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Copyright (c) 1993, Sun Microsystems, Inc.
The contents of this file are subject to the terms of the Common Development and Distribution License (the "License"). You may not use this file except in compliance with the License.
You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE or http://www.opensolaris.org/os/licensing. See the License for the specific language governing permissions and limitations under the License.
When distributing Covered Code, include this CDDL HEADER in each file and include the License file at usr/src/OPENSOLARIS.LICENSE. If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner]
SYNCLOOP 1M "Mar 9, 1993"
NAME
syncloop - synchronous serial loopback test program
SYNOPSIS

/usr/sbin/syncloop [-cdlstv] device
DESCRIPTION

The syncloop command performs several loopback tests that are useful in exercising the various components of a serial communications link.

Before running a test, syncloop opens the designated port and configures it according to command line options and the specified test type. It announces the names of the devices being used to control the hardware channel, the channel number (ppa) corresponding to the device argument, and the parameters it has set for that channel. It then runs the loopback test in three phases.

The first phase is to listen on the port for any activity. If no activity is seen for at least four seconds, syncloop proceeds to the next phase. Otherwise, the user is informed that the line is active and that the test cannot proceed, and the program exits.

In the second phase, called the "first-packet" phase, syncloop attempts to send and receive one packet. The program will wait for up to four seconds for the returned packet. If no packets are seen after five attempts, the test fails with an excoriating message. If a packet is returned, the result is compared with the original. If the length and content do not match exactly, the test fails.

The final phase, known as the "multiple-packet" phase, attempts to send many packets through the loop. Because the program has verified the integrity of the link in the first-packet phase, the test will not fail after a particular number of timeouts. If a packet is not seen after four seconds, a message is displayed. Otherwise, a count of the number of packets received is updated on the display once per second. If it becomes obvious that the test is not receiving packets during this phase, the user may wish to stop the program manually. The number and size of the packets sent during this phase is determined by default values, or by command line options. Each returned packet is compared with its original for length and content. If a mismatch is detected, the test fails. The test completes when the required number of packets have been sent, regardless of errors.

After the multiple-packet phase has completed, the program displays a summary of the hardware event statistics for the channel that was tested. The display takes the following form:

CRC errors Aborts Overruns Underruns In<-Drops-> Out
 0 0 0 0 0 0

This is followed by an estimated line speed, which is an approximation of the bit rate of the line, based on the number of bytes sent and the actual time that it took to send them.

OPTIONS

The options for syncloop are described in the following table:

Option Parameter Default Description
-c packet_count 100
Specifies the number of packets to be sent in the multiple-packet phase.
-d hex_data_byte random
Specifies that each packet will be filled with bytes with the value of hex_data_byte.
-l packet_length 100
Specifies the length of each packet in bytes.
-s line_speed 9600 Bit rate in bits per second.
-v
Sets verbose mode. If data errors occur, the expected and received data is displayed.
-t test_type none
A number, from 1 to 4, that specifies which test to perform. The values for test_type are as follows: 1: Internal loopback test. Port loopback is on. Transmit and receive clock sources are internal (baud rate generator). 2: External loopback test. Port loopback is off. Transmit and receive clock sources are internal. Requires a loopback plug suitable to the port under test. 3: External loopback test. Port loopback is off. Transmit and receive clock sources are external (modem). Requires that one of the local modem, the remote modem, or the remote system be set in a loopback configuration. 4: Test using predefined parameters. User defines hardware configuration and may select port parameters using the syncinit(1M) command.

All numeric options except -d are entered as decimal numbers (for example, -s 19200). If you do not provide the -t test_type option, syncloop prompts for it.

EXAMPLES

Example 1 A sample display of using the syncloop command.

In the following command syncloop uses a packet length of 512 bytes over the first CPU port:

example# syncloop -l 512 zsh0

In response to the above command, syncloop prompts you for the test option you want.

The following command performs an internal loopback test on the first CPU port, using 5000 packets and a bit rate of 56Kbps:

example# syncloop -t 1 -s 56000 -c 5000 zsh0
SEE ALSO

syncinit(1M), syncstat(1M), attributes(5), zsh(7D)

DIAGNOSTICS
device missing minor device number

The name device does not end in a decimal number that can be used as a minor device number.

invalid packet length: nnn

The packet length was specified to be less than zero or greater than 4096.

poll: nothing to read

poll: nothing to read or write.

The poll(2) system call indicates that there is no input pending and/or that output would be blocked if attempted.

len xxx should be yyy

The packet that was sent had a length of yyy, but was received with a length of xxx.

nnn packets lost in outbound queueing

nnn packets lost in inbound queueing

A discrepancy has been found between the number of packets sent by syncloop and the number of packets the driver counted as transmitted, or between the number counted as received and the number read by the program.

WARNINGS

To allow its tests to run properly, as well as prevent disturbance of normal operations, syncloop should only be run on a port that is not being used for any other purpose at that time.