http://isoredirect.centos.org/centos/6/isos/x86_64/
--- Original Message ---
From: "kumar uppu" <kumar94...@gmail.com>
Sent: October 21, 2014 10:51 AM
To: kaan.dan...@gmail.com
Cc: "Gunes Kurt" <gk...@itu.edu.tr>, "Ibrahim Hokelek, (BİLGEM-UEKAE)"
<ibrahim.hoke...@tubitak.gov.tr>, sipp-users@lists.sourceforge.net
Subject: Re: [Sipp-users] doReport.pl errors
HI guys,
can any please send a link for downloading fedora 6
Thanks
Kumar
On Tue, Oct 21, 2014 at 1:16 AM, <kaan.dan...@gmail.com> wrote:
> Hi all,
>
> I have finished IMS-Bench - OpenSIPS-OpenIMS integration.
>
> Now I would like to have reports for the scenario. But I have some
> problems with reports.
>
> Below you can find output for doReport.pl , there are some errors.
>
> And in the report.html some plots are missing.
>
> root@ubuntu:/opt/ims_bench/ims_bench_0# ../scripts/doReport.pl -i
> ims_bench.xml
> Loading data from report.xml
> Test Date: 15-Jul-2014 13:25
> Test Duration: 197.035
> Number of SUTs: 1
> Number of Test Systems: 1
> Number of steps: 7
> File=>CALL_DURATION.dat, Name=>CALL_DURATION, m_id=>3
> File=>PX_TRT-PMM1.dat, Name=>PX_TRT-PMM1, m_id=>0
> File=>PX_TRT-REG1.dat, Name=>PX_TRT-REG1, m_id=>0
> File=>PX_TRT-REG1_ims_reg.dat, Name=>PX_TRT-REG1, m_id=>0,
> scenario_name=>ims_reg , s_id=>2, uid = 0
> File=>PX_TRT-REG1_ims_dereg.dat, Name=>PX_TRT-REG1, m_id=>0,
> scenario_name=>ims_dereg , s_id=>3, uid = 0
> File=>PX_TRT-REG2.dat, Name=>PX_TRT-REG2, m_id=>1
> File=>PX_TRT-REG2_ims_reg.dat, Name=>PX_TRT-REG2, m_id=>1,
> scenario_name=>ims_reg , s_id=>2, uid = 0
> File=>PX_TRT-REG2_ims_dereg.dat, Name=>PX_TRT-REG2, m_id=>1,
> scenario_name=>ims_dereg , s_id=>3, uid = 0
> File=>PX_TRT-REG4.dat, Name=>PX_TRT-REG4, m_id=>0
> File=>PX_TRT-REL1.dat, Name=>PX_TRT-REL1, m_id=>2
> File=>PX_TRT-SES1.dat, Name=>PX_TRT-SES1, m_id=>0
> File=>PX_TRT-SES2.dat, Name=>PX_TRT-SES2, m_id=>1
> File=>PX_TRT-REG2_no_use_case.dat, Name=>PX_TRT-REG2, m_id=>1,
> scenario_name=>ims_reg, s_id=>2, uid = 0
> File=>PX_TRT-REG2_no_use_case.dat, Name=>PX_TRT-REG2, m_id=>1,
> scenario_name=>ims_dereg, s_id=>3, uid = 0
> File=>PX_TRT-REG1_no_use_case.dat, Name=>PX_TRT-REG1, m_id=>0,
> scenario_name=>ims_reg, s_id=>2, uid = 0
> File=>PX_TRT-REG1_no_use_case.dat, Name=>PX_TRT-REG1, m_id=>0,
> scenario_name=>ims_dereg, s_id=>3, uid = 0
> 8 metrics in total; 1 use cases
> 2 'per scenario' metrics
> 4 'per use case' metrics
> Now looking at step 0...1...2...
> Building Temporary Files from sipp.csv took 0.01 sBuild retransmit from
> sipp.csv took 0.00 sec
> Step 0 (run 0) report=0 show_in_tables=1 show_histograms=0
> doc_step=0 over_ihs=0 label="pre-reg"
> Step 1 (run 2) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 1"
> Step 2 (run 3) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 2"
> Step 3 (run 3) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 3"
> Step 4 (run 3) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 4"
> Step 5 (run 3) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 5"
> Step 6 (run 3) report=0 show_in_tables=0 show_histograms=0
> doc_step=0 over_ihs=0 label="step 6"
> Failure step will be displayed: runtime changed from 197.035 to 196.098
> SAPS ready to be plotted
> => (SAPS, , ) using SAPS.dat, 2
>
> set terminal png small size 1200 , 400
> CPU ready to be plotted
> => (CPU, , ) using cpumem2_0.csv, 2
> => nothing to plot (Failed to open cpumem2_0.csv)
> MEM ready to be plotted
> => (MEM, , ) using cpumem2_0.csv, 3
> => nothing to plot (Failed to open cpumem2_0.csv)
> ALL-SIPP-CPU ready to be plotted
> ^
> "SAPS-meantime.png.gpl", line 2: => (ALL-SIPP-CPU, , ) using
> sipp_TS1_cpumem2.csv, 2
> unknown or ambiguous terminal type; type just 'set terminal' for a list
>
> => (SAPS, , ) using SAPS.dat, 2
> ALL-SIPP-MEM ready to be plotted
> => (ALL-SIPP-MEM, , ) using sipp_TS1_cpumem2.csv, 3
> => (SAPS, , ) using SAPS.dat, 2
> IHS ready to be plotted
> => (IHS, , ) using IHS.dat, 2
> DOC not reached = 1.66666666666667
> => (SAPS, , ) using SAPS.dat, 2
> RETRANSMIT ready to be plotted
> => (RETRANSMIT, , ) using retrans.dat, 2
> => (SAPS, , ) using SAPS.dat, 2
>
> set terminal png small size 1200 , 400
> ^
> "ALL-SIPP-CPU-normaltime.png.gpl", line 4: unknown or ambiguous terminal
> type; type just 'set terminal' for a list
>
>
> set terminal png small size 1200 , 400
> PX_TRT-REG1 ready to be plotted
> ^
> "ALL-SIPP-MEM-normaltime.png.gpl", line 4: unknown or ambiguous terminal
> type; type just 'set terminal' for a list
>
> => (PX_TRT-REG1, , Registration) using PX_TRT-REG1.dat, 2
>
> set terminal png small size 1200 , 400
> ^
> "IHS-normaltime.png.gpl", line 4: unknown or ambiguous terminal type; type
> just 'set terminal' for a list
>
>
> set terminal png small size 1200 , 400
> ^
> "RETRANSMIT-normaltime.png.gpl", line 4: unknown or ambiguous terminal
> type; type just 'set terminal' for a list
>
> => use_case Registration not defined in report.xml => using total SAPS
> instead
> => (SAPS, , Registration) using SAPS.dat, 2
> PX_TRT-REG2 ready to be plotted
> => (PX_TRT-REG2, , Registration) using PX_TRT-REG2.dat, 2
>
> set terminal png small size 1200 , 400
> ^
> "PX_TRT-REG1Registration-meantime.png.gpl", line 4: unknown or ambiguous
> terminal type; type just 'set terminal' for a list
>
> => use_case Registration not defined in report.xml => using total SAPS
> instead
> => (SAPS, , Registration) using SAPS.dat, 2
> RETRANSMIT ims_reg ready to be plotted
> => (RETRANSMIT, ims_reg, Registration) using retrans.dat, 5
> => (SAPS, ims_reg, Registration) using SAPS.dat, 5
>
> set terminal png small size 1200 , 400
> ^
> "PX_TRT-REG2Registration-meantime.png.gpl", line 4: unknown or ambiguous
> terminal type; type just 'set terminal' for a list
>
> PX_TRT-REG1 ims_reg ready to be plotted
> => (PX_TRT-REG1, ims_reg, Registration) using PX_TRT-REG1_ims_reg.dat, 2
>
> set terminal png small size 1200 , 400
> ^
> "RETRANSMITRegistrationims_reg-normaltime.png.gpl", line 4: unknown or
> ambiguous terminal type; type just 'set terminal' for a list
>
> => (SAPS, ims_reg, Registration) using SAPS.dat, 5
> PX_TRT-REG4 ims_rereg ready to be plotted
> => (PX_TRT-REG4, ims_rereg, Registration) using PX_TRT-REG4.dat, 2
> => nothing to plot ()
> PX_TRT-REG1 ims_dereg ready to be plotted
> => (PX_TRT-REG1, ims_dereg, Registration) using
> PX_TRT-REG1_ims_dereg.dat, 2
> => nothing to plot ()
> PX_TRT-SES1 ready to be plotted
> => (PX_TRT-SES1, , Calling) using PX_TRT-SES1.dat, 2
> => nothing to plot ()
> PX_TRT-SES2 ready to be plotted
> => (PX_TRT-SES2, , Calling) using PX_TRT-SES2.dat, 2
> => nothing to plot ()
> PX_TRT-REL1 ready to be plotted
> => (PX_TRT-REL1, , Calling) using PX_TRT-REL1.dat, 2
>
> set terminal png small size 1200 , 400
> ^
> "PX_TRT-REG1Registrationims_reg-meantime.png.gpl", line 4: unknown or
> ambiguous terminal type; type just 'set terminal' for a list
>
> => use_case Calling not defined in report.xml => using total SAPS instead
> => (SAPS, , Calling) using SAPS.dat, 2
> PX_TRT-SES3 ready to be plotted
> => (PX_TRT-SES3, , Calling) using PX_TRT-SES3.dat, 2
> => nothing to plot (Failed to open PX_TRT-SES3.dat)
> RETRANSMIT ims_uac ready to be plotted
> => (RETRANSMIT, ims_uac, Calling) using retrans.dat, 3
>
> set terminal png small size 1200 , 400
> ^
> "PX_TRT-REL1Calling-meantime.png.gpl", line 4: unknown or ambiguous
> terminal type; type just 'set terminal' for a list
>
> => (SAPS, ims_uac, Calling) using SAPS.dat, 3
> IHS ims_uac ready to be plotted
> => (IHS, ims_uac, Calling) using IHS.dat, 3
> => (SAPS, ims_uac, Calling) using SAPS.dat, 3
> PX_TRT-PMM1 ready to be plotted
> => (PX_TRT-PMM1, , Messaging) using PX_TRT-PMM1.dat, 2
> => nothing to plot ()
> PX_TRT-PMM2 ready to be plotted
> => (PX_TRT-PMM2, , Messaging) using PX_TRT-PMM2.dat, 2
> => nothing to plot (Failed to open PX_TRT-PMM2.dat)
> set terminal png small size 1200 , 400
> ^
> "RETRANSMITCallingims_uac-normaltime.png.gpl", line 4: unknown or
> ambiguous terminal type; type just 'set terminal' for a list
>
> Waiting for all (12) gnuplot fork to be completed
>
> set terminal png small size 1200 , 400
> ^
> "IHSCallingims_uac-normaltime.png.gpl", line 4: unknown or ambiguous
> terminal type; type just 'set terminal' for a list
>
> Unable to open file (SAPS-meantime.png): No such file or directory at
> ../scripts/html2mht.pl line 139, <> line 361.
>
> *report.html*
>
>
> Test Report (ubuntu-vm)
> Summary
>
> This report shows the result of a benchmark run performed by "IMS Bench
> SIPp", an implementation of the IMS/NGN Performance Benchmark suite, ETSI
> TS 186.008.
>
> The test was started on 15-Jul-2014 13:25, and the total time for the test
> execution was 0h 3m 17s. The Design Objective Capacity (DOC) has not been
> reached. The DOC is >= 1 scenarios per second.
>
> The following systems and parameters were used for the test. The full list
> of IMS benchmark parameters can be found in Appendix.
> Role Server IP Nb Users
> SUT 1 ubuntu-vm 192.168.2.5
> Manager ubuntu 127.0.1.1
> TS1 ubuntu 192.168.2.11 100
>
> Parameter Name Parameter Value Parameter Info
> RingTime 5000 Ringing Time (ms)
> HoldTime 120000 Conversation Time (ms)
> RegistrationExpire 1000000 Registration Timeout (ms)
> TransientTime 30 Time after the start of a step for which data is ignored
> (in seconds)
>
> The following table shows the average of the key measurements for each
> step of the test. Each steps is characterized by the requested load, the
> effective load, the global IHS (total of all Inadequately handled scenarios
> for this step divided by number of Session Attempts for this step) the
> scenario IHS (number of inadequately handled scenarios for this step
> divided by the number of scenario attempts for this step), the CPU
> utilization and the available Memory on the SUT. The available Memory is
> expressed in MegaBytes, and the requested and effective loads in Scenarios
> Attempts Per Seconds (SAPS).
>
> Note that the IHS percentages represented in this table are the number of
> failures for a step divided by the number of scenario attempts for this
> step, and so is not the average of (IHS per seconds)
> Pre-registration
> Requested load 1
> Effective Load 0.90
> Ratio ims_reg % 100.00
> SIPP CPU ubuntu 8.46
> SIPP MEM ubuntu 409.23
> global IHS % 0.00
>
> The following chapters show details on different measurement, like delay
> between two messages, response time or number of messages per seconds.
> Each measurement can be represented in one of the four following forms.
>
> Evolution in function of the time. On such graphs, the raw information
> is plotted, like number of messages per seconds, or response time of each
> scenario. This graph is useful in giving for instance a good idea on the
> distribution of response times, and it's evolution over the time.
> Evolution (mean) in function of the time. While previous graph gives a
> good indication, it may sometimes be easier to see the evolution of the
> mean of the measurement over a second in function of the time.
> Histogram. This graph shows the histogram of the measurement, so how
> many times each value of the measurement occured.
> Probability. This graph gives the probability of the measurement to be
> higher than a certain value. This graph can be used to determine percentile
> for instances.
>
> For some graphs, a cubic Bezier curve is plotted as well.
>
> 1 Scenario Attempts Per Second
> 1.1 Scenario Attempts Per Second (Mean per second)
> 2 SUT CPU %
> 3 SUT Available Memory [MB]
> 4 ALL SIPP CPU %
> 4.1 ALL SIPP CPU % over time
> 5 ALL SIPP Free Memory [MB]
> 5.1 ALL SIPP Free Memory [MB] over time
> 6 Inadequately handled scenario Percentage
> 6.1 Inadequately handled scenario Percentage over time
> 7 Scenario retransmissions - all scenarios
> 7.1 Scenario retransmissions - all scenarios over time
> 7 Registration
> 7.1 PX_TRT-REG1: Time of the first register transaction
> 7.1.1 PX_TRT-REG1: Time of the first register transaction(Registration
> use case) (Mean per second)
> 7.2 PX_TRT-REG2: Time of the second register transaction
> 7.2.1 PX_TRT-REG2: Time of the second register
> transaction(Registration use case) (Mean per second)
> 7.3 ims_reg : Scenario retransmissions
> 7.3.1 Scenario retransmissions(ims_reg scenario) over time
> 7.4 ims_reg : PX_TRT-REG1: Time of the first register transaction
> 7.4.1 PX_TRT-REG1: Time of the first register transaction(ims_reg
> scenario) (Mean per second)
> 7.5 ims_rereg : Time of the re-register transaction
> 7.6 ims_dereg : PX_TRT-REG1: Time of the first register transaction
> 8 Calling
> 8.1 PX_TRT-SES1: Session Setup Time
> 8.2 PX_TRT-SES2: Session Initiation transversal time
> 8.3 PX_TRT-REL1: Delay Between BYE and 200 OK
> 8.3.1 PX_TRT-REL1: Delay Between BYE and 200 OK (Calling use case)
> (Mean per second)
> 8.4 PX_TRT-SES3: INVITE and re-INVITE cost
> 8.5 ims_uac : Scenario retransmissions
> 8.5.1 Scenario retransmissions(ims_uac scenario) over time
> 8.6 ims_uac : Inadequately handled scenario Percentage
> 8.6.1 Inadequately handled scenario Percentage(ims_uac scenario) over
> time
> 9 Messaging
> 9.1 PX_TRT-PMM1: Message Transmission time
> 9.2 PX_TRT-PMM2: Message Transmission time (error case)
> Appendix
>
> 1 Scenario Attempts Per Second Index
>
> This graph represents the number of scenario per seconds generated by the
> test system. For each step, the generation was based on a Poisson.
> Effective Load
> Step Requested Load Mean Variance Standard
> Deviation Minimum Maximum Percentile 50 Percentile 90 Percentile 95
> Percentile 99
> Pre-reg 1 0.90 0.09 0.30 0.00 1.00 1.0 1.0 1.0 1.0
> 1.1 Scenario Attempts Per Second (Mean per second) Index
> SAPS-meantime.png text
> 2 SUT CPU % Index
>
> This graph represents the CPU of the system under test (SUT).
> 3 SUT Available Memory [MB] Index
>
> This graph represents the Available memory on the system under test, in
> MBytes (SUT).
> 4 ALL SIPP CPU % Index
>
> This graph represents the CPU of SIPP on ALL Test Machines
> SIPP CPU ubuntu
> Step Requested Load Mean Standard Deviation Minimum Maximum
> Pre-reg 1 8.46 2.99 4.02 14.50
> 4.1 ALL SIPP CPU % over time Index
> ALL-SIPP-CPU-normaltime.png text
> 5 ALL SIPP Free Memory [MB] Index
>
> This graph represents the free memory of SIPP on ALL Test Machines, in
> MBytes
> SIPP MEM ubuntu
> Step Requested Load Mean Standard Deviation Minimum Maximum
> Pre-reg 1 409.23 0.06 409.17 409.36
> 5.1 ALL SIPP Free Memory [MB] over time Index
> ALL-SIPP-MEM-normaltime.png text
> 6 Inadequately handled scenario Percentage Index
>
> This graph represents the percentage of inadequately handled scenarios.
> IHS per use_case %
> Step Requested Load Mean Standard Deviation Minimum Maximum
> Pre-reg 1 0.00 0.00 0.00 0.00
> 6.1 Inadequately handled scenario Percentage over time Index
> IHS-normaltime.png text
> 7 Scenario retransmissions - all scenarios Index
>
> This graph represents the number of retransmissions per seconds for all
> scenarios.
> RETRANSMIT
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 0.00 0.00 0.00 0.00 0.0 0.0 0.0 0.0
> 7.1 Scenario retransmissions - all scenarios over time Index
> RETRANSMIT-normaltime.png text
> 7 Registration Index
> 7.1 PX_TRT-REG1: Time of the first register transaction Index
>
> This graph represents the time of the first register transaction in the
> registration use_cases i.e. the time between the REGISTER and the 401
> Unautorized for all scenarios in the Registration use_case.
> PX_TRT-REG1 (msec)
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 55.02 28.81 24.85 106.49 37.2 106.4 106.4 106.4
> 7.1.1 PX_TRT-REG1: Time of the first register transaction(Registration use
> case) (Mean per second) Index
> PX_TRT-REG1Registration-meantime.png text
> 7.2 PX_TRT-REG2: Time of the second register transaction Index
>
> This graph represents the time of the second register transaction in the
> registration use_cases, i.e. the delay between the second REGISTER and the
> 200 OK.
> PX_TRT-REG2 (msec)
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 53.55 21.82 23.82 105.00 49.5 105.0 105.0 105.0
> 7.2.1 PX_TRT-REG2: Time of the second register transaction(Registration
> use case) (Mean per second) Index
> PX_TRT-REG2Registration-meantime.png text
> 7.3 ims_reg : Scenario retransmissions Index
>
> This graph represents the number of retransmissions per seconds for this
> scenario.
> RETRANSMIT
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 0.00 0.00 0.00 0.00 0.0 0.0 0.0 0.0
> 7.3.1 Scenario retransmissions(ims_reg scenario) over time Index
> RETRANSMITRegistrationims_reg-normaltime.png text
> 7.4 ims_reg : PX_TRT-REG1: Time of the first register transaction Index
>
> This graph represents the time of the first register transaction i.e. the
> time between the REGISTER and the 401 Unautorized.
> PX_TRT-REG1 (msec)
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 55.02 28.81 24.85 106.49 37.2 106.4 106.4 106.4
> 7.4.1 PX_TRT-REG1: Time of the first register transaction(ims_reg
> scenario) (Mean per second) Index
> PX_TRT-REG1Registrationims_reg-meantime.png text
> 7.5 ims_rereg : Time of the re-register transaction Index
>
> This graph represents the time of re-register transaction i.e. the time
> between the REGISTER and the 200 OK.
> 7.6 ims_dereg : PX_TRT-REG1: Time of the first register transaction Index
>
> This graph represents the time of the first register transaction i.e. the
> time between the REGISTER and the 401 Unautorized.
> 8 Calling Index
> 8.1 PX_TRT-SES1: Session Setup Time Index
>
> This graph represents the delay between the Caller sending INVITE and
> callee receiving ACK.
> 8.2 PX_TRT-SES2: Session Initiation transversal time Index
>
> This graph represents the delay between the caller sending INVITE and the
> callee receiving INVITE.
> 8.3 PX_TRT-REL1: Delay Between BYE and 200 OK Index
>
> This graph represents the delay between the first BYE and the
> corresponding 200 OK.
> PX_TRT-REL1 (msec)
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> 8.3.1 PX_TRT-REL1: Delay Between BYE and 200 OK (Calling use case) (Mean
> per second) Index
> PX_TRT-REL1Calling-meantime.png text
> 8.4 PX_TRT-SES3: INVITE and re-INVITE cost Index
>
> This graph represents the caller sending first INVITE and callee receiving
> second ACK.
> 8.5 ims_uac : Scenario retransmissions Index
>
> This graph represents the number of retransmissions per seconds for this
> scenario.
> RETRANSMIT
> Step Requested Load Mean Standard Deviation Minimum Maximum Percentile 50
> Percentile 90 Percentile 95 Percentile 99
> Pre-reg 1 0.00 0.00 0.00 0.00 0.0 0.0 0.0 0.0
> 8.5.1 Scenario retransmissions(ims_uac scenario) over time Index
> RETRANSMITCallingims_uac-normaltime.png text
> 8.6 ims_uac : Inadequately handled scenario Percentage Index
>
> This graph represents the percentage of Inadequately handled scenarios for
> the uac.
> IHS per scenario %
> Step Requested Load Mean Standard Deviation Minimum Maximum
> Pre-reg 1 0.00 0.00 0.00 0.00
> 8.6.1 Inadequately handled scenario Percentage(ims_uac scenario) over time
> Index
> IHSCallingims_uac-normaltime.png text
> 9 Messaging Index
> 9.1 PX_TRT-PMM1: Message Transmission time Index
>
> This graph represents the delay between the message and the 200 OK.
> 9.2 PX_TRT-PMM2: Message Transmission time (error case) Index
>
> This graph represents the delay between the message and the 404 Not Found.
> Appendix Index
>
> The test was run based on the following IMS benchmark parameters.
> Parameter Name Parameter Value Parameter Info
> TransportTCP 0 Use TCP-mode IMS Benchmark SIPp
> ManagerIP 192.168.2.11 IP Address of the Manager
> MaxTimeOffset 250 Maximum time offset (in microseconds) allowed between
> any Test System and the manager. This is checked at the begining of the
> benchmark in order to avoid doing a run with invalid time measurements. 0
> means no check (not recommended).
> ExecuteSIPp 0 Whether or not (0/1) the SIPp instances should be started by
> the manager. If enabled, the SIPp instances run in the background and their
> output cannot be viewed. If disabled, the SIPp instances must be started
> manually.
> PrivateIdentityFormat usim%06d Format used to generate private identity of
> users. The %d parameter gets replaced by the index of the subscriber.
> UserRealm open-ims.test Primary domain to which provisionned users belong
> (for authentication purpose)
> DontPreRegisterButUseSippIP 0 Do not include a pre-registration phase. Use
> the SIPp Test System IP Address as user domain instead.
> TotalProvisionedSubscribers 50000 Total number of provisionned subscribers
> PublicIdentityFormat subs%06d Format used to generate public identity of
> users. The %d parameter gets replaced by the index of the subscriber.
> PercentRoamingSubscribers 0
> PercentRegisteredSubscribers 80 Percentage of subscribers who will be
> pre-registered during the preamble phase (in percent)
> UserDomain open-ims.test Primary domain to which provisionned users belong
> UserPasswordFormat abcdefgh Format used to generate passwords identity of
> users. If present, a %d parameter gets replaced by the index of the
> subscriber.
> StepTime 30 Duration of each step of the run (in minutes)
> StepNumber 3 Number of steps in the actual benchmark phase of the run
> StirSteps 3 Number of steps in the stir phase
> StepTransientTime 30 Time after the start of a step for which data is
> ignored (in seconds)
> StirTime 5 Duration of stir phase where the SUT is gradually brought up to
> a load of 'InitialSAPS' (in minutes)
> PreRegistrationMaxIHS 1 Accepted percentage of inadequately handled
> registrations during the pre-registration preamble phase (in percent)
> InitialSAPS 100 Load applied to the SUT at the first step (in SAPS)
> StirMaxIHS 1 Accepted percentage of inadequately handled scenarios during
> the stir phase (in percent)
> SAPSIncreaseAmount 10 System load increase at each step (in SAPS)
> PreRegistrationRate 100 Registration rate during the pre-registration
> preamble phase (in registration attempts per seonds)
> PMMDataSizeDistr uniform Random distribution of the length of page-mode
> messages (uniform)
> RingTimeDistr exponential Random distribution of the ringing time
> (poisson/exponential)
> HoldTimeDistr exponential Random distribution of the call hold time
> (poisson/exponential)
> PMMDataSize 140 Average length of page-mode messages (in bytes)
> HoldTime 120 Average call hold time (in seconds)
> RingTime 5 Average ringing time (in seconds)
> RegistrationExpire 1000000 Registration timeout that emulated users will
> request (in seconds)
>
>
> The following information is also available for the test
> Parameter Name Parameter Value Parameter Info
> rand_seed 1405455923 Value used to initialize the random number generators
> prep_offset 2000 Time (ms) for scenario preparation (user reservation,
> etc.) prior to actual execution
> highest_measured_time_offset 17 Highest time offset observed at startup
> between any test system and the manager (microseconds)
>
> System Command Line
> TS1 /opt/ims_bench/sipp -id 1 -i 192.168.2.11 -user_inf
> ./ims_users_100.inf -rmctrl 192.168.2.11:5000 192.168.2.5:4060 -trace_err
> -trace_cpumem -trace_scen -trace_retrans -trace_stat
> Manager ./manager -f managersmall.xml
> SUT 1 ./cpum 192.168.2.11:5000
>
> Windows Posta'dan gönderildi
>
>
>
> ------------------------------------------------------------------------------
> Comprehensive Server Monitoring with Site24x7.
> Monitor 10 servers for $9/Month.
> Get alerted through email, SMS, voice calls or mobile push notifications.
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> _______________________________________________
> Sipp-users mailing list
> Sipp-users@lists.sourceforge.net
> https://lists.sourceforge.net/lists/listinfo/sipp-users
>
>
------------------------------------------------------------------------------
Comprehensive Server Monitoring with Site24x7.
Monitor 10 servers for $9/Month.
Get alerted through email, SMS, voice calls or mobile push notifications.
Take corrective actions from your mobile device.
http://p.sf.net/sfu/Zoho
_______________________________________________
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Sipp-users@lists.sourceforge.net
https://lists.sourceforge.net/lists/listinfo/sipp-users
------------------------------------------------------------------------------
Comprehensive Server Monitoring with Site24x7.
Monitor 10 servers for $9/Month.
Get alerted through email, SMS, voice calls or mobile push notifications.
Take corrective actions from your mobile device.
http://p.sf.net/sfu/Zoho
_______________________________________________
Sipp-users mailing list
Sipp-users@lists.sourceforge.net
https://lists.sourceforge.net/lists/listinfo/sipp-users
