diff options
Diffstat (limited to 'src/nettest_sdp.c')
-rw-r--r-- | src/nettest_sdp.c | 3553 |
1 files changed, 3553 insertions, 0 deletions
diff --git a/src/nettest_sdp.c b/src/nettest_sdp.c new file mode 100644 index 0000000..44ddb23 --- /dev/null +++ b/src/nettest_sdp.c @@ -0,0 +1,3553 @@ +#ifndef lint +char nettest_sdp[]="\ +@(#)nettest_sdp.c (c) Copyright 2007-2012 Hewlett-Packard Co. Version 2.6.0"; +#else +#define DIRTY +#define WANT_HISTOGRAM +#define WANT_INTERVALS +#endif /* lint */ + +/****************************************************************/ +/* */ +/* nettest_sdp.c */ +/* */ +/* */ +/* scan_sdp_args() get the sdp command line args */ +/* */ +/* the actual test routines... */ +/* */ +/* send_sdp_stream() perform a sdp stream test */ +/* recv_sdp_stream() */ +/* send_sdp_rr() perform a sdp request/response */ +/* recv_sdp_rr() */ +/* */ +/* relies on create_data_socket in nettest_bsd.c */ +/****************************************************************/ + +#if HAVE_CONFIG_H +# include <config.h> +#endif + +#if defined(WANT_SDP) + +#include <sys/types.h> +#include <fcntl.h> +#include <errno.h> +#include <signal.h> +#include <stdio.h> +#include <string.h> +#include <time.h> +#ifdef NOSTDLIBH +#include <malloc.h> +#else /* NOSTDLIBH */ +#include <stdlib.h> +#endif /* NOSTDLIBH */ + +#if !defined(__VMS) +#include <sys/ipc.h> +#endif /* !defined(__VMS) */ +#include <unistd.h> +#include <sys/types.h> +#include <sys/socket.h> +#include <netinet/in.h> +#include <netinet/tcp.h> +#include <arpa/inet.h> +#include <netdb.h> + +/* would seem that not all sdp.h files define a MSG_EOF, but that + MSG_EOF can be the same as MSG_FIN so lets work with that + assumption. initial find by Jon Pedersen. raj 2006-02-01 */ +#ifndef MSG_EOF +#ifdef MSG_FIN +#define MSG_EOF MSG_FIN +#else +#error Must have either MSG_EOF or MSG_FIN defined +#endif +#endif + +#include "netlib.h" +#include "netsh.h" +/* get some of the functions from nettest_bsd.c */ +#include "nettest_bsd.h" +#include "nettest_sdp.h" + +#ifdef WANT_HISTOGRAM +#ifdef __sgi +#include <sys/time.h> +#endif /* __sgi */ +#include "hist.h" +#endif /* WANT_HISTOGRAM */ + +#ifdef WANT_FIRST_BURST +extern int first_burst_size; +#endif /* WANT_FIRST_BURST */ + + + +/* these variables are specific to SDP tests. declare */ +/* them static to make them global only to this file. */ + +static int + msg_count = 0, /* number of messages to transmit on association */ + non_block = 0, /* default to blocking sockets */ + num_associations = 1; /* number of associations on the endpoint */ + +static int confidence_iteration; +static char local_cpu_method; +static char remote_cpu_method; + +#ifdef WANT_HISTOGRAM +static struct timeval time_one; +static struct timeval time_two; +static HIST time_hist; +#endif /* WANT_HISTOGRAM */ + + +char sdp_usage[] = "\n\ +Usage: netperf [global options] -- [test options] \n\ +\n\ +SDP Sockets Test Options:\n\ + -b number Send number requests at the start of _RR tests\n\ + -D [L][,R] Set SDP_NODELAY locally and/or remotely\n\ + -h Display this text\n\ + -H name,fam Use name (or IP) and family as target of data connection\n\ + -L name,fam Use name (or IP) and family as source of data connextion\n\ + -m bytes Set the size of each sent message\n\ + -M bytes Set the size of each received messages\n\ + -P local[,remote] Set the local/remote port for the data socket\n\ + -r req,[rsp] Set request/response sizes (_RR tests)\n\ + -s send[,recv] Set local socket send/recv buffer sizes\n\ + -S send[,recv] Set remote socket send/recv buffer sizes\n\ + -V Enable copy avoidance if supported\n\ + -4 Use AF_INET (eg IPv4) on both ends of the data conn\n\ + -6 Use AF_INET6 (eg IPv6) on both ends of the data conn\n\ +\n\ +For those options taking two parms, at least one must be specified;\n\ +specifying one value without a comma will set both parms to that\n\ +value, specifying a value with a leading comma will set just the second\n\ +parm, a value with a trailing comma will set just the first. To set\n\ +each parm to unique values, specify both and separate them with a\n\ +comma.\n"; + + + /* This routine is intended to retrieve interesting aspects of sdp */ + /* for the data connection. at first, it attempts to retrieve the */ + /* maximum segment size. later, it might be modified to retrieve */ + /* other information, but it must be information that can be */ + /* retrieved quickly as it is called during the timing of the test. */ + /* for that reason, a second routine may be created that can be */ + /* called outside of the timing loop */ +static +void +get_sdp_info(int socket, int * mss) +{ + +#ifdef TCP_MAXSEG + netperf_socklen_t sock_opt_len; + + sock_opt_len = sizeof(netperf_socklen_t); + if (getsockopt(socket, + getprotobyname("tcp")->p_proto, + TCP_MAXSEG, + (char *)mss, + &sock_opt_len) == SOCKET_ERROR) { + fprintf(where, + "netperf: get_sdp_info: getsockopt TCP_MAXSEG: errno %d\n", + errno); + fflush(where); + *mss = -1; + } +#else + *mss = -1; +#endif /* TCP_MAXSEG */ + +} + +void +send_sdp_stream(char remote_host[]) +{ + + char *tput_title = "\ +Recv Send Send \n\ +Socket Socket Message Elapsed \n\ +Size Size Size Time Throughput \n\ +bytes bytes bytes secs. %s/sec \n\n"; + + char *tput_fmt_0 = + "%7.2f %s\n"; + + char *tput_fmt_1 = + "%6d %6d %6d %-6.2f %7.2f %s\n"; + + char *cpu_title = "\ +Recv Send Send Utilization Service Demand\n\ +Socket Socket Message Elapsed Send Recv Send Recv\n\ +Size Size Size Time Throughput local remote local remote\n\ +bytes bytes bytes secs. %-8.8s/s %% %c %% %c us/KB us/KB\n\n"; + + char *cpu_fmt_0 = + "%6.3f %c %s\n"; + + char *cpu_fmt_1 = + "%6d %6d %6d %-6.2f %7.2f %-6.2f %-6.2f %-6.3f %-6.3f %s\n"; + + char *ksink_fmt = "\n\ +Alignment Offset %-8.8s %-8.8s Sends %-8.8s Recvs\n\ +Local Remote Local Remote Xfered Per Per\n\ +Send Recv Send Recv Send (avg) Recv (avg)\n\ +%5d %5d %5d %5d %6.4g %6.2f %6d %6.2f %6d\n"; + + char *ksink_fmt2 = "\n\ +Maximum\n\ +Segment\n\ +Size (bytes)\n\ +%6d\n"; + + + float elapsed_time; + + /* what we want is to have a buffer space that is at least one */ + /* send-size greater than our send window. this will insure that we */ + /* are never trying to re-use a buffer that may still be in the hands */ + /* of the transport. This buffer will be malloc'd after we have found */ + /* the size of the local senc socket buffer. We will want to deal */ + /* with alignment and offset concerns as well. */ + + struct ring_elt *send_ring; + + int len; + unsigned int nummessages = 0; + SOCKET send_socket; + int bytes_remaining; + int sdp_mss = -1; /* possibly uninitialized on printf far below */ + + /* with links like fddi, one can send > 32 bits worth of bytes */ + /* during a test... ;-) at some point, this should probably become a */ + /* 64bit integral type, but those are not entirely common yet */ + + unsigned long long local_bytes_sent = 0; + double bytes_sent = 0.0; + + float local_cpu_utilization; + float local_service_demand; + float remote_cpu_utilization; + float remote_service_demand; + + double thruput; + + struct addrinfo *remote_res; + struct addrinfo *local_res; + + struct sdp_stream_request_struct *sdp_stream_request; + struct sdp_stream_response_struct *sdp_stream_response; + struct sdp_stream_results_struct *sdp_stream_result; + + sdp_stream_request = + (struct sdp_stream_request_struct *)netperf_request.content.test_specific_data; + sdp_stream_response = + (struct sdp_stream_response_struct *)netperf_response.content.test_specific_data; + sdp_stream_result = + (struct sdp_stream_results_struct *)netperf_response.content.test_specific_data; + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + time_hist = HIST_new(); + } +#endif /* WANT_HISTOGRAM */ + /* since we are now disconnected from the code that established the */ + /* control socket, and since we want to be able to use different */ + /* protocols and such, we are passed the name of the remote host and */ + /* must turn that into the test specific addressing information. */ + + /* complete_addrinfos will either succede or exit the process */ + complete_addrinfos(&remote_res, + &local_res, + remote_host, + SOCK_STREAM, + IPPROTO_TCP, + 0); + + if ( print_headers ) { + print_top_test_header("SDP STREAM TEST",local_res,remote_res); + } + + send_ring = NULL; + confidence_iteration = 1; + init_stat(); + + /* we have a great-big while loop which controls the number of times */ + /* we run a particular test. this is for the calculation of a */ + /* confidence interval (I really should have stayed awake during */ + /* probstats :). If the user did not request confidence measurement */ + /* (no confidence is the default) then we will only go though the */ + /* loop once. the confidence stuff originates from the folks at IBM */ + + while (((confidence < 0) && (confidence_iteration < iteration_max)) || + (confidence_iteration <= iteration_min)) { + + /* initialize a few counters. we have to remember that we might be */ + /* going through the loop more than once. */ + + nummessages = 0; + bytes_sent = 0.0; + times_up = 0; + + /*set up the data socket */ + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + send_socket = create_data_socket(local_res); + + if (send_socket == INVALID_SOCKET){ + perror("netperf: send_sdp_stream: sdp stream data socket"); + exit(1); + } + + if (debug) { + fprintf(where,"send_sdp_stream: send_socket obtained...\n"); + } + + /* at this point, we have either retrieved the socket buffer sizes, */ + /* or have tried to set them, so now, we may want to set the send */ + /* size based on that (because the user either did not use a -m */ + /* option, or used one with an argument of 0). If the socket buffer */ + /* size is not available, we will set the send size to 4KB - no */ + /* particular reason, just arbitrary... */ + if (send_size == 0) { + if (lss_size > 0) { + send_size = lss_size; + } + else { + send_size = 4096; + } + } + + /* set-up the data buffer ring with the requested alignment and offset. */ + /* note also that we have allocated a quantity */ + /* of memory that is at least one send-size greater than our socket */ + /* buffer size. We want to be sure that there are at least two */ + /* buffers allocated - this can be a bit of a problem when the */ + /* send_size is bigger than the socket size, so we must check... the */ + /* user may have wanted to explicitly set the "width" of our send */ + /* buffers, we should respect that wish... */ + if (send_width == 0) { + send_width = (lss_size/send_size) + 1; + if (send_width == 1) send_width++; + } + + if (send_ring == NULL) { + /* only allocate the send ring once. this is a networking test, */ + /* not a memory allocation test. this way, we do not need a */ + /* deallocate_buffer_ring() routine, and I don't feel like */ + /* writing one anyway :) raj 11/94 */ + send_ring = allocate_buffer_ring(send_width, + send_size, + local_send_align, + local_send_offset); + } + + /* If the user has requested cpu utilization measurements, we must */ + /* calibrate the cpu(s). We will perform this task within the tests */ + /* themselves. If the user has specified the cpu rate, then */ + /* calibrate_local_cpu will return rather quickly as it will have */ + /* nothing to do. If local_cpu_rate is zero, then we will go through */ + /* all the "normal" calibration stuff and return the rate back. */ + + if (local_cpu_usage) { + local_cpu_rate = calibrate_local_cpu(local_cpu_rate); + } + + if (!no_control) { + /* Tell the remote end to do a listen. The server alters the + socket paramters on the other side at this point, hence the + reason for all the values being passed in the setup + message. If the user did not specify any of the parameters, + they will be passed as 0, which will indicate to the remote + that no changes beyond the system's default should be + used. Alignment is the exception, it will default to 1, which + will be no alignment alterations. */ + + netperf_request.content.request_type = DO_SDP_STREAM; + sdp_stream_request->send_buf_size = rss_size_req; + sdp_stream_request->recv_buf_size = rsr_size_req; + sdp_stream_request->receive_size = recv_size; + sdp_stream_request->no_delay = rem_nodelay; + sdp_stream_request->recv_alignment = remote_recv_align; + sdp_stream_request->recv_offset = remote_recv_offset; + sdp_stream_request->measure_cpu = remote_cpu_usage; + sdp_stream_request->cpu_rate = remote_cpu_rate; + if (test_time) { + sdp_stream_request->test_length = test_time; + } + else { + sdp_stream_request->test_length = test_bytes; + } + sdp_stream_request->so_rcvavoid = rem_rcvavoid; + sdp_stream_request->so_sndavoid = rem_sndavoid; +#ifdef DIRTY + sdp_stream_request->dirty_count = rem_dirty_count; + sdp_stream_request->clean_count = rem_clean_count; +#endif /* DIRTY */ + sdp_stream_request->port = atoi(remote_data_port); + sdp_stream_request->ipfamily = af_to_nf(remote_res->ai_family); + if (debug > 1) { + fprintf(where, + "netperf: send_sdp_stream: requesting SDP stream test\n"); + } + + send_request(); + + /* The response from the remote will contain all of the relevant + socket parameters for this test type. We will put them back + into the variables here so they can be displayed if desired. + The remote will have calibrated CPU if necessary, and will + have done all the needed set-up we will have calibrated the + cpu locally before sending the request, and will grab the + counter value right after the connect returns. The remote + will grab the counter right after the accept call. This saves + the hassle of extra messages being sent for the SDP + tests. */ + + recv_response(); + + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote listen done.\n"); + rsr_size = sdp_stream_response->recv_buf_size; + rss_size = sdp_stream_response->send_buf_size; + rem_nodelay = sdp_stream_response->no_delay; + remote_cpu_usage= sdp_stream_response->measure_cpu; + remote_cpu_rate = sdp_stream_response->cpu_rate; + + /* we have to make sure that the server port number is in + network order */ + set_port_number(remote_res, + (short)sdp_stream_response->data_port_number); + + rem_rcvavoid = sdp_stream_response->so_rcvavoid; + rem_sndavoid = sdp_stream_response->so_sndavoid; + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where, + "netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + + exit(1); + } + } + +#ifdef WANT_DEMO + DEMO_STREAM_SETUP(lss_size,rsr_size) +#endif + + /*Connect up to the remote port on the data socket */ + if (connect(send_socket, + remote_res->ai_addr, + remote_res->ai_addrlen) == INVALID_SOCKET){ + perror("netperf: send_sdp_stream: data socket connect failed"); + exit(1); + } + + /* Data Socket set-up is finished. If there were problems, either */ + /* the connect would have failed, or the previous response would */ + /* have indicated a problem. I failed to see the value of the */ + /* extra message after the accept on the remote. If it failed, */ + /* we'll see it here. If it didn't, we might as well start pumping */ + /* data. */ + + /* Set-up the test end conditions. For a stream test, they can be */ + /* either time or byte-count based. */ + + if (test_time) { + /* The user wanted to end the test after a period of time. */ + times_up = 0; + bytes_remaining = 0; + /* in previous revisions, we had the same code repeated throught */ + /* all the test suites. this was unnecessary, and meant more */ + /* work for me when I wanted to switch to POSIX signals, so I */ + /* have abstracted this out into a routine in netlib.c. if you */ + /* are experiencing signal problems, you might want to look */ + /* there. raj 11/94 */ + start_timer(test_time); + } + else { + /* The tester wanted to send a number of bytes. */ + bytes_remaining = test_bytes; + times_up = 1; + } + + /* The cpu_start routine will grab the current time and possibly */ + /* value of the idle counter for later use in measuring cpu */ + /* utilization and/or service demand and thruput. */ + + cpu_start(local_cpu_usage); + + /* we only start the interval timer if we are using the + timer-timed intervals rather than the sit and spin ones. raj + 2006-02-06 */ +#if defined(WANT_INTERVALS) + INTERVALS_INIT(); +#endif /* WANT_INTERVALS */ + + /* before we start, initialize a few variables */ + +#ifdef WANT_DEMO + if (demo_mode) { + HIST_timestamp(demo_one_ptr); + } +#endif + + + /* We use an "OR" to control test execution. When the test is */ + /* controlled by time, the byte count check will always return false. */ + /* When the test is controlled by byte count, the time test will */ + /* always return false. When the test is finished, the whole */ + /* expression will go false and we will stop sending data. */ + + while ((!times_up) || (bytes_remaining > 0)) { + +#ifdef DIRTY + access_buffer(send_ring->buffer_ptr, + send_size, + loc_dirty_count, + loc_clean_count); +#endif /* DIRTY */ + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* timestamp just before we go into send and then again just + after we come out raj 8/94 */ + /* but lets only do this if there is going to be a histogram + displayed */ + HIST_timestamp(&time_one); + } +#endif /* WANT_HISTOGRAM */ + + if((len=send(send_socket, + send_ring->buffer_ptr, + send_size, + 0)) != send_size) { + if ((len >=0) || SOCKET_EINTR(len)) { + /* the test was interrupted, must be the end of test */ + break; + } + perror("netperf: data send error"); + printf("len was %d\n",len); + exit(1); + } + + local_bytes_sent += send_size; + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* timestamp the exit from the send call and update the histogram */ + HIST_timestamp(&time_two); + HIST_add(time_hist,delta_micro(&time_one,&time_two)); + } +#endif /* WANT_HISTOGRAM */ + +#ifdef WANT_DEMO + DEMO_STREAM_INTERVAL(send_size) +#endif + +#if defined(WANT_INTERVALS) + INTERVALS_WAIT(); +#endif /* WANT_INTERVALS */ + + /* now we want to move our pointer to the next position in the */ + /* data buffer...we may also want to wrap back to the "beginning" */ + /* of the bufferspace, so we will mod the number of messages sent */ + /* by the send width, and use that to calculate the offset to add */ + /* to the base pointer. */ + nummessages++; + send_ring = send_ring->next; + if (bytes_remaining) { + bytes_remaining -= send_size; + } + } + + /* The test is over. Flush the buffers to the remote end. We do a */ + /* graceful release to insure that all data has been taken by the */ + /* remote. */ + + /* but first, if the verbosity is greater than 1, find-out what */ + /* the SDP maximum segment_size was (if possible) */ + if (verbosity > 1) { + sdp_mss = -1; + get_sdp_info(send_socket,&sdp_mss); + } + + if (shutdown(send_socket,SHUT_WR) == SOCKET_ERROR) { + perror("netperf: cannot shutdown sdp stream socket"); + exit(1); + } + + /* hang a recv() off the socket to block until the remote has */ + /* brought all the data up into the application. it will do a */ + /* shutdown to cause a FIN to be sent our way. We will assume that */ + /* any exit from the recv() call is good... raj 4/93 */ + + recv(send_socket, send_ring->buffer_ptr, send_size, 0); + + /* this call will always give us the elapsed time for the test, and */ + /* will also store-away the necessaries for cpu utilization */ + + cpu_stop(local_cpu_usage,&elapsed_time); /* was cpu being */ + /* measured and how */ + /* long did we really */ + /* run? */ + + /* we are finished with the socket, so close it to prevent hitting */ + /* the limit on maximum open files. */ + + close(send_socket); + + if (!no_control) { + /* Get the statistics from the remote end. The remote will have + calculated service demand and all those interesting + things. If it wasn't supposed to care, it will return obvious + values. */ + + recv_response(); + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote results obtained\n"); + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where, + "netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + + exit(1); + } + + /* We now calculate what our thruput was for the test. In the + future, we may want to include a calculation of the thruput + measured by the remote, but it should be the case that for a + SDP stream test, that the two numbers should be *very* + close... We calculate bytes_sent regardless of the way the + test length was controlled. If it was time, we needed to, + and if it was by bytes, the user may have specified a number + of bytes that wasn't a multiple of the send_size, so we + really didn't send what he asked for ;-) */ + + bytes_sent = ntohd(sdp_stream_result->bytes_received); + } + else { + bytes_sent = (double)local_bytes_sent; + } + + thruput = calc_thruput(bytes_sent); + + if (local_cpu_usage || remote_cpu_usage) { + /* We must now do a little math for service demand and cpu */ + /* utilization for the system(s) */ + /* Of course, some of the information might be bogus because */ + /* there was no idle counter in the kernel(s). We need to make */ + /* a note of this for the user's benefit...*/ + if (local_cpu_usage) { + + local_cpu_utilization = calc_cpu_util(0.0); + local_service_demand = calc_service_demand(bytes_sent, + 0.0, + 0.0, + 0); + } + else { + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + } + + if (remote_cpu_usage) { + + remote_cpu_utilization = sdp_stream_result->cpu_util; + remote_service_demand = calc_service_demand(bytes_sent, + 0.0, + remote_cpu_utilization, + sdp_stream_result->num_cpus); + } + else { + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + } + else { + /* we were not measuring cpu, for the confidence stuff, we */ + /* should make it -1.0 */ + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + + /* at this point, we want to calculate the confidence information. */ + /* if debugging is on, calculate_confidence will print-out the */ + /* parameters we pass it */ + + calculate_confidence(confidence_iteration, + elapsed_time, + thruput, + local_cpu_utilization, + remote_cpu_utilization, + local_service_demand, + remote_service_demand); + + + confidence_iteration++; + } + + /* at this point, we have finished making all the runs that we */ + /* will be making. so, we should extract what the calcuated values */ + /* are for all the confidence stuff. we could make the values */ + /* global, but that seemed a little messy, and it did not seem worth */ + /* all the mucking with header files. so, we create a routine much */ + /* like calcualte_confidence, which just returns the mean values. */ + /* raj 11/94 */ + + retrieve_confident_values(&elapsed_time, + &thruput, + &local_cpu_utilization, + &remote_cpu_utilization, + &local_service_demand, + &remote_service_demand); + + /* We are now ready to print all the information. If the user */ + /* has specified zero-level verbosity, we will just print the */ + /* local service demand, or the remote service demand. If the */ + /* user has requested verbosity level 1, he will get the basic */ + /* "streamperf" numbers. If the user has specified a verbosity */ + /* of greater than 1, we will display a veritable plethora of */ + /* background information from outside of this block as it it */ + /* not cpu_measurement specific... */ + + if (confidence < 0) { + /* we did not hit confidence, but were we asked to look for it? */ + if (iteration_max > 1) { + display_confidence(); + } + } + + if (local_cpu_usage || remote_cpu_usage) { + local_cpu_method = format_cpu_method(cpu_method); + remote_cpu_method = format_cpu_method(sdp_stream_result->cpu_method); + + switch (verbosity) { + case 0: + if (local_cpu_usage) { + fprintf(where, + cpu_fmt_0, + local_service_demand, + local_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + else { + fprintf(where, + cpu_fmt_0, + remote_service_demand, + remote_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + break; + case 1: + case 2: + if (print_headers) { + fprintf(where, + cpu_title, + format_units(), + local_cpu_method, + remote_cpu_method); + } + + fprintf(where, + cpu_fmt_1, /* the format string */ + rsr_size, /* remote recvbuf size */ + lss_size, /* local sendbuf size */ + send_size, /* how large were the sends */ + elapsed_time, /* how long was the test */ + thruput, /* what was the xfer rate */ + local_cpu_utilization, /* local cpu */ + remote_cpu_utilization, /* remote cpu */ + local_service_demand, /* local service demand */ + remote_service_demand, /* remote service demand */ + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + } + } + else { + /* The tester did not wish to measure service demand. */ + + switch (verbosity) { + case 0: + fprintf(where, + tput_fmt_0, + thruput, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + case 1: + case 2: + if (print_headers) { + fprintf(where,tput_title,format_units()); + } + fprintf(where, + tput_fmt_1, /* the format string */ + rsr_size, /* remote recvbuf size */ + lss_size, /* local sendbuf size */ + send_size, /* how large were the sends */ + elapsed_time, /* how long did it take */ + thruput, /* how fast did it go */ + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + } + } + + /* it would be a good thing to include information about some of the */ + /* other parameters that may have been set for this test, but at the */ + /* moment, I do not wish to figure-out all the formatting, so I will */ + /* just put this comment here to help remind me that it is something */ + /* that should be done at a later time. */ + + if (verbosity > 1) { + /* The user wanted to know it all, so we will give it to him. */ + /* This information will include as much as we can find about */ + /* SDP statistics, the alignments of the sends and receives */ + /* and all that sort of rot... */ + + /* this stuff needs to be worked-out in the presence of confidence */ + /* intervals and multiple iterations of the test... raj 11/94 */ + + fprintf(where, + ksink_fmt, + "Bytes", + "Bytes", + "Bytes", + local_send_align, + remote_recv_align, + local_send_offset, + remote_recv_offset, + bytes_sent, + bytes_sent / (double)nummessages, + nummessages, + bytes_sent / (double)sdp_stream_result->recv_calls, + sdp_stream_result->recv_calls); + fprintf(where, + ksink_fmt2, + sdp_mss); + fflush(where); +#ifdef WANT_HISTOGRAM + fprintf(where,"\n\nHistogram of time spent in send() call.\n"); + fflush(where); + HIST_report(time_hist); +#endif /* WANT_HISTOGRAM */ + } + +} + + + +/* This routine implements the netperf-side SDP unidirectional data + transfer test (a.k.a. stream) for the sockets interface where the + data flow is from the netserver to the netperf. It receives its + parameters via global variables from the shell and writes its + output to the standard output. */ + + +void +send_sdp_maerts(char remote_host[]) +{ + + char *tput_title = "\ +Recv Send Send \n\ +Socket Socket Message Elapsed \n\ +Size Size Size Time Throughput \n\ +bytes bytes bytes secs. %s/sec \n\n"; + + char *tput_fmt_0 = + "%7.2f %s\n"; + + char *tput_fmt_1 = + "%6d %6d %6d %-6.2f %7.2f \n %s"; + + char *cpu_title = "\ +Recv Send Send Utilization Service Demand\n\ +Socket Socket Message Elapsed Send Recv Send Recv\n\ +Size Size Size Time Throughput local remote local remote\n\ +bytes bytes bytes secs. %-8.8s/s %% %c %% %c us/KB us/KB\n\n"; + + char *cpu_fmt_0 = + "%6.3f %c %s\n"; + + char *cpu_fmt_1 = + "%6d %6d %6d %-6.2f %7.2f %-6.2f %-6.2f %-6.3f %-6.3f %s\n"; + + char *ksink_fmt = "\n\ +Alignment Offset %-8.8s %-8.8s Recvs %-8.8s Sends\n\ +Local Remote Local Remote Xfered Per Per\n\ +Recv Send Recv Send Recv (avg) Send (avg)\n\ +%5d %5d %5d %5d %6.4g %6.2f %6d %6.2f %6d\n"; + + char *ksink_fmt2 = "\n\ +Maximum\n\ +Segment\n\ +Size (bytes)\n\ +%6d\n"; + + + float elapsed_time; + + /* what we want is to have a buffer space that is at least one */ + /* recv-size greater than our recv window. this will insure that we */ + /* are never trying to re-use a buffer that may still be in the hands */ + /* of the transport. This buffer will be malloc'd after we have found */ + /* the size of the local senc socket buffer. We will want to deal */ + /* with alignment and offset concerns as well. */ + + struct ring_elt *recv_ring; + + int len; + unsigned int nummessages = 0; + SOCKET recv_socket; + int bytes_remaining; + int sdp_mss = -1; /* possibly uninitialized on printf far below */ + + /* with links like fddi, one can recv > 32 bits worth of bytes */ + /* during a test... ;-) at some point, this should probably become a */ + /* 64bit integral type, but those are not entirely common yet */ + double bytes_sent = 0.0; + unsigned long long local_bytes_recvd = 0; + + float local_cpu_utilization; + float local_service_demand; + float remote_cpu_utilization; + float remote_service_demand; + + double thruput; + + struct addrinfo *remote_res; + struct addrinfo *local_res; + + struct sdp_maerts_request_struct *sdp_maerts_request; + struct sdp_maerts_response_struct *sdp_maerts_response; + struct sdp_maerts_results_struct *sdp_maerts_result; + + sdp_maerts_request = + (struct sdp_maerts_request_struct *)netperf_request.content.test_specific_data; + sdp_maerts_response = + (struct sdp_maerts_response_struct *)netperf_response.content.test_specific_data; + sdp_maerts_result = + (struct sdp_maerts_results_struct *)netperf_response.content.test_specific_data; + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + time_hist = HIST_new(); + } +#endif /* WANT_HISTOGRAM */ + /* since we are now disconnected from the code that established the */ + /* control socket, and since we want to be able to use different */ + /* protocols and such, we are passed the name of the remote host and */ + /* must turn that into the test specific addressing information. */ + + complete_addrinfos(&remote_res, + &local_res, + remote_host, + SOCK_STREAM, + IPPROTO_TCP, + 0); + + if ( print_headers ) { + print_top_test_header("SDP MAERTS TEST",local_res,remote_res); + } + + recv_ring = NULL; + confidence_iteration = 1; + init_stat(); + + /* we have a great-big while loop which controls the number of times */ + /* we run a particular test. this is for the calculation of a */ + /* confidence interval (I really should have stayed awake during */ + /* probstats :). If the user did not request confidence measurement */ + /* (no confidence is the default) then we will only go though the */ + /* loop once. the confidence stuff originates from the folks at IBM */ + + while (((confidence < 0) && (confidence_iteration < iteration_max)) || + (confidence_iteration <= iteration_min)) { + + /* initialize a few counters. we have to remember that we might be */ + /* going through the loop more than once. */ + + nummessages = 0; + bytes_sent = 0.0; + times_up = 0; + + /*set up the data socket */ + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + recv_socket = create_data_socket(local_res); + + if (recv_socket == INVALID_SOCKET){ + perror("netperf: send_sdp_maerts: sdp stream data socket"); + exit(1); + } + + if (debug) { + fprintf(where,"send_sdp_maerts: recv_socket obtained...\n"); + } + + /* at this point, we have either retrieved the socket buffer sizes, */ + /* or have tried to set them, so now, we may want to set the recv */ + /* size based on that (because the user either did not use a -m */ + /* option, or used one with an argument of 0). If the socket buffer */ + /* size is not available, we will set the recv size to 4KB - no */ + /* particular reason, just arbitrary... */ + if (recv_size == 0) { + if (lsr_size > 0) { + recv_size = lsr_size; + } + else { + recv_size = 4096; + } + } + + /* set-up the data buffer ring with the requested alignment and offset. */ + /* note also that we have allocated a quantity */ + /* of memory that is at least one recv-size greater than our socket */ + /* buffer size. We want to be sure that there are at least two */ + /* buffers allocated - this can be a bit of a problem when the */ + /* recv_size is bigger than the socket size, so we must check... the */ + /* user may have wanted to explicitly set the "width" of our recv */ + /* buffers, we should respect that wish... */ + if (recv_width == 0) { + recv_width = (lsr_size/recv_size) + 1; + if (recv_width == 1) recv_width++; + } + + if (recv_ring == NULL) { + /* only allocate the recv ring once. this is a networking test, */ + /* not a memory allocation test. this way, we do not need a */ + /* deallocate_buffer_ring() routine, and I don't feel like */ + /* writing one anyway :) raj 11/94 */ + recv_ring = allocate_buffer_ring(recv_width, + recv_size, + local_recv_align, + local_recv_offset); + } + + /* If the user has requested cpu utilization measurements, we must */ + /* calibrate the cpu(s). We will perform this task within the tests */ + /* themselves. If the user has specified the cpu rate, then */ + /* calibrate_local_cpu will return rather quickly as it will have */ + /* nothing to do. If local_cpu_rate is zero, then we will go through */ + /* all the "normal" calibration stuff and return the rate back. */ + + if (local_cpu_usage) { + local_cpu_rate = calibrate_local_cpu(local_cpu_rate); + } + + if (!no_control) { + /* Tell the remote end to do a listen. The server alters the + socket paramters on the other side at this point, hence the + reason for all the values being passed in the setup + message. If the user did not specify any of the parameters, + they will be passed as 0, which will indicate to the remote + that no changes beyond the system's default should be + used. Alignment is the exception, it will default to 1, which + will be no alignment alterations. */ + + netperf_request.content.request_type = DO_SDP_MAERTS; + sdp_maerts_request->send_buf_size = rss_size_req; + sdp_maerts_request->recv_buf_size = rsr_size_req; + sdp_maerts_request->send_size = send_size; + sdp_maerts_request->no_delay = rem_nodelay; + sdp_maerts_request->send_alignment = remote_send_align; + sdp_maerts_request->send_offset = remote_send_offset; + sdp_maerts_request->measure_cpu = remote_cpu_usage; + sdp_maerts_request->cpu_rate = remote_cpu_rate; + if (test_time) { + sdp_maerts_request->test_length = test_time; + } + else { + sdp_maerts_request->test_length = test_bytes; + } + sdp_maerts_request->so_rcvavoid = rem_rcvavoid; + sdp_maerts_request->so_sndavoid = rem_sndavoid; +#ifdef DIRTY + sdp_maerts_request->dirty_count = rem_dirty_count; + sdp_maerts_request->clean_count = rem_clean_count; +#endif /* DIRTY */ + sdp_maerts_request->port = atoi(remote_data_port); + sdp_maerts_request->ipfamily = af_to_nf(remote_res->ai_family); + if (debug > 1) { + fprintf(where, + "netperf: send_sdp_maerts: requesting SDP maerts test\n"); + } + + send_request(); + + /* The response from the remote will contain all of the relevant + socket parameters for this test type. We will put them back + into the variables here so they can be displayed if desired. + The remote will have calibrated CPU if necessary, and will + have done all the needed set-up we will have calibrated the + cpu locally before sending the request, and will grab the + counter value right after the connect returns. The remote + will grab the counter right after the accept call. This saves + the hassle of extra messages being sent for the SDP + tests. */ + + recv_response(); + + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote listen done.\n"); + rsr_size = sdp_maerts_response->recv_buf_size; + rss_size = sdp_maerts_response->send_buf_size; + rem_nodelay = sdp_maerts_response->no_delay; + remote_cpu_usage= sdp_maerts_response->measure_cpu; + remote_cpu_rate = sdp_maerts_response->cpu_rate; + send_size = sdp_maerts_response->send_size; + + /* we have to make sure that the server port number is in + network order */ + set_port_number(remote_res, + (short)sdp_maerts_response->data_port_number); + rem_rcvavoid = sdp_maerts_response->so_rcvavoid; + rem_sndavoid = sdp_maerts_response->so_sndavoid; + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where, + "netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + + exit(1); + } + } + +#ifdef WANT_DEMO + DEMO_STREAM_SETUP(lsr_size,rss_size) +#endif + + /*Connect up to the remote port on the data socket */ + if (connect(recv_socket, + remote_res->ai_addr, + remote_res->ai_addrlen) == INVALID_SOCKET){ + perror("netperf: send_sdp_maerts: data socket connect failed"); + exit(1); + } + + /* Data Socket set-up is finished. If there were problems, either */ + /* the connect would have failed, or the previous response would */ + /* have indicated a problem. I failed to see the value of the */ + /* extra message after the accept on the remote. If it failed, */ + /* we'll see it here. If it didn't, we might as well start pumping */ + /* data. */ + + /* Set-up the test end conditions. For a maerts test, they can be */ + /* either time or byte-count based. */ + + if (test_time) { + /* The user wanted to end the test after a period of time. */ + times_up = 0; + bytes_remaining = 0; + /* in previous revisions, we had the same code repeated throught */ + /* all the test suites. this was unnecessary, and meant more */ + /* work for me when I wanted to switch to POSIX signals, so I */ + /* have abstracted this out into a routine in netlib.c. if you */ + /* are experiencing signal problems, you might want to look */ + /* there. raj 11/94 */ + if (!no_control) { + /* this is a netperf to netserver test, netserver will close + to tell us the test is over, so use PAD_TIME to avoid + causing the netserver fits. */ + start_timer(test_time + PAD_TIME); + } + else { + /* this is a netperf to data source test, no PAD_TIME */ + start_timer(test_time); + } + } + else { + /* The tester wanted to recv a number of bytes. we don't do that + in a SDP_MAERTS test. sorry. raj 2002-06-21 */ + printf("netperf: send_sdp_maerts: test must be timed\n"); + exit(1); + } + + /* The cpu_start routine will grab the current time and possibly */ + /* value of the idle counter for later use in measuring cpu */ + /* utilization and/or service demand and thruput. */ + + cpu_start(local_cpu_usage); + +#ifdef WANT_INTERVALS + INTERVALS_INIT(); +#endif /* WANT_INTERVALS */ + + /* before we start, initialize a few variables */ + +#ifdef WANT_DEMO + if (demo_mode) { + HIST_timestamp(demo_one_ptr); + } +#endif + + /* the test will continue until we either get a zero-byte recv() + on the socket or our failsafe timer expires. most of the time + we trust that we get a zero-byte recieve from the socket. raj + 2002-06-21 */ + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* timestamp just before we go into recv and then again just + after we come out raj 8/94 */ + /* but only if we are actually going to display a histogram. raj + 2006-02-07 */ + HIST_timestamp(&time_one); + } +#endif /* WANT_HISTOGRAM */ + + while ((!times_up) && (len=recv(recv_socket, + recv_ring->buffer_ptr, + recv_size, + 0)) > 0 ) { + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* timestamp the exit from the recv call and update the histogram */ + HIST_timestamp(&time_two); + HIST_add(time_hist,delta_micro(&time_one,&time_two)); + } +#endif /* WANT_HISTOGRAM */ + +#ifdef DIRTY + access_buffer(recv_ring->buffer_ptr, + recv_size, + loc_dirty_count, + loc_clean_count); +#endif /* DIRTY */ + +#ifdef WANT_DEMO + DEMO_STREAM_INTERVAL(len); +#endif + +#ifdef WANT_INTERVALS + INTERVALS_WAIT(); +#endif /* WANT_INTERVALS */ + + /* now we want to move our pointer to the next position in the */ + /* data buffer...we may also want to wrap back to the "beginning" */ + /* of the bufferspace, so we will mod the number of messages sent */ + /* by the recv width, and use that to calculate the offset to add */ + /* to the base pointer. */ + nummessages++; + recv_ring = recv_ring->next; + if (bytes_remaining) { + bytes_remaining -= len; + } + + local_bytes_recvd += len; + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* make sure we timestamp just before we go into recv */ + /* raj 2004-06-15 */ + HIST_timestamp(&time_one); + } +#endif /* WANT_HISTOGRAM */ + + } + + /* an EINTR is to be expected when this is a no_control test */ + if (((len < 0) || SOCKET_EINTR(len)) && (!no_control)) { + perror("send_sdp_maerts: data recv error"); + printf("len was %d\n",len); + exit(1); + } + + /* if we get here, it must mean we had a recv return of 0 before + the watchdog timer expired, or the watchdog timer expired and + this was a no_control test */ + + /* The test is over. Flush the buffers to the remote end. We do a + graceful release to tell the remote we have all the data. */ + + /* but first, if the verbosity is greater than 1, find-out what */ + /* the SDP maximum segment_size was (if possible) */ + if (verbosity > 1) { + sdp_mss = -1; + get_sdp_info(recv_socket,&sdp_mss); + } + + if (shutdown(recv_socket,SHUT_WR) == SOCKET_ERROR) { + perror("netperf: cannot shutdown sdp maerts socket"); + exit(1); + } + + stop_timer(); + + /* this call will always give us the local elapsed time for the + test, and will also store-away the necessaries for cpu + utilization */ + + cpu_stop(local_cpu_usage,&elapsed_time); /* was cpu being */ + /* measured and how */ + /* long did we really */ + /* run? */ + + /* we are finished with the socket, so close it to prevent hitting */ + /* the limit on maximum open files. */ + + close(recv_socket); + + if (!no_control) { + /* Get the statistics from the remote end. The remote will have + calculated service demand and all those interesting + things. If it wasn't supposed to care, it will return obvious + values. */ + + recv_response(); + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote results obtained\n"); + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where, + "netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + + exit(1); + } + + /* We now calculate what our thruput was for the test. In the + future, we may want to include a calculation of the thruput + measured by the remote, but it should be the case that for a + SDP maerts test, that the two numbers should be *very* + close... We calculate bytes_sent regardless of the way the + test length was controlled. If it was time, we needed to, + and if it was by bytes, the user may have specified a number + of bytes that wasn't a multiple of the recv_size, so we + really didn't recv what he asked for ;-) */ + + bytes_sent = ntohd(sdp_maerts_result->bytes_sent); + } + else { + bytes_sent = (double)local_bytes_recvd; + } + + + thruput = calc_thruput(bytes_sent); + + if (local_cpu_usage || remote_cpu_usage) { + /* We must now do a little math for service demand and cpu */ + /* utilization for the system(s) */ + /* Of course, some of the information might be bogus because */ + /* there was no idle counter in the kernel(s). We need to make */ + /* a note of this for the user's benefit...*/ + if (local_cpu_usage) { + + local_cpu_utilization = calc_cpu_util(0.0); + local_service_demand = calc_service_demand(bytes_sent, + 0.0, + 0.0, + 0); + } + else { + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + } + + if (remote_cpu_usage) { + + remote_cpu_utilization = sdp_maerts_result->cpu_util; + remote_service_demand = calc_service_demand(bytes_sent, + 0.0, + remote_cpu_utilization, + sdp_maerts_result->num_cpus); + } + else { + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + } + else { + /* we were not measuring cpu, for the confidence stuff, we */ + /* should make it -1.0 */ + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + + /* at this point, we want to calculate the confidence information. */ + /* if debugging is on, calculate_confidence will print-out the */ + /* parameters we pass it */ + + calculate_confidence(confidence_iteration, + elapsed_time, + thruput, + local_cpu_utilization, + remote_cpu_utilization, + local_service_demand, + remote_service_demand); + + + confidence_iteration++; + } + + /* at this point, we have finished making all the runs that we */ + /* will be making. so, we should extract what the calcuated values */ + /* are for all the confidence stuff. we could make the values */ + /* global, but that seemed a little messy, and it did not seem worth */ + /* all the mucking with header files. so, we create a routine much */ + /* like calcualte_confidence, which just returns the mean values. */ + /* raj 11/94 */ + + retrieve_confident_values(&elapsed_time, + &thruput, + &local_cpu_utilization, + &remote_cpu_utilization, + &local_service_demand, + &remote_service_demand); + + /* We are now ready to print all the information. If the user */ + /* has specified zero-level verbosity, we will just print the */ + /* local service demand, or the remote service demand. If the */ + /* user has requested verbosity level 1, he will get the basic */ + /* "streamperf" numbers. If the user has specified a verbosity */ + /* of greater than 1, we will display a veritable plethora of */ + /* background information from outside of this block as it it */ + /* not cpu_measurement specific... */ + + if (confidence < 0) { + /* we did not hit confidence, but were we asked to look for it? */ + if (iteration_max > 1) { + display_confidence(); + } + } + + if (local_cpu_usage || remote_cpu_usage) { + local_cpu_method = format_cpu_method(cpu_method); + remote_cpu_method = format_cpu_method(sdp_maerts_result->cpu_method); + + switch (verbosity) { + case 0: + if (local_cpu_usage) { + fprintf(where, + cpu_fmt_0, + local_service_demand, + local_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + else { + fprintf(where, + cpu_fmt_0, + remote_service_demand, + remote_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + break; + case 1: + case 2: + if (print_headers) { + fprintf(where, + cpu_title, + format_units(), + local_cpu_method, + remote_cpu_method); + } + + fprintf(where, + cpu_fmt_1, /* the format string */ + rsr_size, /* remote recvbuf size */ + lss_size, /* local sendbuf size */ + send_size, /* how large were the recvs */ + elapsed_time, /* how long was the test */ + thruput, /* what was the xfer rate */ + local_cpu_utilization, /* local cpu */ + remote_cpu_utilization, /* remote cpu */ + local_service_demand, /* local service demand */ + remote_service_demand, /* remote service demand */ + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + } + } + else { + /* The tester did not wish to measure service demand. */ + + switch (verbosity) { + case 0: + fprintf(where, + tput_fmt_0, + thruput, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + case 1: + case 2: + if (print_headers) { + fprintf(where,tput_title,format_units()); + } + fprintf(where, + tput_fmt_1, /* the format string */ + lsr_size, /* local recvbuf size */ + rss_size, /* remot sendbuf size */ + send_size, /* how large were the recvs */ + elapsed_time, /* how long did it take */ + thruput, /* how fast did it go */ + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + } + } + + /* it would be a good thing to include information about some of the */ + /* other parameters that may have been set for this test, but at the */ + /* moment, I do not wish to figure-out all the formatting, so I will */ + /* just put this comment here to help remind me that it is something */ + /* that should be done at a later time. */ + + if (verbosity > 1) { + /* The user wanted to know it all, so we will give it to him. */ + /* This information will include as much as we can find about */ + /* SDP statistics, the alignments of the sends and receives */ + /* and all that sort of rot... */ + + /* this stuff needs to be worked-out in the presence of confidence */ + /* intervals and multiple iterations of the test... raj 11/94 */ + + fprintf(where, + ksink_fmt, + "Bytes", + "Bytes", + "Bytes", + local_recv_align, + remote_recv_align, + local_recv_offset, + remote_recv_offset, + bytes_sent, + bytes_sent / (double)nummessages, + nummessages, + bytes_sent / (double)sdp_maerts_result->send_calls, + sdp_maerts_result->send_calls); + fprintf(where, + ksink_fmt2, + sdp_mss); + fflush(where); +#ifdef WANT_HISTOGRAM + fprintf(where,"\n\nHistogram of time spent in recv() call.\n"); + fflush(where); + HIST_report(time_hist); +#endif /* WANT_HISTOGRAM */ + } + +} +/* This is the server-side routine for the sdp stream test. It is */ +/* implemented as one routine. I could break things-out somewhat, but */ +/* didn't feel it was necessary. */ + +void +recv_sdp_stream() +{ + + struct sockaddr_in myaddr_in, peeraddr_in; + SOCKET s_listen,s_data; + netperf_socklen_t addrlen; + int len; + unsigned int receive_calls; + float elapsed_time; + double bytes_received; + + struct ring_elt *recv_ring; + + struct addrinfo *local_res; + char local_name[BUFSIZ]; + char port_buffer[PORTBUFSIZE]; + +#ifdef DO_SELECT + fd_set readfds; + struct timeval timeout; +#endif /* DO_SELECT */ + + struct sdp_stream_request_struct *sdp_stream_request; + struct sdp_stream_response_struct *sdp_stream_response; + struct sdp_stream_results_struct *sdp_stream_results; + +#ifdef DO_SELECT + FD_ZERO(&readfds); + timeout.tv_sec = 1; + timeout.tv_usec = 0; +#endif /* DO_SELECT */ + + sdp_stream_request = + (struct sdp_stream_request_struct *)netperf_request.content.test_specific_data; + sdp_stream_response = + (struct sdp_stream_response_struct *)netperf_response.content.test_specific_data; + sdp_stream_results = + (struct sdp_stream_results_struct *)netperf_response.content.test_specific_data; + + if (debug) { + fprintf(where,"netserver: recv_sdp_stream: entered...\n"); + fflush(where); + } + + /* We want to set-up the listen socket with all the desired */ + /* parameters and then let the initiator know that all is ready. If */ + /* socket size defaults are to be used, then the initiator will have */ + /* sent us 0's. If the socket sizes cannot be changed, then we will */ + /* send-back what they are. If that information cannot be determined, */ + /* then we send-back -1's for the sizes. If things go wrong for any */ + /* reason, we will drop back ten yards and punt. */ + + /* If anything goes wrong, we want the remote to know about it. It */ + /* would be best if the error that the remote reports to the user is */ + /* the actual error we encountered, rather than some bogus unexpected */ + /* response type message. */ + + if (debug) { + fprintf(where,"recv_sdp_stream: setting the response type...\n"); + fflush(where); + } + + netperf_response.content.response_type = SDP_STREAM_RESPONSE; + + if (debug) { + fprintf(where,"recv_sdp_stream: the response type is set...\n"); + fflush(where); + } + + /* We now alter the message_ptr variable to be at the desired */ + /* alignment with the desired offset. */ + + if (debug) { + fprintf(where,"recv_sdp_stream: requested alignment of %d\n", + sdp_stream_request->recv_alignment); + fflush(where); + } + + /* create_data_socket expects to find some things in the global */ + /* variables, so set the globals based on the values in the request. */ + /* once the socket has been created, we will set the response values */ + /* based on the updated value of those globals. raj 7/94 */ + lss_size_req = sdp_stream_request->send_buf_size; + lsr_size_req = sdp_stream_request->recv_buf_size; + loc_nodelay = sdp_stream_request->no_delay; + loc_rcvavoid = sdp_stream_request->so_rcvavoid; + loc_sndavoid = sdp_stream_request->so_sndavoid; + + set_hostname_and_port(local_name, + port_buffer, + nf_to_af(sdp_stream_request->ipfamily), + sdp_stream_request->port); + + local_res = complete_addrinfo(local_name, + local_name, + port_buffer, + nf_to_af(sdp_stream_request->ipfamily), + SOCK_STREAM, + IPPROTO_TCP, + 0); + + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + s_listen = create_data_socket(local_res); + + if (s_listen == INVALID_SOCKET) { + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + +#ifdef WIN32 + /* The test timer can fire during operations on the listening socket, + so to make the start_timer below work we have to move + it to close s_listen while we are blocked on accept. */ + win_kludge_socket2 = s_listen; +#endif + + /* what sort of sizes did we end-up with? */ + if (sdp_stream_request->receive_size == 0) { + if (lsr_size > 0) { + recv_size = lsr_size; + } + else { + recv_size = 4096; + } + } + else { + recv_size = sdp_stream_request->receive_size; + } + + /* we want to set-up our recv_ring in a manner analagous to what we */ + /* do on the sending side. this is more for the sake of symmetry */ + /* than for the needs of say copy avoidance, but it might also be */ + /* more realistic - this way one could conceivably go with a */ + /* double-buffering scheme when taking the data an putting it into */ + /* the filesystem or something like that. raj 7/94 */ + + if (recv_width == 0) { + recv_width = (lsr_size/recv_size) + 1; + if (recv_width == 1) recv_width++; + } + + recv_ring = allocate_buffer_ring(recv_width, + recv_size, + sdp_stream_request->recv_alignment, + sdp_stream_request->recv_offset); + + if (debug) { + fprintf(where,"recv_sdp_stream: receive alignment and offset set...\n"); + fflush(where); + } + + /* Now, let's set-up the socket to listen for connections */ + if (listen(s_listen, 5) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + + /* now get the port number assigned by the system */ + addrlen = sizeof(myaddr_in); + if (getsockname(s_listen, + (struct sockaddr *)&myaddr_in, + &addrlen) == SOCKET_ERROR){ + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + /* Now myaddr_in contains the port and the internet address this is */ + /* returned to the sender also implicitly telling the sender that the */ + /* socket buffer sizing has been done. */ + + sdp_stream_response->data_port_number = (int) ntohs(myaddr_in.sin_port); + netperf_response.content.serv_errno = 0; + + /* But wait, there's more. If the initiator wanted cpu measurements, */ + /* then we must call the calibrate routine, which will return the max */ + /* rate back to the initiator. If the CPU was not to be measured, or */ + /* something went wrong with the calibration, we will return a -1 to */ + /* the initiator. */ + + sdp_stream_response->cpu_rate = (float)0.0; /* assume no cpu */ + if (sdp_stream_request->measure_cpu) { + sdp_stream_response->measure_cpu = 1; + sdp_stream_response->cpu_rate = + calibrate_local_cpu(sdp_stream_request->cpu_rate); + } + else { + sdp_stream_response->measure_cpu = 0; + } + + /* before we send the response back to the initiator, pull some of */ + /* the socket parms from the globals */ + sdp_stream_response->send_buf_size = lss_size; + sdp_stream_response->recv_buf_size = lsr_size; + sdp_stream_response->no_delay = loc_nodelay; + sdp_stream_response->so_rcvavoid = loc_rcvavoid; + sdp_stream_response->so_sndavoid = loc_sndavoid; + sdp_stream_response->receive_size = recv_size; + + send_response(); + + addrlen = sizeof(peeraddr_in); + + if ((s_data=accept(s_listen, + (struct sockaddr *)&peeraddr_in, + &addrlen)) == INVALID_SOCKET) { + /* Let's just punt. The remote will be given some information */ + close(s_listen); + exit(1); + } + +#ifdef KLUDGE_SOCKET_OPTIONS + /* this is for those systems which *INCORRECTLY* fail to pass */ + /* attributes across an accept() call. Including this goes against */ + /* my better judgement :( raj 11/95 */ + + kludge_socket_options(s_data); + +#endif /* KLUDGE_SOCKET_OPTIONS */ + + /* Now it's time to start receiving data on the connection. We will */ + /* first grab the apropriate counters and then start grabbing. */ + + cpu_start(sdp_stream_request->measure_cpu); + + /* The loop will exit when the sender does a shutdown, which will */ + /* return a length of zero */ + + /* there used to be an #ifdef DIRTY call to access_buffer() here, + but we have switched from accessing the buffer before the recv() + call to accessing the buffer after the recv() call. The + accessing before was, IIRC, related to having dirty data when + doing page-flipping copy avoidance. */ + + bytes_received = 0; + receive_calls = 0; + + while ((len = recv(s_data, recv_ring->buffer_ptr, recv_size, 0)) != 0) { + if (len == SOCKET_ERROR ) + { + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + bytes_received += len; + receive_calls++; + +#ifdef DIRTY + /* we access the buffer after the recv() call now, rather than before */ + access_buffer(recv_ring->buffer_ptr, + recv_size, + sdp_stream_request->dirty_count, + sdp_stream_request->clean_count); +#endif /* DIRTY */ + + + /* move to the next buffer in the recv_ring */ + recv_ring = recv_ring->next; + +#ifdef PAUSE + sleep(1); +#endif /* PAUSE */ + +#ifdef DO_SELECT + FD_SET(s_data,&readfds); + select(s_data+1,&readfds,NULL,NULL,&timeout); +#endif /* DO_SELECT */ + + } + + /* perform a shutdown to signal the sender that */ + /* we have received all the data sent. raj 4/93 */ + + if (shutdown(s_data,SHUT_WR) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + + cpu_stop(sdp_stream_request->measure_cpu,&elapsed_time); + + /* send the results to the sender */ + + if (debug) { + fprintf(where, + "recv_sdp_stream: got %g bytes\n", + bytes_received); + fprintf(where, + "recv_sdp_stream: got %d recvs\n", + receive_calls); + fflush(where); + } + + sdp_stream_results->bytes_received = htond(bytes_received); + sdp_stream_results->elapsed_time = elapsed_time; + sdp_stream_results->recv_calls = receive_calls; + + sdp_stream_results->cpu_method = cpu_method; + sdp_stream_results->num_cpus = lib_num_loc_cpus; + + if (sdp_stream_request->measure_cpu) { + sdp_stream_results->cpu_util = calc_cpu_util(0.0); + }; + + if (debug) { + fprintf(where, + "recv_sdp_stream: test complete, sending results.\n"); + fprintf(where, + " bytes_received %g receive_calls %d\n", + bytes_received, + receive_calls); + fprintf(where, + " len %d\n", + len); + fflush(where); + } + + send_response(); + + /* we are now done with the sockets */ + close(s_data); + close(s_listen); + + } + +/* This is the server-side routine for the sdp maerts test. It is + implemented as one routine. I could break things-out somewhat, but + didn't feel it was necessary. */ + +void +recv_sdp_maerts() +{ + + struct sockaddr_in myaddr_in, peeraddr_in; + struct addrinfo *local_res; + char local_name[BUFSIZ]; + char port_buffer[PORTBUFSIZE]; + + SOCKET s_listen,s_data; + netperf_socklen_t addrlen; + int len; + unsigned int send_calls; + float elapsed_time; + double bytes_sent = 0.0 ; + + struct ring_elt *send_ring; + + struct sdp_maerts_request_struct *sdp_maerts_request; + struct sdp_maerts_response_struct *sdp_maerts_response; + struct sdp_maerts_results_struct *sdp_maerts_results; + + sdp_maerts_request = + (struct sdp_maerts_request_struct *)netperf_request.content.test_specific_data; + sdp_maerts_response = + (struct sdp_maerts_response_struct *)netperf_response.content.test_specific_data; + sdp_maerts_results = + (struct sdp_maerts_results_struct *)netperf_response.content.test_specific_data; + + if (debug) { + fprintf(where,"netserver: recv_sdp_maerts: entered...\n"); + fflush(where); + } + + /* We want to set-up the listen socket with all the desired + parameters and then let the initiator know that all is ready. If + socket size defaults are to be used, then the initiator will have + sent us 0's. If the socket sizes cannot be changed, then we will + send-back what they are. If that information cannot be + determined, then we send-back -1's for the sizes. If things go + wrong for any reason, we will drop back ten yards and punt. */ + + /* If anything goes wrong, we want the remote to know about it. It + would be best if the error that the remote reports to the user is + the actual error we encountered, rather than some bogus + unexpected response type message. */ + + if (debug) { + fprintf(where,"recv_sdp_maerts: setting the response type...\n"); + fflush(where); + } + + netperf_response.content.response_type = SDP_MAERTS_RESPONSE; + + if (debug) { + fprintf(where,"recv_sdp_maerts: the response type is set...\n"); + fflush(where); + } + + /* We now alter the message_ptr variable to be at the desired */ + /* alignment with the desired offset. */ + + if (debug) { + fprintf(where,"recv_sdp_maerts: requested alignment of %d\n", + sdp_maerts_request->send_alignment); + fflush(where); + } + + /* Grab a socket to listen on, and then listen on it. */ + + if (debug) { + fprintf(where,"recv_sdp_maerts: grabbing a socket...\n"); + fflush(where); + } + + /* create_data_socket expects to find some things in the global */ + /* variables, so set the globals based on the values in the request. */ + /* once the socket has been created, we will set the response values */ + /* based on the updated value of those globals. raj 7/94 */ + lss_size_req = sdp_maerts_request->send_buf_size; + lsr_size_req = sdp_maerts_request->recv_buf_size; + loc_nodelay = sdp_maerts_request->no_delay; + loc_rcvavoid = sdp_maerts_request->so_rcvavoid; + loc_sndavoid = sdp_maerts_request->so_sndavoid; + + set_hostname_and_port(local_name, + port_buffer, + nf_to_af(sdp_maerts_request->ipfamily), + sdp_maerts_request->port); + + local_res = complete_addrinfo(local_name, + local_name, + port_buffer, + nf_to_af(sdp_maerts_request->ipfamily), + SOCK_STREAM, + IPPROTO_TCP, + 0); + + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + s_listen = create_data_socket(local_res); + + if (s_listen == INVALID_SOCKET) { + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + +#ifdef WIN32 + /* The test timer can fire during operations on the listening socket, + so to make the start_timer below work we have to move + it to close s_listen while we are blocked on accept. */ + win_kludge_socket2 = s_listen; +#endif + + + /* what sort of sizes did we end-up with? */ + if (sdp_maerts_request->send_size == 0) { + if (lss_size > 0) { + send_size = lss_size; + } + else { + send_size = 4096; + } + } + else { + send_size = sdp_maerts_request->send_size; + } + + /* we want to set-up our recv_ring in a manner analagous to what we */ + /* do on the recving side. this is more for the sake of symmetry */ + /* than for the needs of say copy avoidance, but it might also be */ + /* more realistic - this way one could conceivably go with a */ + /* double-buffering scheme when taking the data an putting it into */ + /* the filesystem or something like that. raj 7/94 */ + + if (send_width == 0) { + send_width = (lsr_size/send_size) + 1; + if (send_width == 1) send_width++; + } + + send_ring = allocate_buffer_ring(send_width, + send_size, + sdp_maerts_request->send_alignment, + sdp_maerts_request->send_offset); + + if (debug) { + fprintf(where,"recv_sdp_maerts: receive alignment and offset set...\n"); + fflush(where); + } + + /* Now, let's set-up the socket to listen for connections */ + if (listen(s_listen, 5) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + + /* now get the port number assigned by the system */ + addrlen = sizeof(myaddr_in); + if (getsockname(s_listen, + (struct sockaddr *)&myaddr_in, + &addrlen) == SOCKET_ERROR){ + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + /* Now myaddr_in contains the port and the internet address this is */ + /* returned to the sender also implicitly telling the sender that the */ + /* socket buffer sizing has been done. */ + + sdp_maerts_response->data_port_number = (int) ntohs(myaddr_in.sin_port); + netperf_response.content.serv_errno = 0; + + /* But wait, there's more. If the initiator wanted cpu measurements, */ + /* then we must call the calibrate routine, which will return the max */ + /* rate back to the initiator. If the CPU was not to be measured, or */ + /* something went wrong with the calibration, we will return a -1 to */ + /* the initiator. */ + + sdp_maerts_response->cpu_rate = (float)0.0; /* assume no cpu */ + if (sdp_maerts_request->measure_cpu) { + sdp_maerts_response->measure_cpu = 1; + sdp_maerts_response->cpu_rate = + calibrate_local_cpu(sdp_maerts_request->cpu_rate); + } + else { + sdp_maerts_response->measure_cpu = 0; + } + + /* before we send the response back to the initiator, pull some of */ + /* the socket parms from the globals */ + sdp_maerts_response->send_buf_size = lss_size; + sdp_maerts_response->recv_buf_size = lsr_size; + sdp_maerts_response->no_delay = loc_nodelay; + sdp_maerts_response->so_rcvavoid = loc_rcvavoid; + sdp_maerts_response->so_sndavoid = loc_sndavoid; + sdp_maerts_response->send_size = send_size; + + send_response(); + + addrlen = sizeof(peeraddr_in); + + /* we will start the timer before the accept() to be somewhat + analagous to the starting of the timer before the connect() call + in the SDP_STREAM test. raj 2002-06-21 */ + + start_timer(sdp_maerts_request->test_length); + + /* Now it's time to start receiving data on the connection. We will + first grab the apropriate counters and then start grabbing. */ + + cpu_start(sdp_maerts_request->measure_cpu); + + + if ((s_data=accept(s_listen, + (struct sockaddr *)&peeraddr_in, + &addrlen)) == INVALID_SOCKET) { + /* Let's just punt. The remote will be given some information */ + close(s_listen); + exit(1); + } + +#ifdef KLUDGE_SOCKET_OPTIONS + + /* this is for those systems which *INCORRECTLY* fail to pass + attributes across an accept() call. Including this goes against + my better judgement :( raj 11/95 */ + + kludge_socket_options(s_data); + +#endif /* KLUDGE_SOCKET_OPTIONS */ + + /* The loop will exit when the sender does a shutdown, which will */ + /* return a length of zero */ + + bytes_sent = 0.0; + send_calls = 0; + + len = 0; /* nt-lint; len is not initialized (printf far below) if + times_up initially true.*/ + times_up = 0; /* must remember to initialize this little beauty */ + while (!times_up) { + +#ifdef DIRTY + /* we want to dirty some number of consecutive integers in the buffer */ + /* we are about to send. we may also want to bring some number of */ + /* them cleanly into the cache. The clean ones will follow any dirty */ + /* ones into the cache. */ + + access_buffer(send_ring->buffer_ptr, + send_size, + sdp_maerts_request->dirty_count, + sdp_maerts_request->clean_count); + +#endif /* DIRTY */ + + if((len=send(s_data, + send_ring->buffer_ptr, + send_size, + 0)) != send_size) { + if ((len >=0) || SOCKET_EINTR(len)) { + /* the test was interrupted, must be the end of test */ + break; + } + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + + bytes_sent += len; + send_calls++; + + /* more to the next buffer in the send_ring */ + send_ring = send_ring->next; + + } + + /* perform a shutdown to signal the sender that */ + /* we have received all the data sent. raj 4/93 */ + + if (shutdown(s_data,SHUT_WR) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + + /* hang a recv() off the socket to block until the remote has + brought all the data up into the application. it will do a + shutdown to cause a FIN to be sent our way. We will assume that + any exit from the recv() call is good... raj 4/93 */ + + recv(s_data, send_ring->buffer_ptr, send_size, 0); + + + cpu_stop(sdp_maerts_request->measure_cpu,&elapsed_time); + + /* send the results to the sender */ + + if (debug) { + fprintf(where, + "recv_sdp_maerts: got %g bytes\n", + bytes_sent); + fprintf(where, + "recv_sdp_maerts: got %d sends\n", + send_calls); + fflush(where); + } + + sdp_maerts_results->bytes_sent = htond(bytes_sent); + sdp_maerts_results->elapsed_time = elapsed_time; + sdp_maerts_results->send_calls = send_calls; + + if (sdp_maerts_request->measure_cpu) { + sdp_maerts_results->cpu_util = calc_cpu_util(0.0); + }; + + if (debug) { + fprintf(where, + "recv_sdp_maerts: test complete, sending results.\n"); + fprintf(where, + " bytes_sent %g send_calls %d\n", + bytes_sent, + send_calls); + fprintf(where, + " len %d\n", + len); + fflush(where); + } + + sdp_maerts_results->cpu_method = cpu_method; + sdp_maerts_results->num_cpus = lib_num_loc_cpus; + send_response(); + + /* we are now done with the sockets */ + close(s_data); + close(s_listen); + + } + + + /* this routine implements the sending (netperf) side of the SDP_RR */ + /* test. */ + +void +send_sdp_rr(char remote_host[]) +{ + + char *tput_title = "\ +Local /Remote\n\ +Socket Size Request Resp. Elapsed Trans.\n\ +Send Recv Size Size Time Rate \n\ +bytes Bytes bytes bytes secs. per sec \n\n"; + + char *tput_fmt_0 = + "%7.2f %s\n"; + + char *tput_fmt_1_line_1 = "\ +%-6d %-6d %-6d %-6d %-6.2f %7.2f %s\n"; + char *tput_fmt_1_line_2 = "\ +%-6d %-6d\n"; + + char *cpu_title = "\ +Local /Remote\n\ +Socket Size Request Resp. Elapsed Trans. CPU CPU S.dem S.dem\n\ +Send Recv Size Size Time Rate local remote local remote\n\ +bytes bytes bytes bytes secs. per sec %% %c %% %c us/Tr us/Tr\n\n"; + + char *cpu_fmt_0 = + "%6.3f %c %s\n"; + + char *cpu_fmt_1_line_1 = "\ +%-6d %-6d %-6d %-6d %-6.2f %-6.2f %-6.2f %-6.2f %-6.3f %-6.3f %s\n"; + + char *cpu_fmt_1_line_2 = "\ +%-6d %-6d\n"; + + char *ksink_fmt = "\ +Alignment Offset\n\ +Local Remote Local Remote\n\ +Send Recv Send Recv\n\ +%5d %5d %5d %5d\n"; + + + int timed_out = 0; + float elapsed_time; + + int len; + char *temp_message_ptr; + int nummessages; + SOCKET send_socket; + int trans_remaining; + double bytes_xferd; + + struct ring_elt *send_ring; + struct ring_elt *recv_ring; + + int rsp_bytes_left; + int rsp_bytes_recvd; + + float local_cpu_utilization; + float local_service_demand; + float remote_cpu_utilization; + float remote_service_demand; + double thruput; + + struct addrinfo *local_res; + struct addrinfo *remote_res; + + struct sdp_rr_request_struct *sdp_rr_request; + struct sdp_rr_response_struct *sdp_rr_response; + struct sdp_rr_results_struct *sdp_rr_result; + +#ifdef WANT_FIRST_BURST +#define REQUEST_CWND_INITIAL 2 + /* "in the beginning..." the WANT_FIRST_BURST stuff was like both + Unix and the state of New Jersey - both were simple an unspoiled. + then it was realized that some stacks are quite picky about + initial congestion windows and a non-trivial initial burst of + requests would not be individual segments even with TCP_NODELAY + set. so, we have to start tracking a poor-man's congestion window + up here in window space because we want to try to make something + happen that frankly, we cannot guarantee with the specification + of SDP. ain't that grand?-) raj 2006-01-30 */ + int requests_outstanding = 0; + int request_cwnd = REQUEST_CWND_INITIAL; /* we ass-u-me that having + three requests + outstanding at the + beginning of the test + is ok with SDP stacks + of interest. the first + two will come from our + first_burst loop, and + the third from our + regularly scheduled + send */ +#endif + + sdp_rr_request = + (struct sdp_rr_request_struct *)netperf_request.content.test_specific_data; + sdp_rr_response= + (struct sdp_rr_response_struct *)netperf_response.content.test_specific_data; + sdp_rr_result = + (struct sdp_rr_results_struct *)netperf_response.content.test_specific_data; + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + time_hist = HIST_new(); + } +#endif /* WANT_HISTOGRAM */ + + /* since we are now disconnected from the code that established the */ + /* control socket, and since we want to be able to use different */ + /* protocols and such, we are passed the name of the remote host and */ + /* must turn that into the test specific addressing information. */ + + complete_addrinfos(&remote_res, + &local_res, + remote_host, + SOCK_STREAM, + IPPROTO_TCP, + 0); + + if ( print_headers ) { + print_top_test_header("SDP REQUEST/RESPONSE TEST",local_res,remote_res); + } + + /* initialize a few counters */ + + send_ring = NULL; + recv_ring = NULL; + confidence_iteration = 1; + init_stat(); + + /* we have a great-big while loop which controls the number of times */ + /* we run a particular test. this is for the calculation of a */ + /* confidence interval (I really should have stayed awake during */ + /* probstats :). If the user did not request confidence measurement */ + /* (no confidence is the default) then we will only go though the */ + /* loop once. the confidence stuff originates from the folks at IBM */ + + while (((confidence < 0) && (confidence_iteration < iteration_max)) || + (confidence_iteration <= iteration_min)) { + + /* initialize a few counters. we have to remember that we might be */ + /* going through the loop more than once. */ + + nummessages = 0; + bytes_xferd = 0.0; + times_up = 0; + timed_out = 0; + trans_remaining = 0; + +#ifdef WANT_FIRST_BURST + /* we have to remember to reset the number of transactions + outstanding and the "congestion window for each new + iteration. raj 2006-01-31 */ + requests_outstanding = 0; + request_cwnd = REQUEST_CWND_INITIAL; +#endif + + + /* set-up the data buffers with the requested alignment and offset. */ + /* since this is a request/response test, default the send_width and */ + /* recv_width to 1 and not two raj 7/94 */ + + if (send_width == 0) send_width = 1; + if (recv_width == 0) recv_width = 1; + + if (send_ring == NULL) { + send_ring = allocate_buffer_ring(send_width, + req_size, + local_send_align, + local_send_offset); + } + + if (recv_ring == NULL) { + recv_ring = allocate_buffer_ring(recv_width, + rsp_size, + local_recv_align, + local_recv_offset); + } + + /*set up the data socket */ + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + send_socket = create_data_socket(local_res); + + if (send_socket == INVALID_SOCKET){ + perror("netperf: send_sdp_rr: sdp stream data socket"); + exit(1); + } + + if (debug) { + fprintf(where,"send_sdp_rr: send_socket obtained...\n"); + } + + /* If the user has requested cpu utilization measurements, we must */ + /* calibrate the cpu(s). We will perform this task within the tests */ + /* themselves. If the user has specified the cpu rate, then */ + /* calibrate_local_cpu will return rather quickly as it will have */ + /* nothing to do. If local_cpu_rate is zero, then we will go through */ + /* all the "normal" calibration stuff and return the rate back.*/ + + if (local_cpu_usage) { + local_cpu_rate = calibrate_local_cpu(local_cpu_rate); + } + + if (!no_control) { + /* Tell the remote end to do a listen. The server alters the + socket paramters on the other side at this point, hence the + reason for all the values being passed in the setup + message. If the user did not specify any of the parameters, + they will be passed as 0, which will indicate to the remote + that no changes beyond the system's default should be + used. Alignment is the exception, it will default to 8, which + will be no alignment alterations. */ + + netperf_request.content.request_type = DO_SDP_RR; + sdp_rr_request->recv_buf_size = rsr_size_req; + sdp_rr_request->send_buf_size = rss_size_req; + sdp_rr_request->recv_alignment = remote_recv_align; + sdp_rr_request->recv_offset = remote_recv_offset; + sdp_rr_request->send_alignment = remote_send_align; + sdp_rr_request->send_offset = remote_send_offset; + sdp_rr_request->request_size = req_size; + sdp_rr_request->response_size = rsp_size; + sdp_rr_request->no_delay = rem_nodelay; + sdp_rr_request->measure_cpu = remote_cpu_usage; + sdp_rr_request->cpu_rate = remote_cpu_rate; + sdp_rr_request->so_rcvavoid = rem_rcvavoid; + sdp_rr_request->so_sndavoid = rem_sndavoid; + if (test_time) { + sdp_rr_request->test_length = test_time; + } + else { + sdp_rr_request->test_length = test_trans * -1; + } + sdp_rr_request->port = atoi(remote_data_port); + sdp_rr_request->ipfamily = af_to_nf(remote_res->ai_family); + + if (debug > 1) { + fprintf(where,"netperf: send_sdp_rr: requesting SDP rr test\n"); + } + + send_request(); + + /* The response from the remote will contain all of the relevant + socket parameters for this test type. We will put them back + into the variables here so they can be displayed if desired. + The remote will have calibrated CPU if necessary, and will + have done all the needed set-up we will have calibrated the + cpu locally before sending the request, and will grab the + counter value right after the connect returns. The remote + will grab the counter right after the accept call. This saves + the hassle of extra messages being sent for the SDP + tests. */ + + recv_response(); + + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote listen done.\n"); + rsr_size = sdp_rr_response->recv_buf_size; + rss_size = sdp_rr_response->send_buf_size; + rem_nodelay = sdp_rr_response->no_delay; + remote_cpu_usage = sdp_rr_response->measure_cpu; + remote_cpu_rate = sdp_rr_response->cpu_rate; + /* make sure that port numbers are in network order */ + set_port_number(remote_res,(short)sdp_rr_response->data_port_number); + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where, + "netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + + exit(1); + } + } + +#ifdef WANT_DEMO + DEMO_RR_SETUP(1000) +#endif + + /*Connect up to the remote port on the data socket */ + if (connect(send_socket, + remote_res->ai_addr, + remote_res->ai_addrlen) == INVALID_SOCKET){ + perror("netperf: data socket connect failed"); + + exit(1); + } + + /* Data Socket set-up is finished. If there were problems, either the */ + /* connect would have failed, or the previous response would have */ + /* indicated a problem. I failed to see the value of the extra */ + /* message after the accept on the remote. If it failed, we'll see it */ + /* here. If it didn't, we might as well start pumping data. */ + + /* Set-up the test end conditions. For a request/response test, they */ + /* can be either time or transaction based. */ + + if (test_time) { + /* The user wanted to end the test after a period of time. */ + times_up = 0; + trans_remaining = 0; + start_timer(test_time); + } + else { + /* The tester wanted to send a number of bytes. */ + trans_remaining = test_bytes; + times_up = 1; + } + + /* The cpu_start routine will grab the current time and possibly */ + /* value of the idle counter for later use in measuring cpu */ + /* utilization and/or service demand and thruput. */ + + cpu_start(local_cpu_usage); + +#ifdef WANT_INTERVALS + INTERVALS_INIT(); +#endif /* WANT_INTERVALS */ + + /* We use an "OR" to control test execution. When the test is */ + /* controlled by time, the byte count check will always return false. */ + /* When the test is controlled by byte count, the time test will */ + /* always return false. When the test is finished, the whole */ + /* expression will go false and we will stop sending data. I think I */ + /* just arbitrarily decrement trans_remaining for the timed test, but */ + /* will not do that just yet... One other question is whether or not */ + /* the send buffer and the receive buffer should be the same buffer. */ + +#ifdef WANT_DEMO + if (demo_mode) { + HIST_timestamp(demo_one_ptr); + } +#endif + + while ((!times_up) || (trans_remaining > 0)) { + /* send the request. we assume that if we use a blocking socket, */ + /* the request will be sent at one shot. */ + +#ifdef WANT_FIRST_BURST + /* we can inject no more than request_cwnd, which will grow with + time, and no more than first_burst_size. we don't use <= to + account for the "regularly scheduled" send call. of course + that makes it more a "max_outstanding_ than a + "first_burst_size" but for now we won't fix the names. also, + I suspect the extra check against < first_burst_size is + redundant since later I expect to make sure that request_cwnd + can never get larger than first_burst_size, but just at the + moment I'm feeling like a belt and suspenders kind of + programmer. raj 2006-01-30 */ + while ((first_burst_size > 0) && + (requests_outstanding < request_cwnd) && + (requests_outstanding < first_burst_size)) { + if (debug) { + fprintf(where, + "injecting, req_outstndng %d req_cwnd %d burst %d\n", + requests_outstanding, + request_cwnd, + first_burst_size); + } + if ((len = send(send_socket, + send_ring->buffer_ptr, + req_size, + 0)) != req_size) { + /* we should never hit the end of the test in the first burst */ + perror("send_sdp_rr: initial burst data send error"); + exit(-1); + } + requests_outstanding += 1; + } + +#endif /* WANT_FIRST_BURST */ + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + /* timestamp just before our call to send, and then again just + after the receive raj 8/94 */ + /* but only if we are actually going to display one. raj + 2007-02-07 */ + + HIST_timestamp(&time_one); + } +#endif /* WANT_HISTOGRAM */ + + if ((len = send(send_socket, + send_ring->buffer_ptr, + req_size, + 0)) != req_size) { + if (SOCKET_EINTR(len) || (errno == 0)) { + /* we hit the end of a */ + /* timed test. */ + timed_out = 1; + break; + } + perror("send_sdp_rr: data send error"); + exit(1); + } + send_ring = send_ring->next; + +#ifdef WANT_FIRST_BURST + requests_outstanding += 1; +#endif + + /* receive the response */ + rsp_bytes_left = rsp_size; + temp_message_ptr = recv_ring->buffer_ptr; + while(rsp_bytes_left > 0) { + if((rsp_bytes_recvd=recv(send_socket, + temp_message_ptr, + rsp_bytes_left, + 0)) == SOCKET_ERROR) { + if ( SOCKET_EINTR(rsp_bytes_recvd) ) { + /* We hit the end of a timed test. */ + timed_out = 1; + break; + } + perror("send_sdp_rr: data recv error"); + exit(1); + } + rsp_bytes_left -= rsp_bytes_recvd; + temp_message_ptr += rsp_bytes_recvd; + } + recv_ring = recv_ring->next; + +#ifdef WANT_FIRST_BURST + /* so, since we've gotten a response back, update the + bookkeeping accordingly. there is one less request + outstanding and we can put one more out there than before. */ + requests_outstanding -= 1; + if (request_cwnd < first_burst_size) { + request_cwnd += 1; + if (debug) { + fprintf(where, + "incr req_cwnd to %d first_burst %d reqs_outstndng %d\n", + request_cwnd, + first_burst_size, + requests_outstanding); + } + } +#endif + if (timed_out) { + /* we may have been in a nested while loop - we need */ + /* another call to break. */ + break; + } + +#ifdef WANT_HISTOGRAM + if (verbosity > 1) { + HIST_timestamp(&time_two); + HIST_add(time_hist,delta_micro(&time_one,&time_two)); + } +#endif /* WANT_HISTOGRAM */ + +#ifdef WANT_DEMO + DEMO_RR_INTERVAL(1); +#endif + +#ifdef WANT_INTERVALS + INTERVALS_WAIT(); +#endif /* WANT_INTERVALS */ + + nummessages++; + if (trans_remaining) { + trans_remaining--; + } + + if (debug > 3) { + if ((nummessages % 100) == 0) { + fprintf(where, + "Transaction %d completed\n", + nummessages); + fflush(where); + } + } + } + + /* At this point we used to call shutdown on the data socket to be + sure all the data was delivered, but this was not germane in a + request/response test, and it was causing the tests to "hang" + when they were being controlled by time. So, I have replaced + this shutdown call with a call to close that can be found later + in the procedure. */ + + /* this call will always give us the elapsed time for the test, + and will also store-away the necessaries for cpu utilization */ + + cpu_stop(local_cpu_usage,&elapsed_time); /* was cpu being */ + /* measured? how long */ + /* did we really run? */ + + if (!no_control) { + /* Get the statistics from the remote end. The remote will have + calculated CPU utilization. If it wasn't supposed to care, it + will return obvious values. */ + + recv_response(); + if (!netperf_response.content.serv_errno) { + if (debug) + fprintf(where,"remote results obtained\n"); + } + else { + Set_errno(netperf_response.content.serv_errno); + fprintf(where,"netperf: remote error %d", + netperf_response.content.serv_errno); + perror(""); + fflush(where); + exit(1); + } + } + + /* We now calculate what our throughput was for the test. */ + + bytes_xferd = (req_size * nummessages) + (rsp_size * nummessages); + thruput = nummessages/elapsed_time; + + if (local_cpu_usage || remote_cpu_usage) { + /* We must now do a little math for service demand and cpu + utilization for the system(s) Of course, some of the + information might be bogus because there was no idle counter in + the kernel(s). We need to make a note of this for the user's + benefit... */ + if (local_cpu_usage) { + local_cpu_utilization = calc_cpu_util(0.0); + /* since calc_service demand is doing ms/Kunit we will + multiply the number of transaction by 1024 to get "good" + numbers */ + local_service_demand = calc_service_demand((double) nummessages*1024, + 0.0, + 0.0, + 0); + } + else { + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + } + + if (remote_cpu_usage) { + remote_cpu_utilization = sdp_rr_result->cpu_util; + /* since calc_service demand is doing ms/Kunit we will + multiply the number of transaction by 1024 to get "good" + numbers */ + remote_service_demand = calc_service_demand((double) nummessages*1024, + 0.0, + remote_cpu_utilization, + sdp_rr_result->num_cpus); + } + else { + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + + } + else { + /* we were not measuring cpu, for the confidence stuff, we */ + /* should make it -1.0 */ + local_cpu_utilization = (float) -1.0; + local_service_demand = (float) -1.0; + remote_cpu_utilization = (float) -1.0; + remote_service_demand = (float) -1.0; + } + + /* at this point, we want to calculate the confidence information. + if debugging is on, calculate_confidence will print-out the + parameters we pass it */ + + calculate_confidence(confidence_iteration, + elapsed_time, + thruput, + local_cpu_utilization, + remote_cpu_utilization, + local_service_demand, + remote_service_demand); + + + confidence_iteration++; + + /* we are now done with the socket, so close it */ + close(send_socket); + + } + + retrieve_confident_values(&elapsed_time, + &thruput, + &local_cpu_utilization, + &remote_cpu_utilization, + &local_service_demand, + &remote_service_demand); + + /* We are now ready to print all the information. If the user has + specified zero-level verbosity, we will just print the local + service demand, or the remote service demand. If the user has + requested verbosity level 1, he will get the basic "streamperf" + numbers. If the user has specified a verbosity of greater than 1, + we will display a veritable plethora of background information + from outside of this block as it it not cpu_measurement + specific... */ + + if (confidence < 0) { + /* we did not hit confidence, but were we asked to look for it? */ + if (iteration_max > 1) { + display_confidence(); + } + } + + if (local_cpu_usage || remote_cpu_usage) { + local_cpu_method = format_cpu_method(cpu_method); + remote_cpu_method = format_cpu_method(sdp_rr_result->cpu_method); + + switch (verbosity) { + case 0: + if (local_cpu_usage) { + fprintf(where, + cpu_fmt_0, + local_service_demand, + local_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + else { + fprintf(where, + cpu_fmt_0, + remote_service_demand, + remote_cpu_method, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + } + break; + case 1: + case 2: + if (print_headers) { + fprintf(where, + cpu_title, + local_cpu_method, + remote_cpu_method); + } + + fprintf(where, + cpu_fmt_1_line_1, /* the format string */ + lss_size, /* local sendbuf size */ + lsr_size, + req_size, /* how large were the requests */ + rsp_size, /* guess */ + elapsed_time, /* how long was the test */ + thruput, + local_cpu_utilization, /* local cpu */ + remote_cpu_utilization, /* remote cpu */ + local_service_demand, /* local service demand */ + remote_service_demand, /* remote service demand */ + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + fprintf(where, + cpu_fmt_1_line_2, + rss_size, + rsr_size); + break; + } + } + else { + /* The tester did not wish to measure service demand. */ + + switch (verbosity) { + case 0: + fprintf(where, + tput_fmt_0, + thruput, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + break; + case 1: + case 2: + if (print_headers) { + fprintf(where,tput_title,format_units()); + } + + fprintf(where, + tput_fmt_1_line_1, /* the format string */ + lss_size, + lsr_size, + req_size, /* how large were the requests */ + rsp_size, /* how large were the responses */ + elapsed_time, /* how long did it take */ + thruput, + ((print_headers) || + (result_brand == NULL)) ? "" : result_brand); + fprintf(where, + tput_fmt_1_line_2, + rss_size, /* remote recvbuf size */ + rsr_size); + + break; + } + } + + /* it would be a good thing to include information about some of the */ + /* other parameters that may have been set for this test, but at the */ + /* moment, I do not wish to figure-out all the formatting, so I will */ + /* just put this comment here to help remind me that it is something */ + /* that should be done at a later time. */ + + /* how to handle the verbose information in the presence of */ + /* confidence intervals is yet to be determined... raj 11/94 */ + if (verbosity > 1) { + /* The user wanted to know it all, so we will give it to him. */ + /* This information will include as much as we can find about */ + /* SDP statistics, the alignments of the sends and receives */ + /* and all that sort of rot... */ + + fprintf(where, + ksink_fmt, + local_send_align, + remote_recv_offset, + local_send_offset, + remote_recv_offset); + +#ifdef WANT_HISTOGRAM + fprintf(where,"\nHistogram of request/response times\n"); + fflush(where); + HIST_report(time_hist); +#endif /* WANT_HISTOGRAM */ + + } + +} + /* this routine implements the receive (netserver) side of a SDP_RR */ + /* test */ +void +recv_sdp_rr() +{ + + struct ring_elt *send_ring; + struct ring_elt *recv_ring; + + struct addrinfo *local_res; + char local_name[BUFSIZ]; + char port_buffer[PORTBUFSIZE]; + + struct sockaddr_in myaddr_in, + peeraddr_in; + SOCKET s_listen,s_data; + netperf_socklen_t addrlen; + char *temp_message_ptr; + int trans_received; + int trans_remaining; + int bytes_sent; + int request_bytes_recvd; + int request_bytes_remaining; + int timed_out = 0; + int sock_closed = 0; + float elapsed_time; + + struct sdp_rr_request_struct *sdp_rr_request; + struct sdp_rr_response_struct *sdp_rr_response; + struct sdp_rr_results_struct *sdp_rr_results; + + sdp_rr_request = + (struct sdp_rr_request_struct *)netperf_request.content.test_specific_data; + sdp_rr_response = + (struct sdp_rr_response_struct *)netperf_response.content.test_specific_data; + sdp_rr_results = + (struct sdp_rr_results_struct *)netperf_response.content.test_specific_data; + + if (debug) { + fprintf(where,"netserver: recv_sdp_rr: entered...\n"); + fflush(where); + } + + /* We want to set-up the listen socket with all the desired */ + /* parameters and then let the initiator know that all is ready. If */ + /* socket size defaults are to be used, then the initiator will have */ + /* sent us 0's. If the socket sizes cannot be changed, then we will */ + /* send-back what they are. If that information cannot be determined, */ + /* then we send-back -1's for the sizes. If things go wrong for any */ + /* reason, we will drop back ten yards and punt. */ + + /* If anything goes wrong, we want the remote to know about it. It */ + /* would be best if the error that the remote reports to the user is */ + /* the actual error we encountered, rather than some bogus unexpected */ + /* response type message. */ + + if (debug) { + fprintf(where,"recv_sdp_rr: setting the response type...\n"); + fflush(where); + } + + netperf_response.content.response_type = SDP_RR_RESPONSE; + + if (debug) { + fprintf(where,"recv_sdp_rr: the response type is set...\n"); + fflush(where); + } + + /* allocate the recv and send rings with the requested alignments */ + /* and offsets. raj 7/94 */ + if (debug) { + fprintf(where,"recv_sdp_rr: requested recv alignment of %d offset %d\n", + sdp_rr_request->recv_alignment, + sdp_rr_request->recv_offset); + fprintf(where,"recv_sdp_rr: requested send alignment of %d offset %d\n", + sdp_rr_request->send_alignment, + sdp_rr_request->send_offset); + fflush(where); + } + + /* at some point, these need to come to us from the remote system */ + if (send_width == 0) send_width = 1; + if (recv_width == 0) recv_width = 1; + + send_ring = allocate_buffer_ring(send_width, + sdp_rr_request->response_size, + sdp_rr_request->send_alignment, + sdp_rr_request->send_offset); + + recv_ring = allocate_buffer_ring(recv_width, + sdp_rr_request->request_size, + sdp_rr_request->recv_alignment, + sdp_rr_request->recv_offset); + + + /* Grab a socket to listen on, and then listen on it. */ + + if (debug) { + fprintf(where,"recv_sdp_rr: grabbing a socket...\n"); + fflush(where); + } + + /* create_data_socket expects to find some things in the global */ + /* variables, so set the globals based on the values in the request. */ + /* once the socket has been created, we will set the response values */ + /* based on the updated value of those globals. raj 7/94 */ + lss_size_req = sdp_rr_request->send_buf_size; + lsr_size_req = sdp_rr_request->recv_buf_size; + loc_nodelay = sdp_rr_request->no_delay; + loc_rcvavoid = sdp_rr_request->so_rcvavoid; + loc_sndavoid = sdp_rr_request->so_sndavoid; + + set_hostname_and_port(local_name, + port_buffer, + nf_to_af(sdp_rr_request->ipfamily), + sdp_rr_request->port); + + local_res = complete_addrinfo(local_name, + local_name, + port_buffer, + nf_to_af(sdp_rr_request->ipfamily), + SOCK_STREAM, + IPPROTO_TCP, + 0); + + /* fake things out by changing local_res->ai_family to AF_INET_SDP */ + local_res->ai_family = AF_INET_SDP; + local_res->ai_protocol = 0; + s_listen = create_data_socket(local_res); + + if (s_listen == INVALID_SOCKET) { + netperf_response.content.serv_errno = errno; + send_response(); + + exit(1); + } + + +#ifdef WIN32 + /* The test timer can fire during operations on the listening socket, + so to make the start_timer below work we have to move + it to close s_listen while we are blocked on accept. */ + win_kludge_socket2 = s_listen; +#endif + + + /* Now, let's set-up the socket to listen for connections */ + if (listen(s_listen, 5) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + + /* now get the port number assigned by the system */ + addrlen = sizeof(myaddr_in); + if (getsockname(s_listen, + (struct sockaddr *)&myaddr_in, + &addrlen) == SOCKET_ERROR) { + netperf_response.content.serv_errno = errno; + close(s_listen); + send_response(); + + exit(1); + } + + /* Now myaddr_in contains the port and the internet address this is */ + /* returned to the sender also implicitly telling the sender that the */ + /* socket buffer sizing has been done. */ + + sdp_rr_response->data_port_number = (int) ntohs(myaddr_in.sin_port); + netperf_response.content.serv_errno = 0; + + /* But wait, there's more. If the initiator wanted cpu measurements, */ + /* then we must call the calibrate routine, which will return the max */ + /* rate back to the initiator. If the CPU was not to be measured, or */ + /* something went wrong with the calibration, we will return a 0.0 to */ + /* the initiator. */ + + sdp_rr_response->cpu_rate = (float)0.0; /* assume no cpu */ + sdp_rr_response->measure_cpu = 0; + + if (sdp_rr_request->measure_cpu) { + sdp_rr_response->measure_cpu = 1; + sdp_rr_response->cpu_rate = calibrate_local_cpu(sdp_rr_request->cpu_rate); + } + + + /* before we send the response back to the initiator, pull some of */ + /* the socket parms from the globals */ + sdp_rr_response->send_buf_size = lss_size; + sdp_rr_response->recv_buf_size = lsr_size; + sdp_rr_response->no_delay = loc_nodelay; + sdp_rr_response->so_rcvavoid = loc_rcvavoid; + sdp_rr_response->so_sndavoid = loc_sndavoid; + sdp_rr_response->test_length = sdp_rr_request->test_length; + send_response(); + + addrlen = sizeof(peeraddr_in); + + if ((s_data = accept(s_listen, + (struct sockaddr *)&peeraddr_in, + &addrlen)) == INVALID_SOCKET) { + /* Let's just punt. The remote will be given some information */ + close(s_listen); + + exit(1); + } + +#ifdef KLUDGE_SOCKET_OPTIONS + /* this is for those systems which *INCORRECTLY* fail to pass */ + /* attributes across an accept() call. Including this goes against */ + /* my better judgement :( raj 11/95 */ + + kludge_socket_options(s_data); + +#endif /* KLUDGE_SOCKET_OPTIONS */ + +#ifdef WIN32 + /* this is used so the timer thread can close the socket out from */ + /* under us, which to date is the easiest/cleanest/least */ + /* Windows-specific way I can find to force the winsock calls to */ + /* return WSAEINTR with the test is over. anything that will run on */ + /* 95 and NT and is closer to what netperf expects from Unix signals */ + /* and such would be appreciated raj 1/96 */ + win_kludge_socket = s_data; +#endif /* WIN32 */ + + if (debug) { + fprintf(where,"recv_sdp_rr: accept completes on the data connection.\n"); + fflush(where); + } + + /* Now it's time to start receiving data on the connection. We will */ + /* first grab the apropriate counters and then start grabbing. */ + + cpu_start(sdp_rr_request->measure_cpu); + + /* The loop will exit when we hit the end of the test time, or when */ + /* we have exchanged the requested number of transactions. */ + + if (sdp_rr_request->test_length > 0) { + times_up = 0; + trans_remaining = 0; + start_timer(sdp_rr_request->test_length + PAD_TIME); + } + else { + times_up = 1; + trans_remaining = sdp_rr_request->test_length * -1; + } + + trans_received = 0; + + while ((!times_up) || (trans_remaining > 0)) { + temp_message_ptr = recv_ring->buffer_ptr; + request_bytes_remaining = sdp_rr_request->request_size; + while(request_bytes_remaining > 0) { + if((request_bytes_recvd=recv(s_data, + temp_message_ptr, + request_bytes_remaining, + 0)) == SOCKET_ERROR) { + if (SOCKET_EINTR(request_bytes_recvd)) + { + timed_out = 1; + break; + } + + netperf_response.content.serv_errno = errno; + send_response(); + exit(1); + } + else if( request_bytes_recvd == 0 ) { + if (debug) { + fprintf(where,"zero is my hero\n"); + fflush(where); + } + sock_closed = 1; + break; + } + else { + request_bytes_remaining -= request_bytes_recvd; + temp_message_ptr += request_bytes_recvd; + } + } + + recv_ring = recv_ring->next; + + if ((timed_out) || (sock_closed)) { + /* we hit the end of the test based on time - or the socket + closed on us along the way. bail out of here now... */ + if (debug) { + fprintf(where,"yo5\n"); + fflush(where); + } + break; + } + + /* Now, send the response to the remote */ + if((bytes_sent=send(s_data, + send_ring->buffer_ptr, + sdp_rr_request->response_size, + 0)) == SOCKET_ERROR) { + if (SOCKET_EINTR(bytes_sent)) { + /* the test timer has popped */ + timed_out = 1; + fprintf(where,"yo6\n"); + fflush(where); + break; + } + netperf_response.content.serv_errno = 992; + send_response(); + exit(1); + } + + send_ring = send_ring->next; + + trans_received++; + if (trans_remaining) { + trans_remaining--; + } + } + + + /* The loop now exits due to timeout or transaction count being */ + /* reached */ + + cpu_stop(sdp_rr_request->measure_cpu,&elapsed_time); + + stop_timer(); + + if (timed_out) { + /* we ended the test by time, which was at least 2 seconds */ + /* longer than we wanted to run. so, we want to subtract */ + /* PAD_TIME from the elapsed_time. */ + elapsed_time -= PAD_TIME; + } + + /* send the results to the sender */ + + if (debug) { + fprintf(where, + "recv_sdp_rr: got %d transactions\n", + trans_received); + fflush(where); + } + + sdp_rr_results->bytes_received = (trans_received * + (sdp_rr_request->request_size + + sdp_rr_request->response_size)); + sdp_rr_results->trans_received = trans_received; + sdp_rr_results->elapsed_time = elapsed_time; + sdp_rr_results->cpu_method = cpu_method; + sdp_rr_results->num_cpus = lib_num_loc_cpus; + if (sdp_rr_request->measure_cpu) { + sdp_rr_results->cpu_util = calc_cpu_util(elapsed_time); + } + + if (debug) { + fprintf(where, + "recv_sdp_rr: test complete, sending results.\n"); + fflush(where); + } + + /* we are now done with the sockets */ + close(s_data); + close(s_listen); + + send_response(); + +} + + + +void +print_sdp_usage() +{ + + printf("%s",sdp_usage); + exit(1); + +} +void +scan_sdp_args(argc, argv) + int argc; + char *argv[]; + +{ + +#define SOCKETS_ARGS "b:DhH:I:L:m:M:P:r:s:S:V46" + + extern char *optarg; /* pointer to option string */ + + int c; + + char + arg1[BUFSIZ], /* argument holders */ + arg2[BUFSIZ]; + + if (no_control) { + fprintf(where, + "The SDP tests do not know how to deal with no control tests\n"); + exit(-1); + } + + strncpy(local_data_port,"0",sizeof(local_data_port)); + strncpy(remote_data_port,"0",sizeof(remote_data_port)); + + /* Go through all the command line arguments and break them */ + /* out. For those options that take two parms, specifying only */ + /* the first will set both to that value. Specifying only the */ + /* second will leave the first untouched. To change only the */ + /* first, use the form "first," (see the routine break_args.. */ + + while ((c= getopt(argc, argv, SOCKETS_ARGS)) != EOF) { + switch (c) { + case '?': + case '4': + remote_data_family = AF_INET; + local_data_family = AF_INET; + break; + case '6': +#if defined(AF_INET6) + remote_data_family = AF_INET6; + local_data_family = AF_INET6; +#else + fprintf(stderr, + "This netperf was not compiled on an IPv6 capable host!\n"); + fflush(stderr); + exit(-1); +#endif + break; + case 'h': + print_sdp_usage(); + exit(1); + case 'b': +#ifdef WANT_FIRST_BURST + first_burst_size = atoi(optarg); +#else /* WANT_FIRST_BURST */ + printf("Initial request burst functionality not compiled-in!\n"); +#endif /* WANT_FIRST_BURST */ + break; + case 'D': + /* set the nodelay flag */ + loc_nodelay = 1; + rem_nodelay = 1; + break; + case 'H': + break_args_explicit(optarg,arg1,arg2); + if (arg1[0]) { + /* make sure we leave room for the NULL termination boys and + girls. raj 2005-02-82 */ + remote_data_address = malloc(strlen(arg1)+1); + strncpy(remote_data_address,arg1,strlen(arg1)); + } + if (arg2[0]) + remote_data_family = parse_address_family(arg2); + break; + case 'L': + break_args_explicit(optarg,arg1,arg2); + if (arg1[0]) { + /* make sure we leave room for the NULL termination boys and + girls. raj 2005-02-82 */ + local_data_address = malloc(strlen(arg1)+1); + strncpy(local_data_address,arg1,strlen(arg1)); + } + if (arg2[0]) + local_data_family = parse_address_family(arg2); + break; + case 'P': + /* set the local and remote data port numbers for the tests to + allow them to run through those blankety blank end-to-end + breaking firewalls. raj 2004-06-15 */ + break_args(optarg,arg1,arg2); + if (arg1[0]) + strncpy(local_data_port,arg1,sizeof(local_data_port)); + if (arg2[0]) + strncpy(remote_data_port,arg2,sizeof(remote_data_port)); + break; + case 's': + /* set local socket sizes */ + break_args(optarg,arg1,arg2); + if (arg1[0]) + lss_size_req = convert(arg1); + if (arg2[0]) + lsr_size_req = convert(arg2); + break; + case 'S': + /* set remote socket sizes */ + break_args(optarg,arg1,arg2); + if (arg1[0]) + rss_size_req = convert(arg1); + if (arg2[0]) + rsr_size_req = convert(arg2); + break; + case 'r': + /* set the request/response sizes */ + break_args(optarg,arg1,arg2); + if (arg1[0]) + req_size = convert(arg1); + if (arg2[0]) + rsp_size = convert(arg2); + break; + case 'm': + /* set size of the buffer for each sent message */ + send_size = convert(optarg); + break; + case 'M': + /* set the size of the buffer for each received message */ + recv_size = convert(optarg); + break; + case 't': + /* set the test name */ + strcpy(test_name,optarg); + break; + case 'W': + /* set the "width" of the user space data */ + /* buffer. This will be the number of */ + /* send_size buffers malloc'd in the */ + /* *_STREAM test. It may be enhanced to set */ + /* both send and receive "widths" but for now */ + /* it is just the sending *_STREAM. */ + send_width = convert(optarg); + break; + case 'V': + /* we want to do copy avoidance and will set */ + /* it for everything, everywhere, if we really */ + /* can. of course, we don't know anything */ + /* about the remote... */ +#ifdef SO_SND_COPYAVOID + loc_sndavoid = 1; +#else + loc_sndavoid = 0; + printf("Local send copy avoidance not available.\n"); +#endif +#ifdef SO_RCV_COPYAVOID + loc_rcvavoid = 1; +#else + loc_rcvavoid = 0; + printf("Local recv copy avoidance not available.\n"); +#endif + rem_sndavoid = 1; + rem_rcvavoid = 1; + break; + case 'N': + /* this opton allows the user to set the number of + * messages to send. This in effect modifies the test + * time. If we know the message size, then the we can + * express the test time as message_size * number_messages + */ + msg_count = convert (optarg); + if (msg_count > 0) + test_time = 0; + break; + case 'B': + non_block = 1; + break; + case 'T': + num_associations = atoi(optarg); + if (num_associations <= 1) { + printf("Number of SDP associations must be >= 1\n"); + exit(1); + } + break; + }; + } +} + +#endif /* WANT_SDP */ |