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revision 1.52, Wed Jun 14 01:12:42 2006 UTC revision 1.80, Fri Feb 9 22:53:22 2007 UTC
# Line 19  Line 19 
19    
20      require Exporter;      require Exporter;
21      @ISA = ('Exporter');      @ISA = ('Exporter');
22      @EXPORT = qw(Trace T TSetup QTrace Confess Cluck Min Max Assert Open OpenDir TICK StandardSetup ScriptSetup ScriptFinish Insure ChDir);      @EXPORT = qw(Trace T TSetup QTrace Confess Cluck Min Max Assert Open OpenDir TICK StandardSetup EmergencyKey ETracing ScriptSetup ScriptFinish Insure ChDir Emergency);
23      @EXPORT_OK = qw(GetFile GetOptions Merge MergeOptions ParseCommand ParseRecord UnEscape Escape);      @EXPORT_OK = qw(GetFile GetOptions Merge MergeOptions ParseCommand ParseRecord UnEscape Escape);
24      use strict;      use strict;
25      use Carp qw(longmess croak);      use Carp qw(longmess croak);
# Line 31  Line 31 
31      use File::Basename;      use File::Basename;
32      use File::Path;      use File::Path;
33      use File::stat;      use File::stat;
34        use LWP::UserAgent;
35        use Time::HiRes 'gettimeofday';
36        use URI::Escape;
37        use Time::Local;
38    
39  =head1 Tracing and Debugging Helpers  =head1 Tracing and Debugging Helpers
40    
41  =head2 Introduction  =head2 Tracing
42    
43  This package provides simple tracing for debugging and reporting purposes. To use it simply call the  This package provides simple tracing for debugging and reporting purposes. To use it simply call the
44  L</TSetup> method to set the options and call L</Trace> to write out trace messages. Each trace  L</TSetup> or L</ETracing> method to set the options and call L</Trace> to write out trace messages.
45  message has a I<trace level> and I<category> associated with it. In addition, the tracing package itself  L</TSetup> and L</ETracing> both establish a I<trace level> and a list of I<categories>. Similarly,
46  has a list of categories and a single trace level set by the B<TSetup> method. Only messages whose trace  each trace message has a I<trace level> and I<category> associated with it. Only messages whose trace
47  level is less than or equal to this package's trace level and whose category is activated will  level is less than or equal to the setup trace level and whose category is activated will
48  be written. Thus, a higher trace level on a message indicates that the message  be written. Thus, a higher trace level on a message indicates that the message
49  is less likely to be seen. A higher trace level passed to B<TSetup> means more trace messages will  is less likely to be seen, while a higher trace level passed to B<TSetup> means more trace messages will
50  appear. To generate a trace message, use the following syntax.  appear.
51    
52  C<< Trace($message) if T(errors => 4); >>  =head3 Putting Trace Messages in Your Code
53    
54    To generate a trace message, use the following syntax.
55    
56        Trace($message) if T(errors => 4);
57    
58  This statement will produce a trace message if the trace level is 4 or more and the C<errors>  This statement will produce a trace message if the trace level is 4 or more and the C<errors>
59  category is active. Note that the special category C<main> is always active, so  category is active. There is a special category C<main> that is always active, so
60    
61  C<< Trace($message) if T(main => 4); >>      Trace($message) if T(main => 4);
62    
63  will trace if the trace level is 4 or more.  will trace if the trace level is 4 or more.
64    
# Line 58  Line 66 
66  following call is made in the B<Sprout> package, it will appear if the C<Sprout> category is  following call is made in the B<Sprout> package, it will appear if the C<Sprout> category is
67  active and the trace level is 2 or more.  active and the trace level is 2 or more.
68    
69  C<< Trace($message) if T(2); >>      Trace($message) if T(2);
70    
71    In scripts, where no package name is available, the category defaults to C<main>.
72    
73    =head3 Custom Tracing
74    
75  To set up tracing, you call the L</TSetup> method. The method takes as input a trace level, a list  Many programs have customized tracing configured using the L</TSetup> method. This is no longer
76  of category names, and a set of options. The trace level and list of category names are  the preferred method, but a knowledge of how custom tracing works can make the more modern
77    L</Emergency Tracing> easier to understand.
78    
79    To set up custom tracing, you call the L</TSetup> method. The method takes as input a trace level,
80    a list of category names, and a destination. The trace level and list of category names are
81  specified as a space-delimited string. Thus  specified as a space-delimited string. Thus
82    
83  C<< TSetup('3 errors Sprout ERDB', 'HTML'); >>      TSetup('3 errors Sprout ERDB', 'TEXT');
84    
85  sets the trace level to 3, activates the C<errors>, C<Sprout>, and C<ERDB> categories, and  sets the trace level to 3, activates the C<errors>, C<Sprout>, and C<ERDB> categories, and
86  specifies that messages should be output as HTML paragraphs.  specifies that messages should be sent to the standard output.
87    
88  To turn on tracing for ALL categories, use an asterisk. The call below sets every category to  To turn on tracing for ALL categories, use an asterisk. The call below sets every category to
89  level 3 and writes the output to the standard error output. This sort of thing might be  level 3 and writes the output to the standard error output. This sort of thing might be
90  useful in a CGI environment.  useful in a CGI environment.
91    
92  C<< TSetup('3 *', 'WARN'); >>      TSetup('3 *', 'WARN');
93    
94  In addition to HTML and file output for trace messages, you can specify that the trace messages  In addition standard error and file output for trace messages, you can specify that the trace messages
95  be queued. The messages can then be retrieved by calling the L</QTrace> method. This approach  be queued. The messages can then be retrieved by calling the L</QTrace> method. This approach
96  is useful if you are building a web page. Instead of having the trace messages interspersed with  is useful if you are building a web page. Instead of having the trace messages interspersed with
97  the page output, they can be gathered together and displayed at the end of the page. This makes  the page output, they can be gathered together and displayed at the end of the page. This makes
98  it easier to debug page formatting problems.  it easier to debug page formatting problems.
99    
100  Finally, you can specify that all trace messages be emitted as warnings.  Finally, you can specify that all trace messages be emitted to a file, or the standard output and
101    a file at the same time. To trace to a file, specify the filename with an output character in front
102    of it.
103    
104        TSetup('4 SQL', ">$fileName");
105    
106    To trace to the standard output and a file at the same time, put a C<+> in front of the angle
107    bracket.
108    
109        TSetup('3 *', "+>$fileName");
110    
111  The flexibility of tracing makes it superior to simple use of directives like C<die> and C<warn>.  The flexibility of tracing makes it superior to simple use of directives like C<die> and C<warn>.
112  Tracer calls can be left in the code with minimal overhead and then turned on only when needed.  Tracer calls can be left in the code with minimal overhead and then turned on only when needed.
113  Thus, debugging information is available and easily retrieved even when the application is  Thus, debugging information is available and easily retrieved even when the application is
114  being used out in the field.  being used out in the field.
115    
116    =head3 Trace Levels
117    
118  There is no hard and fast rule on how to use trace levels. The following is therefore only  There is no hard and fast rule on how to use trace levels. The following is therefore only
119  a suggestion.  a suggestion.
120    
# Line 118  Line 145 
145    
146  =back  =back
147    
148    The format of trace messages is important because some utilities analyze trace files.
149    There are three fields-- the time stamp, the category name, and the text.
150    The time stamp is between square brackets and the category name between angle brackets.
151    After the category name there is a colon (C<:>) followed by the message text.
152    If the square brackets or angle brackets are missing, then the trace management
153    utilities assume that they are encountering a set of pre-formatted lines.
154    
155    Note, however, that this formatting is done automatically by the tracing functions. You
156    only need to know about it if you want to parse a trace file.
157    
158    =head3 Emergency Tracing
159    
160    Sometimes, you need a way for tracing to happen automatically without putting parameters
161    in a form or on the command line. Emergency tracing does this. You invoke emergency tracing
162    from the debug form, which is accessed from I<MySeedInstance>C</FIG/Html/SetPassword.html>.
163    Emergency tracing requires you specify a tracing key. For command-line tools, the key is
164    taken from the C<TRACING> environment variable. For web services, the key is taken from
165    a cookie. Either way, the key tells the tracing facility who you are, so that you control
166    the tracing in your environment without stepping on other users.
167    
168    The key can be anything you want. If you don't have a key, the C<SetPassword> page will
169    generate one for you.
170    
171    You can activate and de-activate emergency tracing from the debugging control panel, as
172    well as display the trace file itself.
173    
174    To enable emergency tracing in your code, call
175    
176        ETracing($cgi)
177    
178    from a web script and
179    
180        ETracing()
181    
182    from a command-line script.
183    
184    The web script will look for the tracing key in the cookies, and the command-line
185    script will look for it in the C<TRACING> environment variable. If you are
186    using the L</StandardScript> or L</StandardSetup> methods, emergency tracing
187    will be configured automatically.
188    
189    =head3 Debugging Control Panel
190    
191    The debugging control panel provides several tools to assist in development of
192    SEED and Sprout software. You access the debugging control panel from the URL
193    C</FIG/Html/SetPassword.html> in whichever seed instance you're using. (So,
194    for example, the panel access point for the development NMPDR system is
195    C<http://web-1.nmpdr.org/next/FIG/Html/SetPassword.html>. Contact Bruce to
196    find out what the password is. From this page, you can also specify a tracing
197    key. If you don't specify a key, one will be generated for you.
198    
199    =head4 Emergency Tracing Form
200    
201    At the bottom of the debugging control panel is a form that allows you to
202    specify a trace level and tracing categories. Special and common categories
203    are listed with check boxes. You can hold your mouse over a check box to see
204    what its category does. In general, however, a category name is the same as
205    the name of the package in which the trace message occurs.
206    
207    Additional categories can be entered in an input box, delimited by spaces or commas.
208    
209    The B<Activate> button turns on Emergency tracing at the level you specify with the
210    specified categories active. The B<Terminate> button turns tracing off. The
211    B<Show File> button displays the current contents of the trace file. The tracing
212    form at the bottom of the control panel is designed for emergency tracing, so it
213    will only affect programs that call L</ETracing>, L</StandardScript>,
214    or L</StandardSetup>.
215    
216    =head4 Script Form
217    
218    The top form of the debugging control panel allows you to enter a tiny script and
219    have the output generated in a formatted table. Certain object variables are
220    predefined in the script, including a FIG object (C<$fig>), a CGI object (C<$cgi>),
221    and-- if Sprout is active-- Sprout (C<$sprout>) and SFXlate (C<$sfx>) objects.
222    
223    The last line of the script must be a scalar, but it can be a reference to a hash,
224    a list, a list of lists, and various other combinations. If you select the appropriate
225    data type in the dropdown box, the output will be formatted accordingly. The form
226    also has controls for specifying tracing. These controls override any emergency
227    tracing in effect.
228    
229    =head4 Database Query Forms
230    
231    The forms between the script form and the emergency tracing form allow you to
232    make queries against the database. The FIG query form allows simple queries against
233    a single FIG table. The Sprout query form uses the B<GetAll> method to do a
234    multi-table query against the Sprout database. B<GetAll> is located in the B<ERDB>
235    package, and it takes five parameters.
236    
237        GetAll(\@objectNames, $filterClause, \@parameters, \@fields, $count);
238    
239    Each of the five parameters corresponds to a text box on the query form:
240    
241    =over 4
242    
243    =item Objects
244    
245    Comma-separated list containing the names of the entity and relationship objects to be retrieved.
246    
247    =item Filter
248    
249    WHERE/ORDER BY clause (without the WHERE) to be used to filter and sort the query. The WHERE clause can
250    be parameterized with parameter markers (C<?>). Each field used must be specified in the standard form
251    B<I<objectName>(I<fieldName>)> or B<$I<number>(I<fieldName>)> where I<fieldName> is the name of a
252    field, I<objectName> is the name of the entity or relationship object containing the field, and
253    I<number> is the 1-based position of the object in the object list. Any parameters
254    specified in the filter clause should be specified in the B<Params> field.
255    The fields in a filter clause can come from primary entity relations,
256    relationship relations, or secondary entity relations; however, all of the
257    entities and relationships involved must be included in the list of object names.
258    
259    =item Params
260    
261    List of the parameters to be substituted in for the parameters marks in the filter clause. This
262    is a comma-separated list without any quoting or escaping.
263    
264    =item fields
265    
266    Comma-separated list of the fields to be returned in each element of the list returned. Fields
267    are specified in the same manner as in the filter clause.
268    
269    =item count
270    
271    Maximum number of records to return. If omitted or 0, all available records will be returned.
272    
273    =back
274    
275    B<GetAll> automatically joins together the entities and relationships listed in the object
276    names. This simplifies the coding of the filter clause, but it means that some queries are
277    not possible, since they cannot be expressed in a linear sequence of joins. This is a limitation
278    that has yet to be addressed.
279    
280  =cut  =cut
281    
282  # Declare the configuration variables.  # Declare the configuration variables.
# Line 197  Line 356 
356          }          }
357          if ($target =~ m/^>[^>]/) {          if ($target =~ m/^>[^>]/) {
358              open TRACEFILE, $target;              open TRACEFILE, $target;
359              print TRACEFILE Now() . " Tracing initialized.\n";              print TRACEFILE "[" . Now() . "] <Tracer>: Tracing initialized.\n";
360              close TRACEFILE;              close TRACEFILE;
361              $Destination = ">$target";              $Destination = ">$target";
362          } else {          } else {
# Line 230  Line 389 
389      ["Sprout", "SproutLoad", "ERDB"]      ["Sprout", "SproutLoad", "ERDB"]
390    
391  This would cause trace messages in the specified three packages to appear in  This would cause trace messages in the specified three packages to appear in
392  the output. There are threer special tracing categories that are automatically  the output. There are two special tracing categories that are automatically
393  handled by this method. In other words, if you used L</TSetup> you would need  handled by this method. In other words, if you used L</TSetup> you would need
394  to include these categories manually, but if you use this method they are turned  to include these categories manually, but if you use this method they are turned
395  on automatically.  on automatically.
396    
397  =over 4  =over 4
398    
 =item FIG  
   
 Turns on trace messages inside the B<FIG> package.  
   
399  =item SQL  =item SQL
400    
401  Traces SQL commands and activity.  Traces SQL commands and activity.
# Line 305  Line 460 
460  In this case, C<register>, C<../xacts>, and C<IDs.tbl> are the positional  In this case, C<register>, C<../xacts>, and C<IDs.tbl> are the positional
461  parameters, and would find themselves in I<@parameters> after executing the  parameters, and would find themselves in I<@parameters> after executing the
462  above code fragment. The tracing would be set to level 2, and the categories  above code fragment. The tracing would be set to level 2, and the categories
463  would be C<FIG>, C<Tracer>, and <DocUtils>. C<FIG> and C<Tracer> are standard,  would be C<Tracer>, and <DocUtils>. C<Tracer> is standard,
464  and C<DocUtils> was included because it came in within the first parameter  and C<DocUtils> was included because it came in within the first parameter
465  to this method. The I<$options> hash would be  to this method. The I<$options> hash would be
466    
# Line 330  Line 485 
485  C<outBruce.log>, and the error output to C<errBruce.log>. This is designed to  C<outBruce.log>, and the error output to C<errBruce.log>. This is designed to
486  simplify starting a command in the background.  simplify starting a command in the background.
487    
488    The user name is also used as the tracing key for L</Emergency Tracing>.
489    Specifying a value of C<E> for the trace level causes emergency tracing to
490    be used instead of custom tracing. If the user name is not specified,
491    the tracing key is taken from the C<Tracing> environment variable. If there
492    is no value for that variable, the tracing key will be computed from the PID.
493    
494  Finally, if the special option C<-h> is specified, the option names will  Finally, if the special option C<-h> is specified, the option names will
495  be traced at level 0 and the program will exit without processing.  be traced at level 0 and the program will exit without processing.
496  This provides a limited help capability. For example, if the user enters  This provides a limited help capability. For example, if the user enters
# Line 339  Line 500 
500  he would see the following output.  he would see the following output.
501    
502      TransactFeatures [options] command transactionDirectory IDfile      TransactFeatures [options] command transactionDirectory IDfile
503          -trace    tracing level (default 2)          -trace    tracing level (default E)
504          -sql      trace SQL commands          -sql      trace SQL commands
505          -safe     use database transactions          -safe     use database transactions
506          -noAlias  do not expect aliases in CHANGE transactions          -noAlias  do not expect aliases in CHANGE transactions
# Line 354  Line 515 
515      { trace => [0, "tracing level (default 0)"],      { trace => [0, "tracing level (default 0)"],
516         ...         ...
517    
518  would set the default trace level to 0 instead of 2, while  would set the default trace level to 0 instead of E, while
519    
520      { trace => ["2-", "tracing level (default 2)"],      { trace => ["2-", "tracing level (default 2)"],
521         ...         ...
522    
523  would leave the default at 2, but trace only to the log file, not to the  would set the default to 2, but trace only to the log file, not to the
524  standard output.  standard output.
525    
526  The parameters to this method are as follows.  The parameters to this method are as follows.
# Line 406  Line 567 
567  sub StandardSetup {  sub StandardSetup {
568      # Get the parameters.      # Get the parameters.
569      my ($categories, $options, $parmHelp, @argv) = @_;      my ($categories, $options, $parmHelp, @argv) = @_;
570        # Get the default tracing key.
571        my $tkey = EmergencyKey();
572      # Add the tracing options.      # Add the tracing options.
573      if (! exists $options->{trace}) {      if (! exists $options->{trace}) {
574          $options->{trace} = [2, "tracing level"];          $options->{trace} = ['E', "tracing level (E for emergency tracing)"];
575      }      }
576      $options->{sql} = [0, "turn on SQL tracing"];      $options->{sql} = [0, "turn on SQL tracing"];
577      $options->{h} = [0, "display command-line options"];      $options->{h} = [0, "display command-line options"];
578      $options->{user} = [$$, "trace log file name suffix"];      $options->{user} = [$tkey, "tracing key"];
579      $options->{background} = [0, "spool standard and error output"];      $options->{background} = [0, "spool standard and error output"];
580      # Create a parsing hash from the options hash. The parsing hash      # Create a parsing hash from the options hash. The parsing hash
581      # contains the default values rather than the default value      # contains the default values rather than the default value
# Line 437  Line 600 
600          open STDOUT, ">$outFileName";          open STDOUT, ">$outFileName";
601          open STDERR, ">$errFileName";          open STDERR, ">$errFileName";
602      }      }
603      # Now we want to set up tracing. First, we need to know if SQL is to      # Now we want to set up tracing. First, we need to know if the user
604      # be traced.      # wants emergency tracing.
605        if ($retOptions->{trace} eq 'E') {
606            ETracing($retOptions->{user});
607        } else {
608            # Here the tracing is controlled from the command line.
609      my @cats = @{$categories};      my @cats = @{$categories};
610      if ($retOptions->{sql}) {      if ($retOptions->{sql}) {
611          push @cats, "SQL";          push @cats, "SQL";
612      }      }
613      # Add the default categories.      # Add the default categories.
614      push @cats, "Tracer", "FIG";          push @cats, "Tracer";
615      # Next, we create the category string by joining the categories.      # Next, we create the category string by joining the categories.
616      my $cats = join(" ", @cats);      my $cats = join(" ", @cats);
617      # Check to determine whether or not the caller wants to turn off tracing      # Check to determine whether or not the caller wants to turn off tracing
# Line 479  Line 646 
646      }      }
647      # Now set up the tracing.      # Now set up the tracing.
648      TSetup("$traceLevel $cats", $traceMode);      TSetup("$traceLevel $cats", $traceMode);
649        }
650      # Check for the "h" option. If it is specified, dump the command-line      # Check for the "h" option. If it is specified, dump the command-line
651      # options and exit the program.      # options and exit the program.
652      if ($retOptions->{h}) {      if ($retOptions->{h}) {
653          $0 =~ m#[/\\](\w+)(\.pl)?$#i;          $0 =~ m#[/\\](\w+)(\.pl)?$#i;
654          Trace("$1 [options] $parmHelp") if T(0);          print "$1 [options] $parmHelp\n";
655          for my $key (sort keys %{$options}) {          for my $key (sort keys %{$options}) {
656              my $name = Pad($key, $longestName, 0, ' ');              my $name = Pad($key, $longestName, 0, ' ');
657              my $desc = $options->{$key}->[1];              my $desc = $options->{$key}->[1];
658              if ($options->{$key}->[0]) {              if ($options->{$key}->[0]) {
659                  $desc .= " (default " . $options->{$key}->[0] . ")";                  $desc .= " (default " . $options->{$key}->[0] . ")";
660              }              }
661              Trace("  $name $desc") if T(0);              print "  $name $desc\n";
662          }          }
663          exit(0);          exit(0);
664      }      }
# Line 764  Line 932 
932      return $value;      return $value;
933  }  }
934    
935    =head3 ParseTraceDate
936    
937    C<< my $time = Tracer::ParseTraceDate($dateString); >>
938    
939    Convert a date from the trace file into a PERL timestamp.
940    
941    =over 4
942    
943    =item dateString
944    
945    The date string from the trace file. The format of the string is determined by the
946    L</Now> method.
947    
948    =item RETURN
949    
950    Returns a PERL time, that is, a number of seconds since the epoch, or C<undef> if
951    the time string is invalid.
952    
953    =back
954    
955    =cut
956    
957    sub ParseTraceDate {
958        # Get the parameters.
959        my ($dateString) = @_;
960        # Declare the return variable.
961        my $retVal;
962        # Parse the date.
963        if ($dateString =~ m#(\d+)/(\d+)/(\d+)\s+(\d+):(\d+):(\d+)#) {
964            # Create a time object. Note we need to convert the day, month,
965            # and year to a different base. Years count from 1900, and
966            # the internal month value is relocated to January = 0.
967            $retVal = timelocal($6, $5, $4, $2, $1 - 1, $3 - 1900);
968        }
969        # Return the result.
970        return $retVal;
971    }
972    
973  =head3 LogErrors  =head3 LogErrors
974    
975  C<< Tracer::LogErrors($fileName); >>  C<< Tracer::LogErrors($fileName); >>
# Line 966  Line 1172 
1172      # Get the timestamp.      # Get the timestamp.
1173      my $timeStamp = Now();      my $timeStamp = Now();
1174      # Format the message. Note we strip off any line terminators at the end.      # Format the message. Note we strip off any line terminators at the end.
1175      my $formatted = "$timeStamp <$LastCategory>: " . Strip($message);      my $formatted = "[$timeStamp] <$LastCategory>: " . Strip($message);
1176      # Process according to the destination.      # Process according to the destination.
1177      if ($Destination eq "TEXT") {      if ($Destination eq "TEXT") {
1178          # Write the message to the standard output.          # Write the message to the standard output.
# Line 1348  Line 1554 
1554      return @inputList;      return @inputList;
1555  }  }
1556    
1557    =head3 Percent
1558    
1559    C<< my $percent = Tracer::Percent($number, $base); >>
1560    
1561    Returns the percent of the base represented by the given number. If the base
1562    is zero, returns zero.
1563    
1564    =over 4
1565    
1566    =item number
1567    
1568    Percent numerator.
1569    
1570    =item base
1571    
1572    Percent base.
1573    
1574    =item RETURN
1575    
1576    Returns the percentage of the base represented by the numerator.
1577    
1578    =back
1579    
1580    =cut
1581    
1582    sub Percent {
1583        # Get the parameters.
1584        my ($number, $base) = @_;
1585        # Declare the return variable.
1586        my $retVal = 0;
1587        # Compute the percent.
1588        if ($base != 0) {
1589            $retVal = $number * 100 / $base;
1590        }
1591        # Return the result.
1592        return $retVal;
1593    }
1594    
1595  =head3 GetFile  =head3 GetFile
1596    
1597  C<< my @fileContents = Tracer::GetFile($fileName); >>  C<< my @fileContents = Tracer::GetFile($fileName); >>
# Line 1381  Line 1625 
1625      # Declare the return variable.      # Declare the return variable.
1626      my @retVal = ();      my @retVal = ();
1627      # Open the file for input.      # Open the file for input.
1628      my $ok = open INPUTFILE, "<$fileName";      my $handle = Open(undef, "<$fileName");
     if (!$ok) {  
         # If we had an error, trace it. We will automatically return a null value.  
         Trace("Could not open \"$fileName\" for input: $!") if T(0);  
     } else {  
1629          # Read the whole file into the return variable, stripping off any terminator          # Read the whole file into the return variable, stripping off any terminator
1630          # characters.          # characters.
1631          my $lineCount = 0;          my $lineCount = 0;
1632          while (my $line = <INPUTFILE>) {      while (my $line = <$handle>) {
1633              $lineCount++;              $lineCount++;
1634              $line = Strip($line);              $line = Strip($line);
1635              push @retVal, $line;              push @retVal, $line;
1636          }          }
1637          # Close it.          # Close it.
1638          close INPUTFILE;      close $handle;
1639          my $actualLines = @retVal;          my $actualLines = @retVal;
1640      }      Trace("$actualLines lines read from file $fileName.") if T(File => 2);
1641      # Return the file's contents in the desired format.      # Return the file's contents in the desired format.
1642      if (wantarray) {      if (wantarray) {
1643          return @retVal;          return @retVal;
# Line 1406  Line 1646 
1646      }      }
1647  }  }
1648    
1649    =head3 PutFile
1650    
1651    C<< Tracer::PutFile($fileName, \@lines); >>
1652    
1653    Write out a file from a list of lines of text.
1654    
1655    =over 4
1656    
1657    =item fileName
1658    
1659    Name of the output file.
1660    
1661    =item lines
1662    
1663    Reference to a list of text lines. The lines will be written to the file in order, with trailing
1664    new-line characters. Alternatively, may be a string, in which case the string will be written without
1665    modification.
1666    
1667    =back
1668    
1669    =cut
1670    
1671    sub PutFile {
1672        # Get the parameters.
1673        my ($fileName, $lines) = @_;
1674        # Open the output file.
1675        my $handle = Open(undef, ">$fileName");
1676        # Count the lines written.
1677        if (ref $lines ne 'ARRAY') {
1678            # Here we have a scalar, so we write it raw.
1679            print $handle $lines;
1680            Trace("Scalar put to file $fileName.") if T(File => 3);
1681        } else {
1682            # Write the lines one at a time.
1683            my $count = 0;
1684            for my $line (@{$lines}) {
1685                print $handle "$line\n";
1686                $count++;
1687            }
1688            Trace("$count lines put to file $fileName.") if T(File => 3);
1689        }
1690        # Close the output file.
1691        close $handle;
1692    }
1693    
1694  =head3 QTrace  =head3 QTrace
1695    
1696  C<< my $data = QTrace($format); >>  C<< my $data = QTrace($format); >>
# Line 1606  Line 1891 
1891    
1892  =head3 AddToListMap  =head3 AddToListMap
1893    
1894  C<< Tracer::AddToListMap(\%hash, $key, $value); >>  C<< Tracer::AddToListMap(\%hash, $key, $value1, $value2, ... valueN); >>
1895    
1896  Add a key-value pair to a hash of lists. If no value exists for the key, a singleton list  Add a key-value pair to a hash of lists. If no value exists for the key, a singleton list
1897  is created for the key. Otherwise, the new value is pushed onto the list.  is created for the key. Otherwise, the new value is pushed onto the list.
# Line 1621  Line 1906 
1906    
1907  Key for which the value is to be added.  Key for which the value is to be added.
1908    
1909  =item value  =item value1, value2, ... valueN
1910    
1911  Value to add to the key's value list.  List of values to add to the key's value list.
1912    
1913  =back  =back
1914    
# Line 1631  Line 1916 
1916    
1917  sub AddToListMap {  sub AddToListMap {
1918      # Get the parameters.      # Get the parameters.
1919      my ($hash, $key, $value) = @_;      my ($hash, $key, @values) = @_;
1920      # Process according to whether or not the key already has a value.      # Process according to whether or not the key already has a value.
1921      if (! exists $hash->{$key}) {      if (! exists $hash->{$key}) {
1922          $hash->{$key} = [$value];          $hash->{$key} = [@values];
1923      } else {      } else {
1924          push @{$hash->{$key}}, $value;          push @{$hash->{$key}}, @values;
1925      }      }
1926  }  }
1927    
# Line 1644  Line 1929 
1929    
1930  C<< if (Tracer::DebugMode) { ...code... } >>  C<< if (Tracer::DebugMode) { ...code... } >>
1931    
1932  Return TRUE if debug mode has been turned on, else output an error  Return TRUE if debug mode has been turned on, else abort.
 page and return FALSE.  
1933    
1934  Certain CGI scripts are too dangerous to exist in the production  Certain CGI scripts are too dangerous to exist in the production
1935  environment. This method provides a simple way to prevent them  environment. This method provides a simple way to prevent them
1936  from working unless they are explicitly turned on by creating a password  from working unless they are explicitly turned on by creating a password
1937  cookie via the B<SetPassword> script.  If debugging mode  cookie via the B<SetPassword> script.  If debugging mode
1938  is not turned on, an error web page will be output directing the  is not turned on, an error will occur.
 user to enter in the correct password.  
1939    
1940  =cut  =cut
1941    
# Line 1665  Line 1948 
1948      if ($encrypted eq "252dec43280e0c0d6a75ffcec486e61d") {      if ($encrypted eq "252dec43280e0c0d6a75ffcec486e61d") {
1949          $retVal = 1;          $retVal = 1;
1950      } else {      } else {
1951          # Here debug mode is off, so we generate an error page.          # Here debug mode is off, so we generate an error.
1952          my $pageString = PageBuilder::Build("<Html/ErrorPage.html", {}, "Html");          Confess("Cannot use this facility without logging in.");
         print $pageString;  
1953      }      }
1954      # Return the determination indicator.      # Return the determination indicator.
1955      return $retVal;      return $retVal;
# Line 1819  Line 2101 
2101    
2102  =head3 ScriptSetup  =head3 ScriptSetup
2103    
2104  C<< my ($query, $varHash) = ScriptSetup(); >>  C<< my ($cgi, $varHash) = ScriptSetup($noTrace); >>
2105    
2106  Perform standard tracing and debugging setup for scripts. The value returned is  Perform standard tracing and debugging setup for scripts. The value returned is
2107  the CGI object followed by a pre-built variable hash.  the CGI object followed by a pre-built variable hash.
2108    
2109  The C<Trace> query parameter is used to determine whether or not tracing is active and  The C<Trace> form parameter is used to determine whether or not tracing is active and
2110  which trace modules (other than C<Tracer> and C<FIG>) should be turned on. Specifying  which trace modules (other than C<Tracer> itself) should be turned on. Specifying
2111  the C<CGI> trace module will trace parameter and environment information. Parameters are  the C<CGI> trace module will trace parameter and environment information. Parameters are
2112  traced at level 3 and environment variables at level 4. At the end of the script, the  traced at level 3 and environment variables at level 4. To trace to a file instead of to
2113  client should call L</ScriptFinish> to output the web page.  the web page, set C<TF> to 1. At the end of the script, the client should call
2114    L</ScriptFinish> to output the web page.
2115    
2116    In some situations, it is not practical to invoke tracing via form parameters. For this
2117    situation, you can turn on emergency tracing from the debugging control panel.
2118    Tracing will then be turned on automatically for all programs that use the L</ETracing>
2119    method, which includes every program that uses this method or L</StandardSetup>.
2120    
2121    =over 4
2122    
2123    =item noTrace (optional)
2124    
2125    If specified, tracing will be suppressed. This is useful if the script wants to set up
2126    tracing manually.
2127    
2128    =item RETURN
2129    
2130    Returns a two-element list consisting of a CGI query object and a variable hash for
2131    the output page.
2132    
2133    =back
2134    
2135  =cut  =cut
2136    
2137  sub ScriptSetup {  sub ScriptSetup {
2138        # Get the parameters.
2139        my ($noTrace) = @_;
2140      # Get the CGI query object.      # Get the CGI query object.
2141      my $query = CGI->new();      my $cgi = CGI->new();
2142      # Check for tracing. Set it up if the user asked for it.      # Set up tracing if it's not suppressed.
2143      if ($query->param('Trace')) {      ETracing($cgi) unless $noTrace;
2144          # Set up tracing to be queued for display at the bottom of the web page.      # Create the variable hash.
2145          TSetup($query->param('Trace') . " FIG Tracer", "QUEUE");      my $varHash = { results => '' };
2146          # Trace the parameter and environment data.      # Return the query object and variable hash.
2147        return ($cgi, $varHash);
2148    }
2149    
2150    =head3 ETracing
2151    
2152    C<< ETracing($parameter); >>
2153    
2154    Set up emergency tracing. Emergency tracing is tracing that is turned
2155    on automatically for any program that calls this method. The emergency
2156    tracing parameters are stored in a a file identified by a tracing key.
2157    If this method is called with a CGI object, then the tracing key is
2158    taken from a cookie. If it is called with no parameters, then the tracing
2159    key is taken from an environment variable. If it is called with a string,
2160    the tracing key is that string.
2161    
2162    =over 4
2163    
2164    =item parameter
2165    
2166    A parameter from which the tracing key is computed. If it is a scalar,
2167    that scalar is used as the tracing key. If it is a CGI object, the
2168    tracing key is taken from the C<IP> cookie. If it is omitted, the
2169    tracing key is taken from the C<TRACING> environment variable. If it
2170    is a CGI object and emergency tracing is not on, the C<Trace> and
2171    C<TF> parameters will be used to determine the type of tracing.
2172    
2173    =back
2174    
2175    =cut
2176    
2177    sub ETracing {
2178        # Get the parameter.
2179        my ($parameter) = @_;
2180        # Check for CGI mode.
2181        my $cgi = (ref $parameter eq 'CGI' ? $parameter : undef);
2182        # Default to no tracing except errors.
2183        my ($tracing, $dest) = ("0", "WARN");
2184        # Check for emergency tracing.
2185        my $tkey = EmergencyKey($parameter);
2186        my $emergencyFile = EmergencyFileName($tkey);
2187        if (-e $emergencyFile) {
2188            # We have the file. Read in the data.
2189            my @tracing = GetFile($emergencyFile);
2190            # Pull off the time limit.
2191            my $expire = shift @tracing;
2192            # Convert it to seconds.
2193            $expire *= 3600;
2194            # Check the file data.
2195            my $stat = stat($emergencyFile);
2196            my ($now) = gettimeofday;
2197            if ($now - $stat->mtime > $expire) {
2198                # Delete the expired file.
2199                unlink $emergencyFile;
2200            } else {
2201                # Emergency tracing is on. Pull off the destination and
2202                # the trace level;
2203                $dest = shift @tracing;
2204                my $level = shift @tracing;
2205                # Convert the destination to a real tracing destination.
2206                # temp directory.
2207                $dest = EmergencyTracingDest($tkey, $dest);
2208                # Insure Tracer is specified.
2209                my %moduleHash = map { $_ => 1 } @tracing;
2210                $moduleHash{Tracer} = 1;
2211                # Set the trace parameter.
2212                $tracing = join(" ", $level, sort keys %moduleHash);
2213            }
2214        } elsif (defined $cgi) {
2215            # There's no emergency tracing, but we have a CGI object, so check
2216            # for tracing from the form parameters.
2217            if ($cgi->param('Trace')) {
2218                # Here the user has requested tracing via a form.
2219                $dest = ($cgi->param('TF') ? ">$FIG_Config::temp/Trace$$.log" : "QUEUE");
2220                $tracing = $cgi->param('Trace') . " Tracer";
2221            }
2222        }
2223        # Setup the tracing we've determined from all the stuff above.
2224        TSetup($tracing, $dest);
2225        # If we're a web script, trace the parameter and environment data.
2226        if (defined $cgi) {
2227            TraceParms($cgi);
2228        }
2229    }
2230    
2231    =head3 EmergencyFileName
2232    
2233    C<< my $fileName = Tracer::EmergencyFileName($tkey); >>
2234    
2235    Return the emergency tracing file name. This is the file that specifies
2236    the tracing information.
2237    
2238    =over 4
2239    
2240    =item tkey
2241    
2242    Tracing key for the current program.
2243    
2244    =item RETURN
2245    
2246    Returns the name of the file to contain the emergency tracing information.
2247    
2248    =back
2249    
2250    =cut
2251    
2252    sub EmergencyFileName {
2253        # Get the parameters.
2254        my ($tkey) = @_;
2255        # Compute the emergency tracing file name.
2256        return "$FIG_Config::temp/Emergency$tkey.txt";
2257    }
2258    
2259    =head3 EmergencyFileTarget
2260    
2261    C<< my $fileName = Tracer::EmergencyFileTarget($tkey); >>
2262    
2263    Return the emergency tracing target file name. This is the file that receives
2264    the tracing output for file-based tracing.
2265    
2266    =over 4
2267    
2268    =item tkey
2269    
2270    Tracing key for the current program.
2271    
2272    =item RETURN
2273    
2274    Returns the name of the file to contain the trace output.
2275    
2276    =back
2277    
2278    =cut
2279    
2280    sub EmergencyFileTarget {
2281        # Get the parameters.
2282        my ($tkey) = @_;
2283        # Compute the emergency tracing file name.
2284        return "$FIG_Config::temp/trace$tkey.log";
2285    }
2286    
2287    =head3 EmergencyTracingDest
2288    
2289    C<< my $dest = Tracer::EmergencyTracingDest($tkey, $myDest); >>
2290    
2291    This method converts an emergency tracing destination to a real
2292    tracing destination. The main difference is that if the
2293    destination is C<FILE> or C<APPEND>, we convert it to file
2294    output.
2295    
2296    =over 4
2297    
2298    =item tkey
2299    
2300    Tracing key for this environment.
2301    
2302    =item myDest
2303    
2304    Destination from the emergency tracing file.
2305    
2306    =item RETURN
2307    
2308    Returns a destination that can be passed into L</TSetup>.
2309    
2310    =back
2311    
2312    =cut
2313    
2314    sub EmergencyTracingDest {
2315        # Get the parameters.
2316        my ($tkey, $myDest) = @_;
2317        # Declare the return variable.
2318        my $retVal;
2319        # Process according to the destination value.
2320        if ($myDest eq 'FILE') {
2321            $retVal = ">" . EmergencyFileTarget($tkey);
2322        } elsif ($myDest eq 'APPEND') {
2323            $retVal = ">>" . EmergencyFileTarget($tkey);
2324        } else {
2325            $retVal = $myDest;
2326        }
2327        # Return the result.
2328        return $retVal;
2329    }
2330    
2331    =head3 Emergency
2332    
2333    C<< Emergency($key, $hours, $dest, $level, @modules); >>
2334    
2335    Turn on emergency tracing. This method can only be invoked over the web and is
2336    should not be called if debug mode is off. The caller specifies the duration of the
2337    emergency in hours, the desired tracing destination, the trace level,
2338    and a list of the trace modules to activate. For the length of the duration, when a
2339    program in an environment with the specified tracing key active invokes a Sprout
2340    CGI script, tracing will be turned on automatically. See L</TSetup> for more
2341    about tracing setup and L</ETracing> for more about emergency tracing.
2342    
2343    =over 4
2344    
2345    =item tkey
2346    
2347    The tracing key. This is used to identify the control file and the trace file.
2348    
2349    =item hours
2350    
2351    Number of hours to keep emergency tracing alive.
2352    
2353    =item dest
2354    
2355    Tracing destination. If no path information is specified for a file
2356    destination, it is put in the FIG temporary directory.
2357    
2358    =item level
2359    
2360    Tracing level. A higher level means more trace messages.
2361    
2362    =item modules
2363    
2364    A list of the tracing modules to activate.
2365    
2366    =back
2367    
2368    =cut
2369    
2370    sub Emergency {
2371        # Get the parameters.
2372        my ($tkey, $hours, $dest, $level, @modules) = @_;
2373        # Create the emergency file.
2374        my $specFile = EmergencyFileName($tkey);
2375        my $outHandle = Open(undef, ">$specFile");
2376        print $outHandle join("\n", $hours, $dest, $level, @modules, "");
2377    }
2378    
2379    =head3 EmergencyKey
2380    
2381    C<< my $tkey = EmergencyKey($parameter); >>
2382    
2383    Return the Key to be used for emergency tracing. This could be an IP address,
2384     a session ID, or a user name, depending on the environment.
2385    
2386    =over 4
2387    
2388    =item parameter
2389    
2390    Parameter defining the method for finding the tracing key. If it is a scalar,
2391    then it is presumed to be the tracing key itself. If it is a CGI object, then
2392    the tracing key is taken from the C<IP> cookie. Otherwise, the tracing key is
2393    taken from the C<TRACING> environment variable.
2394    
2395    =item RETURN
2396    
2397    Returns the key to be used for labels in emergency tracing.
2398    
2399    =back
2400    
2401    =cut
2402    
2403    sub EmergencyKey {
2404        # Get the parameters.
2405        my ($parameter) = @_;
2406        # Declare the return variable.
2407        my $retVal;
2408        # Determine the parameter type.
2409        if (! defined $parameter) {
2410            # Here we're supposed to check the environment.
2411            $retVal = $ENV{TRACING};
2412        } else {
2413            my $ptype = ref $parameter;
2414            if ($ptype eq 'CGI') {
2415                # Here we were invoked from a web page. Look for a cookie.
2416                $retVal = $parameter->cookie('IP');
2417            } elsif (! $ptype) {
2418                # Here the key was passed in.
2419                $retVal = $parameter;
2420            }
2421        }
2422        # If no luck finding a key, use the PID.
2423        if (! defined $retVal) {
2424            $retVal = $$;
2425        }
2426        # Return the result.
2427        return $retVal;
2428    }
2429    
2430    
2431    =head3 TraceParms
2432    
2433    C<< Tracer::TraceParms($cgi); >>
2434    
2435    Trace the CGI parameters at trace level CGI => 3 and the environment variables
2436    at level CGI => 4.
2437    
2438    =over 4
2439    
2440    =item cgi
2441    
2442    CGI query object containing the parameters to trace.
2443    
2444    =back
2445    
2446    =cut
2447    
2448    sub TraceParms {
2449        # Get the parameters.
2450        my ($cgi) = @_;
2451          if (T(CGI => 3)) {          if (T(CGI => 3)) {
2452              # Here we want to trace the parameter data.              # Here we want to trace the parameter data.
2453              my @names = $query->param;          my @names = $cgi->param;
2454              for my $parmName (sort @names) {              for my $parmName (sort @names) {
2455                  # Note we skip "Trace", which is for our use only.              # Note we skip the Trace parameters, which are for our use only.
2456                  if ($parmName ne 'Trace') {              if ($parmName ne 'Trace' && $parmName ne 'TF') {
2457                      my @values = $query->param($parmName);                  my @values = $cgi->param($parmName);
2458                      Trace("CGI: $parmName = " . join(", ", @values));                      Trace("CGI: $parmName = " . join(", ", @values));
2459                  }                  }
2460              }              }
2461            # Display the request method.
2462            my $method = $cgi->request_method();
2463            Trace("Method: $method");
2464          }          }
2465          if (T(CGI => 4)) {          if (T(CGI => 4)) {
2466              # Here we want the environment data too.              # Here we want the environment data too.
# Line 1857  Line 2468 
2468                  Trace("ENV: $envName = $ENV{$envName}");                  Trace("ENV: $envName = $ENV{$envName}");
2469              }              }
2470          }          }
     } else {  
         # Here tracing is to be turned off. All we allow is errors traced into the  
         # error log.  
         TSetup("0", "WARN");  
     }  
     # Create the variable hash.  
     my $varHash = { DebugData => '' };  
     # If we're in DEBUG mode, set up the debug mode data for forms.  
     if (Tracer::DebugMode) {  
         $varHash->{DebugData} = GetFile("Html/DebugFragment.html");  
     }  
     # Return the query object and variable hash.  
     return ($query, $varHash);  
2471  }  }
2472    
2473  =head3 ScriptFinish  =head3 ScriptFinish
# Line 1896  Line 2494 
2494      use FIG;      use FIG;
2495      # ... more uses ...      # ... more uses ...
2496    
2497      my ($query, $varHash) = ScriptSetup();      my ($cgi, $varHash) = ScriptSetup();
2498      eval {      eval {
2499          # ... get data from $query, put it in $varHash ...          # ... get data from $cgi, put it in $varHash ...
2500      };      };
2501      if ($@) {      if ($@) {
2502          Trace("Script Error: $@") if T(0);          Trace("Script Error: $@") if T(0);
# Line 1933  Line 2531 
2531      # Check for a template file situation.      # Check for a template file situation.
2532      my $outputString;      my $outputString;
2533      if (defined $varHash) {      if (defined $varHash) {
2534          # Here we have a template file. We need to apply the variables to the template.          # Here we have a template file. We need to determine the template type.
2535          $outputString = PageBuilder::Build("<$webData", $varHash, "Html");          my $template;
2536            if ($FIG_Config::template_url && $webData =~ /\.php$/) {
2537                $template = "$FIG_Config::template_url/$webData";
2538            } else {
2539                $template = "<<$webData";
2540            }
2541            $outputString = PageBuilder::Build($template, $varHash, "Html");
2542      } else {      } else {
2543          # Here the user gave us a raw string.          # Here the user gave us a raw string.
2544          $outputString = $webData;          $outputString = $webData;
2545      }      }
2546      # Check for trace messages.      # Check for trace messages.
2547      if ($Destination eq "QUEUE") {      if ($Destination ne "NONE" && $TraceLevel > 0) {
2548          # We have trace messages, so we want to put them at the end of the body. This          # We have trace messages, so we want to put them at the end of the body. This
2549          # is either at the end of the whole string or at the beginning of the BODY          # is either at the end of the whole string or at the beginning of the BODY
2550          # end-tag.          # end-tag.
# Line 1948  Line 2552 
2552          if ($outputString =~ m#</body>#gi) {          if ($outputString =~ m#</body>#gi) {
2553              $pos = (pos $outputString) - 7;              $pos = (pos $outputString) - 7;
2554          }          }
2555          substr $outputString, $pos, 0, QTrace('Html');          # If the trace messages were queued, we unroll them. Otherwise, we display the
2556            # destination.
2557            my $traceHtml;
2558            if ($Destination eq "QUEUE") {
2559                $traceHtml = QTrace('Html');
2560            } elsif ($Destination =~ /^>>(.+)$/) {
2561                # Here the tracing output it to a file. We code it as a hyperlink so the user
2562                # can copy the file name into the clipboard easily.
2563                my $actualDest = $1;
2564                $traceHtml = "<p>Tracing output to $actualDest.</p>\n";
2565            } else {
2566                # Here we have one of the special destinations.
2567                $traceHtml = "<P>Tracing output type is $Destination.</p>\n";
2568            }
2569            substr $outputString, $pos, 0, $traceHtml;
2570      }      }
2571      # Write the output string.      # Write the output string.
2572      print $outputString;      print $outputString;
# Line 1973  Line 2591 
2591  sub Insure {  sub Insure {
2592      my ($dirName) = @_;      my ($dirName) = @_;
2593      if (! -d $dirName) {      if (! -d $dirName) {
2594          Trace("Creating $dirName directory.") if T(2);          Trace("Creating $dirName directory.") if T(File => 2);
2595          eval { mkpath $dirName; };          eval { mkpath $dirName; };
2596          if ($@) {          if ($@) {
2597              Confess("Error creating $dirName: $@");              Confess("Error creating $dirName: $@");
# Line 2002  Line 2620 
2620      if (! -d $dirName) {      if (! -d $dirName) {
2621          Confess("Cannot change to directory $dirName: no such directory.");          Confess("Cannot change to directory $dirName: no such directory.");
2622      } else {      } else {
2623          Trace("Changing to directory $dirName.") if T(4);          Trace("Changing to directory $dirName.") if T(File => 4);
2624          my $okFlag = chdir $dirName;          my $okFlag = chdir $dirName;
2625          if (! $okFlag) {          if (! $okFlag) {
2626              Confess("Error switching to directory $dirName.");              Confess("Error switching to directory $dirName.");
# Line 2010  Line 2628 
2628      }      }
2629  }  }
2630    
2631    =head3 SendSMS
2632    
2633    C<< my $msgID = Tracer::SendSMS($phoneNumber, $msg); >>
2634    
2635    Send a text message to a phone number using Clickatell. The FIG_Config file must contain the
2636    user name, password, and API ID for the relevant account in the hash reference variable
2637    I<$FIG_Config::phone>, using the keys C<user>, C<password>, and C<api_id>. For
2638    example, if the user name is C<BruceTheHumanPet>, the password is C<silly>, and the API ID
2639    is C<2561022>, then the FIG_Config file must contain
2640    
2641        $phone =  { user => 'BruceTheHumanPet',
2642                    password => 'silly',
2643                    api_id => '2561022' };
2644    
2645    The original purpose of this method was to insure Bruce would be notified immediately when the
2646    Sprout Load terminates. Care should be taken if you do not wish Bruce to be notified immediately
2647    when you call this method.
2648    
2649    The message ID will be returned if successful, and C<undef> if an error occurs.
2650    
2651    =over 4
2652    
2653    =item phoneNumber
2654    
2655    Phone number to receive the message, in international format. A United States phone number
2656    would be prefixed by "1". A British phone number would be prefixed by "44".
2657    
2658    =item msg
2659    
2660    Message to send to the specified phone.
2661    
2662    =item RETURN
2663    
2664    Returns the message ID if successful, and C<undef> if the message could not be sent.
2665    
2666    =back
2667    
2668    =cut
2669    
2670    sub SendSMS {
2671        # Get the parameters.
2672        my ($phoneNumber, $msg) = @_;
2673        # Declare the return variable. If we do not change it, C<undef> will be returned.
2674        my $retVal;
2675        # Only proceed if we have phone support.
2676        if (! defined $FIG_Config::phone) {
2677            Trace("Phone support not present in FIG_Config.") if T(1);
2678        } else {
2679            # Get the phone data.
2680            my $parms = $FIG_Config::phone;
2681            # Get the Clickatell URL.
2682            my $url = "http://api.clickatell.com/http/";
2683            # Create the user agent.
2684            my $ua = LWP::UserAgent->new;
2685            # Request a Clickatell session.
2686            my $resp = $ua->post("$url/sendmsg", { user => $parms->{user},
2687                                         password => $parms->{password},
2688                                         api_id => $parms->{api_id},
2689                                         to => $phoneNumber,
2690                                         text => $msg});
2691            # Check for an error.
2692            if (! $resp->is_success) {
2693                Trace("Alert failed.") if T(1);
2694            } else {
2695                # Get the message ID.
2696                my $rstring = $resp->content;
2697                if ($rstring =~ /^ID:\s+(.*)$/) {
2698                    $retVal = $1;
2699                } else {
2700                    Trace("Phone attempt failed with $rstring") if T(1);
2701                }
2702            }
2703        }
2704        # Return the result.
2705        return $retVal;
2706    }
2707    
2708    =head3 CommaFormat
2709    
2710    C<< my $formatted = Tracer::CommaFormat($number); >>
2711    
2712    Insert commas into a number.
2713    
2714    =over 4
2715    
2716    =item number
2717    
2718    A sequence of digits.
2719    
2720    =item RETURN
2721    
2722    Returns the same digits with commas strategically inserted.
2723    
2724    =back
2725    
2726    =cut
2727    
2728    sub CommaFormat {
2729        # Get the parameters.
2730        my ($number) = @_;
2731        # Pad the length up to a multiple of three.
2732        my $padded = "$number";
2733        $padded = " " . $padded while length($padded) % 3 != 0;
2734        # This is a fancy PERL trick. The parentheses in the SPLIT pattern
2735        # cause the delimiters to be included in the output stream. The
2736        # GREP removes the empty strings in between the delimiters.
2737        my $retVal = join(",", grep { $_ ne '' } split(/(...)/, $padded));
2738        # Clean out the spaces.
2739        $retVal =~ s/ //g;
2740        # Return the result.
2741        return $retVal;
2742    }
2743  =head3 SetPermissions  =head3 SetPermissions
2744    
2745  C<< Tracer::SetPermissions($dirName, $group, $mask, %otherMasks); >>  C<< Tracer::SetPermissions($dirName, $group, $mask, %otherMasks); >>
# Line 2069  Line 2799 
2799          my $gid = getgrnam($group);          my $gid = getgrnam($group);
2800          # Get the mask for tracing.          # Get the mask for tracing.
2801          my $traceMask = sprintf("%04o", $mask) . "($mask)";          my $traceMask = sprintf("%04o", $mask) . "($mask)";
2802          Trace("Fixing permissions for directory $dirName using group $group($gid) and mask $traceMask.") if T(2);          Trace("Fixing permissions for directory $dirName using group $group($gid) and mask $traceMask.") if T(File => 2);
2803          my $fixCount = 0;          my $fixCount = 0;
2804          my $lookCount = 0;          my $lookCount = 0;
2805          # @dirs will be a stack of directories to be processed.          # @dirs will be a stack of directories to be processed.
# Line 2081  Line 2811 
2811              # that, we need to pull the individual part of the name off of the              # that, we need to pull the individual part of the name off of the
2812              # whole path.              # whole path.
2813              my $simpleName = $dir;              my $simpleName = $dir;
2814              if ($dir =~ m!/(.+)$!) {              if ($dir =~ m!/([^/]+)$!) {
2815                  $simpleName = $1;                  $simpleName = $1;
2816              }              }
2817                Trace("Simple directory name for $dir is $simpleName.") if T(File => 4);
2818              # Search for a match.              # Search for a match.
2819              my $match = 0;              my $match = 0;
2820              my $i;              my $i;
# Line 2108  Line 2839 
2839                      Trace("Checking member $thisMem.") if T(4);                      Trace("Checking member $thisMem.") if T(4);
2840                      $lookCount++;                      $lookCount++;
2841                      if ($lookCount % 1000 == 0) {                      if ($lookCount % 1000 == 0) {
2842                          Trace("$lookCount members examined. Current is $thisMem. Mask is $traceMask") if T(3);                          Trace("$lookCount members examined. Current is $thisMem. Mask is $traceMask") if T(File => 3);
2843                      }                      }
2844                      # Fix the group.                      # Fix the group.
2845                      chown -1, $gid, $thisMem;                      chown -1, $gid, $thisMem;
# Line 2120  Line 2851 
2851                          # and we want to skip it anyway.                          # and we want to skip it anyway.
2852                          if ($fileInfo) {                          if ($fileInfo) {
2853                              my $fileMode = $fileInfo->mode;                              my $fileMode = $fileInfo->mode;
2854                              if (($fileMode & $mask) == 0) {                              if (($fileMode & $mask) != $mask) {
2855                                  # Fix this member.                                  # Fix this member.
2856                                  $fileMode |= $mask;                                  $fileMode |= $mask;
2857                                  chmod $fileMode, $thisMem;                                  chmod $fileMode, $thisMem;
# Line 2135  Line 2866 
2866                  }                  }
2867              }              }
2868          }          }
2869          Trace("$lookCount files and directories processed, $fixCount fixed.") if T(2);          Trace("$lookCount files and directories processed, $fixCount fixed.") if T(File => 2);
2870      };      };
2871      # Check for an error.      # Check for an error.
2872      if ($@) {      if ($@) {
# Line 2143  Line 2874 
2874      }      }
2875  }  }
2876    
2877    =head3 CompareLists
2878    
2879    C<< my ($inserted, $deleted) = Tracer::CompareLists(\@newList, \@oldList, $keyIndex); >>
2880    
2881    Compare two lists of tuples, and return a hash analyzing the differences. The lists
2882    are presumed to be sorted alphabetically by the value in the $keyIndex column.
2883    The return value contains a list of items that are only in the new list
2884    (inserted) and only in the old list (deleted).
2885    
2886    =over 4
2887    
2888    =item newList
2889    
2890    Reference to a list of new tuples.
2891    
2892    =item oldList
2893    
2894    Reference to a list of old tuples.
2895    
2896    =item keyIndex (optional)
2897    
2898    Index into each tuple of its key field. The default is 0.
2899    
2900    =item RETURN
2901    
2902    Returns a 2-tuple consisting of a reference to the list of items that are only in the new
2903    list (inserted) followed by a reference to the list of items that are only in the old
2904    list (deleted).
2905    
2906    =back
2907    
2908    =cut
2909    
2910    sub CompareLists {
2911        # Get the parameters.
2912        my ($newList, $oldList, $keyIndex) = @_;
2913        if (! defined $keyIndex) {
2914            $keyIndex = 0;
2915        }
2916        # Declare the return variables.
2917        my ($inserted, $deleted) = ([], []);
2918        # Loop through the two lists simultaneously.
2919        my ($newI, $oldI) = (0, 0);
2920        my ($newN, $oldN) = (scalar @{$newList}, scalar @{$oldList});
2921        while ($newI < $newN || $oldI < $oldN) {
2922            # Get the current object in each list. Note that if one
2923            # of the lists is past the end, we'll get undef.
2924            my $newItem = $newList->[$newI];
2925            my $oldItem = $oldList->[$oldI];
2926            if (! defined($newItem) || defined($oldItem) && $newItem->[$keyIndex] gt $oldItem->[$keyIndex]) {
2927                # The old item is not in the new list, so mark it deleted.
2928                push @{$deleted}, $oldItem;
2929                $oldI++;
2930            } elsif (! defined($oldItem) || $oldItem->[$keyIndex] gt $newItem->[$keyIndex]) {
2931                # The new item is not in the old list, so mark it inserted.
2932                push @{$inserted}, $newItem;
2933                $newI++;
2934            } else {
2935                # The item is in both lists, so push forward.
2936                $oldI++;
2937                $newI++;
2938            }
2939        }
2940        # Return the result.
2941        return ($inserted, $deleted);
2942    }
2943    
2944    =head3 GetLine
2945    
2946    C<< my @data = Tracer::GetLine($handle); >>
2947    
2948    Read a line of data from a tab-delimited file.
2949    
2950    =over 4
2951    
2952    =item handle
2953    
2954    Open file handle from which to read.
2955    
2956    =item RETURN
2957    
2958    Returns a list of the fields in the record read. The fields are presumed to be
2959    tab-delimited. If we are at the end of the file, then an empty list will be
2960    returned. If an empty line is read, a single list item consisting of a null
2961    string will be returned.
2962    
2963    =back
2964    
2965    =cut
2966    
2967    sub GetLine {
2968        # Get the parameters.
2969        my ($handle) = @_;
2970        # Declare the return variable.
2971        my @retVal = ();
2972        Trace("File position is " . tell($handle) . ". EOF flag is " . eof($handle) . ".") if T(File => 4);
2973        # Read from the file.
2974        my $line = <$handle>;
2975        # Only proceed if we found something.
2976        if (defined $line) {
2977            # Remove the new-line. We are a bit over-cautious here because the file may be coming in via an
2978            # upload control and have a nonstandard EOL combination.
2979            $line =~ s/(\r|\n)+$//;
2980            # Here we do some fancy tracing to help in debugging complicated EOL marks.
2981            if (T(File => 4)) {
2982                my $escapedLine = $line;
2983                $escapedLine =~ s/\n/\\n/g;
2984                $escapedLine =~ s/\r/\\r/g;
2985                $escapedLine =~ s/\t/\\t/g;
2986                Trace("Line read: -->$escapedLine<--");
2987            }
2988            # If the line is empty, return a single empty string; otherwise, parse
2989            # it into fields.
2990            if ($line eq "") {
2991                push @retVal, "";
2992            } else {
2993                push @retVal, split /\t/,$line;
2994            }
2995        } else {
2996            # Trace the reason the read failed.
2997            Trace("End of file: $!") if T(File => 3);
2998        }
2999        # Return the result.
3000        return @retVal;
3001    }
3002    
3003    =head3 PutLine
3004    
3005    C<< Tracer::PutLine($handle, \@fields); >>
3006    
3007    Write a line of data to a tab-delimited file. The specified field values will be
3008    output in tab-separated form, with a trailing new-line.
3009    
3010    =over 4
3011    
3012    =item handle
3013    
3014    Output file handle.
3015    
3016    =item fields
3017    
3018    List of field values.
3019    
3020    =back
3021    
3022    =cut
3023    
3024    sub PutLine {
3025        # Get the parameters.
3026        my ($handle, $fields) = @_;
3027        # Write the data.
3028        print $handle join("\t", @{$fields}) . "\n";
3029    }
3030    
3031    =head3 GenerateURL
3032    
3033    C<< my $queryUrl = Tracer::GenerateURL($page, %parameters); >>
3034    
3035    Generate a GET-style URL for the specified page with the specified parameter
3036    names and values. The values will be URL-escaped automatically. So, for
3037    example
3038    
3039        Tracer::GenerateURL("form.cgi", type => 1, string => "\"high pass\" or highway")
3040    
3041    would return
3042    
3043        form.cgi?type=1;string=%22high%20pass%22%20or%20highway
3044    
3045    =over 4
3046    
3047    =item page
3048    
3049    Page URL.
3050    
3051    =item parameters
3052    
3053    Hash mapping parameter names to parameter values.
3054    
3055    =item RETURN
3056    
3057    Returns a GET-style URL that goes to the specified page and passes in the
3058    specified parameters and values.
3059    
3060    =back
3061    
3062    =cut
3063    
3064    sub GenerateURL {
3065        # Get the parameters.
3066        my ($page, %parameters) = @_;
3067        # Prime the return variable with the page URL.
3068        my $retVal = $page;
3069        # Loop through the parameters, creating parameter elements in a list.
3070        my @parmList = map { "$_=" . uri_escape($parameters{$_}) } keys %parameters;
3071        # If the list is nonempty, tack it on.
3072        if (@parmList) {
3073            $retVal .= "?" . join(";", @parmList);
3074        }
3075        # Return the result.
3076        return $retVal;
3077    }
3078    
3079    =head3 ApplyURL
3080    
3081    C<< Tracer::ApplyURL($table, $target, $url); >>
3082    
3083    Run through a two-dimensional table (or more accurately, a list of lists), converting the
3084    I<$target> column to HTML text having a hyperlink to a URL in the I<$url> column. The
3085    URL column will be deleted by this process and the target column will be HTML-escaped.
3086    
3087    This provides a simple way to process the results of a database query into something
3088    displayable by combining a URL with text.
3089    
3090    =over 4
3091    
3092    =item table
3093    
3094    Reference to a list of lists. The elements in the containing list will be updated by
3095    this method.
3096    
3097    =item target
3098    
3099    The index of the column to be converted into HTML.
3100    
3101    =item url
3102    
3103    The index of the column containing the URL. Note that the URL must have a recognizable
3104    C<http:> at the beginning.
3105    
3106    =back
3107    
3108    =cut
3109    
3110    sub ApplyURL {
3111        # Get the parameters.
3112        my ($table, $target, $url) = @_;
3113        # Loop through the table.
3114        for my $row (@{$table}) {
3115            # Apply the URL to the target cell.
3116            $row->[$target] = CombineURL($row->[$target], $row->[$url]);
3117            # Delete the URL from the row.
3118            delete $row->[$url];
3119        }
3120    }
3121    
3122    =head3 CombineURL
3123    
3124    C<< my $combinedHtml = Tracer::CombineURL($text, $url); >>
3125    
3126    This method will convert the specified text into HTML hyperlinked to the specified
3127    URL. The hyperlinking will only take place if the URL looks legitimate: that is, it
3128    is defined and begins with an C<http:> header.
3129    
3130    =over 4
3131    
3132    =item text
3133    
3134    Text to return. This will be HTML-escaped automatically.
3135    
3136    =item url
3137    
3138    A URL to be hyperlinked to the text. If it does not look like a URL, then the text
3139    will be returned without any hyperlinking.
3140    
3141    =item RETURN
3142    
3143    Returns the original text, HTML-escaped, with the URL hyperlinked to it. If the URL
3144    doesn't look right, the HTML-escaped text will be returned without any further
3145    modification.
3146    
3147    =back
3148    
3149    =cut
3150    
3151    sub CombineURL {
3152        # Get the parameters.
3153        my ($text, $url) = @_;
3154        # Declare the return variable.
3155        my $retVal = CGI::escapeHTML($text);
3156        # Verify the URL.
3157        if (defined($url) && $url =~ m!http://!i) {
3158            # It's good, so we apply it to the text.
3159            $retVal = "<a href=\"$url\">$retVal</a>";
3160        }
3161        # Return the result.
3162        return $retVal;
3163    }
3164    
3165  1;  1;

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