/*--------------------------------------------------------------- * 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.h * by Kevin Gibbs * * Since version 2.0 this handles all reporting. * ________________________________________________________________ */ #ifndef REPORTER_H #define REPORTER_H #include "headers.h" #include "Mutex.h" #include "histogram.h" #include "packet_ring.h" #include "gettcpinfo.h" // forward declarations found in Settings.hpp struct thread_Settings; struct server_hdr; #include "Settings.hpp" #define NUM_REPORT_STRUCTS 10000 #define PEERVERBUFSIZE 256 #define NETPOWERCONSTANT 1e-6 #define REPORTTXTMAX 80 #define MINBARRIERTIMEOUT 3 #define PARTIALPERCENT 0.25 // used to decide if a final partial report should be displayed // If the minimum latency exceeds the boundaries below // assume the clocks are not synched and suppress the // latency output. Units are seconds #define UNREALISTIC_LATENCYMINMIN -0.01*1e6 #define UNREALISTIC_LATENCYMINMAX 60*1e6 #define JITTER_BINCNT 1000000 // 1 million #define JITTER_BINWIDTH 100 // 100 usecs #define JITTER_UNITS 1e6 // usecs #define JITTER_LCI 5 // 5% #define JITTER_UCI 95 // 95% #ifdef __cplusplus extern "C" { #endif extern struct Condition ReportCond; extern struct Condition ReportsPending; extern Mutex transferid_mutex; /* * * Used for end/end latency measurements * */ struct MeanMinMaxStats { double max; double min; double sum; double last; double mean; double m2; double vd; intmax_t cnt; intmax_t err; }; #define TCPREADBINCOUNT 8 struct ReadStats { intmax_t cntRead; intmax_t totcntRead; int bins[TCPREADBINCOUNT]; int totbins[TCPREADBINCOUNT]; int binsize; }; struct WriteStats { intmax_t WriteCnt; intmax_t WriteErr; intmax_t totWriteCnt; intmax_t totWriteErr; intmax_t totWriteWarn; struct iperf_tcpstats tcpstats; }; /* * This struct contains all important information from the sending or * recieving thread. */ #define L2UNKNOWN 0x01 #define L2LENERR 0x02 #define L2CSUMERR 0x04 enum WriteErrType { WriteNoErr = 0, WriteErrAccount, WriteErrFatal, WriteErrNoAccount }; struct L2Stats { intmax_t cnt; intmax_t unknown; intmax_t udpcsumerr; intmax_t lengtherr; intmax_t tot_cnt; intmax_t tot_unknown; intmax_t tot_udpcsumerr; intmax_t tot_lengtherr; }; struct RunningMMMStats { struct MeanMinMaxStats current; struct MeanMinMaxStats total; }; /* * The type field of ReporterData is a bitmask * with one or more of the following */ enum ReportType { DATA_REPORT = 1, SUM_REPORT, SETTINGS_REPORT, CONNECTION_REPORT, SERVER_RELAY_REPORT }; enum ReportSubType { FULLDUPLEXSUM_REPORT = 1, HOSTSUM_REPORT, TOTALSUM_REPORT }; union SendReadStats { struct ReadStats read; struct WriteStats write; }; // This attributes are shared by all reports // deep copies are made when creating a new report // rather than using references struct ReportCommon { enum ThreadMode ThreadMode; enum ReportMode ReportMode; bool KeyCheck; int flags; int flags_extend; int flags_extend2; int threads; unsigned short Port; unsigned short PortLast; unsigned short BindPort; unsigned short ListenPort; intmax_t AppRate; // -b or -u uint32_t BurstSize; int AppRateUnits; char Format; int TTL; int BufLen; int MSS; int TCPWin; int TOS; int RTOS; #if HAVE_DECL_TCP_WINDOW_CLAMP int ClampSize; #endif #if HAVE_DECL_TCP_NOTSENT_LOWAT int WritePrefetch; #endif int winsize_requested; unsigned int FQPacingRate; int HistBins; int HistBinsize; int HistUnits; double pktIPG; iperf_sockaddr peer; Socklen_t size_peer; iperf_sockaddr local; Socklen_t size_local; char* Host; // -c char* HideHost; char* Localhost; // -B char* Ifrname; char* Ifrnametx; char* SSMMulticastStr; char* Congestion; char* transferIDStr; char* PermitKey; int transferID; double rtt_weight; double ListenerTimeout; double FPS; int bbsize; int bbhold; int bbcount; int jitter_binwidth; #if WIN32 SOCKET socket; #else int socket; #if defined(HAVE_LINUX_FILTER_H) && defined(HAVE_AF_PACKET) int socketdrop; #endif #endif }; struct ConnectionInfo { struct ReportCommon *common; struct timeval connect_timestamp; struct timeval txholdbacktime; struct timeval epochStartTime; int winsize; char peerversion[PEERVERBUFSIZE]; struct MeanMinMaxStats connect_times; struct iperf_tcpstats tcpinitstats; }; struct ShiftIntCounter { intmax_t current; intmax_t prev; }; struct ShiftUintCounter { uintmax_t current; uintmax_t prev; }; struct ShiftCounters { struct ShiftUintCounter Bytes; struct ShiftIntCounter Lost; struct ShiftIntCounter OutofOrder; struct ShiftIntCounter Datagrams; struct ShiftIntCounter IPG; }; struct IsochStats { double mFPS; //frames per second double mMean; //variable bit rate mean double mVariance; //vbr variance int mJitterBufSize; //Server jitter buffer size, units is frames uintmax_t cntFrames; uintmax_t cntFramesMissed; uintmax_t cntSlips; struct ShiftUintCounter slipcnt; struct ShiftUintCounter framecnt; struct ShiftUintCounter framelostcnt; unsigned int mBurstInterval; unsigned int mBurstIPG; //IPG of packets within the burst uint32_t frameID; struct RunningMMMStats transit; int newburst; }; struct ReportSettings { struct ReportCommon *common; iperf_sockaddr peer; Socklen_t size_peer; iperf_sockaddr local; Socklen_t size_local; int pid; int sockmaxseg; struct IsochStats isochstats; void (*output_handler) (struct ReportSettings *settings); }; // Timestamps enum TimeStampType { INTERVAL = 0, FINALPARTIAL, TOTAL, INTERVALPARTIAL }; struct ReportTimeStamps { double iStart; double iEnd; double significant_partial; struct timeval startTime; struct timeval matchTime; struct timeval packetTime; struct timeval prevpacketTime; struct timeval prevsendTime; struct timeval nextTime; struct timeval intervalTime; struct timeval IPGstart; struct timeval nextTCPSampleTime; }; struct TransferInfo { struct ReportCommon *common; struct ReportTimeStamps ts; void (*output_handler) (struct TransferInfo *stats); int groupID; int threadcnt; bool isMaskOutput; uintmax_t cntBytes; intmax_t cntError; intmax_t cntOutofOrder; intmax_t cntDatagrams; intmax_t cntIPG; intmax_t PacketID; double jitter; double IPGsum; struct ShiftCounters total; // Shift counters used to calculate interval reports and hold totals union SendReadStats sock_callstats; struct IsochStats isochstats; struct histogram *latency_histogram; struct histogram *jitter_histogram; struct RunningMMMStats transit; struct RunningMMMStats inline_jitter; // per RTP inline calc struct histogram *framelatency_histogram; struct RunningMMMStats frame; // isochronous frame or msg burst struct histogram *bbrtt_histogram; struct RunningMMMStats bbrtt; struct RunningMMMStats bbowdto; struct RunningMMMStats bbowdfro; struct RunningMMMStats bbasym; struct MeanMinMaxStats schedule_error; struct L2Stats l2counts; // Packet and frame state info uint32_t matchframeID; uint32_t frameID; char csv_peer[CSVPEERLIMIT]; bool final; bool burstid_transition; bool isEnableTcpInfo; struct RunningMMMStats write_mmm; struct histogram *write_histogram; double iBBrunning; double fBBrunning; double iInP; double fInP; double iInPVar; double fInPVar; }; struct SumReport { struct ReferenceMutex reference; int threads; int threads_cntr_fsum; struct TransferInfo info; void (*transfer_protocol_sum_handler) (struct TransferInfo *stats, int final); struct BarrierMutex fullduplex_barrier; int sum_fd_set; bool sum_reverse_set; }; struct ReporterData { // function pointer for per packet processing void (*packet_handler_pre_report) (struct ReporterData *data, struct ReportStruct *packet); void (*packet_handler_post_report) (struct ReporterData *data, struct ReportStruct *packet); void (*transfer_protocol_handler) (struct ReporterData *data, int final); int (*transfer_interval_handler) (struct ReporterData *data, struct ReportStruct *packet); struct PacketRing *packetring; int reporter_thread_suspends; // used to detect CPU bound systems // group sum and full duplext reports struct SumReport *GroupSumReport; struct SumReport *FullDuplexReport; struct TransferInfo info; }; struct ServerRelay { struct TransferInfo info; iperf_sockaddr peer; Socklen_t size_peer; iperf_sockaddr local; Socklen_t size_local; }; struct ReportHeader { enum ReportType type; enum ReportMode ReportMode; void *this_report; struct ReportHeader *next; }; typedef void* (* report_connection)( struct ConnectionInfo*, int ); typedef void (* report_settings)( struct ReporterData* ); typedef void (* report_statistics)( struct TransferInfo* ); typedef void (* report_serverstatistics)( struct ConnectionInfo *, struct TransferInfo* ); void SetSumHandlers (struct thread_Settings *inSettings, struct SumReport* sumreport); struct SumReport* InitSumReport(struct thread_Settings *inSettings, int inID, int fullduplex); struct ReportHeader* InitIndividualReport(struct thread_Settings *inSettings); struct ReportHeader* InitConnectionReport(struct thread_Settings *inSettings); struct ConnectionInfo* InitConnectOnlyReport(struct thread_Settings *thread); struct ReportHeader *InitSettingsReport(struct thread_Settings *inSettings); struct ReportHeader* InitServerRelayUDPReport(struct thread_Settings *inSettings, struct server_hdr *server); void PostReport(struct ReportHeader *reporthdr); bool ReportPacket (struct ReporterData* data, struct ReportStruct *packet); int EndJob(struct ReportHeader *reporthdr, struct ReportStruct *packet); void FreeReport(struct ReportHeader *reporthdr); void FreeSumReport (struct SumReport *sumreport); void FreeConnectionReport(struct ConnectionInfo *reporthdr); void ReportServerUDP(struct thread_Settings *inSettings, struct server_hdr *server); void ReportConnections(struct thread_Settings *inSettings ); void reporter_dump_job_queue(void); void IncrSumReportRefCounter(struct SumReport *sumreport); int DecrSumReportRefCounter(struct SumReport *sumreport); extern struct AwaitMutex reporter_state; extern struct AwaitMutex threads_start; extern report_connection connection_reports[]; extern report_settings settings_reports[]; extern report_statistics statistics_reports[]; extern report_serverstatistics serverstatistics_reports[]; extern report_statistics multiple_reports[]; // The packet or read/write accounting routines used by the reporter thread // They're function vectors called from the reporter loop via // this_ireport->packet_handler_pre_report or this_ireport->packet_handler_post_report // The vectors are set during report instantiation in Reports.c // Note that client packet handling is the same for TCP and UDP void reporter_handle_packet_null(struct ReporterData *data, struct ReportStruct *packet); void reporter_handle_packet_client(struct ReporterData *data, struct ReportStruct *packet); void reporter_handle_packet_server_udp(struct ReporterData *data, struct ReportStruct *packet); void reporter_handle_packet_server_tcp(struct ReporterData *data, struct ReportStruct *packet); void reporter_handle_packet_bb_client(struct ReporterData *data, struct ReportStruct *packet); void reporter_handle_packet_bb_server(struct ReporterData *data, struct ReportStruct *packet); // Reporter thread's conditional prints of interval reports // Invoked from the Reporter thread per function vector this_ireport->transfer_interval_handler // This is set during Report instantiation (found in Reports.c) // These conditionally, e.g per a sample interval, invoke the transfer protocol handlers int reporter_condprint_time_interval_report(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_frame_interval_report_client_udp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_frame_interval_report_server_udp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_frame_interval_report_server_tcp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_frame_interval_report_client_tcp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_burst_interval_report_client_udp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_burst_interval_report_server_udp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_burst_interval_report_server_tcp(struct ReporterData *data, struct ReportStruct *packet); int reporter_condprint_burst_interval_report_client_tcp(struct ReporterData *data, struct ReportStruct *packet); // Each report type needs specialized updating prior to printing its report // These functions realize that updating. They are called by the transfer protocol handler, // e.g. (*data->transfer_protocol_handler)(data, 0) found in src/Reporter.c // These update the TransferInfo stats struct which is used during output (e.g. the output handler) void reporter_transfer_protocol_null(struct ReporterData *data, int final); void reporter_transfer_protocol_client_tcp(struct ReporterData *data, int final); void reporter_transfer_protocol_client_bb_tcp(struct ReporterData *data, int final); void reporter_transfer_protocol_client_udp(struct ReporterData *data, int final); void reporter_transfer_protocol_server_tcp(struct ReporterData *data, int final); void reporter_transfer_protocol_server_bb_tcp(struct ReporterData *data, int final); void reporter_transfer_protocol_server_udp(struct ReporterData *data, int final); // Function vectors to suppport sum reports void reporter_transfer_protocol_sum_client_tcp(struct TransferInfo *stats, int final); void reporter_transfer_protocol_sum_server_tcp(struct TransferInfo *stats, int final); void reporter_transfer_protocol_sum_client_udp(struct TransferInfo *stats, int final); void reporter_transfer_protocol_sum_server_udp(struct TransferInfo *stats, int final); void reporter_transfer_protocol_fullduplex_tcp(struct TransferInfo *stats, int final); void reporter_transfer_protocol_fullduplex_udp(struct TransferInfo *stats, int final); // Report output print routines invoked by the transfer_protocol handler // Bound in Report instantiation and invoked by the transfer protocol // handler, using (*stats->output_handler)(stats) // TCP server void tcp_output_read(struct TransferInfo *stats); void tcp_output_read_enhanced(struct TransferInfo *stats); void tcp_output_read_triptime(struct TransferInfo *stats); void tcp_output_sum_read(struct TransferInfo *stats); void tcp_output_sum_read_enhanced(struct TransferInfo *stats); void tcp_output_sumcnt_read(struct TransferInfo *stats); void tcp_output_sumcnt_read_enhanced (struct TransferInfo *stats); void tcp_output_sumcnt_read_triptime (struct TransferInfo *stats); void tcp_output_frame_read(struct TransferInfo *stats); void tcp_output_frame_read_triptime(struct TransferInfo *stats); void tcp_output_burst_read(struct TransferInfo *stats); void tcp_output_read_enhanced_isoch(struct TransferInfo *stats); // TCP client void tcp_output_write(struct TransferInfo *stats); void tcp_output_burst_write(struct TransferInfo *stats); void tcp_output_sum_write(struct TransferInfo *stats); void tcp_output_sumcnt_write(struct TransferInfo *stats); void tcp_output_write_enhanced (struct TransferInfo *stats); void tcp_output_write_enhanced_isoch (struct TransferInfo *stats); void tcp_output_sum_write_enhanced (struct TransferInfo *stats); void tcp_output_sumcnt_write_enhanced (struct TransferInfo *stats); void tcp_output_write_enhanced_write (struct TransferInfo *stats); void tcp_output_write_bb(struct TransferInfo *stats); // TCP fullduplex void tcp_output_fullduplex(struct TransferInfo *stats); void tcp_output_fullduplex_enhanced(struct TransferInfo *stats); void tcp_output_fullduplex_sum (struct TransferInfo *stats); // UDP server void udp_output_read(struct TransferInfo *stats); void udp_output_read_enhanced(struct TransferInfo *stats); void udp_output_read_triptime(struct TransferInfo *stats); void udp_output_read_triptime_isoch(struct TransferInfo *stats); void udp_output_sum_read(struct TransferInfo *stats); void udp_output_sum_read_enhanced (struct TransferInfo *stats); void udp_output_sumcnt(struct TransferInfo *stats); void udp_output_sumcnt_read_enhanced (struct TransferInfo *stats); //UDP client void udp_output_write(struct TransferInfo *stats); void udp_output_sum_write(struct TransferInfo *stats); void udp_output_write_enhanced(struct TransferInfo *stats); void udp_output_write_enhanced_isoch(struct TransferInfo *stats); void udp_output_sum_write_enhanced (struct TransferInfo *stats); void udp_output_sumcnt_write(struct TransferInfo *stats); void udp_output_sumcnt_write_enhanced (struct TransferInfo *stats); void udp_output_sumcnt_enhanced(struct TransferInfo *stats); void udp_output_sumcnt_read_triptime(struct TransferInfo *stats); // UDP full duplex void udp_output_fullduplex(struct TransferInfo *stats); void udp_output_fullduplex_enhanced(struct TransferInfo *stats); void udp_output_fullduplex_sum(struct TransferInfo *stats); // CSV output void udp_output_basic_csv(struct TransferInfo *stats); void udp_output_enhanced_csv(struct TransferInfo *stats); void tcp_output_basic_csv(struct TransferInfo *stats); void tcp_output_read_enhanced_csv(struct TransferInfo *stats); void tcp_output_write_enhanced_csv(struct TransferInfo *stats); // The report output routines that are simpler and aren't related to stats void reporter_print_connection_report(struct ConnectionInfo *report); void reporter_print_settings_report(struct ReportSettings *report); void reporter_print_server_relay_report(struct ServerRelay *report); void reporter_peerversion (struct ConnectionInfo *report, uint32_t upper, uint32_t lower); void PrintMSS(struct ReporterData *data); void reporter_default_heading_flags(int); void reporter_connect_printf_tcp_final(struct ConnectionInfo *report); void write_UDP_AckFIN(struct TransferInfo *stats, int len); int reporter_process_transfer_report (struct ReporterData *this_ireport); int reporter_process_report (struct ReportHeader *reporthdr); void setTransferID(struct thread_Settings *inSettings, int role_reversal); void format_ips_port_string (struct TransferInfo *stats, bool sum); #ifdef __cplusplus } /* end extern "C" */ #endif #endif // REPORTER_H