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chrony/pktlength.c
Miroslav Lichvar da2c8d9076 Use config.h
2011-05-24 18:07:06 +02:00

248 lines
8.8 KiB
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/*
chronyd/chronyc - Programs for keeping computer clocks accurate.
**********************************************************************
* Copyright (C) Richard P. Curnow 1997-2002
*
* 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.
*
**********************************************************************
=======================================================================
Routines to compute the expected length of a command or reply packet.
These operate on the RAW NETWORK packets, from the point of view of
integer endianness within the structures.
*/
#include "config.h"
#include "sysincl.h"
#include "util.h"
#include "pktlength.h"
/* ================================================== */
int
PKL_CommandLength(CMD_Request *r)
{
int type;
type = ntohs(r->command);
if (type < 0 || type >= N_REQUEST_TYPES) {
return 0;
} else {
switch (type) {
case REQ_NULL:
return offsetof(CMD_Request, data);
case REQ_ONLINE:
return offsetof(CMD_Request, data.online.EOR);
case REQ_OFFLINE:
return offsetof(CMD_Request, data.offline.EOR);
case REQ_BURST:
return offsetof(CMD_Request, data.burst.EOR);
case REQ_MODIFY_MINPOLL:
return offsetof(CMD_Request, data.modify_minpoll.EOR);
case REQ_MODIFY_MAXPOLL:
return offsetof(CMD_Request, data.modify_maxpoll.EOR);
case REQ_DUMP:
return offsetof(CMD_Request, data.dump.EOR);
case REQ_MODIFY_MAXDELAY:
return offsetof(CMD_Request, data.modify_maxdelay.EOR);
case REQ_MODIFY_MAXDELAYRATIO:
return offsetof(CMD_Request, data.modify_maxdelayratio.EOR);
case REQ_MODIFY_MAXDELAYDEVRATIO:
return offsetof(CMD_Request, data.modify_maxdelaydevratio.EOR);
case REQ_MODIFY_MAXUPDATESKEW:
return offsetof(CMD_Request, data.modify_maxupdateskew.EOR);
case REQ_LOGON :
return offsetof(CMD_Request, data.logon.EOR);
case REQ_SETTIME :
return offsetof(CMD_Request, data.settime.EOR);
case REQ_LOCAL :
return offsetof(CMD_Request, data.local.EOR);
case REQ_MANUAL :
return offsetof(CMD_Request, data.manual.EOR);
case REQ_N_SOURCES :
return offsetof(CMD_Request, data.n_sources.EOR);
case REQ_SOURCE_DATA :
return offsetof(CMD_Request, data.source_data.EOR);
case REQ_REKEY :
return offsetof(CMD_Request, data.rekey.EOR);
case REQ_ALLOW :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_ALLOWALL :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_DENY :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_DENYALL :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_CMDALLOW :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_CMDALLOWALL :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_CMDDENY :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_CMDDENYALL :
return offsetof(CMD_Request, data.allow_deny.EOR);
case REQ_ACCHECK :
return offsetof(CMD_Request, data.ac_check.EOR);
case REQ_CMDACCHECK :
return offsetof(CMD_Request, data.ac_check.EOR);
case REQ_ADD_SERVER :
return offsetof(CMD_Request, data.ntp_source.EOR);
case REQ_ADD_PEER :
return offsetof(CMD_Request, data.ntp_source.EOR);
case REQ_DEL_SOURCE :
return offsetof(CMD_Request, data.del_source.EOR);
case REQ_WRITERTC :
return offsetof(CMD_Request, data.writertc.EOR);
case REQ_DFREQ :
return offsetof(CMD_Request, data.dfreq.EOR);
case REQ_DOFFSET :
return offsetof(CMD_Request, data.doffset.EOR);
case REQ_TRACKING :
return offsetof(CMD_Request, data.tracking.EOR);
case REQ_SOURCESTATS :
return offsetof(CMD_Request, data.sourcestats.EOR);
case REQ_RTCREPORT :
return offsetof(CMD_Request, data.rtcreport.EOR);
case REQ_TRIMRTC :
return offsetof(CMD_Request, data.trimrtc.EOR);
case REQ_CYCLELOGS :
return offsetof(CMD_Request, data.cyclelogs.EOR);
case REQ_SUBNETS_ACCESSED :
{
unsigned long ns;
ns = ntohl(r->data.subnets_accessed.n_subnets);
return (offsetof(CMD_Request, data.subnets_accessed.subnets) +
ns * sizeof(REQ_SubnetsAccessed_Subnet));
}
case REQ_CLIENT_ACCESSES:
{
unsigned long nc;
nc = ntohl(r->data.client_accesses.n_clients);
return (offsetof(CMD_Request, data.client_accesses.client_ips) +
nc * sizeof(unsigned long));
}
case REQ_CLIENT_ACCESSES_BY_INDEX:
return offsetof(CMD_Request, data.client_accesses_by_index.EOR);
case REQ_MANUAL_LIST:
return offsetof(CMD_Request, data.manual_list.EOR);
case REQ_MANUAL_DELETE:
return offsetof(CMD_Request, data.manual_delete.EOR);
case REQ_MAKESTEP:
return offsetof(CMD_Request, data.make_step.EOR);
case REQ_ACTIVITY:
return offsetof(CMD_Request, data.activity.EOR);
case REQ_RESELECT:
return offsetof(CMD_Request, data.reselect.EOR);
case REQ_RESELECTDISTANCE:
return offsetof(CMD_Request, data.reselect_distance.EOR);
case REQ_MODIFY_MINSTRATUM:
return offsetof(CMD_Request, data.modify_minstratum.EOR);
case REQ_MODIFY_POLLTARGET:
return offsetof(CMD_Request, data.modify_polltarget.EOR);
default:
/* If we fall through the switch, it most likely means we've forgotten to implement a new case */
assert(0);
}
}
/* Catch-all case */
return 0;
}
/* ================================================== */
int
PKL_ReplyLength(CMD_Reply *r)
{
int type;
type = ntohs(r->reply);
/* Note that reply type codes start from 1, not 0 */
if (type < 1 || type >= N_REPLY_TYPES) {
return 0;
} else {
switch (type) {
case RPY_NULL:
return offsetof(CMD_Reply, data.null.EOR);
case RPY_N_SOURCES:
return offsetof(CMD_Reply, data.n_sources.EOR);
case RPY_SOURCE_DATA:
return offsetof(CMD_Reply, data.source_data.EOR);
case RPY_MANUAL_TIMESTAMP:
return offsetof(CMD_Reply, data.manual_timestamp.EOR);
case RPY_TRACKING:
return offsetof(CMD_Reply, data.tracking.EOR);
case RPY_SOURCESTATS:
return offsetof(CMD_Reply, data.sourcestats.EOR);
case RPY_RTC:
return offsetof(CMD_Reply, data.rtc.EOR);
case RPY_SUBNETS_ACCESSED :
{
unsigned long ns = ntohl(r->data.subnets_accessed.n_subnets);
if (r->status == htons(STT_SUCCESS)) {
return (offsetof(CMD_Reply, data.subnets_accessed.subnets) +
ns * sizeof(RPY_SubnetsAccessed_Subnet));
} else {
return offsetof(CMD_Reply, data);
}
}
case RPY_CLIENT_ACCESSES:
{
unsigned long nc = ntohl(r->data.client_accesses.n_clients);
if (r->status == htons(STT_SUCCESS)) {
return (offsetof(CMD_Reply, data.client_accesses.clients) +
nc * sizeof(RPY_ClientAccesses_Client));
} else {
return offsetof(CMD_Reply, data);
}
}
case RPY_CLIENT_ACCESSES_BY_INDEX:
{
unsigned long nc = ntohl(r->data.client_accesses_by_index.n_clients);
if (r->status == htons(STT_SUCCESS)) {
return (offsetof(CMD_Reply, data.client_accesses_by_index.clients) +
nc * sizeof(RPY_ClientAccesses_Client));
} else {
return offsetof(CMD_Reply, data);
}
}
case RPY_MANUAL_LIST:
{
unsigned long ns = ntohl(r->data.manual_list.n_samples);
if (r->status == htons(STT_SUCCESS)) {
return (offsetof(CMD_Reply, data.manual_list.samples) +
ns * sizeof(RPY_ManualListSample));
} else {
return offsetof(CMD_Reply, data);
}
}
case RPY_ACTIVITY:
return offsetof(CMD_Reply, data.activity.EOR);
default:
assert(0);
}
}
return 0;
}
/* ================================================== */
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