/* +----------------------------------------------------------------------+ | PHP HTML Embedded Scripting Language Version 3.0 | +----------------------------------------------------------------------+ | Copyright (c) 1997-1999 PHP Development Team (See Credits file) | +----------------------------------------------------------------------+ | This program is free software; you can redistribute it and/or modify | | it under the terms of one of the following licenses: | | | | A) the GNU General Public License as published by the Free Software | | Foundation; either version 2 of the License, or (at your option) | | any later version. | | | | B) the PHP License as published by the PHP Development Team and | | included in the distribution in the file: LICENSE | | | | This program is distributed in the hope that it will be useful, | | but WITHOUT ANY WARRANTY; without even the implied warranty of | | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | | GNU General Public License for more details. | | | | You should have received a copy of both licenses referred to here. | | If you did not, or have any questions about PHP licensing, please | | contact core@php.net. | +----------------------------------------------------------------------+ | Authors: | | Mark Musone | +----------------------------------------------------------------------+ */ #define ICAP1 #ifdef ERROR #undef ERROR #endif #include "php.h" #if COMPILE_DL #include "dl/phpdl.h" #endif #if HAVE_ICAP #include #include #include #include #include #include "cal.h" #include "php_icap.h" #include "modules.h" #if (WIN32|WINNT) #include "winsock.h" #endif CALSTREAM *cal_open(); CALSTREAM *cal_close_it (); CALSTREAM *cal_close_full (); typedef struct php_icap_le_struct { CALSTREAM *icap_stream; long flags; } pils; typedef struct cal_list { u_int32_t uid; struct cal_list *next; } cal_list_t; static cal_list_t *g_cal_list=NULL; static cal_list_t *g_cal_list_end=NULL; /* * this array should be set up as: * {"PHPScriptFunctionName",dllFunctionName,1} */ function_entry icap_functions[] = { PHP_FE(icap_open, NULL) PHP_FE(icap_popen, NULL) PHP_FE(icap_reopen, NULL) PHP_FE(icap_fetch_event, NULL) PHP_FE(icap_list_event, NULL) PHP_FE(icap_list_alarms, NULL) PHP_FE(icap_create_calendar, NULL) PHP_FE(icap_rename_calendar, NULL) PHP_FE(icap_delete_calendar, NULL) PHP_FE(icap_delete_event, NULL) PHP_FE(icap_store_event, NULL) PHP_FE(icap_snooze, NULL) {NULL, NULL, NULL} }; zend_module_entry php_icap_module_entry = { CALVER, icap_functions, PHP_MINIT(icap), NULL, NULL, NULL, PHP_MINFO(icap), 0, 0, 0, NULL }; #if COMPILE_DL DLEXPORT zend_module_entry *get_module(void) { return &php_icap_module_entry; } #endif /* I believe since this global is used ONLY within this module, and nothing will link to this module, we can use the simple thread local_ storage */ int le_icap; #ifdef OP_RELOGIN /* AJS: persistent connection type */ int le_picap; #endif char icap_user[80]=""; char icap_password[80]=""; CALSTREAM *cal_close_it (pils *icap_le_struct) { CALSTREAM *ret; ret = cal_close (icap_le_struct->icap_stream,0); efree(icap_le_struct); return ret; } PHP_MINFO_FUNCTION(icap) { php_printf("Icap Support enabled
"); php_printf(""); php_printf(""); php_printf("",CALVER); php_printf("
Icap Version:%s
"); } PHP_MINIT_FUNCTION(icap) { le_icap = register_list_destructors(cal_close_it,NULL); return SUCCESS; } static int add_assoc_object(pval *arg, char *key, pval *tmp) { HashTable *symtable; if (arg->type == IS_OBJECT) { symtable = arg->value.obj.properties; } else { symtable = arg->value.ht; } return zend_hash_update(symtable, key, strlen(key)+1, (void *) &tmp, sizeof(pval *), NULL); } void php_icap_do_open(INTERNAL_FUNCTION_PARAMETERS, int persistent) { pval *calendar; pval *user; pval *passwd; pval *options; CALSTREAM *icap_stream; pils *icap_le_struct; long flags=0; long cl_flags=0; int ind; int myargc=ARG_COUNT(ht); if (myargc <3 || myargc >4 || getParameters(ht, myargc, &calendar,&user,&passwd,&options) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_string(calendar); convert_to_string(user); convert_to_string(passwd); strcpy(icap_user,user->value.str.val); strcpy(icap_password,passwd->value.str.val); if(myargc ==4) { convert_to_long(options); flags=options->value.lval; } icap_stream = cal_open(NULL,calendar->value.str.val,0); if (!icap_stream) { php_error(E_WARNING,"Couldn't open stream %s\n",calendar->value.str.val); RETURN_FALSE; } icap_le_struct = emalloc(sizeof(pils)); icap_le_struct->icap_stream = icap_stream; icap_le_struct->flags = 0; ind = zend_list_insert(icap_le_struct, le_icap); RETURN_LONG(ind); } /* {{{ proto int icap_close(int stream_id [, int options]) Close an ICAP stream */ PHP_FUNCTION(icap_close) { pval *options, *streamind; int ind, ind_type; pils *icap_le_struct=NULL; int myargcount=ARG_COUNT(ht); long flags = 0; if (myargcount < 1 || myargcount > 2 || getParameters(ht, myargcount, &streamind, &options) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if(myargcount==2) { convert_to_long(options); flags = options->value.lval; icap_le_struct->flags = flags; } zend_list_delete(ind); RETURN_TRUE; } /* }}} */ /* {{{ proto int icap_open(string calendar, string user, string password [, int options]) Open an ICAP stream to a calendar */ PHP_FUNCTION(icap_open) { php_icap_do_open(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } /* }}} */ /* {{{ proto int icap_reopen(int stream_id, string calendar [, int options]) Reopen ICAP stream to new calendar */ PHP_FUNCTION(icap_reopen) { pval *streamind; pval *calendar; pval *options; CALSTREAM *icap_stream; pils *icap_le_struct; int ind, ind_type; long flags=0; long cl_flags=0; int myargc=ARG_COUNT(ht); if (myargc<2 || myargc>3 || getParameters(ht,myargc,&streamind, &calendar, &options) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } convert_to_string(calendar); if(myargc == 3) { convert_to_long(options); flags = options->value.lval; icap_le_struct->flags = cl_flags; } // icap_stream = cal_connect(calendar->value.str.val); // cal_login(icap_stream, calendar->value.str.val); if (icap_stream == NULL) { php_error(E_WARNING,"Couldn't re-open stream\n"); RETURN_FALSE; } RETURN_TRUE; } /* }}} */ /* {{{ proto int icap_expunge(int stream_id) Delete all messages marked for deletion */ PHP_FUNCTION(icap_expunge) { pval *streamind; int ind, ind_type; pval *start,*end; pils *icap_le_struct; if (ARG_COUNT(ht) != 1 || getParameters(ht, 1, &streamind) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } /* cal_expunge (icap_le_struct->icap_stream); */ RETURN_TRUE; } /* }}} */ /* {{{ proto int icap_fetch_event(int stream_id,int eventid, [int options]) Fetch an event*/ PHP_FUNCTION(icap_fetch_event) { pval *streamind,*eventid,*start,*end,*options=NULL; int ind, ind_type; pils *icap_le_struct=NULL; CALEVENT *myevent; int myargcount=ARG_COUNT(ht); if (myargcount < 1 || myargcount > 3 || getParameters(ht, myargcount, &streamind, &eventid,&options) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_long(eventid); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if(myargcount==3) { convert_to_long(options); } cal_fetch(icap_le_struct->icap_stream,eventid->value.lval,&myevent); object_init(return_value); add_property_long(return_value,"id",myevent->id); add_property_long(return_value,"public",myevent->public); MAKE_STD_ZVAL(start); object_init(start); if(myevent->start.has_date) { add_property_long(start,"year",myevent->start.year); add_property_long(start,"month",myevent->start.mon); add_property_long(start,"mday",myevent->start.mday); } if(myevent->start.has_time) { add_property_long(start,"hour",myevent->start.hour); add_property_long(start,"min",myevent->start.min); add_property_long(start,"sec",myevent->start.sec); } add_assoc_object(return_value, "start",start); MAKE_STD_ZVAL(end); object_init(end); if(myevent->end.has_date) { add_property_long(end,"year",myevent->end.year); add_property_long(end,"month",myevent->end.mon); add_property_long(end,"mday",myevent->end.mday); } if(myevent->end.has_time) { add_property_long(end,"hour",myevent->end.hour); add_property_long(end,"min",myevent->end.min); add_property_long(end,"sec",myevent->end.sec); } add_assoc_object(return_value, "end",end); add_property_string(return_value,"category",myevent->category,1); add_property_string(return_value,"title",myevent->title,1); add_property_string(return_value,"description",myevent->description,1); add_property_long(return_value,"alarm",myevent->alarm); } /* }}} */ /* {{{ proto array icap_list_events(int stream_id,int begindate, [int enddate]) Returns list of UIDs for that day or range of days */ PHP_FUNCTION(icap_list_events) { pval *streamind,*begindate,*enddate; pval **pvalue; int ind, ind_type; unsigned long i; char *t; int icap_folders=0; unsigned int msgno; pils *icap_le_struct; cal_list_t *my_cal_list; datetime_t begincal,endcal; int myargc; myargc=ARG_COUNT(ht); if (myargc <2 || myargc > 3 || getParameters(ht,myargc,&streamind,&begindate,&enddate) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_array(begindate); if(myargc == 3) convert_to_array(enddate); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } /* Initialize return array */ if (array_init(return_value) == FAILURE) { RETURN_FALSE; } begincal.has_time=0; endcal.has_time=0; if(zend_hash_find(begindate->value.ht,"year",sizeof("year"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); begincal.year=(*pvalue)->value.lval; } if(zend_hash_find(begindate->value.ht,"month",sizeof("month"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); begincal.mon=(*pvalue)->value.lval; } if(zend_hash_find(begindate->value.ht,"day",sizeof("day"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); begincal.mday=(*pvalue)->value.lval; } if(myargc == 3) { if(zend_hash_find(enddate->value.ht,"year",sizeof("year"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); endcal.year=(*pvalue)->value.lval; } if(zend_hash_find(enddate->value.ht,"month",sizeof("month"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); endcal.mon=(*pvalue)->value.lval; } if(zend_hash_find(enddate->value.ht,"day",sizeof("day"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); endcal.mday=(*pvalue)->value.lval; } } g_cal_list=NULL; cal_search_range(icap_le_struct->icap_stream,&begincal,&endcal); my_cal_list=g_cal_list; while(my_cal_list != NULL) { add_next_index_long(return_value,my_cal_list->uid); my_cal_list=my_cal_list->next; free(g_cal_list); g_cal_list=my_cal_list; } } /* }}} */ /* {{{ proto string icap_create_calendar(int stream_id, string calendar) Create a new calendar*/ PHP_FUNCTION(icap_create_calendar) { pval *streamind, *calendar; int ind, ind_type; pils *icap_le_struct; int myargc=ARG_COUNT(ht); if (myargc <1 || myargc > 2 || getParameters(ht,myargc,&streamind,&calendar) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_string(calendar); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } /* if (icap_create(icap_le_struct->icap_stream,calendar->value.str.val)) { RETURN_TRUE; } else { RETURN_FALSE; } */ } /* }}} */ /* {{{ proto string icap_rename(int stream_id, string src_calendar, string dest_calendar) Rename a calendar*/ PHP_FUNCTION(icap_rename_calendar) { pval *streamind, *src_calendar,*dest_calendar; int ind, ind_type; pils *icap_le_struct; int myargc=ARG_COUNT(ht); if (myargc <2 || myargc > 3 || getParameters(ht,myargc,&streamind,&src_calendar,&dest_calendar) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_string(src_calendar); convert_to_string(dest_calendar); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } /* if(icap_rename(icap_le_struct->icap_stream,src_calendar->value.str.val,dest_calendar->value.str.val)) {RETURN_TRUE;} else {RETURN_FALSE; } */ } /* }}} */ /* {{{ proto int icap_reopen(int stream_id, array date, array time) list alarms for a given time */ PHP_FUNCTION(icap_list_alarms) { pval *streamind, *date,*time; pval **pvalue; datetime_t mydate; int ind, ind_type; pils *icap_le_struct; int icap_folders=0; unsigned int msgno; cal_list_t *my_cal_list; int myargc=ARG_COUNT(ht); if (myargc != 3 || getParameters(ht,myargc,&streamind,&date,&time) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_array(date); convert_to_array(time); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if (array_init(return_value) == FAILURE) { RETURN_FALSE; } mydate.has_date=1; mydate.has_time=1; if(zend_hash_find(date->value.ht,"year",sizeof("year"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); mydate.year=(*pvalue)->value.lval; } if(zend_hash_find(date->value.ht,"month",sizeof("month"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); mydate.mon=(*pvalue)->value.lval; } if(zend_hash_find(date->value.ht,"day",sizeof("day"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); mydate.mday=(*pvalue)->value.lval; } if(zend_hash_find(time->value.ht,"hour",sizeof("hour"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); mydate.hour=(*pvalue)->value.lval; } if(zend_hash_find(time->value.ht,"minute",sizeof("minute"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); mydate.min=(*pvalue)->value.lval; } mydate.sec=0; g_cal_list=NULL; cal_search_alarm(icap_le_struct->icap_stream,&mydate); my_cal_list=g_cal_list; while(my_cal_list != NULL) { add_next_index_long(return_value,my_cal_list->uid); my_cal_list=my_cal_list->next; free(g_cal_list); g_cal_list=my_cal_list; } } /* }}} */ /* {{{ proto string icap_delete_calendar(int stream_id, string calendar) Delete calendar*/ PHP_FUNCTION(icap_delete_calendar) { pval *streamind, *calendar; int ind, ind_type; pils *icap_le_struct; int myargc=ARG_COUNT(ht); if (myargc <1 || myargc > 2 || getParameters(ht,myargc,&streamind,&calendar) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_string(calendar); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if (icap_delete_calendar(icap_le_struct->icap_stream,calendar->value.str.val)) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto string icap_delete_event(int stream_id, int uid) Delete event*/ PHP_FUNCTION(icap_delete_event) { pval *streamind, *uid; int ind, ind_type; pils *icap_le_struct; int myargc=ARG_COUNT(ht); if (myargc <1 || myargc > 2 || getParameters(ht,myargc,&streamind,&uid) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_long(uid); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if (cal_remove(icap_le_struct->icap_stream,uid->value.lval)) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto string icap_delete_calendar(int stream_id, int uid) Delete event*/ icap_delete_calendar(){ return 1; } /* }}} */ PHP_FUNCTION(icap_popen) { } /* {{{ proto string icap_store_event(int stream_id, object event) Store an event*/ PHP_FUNCTION(icap_store_event) { pval *streamind,*storeobject; int ind, ind_type; unsigned long i; char *t; int icap_folders=0; unsigned int msgno; pils *icap_le_struct; pval **pvalue,**temppvalue; cal_list_t *my_cal_list; int myargc; unsigned long uid; CALEVENT *myevent; myargc=ARG_COUNT(ht); if (myargc !=2 || getParameters(ht,myargc,&streamind,&storeobject) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_array(storeobject); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } /* Initialize return array */ if (array_init(return_value) == FAILURE) { RETURN_FALSE; } myevent=calevent_new(); if(zend_hash_find(storeobject->value.ht,"uid",sizeof("uid"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->id=(*pvalue)->value.lval; } if(zend_hash_find(storeobject->value.ht,"public",sizeof("public"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->public=(*pvalue)->value.lval; } if(zend_hash_find(storeobject->value.ht,"category",sizeof("category"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_string(*pvalue); myevent->category=strdup((*pvalue)->value.str.val); } if(zend_hash_find(storeobject->value.ht,"title",sizeof("title"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_string(*pvalue); myevent->title=strdup((*pvalue)->value.str.val); } if(zend_hash_find(storeobject->value.ht,"description",sizeof("description"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_string(*pvalue); myevent->description=strdup((*pvalue)->value.str.val); } if(zend_hash_find(storeobject->value.ht,"alarm",sizeof("alarm"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->alarm=(*pvalue)->value.lval; } if(zend_hash_find(storeobject->value.ht,"start",sizeof("start"),(void **) &temppvalue)== SUCCESS){ SEPARATE_ZVAL(temppvalue); convert_to_array(*temppvalue); if(zend_hash_find((*temppvalue)->value.ht,"year",sizeof("year"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.year=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"month",sizeof("month"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.mon=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"mday",sizeof("mday"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.mday=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"hour",sizeof("hour"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.hour=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"min",sizeof("min"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.min=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"sec",sizeof("sec"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->start.sec=(*pvalue)->value.lval; } myevent->start.has_date=true; } if(zend_hash_find(storeobject->value.ht,"end",sizeof("end"),(void **) &temppvalue)== SUCCESS){ SEPARATE_ZVAL(temppvalue); convert_to_array(*temppvalue); if(zend_hash_find((*temppvalue)->value.ht,"year",sizeof("year"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.year=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"month",sizeof("month"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.mon=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"mday",sizeof("mday"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.mday=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"hour",sizeof("hour"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.hour=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"min",sizeof("min"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.min=(*pvalue)->value.lval; } if(zend_hash_find((*temppvalue)->value.ht,"sec",sizeof("sec"),(void **) &pvalue)== SUCCESS){ SEPARATE_ZVAL(pvalue); convert_to_long(*pvalue); myevent->end.sec=(*pvalue)->value.lval; } myevent->end.has_date=true; } cal_append(icap_le_struct->icap_stream,"INBOX",&uid,myevent); calevent_free(myevent); RETURN_LONG(uid); } /* }}} */ /* {{{ proto string icap_snooze(int stream_id, int uid) Snooze an alarm*/ PHP_FUNCTION(icap_snooze) { pval *streamind,*uid; int ind, ind_type; pils *icap_le_struct; pval **pvalue; int myargc; myargc=ARG_COUNT(ht); if (myargc !=2 || getParameters(ht,myargc,&streamind,&uid) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long(streamind); convert_to_long(uid); ind = streamind->value.lval; icap_le_struct = (pils *)zend_list_find(ind, &ind_type); if (!icap_le_struct ) { php_error(E_WARNING, "Unable to find stream pointer"); RETURN_FALSE; } if(cal_snooze(icap_le_struct->icap_stream,uid->value.lval)) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* Interfaces to callbacks */ void cc_searched (unsigned long cal_uid) { if(g_cal_list==NULL) { g_cal_list=malloc(sizeof(struct cal_list)); g_cal_list->uid=cal_uid; g_cal_list->next=NULL; g_cal_list_end=g_cal_list; } else { g_cal_list_end->next=malloc(sizeof(struct cal_list)); g_cal_list_end=g_cal_list_end->next; g_cal_list_end->uid=cal_uid; g_cal_list_end->next=NULL; } } void cc_appended(u_int32_t uid) { } void cc_fetched(const CALEVENT *event) { } void cc_login(const char **user, const char **pwd) { *user=icap_user; *pwd=icap_password; } void cc_vlog(const char *fmt,va_list ap) { } void cc_vdlog(const char *fmt,va_list ap) { } #endif /* * Local_ variables: * tab-width: 4 * c-basic-offset: 4 * End: */