/* chronyd/chronyc - Programs for keeping computer clocks accurate. ********************************************************************** * Copyright (C) Miroslav Lichvar 2014-2015 * * This program is free software; you can redistribute it and/or modify * it under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * 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 the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * ********************************************************************** ======================================================================= Function replacements needed when optional features are disabled. */ #include "config.h" #include "clientlog.h" #include "cmdmon.h" #include "keys.h" #include "logging.h" #include "manual.h" #include "memory.h" #include "nameserv.h" #include "nameserv_async.h" #include "ntp_core.h" #include "ntp_io.h" #include "ntp_sources.h" #include "refclock.h" #include "sched.h" #ifndef FEAT_ASYNCDNS #define MAX_ADDRESSES 16 /* This is a blocking implementation used when asynchronous resolving is not available */ struct DNS_Async_Instance { const char *name; DNS_NameResolveHandler handler; void *arg; }; static void resolve_name(void *anything) { struct DNS_Async_Instance *inst; IPAddr addrs[MAX_ADDRESSES]; DNS_Status status; int i; inst = (struct DNS_Async_Instance *)anything; status = DNS_Name2IPAddress(inst->name, addrs, MAX_ADDRESSES); for (i = 0; status == DNS_Success && i < MAX_ADDRESSES && addrs[i].family != IPADDR_UNSPEC; i++) ; (inst->handler)(status, i, addrs, inst->arg); Free(inst); } void DNS_Name2IPAddressAsync(const char *name, DNS_NameResolveHandler handler, void *anything) { struct DNS_Async_Instance *inst; inst = MallocNew(struct DNS_Async_Instance); inst->name = name; inst->handler = handler; inst->arg = anything; SCH_AddTimeoutByDelay(0.0, resolve_name, inst); } #endif /* !FEAT_ASYNCDNS */ #ifndef FEAT_CMDMON void CAM_Initialise(int family) { } void CAM_Finalise(void) { } void CAM_OpenUnixSocket(void) { } int CAM_AddAccessRestriction(IPAddr *ip_addr, int subnet_bits, int allow, int all) { return 1; } void MNL_Initialise(void) { } void MNL_Finalise(void) { } #endif /* !FEAT_CMDMON */ #ifndef FEAT_NTP void NCR_AddBroadcastDestination(IPAddr *addr, unsigned short port, int interval) { } void NCR_Initialise(void) { } void NCR_Finalise(void) { } int NCR_AddAccessRestriction(IPAddr *ip_addr, int subnet_bits, int allow, int all) { return 1; } int NCR_CheckAccessRestriction(IPAddr *ip_addr) { return 0; } void NIO_Initialise(int family) { } void NIO_Finalise(void) { } void NSR_Initialise(void) { } void NSR_Finalise(void) { } NSR_Status NSR_AddSource(NTP_Remote_Address *remote_addr, NTP_Source_Type type, SourceParameters *params) { return NSR_TooManySources; } void NSR_AddSourceByName(char *name, int port, int pool, NTP_Source_Type type, SourceParameters *params) { } NSR_Status NSR_RemoveSource(NTP_Remote_Address *remote_addr) { return NSR_NoSuchSource; } void NSR_RemoveAllSources(void) { } void NSR_HandleBadSource(IPAddr *address) { } void NSR_RefreshAddresses(void) { } void NSR_SetSourceResolvingEndHandler(NSR_SourceResolvingEndHandler handler) { if (handler) (handler)(); } void NSR_ResolveSources(void) { } void NSR_StartSources(void) { } void NSR_AutoStartSources(void) { } int NSR_InitiateSampleBurst(int n_good_samples, int n_total_samples, IPAddr *mask, IPAddr *address) { return 0; } int NSR_TakeSourcesOnline(IPAddr *mask, IPAddr *address) { return 0; } int NSR_TakeSourcesOffline(IPAddr *mask, IPAddr *address) { return 0; } int NSR_ModifyMinpoll(IPAddr *address, int new_minpoll) { return 0; } int NSR_ModifyMaxpoll(IPAddr *address, int new_maxpoll) { return 0; } int NSR_ModifyMaxdelay(IPAddr *address, double new_max_delay) { return 0; } int NSR_ModifyMaxdelayratio(IPAddr *address, double new_max_delay_ratio) { return 0; } int NSR_ModifyMaxdelaydevratio(IPAddr *address, double new_max_delay_dev_ratio) { return 0; } int NSR_ModifyMinstratum(IPAddr *address, int new_min_stratum) { return 0; } int NSR_ModifyPolltarget(IPAddr *address, int new_poll_target) { return 0; } void NSR_ReportSource(RPT_SourceReport *report, struct timeval *now) { memset(report, 0, sizeof (*report)); } void NSR_GetActivityReport(RPT_ActivityReport *report) { memset(report, 0, sizeof (*report)); } #ifndef FEAT_CMDMON void CLG_Initialise(void) { } void CLG_Finalise(void) { } void DNS_SetAddressFamily(int family) { } DNS_Status DNS_Name2IPAddress(const char *name, IPAddr *ip_addrs, int max_addrs) { return DNS_Failure; } void KEY_Initialise(void) { } void KEY_Finalise(void) { } #endif /* !FEAT_CMDMON */ #endif /* !FEAT_NTP */ #ifndef FEAT_REFCLOCK void RCL_Initialise(void) { } void RCL_Finalise(void) { } int RCL_AddRefclock(RefclockParameters *params) { return 0; } void RCL_StartRefclocks(void) { } void RCL_ReportSource(RPT_SourceReport *report, struct timeval *now) { memset(report, 0, sizeof (*report)); } #endif /* !FEAT_REFCLOCK */