@c @c Written by Eric Norum @c @c COPYRIGHT (c) 1988-1998. @c On-Line Applications Research Corporation (OAR). @c All rights reserved. @c @c $Id$ @c @chapter Testing the Driver @section Preliminary Setup The network used to test the driver should include at least: @itemize @bullet @item The hardware on which the driver is to run. It makes testing much easier if you can run a debugger to control the operation of the target machine. @item An Ethernet network analyzer or a workstation with an `Ethernet snoop' program such as @code{ethersnoop} or @code{tcpdump}. @item A workstation. @end itemize During early debug, you should consider putting the target, workstation, and snooper on a small network by themselves. This offers a few advantages: @itemize @bullet @item There is less traffic to look at on the snooper and for the target to process while bringing the driver up. @item Any serious errors will impact only your small network not a building or campus network. You want to avoid causing any unnecessary problems. @item Test traffic is easier to repeatably generate. @item Performance measurements are not impacted by other systems on the network. @end itemize @section Debug Output There are a number of sources of debug output that can be enabled to aid in tracing the behavior of the network stack. The following is a list of them: @itemize @bullet @item mbuf activity There are commented out calls to @code{printf} in the file @code{sys/mbuf.h} in the network stack code. Uncommenting these lines results in output when mbuf's are allocated and freed. This is very useful for findind memory leaks. @item TX and RX queuing There are commented out calls to @code{printf} in the file @code{net/if.h} in the network stack code. Uncommenting these lines results in output when packets are placed on or removed from one of the transmit or receive packet queues. These queues can be viewed as the boundary line between a device driver and the network stack. If the network stack is enqueuing packets to be transmitted that the device driver is not dequeuing, then that is indicative of a problem in the transmit side of the device driver. Conversely, if the device driver is enqueueing packets as it receives them (via a call to @code{ether_input}) and they are not being dequeued by the network stack, then there is a problem. This situation would likely indicate that the network server task is not running. @item TCP state transitions In the unlikely event that one would actually want to see TCP state transitions, the @code{TCPDEBUG} macro can be defined in the file @code{opt_tcpdebug.h}. This results in the routine @code{tcp_trace()} being called by the network stack and the state transitions logged into the @code{tcp_debug} data structure. If the variable @code{tcpconsdebug} in the file @code{netinet/tcp_debug.c} is set to 1, then the state transitions will also be printed to the console. @end itemize @section Driver basic operation The network demonstration program @code{netdemo} may be used for these tests. @itemize @bullet @item Edit @code{networkconfig.h} to reflect the values for your network. @item Start with @code{RTEMS_USE_BOOTP} not defined. @item Edit @code{networkconfig.h} to configure the driver with an explicit Ethernet and Internet address and with reception of broadcast packets disabled: Verify that the program continues to run once the driver has been attached. @item Issue a @samp{u} command to send UDP packets to the `discard' port. Verify that the packets appear on the network. @item Issue a @samp{s} command to print the network and driver statistics. @item On a workstation, add a static route to the target system. @item On that same workstation try to `ping' the target system. Verify that the ICMP echo request and reply packets appear on the net. @item Remove the static route to the target system. Modify @code{networkconfig.h} to attach the driver with reception of broadcast packets enabled. Try to `ping' the target system again. Verify that ARP request/reply and ICMP echo request/reply packets appear on the net. @item Issue a @samp{t} command to send TCP packets to the `discard' port. Verify that the packets appear on the network. @item Issue a @samp{s} command to print the network and driver statistics. @item Verify that you can telnet to ports 24742 and 24743 on the target system from one or more workstations on your network. @end itemize @section BOOTP/DHCP operation Set up a BOOTP/DHCP server on the network. Set define @code{RTEMS USE_BOOT} in @code{networkconfig.h}. Run the @code{netdemo} test program. Verify that the target system configures itself from the BOOTP/DHCP server and that all the above tests succeed. @section Stress Tests Once the driver passes the tests described in the previous section it should be subjected to conditions which exercise it more thoroughly and which test its error handling routines. @subsection Giant packets @itemize @bullet @item Recompile the driver with @code{MAXIMUM_FRAME_SIZE} set to a smaller value, say 514. @item `Ping' the driver from another workstation and verify that frames larger than 514 bytes are correctly rejected. @item Recompile the driver with @code{MAXIMUM_FRAME_SIZE} restored to 1518. @end itemize @subsection Resource Exhaustion @itemize @bullet @item Edit @code{networkconfig.h} so that the driver is configured with just two receive and transmit descriptors. @item Compile and run the @code{netdemo} program. @item Verify that the program operates properly and that you can still telnet to both the ports. @item Display the driver statistics (Console `@code{s}' command or telnet `control-G' character) and verify that: @enumerate @item The number of transmit interrupts is non-zero. This indicates that all transmit descriptors have been in use at some time. @item The number of missed packets is non-zero. This indicates that all receive descriptors have been in use at some time. @end enumerate @end itemize @subsection Cable Faults @itemize @bullet @item Run the @code{netdemo} program. @item Issue a `@code{u}' console command to make the target machine transmit a bunch of UDP packets. @item While the packets are being transmitted, disconnect and reconnect the network cable. @item Display the network statistics and verify that the driver has detected the loss of carrier. @item Verify that you can still telnet to both ports on the target machine. @end itemize @subsection Throughput Run the @code{ttcp} network benchmark program. Transfer large amounts of data (100's of megabytes) to and from the target system.