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/*---------------------------------------------------------------
* Copyright (c) 1999,2000,2001,2002,2003
* The Board of Trustees of the University of Illinois
* All Rights Reserved.
*---------------------------------------------------------------
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software (Iperf) and associated
* documentation files (the "Software"), to deal in the Software
* without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute,
* sublicense, and/or sell copies of the Software, and to permit
* persons to whom the Software is furnished to do
* so, subject to the following conditions:
*
*
* Redistributions of source code must retain the above
* copyright notice, this list of conditions and
* the following disclaimers.
*
*
* Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimers in the documentation and/or other materials
* provided with the distribution.
*
*
* Neither the names of the University of Illinois, NCSA,
* nor the names of its contributors may be used to endorse
* or promote products derived from this Software without
* specific prior written permission.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE CONTIBUTORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
* ________________________________________________________________
* National Laboratory for Applied Network Research
* National Center for Supercomputing Applications
* University of Illinois at Urbana-Champaign
* http://www.ncsa.uiuc.edu
* ________________________________________________________________
*
* Reporter.c
* by Kevin Gibbs <kgibbs@nlanr.net>
*
* ________________________________________________________________ */
#include "headers.h"
#include "Settings.hpp"
#include "util.h"
#include "Reporter.h"
#include "Thread.h"
#include "Locale.h"
#include "PerfSocket.hpp"
#include "SocketAddr.h"
#ifdef __cplusplus
extern "C" {
#endif
/*
The following 4 functions are provided for Reporting
styles that do not have all the reporting formats. For
instance the provided CSV format does not have a settings
report so it uses settings_notimpl.
*/
void* connection_notimpl( Connection_Info * nused, int nuse ) {
return NULL;
}
void settings_notimpl( ReporterData * nused ) { }
void statistics_notimpl( Transfer_Info * nused ) { }
void serverstatistics_notimpl( Connection_Info *nused1, Transfer_Info *nused2 ) { }
// To add a reporting style include its header here.
#include "report_default.h"
#include "report_CSV.h"
// The following array of report structs contains the
// pointers required for reporting in different reporting
// styles. To add a reporting style add a report struct
// below.
report_connection connection_reports[kReport_MAXIMUM] = {
reporter_reportpeer,
CSV_peer
};
report_settings settings_reports[kReport_MAXIMUM] = {
reporter_reportsettings,
settings_notimpl
};
report_statistics statistics_reports[kReport_MAXIMUM] = {
reporter_printstats,
CSV_stats
};
report_serverstatistics serverstatistics_reports[kReport_MAXIMUM] = {
reporter_serverstats,
CSV_serverstats
};
report_statistics multiple_reports[kReport_MAXIMUM] = {
reporter_multistats,
CSV_stats
};
char buffer[64]; // Buffer for printing
ReportHeader *ReportRoot = NULL;
extern Condition ReportCond;
extern Condition ReportDoneCond;
int reporter_process_report ( ReportHeader *report );
void process_report ( ReportHeader *report );
int reporter_handle_packet( ReportHeader *report );
int reporter_condprintstats( ReporterData *stats, MultiHeader *multireport, int force );
int reporter_print( ReporterData *stats, int type, int end );
void PrintMSS( ReporterData *stats );
MultiHeader* InitMulti( thread_Settings *agent, int inID ) {
MultiHeader *multihdr = NULL;
if ( agent->mThreads > 1 || agent->mThreadMode == kMode_Server ) {
if ( isMultipleReport( agent ) ) {
multihdr = malloc(sizeof(MultiHeader) + sizeof(ReporterData) +
NUM_MULTI_SLOTS * sizeof(Transfer_Info));
} else {
multihdr = malloc(sizeof(MultiHeader));
}
if ( multihdr != NULL ) {
memset( multihdr, 0, sizeof(MultiHeader) );
Condition_Initialize( &multihdr->barrier );
multihdr->groupID = inID;
multihdr->threads = agent->mThreads;
if ( isMultipleReport( agent ) ) {
int i;
ReporterData *data = NULL;
multihdr->report = (ReporterData*)(multihdr + 1);
memset(multihdr->report, 0, sizeof(ReporterData));
multihdr->data = (Transfer_Info*)(multihdr->report + 1);
data = multihdr->report;
for ( i = 0; i < NUM_MULTI_SLOTS; i++ ) {
multihdr->data[i].startTime = -1;
multihdr->data[i].transferID = inID;
multihdr->data[i].groupID = -2;
}
data->type = TRANSFER_REPORT;
if ( agent->mInterval != 0.0 ) {
struct timeval *interval = &data->intervalTime;
interval->tv_sec = (long) agent->mInterval;
interval->tv_usec = (long) ((agent->mInterval - interval->tv_sec)
* rMillion);
}
data->mHost = agent->mHost;
data->mLocalhost = agent->mLocalhost;
data->mBufLen = agent->mBufLen;
data->mMSS = agent->mMSS;
data->mTCPWin = agent->mTCPWin;
data->flags = agent->flags;
data->mThreadMode = agent->mThreadMode;
data->mode = agent->mReportMode;
data->info.mFormat = agent->mFormat;
data->info.mTTL = agent->mTTL;
if ( isUDP( agent ) ) {
multihdr->report->info.mUDP = (char)agent->mThreadMode;
}
if ( isConnectionReport( agent ) ) {
data->type |= CONNECTION_REPORT;
data->connection.peer = agent->peer;
data->connection.size_peer = agent->size_peer;
SockAddr_setPortAny( &data->connection.peer );
data->connection.local = agent->local;
data->connection.size_local = agent->size_local;
SockAddr_setPortAny( &data->connection.local );
}
}
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
return multihdr;
}
/*
* BarrierClient allows for multiple stream clients to be syncronized
*/
void BarrierClient( ReportHeader *agent ) {
Condition_Lock(agent->multireport->barrier);
agent->multireport->threads--;
if ( agent->multireport->threads == 0 ) {
// last one set time and wake up everyone
gettimeofday( &(agent->multireport->startTime), NULL );
Condition_Broadcast( &agent->multireport->barrier );
} else {
Condition_Wait( &agent->multireport->barrier );
}
agent->multireport->threads++;
Condition_Unlock( agent->multireport->barrier );
agent->report.startTime = agent->multireport->startTime;
agent->report.nextTime = agent->report.startTime;
TimeAdd( agent->report.nextTime, agent->report.intervalTime );
}
/*
* InitReport is called by a transfer agent (client or
* server) to setup the needed structures to communicate
* traffic.
*/
ReportHeader* InitReport( thread_Settings *agent ) {
ReportHeader *reporthdr = NULL;
ReporterData *data = NULL;
if ( isDataReport( agent ) ) {
/*
* Create in one big chunk
*/
reporthdr = malloc( sizeof(ReportHeader) +
NUM_REPORT_STRUCTS * sizeof(ReportStruct) );
if ( reporthdr != NULL ) {
// Only need to make sure the headers are clean
memset( reporthdr, 0, sizeof(ReportHeader));
reporthdr->data = (ReportStruct*)(reporthdr+1);
reporthdr->multireport = agent->multihdr;
data = &reporthdr->report;
reporthdr->reporterindex = NUM_REPORT_STRUCTS - 1;
data->info.transferID = agent->mSock;
data->info.groupID = (agent->multihdr != NULL ? agent->multihdr->groupID
: -1);
data->type = TRANSFER_REPORT;
if ( agent->mInterval != 0.0 ) {
struct timeval *interval = &data->intervalTime;
interval->tv_sec = (long) agent->mInterval;
interval->tv_usec = (long) ((agent->mInterval - interval->tv_sec)
* rMillion);
}
data->mHost = agent->mHost;
data->mLocalhost = agent->mLocalhost;
data->mBufLen = agent->mBufLen;
data->mMSS = agent->mMSS;
data->mTCPWin = agent->mTCPWin;
data->flags = agent->flags;
data->mThreadMode = agent->mThreadMode;
data->mode = agent->mReportMode;
data->info.mFormat = agent->mFormat;
data->info.mTTL = agent->mTTL;
if ( isUDP( agent ) ) {
reporthdr->report.info.mUDP = (char)agent->mThreadMode;
}
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
if ( isConnectionReport( agent ) ) {
if ( reporthdr == NULL ) {
/*
* Create in one big chunk
*/
reporthdr = malloc( sizeof(ReportHeader) );
if ( reporthdr != NULL ) {
// Only need to make sure the headers are clean
memset( reporthdr, 0, sizeof(ReportHeader));
data = &reporthdr->report;
data->info.transferID = agent->mSock;
data->info.groupID = -1;
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
if ( reporthdr != NULL ) {
data->type |= CONNECTION_REPORT;
data->connection.peer = agent->peer;
data->connection.size_peer = agent->size_peer;
data->connection.local = agent->local;
data->connection.size_local = agent->size_local;
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
if ( isConnectionReport( agent ) || isDataReport( agent ) ) {
#ifdef HAVE_THREAD
/*
* Update the ReportRoot to include this report.
*/
if ( reporthdr->report.mThreadMode == kMode_Client &&
reporthdr->multireport != NULL ) {
// syncronize watches on my mark......
BarrierClient( reporthdr );
} else {
if ( reporthdr->multireport != NULL && isMultipleReport( agent )) {
reporthdr->multireport->threads++;
if ( reporthdr->multireport->report->startTime.tv_sec == 0 ) {
gettimeofday( &(reporthdr->multireport->report->startTime), NULL );
}
reporthdr->report.startTime = reporthdr->multireport->report->startTime;
} else {
// set start time
gettimeofday( &(reporthdr->report.startTime), NULL );
}
reporthdr->report.nextTime = reporthdr->report.startTime;
TimeAdd( reporthdr->report.nextTime, reporthdr->report.intervalTime );
}
Condition_Lock( ReportCond );
reporthdr->next = ReportRoot;
ReportRoot = reporthdr;
Condition_Signal( &ReportCond );
Condition_Unlock( ReportCond );
#else
// set start time
gettimeofday( &(reporthdr->report.startTime), NULL );
/*
* Process the report in this thread
*/
reporthdr->next = NULL;
process_report ( reporthdr );
#endif
}
if ( !isDataReport( agent ) ) {
reporthdr = NULL;
}
return reporthdr;
}
/*
* ReportPacket is called by a transfer agent to record
* the arrival or departure of a "packet" (for TCP it
* will actually represent many packets). This needs to
* be as simple and fast as possible as it gets called for
* every "packet".
*/
void ReportPacket( ReportHeader* agent, ReportStruct *packet ) {
if ( agent != NULL ) {
int index = agent->reporterindex;
/*
* First find the appropriate place to put the information
*/
if ( agent->agentindex == NUM_REPORT_STRUCTS ) {
// Just need to make sure that reporter is not on the first
// item
while ( index == 0 ) {
Condition_Signal( &ReportCond );
Condition_Wait( &ReportDoneCond );
index = agent->reporterindex;
}
agent->agentindex = 0;
}
// Need to make sure that reporter is not about to be "lapped"
while ( index - 1 == agent->agentindex ) {
Condition_Signal( &ReportCond );
Condition_Wait( &ReportDoneCond );
index = agent->reporterindex;
}
// Put the information there
memcpy( agent->data + agent->agentindex, packet, sizeof(ReportStruct) );
// Updating agentindex MUST be the last thing done
agent->agentindex++;
#ifndef HAVE_THREAD
/*
* Process the report in this thread
*/
process_report ( agent );
#endif
}
}
/*
* CloseReport is called by a transfer agent to finalize
* the report and signal transfer is over.
*/
void CloseReport( ReportHeader *agent, ReportStruct *packet ) {
if ( agent != NULL) {
/*
* Using PacketID of -1 ends reporting
*/
packet->packetID = -1;
packet->packetLen = 0;
ReportPacket( agent, packet );
packet->packetID = agent->report.cntDatagrams;
}
}
/*
* EndReport signifies the agent no longer is interested
* in the report. Calls to GetReport will no longer be
* filled
*/
void EndReport( ReportHeader *agent ) {
if ( agent != NULL ) {
int index = agent->reporterindex;
while ( index != -1 ) {
thread_rest();
index = agent->reporterindex;
}
agent->agentindex = -1;
#ifndef HAVE_THREAD
/*
* Process the report in this thread
*/
process_report ( agent );
#endif
}
}
/*
* GetReport is called by the agent after a CloseReport
* but before an EndReport to get the stats generated
* by the reporter thread.
*/
Transfer_Info *GetReport( ReportHeader *agent ) {
int index = agent->reporterindex;
while ( index != -1 ) {
thread_rest();
index = agent->reporterindex;
}
return &agent->report.info;
}
/*
* ReportSettings will generate a summary report for
* settings being used with Listeners or Clients
*/
void ReportSettings( thread_Settings *agent ) {
if ( isSettingsReport( agent ) ) {
/*
* Create in one big chunk
*/
ReportHeader *reporthdr = malloc( sizeof(ReportHeader) );
if ( reporthdr != NULL ) {
ReporterData *data = &reporthdr->report;
data->info.transferID = agent->mSock;
data->info.groupID = -1;
reporthdr->agentindex = -1;
reporthdr->reporterindex = -1;
data->mHost = agent->mHost;
data->mLocalhost = agent->mLocalhost;
data->mode = agent->mReportMode;
data->type = SETTINGS_REPORT;
data->mBufLen = agent->mBufLen;
data->mMSS = agent->mMSS;
data->mTCPWin = agent->mTCPWin;
data->flags = agent->flags;
data->mThreadMode = agent->mThreadMode;
data->mPort = agent->mPort;
data->info.mFormat = agent->mFormat;
data->info.mTTL = agent->mTTL;
data->connection.peer = agent->peer;
data->connection.size_peer = agent->size_peer;
data->connection.local = agent->local;
data->connection.size_local = agent->size_local;
#ifdef HAVE_THREAD
/*
* Update the ReportRoot to include this report.
*/
Condition_Lock( ReportCond );
reporthdr->next = ReportRoot;
ReportRoot = reporthdr;
Condition_Signal( &ReportCond );
Condition_Unlock( ReportCond );
#else
/*
* Process the report in this thread
*/
reporthdr->next = NULL;
process_report ( reporthdr );
#endif
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
}
/*
* ReportServerUDP will generate a report of the UDP
* statistics as reported by the server on the client
* side.
*/
void ReportServerUDP( thread_Settings *agent, server_hdr *server ) {
if ( (ntohl(server->flags) & HEADER_VERSION1) != 0 &&
isServerReport( agent ) ) {
/*
* Create in one big chunk
*/
ReportHeader *reporthdr = malloc( sizeof(ReportHeader) );
Transfer_Info *stats = &reporthdr->report.info;
if ( reporthdr != NULL ) {
stats->transferID = agent->mSock;
stats->groupID = (agent->multihdr != NULL ? agent->multihdr->groupID
: -1);
reporthdr->agentindex = -1;
reporthdr->reporterindex = -1;
reporthdr->report.type = SERVER_RELAY_REPORT;
reporthdr->report.mode = agent->mReportMode;
stats->mFormat = agent->mFormat;
stats->jitter = ntohl( server->jitter1 );
stats->jitter += ntohl( server->jitter2 ) / (double)rMillion;
stats->TotalLen = (((max_size_t) ntohl( server->total_len1 )) << 32) +
ntohl( server->total_len2 );
stats->startTime = 0;
stats->endTime = ntohl( server->stop_sec );
stats->endTime += ntohl( server->stop_usec ) / (double)rMillion;
stats->cntError = ntohl( server->error_cnt );
stats->cntOutofOrder = ntohl( server->outorder_cnt );
stats->cntDatagrams = ntohl( server->datagrams );
stats->mUDP = (char)kMode_Server;
reporthdr->report.connection.peer = agent->local;
reporthdr->report.connection.size_peer = agent->size_local;
reporthdr->report.connection.local = agent->peer;
reporthdr->report.connection.size_local = agent->size_peer;
#ifdef HAVE_THREAD
/*
* Update the ReportRoot to include this report.
*/
Condition_Lock( ReportCond );
reporthdr->next = ReportRoot;
ReportRoot = reporthdr;
Condition_Signal( &ReportCond );
Condition_Unlock( ReportCond );
#else
/*
* Process the report in this thread
*/
reporthdr->next = NULL;
process_report ( reporthdr );
#endif
} else {
FAIL(1, "Out of Memory!!\n", agent);
}
}
}
/*
* This function is called only when the reporter thread
* This function is the loop that the reporter thread processes
*/
void reporter_spawn( thread_Settings *thread ) {
do {
// This section allows for safe exiting with Ctrl-C
Condition_Lock ( ReportCond );
if ( ReportRoot == NULL ) {
// Allow main thread to exit if Ctrl-C is received
thread_setignore();
Condition_Wait ( &ReportCond );
// Stop main thread from exiting until done with all reports
thread_unsetignore();
}
Condition_Unlock ( ReportCond );
again:
if ( ReportRoot != NULL ) {
ReportHeader *temp = ReportRoot;
//Condition_Unlock ( ReportCond );
if ( reporter_process_report ( temp ) ) {
// This section allows for more reports to be added while
// the reporter is processing reports without needing to
// stop the reporter or immediately notify it
Condition_Lock ( ReportCond );
if ( temp == ReportRoot ) {
// no new reports
ReportRoot = temp->next;
} else {
// new reports added
ReportHeader *itr = ReportRoot;
while ( itr->next != temp ) {
itr = itr->next;
}
itr->next = temp->next;
}
// finished with report so free it
free( temp );
Condition_Unlock ( ReportCond );
Condition_Signal( &ReportDoneCond );
if (ReportRoot)
goto again;
}
Condition_Signal( &ReportDoneCond );
usleep(10000);
} else {
//Condition_Unlock ( ReportCond );
}
} while ( 1 );
}
/*
* Used for single threaded reporting
*/
void process_report ( ReportHeader *report ) {
if ( report != NULL ) {
if ( reporter_process_report( report ) ) {
free( report );
}
}
}
/*
* Process reports starting with "reporthdr"
*/
int reporter_process_report ( ReportHeader *reporthdr ) {
int need_free = 0;
// Recursively process reports
if ( reporthdr->next != NULL ) {
if ( reporter_process_report( reporthdr->next ) ) {
// If we are done with this report then free it
ReportHeader *temp = reporthdr->next;
reporthdr->next = reporthdr->next->next;
free( temp );
}
}
if ( (reporthdr->report.type & SETTINGS_REPORT) != 0 ) {
reporthdr->report.type &= ~SETTINGS_REPORT;
return reporter_print( &reporthdr->report, SETTINGS_REPORT, 1 );
} else if ( (reporthdr->report.type & CONNECTION_REPORT) != 0 ) {
reporthdr->report.type &= ~CONNECTION_REPORT;
reporter_print( &reporthdr->report, CONNECTION_REPORT,
(reporthdr->report.type == 0 ? 1 : 0) );
if ( reporthdr->multireport != NULL && isMultipleReport( (&reporthdr->report) )) {
if ( (reporthdr->multireport->report->type & CONNECTION_REPORT) != 0 ) {
reporthdr->multireport->report->type &= ~CONNECTION_REPORT;
reporter_print( reporthdr->multireport->report, CONNECTION_REPORT,
(reporthdr->report.type == 0 ? 1 : 0) );
}
}
} else if ( (reporthdr->report.type & SERVER_RELAY_REPORT) != 0 ) {
reporthdr->report.type &= ~SERVER_RELAY_REPORT;
return reporter_print( &reporthdr->report, SERVER_RELAY_REPORT, 1 );
}
if ( (reporthdr->report.type & TRANSFER_REPORT) != 0 ) {
// If there are more packets to process then handle them
if ( reporthdr->reporterindex >= 0 ) {
// Need to make sure we do not pass the "agent"
while ( reporthdr->reporterindex != reporthdr->agentindex - 1 ) {
if ( reporthdr->reporterindex == NUM_REPORT_STRUCTS - 1 ) {
if ( reporthdr->agentindex == 0 ) {
break;
} else {
reporthdr->reporterindex = 0;
}
} else {
reporthdr->reporterindex++;
}
if ( reporter_handle_packet( reporthdr ) ) {
// No more packets to process
reporthdr->reporterindex = -1;
break;
}
}
}
// If the agent is done with the report then free it
if ( reporthdr->agentindex == -1 ) {
need_free = 1;
}
}
return need_free;
}
/*
* Updates connection stats
*/
int reporter_handle_packet( ReportHeader *reporthdr ) {
ReportStruct *packet = &reporthdr->data[reporthdr->reporterindex];
ReporterData *data = &reporthdr->report;
Transfer_Info *stats = &reporthdr->report.info;
int finished = 0;
data->cntDatagrams++;
// If this is the last packet set the endTime
if ( packet->packetID < 0 ) {
data->packetTime = packet->packetTime;
finished = 1;
if ( reporthdr->report.mThreadMode != kMode_Client ) {
data->TotalLen += packet->packetLen;
}
} else {
// update recieved amount and time
data->packetTime = packet->packetTime;
reporter_condprintstats( &reporthdr->report, reporthdr->multireport, finished );
data->TotalLen += packet->packetLen;
if ( packet->packetID != 0 ) {
// UDP packet
double transit;
double deltaTransit;
// from RFC 1889, Real Time Protocol (RTP)
// J = J + ( | D(i-1,i) | - J ) / 16
transit = TimeDifference( packet->packetTime, packet->sentTime );
if ( data->lastTransit != 0.0 ) {
deltaTransit = transit - data->lastTransit;
if ( deltaTransit < 0.0 ) {
deltaTransit = -deltaTransit;
}
stats->jitter += (deltaTransit - stats->jitter) / (16.0);
}
data->lastTransit = transit;
// packet loss occured if the datagram numbers aren't sequential
if ( packet->packetID != data->PacketID + 1 ) {
if ( packet->packetID < data->PacketID + 1 ) {
data->cntOutofOrder++;
} else {
data->cntError += packet->packetID - data->PacketID - 1;
}
}
// never decrease datagramID (e.g. if we get an out-of-order packet)
if ( packet->packetID > data->PacketID ) {
data->PacketID = packet->packetID;
}
}
}
// Print a report if appropriate
return reporter_condprintstats( &reporthdr->report, reporthdr->multireport, finished );
}
/*
* Handles summing of threads
*/
void reporter_handle_multiple_reports( MultiHeader *reporthdr, Transfer_Info *stats, int force ) {
if ( reporthdr != NULL ) {
if ( reporthdr->threads > 1 ) {
int i;
Transfer_Info *current = NULL;
// Search for start Time
for ( i = 0; i < NUM_MULTI_SLOTS; i++ ) {
current = &reporthdr->data[i];
if ( current->startTime == stats->startTime ) {
break;
}
}
if ( current->startTime != stats->startTime ) {
// Find first available
for ( i = 0; i < NUM_MULTI_SLOTS; i++ ) {
current = &reporthdr->data[i];
if ( current->startTime < 0 ) {
break;
}
}
current->cntDatagrams = stats->cntDatagrams;
current->cntError = stats->cntError;
current->cntOutofOrder = stats->cntOutofOrder;
current->TotalLen = stats->TotalLen;
current->mFormat = stats->mFormat;
current->endTime = stats->endTime;
current->jitter = stats->jitter;
current->startTime = stats->startTime;
current->free = 1;
} else {
current->cntDatagrams += stats->cntDatagrams;
current->cntError += stats->cntError;
current->cntOutofOrder += stats->cntOutofOrder;
current->TotalLen += stats->TotalLen;
current->mFormat = stats->mFormat;
if ( current->endTime < stats->endTime ) {
current->endTime = stats->endTime;
}
if ( current->jitter < stats->jitter ) {
current->jitter = stats->jitter;
}
current->free++;
if ( current->free == reporthdr->threads ) {
void *reserved = reporthdr->report->info.reserved_delay;
current->free = force;
memcpy( &reporthdr->report->info, current, sizeof(Transfer_Info) );
current->startTime = -1;
reporthdr->report->info.reserved_delay = reserved;
reporter_print( reporthdr->report, MULTIPLE_REPORT, force );
}
}
}
}
}
/*
* Prints reports conditionally
*/
int reporter_condprintstats( ReporterData *stats, MultiHeader *multireport, int force ) {
if ( force != 0 ) {
stats->info.cntOutofOrder = stats->cntOutofOrder;
// assume most of the time out-of-order packets are not
// duplicate packets, so conditionally subtract them from the lost packets.
stats->info.cntError = stats->cntError;
if ( stats->info.cntError > stats->info.cntOutofOrder ) {
stats->info.cntError -= stats->info.cntOutofOrder;
}
stats->info.cntDatagrams = (isUDP(stats) ? stats->PacketID : stats->cntDatagrams);
stats->info.TotalLen = stats->TotalLen;
stats->info.startTime = 0;
stats->info.endTime = TimeDifference( stats->packetTime, stats->startTime );
stats->info.free = 1;
reporter_print( stats, TRANSFER_REPORT, force );
if ( isMultipleReport(stats) ) {
reporter_handle_multiple_reports( multireport, &stats->info, force );
}
} else while ((stats->intervalTime.tv_sec != 0 ||
stats->intervalTime.tv_usec != 0) &&
TimeDifference( stats->nextTime,
stats->packetTime ) < 0 ) {
stats->info.cntOutofOrder = stats->cntOutofOrder - stats->lastOutofOrder;
stats->lastOutofOrder = stats->cntOutofOrder;
// assume most of the time out-of-order packets are not
// duplicate packets, so conditionally subtract them from the lost packets.
stats->info.cntError = stats->cntError - stats->lastError;
if ( stats->info.cntError > stats->info.cntOutofOrder ) {
stats->info.cntError -= stats->info.cntOutofOrder;
}
stats->lastError = stats->cntError;
stats->info.cntDatagrams = (isUDP( stats ) ? stats->PacketID - stats->lastDatagrams :
stats->cntDatagrams - stats->lastDatagrams);
stats->lastDatagrams = (isUDP( stats ) ? stats->PacketID : stats->cntDatagrams);
stats->info.TotalLen = stats->TotalLen - stats->lastTotal;
stats->lastTotal = stats->TotalLen;
stats->info.startTime = stats->info.endTime;
stats->info.endTime = TimeDifference( stats->nextTime, stats->startTime );
TimeAdd( stats->nextTime, stats->intervalTime );
stats->info.free = 0;
reporter_print( stats, TRANSFER_REPORT, force );
if ( isMultipleReport(stats) ) {
reporter_handle_multiple_reports( multireport, &stats->info, force );
}
}
return force;
}
/*
* This function handles multiple format printing by sending to the
* appropriate dispatch function
*/
int reporter_print( ReporterData *stats, int type, int end ) {
switch ( type ) {
case TRANSFER_REPORT:
statistics_reports[stats->mode]( &stats->info );
if ( end != 0 && isPrintMSS( stats ) && !isUDP( stats ) ) {
PrintMSS( stats );
}
break;
case SERVER_RELAY_REPORT:
serverstatistics_reports[stats->mode]( &stats->connection, &stats->info );
break;
case SETTINGS_REPORT:
settings_reports[stats->mode]( stats );
break;
case CONNECTION_REPORT:
stats->info.reserved_delay = connection_reports[stats->mode](
&stats->connection,
stats->info.transferID );
break;
case MULTIPLE_REPORT:
multiple_reports[stats->mode]( &stats->info );
break;
default:
fprintf( stderr, "Printing type not implemented! No Output\n" );
}
fflush( stdout );
return end;
}
/* -------------------------------------------------------------------
* Report the MSS and MTU, given the MSS (or a guess thereof)
* ------------------------------------------------------------------- */
// compare the MSS against the (MTU - 40) to (MTU - 80) bytes.
// 40 byte IP header and somewhat arbitrarily, 40 more bytes of IP options.
#define checkMSS_MTU( inMSS, inMTU ) (inMTU-40) >= inMSS && inMSS >= (inMTU-80)
void PrintMSS( ReporterData *stats ) {
int inMSS = getsock_tcp_mss( stats->info.transferID );
if ( inMSS <= 0 ) {
printf( report_mss_unsupported, stats->info.transferID );
} else {
char* net;
int mtu = 0;
if ( checkMSS_MTU( inMSS, 1500 ) ) {
net = "ethernet";
mtu = 1500;
} else if ( checkMSS_MTU( inMSS, 4352 ) ) {
net = "FDDI";
mtu = 4352;
} else if ( checkMSS_MTU( inMSS, 9180 ) ) {
net = "ATM";
mtu = 9180;
} else if ( checkMSS_MTU( inMSS, 65280 ) ) {
net = "HIPPI";
mtu = 65280;
} else if ( checkMSS_MTU( inMSS, 576 ) ) {
net = "minimum";
mtu = 576;
printf( warn_no_pathmtu );
} else {
mtu = inMSS + 40;
net = "unknown interface";
}
printf( report_mss,
stats->info.transferID, inMSS, mtu, net );
}
}
// end ReportMSS
#ifdef __cplusplus
} /* end extern "C" */
#endif