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SerialPort(3) User Contributed Perl Documentation SerialPort(3)

NAME

Device::SerialPort - Linux/POSIX emulation of Win32::SerialPort functions.

SYNOPSIS

  use Device::SerialPort qw( :PARAM :STAT 0.07 );

Constructors

  # $lockfile is optional
  $PortObj = new Device::SerialPort ($PortName, $quiet, $lockfile)
       || die "Can't open $PortName: $!\n";
  $PortObj = start Device::SerialPort ($Configuration_File_Name)
       || die "Can't start $Configuration_File_Name: $!\n";
  $PortObj = tie (*FH, 'Device::SerialPort', $Configuration_File_Name)
       || die "Can't tie using $Configuration_File_Name: $!\n";

Configuration Utility Methods

  $PortObj->alias("MODEM1");
  $PortObj->save($Configuration_File_Name)
       || warn "Can't save $Configuration_File_Name: $!\n";
  # currently optional after new, POSIX version expected to succeed
  $PortObj->write_settings;
  # rereads file to either return open port to a known state
  # or switch to a different configuration on the same port
  $PortObj->restart($Configuration_File_Name)
       || warn "Can't reread $Configuration_File_Name: $!\n";
  # "app. variables" saved in $Configuration_File, not used internally
  $PortObj->devicetype('none');     # CM11, CM17, 'weeder', 'modem'
  $PortObj->hostname('localhost');  # for socket-based implementations
  $PortObj->hostaddr(0);            # false unless specified
  $PortObj->datatype('raw');        # in case an application needs_to_know
  $PortObj->cfg_param_1('none');    # null string '' hard to save/restore
  $PortObj->cfg_param_2('none');    # 3 spares should be enough for now
  $PortObj->cfg_param_3('none');    # one may end up as a log file path
  # test suite use only
  @necessary_param = Device::SerialPort->set_test_mode_active(1);
  # exported by :PARAM
  nocarp || carp "Something fishy";
  $a = SHORTsize;                       # 0xffff
  $a = LONGsize;                        # 0xffffffff
  $answer = yes_true("choice");         # 1 or 0
  OS_Error unless ($API_Call_OK);       # prints error

Configuration Parameter Methods

  # most methods can be called two ways:
  $PortObj->handshake("xoff");           # set parameter
  $flowcontrol = $PortObj->handshake;    # current value (scalar)
  # The only "list context" method calls from Win32::SerialPort
  # currently supported are those for baudrate, parity, databits,
  # stopbits, and handshake (which only accept specific input values).
  @handshake_opts = $PortObj->handshake; # permitted choices (list)
  # similar
  $PortObj->baudrate(9600);
  $PortObj->parity("odd");
  $PortObj->databits(8);
  $PortObj->stopbits(1);        # POSIX does not support 1.5 stopbits
  # these are essentially dummies in POSIX implementation
  # the calls exist to support compatibility
  $PortObj->buffers(4096, 4096);        # returns (4096, 4096)
  @max_values = $PortObj->buffer_max;   # returns (4096, 4096)
  $PortObj->reset_error;                # returns 0
  # true/false parameters (return scalar context only)
  # parameters exist, but message processing not yet fully implemented
  $PortObj->user_msg(ON);       # built-in instead of warn/die above
  $PortObj->error_msg(ON);      # translate error bitmasks and carp
  $PortObj->parity_enable(F);   # faults during input
  $PortObj->debug(0);
  # true/false capabilities (read only)
  # most are just constants in the POSIX case
  $PortObj->can_baud;                   # 1
  $PortObj->can_databits;               # 1
  $PortObj->can_stopbits;               # 1
  $PortObj->can_dtrdsr;                 # 1
  $PortObj->can_handshake;              # 1
  $PortObj->can_parity_check;           # 1
  $PortObj->can_parity_config;          # 1
  $PortObj->can_parity_enable;          # 1
  $PortObj->can_rlsd;                   # 0 currently
  $PortObj->can_16bitmode;              # 0 Win32-specific
  $PortObj->is_rs232;                   # 1
  $PortObj->is_modem;                   # 0 Win32-specific
  $PortObj->can_rtscts;                 # 1
  $PortObj->can_xonxoff;                # 1
  $PortObj->can_xon_char;               # 1 use stty
  $PortObj->can_spec_char;              # 0 use stty
  $PortObj->can_interval_timeout;       # 0 currently
  $PortObj->can_total_timeout;          # 1 currently
  $PortObj->can_ioctl;                  # automatically detected
  $PortObj->can_status;                 # automatically detected
  $PortObj->can_write_done;             # automatically detected
  $PortObj->can_modemlines;     # automatically detected
  $PortObj->can_wait_modemlines;# automatically detected
  $PortObj->can_intr_count;             # automatically detected
  $PortObj->can_arbitrary_baud; # automatically detected

Operating Methods

  ($count_in, $string_in) = $PortObj->read($InBytes);
  warn "read unsuccessful\n" unless ($count_in == $InBytes);
  $count_out = $PortObj->write($output_string);
  warn "write failed\n"         unless ($count_out);
  warn "write incomplete\n"     if ( $count_out != length($output_string) );
  if ($string_in = $PortObj->input) { PortObj->write($string_in); }
     # simple echo with no control character processing
  if ($PortObj->can_wait_modemlines) {
    $rc = $PortObj->wait_modemlines( MS_RLSD_ON );
    if (!$rc) { print "carrier detect changed\n"; }
  }
  if ($PortObj->can_modemlines) {
    $ModemStatus = $PortObj->modemlines;
    if ($ModemStatus & $PortObj->MS_RLSD_ON) { print "carrier detected\n"; }
  }
  if ($PortObj->can_intr_count) {
    $count = $PortObj->intr_count();
    print "got $count interrupts\n";
  }
  if ($PortObj->can_arbitrary_baud) {
    print "this port can set arbitrary baud rates\n";
  }
  ($BlockingFlags, $InBytes, $OutBytes, $ErrorFlags) = $PortObj->status;
      # same format for compatibility. Only $InBytes and $OutBytes are
      # currently returned (on linux). Others are 0.
      # Check return value of "can_status" to see if this call is valid.
  ($done, $count_out) = $PortObj->write_done(0);
     # POSIX defaults to background write. Currently $count_out always 0.
     # $done set when hardware finished transmitting and shared line can
     # be released for other use. Ioctl may not work on all OSs.
     # Check return value of "can_write_done" to see if this call is valid.
  $PortObj->write_drain;  # POSIX alternative to Win32 write_done(1)
                          # set when software is finished transmitting
  $PortObj->purge_all;
  $PortObj->purge_rx;
  $PortObj->purge_tx;
      # controlling outputs from the port
  $PortObj->dtr_active(T);              # sends outputs direct to hardware
  $PortObj->rts_active(Yes);            # return status of ioctl call
                                        # return undef on failure
  $PortObj->pulse_break_on($milliseconds); # off version is implausible
  $PortObj->pulse_rts_on($milliseconds);
  $PortObj->pulse_rts_off($milliseconds);
  $PortObj->pulse_dtr_on($milliseconds);
  $PortObj->pulse_dtr_off($milliseconds);
      # sets_bit, delays, resets_bit, delays
      # returns undef if unsuccessful or ioctls not implemented
  $PortObj->read_const_time(100);       # const time for read (milliseconds)
  $PortObj->read_char_time(5);          # avg time between read char
  $milliseconds = $PortObj->get_tick_count;

Methods used with Tied FileHandles

  $PortObj = tie (*FH, 'Device::SerialPort', $Configuration_File_Name)
       || die "Can't tie: $!\n";             ## TIEHANDLE ##
  print FH "text";                           ## PRINT     ##
  $char = getc FH;                           ## GETC      ##
  syswrite FH, $out, length($out), 0;        ## WRITE     ##
  $line = <FH>;                              ## READLINE  ##
  @lines = <FH>;                             ## READLINE  ##
  printf FH "received: %s", $line;           ## PRINTF    ##
  read (FH, $in, 5, 0) or die "$!";          ## READ      ##
  sysread (FH, $in, 5, 0) or die "$!";       ## READ      ##
  close FH || warn "close failed";           ## CLOSE     ##
  undef $PortObj;
  untie *FH;                                 ## DESTROY   ##
  $PortObj->linesize(10);                    # with READLINE
  $PortObj->lastline("_GOT_ME_");            # with READLINE, list only
      ## with PRINT and PRINTF, return previous value of separator
  $old_ors = $PortObj->output_record_separator("RECORD");
  $old_ofs = $PortObj->output_field_separator("COMMA");

Destructors

  $PortObj->close || warn "close failed";
      # release port to OS - needed to reopen
      # close will not usually DESTROY the object
      # also called as: close FH || warn "close failed";
  undef $PortObj;
      # preferred unless reopen expected since it triggers DESTROY
      # calls $PortObj->close but does not confirm success
      # MUST precede untie - do all three IN THIS SEQUENCE before re-tie.
  untie *FH;

Methods for I/O Processing

  $PortObj->are_match("text", "\n");    # possible end strings
  $PortObj->lookclear;                  # empty buffers
  $PortObj->write("Feed Me:");          # initial prompt
  $PortObj->is_prompt("More Food:");    # not implemented
  my $gotit = "";
  until ("" ne $gotit) {
      $gotit = $PortObj->lookfor;       # poll until data ready
      die "Aborted without match\n" unless (defined $gotit);
      sleep 1;                          # polling sample time
  }
  printf "gotit = %s\n", $gotit;                # input BEFORE the match
  my ($match, $after, $pattern, $instead) = $PortObj->lastlook;
      # input that MATCHED, input AFTER the match, PATTERN that matched
      # input received INSTEAD when timeout without match
  printf "lastlook-match = %s  -after = %s  -pattern = %s\n",
                           $match,      $after,        $pattern;
  $gotit = $PortObj->lookfor($count);   # block until $count chars received
  $PortObj->are_match("-re", "pattern", "text");
      # possible match strings: "pattern" is a regular expression,
      #                         "text" is a literal string

DESCRIPTION

This module provides an object-based user interface essentially identical to the one provided by the Win32::SerialPort module.

Initialization

The primary constructor is new with either a PortName, or a Configuretion File specified. With a PortName, this will open the port and create the object. The port is not yet ready for read/write access. First, the desired parameter settings must be established. Since these are tuning constants for an underlying hardware driver in the Operating System, they are all checked for validity by the methods that set them. The write_settings method updates the port (and will return True under POSIX). Ports are opened for binary transfers. A separate "binmode" is not needed.

  $PortObj = new Device::SerialPort ($PortName, $quiet, $lockfile)
       || die "Can't open $PortName: $!\n";

The $quiet parameter is ignored and is only there for compatibility with Win32::SerialPort. The $lockfile parameter is optional. It will attempt to create a file (containing just the current process id) at the location specified. This file will be automatically deleted when the $PortObj is no longer used (by DESTROY). You would usually request $lockfile with $quiet true to disable messages while attempting to obtain exclusive ownership of the port via the lock. Lockfiles are experimental in Version 0.07. They are intended for use with other applications. No attempt is made to resolve port aliases (/dev/modem == /dev/ttySx) or to deal with login processes such as getty and uugetty.

Using a Configuration File with new or by using second constructor, start, scripts can be simplified if they need a constant setup. It executes all the steps from new to write_settings based on a previously saved configuration. This constructor will return "undef" on a bad configuration file or failure of a validity check. The returned object is ready for access. This is new and experimental for Version 0.055.

  $PortObj2 = start Device::SerialPort ($Configuration_File_Name)
       || die;

The third constructor, tie, will combine the start with Perl's support for tied FileHandles (see perltie). Device::SerialPort will implement the complete set of methods: TIEHANDLE, PRINT, PRINTF, WRITE, READ, GETC, READLINE, CLOSE, and DESTROY. Tied FileHandle support is new with Version 0.04 and the READ and READLINE methods were added in Version 0.06. In "scalar context", READLINE sets stty_icanon to do character processing and calls lookfor. It restores stty_icanon after the read. In "list context", READLINE does Canonical (line) reads if stty_icanon is set or calls streamline if it is not. (stty_icanon is not altered). The streamline choice allows duplicating the operation of Win32::SerialPort for cross-platform scripts.

The implementation attempts to mimic STDIN/STDOUT behaviour as closely as possible: calls block until done and data strings that exceed internal buffers are divided transparently into multiple calls. In Version 0.06, the output separators $, and "$\" are also applied to PRINT if set. The output_record_separator and output_field_separator methods can set Port-FileHandle-Specific versions of $, and "$\" if desired. Since PRINTF is treated internally as a single record PRINT, "$\" will be applied. Output separators are not applied to WRITE (called as "syswrite FH, $scalar, $length, [$offset]"). The input_record_separator $/ is not explicitly supported - but an identical function can be obtained with a suitable are_match setting.

  $PortObj2 = tie (*FH, 'Device::SerialPort', $Configuration_File_Name)
       || die;

The tied FileHandle methods may be combined with the Device::SerialPort methods for read, input, and write as well as other methods. The typical restrictions against mixing print with syswrite do not apply. Since both (tied) read and sysread call the same "$ob->READ" method, and since a separate "$ob->read" method has existed for some time in Device::SerialPort, you should always use sysread with the tied interface (when it is implemented).

Certain parameters SHOULD be set before executing write_settings. Others will attempt to deduce defaults from the hardware or from other parameters. The Required parameters are:

baudrate

Any legal value.

parity

One of the following: "none", "odd", "even".

By default, incoming parity is not checked. This mimics the behavior of most terminal programs (like "minicom"). If you need parity checking enabled, please use the "stty_inpck" and "stty_istrip" functions.

databits

An integer from 5 to 8.

stopbits

Legal values are 1 and 2.

handshake

One of the following: "none", "rts", "xoff".

Some individual parameters (eg. baudrate) can be changed after the initialization is completed. These will be validated and will update the serial driver as required. The save method will write the current parameters to a file that start, tie, and restart can use to reestablish a functional setup.

  $PortObj = new Win32::SerialPort ($PortName, $quiet)
       || die "Can't open $PortName: $^E\n";    # $quiet is optional
  $PortObj->user_msg(ON);
  $PortObj->databits(8);
  $PortObj->baudrate(9600);
  $PortObj->parity("none");
  $PortObj->stopbits(1);
  $PortObj->handshake("rts");
  $PortObj->write_settings || undef $PortObj;
  $PortObj->save($Configuration_File_Name);
  $PortObj->baudrate(300);
  $PortObj->restart($Configuration_File_Name);  # back to 9600 baud
  $PortObj->close || die "failed to close";
  undef $PortObj;                               # frees memory back to perl

Configuration Utility Methods

Use alias to convert the name used by "built-in" messages.

  $PortObj->alias("MODEM1");

Starting in Version 0.07, a number of Application Variables are saved in $Configuration_File. These parameters are not used internally. But methods allow setting and reading them. The intent is to facilitate the use of separate configuration scripts to create the files. Then an application can use start as the Constructor and not bother with command line processing or managing its own small configuration file. The default values and number of parameters is subject to change.

  $PortObj->devicetype('none'); 
  $PortObj->hostname('localhost');  # for socket-based implementations
  $PortObj->hostaddr(0);            # a "false" value
  $PortObj->datatype('raw');        # 'record' is another possibility
  $PortObj->cfg_param_1('none');
  $PortObj->cfg_param_2('none');    # 3 spares should be enough for now
  $PortObj->cfg_param_3('none');

Configuration and Capability Methods

The Win32 Serial Comm API provides extensive information concerning the capabilities and options available for a specific port (and instance). This module will return suitable responses to facilitate porting code from that environment.

The get_tick_count method is a clone of the Win32::GetTickCount() function. It matches a corresponding method in Win32::CommPort. It returns time in milliseconds - but can be used in cross-platform scripts.

Binary selections will accept as true any of the following: "("YES", "Y", "ON", "TRUE", "T", "1", 1)" (upper/lower/mixed case) Anything else is false.

There are a large number of possible configuration and option parameters. To facilitate checking option validity in scripts, most configuration methods can be used in two different ways:

method called with an argument

The parameter is set to the argument, if valid. An invalid argument returns false (undef) and the parameter is unchanged. The function will also carp if $user_msg is true. The port will be updated immediately if allowed (an automatic write_settings is called).

method called with no argument in scalar context

The current value is returned. If the value is not initialized either directly or by default, return "undef" which will parse to false. For binary selections (true/false), return the current value. All current values from "multivalue" selections will parse to true.

method called with no argument in list context

Methods which only accept a limited number of specific input values return a list consisting of all acceptable choices. The null list "(undef)" will be returned for failed calls in list context (e.g. for an invalid or unexpected argument). Only the baudrate, parity, databits, stopbits, and handshake methods currently support this feature.

Operating Methods

Version 0.04 adds pulse methods for the RTS, BREAK, and DTR bits. The pulse methods assume the bit is in the opposite state when the method is called. They set the requested state, delay the specified number of milliseconds, set the opposite state, and again delay the specified time. These methods are designed to support devices, such as the X10 "FireCracker" control and some modems, which require pulses on these lines to signal specific events or data. Timing for the active part of pulse_break_on is handled by POSIX::tcsendbreak(0), which sends a 250-500 millisecond BREAK pulse. It is NOT guaranteed to block until done.

  $PortObj->pulse_break_on($milliseconds);
  $PortObj->pulse_rts_on($milliseconds);
  $PortObj->pulse_rts_off($milliseconds);
  $PortObj->pulse_dtr_on($milliseconds);
  $PortObj->pulse_dtr_off($milliseconds);

In Version 0.05, these calls and the rts_active and dtr_active calls verify the parameters and any required ioctl constants, and return "undef" unless the call succeeds. You can use the can_ioctl method to see if the required constants are available. On Version 0.04, the module would not load unless asm/termios.ph was found at startup.

Stty Shortcuts

Version 0.06 adds primitive methods to modify port parameters that would otherwise require a "system("stty...");" command. These act much like the identically-named methods in Win32::SerialPort. However, they are initialized from "current stty settings" when the port is opened rather than from defaults. And like stty settings, they are passed to the serial driver and apply to all operations rather than only to I/O processed via the lookfor method or the tied FileHandle methods. Each returns the current setting for the parameter. There are no "global" or "combination" parameters - you still need system("stty...") for that.

The methods which handle CHAR parameters set and return values as ord(CHAR). This corresponds to the settings in the POSIX termios cc_field array. You are unlikely to actually want to modify most of these. They reflect the special characters which can be set by stty.

  $PortObj->is_xon_char($num_char);     # VSTART (stty start=.)
  $PortObj->is_xoff_char($num_char);    # VSTOP
  $PortObj->is_stty_intr($num_char);    # VINTR
  $PortObj->is_stty_quit($num_char);    # VQUIT
  $PortObj->is_stty_eof($num_char);     # VEOF
  $PortObj->is_stty_eol($num_char);     # VEOL
  $PortObj->is_stty_erase($num_char);   # VERASE
  $PortObj->is_stty_kill($num_char);    # VKILL
  $PortObj->is_stty_susp($num_char);    # VSUSP

Binary settings supported by POSIX will return 0 or 1. Several parameters settable by stty do not yet have shortcut methods. Contact me if you need one that is not supported. These are the common choices. Try "man stty" if you are not sure what they do.

  $PortObj->stty_echo;
  $PortObj->stty_echoe;
  $PortObj->stty_echok;
  $PortObj->stty_echonl;
  $PortObj->stty_ignbrk;
  $PortObj->stty_istrip;
  $PortObj->stty_inpck;
  $PortObj->stty_parmrk;
  $PortObj->stty_ignpar;
  $PortObj->stty_icrnl;
  $PortObj->stty_igncr;
  $PortObj->stty_inlcr;
  $PortObj->stty_opost;
  $PortObj->stty_isig;
  $PortObj->stty_icanon;

The following methods require successfully loading ioctl constants. They will return "undef" if the needed constants are not found. But the method calls may still be used without syntax errors or warnings even in that case.

  $PortObj->stty_ocrlf;
  $PortObj->stty_onlcr;
  $PortObj->stty_echoke;
  $PortObj->stty_echoctl;

Lookfor and I/O Processing

Some communications programs have a different need - to collect (or discard) input until a specific pattern is detected. For lines, the pattern is a line-termination. But there are also requirements to search for other strings in the input such as "username:" and "password:". The lookfor method provides a consistant mechanism for solving this problem. It searches input character-by-character looking for a match to any of the elements of an array set using the are_match method. It returns the entire input up to the match pattern if a match is found. If no match is found, it returns "" unless an input error or abort is detected (which returns undef).

Unlike Win32::SerialPort, lookfor does not handle backspace, echo, and other character processing. It expects the serial driver to handle those and to be controlled via stty. For interacting with humans, you will probably want stty_icanon(1) during lookfor to obtain familiar command-line response. The actual match and the characters after it (if any) may also be viewed using the lastlook method. It also adopts the convention from Expect.pm that match strings are literal text (tested using index) unless preceeded in the are_match list by a "-re", entry. The default are_match list is "("\n")", which matches complete lines.

   my ($match, $after, $pattern, $instead) = $PortObj->lastlook;
     # input that MATCHED, input AFTER the match, PATTERN that matched
     # input received INSTEAD when timeout without match ("" if match)
   $PortObj->are_match("text1", "-re", "pattern", "text2");
     # possible match strings: "pattern" is a regular expression,
     #                         "text1" and "text2" are literal strings

Everything in lookfor is still experimental. Please let me know if you use it (or can't use it), so I can confirm bug fixes don't break your code. For literal strings, $match and $pattern should be identical. The $instead value returns the internal buffer tested by the match logic. A successful match or a lookclear resets it to "" - so it is only useful for error handling such as timeout processing or reporting unexpected responses.

The lookfor method is designed to be sampled periodically (polled). Any characters after the match pattern are saved for a subsequent lookfor. Internally, lookfor is implemented using the nonblocking input method when called with no parameter. If called with a count, lookfor calls "$PortObj->read(count)" which blocks until the read is Complete or a Timeout occurs. The blocking alternative should not be used unless a fault time has been defined using read_interval, read_const_time, and read_char_time. It exists mostly to support the tied FileHandle functions sysread, getc, and <FH>. When stty_icanon is active, even the non-blocking calls will not return data until the line is complete.

The internal buffers used by lookfor may be purged by the lookclear method (which also clears the last match). For testing, lookclear can accept a string which is "looped back" to the next input. This feature is enabled only when set_test_mode_active(1). Normally, lookclear will return "undef" if given parameters. It still purges the buffers and last_match in that case (but nothing is "looped back"). You will want stty_echo(0) when exercising loopback.

The matchclear method is designed to handle the "special case" where the match string is the first character(s) received by lookfor. In this case, "$lookfor_return == """, lookfor does not provide a clear indication that a match was found. The matchclear returns the same $match that would be returned by lastlook and resets it to "" without resetting any of the other buffers. Since the lookfor already searched through the match, matchclear is used to both detect and step-over "blank" lines.

The character-by-character processing used by lookfor is fine for interactive activities and tasks which expect short responses. But it has too much "overhead" to handle fast data streams.There is also a streamline method which is a fast, line-oriented alternative with just pattern searching. Since streamline uses the same internal buffers, the lookclear, lastlook, are_match, and matchclear methods act the same in both cases. In fact, calls to streamline and lookfor can be interleaved if desired (e.g. an interactive task that starts an upload and returns to interactive activity when it is complete).

There are two additional methods for supporting "list context" input: lastline sets an "end_of_file" Regular Expression, and linesize permits changing the "packet size" in the blocking read operation to allow tuning performance to data characteristics. These two only apply during READLINE. The default for linesize is 1. There is no default for the lastline method.

The Regular Expressions set by are_match and lastline will be pre-compiled using the qr// construct on Perl 5.005 and higher. This doubled lookfor and streamline speed in my tests with Regular Expressions - but actual improvements depend on both patterns and input data.

The functionality of lookfor includes a limited subset of the capabilities found in Austin Schutz's Expect.pm for Unix (and Tcl's expect which it resembles). The "$before, $match, $pattern, and $after" return values are available if someone needs to create an "expect" subroutine for porting a script. When using multiple patterns, there is one important functional difference: Expect.pm looks at each pattern in turn and returns the first match found; lookfor and streamline test all patterns and return the one found earliest in the input if more than one matches.

Exports

Nothing is exported by default. The following tags can be used to have large sets of symbols exported:

:PARAM
Utility subroutines and constants for parameter setting and test:

        LONGsize        SHORTsize       nocarp          yes_true
        OS_Error
    
:STAT
The Constants named BM_* and CE_* are omitted. But the modem status (MS_*) Constants are defined for possible use with modemlines and wait_modemlines. They are assigned to corresponding functions, but the bit position will be different from that on Win32.

Which incoming bits are active:

        MS_CTS_ON    - Clear to send
    MS_DSR_ON    - Data set ready
    MS_RING_ON   - Ring indicator  
    MS_RLSD_ON   - Carrier detected
    MS_RTS_ON    - Request to send (might not exist on Win32)
    MS_DTR_ON    - Data terminal ready (might not exist on Win32)
    

If you want to write more POSIX-looking code, you can use the constants seen there, instead of the Win32 versions:

    TIOCM_CTS, TIOCM_DSR, TIOCM_RI, TIOCM_CD, TIOCM_RTS, and TIOCM_DTR
    

Offsets into the array returned by status:

        ST_BLOCK        ST_INPUT        ST_OUTPUT       ST_ERROR
    
:ALL
All of the above. Except for the test suite, there is not really a good reason to do this.

PINOUT

Here is a handy pinout map, showing each line and signal on a standard DB9 connector:

1 DCD
Data Carrier Detect
2 RD
Receive Data
3 TD
Transmit Data
4 DTR
Data Terminal Ready
5 SG
Signal Ground
6 DSR
Data Set Ready
7 RTS
Request to Send
8 CTS
Clear to Send
9 RI
Ring Indicator

NOTES

The object returned by new is NOT a Filehandle. You will be disappointed if you try to use it as one.

e.g. the following is WRONG!!

 print $PortObj "some text";

This module uses POSIX termios extensively. Raw API calls are very unforgiving. You will certainly want to start perl with the -w switch. If you can, use strict as well. Try to ferret out all the syntax and usage problems BEFORE issuing the API calls (many of which modify tuning constants in hardware device drivers....not where you want to look for bugs).

With all the options, this module needs a good tutorial. It doesn't have one yet.

EXAMPLE

It is recommended to always use "read(255)" due to some unexpected behavior with the termios under some operating systems (Linux and Solaris at least). To deal with this, a routine is usually needed to read from the serial port until you have what you want. This is a quick example of how to do that:

 my $port=Device::SerialPort->new("/dev/ttyS0");
 my $STALL_DEFAULT=10; # how many seconds to wait for new input
 
 my $timeout=$STALL_DEFAULT;
 
 $port->read_char_time(0);     # don't wait for each character
 $port->read_const_time(1000); # 1 second per unfulfilled "read" call
 
 my $chars=0;
 my $buffer="";
 while ($timeout>0) {
        my ($count,$saw)=$port->read(255); # will read _up to_ 255 chars
        if ($count > 0) {
                $chars+=$count;
                $buffer.=$saw;
 
                # Check here to see if what we want is in the $buffer
                # say "last" if we find it
        }
        else {
                $timeout--;
        }
 }
 if ($timeout==0) {
        die "Waited $STALL_DEFAULT seconds and never saw what I wanted\n";
 }

PORTING

For a serial port to work under Unix, you need the ability to do several types of operations. With POSIX, these operations are implemented with a set of "tc*" functions. However, not all Unix systems follow this correctly. In those cases, the functions change, but the variables used as parameters generally turn out to be the same.

This is only available through the bit-set(TIOCMBIS)/bit-clear(TIOCMBIC) ioctl function using the RTS value(TIOCM_RTS).

 ioctl($handle,$on ? $TIOCMBIS : $TIOCMBIC, $TIOCM_RTS);
    
This is available through the bit-set(TIOCMBIS)/bit-clear(TIOCMBIC) ioctl function using the DTR value(TIOCM_DTR)

 ioctl($handle,$on ? $TIOCMBIS : $TIOCMBIC, $TIOCM_DTR);
    

or available through the DTRSET/DTRCLEAR ioctl functions, if they exist.

 ioctl($handle,$on ? $TIOCSDTR : $TIOCCDTR, 0);
    
To read Clear To Send (CTS), Data Set Ready (DSR), Ring Indicator (RING), and Carrier Detect (CD/RLSD), the TIOCMGET ioctl function must be used.

 ioctl($handle, $TIOCMGET, $status);
    

To decode the individual modem lines, some bits have multiple possible constants:

TIOCM_CTS
TIOCM_DSR
TIOCM_RNG TIOCM_RI
TIOCM_CAR TIOCM_CD
To get information about the state of the serial port input and output buffers, the TIOCINQ and TIOCOUTQ ioctl functions must be used. I'm not totally sure what is returned by these functions across all Unix systems. Under Linux, it is the integer number of characters in the buffer.

 ioctl($handle,$in ? $TIOCINQ : $TIOCOUTQ, $count);
 $count = unpack('i',$count);
    
To get information about the state of the serial transmission line (to see if a write has made its way totally out of the serial port buffer), the TIOCSERGETLSR ioctl function must be used. Additionally, the "Get Buffer Status" methods must be functioning, as well as having the first bit of the result set (Linux is TIOCSER_TEMT, others unknown, but we've been using TIOCM_LE even though that should be returned from the TIOCMGET ioctl).

 ioctl($handle,$TIOCSERGETLSR, $status);
 $done = (unpack('i', $status) & $TIOCSER_TEMT);
    
Some Unix systems require special TCGETX/TCSETX ioctls functions and the CTSXON/RTSXOFF constants to turn on and off CTS/RTS "hard" flow control instead of just using the normal POSIX tcsetattr calls.

 ioctl($handle, $TCGETX, $flags);
 @bytes = unpack('SSSS',$flags);
 $bytes[0] = $on ? ($CTSXON | $RTSXOFF) : 0;
 $flags = pack('SSSS',@bytes);
 ioctl($handle, $TCSETX, $flags);
    

KNOWN LIMITATIONS

The current version of the module has been tested with Perl 5.003 and above. It was initially ported from Win32 and was designed to be used without requiring a compiler or using XS. Since everything is (sometimes convoluted but still pure) Perl, you can fix flaws and change limits if required. But please file a bug report if you do.

The read method, and tied methods which call it, currently can use a fixed timeout which approximates behavior of the Win32::SerialPort read_const_time and read_char_time methods. It is used internally by select. If the timeout is set to zero, the read call will return immediately. A read larger than 255 bytes will be split internally into 255-byte POSIX calls due to limitations of select and VMIN. The timeout is reset for each 255-byte segment. Hence, for large reads, use a read_const_time suitable for a 255-byte read. All of this is expeimental in Version 0.055.

  $PortObj->read_const_time(500);       # 500 milliseconds = 0.5 seconds
  $PortObj->read_char_time(5);          # avg time between read char

The timing model defines the total time allowed to complete the operation. A fixed overhead time is added to the product of bytes and per_byte_time.

Read_Total = read_const_time + (read_char_time * bytes_to_read)

Write timeouts and read_interval timeouts are not currently supported.

On some machines, reads larger than 4,096 bytes may be truncated at 4,096, regardless of the read size or read timing settings used. In this case, try turning on or increasing the inter-character delay on your serial device. Also try setting the read size to

  $PortObj->read(1) or $PortObj->read(255)

and performing multiple reads until the transfer is completed.

BUGS

See the limitations about lockfiles. Experiment if you like.

With all the currently unimplemented features, we don't need any more. But there probably are some.

Please send comments and bug reports to kees@outflux.net.

Win32::SerialPort & Win32API::CommPort

Win32::SerialPort Functions Not Currently Supported

  $LatchErrorFlags = $PortObj->reset_error;
  $PortObj->read_interval(100);         # max time between read char
  $PortObj->write_char_time(5);
  $PortObj->write_const_time(100);

Functions Handled in a POSIX system by "stty"

        xon_limit       xoff_limit      xon_char        xoff_char
        eof_char        event_char      error_char      stty_intr
        stty_quit       stty_eof        stty_eol        stty_erase
        stty_kill       stty_clear      is_stty_clear   stty_bsdel      
        stty_echoke     stty_echoctl    stty_ocrnl      stty_onlcr

Win32::SerialPort Functions Not Ported to POSIX

        transmit_char

Win32API::CommPort Functions Not Ported to POSIX

        init_done       fetch_DCB       update_DCB      initialize
        are_buffers     are_baudrate    are_handshake   are_parity
        are_databits    are_stopbits    is_handshake    xmit_imm_char
        is_baudrate     is_parity       is_databits     is_write_char_time
        debug_comm      is_xon_limit    is_xoff_limit   is_read_const_time
        suspend_tx      is_eof_char     is_event_char   is_read_char_time
        is_read_buf     is_write_buf    is_buffers      is_read_interval
        is_error_char   resume_tx       is_stopbits     is_write_const_time
        is_binary       is_status       write_bg        is_parity_enable
        is_modemlines   read_bg         read_done       break_active
        xoff_active     is_read_buf     is_write_buf    xon_active

"raw" Win32 API Calls and Constants

A large number of Win32-specific elements have been omitted. Most of these are only available in Win32::SerialPort and Win32API::CommPort as optional Exports. The list includes the following:

:RAW
The API Wrapper Methods and Constants used only to support them including PURGE_*, SET*, CLR*, EV_*, and ERROR_IO*
:COMMPROP
The Constants used for Feature and Properties Detection including BAUD_*, PST_*, PCF_*, SP_*, DATABITS_*, STOPBITS_*, PARITY_*, and COMMPROP_INITIALIZED
:DCB
The constants for the Win32 Device Control Block including CBR_*, DTR_*, RTS_*, *PARITY, *STOPBIT*, and FM_*

Compatibility

This code implements the functions required to support the MisterHouse Home Automation software by Bruce Winter. It does not attempt to support functions from Win32::SerialPort such as stty_emulation that already have POSIX implementations or to replicate Win32 idosyncracies. However, the supported functions are intended to clone the equivalent functions in Win32::SerialPort and Win32API::CommPort. Any discrepancies or omissions should be considered bugs and reported to the maintainer.

AUTHORS

 Based on Win32::SerialPort.pm, Version 0.8, by Bill Birthisel
 Ported to linux/POSIX by Joe Doss for MisterHouse
 Ported to Solaris/POSIX by Kees Cook for Sendpage
 Ported to BSD/POSIX by Kees Cook
 Ported to Perl XS by Kees Cook
 Currently maintained by:
 Kees Cook, kees@outflux.net, http://outflux.net/

SEE ALSO

Win32API::CommPort

Win32::SerialPort

perltoot - Tom Christiansen's Object-Oriented Tutorial

COPYRIGHT

 Copyright (C) 1999, Bill Birthisel. All rights reserved.
 Copyright (C) 2000-2007, Kees Cook.  All rights reserved.

This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

POD ERRORS

Hey! The above document had some coding errors, which are explained below:

You can't have =items (as at line 2653) unless the first thing after the =over is an =item
You can't have =items (as at line 2747) unless the first thing after the =over is an =item
2011-11-18 perl v5.40.0