightc == NULL) vtz->daylightc = (ICAL_TZPROP_S *) v; else{ ICAL_TZPROP_S *dl; for(dl = vtz->daylightc; dl && dl->next; dl = dl->next); dl->next = (ICAL_TZPROP_S *) v; } } else { ICAL_S *uk_comp = ical_parse_unknown_comp(&s, 0); ical_free_unknown_comp(&uk_comp); } } else if(!struncmp(s, "END", t-s-1)){ s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, "VTIMEZONE\r\n",11)){ *text = s + 11; /* 11 = strlen("VTIMEZONE\r\n") */ return (void *) vtz; } } else{ TZ_comp i; for(i = 0; i < TZCUnknown; i++) if(!struncmp(s, tz_comp[i].prop, t-s)) break; if(tz_comp[i].parse){ void *v; if(vtz->prop == NULL){ vtz->prop = fs_get(TZCUnknown*sizeof(void *)); memset((void *)vtz->prop, 0, TZCUnknown*sizeof(void *)); } v = vtz->prop[tz_comp[i].pos]; v = (tz_comp[i].parse)(v, &s, tz_comp[i].prop); vtz->prop[tz_comp[i].pos] = v; } else ukn++; } if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(vtz->uk_prop == NULL){ vtz->uk_prop = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)vtz->uk_prop, 0, sizeof(GEN_ICLINE_S)); vtz->uk_prop->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gcl; for (gcl = vtz->uk_prop; gcl && gcl->next; gcl = gcl->next); gcl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl->next, 0, sizeof(GEN_ICLINE_S)); gcl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } *text = s; return (void *) vtz; } void * ical_parse_timezone(char **text) { char *s, *t; char c; ICAL_TZPROP_S *tzprop; ical_debug("ical_parse_timezone", *text); tzprop = fs_get(sizeof(ICAL_TZPROP_S)); memset((void *)tzprop, 0, sizeof(ICAL_TZPROP_S)); /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore separator */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ if(!struncmp(s, "BEGIN", 5)){ ICAL_S *uk_comp; s += 6; /* 6 = strlen("BEGIN:") */ uk_comp = ical_parse_unknown_comp(&s, 0); ical_free_unknown_comp(&uk_comp); } else if(!struncmp(s, "END", t-s-1)){ s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, "STANDARD\r\n", 10) || !struncmp(s, "DAYLIGHT\r\n", 10)){ *text = s + 10; /* 10 = strlen("STANDARD\r\n") */ return (void *) tzprop; } } else{ TZ_prop i; for(i = 0; i < TZPUnknown; i++) if(!struncmp(s, tz_prop[i].prop, t-s)) break; if(tz_prop[i].parse){ void *v; if(tzprop->prop == NULL){ tzprop->prop = fs_get(TZPUnknown*sizeof(void *)); memset((void *)tzprop->prop, 0, TZPUnknown*sizeof(void *)); } v = tzprop->prop[tz_prop[i].pos]; v = (tz_prop[i].parse)(v, &s, tz_prop[i].prop); tzprop->prop[tz_prop[i].pos] = v; } else ukn++; } if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(tzprop->uk_prop == NULL){ tzprop->uk_prop = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)tzprop->uk_prop, 0, sizeof(GEN_ICLINE_S)); tzprop->uk_prop->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gcl; for (gcl = tzprop->uk_prop; gcl && gcl->next; gcl = gcl->next); gcl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl->next, 0, sizeof(GEN_ICLINE_S)); gcl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } *text = s; return (void *) tzprop; } void * ical_parse_valarm(char **text) { char *s, *t; char c; VALARM_S *valarm; ical_debug("ical_parse_valarm", *text); valarm = fs_get(sizeof(VALARM_S)); memset((void *)valarm, 0, sizeof(VALARM_S)); /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore separator */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ if(!struncmp(s, "BEGIN", 5)){ ICAL_S *uk_comp; s += 6; /* 6 = strlen("BEGIN:") */ uk_comp = ical_parse_unknown_comp(&s, 0); ical_free_unknown_comp(&uk_comp); } else if(!struncmp(s, "END", t-s-1)){ s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, "VALARM\r\n", 8)){ *text = s + 8; /* 8 = strlen("VALARM\r\n") */ return (void *) valarm; } } else{ Alarm_prop i; for(i = 0; i < AlUnknown; i++) if(!struncmp(s, alarm_prop[i].prop, t-s)) break; if(alarm_prop[i].parse){ void *v; if(valarm->prop == NULL){ valarm->prop = fs_get((AlUnknown+1)*sizeof(void *)); memset((void *)valarm->prop, 0, (AlUnknown+1)*sizeof(void *)); } v = valarm->prop[alarm_prop[i].pos]; v = (alarm_prop[i].parse)(v, &s, alarm_prop[i].prop); valarm->prop[alarm_prop[i].pos] = v; } else ukn++; } if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(valarm->uk_prop == NULL){ valarm->uk_prop = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)valarm->uk_prop, 0, sizeof(GEN_ICLINE_S)); valarm->uk_prop->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gcl; for (gcl = valarm->uk_prop; gcl && gcl->next; gcl = gcl->next); gcl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl->next, 0, sizeof(GEN_ICLINE_S)); gcl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } *text = s; return (void *) valarm; } void * ical_parse_vtodo(char **text) { return NULL; } void * ical_parse_vjournal(char **text) { return NULL; } void * ical_parse_vfreebusy(char **text) { return NULL; } ICAL_S * ical_parse_generic_comp(char **text, int level) { ICAL_S *ical; char *s, *t; char *token = NULL; GEN_ICLINE_S *gcl = NULL; char c; ical_debug("ical_parse_generic_comp", *text); ical = fs_get(sizeof(ICAL_S)); memset((void *)ical, 0, sizeof(ICAL_S)); ical->comp = ical_get_value(text); token = fs_get(strlen(ical->comp) + 2 + 1); sprintf(token, "%s\r\n", ical->comp); /* this is allocated memory */ /* s must always point the the beginning of a line */ for(s = *text; s && *s != '\0';){ t = s; s = ical_isolate_token(&t, &c); if(s == NULL){ if(t != NULL) s = t; continue; } *t = c; /* restore character */ if(s){ /* figure out the token */ int ukn = 0; /* unknown token */ switch(*s){ case 'B': case 'b': if(!struncmp(s+1, "EGIN", 4)){ s += 6; /* 6 = strlen("BEGIN:") */ if(ical->next == NULL) ical->next = ical_parse_unknown_comp(&s, level+1); else{ ICAL_S *b; int i; for(i = 0, b = ical; i <= level && b && b->next; b = b->next, i++); if(b->branch == NULL) b->branch = ical_parse_unknown_comp(&s, level+1); else { for(; b && b->branch; b = b->branch); b->branch = ical_parse_unknown_comp(&s, level+1); } } } else ukn++; break; case 'E': case 'e': if(!struncmp(s+1, "ND", 2)){ *t = c; s += 4; /* 4 = strlen("END:") */ if(!struncmp(s, token, strlen(token))){ *text = s + strlen(token); ical->value = (void *) gcl; return ical; } } else ukn++; break; default : ukn++; break; } /* end of switch(*s) */ if(ukn){ if(ical_buf_len < t - s){ fs_resize((void **)&ical_buf, t-s+1); ical_buf_len = t-s; } *t = '\0'; strcpy(ical_buf, s); *t = c; if(gcl == NULL){ gcl = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gcl, 0, sizeof(GEN_ICLINE_S)); gcl->cline = ical_parse_line(&s, ical_buf); } else{ GEN_ICLINE_S *gencl; for (gencl = gcl; gencl && gencl->next; gencl = gencl->next); gencl->next = fs_get(sizeof(GEN_ICLINE_S)); memset((void *)gencl->next, 0, sizeof(GEN_ICLINE_S)); gencl->next->cline = ical_parse_line(&s, ical_buf); } } } /* end of if(s) */ } ical->value = (void *) gcl; *text = s; return ical; } ICAL_S * ical_parse_unknown_comp(char **text, int level) { ICAL_S *ical; int i; ical_debug("ical_parse_unknown_comp", *text); for(i = 0; ical_comp[i].comp && (struncmp(*text, ical_comp[i].comp, ical_comp[i].len) || struncmp(*text + ical_comp[i].len, "\r\n", 2)); i++); if(ical_comp[i].parse){ *text += ical_comp[i].len + 2; ical = fs_get(sizeof(ICAL_S)); memset((void *)ical, 0, sizeof(ICAL_S)); ical->comp = cpystr(ical_comp[i].comp); ical->value = (ical_comp[i].parse)(text); } else ical = ical_parse_generic_comp(text, level); return ical; } ICLINE_S * ical_parse_line(char **text, char *name) { ICLINE_S *ic; char *s = *text; ic = fs_get(sizeof(ICLINE_S)); memset((void *)ic, 0, sizeof(ICLINE_S)); ic->token = cpystr(name); s += strlen(name); if(*s == ';'){ s++; ic->param = ical_get_parameter(&s); } if(*s == ':'){ s++; ic->value = ical_get_value(&s); } *text = s; return ic; } /*** *** PARSE PROPERTY FUNCTIONS ***/ void * ical_parse_freq(void *fvalp, char *text) { Freq_value *fval; fval = fs_get(sizeof(Freq_value)); *fval = FUnknown; if(text == NULL) return fvalp; if(!strucmp(text, "SECONDLY")) *fval = FSecondly; else if(!strucmp(text, "MINUTELY")) *fval = FMinutely; else if(!strucmp(text, "HOURLY")) *fval = FHourly; else if(!strucmp(text, "DAILY")) *fval = FDaily; else if(!strucmp(text, "WEEKLY")) *fval = FWeekly; else if(!strucmp(text, "MONTHLY")) *fval = FMonthly; else if(!strucmp(text, "YEARLY")) *fval = FYearly; fvalp = (void *) fval; return fvalp; } void * ical_parse_until(void *Tmp, char *text) { struct tm *Tm; if(text != NULL){ Tm = fs_get(sizeof(struct tm)); ical_parse_date(text, Tm); Tmp = (void *) Tm; } return Tmp; } void * ical_parse_count(void *countp, char *text) { int *count; if(text != NULL){ count = fs_get(sizeof(int)); *count = atoi(text); countp = (void *) count; } return countp; } void * ical_parse_weekday_list(void *bywkdyp, char *wklist) { BYWKDY_S *bywkdy, *w; char *s, *t, c; int done; size_t len; bywkdy = NULL; bywkdyp = (void *) bywkdy; if(wklist == NULL) return bywkdyp; done = 0; for(t = s = wklist; done == 0; s++){ if(*s != ',' && *s != '\0') continue; c = *s; if(c == ',') *s = '\0'; else /* c == '\0' */ done++; len = strlen(t); if(len > 1){ for(w = bywkdy; w && w->next; w = w->next); w = fs_get(sizeof(BYWKDY_S)); memset((void *)w, 0, sizeof(BYWKDY_S)); if(!strucmp(t+len-2, "SU")) w->wd = Sunday; else if(!strucmp(t+len-2, "MO")) w->wd = Monday; else if(!strucmp(t+len-2, "TU")) w->wd = Tuesday; else if(!strucmp(t+len-2, "WE")) w->wd = Wednesday; else if(!strucmp(t+len-2, "TH")) w->wd = Thursday; else if(!strucmp(t+len-2, "FR")) w->wd = Friday; else if(!strucmp(t+len-2, "SA")) w->wd = Saturday; // t[len - 2] = '\0'; if(*t != '\0') w->value = strtoul(t, &t, 10); if(bywkdy == NULL) bywkdy = w; } *s = c; if(*s == ',') t = s + 1; } if(bywkdyp) ical_free_weekday_list((void **)&bywkdy); else bywkdyp = (void *) bywkdy; return bywkdyp; } void * ical_parse_number_list(void *bynop, char *nolist) { BYWKDY_S *byno, *n; char *s, *t, c; int done = 0; byno = NULL; bynop = (void *) byno; if(nolist == NULL) return bynop; for(t = s = nolist; done == 0; s++){ if(*s != ',' && *s != '\0') continue; c = *s; if(c == ',') *s = '\0'; else /* c == '\0' */ done++; for(n = byno; n && n->next; n = n->next); n = fs_get(sizeof(BYWKDY_S)); memset((void *)n, 0, sizeof(BYWKDY_S)); n->value = strtoul(t, &t, 10); if(byno == NULL) byno = n; *s = c; if(*s == ',') t = s + 1; } if(bynop) ical_free_weekday_list((void **)&byno); else bynop = (void *) byno; return bynop; } void * ical_parse_rrule(void *rrulep, char **text, char *token) { RRULE_S *rrule; ICLINE_S *icl; char *s; ICAL_PARAMETER_S *param, *p; int i; if(text == NULL || *text == NULL || struncmp(*text, "RRULE", 5)) return rrulep; rrule = fs_get(sizeof(RRULE_S)); memset((void *) rrule, 0, sizeof(RRULE_S)); /* recurring rules are special. First, we parse the icline that contains it */ icl = ical_parse_line(text, token); /* now we copy the parameters that it contains */ rrule->param = ical_parameter_cpy(icl->param); /* then we parse icl->value as if it was a parameter */ s = icl->value; param = ical_get_parameter(&s); /* now we check which values were given, and fill the prop array */ rrule->prop = fs_get((RRUnknown+1)*sizeof(void *)); memset((void *) rrule->prop, 0, (RRUnknown+1)*sizeof(void *)); for(p = param; p != NULL; p = p->next){ for(i = 0; rrule_prop[i].prop != NULL && strucmp(p->name, rrule_prop[i].prop); i++); if(rrule_prop[i].parse){ void *v = rrule->prop[rrule_prop[i].pos]; v = (rrule_prop[i].parse)(v, p->value); rrule->prop[rrule_prop[i].pos] = v; } } rrule->prop[RRUnknown] = NULL; ical_free_param(¶m); ical_free_cline((void **)&icl); if(rrulep) ical_free_rrule((void **)&rrule); else rrulep = (void *) rrule; return rrulep; } /*** UTF-8 for ICAL ***/ int ical_non_ascii_valid(unsigned char c) { static unsigned char icu[6]; static int utf8_len = 0; static int utf8_type = 0; int rv = 0; if(utf8_len == 0) utf8_type = (c >= 0xF0 && c <= 0xF4) ? 4 : (c >= 0xE0 && c <= 0xEF) ? 3 : (c >= 0xC2 && c <= 0xDF) ? 2 : 0; if(utf8_type == 0) return 0; icu[utf8_len++] = c; /* count it */ if(utf8_type == 2){ if(utf8_len < 2) rv = NEED_MORE; else if(utf8_len == 2){ rv = (icu[0] >= 0xC2 && icu[0] <= 0xDF) && (icu[1] >= 0x80 && icu[1] <= 0xBF) ? UTF8_COMPLETE : 0; utf8_len = 0; } } else if (utf8_type == 3){ if(utf8_len < 3) rv = NEED_MORE; else{ if(icu[0] == 0xE0) rv = (icu[1] >= 0xA0 && icu[1] <= 0xBF) && (icu[2] >= 0x80 && icu[2] <= 0xBF) ? UTF8_COMPLETE : 0; else if(icu[0] >= 0xE1 && icu[0] <= 0xEC) rv = (icu[1] >= 0x80 && icu[1] <= 0xBF) && (icu[2] >= 0x80 && icu[2] <= 0xBF) ? UTF8_COMPLETE : 0; else if(icu[0] == 0xED) rv = (icu[1] >= 0x80 && icu[1] <= 0x9F) && (icu[2] >= 0x80 && icu[2] <= 0xBF) ? UTF8_COMPLETE : 0; else if(icu[0] >= 0xE1 && icu[0] <= 0xEC) rv = (icu[1] >= 0x80 && icu[1] <= 0xBF) && (icu[2] >= 0x80 && icu[2] <= 0xBF) ? UTF8_COMPLETE : 0; utf8_len = 0; } } else if (utf8_type == 4){ if(utf8_len < 4) rv = NEED_MORE; else{ if(icu[0] == 0xF0) rv = (icu[1] >= 0x90 && icu[1] <= 0xBF) && (icu[2] >= 0x80 && icu[2] <= 0xBF) && (icu[3] >= 0x80 && icu[3] <= 0xBF) ? UTF8_COMPLETE : 0; else if(icu[0] >= 0xF1 && icu[0] <= 0xF3) rv = (icu[1] >= 0x80 && icu[1] <= 0xBF) && (icu[2] >= 0x80 && icu[2] <= 0xBF) && (icu[3] >= 0x80 && icu[3] <= 0xBF) ? UTF8_COMPLETE : 0; else if(icu[0] == 0xF4) rv = (icu[1] >= 0x80 && icu[1] <= 0x8F) && (icu[2] >= 0x80 && icu[2] <= 0xBF) && (icu[3] >= 0x80 && icu[3] <= 0xBF) ? UTF8_COMPLETE : 0; utf8_len = 0; } } return rv; } int ical_get_number_value(char *value, int beg_pos, int end_pos) { char c, *err; int rv; c = value[end_pos]; value[end_pos] = '\0'; rv = strtoul(value + beg_pos, &err, 10); if(err != NULL && *err != '\0') return -1; value[end_pos] = c; return rv; } void ical_free_duration(ICAL_DURATION_S **ic_d) { if(ic_d == NULL || *ic_d == NULL) return; if((*ic_d)->next) ical_free_duration(&(*ic_d)->next); fs_give((void **)ic_d); } /* returns 0 if no error, -1 if some error */ int ical_parse_duration(char *value, ICAL_DURATION_S *ic_d) { int i, j = 0, rv = 0; if(value == NULL || ic_d == NULL) return -1; memset((void *)ic_d, 0, sizeof(ICAL_DURATION_S)); if(value[i = 0] == '-'){ i++; ic_d->sign = 1; } else if(value[i] == '+') i++; if(value[i++] == 'P'){ for(j = i; value[j] != '\0' && value[j] != ','; j++){ if(!isdigit(value[j])) switch(value[j]){ case 'W': ic_d->weeks = ical_get_number_value(value, i, j-1); i = ++j; break; case 'D': ic_d->days = ical_get_number_value(value, i, j-1); i = ++j; break; case 'H': ic_d->hours = ical_get_number_value(value, i, j-1); i = ++j; break; case 'M': ic_d->minutes = ical_get_number_value(value, i, j-1); i = ++j; break; case 'S': ic_d->seconds = ical_get_number_value(value, i, j-1); i = ++j; break; case 'T': i = j + 1; break; default: rv = -1; break; } } } else rv = -1; if(value[j++] == ','){ ICAL_DURATION_S next; rv = ical_parse_duration(value+j, &next); ic_d->next = &next; } return rv; } /* return -1 if any error, 0 if value has the DATE-TIME form 1 if value has the DATE form only 2 if value has the DATE-TIME form and is in GMT. */ int ical_parse_date(char *value, struct tm *t) { int i, rv; struct tm Tm; rv = -1; if(t == NULL) return rv; memset((void *)&Tm, 0, sizeof(struct tm)); if(value == NULL) return rv; rv = 0; /* assume DATE-TIME format */ /* a simple check for the format of the string */ for(i = 0; isdigit(value[i]); i++); if (i == 8 && value[i] == '\0') rv = 1; else if (i != 8 || value[i++] != 'T') return -1; if(rv == 0) { for(; isdigit(value[i]); i++); if(i != 15 || (value[i] != '\0' && (value[i] != 'Z' || value[i+1] != '\0'))) return -1; if(i == 15 && value[i] == 'Z') rv = 2; } Tm.tm_year = ical_get_number_value(value, 0, 4) - 1900; Tm.tm_mon = ical_get_number_value(value, 4, 6) - 1; Tm.tm_mday = ical_get_number_value(value, 6, 8); if(rv != 1){ Tm.tm_hour = ical_get_number_value(value, 9, 11); Tm.tm_min = ical_get_number_value(value, 11, 13); Tm.tm_sec = ical_get_number_value(value, 13, 15); Tm.tm_isdst = ICAL_DST_UNKNOWN; } else Tm.tm_isdst = -1; *t = Tm; return (t->tm_mon > 11 || t->tm_mon < 0 || t->tm_mday > 31 || t->tm_mday < 0 || t->tm_hour > 23 || t->tm_hour < 0 || t->tm_min > 59 || t->tm_min < 0 || t->tm_sec > 60 || t->tm_sec < 0) ? - 1 : rv; } void ical_set_date(ICLINE_S *icl, VTIMEZONE_S *vtz) { int date_form; /* date forms from section 3.3.4 in RFC 5545 */ ICAL_PARAMETER_S *param; char *tz = NULL; struct tm ic_date; if(icl == NULL) return; for(param = icl->param; param != NULL; param = param->next) if(!strucmp(param->name, "TZID")) tz = param->value; if(tz != NULL) date_form = 3; /* local time with timezone */ else if(icl->value[strlen(icl->value)-1] == 'Z') date_form = 2; /* utc time */ else date_form = 1; /* local time */ ical_parse_date(icl->value, &ic_date); ic_date.tm_wday = ical_day_of_week(ic_date); /* find out day of the week */ switch(date_form){ case 1: break; case 2: ical_adjust_date(&ic_date, vtz); break; case 3: break; default: alpine_panic ("Impossible date_form"); } } ICAL_TZPROP_S * ical_std_or_daylight(struct tm *date, VTIMEZONE_S *vtz) { struct tm standard, daylight; ICLINE_S *tzid = (ICLINE_S *) vtz->prop[TZCid]; // standard = daylight; return NULL; } /* adjusts time to given time zone */ void ical_adjust_date(struct tm *date, VTIMEZONE_S *vtz) { char *tzname = NULL; ICLINE_S *icl; ICAL_TZPROP_S *cur_std_day; if(vtz == NULL) return; if(vtz->prop){ if((icl = (ICLINE_S *)vtz->prop[TZCid]) != NULL) tzname = cpystr(icl->value); } cur_std_day = ical_std_or_daylight(date, vtz); } void ical_set_date_vevent(void *veventv, void *vtzv) { VEVENT_S *vevent = (VEVENT_S *) veventv; VTIMEZONE_S *vtz = (VTIMEZONE_S *) vtzv; if(vevent){ ical_set_date(vevent->prop[EvDtstamp], vtz); ical_set_date(vevent->prop[EvDtstart], vtz); ical_set_date(vevent->prop[EvDtend], vtz); } } #define LEAP_YEAR(X) ((((X) % 4 == 0) \ && (((X) % 100 != 0) || ((X) % 400 == 0))) \ || (X) == 1700) #define CAL_OFFSET(X) (((X) == 1752) ? 5 : (LEAP_YEAR((X)) ? 2 : 1)) /* given a year, after day_zero, return the day * of the week of the first of january of that year. On error, * return a negative number. * Assumption: day_zero is the date of january 1, of some year. */ int ical_january_first(int year) { int i, january_first; if(year < day_zero.tm_year) return -1; /* not supported */ year += 1900; january_first = day_zero.tm_wday; for(i = 1900 + day_zero.tm_year + 1; i <= year; i++) january_first += CAL_OFFSET(i-1); return january_first % 7; } /* given a month, week day, and year, return all days of the month * that have that day as the week day. For example, return all * sundays in november 2012. */ int * ical_day_from_week(int month, Weekday day, int year) { int *rv = NULL; int fday, nday; Weekday wday; int i; fday = ical_first_of_month(month, year); year += 1900; /* restore year */ if(year == 1752 && month == 8){ fday = 9; } else { for(nday = 1, wday = (Weekday) fday; wday != day; wday = (wday+1) % 7, nday++) ; rv = fs_get(6*sizeof(int)); memset((void *) rv, 0, 6*sizeof(int)); for(i = 0; nday <= month_len[month]; i++){ rv[i] = nday; nday += 7; } if(LEAP_YEAR(year) && month == 1 && nday == 29) rv[i] = nday; } return rv; } /* given a month and a year, return the weekday of the first of the * month in that year. * return value: on error -1, otherwise the day of the week. */ int ical_first_of_month(int month, int year) { int i, d; if((d = ical_january_first(year)) < 0) return -1; year += 1900; for(i = 0; i < month; i++) d += month_len[i]; if(LEAP_YEAR(year) && month >= 2) d += 1; if(year == 1752 && month >= 9) d -= 11; return d % 7; } /* given a day, month and year, return the weekday of that day * return value: on error -1, otherwise the day of the week. */ int ical_day_of_week(struct tm date) { int d; if((d = ical_first_of_month(date.tm_mon, date.tm_year)) < 0) return -1; d += date.tm_mday - 1; if(date.tm_year + 1900 == 1752){ if(date.tm_mday > 2 && date.tm_mday < 14) return -1; if(date.tm_mday >= 14) d -= 11; } return d % 7; } /* given an initial date dtstart, and a recurring rule, rrule, * adjust the date to the first date on the same year, when * the rule actually starts */ struct tm adjust_date_rrule(struct tm *dtstart, RRULE_S *rrule) { struct tm t; memset((void *) &t, 0, sizeof(struct tm)); t.tm_year = dtstart->tm_year; /* same year */ if(rrule->prop[RRFreq]){ } if(rrule->prop[RRCount]){ } else if(rrule->prop[RRInterval]){ } if(rrule->prop[RRBysecond]){ BYWKDY_S *sec = (BYWKDY_S *) rrule->prop[RRBysecond], *seco; for (seco = sec; seco != NULL; seco = seco->next) if(seco == sec) t.tm_sec = seco->value; else if (seco->value < t.tm_sec) t.tm_sec = seco->value; } if (rrule->prop[RRByminute]){ BYWKDY_S *sec = (BYWKDY_S *) rrule->prop[RRByminute], *seco; for (seco = sec; seco != NULL; seco = seco->next) if(seco == sec) t.tm_min = seco->value; else if (seco->value < t.tm_sec) t.tm_min = seco->value; } if (rrule->prop[RRByhour]){ BYWKDY_S *sec = (BYWKDY_S *) rrule->prop[RRByhour], *seco; for (seco = sec; seco != NULL; seco = seco->next) if(seco == sec) t.tm_hour = seco->value; else if (seco->value < t.tm_sec) t.tm_hour = seco->value; } if (rrule->prop[RRByday]){ } if (rrule->prop[RRByweekno]){ } if (rrule->prop[RRBymonthday]){ } if (rrule->prop[RRByyearday]){ } if (rrule->prop[RRByweekno]){ } if (rrule->prop[RRBymonth]){ BYWKDY_S *m = (BYWKDY_S *) rrule->prop[RRBymonth], *mo; for (mo = m; mo != NULL; mo = mo->next) if(mo == m) t.tm_mon = mo->value - 1; else if (mo->value - 1 < t.tm_mon) t.tm_mon = mo->value - 1; } if (rrule->prop[RRBysetpos]){ } if (rrule->prop[RRWkst]){ } return t; } void ical_initialize(void) { static int inited = 0; if(inited != 0) return; ical_buf_len = 1024; ical_buf = fs_get(ical_buf_len+1); memset((void *) &day_zero, 0, sizeof(struct tm)); day_zero.tm_year = 1601 - 1900; day_zero.tm_mday = 1; day_zero.tm_wday = 4; inited++; } /* At this time, we are going to print the date in 24 hour format * if there is no string for AM or PM, but we use AM or PM when available. * We plan to make this user configurable, but not today... */ void ical_date_time (char *tmp, size_t len, struct tm *ic_datep) { /* test of the AM/PM string is available */ our_strftime(tmp, len, "%p", ic_datep); if(tmp[0]) our_strftime(tmp, len, "%a %x %I:%M %p", ic_datep); else our_strftime(tmp, len, "%a %x %H:%M", ic_datep); } /* If the icline has a TZID parameter, return its value, otherwise, return * NULL. Returned value freed by caller. */ char * ical_get_tzid(ICAL_PARAMETER_S *param) { char *tzid = NULL; if(param == NULL) return tzid; if(strucmp(param->name, "TZID") == 0) tzid = cpystr(param->value); else tzid = ical_get_tzid(param->next); return tzid; } /* we create a summary of the event, and pass that back as an ical parameter */ VEVENT_SUMMARY_S * ical_vevent_summary(VCALENDAR_S *vcal) { VEVENT_SUMMARY_S *rv, *vsummary= NULL; ICLINE_S *method; VEVENT_S *vevent; GEN_ICLINE_S *gicl; ICLINE_S *icl; static int offset = 1000000; /* impossible value */ static int dst; time_t ourtime; if(vcal == NULL) return NULL; if(offset == 1000000) offset = timezone_offset_to_gmt(&dst); method = vcal->method; vevent = (VEVENT_S *) vcal->comp[VEvent]; if(vevent == NULL || vevent->prop == NULL) return NULL; for(vevent = (VEVENT_S *) vcal->comp[VEvent]; vevent != NULL && vevent->prop != NULL; vevent = vevent->next, rv = rv->next){ rv = fs_get(sizeof(VEVENT_SUMMARY_S)); memset((void *) rv, 0, sizeof(VEVENT_SUMMARY_S)); if(method != NULL && !strucmp(method->value, "CANCEL")) rv->cancel++; if((icl = (ICLINE_S *) vevent->prop[EvPriority]) != NULL) rv->priority = atoi(icl->value); if((icl = (ICLINE_S *) vevent->prop[EvSummary]) != NULL){ rv->summary = cpystr(icl->value ? icl->value : _("No Summary")); ical_remove_escapes(&rv->summary); } if((icl = (ICLINE_S *) vevent->prop[EvClass]) != NULL) rv->class = cpystr(icl->value ? icl->value : _("PUBLIC")); else rv->class = cpystr(_("PUBLIC")); if((icl = (ICLINE_S *) vevent->prop[EvOrganizer]) != NULL){ char *cn, *sender, *address; ICAL_PARAMETER_S *param; cn = sender = address = NULL; for(param = icl->param; param != NULL; param = param->next) if(!strucmp(param->name, "CN")) cn = param->value; else if(!strucmp(param->name, "SENT-BY")) sender = param->value; if(sender != NULL){ if(!struncmp(sender, "MAILTO:", 7)) sender += 7; utf8_snprintf(tmp_20k_buf, SIZEOF_20KBUF, "<%s>", sender); rv->sender = cpystr(tmp_20k_buf); } if((address = icl->value) != NULL){ if(!struncmp(address, "MAILTO:", 7)) address += 7; utf8_snprintf(tmp_20k_buf, SIZEOF_20KBUF, "%s%s<%s>", cn ? cn : "", cn ? " " : "", address ? address : _("Unknown address")); rv->organizer = cpystr(tmp_20k_buf); } } /* end of if(organizer) */ if((icl = (ICLINE_S *) vevent->prop[EvLocation]) != NULL){ rv->location = cpystr(icl->value ? icl->value : _("Location undisclosed")); ical_remove_escapes(&rv->location); } if((icl = (ICLINE_S *) vevent->prop[EvDtstart]) != NULL){ struct tm ic_date; char tmp[200], *tzid; int icd; /* ical date return value */ memset((void *)&ic_date, 0, sizeof(struct tm)); icd = ical_parse_date(icl->value, &ic_date); tzid = ical_get_tzid(icl->param); if(icd >= 0){ ic_date.tm_wday = ical_day_of_week(ic_date); if(ic_date.tm_isdst == 1){ /* GMT time */ ic_date.tm_isdst = dst; ourtime = mktime(&ic_date); if(ourtime != (time_t) -1){ ourtime += offset; ic_date = *localtime(&ourtime); } } ic_date.tm_isdst = dst; switch(icd){ case 0: /* DATE-TIME */ ical_date_time(tmp, sizeof(tmp), &ic_date); break; case 1: /* DATE */ our_strftime(tmp, sizeof(tmp), "%a %x", &ic_date); break; case 2: /* DATE-TIME in GMT, Bug: add adjust to time zone */ our_strftime(tmp, sizeof(tmp), "%a %x %I:%M %p", &ic_date); break; default: alpine_panic("Unhandled ical date format"); break; } } else{ strncpy(tmp, _("Error while parsing event date"), sizeof(tmp)); tmp[sizeof(tmp) - 1] = '\0'; } if(icl->value == NULL) rv->evstart = cpystr(_("Unknown Start Date")); else{ size_t len = strlen(tmp) + 1; if(tzid != NULL) len += strlen(tzid) + 3; /* 3 = strlen(" ()") */ rv->evstart = fs_get(len*sizeof(char)); snprintf(rv->evstart, len, "%s%s%s%s", tmp, tzid != NULL ? " (" : "", tzid != NULL ? tzid : "", tzid != NULL ? ")" : ""); rv->evstart[len-1] = '\0'; } if(tzid) fs_give((void **)&tzid); } /* end of if dtstart */ if((icl = (ICLINE_S *) vevent->prop[EvDuration]) != NULL){ int i, done = 0; ICAL_DURATION_S ic_d, icd2; if(ical_parse_duration(icl->value, &ic_d) == 0){ char tmp[MAILTMPLEN+1]; for(i = 1, icd2 = ic_d; icd2.next != NULL; icd2 = *icd2.next, i++); rv->duration = fs_get((i+1)*sizeof(char *)); i = 0; do { tmp[0] = '\0'; if(ic_d.weeks > 0) utf8_snprintf(tmp+strlen(tmp), MAILTMPLEN - strlen(tmp), "%d %s ", ic_d.weeks, ic_d.weeks == 1 ? _("week") : _("weeks")); if(ic_d.days > 0) utf8_snprintf(tmp+strlen(tmp), MAILTMPLEN - strlen(tmp), "%d %s ", ic_d.days, ic_d.days == 1 ? _("day") : _("days")); if(ic_d.hours > 0) utf8_snprintf(tmp+strlen(tmp), MAILTMPLEN - strlen(tmp), "%d %s ", ic_d.hours, ic_d.hours == 1 ? _("hour") : _("hours")); if(ic_d.minutes > 0) utf8_snprintf(tmp+strlen(tmp), MAILTMPLEN - strlen(tmp), "%d %s ", ic_d.minutes, ic_d.minutes == 1 ? _("minute") : _("minutes")); if(ic_d.seconds > 0) utf8_snprintf(tmp+strlen(tmp), MAILTMPLEN - strlen(tmp), "%d %s ", ic_d.seconds, ic_d.seconds == 1 ? _("second") : _("seconds")); tmp[MAILTMPLEN] = '\0'; rv->duration[i++] = cpystr(tmp); if(ic_d.next != NULL) ic_d = *ic_d.next; else done++; } while (done == 0); rv->duration[i] = NULL; } } /* end of DURATION */ else if((icl = (ICLINE_S *) vevent->prop[EvDtend]) != NULL){ struct tm ic_date; char tmp[200], *tzid; int icd; memset((void *)&ic_date, 0, sizeof(struct tm)); icd = ical_parse_date(icl->value, &ic_date); tzid = ical_get_tzid(icl->param); if(icd >= 0){ ic_date.tm_wday = ical_day_of_week(ic_date); if(ic_date.tm_isdst == 1){ /* GMT time */ ic_date.tm_isdst = dst; ourtime = mktime(&ic_date); if(ourtime != (time_t) -1){ ourtime += offset; ic_date = *localtime(&ourtime); } } ic_date.tm_isdst = dst; switch(icd){ case 0: /* DATE-TIME */ ical_date_time(tmp, sizeof(tmp), &ic_date); break; case 1: /* DATE */ our_strftime(tmp, sizeof(tmp), "%a %x", &ic_date); break; case 2: /* DATE-TIME in GMT, Bug: add adjust to time zone */ our_strftime(tmp, sizeof(tmp), "%a %x %I:%M %p", &ic_date); break; default: alpine_panic("Unhandled ical date format"); break; } } else{ strncpy(tmp, _("Error while parsing event date"), sizeof(tmp)); tmp[sizeof(tmp) - 1] = '\0'; } if(icl->value == NULL) rv->evend = cpystr(_("Unknown End Date")); else{ size_t len = strlen(tmp) + 1; if(tzid != NULL) len += strlen(tzid) + 3; /* 3 = strlen(" ()") */ rv->evend = fs_get(len*sizeof(char)); snprintf(rv->evend, len, "%s%s%s%s", tmp, tzid != NULL ? " (" : "", tzid != NULL ? tzid : "", tzid != NULL ? ")" : ""); rv->evend[len-1] = '\0'; } if(tzid) fs_give((void **)&tzid); } /* end of if dtend */ if((icl = (ICLINE_S *) vevent->prop[EvDtstamp]) != NULL){ struct tm ic_date; char tmp[200], *tzid; int icd; memset((void *)&ic_date, 0, sizeof(struct tm)); icd = ical_parse_date(icl->value, &ic_date); tzid = ical_get_tzid(icl->param); if(icd >= 0){ ic_date.tm_wday = ical_day_of_week(ic_date); if(ic_date.tm_isdst == 1){ /* GMT time */ ic_date.tm_isdst = dst; ourtime = mktime(&ic_date); if(ourtime != (time_t) -1){ ourtime += offset; ic_date = *localtime(&ourtime); } } ic_date.tm_isdst = dst; switch(icd){ case 0: /* DATE-TIME */ ical_date_time(tmp, sizeof(tmp), &ic_date); break; case 1: /* DATE */ our_strftime(tmp, sizeof(tmp), "%a %x", &ic_date); break; case 2: /* DATE-TIME in GMT, Bug: add adjust to time zone */ our_strftime(tmp, sizeof(tmp), "%a %x %I:%M %p", &ic_date); break; default: alpine_panic("Unhandled ical date format"); break; } } else{ strncpy(tmp, _("Error while parsing event date"), sizeof(tmp)); tmp[sizeof(tmp) - 1] = '\0'; } if(icl->value == NULL) rv->dtstamp = cpystr(_("Unknown when event was scheduled")); else{ size_t len = strlen(tmp) + 1; if(tzid != NULL) len += strlen(tzid) + 3; /* 3 = strlen(" ()") */ rv->dtstamp = fs_get(len*sizeof(char)); snprintf(rv->dtstamp, len, "%s%s%s%s", tmp, tzid != NULL ? " (" : "", tzid != NULL ? tzid : "", tzid != NULL ? ")" : ""); rv->dtstamp[len-1] = '\0'; } } /* end of if dtstamp */ if((gicl = (GEN_ICLINE_S *) vevent->prop[EvAttendee]) != NULL){ int nattendees, i; for(nattendees = 0; gicl != NULL; gicl = gicl->next, nattendees++); rv->attendee = fs_get((nattendees+1)*sizeof(char *)); gicl = (GEN_ICLINE_S *) vevent->prop[EvAttendee]; for(i = 0; gicl != NULL; gicl = gicl->next, i++){ char *role, *partstat, *rsvp; char *cn, *mailto; ICAL_PARAMETER_S *param; icl = gicl->cline; role = partstat = rsvp = cn = mailto = NULL; for(param = icl->param; param != NULL; param = param->next){ if(!strucmp(param->name, "ROLE")){ if(!strucmp(param->value, "REQ-PARTICIPANT")) role = _("[Required]"); else if(!strucmp(param->value, "OPT-PARTICIPANT")) role = _("[Optional]"); else if(!strucmp(param->value, "NON-PARTICIPANT")) role = _("[Informed]"); else if(!strucmp(param->value, "CHAIR")) role = _("[ Chair ]"); else role = param->value; } else if(!strucmp(param->name, "PARTSTAT")){ if(!strucmp(param->value, "NEEDS-ACTION")) partstat = _("[Need-Reply]"); else if(!strucmp(param->value, "ACCEPTED")) partstat = _("[ Accepted ]"); else if(!strucmp(param->value, "DECLINED")) partstat = _("[ Declined ]"); else if(!strucmp(param->value, "TENTATIVE")) partstat = _("[ Tentative]"); else if(!strucmp(param->value, "DELEGATED")) partstat = _("[ Delegated]"); else partstat = param->value; } else if(!strucmp(param->name, "RSVP")) rsvp = param->value; else if(!strucmp(param->name, "CN")) cn = param->value; } if(icl->value && !struncmp(icl->value, "MAILTO:", strlen("MAILTO:"))) mailto = icl->value + 7; /* 7 = strlen("MAILTO:") */ if(!strucmp(cn, mailto)) cn = ""; utf8_snprintf(tmp_20k_buf, SIZEOF_20KBUF, "%s%s%s%s%s%s<%s>", role && *role ? role : "", role && *role ? " " : "", partstat ? partstat : _("[Unknown Reply]"), " ", cn && *cn ? cn : "", cn && *cn ? " " : "", mailto ? mailto : _("Unknown address")); rv->attendee[i] = cpystr(tmp_20k_buf); } rv->attendee[i] = NULL; } /* end of ATTENDEES */ if((icl = (ICLINE_S *) vevent->prop[EvDescription]) != NULL){ char *s, *t, *u, *v; int i, escaped; if(icl->value == NULL){ free_vevent_summary(&rv); return vsummary; } v = cpystr(icl->value); /* process a copy of icl->value */ for(i = 1, escaped = 0, s = v; s && *s; s++){ if(*s == '\\' && escaped == 0){ escaped = 1; continue; } if(escaped){ if(!(*s == '\\' || *s == ',' || *s == 'n' || *s == 'N' || *s == ';')){ free_vevent_summary(&rv); fs_give((void **)&v); return vsummary; } escaped = 0; continue; } if(*s == ',') i++; /* a non-scaped comma is a new value for text */ } rv->description = fs_get((i+1)*sizeof(unsigned char *)); i = 0; for (s = t = u = v, escaped = 0; *t != '\0'; t++){ if(*t == '\\' && escaped == 0){ escaped = 1; continue; } if(escaped){ switch(*t){ case '\\': case ',': case ';': *u++ = *t; break; case 'n': case 'N': *u++ = '\n'; break; default: free_vevent_summary(&rv); fs_give((void **)&v); return NULL; } escaped = 0; continue; } if(*t == ','){ *u = '\0'; rv->description[i++] = (unsigned char *) cpystr((char *) ical_decode(s, vcal->encoding)); s = u = t+1; } else *u++ = *t; } *u = '\0'; rv->description[i++] = (unsigned char *) cpystr((char *) ical_decode(s, vcal->encoding)); rv->description[i] = NULL; fs_give((void **)&v); } /* end of if(description) */ /* last instruction of the loop */ if(vsummary == NULL) vsummary = rv; else{ VEVENT_SUMMARY_S *vesy; for(vesy = vsummary; vesy && vesy->next; vesy = vesy->next); vesy->next = rv; } } /* end of "for" loop */ return vsummary; } void free_vevent_summary(VEVENT_SUMMARY_S **vesy) { int i; if(vesy == NULL || *vesy == NULL) return; if((*vesy)->class) fs_give((void **)&(*vesy)->class); if((*vesy)->summary) fs_give((void **)&(*vesy)->summary); if((*vesy)->sender) fs_give((void **)&(*vesy)->sender); if((*vesy)->organizer) fs_give((void **)&(*vesy)->organizer); if((*vesy)->location) fs_give((void **)&(*vesy)->location); if((*vesy)->evstart) fs_give((void **)&(*vesy)->evstart); if((*vesy)->evend) fs_give((void **)&(*vesy)->evend); if((*vesy)->dtstamp) fs_give((void **)&(*vesy)->dtstamp); if((*vesy)->duration){ for(i = 0; (*vesy)->duration[i] != NULL; i++) fs_give((void **) &(*vesy)->duration[i]); fs_give((void **) (*vesy)->duration); } if((*vesy)->attendee){ for(i = 0; (*vesy)->attendee[i] != NULL; i++) fs_give((void **) &(*vesy)->attendee[i]); fs_give((void **) &(*vesy)->attendee); } if((*vesy)->description){ for(i = 0; (*vesy)->description[i] != NULL; i++) fs_give((void **) &(*vesy)->description[i]); fs_give((void **) &(*vesy)->description); } if((*vesy)->next) free_vevent_summary(&(*vesy)->next); fs_give((void **) vesy); } void ical_free_all(void) { if(ical_buf) fs_give((void **)&ical_buf); }