PHP began life as a simple little cgi wrapper written in Perl. I wrote it in an afternoon during a period between contracts when I needed a quick tool to get an idea of who was reading my online resume. It was never intended to go beyond my own private use. The web server where I had my resume was extremely overloaded and had constant problems forking processes. I rewrote the Perl wrapper in C to get rid of the considerable overhead of having to fork Perl each time my resume was accessed.
Eventually other people on the same web server came across my wrapper and asked if they could use it. Then, as inevitably happens, they started asking for more features. I added more features and finally put together a semi-complete distribution along with documentation, a mailing-list and a FAQ. The name of this first package was Personal Home Page Tools, which later became Personal Home Page Construction Kit.
At the same time I started playing with databases and wrote a tool to easily embed SQL queries into web pages. It was basically another CGI wrapper that parsed SQL queries and made it easy to create forms and tables based on these queries. This tool was named FI (Form Interpreter).
PHP/FI version 2.0 is a complete rewrite of these two packages combined into a single program. It has now evolved to the point where it is a simple programming language embedded inside HTML files. The original acronym, PHP, has stuck. It isn't really appropriate any longer. PHP/FI is used more for entire web sites today than for small Personal Home Page setups. By whatever name, it eliminates the need for numerous small Perl cgi programs by allowing you to place simple scripts directly in your HTML files. This speeds up the overall performance of your web pages since the overhead of forking Perl several times has been eliminated. It also makes it easier to manage large web sites by placing all components of a web page in a single html file. By including support for various databases, it also makes it trivial to develop database enabled web pages. Many people find the embedded nature much easier to deal with than trying to create separate HTML and CGI files.
Throughout this documentation any references to PHP, FI or PHP/FI all refer to the same thing. The difference between PHP and FI is only a conceptual one. Both are built from the same source distribution. When I build the package without any access logging or access restriction support, I call my binary FI. When I build with these options, I call it PHP.
If you have absolutely no Unix experience, you may want to ask around for someone with a little bit of Unix knowledge to help you through this installation. Every attempt has been made to make it as simple as possible, but since the software is quite involved and relies on a number of different components, it is not realistic to assume it will go smoothly on all systems. You will probably need someone around who knows the particulars of the destination system well.
- Can you run both get and post method cgi programs on your server?
This is not relevant if you installing the Apache module version.
If not, you can not use this package. On many public ISP's CGI
programs are either disallowed or severely restricted. If this is
the case on your system, talk to your system administrator and ask
him/her to have a look at this package and see if they will install
it for you.
- If you have mSQL installed on your system, you need to know the base directory of this installation.
- If you have Postgres95 installed on your system, you need to know the base directory of this installation.
- If you are going to be storing log and access configuration files in an NFS-mounted directory and your system does not provide NFS file locking then you will need to define the NFS_HACK variable manually in the src/Makefile and you may want to use a slightly modified version of the gdbm library. See the nfs_hack.txt file in the doc directory for more information on this.
- Note that if you are not interested in using PHP to track accesses to your pages, do not compile this option into the binary. You should also leave out the access restriction code. There is considerable overhead in including these options.
- If you are installing the Apache module version, you will need to know the Apache src code directory location.
Step 1.
Run the install program: ./install
You will be asked a number of questions. If you do not understand what is being asked, simply hit return. The default choice should be safe on most systems. This doesn't apply for the questions asking you to specify a directory for your configuration and log files however. Choose any directory to which the httpd (usually "nobody") has write privileges. You may create this directory manually somewhere and simply chown nobody directory.
Step 2.
Go into the src directory: cd src
Have a look at the php.h file. There are a number of compile-time options that can be set here.
Step 3.
type: make
This will create the actual executable program file named php.cgi by default, or if you are installing the Apache module, it will create a libphp.a file.
Step 4. (if you are not installing the Apache module version)
Copy the php.cgi binary to your system's cgi-bin directory. If you do not have access to do this and wish to install it in your own personal directory, you may do so, but you should set the setuid bit on the executable with: chmod u+s /path/php.cgi
If you do not make set the setuid bit on the binary then any files created by the binary will be owned by the user id under which the web server runs. If this is acceptable, then you can safely leave the setuid bit off.
Step 4. (if you are installing the Apache module version)
Change to your Apache src directory where the mod_php.c and mod_php.h
files should have been copied to. If they weren't which usually happens
because of permission problems, copy these two files there manually.
Edit your Apache Configuration file and add the EXTRA_LIBS line which was
produced at the end of Step 3. And add:
Module php_module mod_php.o
to the very end of the file. Then type: ./Configure and then make to rebuild your Apache httpd binary. Install this binary.
Next you need to edit your Apache conf/srm.conf file and add a line like:
AddType application/x-httpd-php .phtml
This defines a new MIME, application/x-httpd-php, which will trigger the PHP module to parse any file ending with the .phtml extension. You can pick any extension you like for this.
You may not want to enable everyone to run PHP parsed files. You can place the above AddType line within <Location /path>....</Location> directives in the access.conf file to only allow PHP-parsed documents in certain directories on your server.
Now you are ready to restart your httpd server. See the Apache Module Notes for more details on configuring the PHP Module.
Once installed you can test to see if your executable works by entering a URL similar to the following in your browser:
http://your.site.domain/cgi-bin/php.cgi
This should show you a page which contains the version number along with various other useful information.
To test the Apache module version, create any file with a .phtml extension and put a tag like: <?phpinfo()> in the file and see if it gets parsed.
To actually use the software on an existing HTML file, you can simply append the path to your file to the above URL. ie.
http://your.site.domain/cgi-bin/php.cgi/path/file.html
You should have a look at the CGI Redirection section of this documentation. Running PHP/FI through a redirect means you can automatically have a URL like http://your.site.domain/file.phtml be parsed by PHP/FI.
This does not apply to Apace module users.
The first thing you will notice if you run a page through PHP/FI is that it adds a footer with information about the number of times your page has been accessed (if you have compiled access logging into the binary). This is just a very small part of what PHP/FI can do for you. It serves another very important role as a form interpreter cgi, hence the FI part of the name. For example, if you create a form on one of your web pages, you need something to process the information on that form. Even if you just want to pass the information to another web page, you will have to have a cgi program do this for you. PHP/FI makes it extremely easy to take form data and do things with it.
A simple example
Suppose you have a form:
<FORM ACTION="/cgi-bin/php.cgi/~userid/display.html" METHOD=POST>
<INPUT TYPE="text" name="name">
<INPUT TYPE="text" name="age">
<INPUT TYPE="submit">
</FORM>
Your display.html file could then contain something like:
<?echo "Hi $name, you are $age years old!<p>">
It's that simple! PHP/FI automatically creates a variable for each form input field in your form. You can then use these variables in the ACTION URL file.
The next step once you have figured out how to use variables is to start playing with some logical flow tags in your pages. For example, if you wanted to display different messages based on something the user inputs, you would use if/else logic. In our above example, we can display different things based on the age the user entered by changing our display.html to:
<? if($age>50); echo "Hi $name, you are ancient!<p>"; elseif($age>30); echo "Hi $name, you are very old!<p>"; else; echo "Hi $name."; endif; >
PHP/FI provides a very powerful scripting language which will do much more than what the above simple example demonstrates. See the section on the PHP/FI Script Language for more information.
You can also use PHP/FI to configure who is allowed to access your pages. This is done using a built-in configuration screen. With this you could for example specify that only people from certain domains would be allowed to see your pages, or you could create a rule which would password protect certain pages. See the Access Control section for more details.
PHP/FI is also capable of receiving file uploads from any RFC-1867 compliant web browser. This feature lets people upload both text and binary files. With PHP/FI's access control and logical functions, you have full control over who is allowed to upload and what is to be done with the file once it has been uploaded. See the File Upload section for more details.
PHP/FI has support for a database package called mSQL. This allows you to put information into a database and access this information through simple embedded SQL queries right in your .HTML files. Adding a database back-end to a web page has never been easier. See the section on mSQL Support for more information.
PHP/FI has support for the Postgres95 database package. It supports embedded SQL queries in your .HTML files. See the section on Postgres95 Support for more information.
PHP/FI also has support for the mysql database package. It supports embedded SQL queries in your .HTML files. See the section on mysql Support for more information.
A good way to run PHP/FI is by using a cgi redirection module with the Apache server. Please note that you do not need to worry about redirection modules if you are using the Apache module version of PHP/FI. There are two of these redirection modules available. One is developed by Dave Andersen <angio@aros.net> and it is available at ftp://ftp.aros.net/pub/util/apache/mod_cgi_redirect.c and the other comes bundled with Apache and is called mod_actions.c. The modules are extremely similar. They differ slightly in their usage. Both have been tested and both work with PHP/FI.
One large caveat at the time of this writing (Apr.20/96) is that the current official Apache release (1.0.5) has a severe limitation which prevents cgi redirected requests from having any post-method data associated with them. I have tracked this down and fixed it in my version of Apache, and there is an official patch available in the File Archives on the PHP Home Page.
A second rather large caveat with Apache 1.0.x is that it does not align double types correctly on most architectures. You find find yourself getting strange bus errors from your httpd when using mod_php, either upgrade to Apache 1.1 or edit the alloc.c Apache source file. In this file you will find the following piece of code:
union align { /* Types which are likely to have the longest RELEVANT alignment * restrictions... we don't do much with doubles. */ char *cp; void (*f)(); long l; FILE *fp; };
You will need to add a double to this line and recompile your Apache server. The correct block of code is:
union align { /* Types which are likely to have the longest RELEVANT alignment * restrictions... we don't do much with doubles. */ char *cp; void (*f)(); long l; FILE *fp; double d; };
Check the Apache documentation on how to add a module. Generally you add the module name to a file called Configuration. The line to be added if you want to use the mod_actions module is:
Module action_module mod_actions.o
If you are using the mod_cgi_redirect.c module add this line:
Module cgi_redirect_module mod_cgi_redirect.o
Then compile your httpd and install it. To configure the cgi redirection you need to either create a new mime type in your mime.types file or you can use the AddType command in your srm.conf file to add the mime type. The mime type to be added should be something like this:
application/x-httpd-php phtml
If you are using the mod_actions.c module you need to add the following line to your srm.conf file:
Action application/x-httpd-php /cgi-bin/php.cgi
If you are using mod_cgi_redirect.c you should add this line to srm.conf:
CgiRedirect application/x-httpd-php /cgi-bin/php.cgi
Don't try to use both mod_actions.c and mod_cgi_redirect.c at the same time.
Once you have one of these cgi redirection modules installed and configured correctly, you will be able to specify that you want a file parsed by php/fi simply by making the file's extension .phtml. Furthermore, if you add index.phtml to your DirectoryIndex configuration line in your srm.conf file then the top-level page in a directory will be automatically parsed by php if your index file is called index.phtml.
You can automatically redirect requests for files with a given extension to be handled by PHP/FI by using the Netscape Server CGI Redirection module. This module is available in the File Archives on the PHP/FI Home Page. The README in the package explicitly explains how to configure it for use with PHP/FI.
NCSA does not currently support modules, so in order to do cgi redirection with this server you need to modify your server source code. A patch to do this with NCSA 1.5 is available in the PHP/FI file archives.
The CGI version of PHP/FI does not read any .htaccess files which may be present in a directory. This means that if you have files that are protected using the standard .htaccess server-based access control feature, people could potentially circumvent this security by loading the page through PHP/FI. Note that this is not an issue for the Apache module version of PHP/FI.
A second problem with the CGI version is that if it is placed in the system's cgi-bin directory it can be used to view any file on your system as long as the user id it runs as has access to it.
There are a couple of different solutions to this problem. The easiest is probably to use the PATTERN_RESTRICT feature found in php.h. This lets you define an extension (or a pattern of extensions) which are allowed to be parsed by PHP/FI. If a file does not have this extension and someone tries to load it with PHP/FI, an access denied message will appear.
Another solution is to use the PHP/FI access control mechanism to mimic the access control setup you have in your .htaccess file. Keeping this information in two places can be tedious though, and the two systems don't share all of the same features.
The problem can also be solved using file permissions. PHP/FI can be set up to run setuid as any user you wish. Then files that are to be read by PHP/FI can be given appropriate permissions and files not to be read by PHP/FI should be owned by another user id and have their permissions changed accordingly.
For additional security options related to sites which provide shared access to PHP, see the Safe Mode section.
PHP's Safe Mode tries to solve the common problem faced by many ISP's regarding letting all their users run CGI programs. The common mechanism for making shared CGI access more secure is to use a cgi wrapper like the su_exec utility that comes with Apache. This will not work for PHP when it is running as a module because it is not a separate process that can be setuid'ed.
Safe Mode applies to each function which could possibly be a security risk. Below is the current list of checks applied to each relevant function. In the following list, PHP UID refers to the user id of the owner of the current file being parsed by PHP, and HTTP UID refers to the user id the httpd process is running as (usually nobody).
If you build the CGI version of PHP/FI, you can use it from the command line simply typing: php.cgi filename where filename is the file you want to parse. You can also create standalone PHP/FI scripts by making the first line of your script look something like:
#!/usr/local/bin/php.cgi -qThe "-q" suppresses the printing of the HTTP headers. You can leave off this option if you like.
The HTTP Authentication hooks in PHP/FI are only available when it is running as an Apache module. In an Apache module PHP/FI script, it is possible to use the Header() command to send an "Authentication Required" message to the client browser causing it to pop up a Username/Password input window. Once the user has filled in a username and a password, the URL containing the PHP/FI script will be called again with the variables, $PHP_AUTH_USER, $PHP_AUTH_PW and $PHP_AUTH_TYPE set to the user name, password and authentication type respectively. Only "Basic" authentication is supported at this point.
An example script fragment which would force client authentication on a page would be the following:
<? if(!$PHP_AUTH_USER) { Header("WWW-authenticate: basic realm=\"My Realm\""); Header("HTTP/1.0 401 Unauthorized"); exit; } else { echo "Hello $PHP_AUTH_USER.<P>"; echo "You entered $PHP_AUTH_PW as your password.<P>"; } >
Instead of simply printing out the $PHP_AUTH_USER and $PHP_AUTH_PW, you would probably want to check the username and password for validity. Perhaps by sending a query to a database, or by looking up the user in a dbm file.
Watch out for buggy Internet Explorer browsers out there. They seem very picky about the order of the headers. Sending the WWW-authenticate header before the HTTP/1.0 401 header seems to do the trick for now.
In order to prevent someone from writing a script which reveals the password for a page that was authenticated through a traditional external mechanism, the PHP_AUTH variables will not be set if external authentication is enabled for that particular page.
Note however that the above does not prevent someone who controls a non-authenticated URL from stealing passwords from authenticated URL's on the same server. The PHP_AUTH_VARS define in php.h can be undefined to make sure that these variables will never be set and thus disable anybody from using mod_php to try to steal passwords.
Running PHP/FI as an Apache module is the most efficient way of using the package. Running it as a module means that the PHP/FI functionality is combined with the Apache server's functionality in a single program. There are a number of advantages to running it as a module:
Performance-wise it is a lot faster than traditional CGI programs. In fact, when running PHP/FI as a module, there is no CGI involved. The script code in the HTML files is executed directly by the Apache web server process.
When running as a module, the normal httpd-based access restriction rules defined either in the Apache conf files or in private .htaccess files are first applied before the module is allowed to parse the file. Alternatively, you can also create PHP/FI scripts that control the normal httpd-based authentication. See HTTP Authentication.
Since the parser is always active inside the httpd process, it can be configured on startup using the same configuration files used to configure the httpd process. The module can even be configured on a per-directory basis by placing the PHP configuration directives in the .htaccess files.
For C programmers interested in accessing their functions from within Apache, the PHP/FI framework provides a very simple interface to Apache and to PHP itself. It is much easier to add a function to PHP and call that from a parsed page than it is to write an entire Apache module from scratch. See the Adding your own internal functions to PHP/FI sections at the end of this document for further details.
The following directives can be placed either in the srm.conf file, or within <Directory>...</Directory> tags in access.conf or in <Location /path>...</Location> tags in access.conf or in individual .htaccess files:
All of these directives are optional. If a directive is not specified anywhere, the compile-time default will be used.
PHP/FI can be compiled with FastCGI support. You will need fetch and compile FCGI Development Kit for your platform before compiling PHP/FI. You will also need to get CGI Redirection working. Then follow the instructions in the FastCGI documentation for configuring FastCGI for your platform. If you are using the mod_fastcgi module with the Apache server, here are the step-by-step instructions:
Now, any pages with the .fhtml extension will be handed off to the FastCGI php.fcgi process which is already running. The php.fcgi binary will still work as a normal CGI binary, so you could just create a symbolic link from php.cgi to php.fcgi.
If you are not using Apache, the above steps will be similar, but not identical. CGI Redirection mechanisms are available for NCSA and Netscape servers at the PHP/FI File Archive.
Note that the built-in PHP/FI based access control is likely to be discontinued in future versions. You should seriously consider using the security mechanism that comes with your web server instead.
If you chose to include access control when you compiled the package, you may append ?config to any URL to edit the access control file. ie.
http://your.machine.domain/cgi-bin/php.cgi/path/file.html?config
Your configuration password will initially be set to your user id. If your user id does not work as your password, it probably means that PHP could not read the /etc/passwd file to locate your user id. If this is the case, the initial password will be set to "php". It is a good idea to change this password. Note that multiple users may maintain their own personal configuration files through a single PHP/FI binary.
Access Control can be quite confusing initially. The ?config screen is divided up into a number of sections. The top section is for changing the password used to make sure that only people who know this password can change access control characteristics. In a system-wide installation, each user has his or her own configuration screen with his or her own password.
The second section of the ?config screen consists of a number of tables. Each table defines a rule-set. The first rule-set is always the default rule-set. This default rule-set is used if a page does not have a rule-set defined specifically for it. After the default rule-set, any number of specific rule-set tables will follow.
To add a rule-set for a specific file, enter the URL of the file in your browser and add ?config to the end of the URL. On the ?config screen that comes up you will see that a rule-set has been added for this page, if it wasn't already there. When a new rule-set is added, it is initially set to be the same as the default rule-set. The following picture shows two simple rule-sets. First a default rule-set which just indicates that hits from all domains should be logged, and second, for the file /~rasmus/test.html and only that file, any users coming from a ".edu" domain will not be granted access.
To edit a rule-set modify the fields until the desired configuration is reached within a rule-set and then hit the "Submit Changes" button. If more rules are needed, hit the "Add Rule" button and then edit the added rule.
To delete a rule, select the checkbox to the right of the rule and hit the "Submit Changes" button. The screen will redraw and the rule should disappear.
Note that you need to enter a regular expression in the pattern field. See the section on regular expressions in this documentation for more details.
Access Logging is another optional feature which can be enabled at compile-time by answering Yes to the question in the install script. You may either store your access log data in dbm files, in an mSQL database, or in an mysql database. The latter two are more powerful, but is also a bit more difficult to set up.
To use dbm files for storing your access logs, you will need to specify a directory in which log files can be written. PHP will try to create this directory if it doesn't exist, but to make sure it has the proper permissions, you may want to create this directory yourself before running PHP for the first time. The permissions on the directory should be such that the user id under which the PHP cgi program will run can write to the directory.
To use an mSQL or mysql database for storing your access log data, you need to first make sure you have mSQL or mysql installed and running on your system. Then you need to create a database. The default name is "phpfi" although this can be changed in src/php.h. To create this database for mSQL, type:
msqladmin create phpfi
or for mysql type:
mysqladmin create phpfi
Then for mSQL, edit your msql.acl file and make sure the permissions on the database are correct. Something like the following should suffice:
database=phpfi read=* write=nobody,<your user id> access=local
For mysql, you need to make sure the httpd user (usually "nobody") has access to the database. Unlike mSQL, mysql stores access control data in a database. Assuming default permissions, you should be able to simply execute the following command:
echo "INSERT INTO user VALUES ('localhost','nobody','','Y','Y','Y','Y','Y','Y','Y','Y','Y');" | mysql mysql
Don't forget to load this new configuration with:
mysqladmin reload
For each user id for whom you want to store log data, you need to create two tables. The msqllog shell script in the scripts directory will do this for you. Simply type:
msqllog <user id>
or for mysql, type:
mysqllog <user id>
and the script will create the appropriate tables. You may need to edit the script to make it reflect where things are stored on your system.
You may want to have a look at this script. It defines the field sizes of your log tables. If, for example, you know that your file paths exceed 64 characters, you need to bump up the filename size in both the logN and the lastN tables in this msqllog or mysqllog file.
Access logging stores information about each "hit" on a page. This information can then be summarized by examining these log files. An example log file summarizing script is included in the package. It is the log.html file in the examples directory. This is the dbm log file analyzer. The mSQL log file analyzer is called mlog.html. And the mysql log file analyzer is called mylog.html. To run it, copy it and the other mlog.* files to a directory accessible from your web server and type:
http://your.machine.domain/cgi-bin/php.cgi/path/mlog.html
Or, if you are using the Apache module version, you can give the script a ".phtml" extension and call it with:
http://your.machine.domain/path/mlog.phtml
By default, if you have compiled PHP with access logging enabled, then your pages will appear with a footer containing some access information. You may not want to see this footer, but still log hits. You can turn off this footer with a "phpShowInfo off" line in your Apache httpd.conf or .htaccess files if you are running Apache. If you are not running Apache, you may turn these log footers off either by creating a rule in the ?config section for the page, or by adding a tag like this to your page:
<?setshowinfo(0)>
A problem common to all CGI wrappers is that the HTTPD program changes the current directory to the directory where whatever it is loading is stored. In the case of a CGI program, the current directory is set to the directory where the CGI program resides. This is normally not a problem, except when it comes to relative URL's.
A relative URL is a URL which relies upon the current directory being the same as the directory where the current HTML file is located. So, for example, if I had the URL:
http://my.machine/~rasmus/file.html
the actual HTML file might be:
~rasmus/public_html/file.html
If within the file.html file I had the tag:
<IMG SRC="pic.gif">
when loaded normally this file gif file is expected to be in ~rasmus/public_html/pic.gif. However, when loaded through a CGI wrapper with a URL like:
http://my.machine/cgi-bin/php.cgi/~rasmus/file.html
then HTTPD sets the current directory to /cgi-bin (or wherever the ScriptAlias might point) and subsequently when the page is loaded the pic.gif file is expected to be in: /cgi-bin/pic.gif which is usually not the desired effect.
The quick way around this problem is to use absolute URL's. In the above example if the image tag had been:
<IMG SRC="/~rasmus/pic.gif">
then there would have been no problem. Using absolute URL's is not always desirable as it makes pages less portable. An obvious question you may have at this point is, "Why doesn't PHP just change the current directory to the right place?". The answer is that PHP actually does change the current directory to the location of the HTML file it is displaying. Any file paths used inside PHP Script tags, can be relative. The problem is that tags outside of PHP's control such as <img > and <a href > will not be passed through PHP. When they are parsed, PHP is no longer active and the current working directory has been set back to the directory specified by the HTTP Daemon.
The Solution is a compromise. PHP provides a variable called PATH_DIR. It contains the directory portion of the current HTML file at all times. If this PATH_DIR variable is used in the <img > and <a href > tags then the effect of a relative URL can be achieved, although to the server it will look like an absolute URL when parsed. From our above example, the only change we would need to make would be to change the img tag to:
<IMG SRC="<?echo $PATH_DIR>/pic.gif">By using the above, you can move the file containing this tag around, and the tag will always refer to a pic.gif file in the same directory as the source HTML file.
Another way to handle this is to use the traditional <BASE HREF=...> in the HTML file.
PHP will detect both GET and POST method data coming from HTML forms. One important point to understand is that POST method data is always treated first if both are present. If a PHP variable is defined by the POST method data, or if the variable is defined by the HTTP daemon in the Unix environment, then GET method data cannot overwrite it. This is to prevent somebody from adding ?REMOTE_HOST=some.bogus.host to their URL's and thus tricking the PHP logging mechanism into recording this alternate data. POST method data is however allowed to overwrite these variables.
Any component of the GET data (the data following a '?' in the URL) which is of the form, word=something will define the variable $word to contain the value something. Even if the data is not of this form, it can be accessed with the $argv built-in array. For example, in a URL like:
/cgi-bin/php.cgi/file.html?abc+def+EMAIL_ADDR=rasmus@vex.net&var=valueThe relevant components of the PHP symbol table will be:
$argc = 4 $argv[0] = abc $argv[1] = def $argv[2] = EMAIL_ADDR=rasmus@vex.net&var=value $EMAIL_ADDR = rasmus@vex.net $var = value
Notice how the EMAIL_ADDR part of the data shows up both as $argv[2] where it is unparsed, and the $EMAIL_ADDR variable is created to contain rasmus@vex.net.
The $EMAIL_ADDR variable was used as an example in the above because it is a useful variable if you are using the logging features of PHP. By adding:
?EMAIL_ADDR=
to any links on a page where the user's email address is known, you may propagate it to the next page. The PHP logging system will automatically look for this variable and record its value as the user's e-mail address in the logs. For any users of PHP1, the above serves the same function as adding ?<!--$email--> to the URL used to do in PHP1. It looks a little bit more complex now, but it is also completely general allowing you to build your own complex pages.
In the above example you can also see how multiple variables can be defined right in the GET method data by separating each with the "&" character. This "&" separated list of variables must be the last (or only) component of the GET method data for it to be valid.
The SELECT MULTIPLE tag in an HTML construct allows users to select multiple items from a list. These items are then passed to the action handler for the form. The problem is that they are all passed with the same widget name. ie.
<SELECT NAME="var" MULTIPLE>
Each selected option will arrive at the action handler as:
var=option1
var=option2
var=option3
Each option will overwrite the contents of the previous $var variable. The solution is to use PHP/FI's non-indexed array feature. The following should be used:
<SELECT NAME="var[]" MULTIPLE>
This tells PHP/FI to treat var as an array an each assignment of a value to var[] adds an item to the array. The first item becomes $var[0], the next $var[1], etc. The count() function can be used to determine how many options were selected, and the sort() function can be used to sort the option array if necessary.
When submitting a form, it is possible to use an image instead of the standard submit button with a tag like:
<input type=image src=image.gif name=sub>
When the user clicks somewhere on the image, the accompanying form will be transmitted to the server with two additional variables, sub_x and sub_y. These contain the coordinates of the user click within the image. The experienced may note that the actual variable names sent by the browser contains a period rather than an underscore, but PHP converts the period to an underscore automatically.
Not all of the GD features are supported by PHP. For a list of supported functions see the Alphabetical List of Functions. All the GD functions start with the word, Image.
More information on the GD package is available at: http://www.boutell.com/gd/.
GD 1.2 is copyright 1994, 1995 Quest Protein Database Center, Cold Springs Harbor Labs.
PHP/FI will automatically detect a file upload from a browser which supports the form-based file upload features as proposed by E. Nebel and L. Masinter from Xerox and described in RFC 1867.
A file upload screen can be built by creating a special form which looks something like this:
<FORM ENCTYPE="multipart/form-data" ACTION="_URL_" METHOD=POST>
<INPUT TYPE="hidden" name="MAX_FILE_SIZE" value="1000">
Send this file: <INPUT NAME="userfile" TYPE="file">
<INPUT TYPE="submit" VALUE="Send File">
</FORM>
The _URL_ should point to a php html file. The MAX_FILE_SIZE hidden field must precede the file input field and its value is the maximum filesize accepted. The value is in bytes. In this destination file, the following variables will be defined upon a successful upload:
The temporary filename in which the uploaded file was stored on the server machine.
The original name of the file on the sender's system.
The size of the uploaded file in bytes.
The mime type of the file if the browser provided this information. An example would be "image/gif".
The $userfile basename of the above variables will match the NAME field in the upload form.
Files will by default be stored in the server's default temporary directory. This can be changed by setting the environment variable TMPDIR in the environment in which PHP/FI runs. Setting it using a PutEnv() call from within a PHP/FI script will not work though. Alternatively, you may hard-code in a temporary directory by editing php.h and defining the UPLOAD_TMPDIR variable.
The PHP/FI script which receives the uploaded file should implement whatever logic is necessary for determining what should be done with the uploaded file. You can for example use the $file_size variable to throw away any files that are either too small or too big. You could use the $file_type variable to throw away any files that didn't match a certain type criteria. Whatever the logic, you should either delete the file from the temporary directory or move it elsewhere.
Please note that the CERN httpd seems to strip off everything starting at the first whitespace in the content-type mime header it gets from the client. As long as this is the case, CERN httpd will not support the file upload feature.
PHP/FI transparently supports HTTP cookies as defined by Netscape's Spec. Cookies are a mechanism for storing data in the remote browser and thus tracking or identifying return users. You can set cookies using the SetCookie() function. Cookies are part of the HTTP header, so the SetCookie() function must be called before any output is sent to the browser. This is the same restriction as for the Header() function.
Any cookies sent to you from the client will automatically be turned into a PHP/FI variable just like GET and POST method data.
If you wish to assign multiple values to a single cookie, just add [] to the cookie name. For example:
SetCookie("MyCookie[]","Rasmus Lerdorf", time()+3600);Note that a cookie will replace a previous cookie by the same name in your browser unless the path or domain is different. So, for a shopping cart application you may want to keep a counter and pass this along. ie.
$Count++; SetCookie("Count",$Count, time()+3600); SetCookie("Cart[$Count]",$item, time()+3600);
mSQL stands for mini-SQL and is a small and simple SQL database engine written by David Hughes. It is available from ftp://ftp.bond.edu.au/pub/Minerva/msql
PHP/FI supports has a rich set of mSQL support functions:
In addition to these functions, PHP/FI can also be compiled to automatically escape any forward single quote ( ' ) characters found in GET or POST data. If the MAGIC_QUOTES variable is defined in the php.h file then these quotes will be automatically escaped making it easier to pass form data directly to msql queries.
Postgres95 is a powerful public domain database that implements a significant subset of the SQL language. It supports many datatypes and commands that are not available in mSQL. More information about Postgres95 and the software itself can be found at this URL: http://epoch.cs.berkeley.edu:8000/postgres95/.
The following PHP functions are available for Postgres95:
Note: Binary cursors are not supported.
In addition to these functions, PHP/FI can also be compiled to automatically escape any forward single quote ( ' ) and double quote ( " ) characters found in GET or POST data. If the MAGIC_QUOTES variable is defined in the php.h file then these quotes will be automatically escaped making it easier to pass form data directly to Postgres95 queries.
Here is a sample script that connects to Postgres95 database on localhost called 'mydb' and retrieves the names and ages of people in a table:
<? $conn = pg_Connect("localhost", "5432", "", "", "mydb"); if (!$conn) { echo "An error occured.\n"; exit; } $result = pg_Exec($conn, "select * from table1"); if (!$result) { echo "An error occured.\n"; exit; } $num = pg_NumRows($result); $i = 0; while ($i < $num) { echo "name: "; echo pg_Result($result, $i, "name"); echo " age: "; echo pg_Result($result, $i, "age"); echo "<BR>"; $i++; } pg_FreeResult($result); pg_Close($conn); >
mysql is an clone of the mSQL package. You can get a copy from http://www.tcx.se/
PHP/FI supports has a rich set of mysql support functions:
In addition to these functions, PHP/FI can also be compiled to automatically escape any forward single quote ( ' ) characters found in GET or POST data. If the MAGIC_QUOTES variable is defined in the php.h file then these quotes will be automatically escaped making it easier to pass form data directly to mysql queries.
The Solid server is a high-volume SQL server. It supports the ANSI SQL2, ODBC, SAG CLI and X/Open SQL standards. More information about the Solid server is available at www.solidtech.com.
The following PHP functions are available for the Solid Server:
In addition to these functions, PHP/FI can also be compiled to automatically escape any forward single quote ( ' ) characters found in GET or POST data. If the MAGIC_QUOTES variable is defined in the php.h file then these quotes will be automatically escaped making it easier to pass form data directly to Solid queries.
Here is the same script that was shown in the Postgres95 section, adapted for the Solid server.
<? $conn = Solid_Connect("", "username", "password"); if (!$conn) { echo "An error occured.\n"; exit; } $result = Solid_Exec($conn, "select * from table1"); if (!$result) { echo "An error occured.\n"; exit; } while (Solid_FetchRow($result)) { echo "name: "; echo Solid_Result($result, "name"); echo " age: "; echo Solid_Result($result, "age"); echo "<BR>"; } Solid_FreeResult($result); Solid_Close($conn); >
The following PHP/FI functions are available for Sybase.
For a complete example, see the example following the sybSQL_Result() function.
The following PHP/FI functions are available for Oracle:
An example PHP/FI Oracle application:
<? PutEnv("ORACLE_SID", "database"); $conn = Ora_Logon("username", "password"); if ($conn < 0) { echo("Could not connect to Oracle.\n"); exit; } $cursor = Ora_Open($conn); if ($cursor < 0) { echo("Could not open a cursor.\n"); Ora_Logoff($conn); exit; } Ora_CommitOff($cursor); if (Ora_Parse($cursor, "SELECT * FROM students") < 0) { echo("Parse failed!\n"); Ora_Logoff($conn); exit; } $ncols = Ora_Exec($cursor); $err = Ora_Fetch($cursor); while ($err == 1) { $i = 0; while ($i < $ncol) { $col = Ora_GetColumn($cursor, $i); echo("got: $col (" + GetType($col) + ")\n"); $i++; } } Ora_Close($cursor); Ora_Logoff($conn); >
Regular expressions are used for complex string manipulation in PHP/FI. The script interface to the regular expression support is through the following functions: EReg(), ERegi(), EReg_Replace(), ERegi_Replace(), Reg_Match(), Reg_Replace(), and Reg_Search(). The first argument to all three functions is a regular expression string. The EReg functions use the Posix Extended regular expressions as defined by POSIX 1003.2, while the Reg functions implement Basic regular expressions. For a complete description of regular expressions see your regex(7) man page. If you do not have this page, the regex(7) man page written by Henry Spencer can be found in the src/regex directory in the PHP/FI distribution. Ask your system administrator to install this man page for you.
Some examples of regular expressions and what they do:
- ereg("abc",$string);
- Returns true if "abc" is found anywhere in $string.
- ereg("^abc",$string);
- Returns true if "abc" is found at the beginning of $string.
- ereg("abc$",$string);
- Returns true if "abc" is found at the end of $string.
- eregi("(ozilla.[23]|MSIE.3)",$HTTP_USER_AGENT);
- Returns true if client browser is Netscape 2, 3 or MSIE 3.
- ereg("([[:alnum:]]+) ([[:alnum:]]+) ([[:alnum:]]+)",$string,$regs);
- Places three space separated words into $regs[1], $regs[2] and $regs[3].
- ereg_replace("^","<BR>",$string)
- Put a <BR> tag at the beginning of $string.
- ereg_replace("$","<BR>",$string)
- Put a <BR> tag at the end of $string.
- ereg_replace(10,"",$string);
- Get rid of any linefeed characters in $string.
- ereg_replace(13,"<BR>",$string);
- Replace all carriage returns with a <BR> tag in $string.
The following escape sequences are supported in most places where a quoted string argument is used:
\a --> bell \b --> backspace \n --> linefeed \r --> carriage return \t --> tab \nnn --> octal char \xXX --> hex char
The PHP script language is similar in syntax to the C language in many ways. It supports variables, arrays, function calls, different variable types and most things you might need to write complex cgi programs.
Each PHP/FI function is described in the following section and can be quickly found by simply appending #function_name to the url for this document since each function description has been tagged with its name.
Each PHP instruction starts with <? and ends with a >. Or, instructions may be grouped inside a single <? > pair and separated by ; characters.
Variables are supported and are indicated by preceding the variable name with a $. So, for example, to set a variable to 5 and then display this variable, the following is valid:
<?$a = 5> <?echo $a>
This is the same as writing:
<?; $a = 5; echo $a >
Or even:
<?; $a = 5; echo $a; >
Extra white space characters such as spaces, tabs and new-lines are ignored. This fact should be used to format the PHP script blocks to make them easier to read. Case is relevant in variable names, but not in function calls. In the functional overview later on in this documentation, case is only used to make the function names easier to read. In the actual script language you can use any case you wish.
Comments are supported. A comment is written just like comments in the C language. /* starts a comment and */ ends a comment. Comments can be placed anywhere within the <? ... > block.
Three types of variables are supported. Long integer, Double precision floating point and character strings. They are automatically detected. For example:
<?$a = 5>
causes $a to become a variable of type INTEGER.
<?$a = 5.0>
causes $a to become a variable of type DOUBLE.
<?$a = "5">
causes $a to become a variable of type STRING.
The type of the variable is not generally important. Every variable regardless of its type is converted to all three types internally and the various functions will try to use the correct type. There are only a few functions affected by the type of the variable.
All three variable types may also be treated as arrays by appending [value] to their names. Unlike C, these are actually associative arrays similar to those used in Perl. The following would be valid:
<? $a[0] = 5; $a["hello"] = 6; echo $a[0]; echo $a["hello"]; >
Note that if a variable is used both as an array and as a normal variable, the normal variable is synonymous with the index "0" entry in the array. ie.
$a = 1;
Is the same as writing:
$a[0] = 1;
PHP/FI also supports non-indexed arrays. A non-indexed array will generate its own index as items are added to it. For example:
$a[] = "Hello"; $a[] = "There";
The first item inserted into a non-indexed array always gets assigned index 0, the second index 1, etc. Therefore the above items may be printed out with:
echo $a[0]; echo $a[1];
Arrays can be copied by a simple assignment. If $b is an array, then all the values can be copied to a new array named $a with:
$a = $b;
Please not that if PHP does not force you to define variables before using them. If in the above statement, $b was undefined, then $a would be set to an empty string ("").
The [] notation is also used to indicate that arrays are to be appended. If $a and $b are both arrays, then $b can be appended to $a by:
$a[] = $b;
In the above, there will be a difference between associative arrays and normal numbered arrays. Numbered arrays will be renumbered such that all elements from $b will come after the original elements from $a. While with associative arrays, elements in $b will be merged with elements in $a. Any elements (items with the same index name) which already exist in $a will be overwritten by $b elements.
You can use the count() function to determine the number of items in any array.
Also inherent to the language is the fact that the type of the variable determines how certain basic operations will be carried out. For example:
$a = $b + $c;
can do a couple of different things. If $b is a number, the numerical value of $c is added to $b and the sum is stored in $a. In this case the type of $c is irrelevant. The operation is guided by the type of the first variable. If $b is a string, then the string value of $c is appended to $b and the resultant string is placed in $a. This also leads to some caveats. You should read the section on overloaded operators to get a better understanding of how to deal with them.
The previous section introduced associative arrays. An associative array is an array in which the index need not be a numerically sequential value. The array index can be any number or string. PHP/FI provides a set of functions to manipulate these associative arrays. These include, Next(), Prev(),Reset(),End(), and Key().
Sometimes it is convenient to be able to have variable variable names. That is, a variable name which can be set and used dynamically. A normal variable is set with a statement such as:
$a = "hello";
A variable variable takes the value of a variable and treats that as the name of a variable. In the above example, hello, can be used as the name of a variable by using two dollar signs. ie.
$$a = "world";
At this point two variables have been defined and stored in the PHP/FI symbol tree:
Variable Name Variable Content a hello hello world
Therefore, this statement:
echo "$a $$a";
produces the exact same output as:
echo "$a $hello";
ie. they both produce: hello world
As far as language constructs are concerned, the PHP language is quite simple. The following commands are used to guide the control flow through a file:
The syntax of conditions are similar to that of the C language. == tests for equality. != means not equal. Also supported are: >, <, >=, <=. Conditional AND is &&, conditional OR is ||.
Examples:
<? if($a==5 && $b!=0 ); $c = 100 + $a / $b; endif; >
The above may also be written in standard C syntax:
In this case, there is no need for a semicolon after the closing curly brace.
<? if($a==5 && $b!=0) { $c = 100 + $a / $b; } >
There is no difference between the two syntaxes. I personally like to use endif, endswitch and endwhile so I explicitly know which construct I am ending. However, these ending constructs can always be replaced with a closing curly brace.
It is important to note that the flow of the language is not dependent on the organization of the script blocks within the code. You can start an if expression in one block and have the end of the expression in another. For example:
<?if($a==5 && $b!=0)> <b>Normal html text</b> <?endif>
In this example it is easy to see why it is sometimes more desirable to use the endif keyword as opposed to a closing brace. The above is much more readable than the following:
<?if($a==5 && $b!=0) {> <b>Normal html text</b> <? } >
Both version are valid and they will do exactly the same thing.
You may define a function within a PHP script with the following syntax:
<? Function Test ( echo "This is a test\n"; ); >
This function can now be called from anywhere in the script as long as the call comes after the function definition. A sample call might be:
<? Test(); >
User defined functions like this act exactly like PHP's internal functions in that you can pass arguments to them and have them return a value. Here is the syntax for a function definition of a function which takes 3 arguments and returns the sum of these arguments:
<? Function Sum $a,$b,$c ( return($a+$b+$c); ); echo Sum($a,$b,$c); >
The return statement is used to return a value from the function. Only a single value can be returned using this mechanism, however, if more values need to be communicated back and forth between the main code and functions, global variables can be used. This brings us to the section on the scope of variables.
The scope of a variable is the context within which it is defined. For the most part all PHP/FI variables only have a single scope. However, within user-defined functions a local function scope is introduced. Any variable used inside a function is by default limited to the local function scope. For example:
$a=1; /* global scope */ Function Test ( echo $a; /* reference to local scope variable */ ); Test();
This script will not produce any output because the echo statement refers to a local version of the $a variable, and it has not been assigned a value within this scope. You may notice that this is a little bit different from the C language in that global variables in C are automatically available to functions unless specifically overridden by a local definition. This can cause some problems in that people may inadvertently change a global variable. In PHP/FI global variables must be declared global inside a function if they are going to be used in that function. An example:
$a=1; $b=2; Function Sum $first,$second ( global $a,$b; $b = $a + $b; ); Sum(); echo $b;
The above script will output "3". By declaring $a and $b global within the function, all references to either variable will refer to the global version. There is no limit to the number of global variables that can be manipulated by a function. However, the variable must exist in the global scope prior to the function being called. You cannot create new global variables from within a function.
Another important feature of variable scoping is the static variable. A static variable exists only in a local function scope, but it does not lose its value when program execution leaves this scope. Consider the following example:
Function Test ( $a=0; echo $a; $a++; );
This function is quite useless since every time it is called it sets $a to 0 and prints "0". The $a++ which increments the variable serves no purpose since as soon as the function exits the $a variable disappears. To make a useful counting function which will not lose track of the current count, the $a variable is declared static:
Function Test ( static $a=0; echo $a; $a++; );
Now, every time the Test() function is called it will print the value of $a and increment it.
Static variables are also essential when functions are called recursively. A recursive function is one which calls itself. Care must be taken when writing a recursive function because it is possible to make it recurse indefinitely. You must make sure you have an adequate way of terminating the recursion. The following simple function recursively counts to 10:
Function Test ( static $count=0; $count++; echo $count; if($count < 10) { Test(); } );
PHP supports full mathematical operations anywhere an expression is expected. Order of operations are taken into account. The following are the valid operators:
<? $a = 2 + 1 > Addition <? $a = 2 - 1 > Subtraction <? $a = 2 * 1 > Multiplication <? $a = 2 / 1 > Division <? $a = 2 % 1 > Modulus <? $a = 2 ^ 1 > Bit-wise Exclusive OR
Both bracketing and order of operations is supported, so the following is valid:
<?$a = (2"+1")*3+6/3>
The C-like incremental operators += and -= are supported. ie.
<? $a += $b>
This is equivalent to:
<? $a = $a + $b>
The C-like bit-wise operators &=, |= and ^= are supported. ie.
<? $a &= 4>This is equivalent to:
<? $a = $a & 4>
You can loop within a PHP script by using the while(); endwhile; construct.
<? $a=0; while($a<100) { $a++; echo $list[$a]; } >
The above example shows the use of a while loop to display the contents of an array. WARNING although the PHP language supports incremental operators such as ++ and -- to increment and decrement a variable, they are not treated exactly like they would be in the C language. The variable is incremented right away. There is no concept of incrementing the variable before or after the operation as there is in C.
As explained in the Language Constructs section above, the same can be obtained with while(); endwhile;.
PHP supports a switch construct very similar to the C equivalent.
<? $a=0; switch($a) { case 1; echo "a is 1"; break; case "hello"; echo "a is hello"; break; default; echo "a is unknown"; break; } >
The above is an example of a switch construct. It is similar to a series of if/elseif/else constructs but easier to read. The only difference between the PHP switch construct and that of the C language is that semi-colons are used to terminate every line. There are no colons.
As explained in the Language Constructs section above, the same can be obtained with switch(); endswitch;.
All of these constructs can of course be nested and used inside each other just like C. The various files in the examples directory of the PHP distribution should provide a good starting point for learning the language.
A previous section talked about GET and POST method data and variables. If you think about it, you may be able to envision a security issue. For example, if on a web page I have obtained some data from a database and I pass this data along in a variable called "data" in a POST method form. In the ensuing page I can access this variable and do something with it. However, if someone accessed this second page directly and put a "?data=something" right in the URL thereby doing a GET method variable set, they have effectively circumvented the original POST method form.
PHP provides a SecureVar() function which is used to mark variables names as being secure variables. These secure variables can only be set directly in a PHP script, or they can come from a POST method form. They cannot be set using the GET method variable definition mechanism. From our above scenario, if we placed the line:
<?SecureVar("data")>
Near the beginning of our second page, then the GET method trick would not work. The "data" variable would appear to be empty unless it came directly from the POST method form on the first page.
The SecureVar() actually takes a regular expression as its argument, so you can mark patterns of variable names that should be treated in this secure manner. For example,
<?SecureVar(".*data.*")>
Would mark any variable with the word "data" anywhere in their name as being secure.
Please note that POST-method forms are not intrinsically secure. People can emulate the posting of any data to a form by simply telnetting to the HTTP port on your system. You need to take appropriate security measures to stop people from doing this if in fact security is a concern.
The problem is that PHP understands 3 variable types. Integer, Double and String. When a variable is first assigned, PHP automatically figures out the variable type.
ie.
$a = 1; Type would be integer $b = 1.5; Type would be double $c = "1"; Type would be string
Now, what happens when you do something like:
$d = $a + $c;
The parser looks at the first part of the arithmetic expression and uses that to type the result and thus also the nature of the arithmetic that is to be done. In the above case since $a is an integer, $d will be an integer and an integer addition is done giving the result:
$d = 2 Type is integer
Therefore:
$d = $c + $a
Results in:
$d = "11" Type is string
The above makes sense to me, and once you understand it, it is probably workable. However, when more complex expressions are used it can get extremely confusing.
The solution is a simple type casting mechanism. In reality all variables are automatically converted to all 3 types, and an internal flag just marks what type the variable actually is. So, when I say:
$a = 1;
Internally in the symbol table I store 3 versions.
Integer: 1 <-- flag Double : 1.0 String : "1"
The SetType() function can move this flag indicating the type of the variable.
SetType($a,"double");
This would force $a to be treated as a double from then on.
The GetType() function returns the type. GetType($a) would return "double" in this case.
Functions also exist to return the 3 various types without moving the type flag.
IntVal($a) returns 1 DoubleVal($a) returns 1.0 StrVal($a) returns "1"
This doesn't change the overloaded operator nature of the PHP variables, but it does give you some tools to better deal with them. PHP is not not a full-fledged Perl look-alike. It has to be small and fast. Perl deals with the overloaded operator pitfall by forcing something like the '+' operator to only work on numbers. If you want to add strings, you must use the '.' operator. Once you start having separate operators for each type you start making the language much more complex. ie. you can't use '==' for stings, you now would use 'eq'. I don't see the point, especially for something like PHP where most of the scripts will be rather simple and in most cases written by non-programmers who want a language with a basic logical syntax that doesn't have too high a learning curve.
It may be desirable in certain circumstances to ignore fatal errors which may be reported by specific PHP functions. For example, you may want to ignore errors from a dbmopen() call and simply check the return value of the call without having error messages appear on the web screen. This can be done by putting the "@" character in front of the function call. ie.
$err_code = @dbmopen($filename,"w");
The actual error message that would have been printed can be checked by looking at the PHP internal variable, $phperrmsg.
A more general approach to suppress error message printing is to use the SetErrorReporting() function. With this function error printing can be disabled for entire blocks of code by preceding the block with a call like:
SetErrorReporting(0);
This turns off all errors. They can then be re-enabled later with:
SetErrorReporting(1);
PHP has a number of built-in functions. Functions are called in the same manner as they are called in the C language. Some take one or more arguments, and some return values which can then be assigned to a variable or used as an argument to another function. For example:
<?$t=time()>
This assigns the return value of the time() function to the t variable.
Abs returns the absolute value of arg.
Escapes any $ \ or ' (if MAGIC_QUOTES is set) with a backslash. See also StripSlashes().
Sort is used to sort a PHP associative array in ascending order. Unlike the Sort() function, ASort() maintains index-value pairings. It understands the three variable types and will sort alphabetically if the array contains strings, and numerically if the array contains numbers. In the case of an array which contains a mixture of types, the first type in the array will specify the sort method. Note that if you are going to sort a non-associative array, you should use the Sort() function.
BinDec returns the decimal equivalent of the binary number represented by the binary_string argument. The largest number that can be converted is 31 bits long or 4294967295 in decimal. See also the DecBin() function.
ChDir changes the current working directory to the directory specified in the argument.
ChGrp changes the group id of the specified file.
ChMod changes the file permissions of the specified file. The perms parameter must be specified in octal.
ChOwn changes the specified file to be owned by the specified owner. Note that this will only work if the PHP/FI binary is running as root (which is not generally a good idea).
Chop removes all trailing whitespaces including new-lines, tabs and spaces and returns the new string.
Chr returns the ASCII character represented by the integer argument.
The stat() system call is normally an expensive operation on most operating systems. In order to make sure that repeated calls to the various File* functions like FilePerms(), FileInode(), etc. the result of the last stat() call is always cached. If one of the File* functions is called again with the same argument, the cached stat() result will be used. In order to force a new stat() system call this ClearStatCache() function may be called to clear the cached stat() result.
closeDir closes a directory opened using the openDir function.
CloseLog() closes the descriptor Syslog() uses to write to the system logger. See the closelog(3) UNIX man page for more details. See also Syslog(), OpenLog() and InitSyslog().
Cos returns the cosine of arg in radians. See also Sin() and Tan()
Count returns the number of items in an array variable. If the variable is not an array, the return value will be 1 (because a normal variable is similar to an array with only one item). If the variable is not defined, the return value will be 0.
Crypt will encrypt a string using the standard Unix DES encryption method. Arguments are a string to be encrypted and an optional two-character salt string to base the encryption on. See the Unix man page for your crypt function for more information. If you do not have a crypt function on your Unix system, you can use Michael Glad's public domain UFC-Crypt package which was developed in Denmark and hence not restricted by US export laws as long as you ftp it from an non-US site.
The Date function is used to display times and dates in various ways. The function takes a format string and a time as arguments. If the time argument is left off, the current time and date will be used. The time argument is specified as an integer in number of seconds since the Unix Epoch on Jan.1 1970. The format string is used to indicate which date/time components should be displayed and how they should be formatted. The following characters are recognized within the format string. Any unrecognized character is printed verbosely:
See also the MkTime() function.
dbList outputs information about the db support compiled into PHP.
dbmClose simply closes the specified dbm file. It will also unlock any lock files, so it is important to close any dbm files that have been opened.
dbmDelete will delete the key/content pair specified by the given key argument.
dbmExists will return 1 if the key exists and 0 otherwise.
dbmFetch will return the content string associated with the given key.
dbmFirstKey returns the first key in the dbm file. Note that no particular order is guaranteed since the order depends on hash table values calculated within the dbm implementation. You may use the Sort function to sort arrays of data from the dbm file if necessary.
dbmInsert inserts a new key/content data pair into a dbm file. If the key already exists, the insert will fail.
dbmNextKey returns the next key after the specified key. By calling dbmfirstkey() followed by successive calls to dbmnextkey() it is possible to visit every key/content pair in the dbm file.
dbmOpen() opens a dbm file. The first argument is the full-path filename of the dbm file to be opened and the second is the file open mode which is one of "r", "n" or "w" for read, new (implies write) and write respectively. If ndbm support is used, ndbm will actually create filename.dir and filename.pag files. gdbm only uses one file, as does the internal flat ascii file support, and Berkeley's libdb create a filename.db file. Note that PHP does its own file locking in addition to any file locking that may be done by the dbm library itself. PHP does not delete the .lck files it creates. It uses these files simply as fixed inodes on which to do the file locking. For more information on dbm files, see your Unix man pages, or obtain GNU's gdbm from ftp://prep.ai.mit.edu/pub/gnu.
dbmReplace is similar to the dbminsert() function, the only difference being that if the key already exists, the old content string will be replaced with the new.
DecBin returns a string containing a binary representation of the given number argument. The largest number that can be converted is 31 bits long or 4294967295 in decimal. See also the BinDec() function.
DecHex converts a decimal number to a hexadecimal string. See also the HexDec() function.
DecOct converts a decimal number to an octal number. See also OctDec().
doubleval returns the double (floating point) value of the variable. See also the strval() and intval() functions.
Echo is not a function. ie. you do not put brackets around the arguments to it. It is used to display results of PHP functions or PHP variables. See the Escape Character Section for a list of special characters supported. The format_string is optional and if not present, no output formatting will be done. The format string is similar to the format string of the C printf function. See the man page for printf for more details. Up to 5 expressions can be printed with a single echo command. If you try to print more you will get a parser error. Note that the types of the expressions are not relevant. The expressions are automagically converted to the appropriate types as specified by the format string if one is present. If you want to format something and assign the formatted string to a variable instead of displaying it, use the sprintf() function.
The following conversions are supported,
- %d %i
- Print a signed decimal number.
- %o
- Print an ocal number.
- %u
- Print an unsigned decimal number.
- %x %X
- Print a hexadecimal number.
- %f
- Print a floating-point number.
- %e %E
- Print a floating-point number in scientific notation.
- %g %G
- Print a floating-point number in scientific notation or normal notation, as appropriate.
- %c
- Print a single character.
- %s
- Print a string of characters.
- %%
- Print a literal percent-sign.
The following flags are accepted.
- '-'
- Left-justify the output within the field-width.
- '+'
- Ensure that all integers are signed (with a plus/minus sign).
- ' '
- Similar to '+', but uses a space instead of a plus-sign.
- '#'
- Print prefixes in front of hex and octal numbers designating them as such.
- '''
- Separate the digits into groups (usually comma-separated groups of three).
- '0'
- Pad the field-width with zeros.
All of these flags are dependent upon whether or not your C library's printf function supports them (the ''', for example, is a GNU extension).
Most conversions will accept a field width and a precision, as shown in the demo_echo.html file in the directory /examples. It is not necessary to specify any type modifiers, and, in fact, PHP will complain if the type modifier does not make sense (which is almost always the case). PHP will complain about (and refuse to accept) anything that it does not recognize. Any extra arguments given that are not required by the format-string are ignored.
End moves the internal array pointer for the given variable to the last item of the array and returns the value of this item. This is useful for traversing an associative array in reverse order. See also Reset() and Prev(). The following example would traverse an associative array in reverse order:
<? Reset($array); $first_key = key($array); End($array); $k = key($array); while($k != $first_key); echo $array[$k]; prev($array); $k = key($array); endwhile; echo $array[$k]; >
ereg returns non-zero if the regular expression is matched in the argument string. For example, the condition, <?if (ereg("^This.*", "This is an example string")> would be true since the "^This.*" expression says to match the word This at the beginning of the string and then match any characters afterwards. If the regs argument is present, then match registers are filled into positions 0-10 in the array named by the regs argument. Register 0 will always contain the full matched string. For more information on regular expressions, see the regular expression section of this document.
eregi is identical to the ereg() function except for the fact that the regular expression is applied such that upper/lower case is ignored.
ereg_Replace scans the entire argument string and replaces any portions of the string matched by the given expression with the replacement string. For example, in the string, "This is an example string" we could very easily replace every space with a dash with the command: ereg_replace(" ","-","This is an example string").For more information on regular expressions, see the regular expression section of this document.
eregi_replace is identical to the ereg_replace() function except for the fact that the regular expression is applied such that upper/lower case is ignored.
EscapeShellCmd escapes any characters in a string that might be used to trick a shell command into executing arbitrary commands. This function should be used to make sure that any data coming from user input is escaped before this data is passed to the Exec() or System() functions. A standard use would be:
<?system(EscapeShellCmd($cmd))>
Eval takes the contents of the string argument and treats it like a mini PHP/FI script. It will execute it as a separate PHP/FI script. Any variables set or accessed from inside the eval will be from the global reference frame in the current context of the eval statement in the script. Variable substitution is done on the string arguments, so if variables are to be used in the string expression they should be escaped. Some examples:
$a = "echo phpversion();"; eval($a); eval("echo phpversion();"); eval("\$a=1; echo \$a;");
Exec executes the given unix command, however it does not output anything. It simply returns the last line from the result of the command. If you need to execute a command and have all the data from the command passed directly back without any interference, use the PassThru() function. If the array argument is present, then the specified array will be filled with every line of output from the unix command starting at the end of the array. Make sure you UnSet the array before the call if your array already contains elements and you want to start filling it at array element 0. If the return_var argument is present along with the array argument, then the return status of the executed unix command will be written to this variable. Note that if you are going to allow data coming from user input to be passed to this Exec function, then you should be using the EscapeShellCmd() function to make sure that users cannot trick the system into executing arbitrary commands. See also the system() function.
The Exit command is used to terminate parsing right away as soon as this tag is parsed.
Exp returns e raised to the power of arg. See also pow()
fclose() closes a file opened by fopen(). The argument is a file pointer index as returned by the fopen() call.
Feof returns true if the file referred to by the file pointer index argument has hit end-of-file.
fgets() reads a line from a file opened by fopen(). Arguments are a file pointer index as returned by fopen() and the max number of bytes to read. Reading ends when max number of bytes have been read, or on an end of line. This is similar to the C fgets() call. See also fputs().
Identical to the fgets() function, except this one tries to strip off any HTML tags or PHP/FI script tags as it is reading the file.
File reads the entire file and returns an array with each array element containing a line of the file starting with array index 0.
fileAtime returns the time of last data access. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileAtime and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileCtime returns the time of last status change. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileCtime and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileGroup returns the group id of the owner of the file. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileGroup and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileInode returns the file's inode. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileInode and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileMtime returns the time of last data modification. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileMtime and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileOwner returns the uid of the owner of the file. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileOwner and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
filePerms returns the permission bits of the file. This is the st_mode field of the Unix C stat structure. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to filePerms and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileSize returns the size of the file in bytes. If the file does not exist, or if it for some other reason could not be accessed, this function returns -1. If repeated calls to fileSize and the rest ofthe file* functions are to be made and the file being accessed might change or disappear, the ClearStatCache() should be called before the call to the file* function.
fileType returns the type of the file. The return values are one of: "dir", "file","fifo","char", "block", or "link". These are for, directory, regular file, fifo special, character special, block special and symbolic link, respectively.
fopen() opens a file and returns a file pointer index. If the file could not be opened the function returns -1. It is similar to the C fopen() call. The filename argument is the relative or absolute path to the file to be opened, and the mode argument is one of, "r", "r+", "w", "w+", "a", "a+". See the Unix man page on the fopen() call for more information. See also the popen() function description. See also the fclose() function description.
Example:
$fp = fopen("/home/rasmus/file.txt","r");
fputs() writes a line to a file opened by fopen(). Arguments are a file pointer index as returned by fopen() and the string to write. Note that the string argument may contain the special escape characters, \n, \r and \t to output newlines, carriage returns and tabs respectively. See also fgets().
fseek() positions a file pointer identified by the $fd argument which is the return value of the fopen() call. The file pointer is positioned at the beginning of the file plus the offset specified by the pos argument. See also ftell() and rewind().
fsockopen() opens a socket connection and returns a file pointer index. This file pointer index can be used by fgets, fputs and fclose. Arguments are a hostname and a port number. Return values are: -3 if the socket couldn't be created, -4 if the dns lookup on the hostname failed, -5 if the connection was refused or it timed out, -6 if the actual fdopen() call failed or -7 if the setvbuf() call failed. If the port number is 0, then the hostname argument will be treated as a filename of a Unix domain socket if your operating system support Unix domain sockets.
ftell() returns the position of a file pointer identified by the fp argument which is the return value of the fopen() call. The position can later be used as an argument to fseek(). See also fseek() and rewind().
getAccDir returns the directory where PHP access configuration files are kept. The access configuration filenames come from the numerical user id of the user whose access configurations they represent.
GetEnv returns the value of the environment value specified by string. Normally this function is not used because environment variables are available to PHP/FI directly. If a reference is made to a variable which is not found in the internal symbol table, then the environment space is automatically searched. GetEnv should be used when it is necessary to ensure that an environment variable has not been overwritten by normal PHP/FI variable. Security mechanisms that rely on http server-defined variables like REMOTE_ADDR and REMOTE_HOST should load these variables using GetEnv as opposed to referencing them directly as $REMOTE_ADDR to avoid someone making up a fake form and posting the data to your server and thereby bypassing whatever security mechanism you might have.
getHostByName converts the given domain name into an IP address in nnn.nnn.nnn.nnn format.
getHostByAddr converts the given IP address in nnn.nnn.nnn.nnn format into a fully qualified domain name.
The GetImageSize() function takes either a full path filename, or a relative path relative to the location of the calling script. It returns a 3 element array consisting of width, height and type. Width and height are in pixels, and a type of 1 means GIF, a 2 indicates a JPG file and a 3 indicates a PNG file. Other file types are not supported. The fourth element in the returned array is a string containing, "width=x height=y" that is suitable for using directly in an IMG tag. It is important to note that the GD image library is not needed to use this function. An example follows:
<? $result = GetImageSize("img/flag.jpg"); > <IMG SRC="img/flag.jpg" ?echo $result[3]> >
getLastAccess returns the date and time in unix time format of
the last time the current page was access. This value can be passed to
the Date() function for formatting.
This function is
only available if PHP was compiled with Access Logging enabled.
getLastBrowser returns the identification string of browser the
last user to access the current page used.
This function is only
available if PHP was compiled with Access Logging enabled.
getLastEmail returns the E-Mail address of the last user to access the
current page.
This function is only available if PHP was compiled
with Access Logging enabled.
getLastHost returns the hostname of the last user to access the
current page.
This function is only available if PHP was compiled
with Access Logging enabled.
getLastMod returns the date and time in unix time format of
the last time the current page was modified. This value can be passed to
the Date() function for formatting.
This function is
only available if PHP was compiled with Access Logging enabled.
getLastRef returns the URL of the referring document of the
last user to access the current page.
This function is only available if
PHP was compiled with Access Logging enabled.
getLogDir returns the top-level directory under which PHP log files can be found. The actual log files are in directories under this directory. Each subdirectory is the numerical user id of the user to whom the log files belong. Then within each directory a series of dbm log files are found, each with the numerical inode of the file they represent as the primary component of the filename.
getMyInode returns the numerical inode of the current HTML file.
getMyPid() returns the current process id of the PHP parsing process.
getMyUid returns the numerical user id of the owner of the current HTML file.
getRandMax returns the maximum random number the Rand function will return. If the value returned does not seem to be accurate, have a look in the php.h source file in the PHP distribution for more information.
getStartLogging returns the time and date in Unix time format when logging commenced on the current page. This is more accurate when mSQL-based logging is used since a timestamp is kept in each log file. For dbm-logging the time returned is the time the user's log directory was created.
getToday returns the total number of hits the current page has
had since 12 midnight local time.
This function is only available if
PHP was compiled with Access Logging enabled.
getTotal returns the total number of hits the current page has
had since access logging was started on the page.
This function is
only available if PHP was compiled with Access Logging enabled.
GetType returns the type of the variable. The return value is a string and it is one of, "integer", "double" or "string". See also the SetType() function
gmDate is identical to the Date function except for the fact that it uses Greenwich Mean Time instead of the current local time.
The Header command is used at the top of an HTML file to send
raw HTTP header strings. See the
HTTP Specification for more information on raw http headers. Remember that the
Header() command must be used before any actual output is sent either by normal
HTML tags or by PHP echo commands.
Usage examples can be found in the HTTP Authentication
section.
HexDec converts a hexadecimal string to a decimal number. See also the DecHex() function.
HtmlSpecialChars converts any characters with ascii codes in the string argument between 160 and 255 inclusive to their corresponding HTML Entity names. The function returns the converted string. The <, >, & and " are also converted.
ImageArc draws a partial ellipse centered at cx,cy (top left is 0,0) in the
image represented by im.
w and h specifies the ellipse's width and height respectively
while the start and end points are specified in degrees indicated by the s and e arguments.
This function is only available if GD support has been enabled in PHP.
ImageChar draws the character c in the image identified by
im at coordinates x,y (top left is 0,0) in colour col. The
size argument can be 1, 2, 3, 4 or 5 indicating the size of the font to be used. 1 is
the smallest and 5 is the largest.
This function is only available if GD support
has been enabled in PHP.
ImageCharUp draws the character c vertically in the image identified by
im at coordinates x,y (top left is 0,0) in colour col. The
size argument can be 1, 2, 3, 4 or 5 indicating the size of the font to be used. 1 is
the smallest and 5 is the largest.
This function is only available if GD support
has been enabled in PHP.
ImageColorAllocate returns a colour identifier representing the colour composed of the
given RGB components. The im argument is the return from the
ImageCreate function. ImageColorAllocate must be called to create each colour that
is to be used in the image represented by im.
This function is only available if
GD support has been enabled in PHP.
ImageColorTransparent sets the transparent colour in the im image to col. im is the image identifier returned by ImageCreate and col is the colour identifier returned by ImageColorAllocate. This function is only available if GD support has been enabled in PHP.
ImageCopyResized copies a rectangular portion of one image to another image.
dst_im is the destination image, src_im is the source image identifier.
If the source and destination coordinates and width and heights differ, appropriate
stretching or shrinking of the image fragment will be performed. The coordinates
refer to the upper left corner. This function can be used to copy regions within the
same image (if dst_im is the same as src_im) but if the regions
overlap the results will be unpredictable.
This function is only available if
GD support has been enabled in PHP.
ImageCreate returns an image identifier representing a blank image of size
x_size by y_size.
This function is only available if GD support has been
enabled in PHP.
ImageCreateFromGif returns an image identifier representing the image obtained
from the given filename.
This function is only available if GD support
has been enabled in PHP.
ImageDestroy frees any memory associated with image im. im is the image identifier returned by the ImageCreate function. This function is only available if GD support has been enabled in PHP.
ImageFill performs a flood fill starting at coordinate x,y (top left is 0,0) with
colour col in image im.
This function is only available if GD support has been
enabled in PHP.
ImageFilledPolygon creates a filled polygon in image
im. points is a
PHP array containing the polygon's vertices. ie. points[0] = x0, points[1] = y0, points[2] =
x1, points[3] = y1, etc. num_points is the total number of vertices.
This function is
only available if GD support has been enabled in PHP.
ImageFilledRectangle creates a filled rectangle of colour col in image im starting at upper left
coordinate x1,y1 and ending at bottom right coordinate x2,y2. 0,0 is the top left
corner of the image.
This function is only available if GD support has been
enabled in PHP.
ImageFillToBorder performs a flood fill whose border colour is defined by border. The
starting point for the fill is x,y (top left is 0,0) and the region is filled with colour
col.
This function is only available if GD support has been enabled in PHP.
ImageGif creates the GIF file in filename from the image im. The im argument is
the return from the ImageCreate function. The filename
argument is optional, and if left off, the raw image stream will be returned directly.
By sending an image/gif content-type using the Header()
function, you can create a PHP/FI script which returns GIF images directly using this
function.
This function is only available if GD support has been enabled in PHP.
ImageInterlace turns the interlace bit on or off. If interlace is 1 the im image will be interlaced, and if interlace is 0 the interlace bit is turned off. This functions is only available if GD support has been enabled in PHP.
ImageLine draws a line from x1,y1 to x2,y2 (top left is 0,0) in image
im of colour col.
This function is only available if GD support has been enabled in PHP.
ImagePolygon creates a polygon in image im. points is a
PHP array containing the polygon's vertices. ie. points[0] = x0, points[1] = y0, points[2] =
x1, points[3] = y1, etc. num_points is the total number of vertices.
This function is
only available if GD support has been enabled in PHP.
ImageRectangle creates a rectangle of colour col in image im starting at upper left coordinate
x1,y1 and ending at bottom right coordinate x2,y2. 0,0 is the top left
corner of the image.
This function is only available if GD support has been
enabled in PHP.
ImageSetPixel draws a pixel at x,y (top left is 0,0) in image
im of colour col.
This function is only available if GD support has been enabled in PHP.
ImageString draws the string s in the image identified by
im at coordinates x,y (top left is 0,0) in colour col. The
size argument can be 1, 2, 3, 4 or 5 indicating the size of the font to be used. 1 is
the smallest and 5 is the largest.
This function is only available if GD support
has been enabled in PHP.
ImageStringUp draws the string s vertically in the image identified by
im at coordinates x,y (top left is 0,0) in colour col. The
size argument can be 1, 2, 3, 4 or 5 indicating the size of the font to be used. 1 is
the smallest and 5 is the largest.
This function is only available if GD support
has been enabled in PHP.
ImageSX returns the width of the image identified by im.
ImageSY returns the height of the image identified by im.
The Include command can be used to insert other files into the current
html file. This is extremely handy for headers and footers which may need
to be included in hundreds of HTML files. By using an include command you then
only need to modify the header or footer file in one place when it needs to be
changed. Since full PHP parsing is done on the included file, you can also
use the include command to include common PHP scripts you may have
written. Sort of like having a primitive shared library of scripts
you can call from your HTML file. You can place such common library
files in one directory and set PHP's include path and not have to
refer to the files with pathnames. For Apache module users this can be
configured with the phpIncludePath directive, for CGI
users with the PHP_INCLUDE_PATH environment variable. This path is
colon-separated just like $PATH
is in your UNIX shell.
eg.
<?include("/path/filename.txt")>
InitSyslog() defines some PHP variables that you need when using OpenLog() and Syslog(). These variables are not defined by default for efficiency reasons. The variables are named in the same way as in the <syslog.h> C include file (such as $LOG_LOCAL0). See your syslog(3) UNIX manual page for more details. See also InitSyslog(), Syslog() and CloseLog().
intval returns the long integer value of the variable. See also the strval() and doubleval() functions.
The IsSet function returns 1 if the given variable is defined, and 0 if it isn't.
Key returns the key of the current array item. The current item is determined by the position of the array pointer for the given variable. This array pointer may be manipulated with the Reset(), End(), Next(), and Prev() functions. This function is mainly used for determining the key value for an item in an associative array, although it will work for normal array as well.
Link() creates a hard link. See the Symlink() function for creating symbolic links (soft) links. See also ReadLink and LinkInfo functions.
LinkInfo returns the st_dev field of the UNIX C stat structure returned by the lstat system call. This function is used to verify if a link (pointed to by path) really exists (using the same method as the S_ISLNK macro defined in stat.h). Returns -1 in case of error.
Log returns the natural logarithm of arg.
Log10 returns the base-10 logarithm of arg.
Mail automatically mails the message specified in the message argument to the receiver specified in the to argument. Multiple recipients can be specified by spaces between them in the to argument.
eg.
mail("rasmus@vex.net", "My Subject", "Line 1\nLine 2\nLine 3");If a fourth string argument is passed, this string is inserted at the end of the header, example:
mail("ssb@guardian.no", "the subject", $message, "X-Mailer: PHP/FI " + phpversion());
Max returns the maximum value of a PHP array. ie. it will search through the entire array looking for the max element. If it is an array of strings, the returned string is the string which would be alphabetically last in the array if it were sorted.
Md5 returns the MD5 hash of a string value.
Microtime() returns a string "msec sec" where sec is number of seconds
since 00:00 GMT, Jan 1, 1970, and msec is the microseconds part (as fraction of
seconds). Ex "0.87633900 825010464".
This function is only available on
operating systems that support the gettimeofday() system call.
Min returns the minimum value of a PHP array. ie. it will search through the entire array looking for the min element. If it is an array of strings, the returned string is the string which would be alphabetically first in the array if it were sorted.
MkDir creates a directory. The mode parameter must be given in octal notation.
MkTime returns a time in Unix timestamp (long integer) format which corresponds to the date and time specified by the arguments. Arguments may be left out in which case the given component is set to the current value according to the current local time and date. These left out arguments may only be left out from right to left. ie. MkTime(hour,min,sec) is valid, but MkTime(mon,day,year) is not valid.
msql sends an mSQL query. Arguments are the database name and the query
string. ie. <?msql("MyDatabase" , "select * from
table")>.
The return value from this function is a result identifier to be used to access the results
from the other msql_ functions. A result identifier is a positive integer. The function
returns 0 when no result identifier is created. This is the case with
any queries that do not return anything, such as create, update,
drop, insert and
delete. The function will return -1 if an error occurs. A string
describing the error will be placed in $phperrmsg, and unless the function was called
as @msql() then this error string will also be printed out.
For mSQL 2.0, the $result variable will contain the number of rows affected by
the SQL command performed. If you want your application to be portable to mSQL 1.0,
do not rely on this.
This function is only available if mSQL support has been enabled in PHP.
msql_Close closes the socket connection to the msql daemon, if an open connection exists. Note, since only one concurrent mSQL session can be open at any one time, this function does not take an argument.
msql_Connect specifies the host name or IP on which the mSQL database
engine resides. This is equivalent to the msqlConnect() function in the mSQL C
API. The one difference between this function and the C API equivalent is that
if the function isn't called, a connection to the local host is made by default
on the first call to the msql() function. And, there is no need for an msql_close
function since only one connection may be active at any one time. If a second call
to msql_connect() is made in a file, then the connection to the first host is
automatically closed. To explicitly connect to the msql daemon on the local host, use:
<?msql_connect("localhost")>
This function is only
available if mSQL support has been enabled in PHP.
msql_CreateDB creates the given database.
This function is only available if mSQL support has been enabled in PHP.
msql_dbName returns the database name stored in position $i of
the result pointer returned from the msql_ListDbs()
function. The msql_NumRows() function can
be used to determine how many database names are available.
This function is only available if mSQL support has been enabled in PHP.
msql_DropDB deletes the given mSQL database. Use this with caution
as all data in the database will be lost.
This function is only available if mSQL support has been enabled in PHP.
msql_FieldFlags returns the field flags of the specified field.
Currently this is either, "not null", "primary key", a combination
of the two or "" (an empty string).
This function is only available if mSQL support has been enabled in PHP.
msql_FieldLen returns the length of the specified field.
This function is only available if mSQL support has been enabled in PHP.
msql_FieldName returns the name of the specified field. Arguments to the
function is the result identifier and the field index. ie. msql_FieldName($result,2);
will return the name of the second field in the result associated with the result
identifier.
This function is only available if mSQL support has been enabled in PHP.
msql_FieldType is similar to the msql_FieldName() function. The arguments are
identical, but the field type is returned. This will be one of "int", "char" or "real".
This function is only available if mSQL support has been enabled in PHP.
msql_FreeResult only needs to be called if you are worried about using
too much memory while your script is running. All result memory will automatically
be freed when the script is finished. But, if you are sure you are not going to
need the result data anymore in a script, you may call msql_freeresult with the
result identifier as an argument and the associated result memory will be freed.
This function is only available if mSQL support has been enabled in PHP.
msql_ListDBs will return a result pointer containing the databases
available from the current mSQL daemon. Use the
msql_dbName() function to traverse this result pointer.
This function is only available if mSQL support has been enabled in PHP.
msql_listfields retrieves information about the the given tablename.
Arguments are the database name and the table name.
A result pointer is returned which can be used with msql_fieldflags,
msql_fieldlen, msql_fieldname, msql_fieldtype. A result identifier is a
positive integer. The function returns -1 if a error occurs. A string
describing the error will be placed in $phperrmsg, and unless the function
was called as @msql() then this error string will also be printed out.
This function is only available if mSQL support has been enabled in PHP.
msql_ListTables takes a database name and result pointer much like the
msql() function. The msql_TableName()
function should be used to extract the actual table names from the result pointer.
This function is only available if mSQL support has been enabled in PHP.
msql_NumFields returns the number of fields in a result. The argument is
the result identifier returned by the msql() function.
This function is only available if mSQL support has been enabled in PHP.
msql_NumRows simply returns the number of rows in a result. The argument
is the result identifier returned by the msql() function.
This function is only available if mSQL support has been enabled in PHP.
msql_RegCase takes a string argument and converts it to the regular
expression needed to send to mSQL in order to get a case insensitive
match. This turns a string like "abc" into "[Aa][Bb][Cc]".
This function is only available if mSQL support has been enabled in PHP.
msql_Result displays a field from a returned record. Arguments are the result identifier returned by the msql() function, an integer which is the index of the record to be viewed and a field name. The field argument supports the "table.field" syntax for handling results from a join. This function is perhaps best illustrated with a complete example:
<? $name = "bob"; $result = msql($database,"select * from table where firstname='$name'"); $num = msql_numrows($result); echo "$num records found!<p>"; $i=0; while($i<$num); echo msql_result($result,$i,"fullname"); echo "<br>"; echo msql_result($result,$i,"address"); echo "<br>"; $i++; endwhile; >
The above script connects to the mSQL engine on the local machine, sets the name variable to bob and sends a query which asks for all the fields from a table where the firstname field is set to bob. It then displays the number of records it found after which it loops through each of the found records and displays the fullname and address fields for each record. As you can see, it would be trivial to add HTML markup tags around the printed fields to format the results in a table or in whatever manner is desired. Note that there is no msql_connect() call. msql_connect need only be called if a connection to a remote database is desired.
This function is only available if mSQL support has been enabled in PHP.
msql_TableName takes a result pointer returned by the msql_ListTables() function as well as an integer index and returns the name of a table. The msql_NumRows() function may be used to determine the number of tables in the result pointer. An example would be:
<? $result = msql_listtables("dbname"); $i=0; while($i < msql_numrows($result)); $tb_names[$i]=msql_tablename($result, $i); echo $tb_names[$i]; echo "<BR>"; $i++; endwhile; >
mysql sends a mysql query. Arguments are the database name and the query
string. ie. <?mysql("MyDatabase" , "select * from
table")>.
The return value from this function is a result identifier to be used to access the results
from the other mysql_ functions. A result identifier is a positive integer. The function
returns 0 when no result identifier is created. This is the case with
any queries that do not return anything, such as create, update,
drop, insert and
delete. The function will return -1 if an error occurs. A string
describing the error will be placed in $phperrmsg, and unless the function was called
as @mysql() then this error string will also be printed out.
This function is only available if mysql support has been enabled in PHP.
mysql_affected_rows() returns number of rows affected by the last INSERT, UPDATE or DELETE query.
mysql_Close closes the socket connection to the mysql daemon, if an open connection exists.
mysql_Connect specifies the host name or IP on which the mysql database engine resides. This is equivalent to the mysqlConnect() function in the mysql C API. The one difference between this function and the C API equivalent is that if the function isn't called, a connection to the local host is made by default on the first call to the mysql() function. And, there is no need for an mysql_close function since only one connection may be active at any one time. If a second call to mysql_connect() is made in a file, then the connection to the first host is automatically closed.
An optional username and password may be provided. Note that when PHP is compiled to run in SAFE MODE then the username must either be the same as the owner of the file being processed, or the owner of the httpd process (usually nobody). Any other username will fail.
To explicitly connect to the mysql daemon on the local host, use:
<?mysql_connect("localhost")>
This function is only
available if mysql support has been enabled in PHP.
mysql_CreateDB creates the given database.
This function is only available if mysql support has been enabled in PHP.
mysql_dbName returns the database name stored in position $i of
the result pointer returned from the mysql_ListDbs()
function. The mysql_NumRows() function can
be used to determine how many database names are available.
This function is only available if mysql support has been enabled in PHP.
mysql_DropDB deletes the given mysql database. Use this with caution
as all data in the database will be lost.
This function is only available if mysql support has been enabled in PHP.
mysql_FieldFlags returns the field flags of the specified field.
Currently this is either, "not null", "primary key", a combination
of the two or "" (an empty string).
This function is only available if mysql support has been enabled in PHP.
mysql_FieldLen returns the length of the specified field.
This function is only available if mysql support has been enabled in PHP.
mysql_FieldName returns the name of the specified field. Arguments to the
function is the result identifier and the field index. ie. mysql_FieldName($result,2);
will return the name of the second field in the result associated with the result
identifier.
This function is only available if mysql support has been enabled in PHP.
mysql_FieldType is similar to the mysql_FieldName() function. The arguments are
identical, but the field type is returned. This will be one of "int", "char" or "real".
This function is only available if mysql support has been enabled in PHP.
mysql_FreeResult only needs to be called if you are worried about using
too much memory while your script is running. All result memory will automatically
be freed when the script is finished. But, if you are sure you are not going to
need the result data anymore in a script, you may call mysql_freeresult with the
result identifier as an argument and the associated result memory will be freed.
This function is only available if mysql support has been enabled in PHP.
mysql_insert_id() returns the ID generated for an AUTO_INCREMENT field. This function takes no arguments. It will return the auto-generated ID returned by the last INSERT query performed.
mysql_ListDBs will return a result pointer containing the databases
available from the current mysql daemon. Use the
mysql_dbName() function to traverse this result pointer.
This function is only available if mysql support has been enabled in PHP.
mysql_listfields retrieves information about the the given tablename.
Arguments are the database name and the table name.
A result pointer is returned which can be used with mysql_fieldflags,
mysql_fieldlen, mysql_fieldname, mysql_fieldtype. A result identifier is a
positive integer. The function returns -1 if a error occurs. A string
describing the error will be placed in $phperrmsg, and unless the function
was called as @mysql() then this error string will also be printed out.
This function is only available if mysql support has been enabled in PHP.
mysql_ListTables takes a database name and result pointer much like the
mysql() function. The mysql_TableName()
function should be used to extract the actual table names from the result pointer.
This function is only available if mysql support has been enabled in PHP.
mysql_NumFields returns the number of fields in a result. The argument is
the result identifier returned by the mysql() function.
This function is only available if mysql support has been enabled in PHP.
mysql_NumRows simply returns the number of rows in a result. The argument
is the result identifier returned by the mysql() function.
This function is only available if mysql support has been enabled in PHP.
mysql_Result displays a field from a returned record. Arguments are the result identifier returned by the mysql() function, an integer which is the index of the record to be viewed and a field name. The field argument supports the "table.field" syntax for handling results from a join. One difference between mSQL 1.0 and mysql is that mysql supports functions that can act on the result data. These functions can be applied in this function. This function is perhaps best illustrated with a complete example:
<? $name = "bob"; $result = mysql($database,"select * from table where firstname='$name'"); $num = mysql_numrows($result); echo "$num records found!<p>"; $i=0; while($i<$num); echo mysql_result($result,$i,"lcase(fullname)"); echo "<br>"; echo mysql_result($result,$i,"address"); echo "<br>"; $i++; endwhile; >
The above script connects to the mysql engine on the local machine, sets the name variable to bob and sends a query which asks for all the fields from a table where the firstname field is set to bob. It then displays the number of records it found after which it loops through each of the found records and displays the fullname and address fields for each record. The lcase() call in the result function changes the returned string to lower case. For a complete set of functions that can be applied to the result data, see your mysql documentation. As you can see, it would be trivial to add HTML markup tags around the printed fields to format the results in a table or in whatever manner is desired. Note that there is no mysql_connect() call. mysql_connect need only be called if a connection to a remote database is desired.
This function is only available if mysql support has been enabled in PHP.
mysql_TableName takes a result pointer returned by the mysql_ListTables() function as well as an integer index and returns the name of a table. The mysql_NumRows() function may be used to determine the number of tables in the result pointer. An example would be:
<? $result = mysql_listtables("dbname"); $i=0; while($i < mysql_numrows($result)); $tb_names[$i]=mysql_tablename($result, $i); echo $tb_names[$i]; echo "<BR>"; $i++; endwhile; >
Next moves the internal array pointer to the next item in the array. This happens automatically when an array is accessed using the non-indexed method ($array[]). The function returns the value of the new item. This function can be used to move the pointer forward without having to access the array explicitly. One use would be to traverse an associative array and only printing out the keys of the array and not the actual contents.
<? Reset($array); $i=0; while($i < count($array)); echo key($array); next($array); $i++; endwhile; >
OctDec converts an octal number to a decimal number. See also DecOct().
openDir opens the specified directory and places an internal pointer to the beginning of the directory. Directory entries are read using the readDir function, and an opened directory should be closed with the closeDir function.
OpenLog() initializes the system for further Syslog() calls. See the openlog(3) UNIX man page for more details. See also InitSyslog(), Syslog() and CloseLog().
Ord returns the ASCII value of the first character of arg.
Parse_str takes a string identical to a regular URL encoded
string and extracts variables and their values.
ex.
<? parse_str("a[]=hello+world&a[]=second+variable"); echo $a[],"<br>"; echo $a[],"<br>"; > produces hello world second variable
The PassThru() function is similar to the Exec() function in that it executes a Unix command. If the return_var argument is present, the return status of the Unix command will be placed here. This command should be used in place of Exec or System when the output from the Unix command is binary data which needs to be passed directly back to the browser. A common use for this is to execute something like the pbmplus utilities that can output an image stream directly. By setting the content-type to image/gif and then calling a pbmplus program to output a gif, you can create PHP/FI scripts that output images directly.
Pclose closes a pipe opened using the popen() function.
pg_Close will close down the connection to a Postgres95 database associated with the given connection identifier.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Connect opens a connection to a Postgres95 database. Each of the arguments should be a quoted string, including the port number. The options and tty arguments are optional and can be empty strings. This function returns a connection_id. This identifier is needed by other Postgres95 functions. You can have multiple connections open at once. This function will return 0 on error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_DBname will return the name of the database that the given Postgres95 connection identifier is connected to.
This function is only available if Postgres95 support has been enabled in PHP.
If an error occured on the last database action for which a valid connection exists, this function will return a string containing the error message generated by the back-end server.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Exec will send an SQL statement to the Postgres95 database specified by the connection_id. The connection_id must be a valid identifier that was returned by pg_Connect. The return value of this function is an identifier to be used to access the results from other Postgres95 functions. This function will return 0 on error. It will return 1 when the command executed correctly but are not expected to returned data (insert or update commands, for example). Note that selects which return no data will still return a valid result greater than 1.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FieldName will return the name of the field occupying the given column number in the given Postgres95 result identifier. Field numbering starts from 0.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FieldPrtLen will return the actual printed length (number of characters) of a specific value in a Postgres95 result. Row numbering starts at 0. This function will return -1 on an error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FieldNum will return the number of the column slot that corresponds to the named field in the given Postgres95 result identifier. Field numbering starts at 0. This function will return -1 on error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FieldSize will return the internal storage size (in bytes) of the named field in the given Postgres95 result. A field size of 0 indicates a variable length field. This function will return -1 on error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FieldType will return a string containing the type name of the given field in the given Postgres95 result identifier. Field numbering starts at 0.
This function is only available if Postgres95 support has been enabled in PHP.
pg_FreeResult only needs to be called if you are worried about using too much memory while your script is running. All result memory will automatically be freed when the script is finished. But, if you are sure you are not going to need the result data anymore in a script, you may call pg_freeresult with the result identifier as an argument and the associated result memory will be freed.
This function is only available if Postgres95 support has been enabled in PHP.
pg_GetLastOid can be used to retrieve the Oid assigned to an inserted tuple if the last command sent via pg_Exec was an SQL Insert. This function will return a positive integer if there was a valid Oid. It will return -1 if an error occured or the last command sent via pg_Exec was not an Insert.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Host will return the host name the the given Postgres95 connection identifier is connected to.
This function is only available if Postgres95 support has been enabled in PHP.
pg_NumFields will return the number of fields (columns) in a Postgres95 result. The argument is a valid result identifier returned by pg_Exec. This function will return -1 on error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_NumRows will return the number of rows in a Postgres95 result. The argument is a valid result identifier returned by pg_Exec. This function will return -1 on error.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Options will return a string containing the options specified on the given Postgres95 connection identifier.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Port will return the port number that the given Postgres95 connection identifier is connected to.
This function is only available if Postgres95 support has been enabled in PHP.
pg_Result will return values from a result identifier produced by pg_Exec. The row_number and field name specify what cell in the table of results to return. Row numbering starts from 0. Instead of naming the field, you may use the field index as an unquoted number. Field indices start from 0.
Postgres95 has many built in types and only the basic ones are directly supported here. All forms of integer, boolean and oid types are returned as integer values. All forms of float, and real types are returned as double values. All other types, including arrays are returned as strings formatted in the same default Postgres95 manner that you would see in the 'monitor' or 'psql' programs.
Support for returning PHP arrays of numerical and string data from a Postgres95 result is planned for a later date.
This function is only available if Postgres95 support has been enabled in PHP.
pg_tty will return the tty name that server side debugging output is sent to on the given Postgres95 connection identifier.
This function is only available if Postgres95 support has been enabled in PHP.
phpInfo prints the same page you get when adding "?info" to a PHP/FI parsed URL or when you run the php.cgi binary by itself. It is especially useful for debugging scripts in the Apache module version since it displays a number of useful internal data.
phpVersion returns the version number of PHP/FI currently running.
Popen opens a pipe to a command and returns a file pointer index. This file pointer index can be used by fgets, fputs and fclose. Arguments are the command to run and the mode. The mode can be either "r" for read or "w" for write. See the UNIX C library popen man page for more details. Any file opened with popen() should be closed using the pclose() function.
The Pos() function returns the numerical position of an array element within that array. This is not very useful for normal arrays, but for associative arrays it can be handy.
Evaluates x raised to the power of y. See also Exp()
Prev moves the internal array pointer for the given variable to the previous item in the array. If already at the beginning of the list, the pointer will point to the first item. The function returns the value of the new item. This function is useful for traversing an associative array in reverse order. See the example in the End() definition. Also see Next().
PutEnv puts the given string in the environment. Not extremely useful since the local environment variables are wiped out when PHP is done with a page, but in some cases it is useful if other things called from within a PHP script checks environment variables. For example, if you want to run multiple mSQL daemon processes, you will need to use PutEnv to switch back and forth between the different sockets.
QuoteMeta returns a string composed of arg with any regular expression special characters escaped with a backslash.
Rand returns a random number between 0 and RANDMAX. Remember to seed your random number generator with a call to srand() before calling rand(). You only need to seed the random number generator once. RANDMAX can be determined with the getRandMax function. Normally a specific range is chosen by simply using the modulus operator on the result.
readDir reads the next entry from the currently open directory structure. Once an entry is read, the pointer is advanced to the next entry in the directory and the next call to this function will return the next entry in the directory. Use the openDir function to open a directory before calling this function.
$size = ReadFile(Filename) - Reads the file filename and simply outputs it directly. It returns the number of bytes actually read. It is different from the File() command in that it does not store the file in memory, and it is safe for use on binary files. This function is generally used where one might otherwise do a PassThru("cat filename"). Using ReadFile is more efficient.
This function has been replaced by the ereg()
function. It is however still available for backwards compatibility.
reg_Match returns non-zero if the regular expression is matched
in the argument string. For example, the condition, <?if (reg_match("^This.*",
"This is an example string")> would be true since the "^This.*"
expression says to match the word This at the beginning of the string and then
match any characters afterwards. If the regs argument is present, then match
registers are filled into positions 0-10 in the array named by the regs
argument. Register 0 will always contain the full matched string.
For more information on regular expressions, see
the regular expression section of this document.
This function has been replaced by the ereg_replace()
function. It is however still available for backwards compatibility.
reg_Replace scans the entire argument string and replaces any portions
of the string matched by the given expression with the replacement string. For
example, in the string, "This is an example string" we could
very easily replace every space with a dash with the command:
reg_replace(" ","-","This is an example string").For more information on regular
expressions, see the regular expression section
of this document.
This function has been replaced by the ereg()
function. It is however still available for backwards compatibility.
reg_Search will scan the entire argument string for any matches to
the given regular expression. If a match is found, it will return the portion
of the string starting at where the match occurred. If no match is found a
zero-length string is returned. If the regs argument is present, then match
registers are filled into positions 0-10 in the array named by the regs
argument. Register 0 will always be assigned the full matched string.
For more information on regular expressions, see
the regular expression section of this document.
Rename filename old to new. Similar to the Unix C rename() function.
Reset moves the internal array pointer for the given array variable to the first item of the array and returns the value of this item. This is useful for traversing associative and non-indexed arrays. See also End() and Next(). The following example traverses an associative array:
<? Reset($array); $i=0; while($i < count($array)); echo $array[]; /* pointer automatically moves ahead one */ $i++; endwhile; >
Return exits the current function call and returns the specified value back to the caller. See the section on User-Defined Functions for more information.
rewind() resets a file pointer identified by the $fd argument which is the return value of the fopen() call. The file pointer is positioned at the beginning of the file. See also ftell() and fseek().
rewindDir moves the current directory pointer back to the beginning of the directory. Use the openDir function to open a directory before calling this function.
RmDir() removes the given directory. See the Unlink() function for removing regular files.
SetCookie() defines a cookie to be sent along with the rest of the header information. All the arguments except the name argument are optional. If only the name argument is present, the cookie by that name will be deleted from the remote client. You may also replace any argument with an empty string ("") in order to skip that argument. The expire and secure arguments are integers and cannot be skipped with an empty string. Use a zero (0) instead. The expire argument is a regular Unix time integer as returned by the time() or mktime() functions. Some examples follow:
SetCookie("TestCookie","Test Value"); SetCookie("TestCookie",$value,time()+3600); /* expire in 1 hour */ SetCookie("TestCookie",$value,time()+3600,"/~rasmus/",".utoronto.ca",1);
Note that the value portion of the cookie will automatically be urlencoded when you send the cookie, and when it is received, it is automatically decoded and assigned to a variable by the same name as the cookie name. ie. to see the contents of our test cookie in a script, simply do:
echo $TestCookie;
SetErrorReporting sets the current error reporting state to the value of arg. If non-zero, errors will be printed, and if 0 they won't be. The function returns the previous error reporting state. This is a more general way of disabling error reporting than by preceding individual functions with a '@' character. See the section on Suppressing Errors from function calls for more information.
SetLogging() either enables or disables the logging of access statistics for a page. If arg is non-zero, logging will be enabled, if zero, disabled.
SetShowInfo() either enables or disables the information footer at the bottom of all pages loaded through PHP. If arg is non-zero, the footers will be enabled, if zero, disabled.
SetType sets the type of a variable. The type argument is one of, "integer", "double" or "string". See also the GetType() function.
Sin returns the sine of arg in radians. See also Cos() and Tan()
Sleep will delay for secs seconds. Similar to the Unix C sleep() function. See also the USleep() function.
Solid_Close will close down the connection to the Solid server associated with the given connection identifier.
This function is only available if Solid support has been enabled in PHP.
Solid_Connect opens a connection to a Solid server. Each of the arguments should be a quoted string. The first parameter (data source name) can be an empty string, resulting in a connection to the default server on the localhost. This function returns a connection_id. This identifier is needed by other Solid functions. You can have multiple connections open at once. This function will return 0 on error.
This function is only available if Solid support has been enabled in PHP.
Solid_Exec will send an SQL statement to the Solid server specified by the connection_id. The connection_id must be a valid identifier that was returned by Solid_Connect. The return value of this function is an identifier to be used to access the results by other Solid functions. This function will return 0 on error. It will return 1 when the command executed correctly but are not expected to returned data (insert or update commands, for example). Note that selects which return no data will still return a valid result greater than 1.
This function is only available if Solid support has been enabled in PHP.
Solid_FetchRow fetches a row of the data that was returned by Solid_Exec. After Solid_FetchRow is called, the fields of that row can be access with Solid_Result. Every time Solid_FetchRow is called a new row can be accessed by Solid_Result. If Solid_FetchRow was succesful (there was a new row), 1 is returned, if there are no more rows, Solid_FetchRow will return 0. The return value of Solid_FetchRow can be used as the condition of a while loop.
This function is only available if Solid support has been enabled in PHP.
Solid_FieldName will return the name of the field occupying the given column number in the given Solid result identifier. Field numbering starts from 0.
This function is only available if Solid support has been enabled in PHP.
Solid_FieldNum will return the number of the column slot that corresponds to the named field in the given Solid result identifier. Field numbering starts at 0. This function will return -1 on error.
This function is only available if Solid support has been enabled in PHP.
Solid_FreeResult only needs to be called if you are worried about using too much memory while your script is running. All result memory will automatically be freed when the script is finished. But, if you are sure you are not going to need the result data anymore in a script, you may call Solid_FreeResult with the result identifier as an argument and the associated result memory will be freed.
This function is only available if Solid support has been enabled in PHP.
Solid_NumFields will return the number of fields (columns) in a Solid result. The argument is a valid result identifier returned by Solid_Exec. This function will return -1 on error.
This function is only available if Solid support has been enabled in PHP.
Solid_NumRows will return the number of rows in a Solid result. The argument is a valid result identifier returned by Solid_Exec. This function will return -1 on error. Large Caveat: The SOLID SQL server uses ODBC as it's primary (and only) interface. SolidNumRows() uses SQLRowCount at the low-level to get the number of rows. SQLRowCount follows the age-old Microsoft tradition of unnecessary limitations, strange exceptions and other odd things. This means that the function will only return the number of rows affected by an INSERT, UPDATE or a DELETE clause. No SELECT! As a workaround you can try the count() statement of SQL or a while-loop that counts the number of rows. If you need Solid_NumRows() to figure out how many records to read after a SELECT clause, try checking the return value from Solid_FetchRow() instead. So instead of:
$num = Solid_NumRows(); $i=0; while ($i < $num) { /* print results... */ $i++; }
you might try:
while(Solid_FetchRow($result)) { /* print results... */ }
This function is only available if Solid support has been enabled in PHP.
Solid_Result will return values from a result identifier produced by Solid_Exec. The field name specify what cell in the row to return. Instead of naming the field, you may use the field index as an unquoted number. Field indices start from 0.
This function is only available if Solid support has been enabled in PHP.
Sort is used to sort a PHP array in ascending order. It understands the three variable types and will sort alphabetically if the array contains strings, and numerically if the array contains numbers. In the case of an array which contains a mixture of types, the first type in the array will specify the sort method. Note that if you are going to sort an associative array, you should use the ASort() function.
This function takes a string argument and returns the soundex key
for the string. Soundex keys have the property that words
pronounced similarly produce the same soundex key, and can thus
be used to simplify searches in databases where you know the
pronunciation but not the spelling. This soundex function returns
a string 4 characters long, starting with a letter.
This particular soundex function is one described by Donald Knuth
in "The Art Of Computer Programming, vol. 3: Sorting And
Searching", Addison-Wesley (1973), pp. 391-392.
Example:
Euler and Ellery map to E460 Gauss and Ghosh map to G200 Hilbert and Heilbronn map to H416 Knuth and Kant map to K530 Lloyd and Ladd map to L300 Lukasiewicz and Lissajous map to L222
Sprintf returns the string created by the formatted output defined by the format argument and arg. It is similar to the formatted version of the echo command, except this just returns the string while echo displays it. It is also similar to the C function by the same name. The difference being that this version does not accept more than 5 arg arguments. If you need to format more than 5 arguments into a single string, simply call sprintf() multiple times for each group of arguments. Note that the type of the argument doesn't affect the output. The argument type is automagically converted to match the type specified in the format string.
Sqrt returns the square root of arg.
Srand seeds the random number generator. This function takes any integer as an argument. One choice for a seed value is to use the date function to give you the current number of seconds past the minute. Note that this function does not return a value! This function simply seeds the random number generator for subsequent calls to the rand() function. eg.
<?srand(date("s"))>
strchr and strstr are actually identical functions. They can be used interchangeably and both are included for completeness sake. They will return the portion of the string argument starting at the point where the given sub-string is found. For example, in the string, "This is an example string" above, the call: <?echo strchr($string,"an ")> would return the string: "an example string".
StripSlashes unescapes the string argument. See also AddSlashes().
strlen returns the length of the string.
strrchr will search for a single character starting at the end of the argument string and working its way backwards. It returns the string starting with the search character if the character was found and an empty string if it wasn't.
strstr and strchr are actually identical functions. They can be used interchangeably and both are included for completeness sake. They will return the portion of the string argument starting at the point where the given sub-string is found. For example, in the string, "This is an example string" above, the call: <?echo strstr($string,"an ")> would return the string: "an example string".
strtok is used to tokenize a string. That is, if you have a string like "This is an example string" you could tokenize this string into its individual words by using the space character as the token. You would use the following script code:
<? $string = "This is an example string"; $tok = strtok($string," "); while($tok); echo "Word=$tok<br>"; $tok = strtok(" "); endwhile; >
Note that only the first call to strtok uses the string argument. Every subsequent call to strtok only needs the token to use, as it keeps track of where it is in the current string. To start over, or to tokenize a new string you simply call strtok with the string argument again to initialize it. Note that you may put multiple tokens in the arg parameter. The string will be tokenized when any one of the characters in the argument are found.
strtolower converts the string argument to all lower case characters.
strtoupper converts the string argument to all upper case characters.
strval returns the string value of the variable. See also the intval() and doubleval() functions.
substr returns a part of the given string. The start position is given by the start argument. The first position in a string is position 0. And the length argument specifies the number of characters to return from the start position.
This function issues a Sybase Transact-SQL use command for the
specified database. The only argument to the function is the name of the
database to use. Example: sybsql_dbuse("pubs2");
The function returns 1 on success and 0 on failure.
This function opens a network connection to the sybase server. This function depends on several environment variables which must be set by the caller before calling this function.
The environment variables are:
DSQUERY - the alias of the sybase server as defined in the sybase
interface file.
DBUSER - connect to the sybase server as this user.
DBPW - password of the user.
These variables can be set in several ways. If php/fi is running as a CGI
program, then a shell wrapper can be used to set these variables or you can
set these variables directly in the HTML page using the builtin PHP/FI
function putenv().
Instead of using the values directly in
putenv(), the values can be obtained from form
input. The variables can be defined in a file and included in the html files
with PHP/FI
include
statement.
The function returns 1 on success and 0 on failure.
This function returns the field name of a regular result column. The argument
to the function is the field index. Example: sybsql_fieldname(0);
.
NOTE: the field index starts at 0.
If the the result column does not have any name, the function returns an empty string ("").
This function gets the value of a specific column of the current result
row. The only argument to the function is the string specifying the field.
Example: $value=sybsql_getfield("@10");
NOTE: sybsql_nextrow() must be called
before calling this function. sybsql_nextrow() must be called if the row
pointer needs to be incremented, because this function only reads the current
row in the row buffer.
If the specified column has a value, the function returns the value as a string otherwise the function returns an empty string ("").
This function indicates if the current SQL command returned any rows.
The function returns 1 if the SQL command returned any rows and 0 if the command didn't return any rows.
This function increments the row pointer to the next result row.
The function returns 1 as long as there are rows left to read. If there are no more rows left to read or in case of error the function returns 0.
This function returns the number of fields in a current result row.
The function returns the number of rows in the current result row. If there are no fields, the function returns 0.
This function returns the number of rows in the current result buffer. NOTE: when this function is called, it will seek to the first row right away, then it will call dbnextrow() until there are no more rows and increment a internal counter to calculate the number of rows in the result buffer. Then it points back to the very first row. Therefore, after calling this function row counter always points to the very first row. It's ugly but I don't know any other way at this time.
If there are no rows in the result buffer, the function will return 0.
This function submits a Sybase SQL query request to the server.
The only argument to the function is the query string.
Example:
$rc=sybsql_query("select * from authors");
The function returns 1, if the query is passed successfully and returns 0 if the request fails.
This function prints specific fields of the current result row. The only argument to the function is a string which holds information about the fields to be printed. A field is specified with a @ followed by a number. For example, @0 means first row, @10 means 11th row. Note that the field number starts at 0. The function is perhaps best illustrated with a complete example:
<? /* ** assuming all the necessary variables for ** connection is already set. please note, NO error checking is ** done. You should always check return code of a function. */ /* connect */ $rc=sybsql_connect(); /* use the pub2 database */ $rc=sybsql_dbuse("pubs2"); /* send the SQL request */ $rc=sybsql_query("select * from authors"); $i=0; /* find the no of rows returned */ $nrows=sybsql_numrows(); /* start table */ echo "<table border>\n"; /* ** print only first and 2nd field */ while($i<$nrows) { sybsql_result("<tr><td>@0</td>@1</td></tr>\n"); $i++; } /* end table */ echo "</table>\n"; >
The above example uses HTML table to format the output. Of course, any other valid HTML tags can be used.
This function prints all rows in the current result buffer. The result is printed in a hard coded HTML table format. Note that this function should not be called inside a loop. The function will print the name of the columns if there are any column headings in the output.
This function sets the requested row number as the current row in the row
buffer. The only argument to the function is the row number. Example:
$rc=sybsql_seek(10);
Note, row number starts at 0.
The function returns 1 if the seek succeeds and 0 if the seek fails. When all of the rows in the current result buffer have been visited, the row pointer points to the last row. If it is needed to go backward and visit some more rows, this function can be used for this purpose.
Symlink() creates a symbolic link. See the Link() function to create hard links.
Syslog() logs messages to the system using UNIX's syslog(3) feature. See your UNIX man page for more details. See also InitSyslog(), OpenLog() and CloseLog().
System is just like the C system() command in that it executes the given unix command and outputs the result. If a variable is provided as the second argument, then the return status code of the executed unix command will be written to this variable. Note, that if you are going to allow data coming from user input to be passed to this System function, then you should be using the EscapeShellCmd() function to make sure that users cannot trick the system into executing arbitrary commands. If you need to execute a command and have all the data from the command passed directly back without any interference, use the PassThru() function. See also the Exec function.
Sin returns the tangent of arg in radians. See also Sin() and Cos()
TempNam returns a unique filename located in the directory indicated by path with filename prefix given by prefix. It is identical to the Unix C tempnam() function.
Time simply returns the current local time in seconds since Unix epoch (00:00:00 Jan. 1 1970). It is equivalent to calling Date("U"). If you need better than per-second granularity, use the Microtime function.
Umask(mask) sets PHP's umask to mask & 0777 and returns the old umask. If PHP/FI is an Apache module, Apache's old umask is restored when PHP/FI has finished. mask must be specified in octal, like for ChMod(). Umask() without arguments simply returns the current umask.
UniqId returns a prefixed unique identifier based on current time in microseconds. The prefix can be useful for instance if you generate identifiers simultaneously on several hosts that might happen to generate the identifier at the same microsecond. The prefix can be up to 114 characters long.
Unlink deletes the given filename. Similar to the Unix C unlink() function. See the RmDir() function for removing directories.
UnSet undefines the given variable. In the case of an array, the entire array is cleared. Note that individual array elements can not be undefined with this command.
UrlDecode decodes a string encoded with the UrlEncode function. In typical use, it is not necessary to decode URL Encoded strings because these are automatically decoded when strings are passed between pages. However, for completeness sake, this function has been included.
UrlEncode encodes any characters from arg which are not one of "a-zA-Z0-9_-." by replacing them with %xx where xx is their ASCII value in hexadecimal. The encoded string is returned.
Sleep will delay for the given number of microseconds. Similar to the Unix C usleep() function. See also the Sleep() function.
Virtual is an Apache-specific function which is equivalent to <!--#include virtual...--> in mod_include. It performs an Apache sub-request. It is useful for including CGI scripts or .shtml files, or anything else that you would parse through Apache (for .phtml files, you'd probably want to use <?Include>.
Before you start hacking away at the internals of PHP/FI you need to grab a copy of the latest version of Bison. Bison is GNU's implementation of YACC (Yet Another Compiler Compiler). The YACC that came with your operating system may or may not be good enough, but just to make sure, go grab Bison. You can find it at ftp://prep.ai.mit.edu/pub/gnu.
You should also have a look at the Makefile and turn on debugging. Simply uncomment the DEBUG line in the Makefile. The output file of debug information is specified by DEBUG_FILE in php.h. It is by default set to /tmp/php.err. You can change this to suit your needs.
A final thing you might want to keep in mind is that php runs as the same user id as httpd on your system, unless of course you are running it with the setuid bit set, and this httpd user does not generally have write access to the various directories. This means that if you do something that causes php to core dump, you will not get a core file. The easy way around this is to make the directory where you keep your test .html files writable to all. PHP changes its current directory to the directory of the .html file it is reading and will thus dump its core there if it can.
In the following steps we will use the Time() function to illustrate how to add a function.
If your function takes 0 to 6 arguments, there are predefined grammars available. You can skip this step.
The grammar of your function is defined in the parse.raw file. The first thing to add is a token. A token is an upper case keyword which is usually the same as your function name. All the tokens are defined near the top of the parse.raw file. The order doesn't matter. Then you need to build your actual YACC grammar rule. Look at the existing rules and find a function that is similar to the one you are adding. Keep in mind that most normal functions are standard functions that read their arguments from the expression stack. Your function will most likely fall into this group in which case you won't need to touch the parse.raw file.
To do this, edit lex.c and find the hash table near the top of the file. Look for the line, static cmd_table_t cmd_table[22][30] = {, which defines the beginning of the hash table. The [22][30] defines the size of the 2 dimensional array which holds the hash table. The 22 is one greater than the maximum function name length and the 30 refers to the maximum number of functions in any one hash list. If you exceed either of these limits, simply increase them right here.
This hash table would probably rate as the absolute simplest hash table in the entire world. The hash value is the length of the string of the function name to be hashed. So, for our Time() example, we need to add an entry for hash value 4. Therefore we add the following line to the hash list for 4:
{ "time",INTFUNC0,UnixTime },
This entry maps a string to the INTFUNC0 token. You can look up the grammar for the INTFUNC0 token in parse.raw and you will see that it is a generic grammar for an internal function call with 0 arguments. The string, in quotes above, is the actual string that you will be using in the .html files to call your function. Keep in mind that PHP/FI function names are not case sensitive. And the final UnixTime element is the actual function to be called.
You can actually write your function in any language you like, as long as it is callable through the normal C function call convention and you have a way of creating either an object file or a library file compatible with the linker on your system. In general, we will assume that you are writing your function in C. All the functions that come with PHP/FI have been written in C. The Time() function, or UnixTime() as it is called internally in PHP can be found in date.c and looks like this:
void UnixTime(void) { char temp[32]; sprintf(temp,"%ld",(long)time(NULL)); Push(temp,LNUMBER); }
Note that the function is void. This indicates that it doesn't return anything. This may seem confusing to you because obviously the function needs to somehow return the time. The time is returned, but not as the return value of the function. It is pushed onto what is called an expression stack. The expression stack is simply a stack of strings and an associated type. PHP/FI understands only 3 basic variable types: STRING, LNUMBER and DNUMBER. STRING is a character string, LNUMBER is a long integer and DNUMBER is a double, or floating point, value. In this Time() example, the value to be returned is the time expressed in Unix format (number of seconds since Jan.1 1970) and is thus an integer. The expression stack only accepts strings, so we sprintf the long integer into a string and push it onto the stack indicating that it is actually a long integer with the line: Push(temp,LNUMBER);
In the bottom half of the php.h file you will find a complete list of prototypes of all the functions in php. They are grouped by the files in which they appear. Simply add your prototype to an appropriate place in this file. For our Time() example the following line is added:
void UnixTime(void);
You have to remember to re-make the parser whenever you make a change to the parse.raw file. Type: make parser to do this. You must have at least version 1.25 of Bison in order to make the PHP parser. Then do a normal compile by typing: make once that is done.
If you would like your functions added to the next release of PHP/FI, send them to me. The best way is probably to make a context-sensitive diff. To do that, you need a copy of a clean unmodified distribution. Simply do a, diff -c on the files you have changed comparing them to the original files. Please don't send me a diff of the changes in parse.c since that file is automatically generated. Send me the diff from parse.raw instead.
The Time() example illustrated the steps involved in adding a function. Chances are that the function you wish to add is quite a bit more complex than this example. You will probably want to be able to pass arguments to your function and have it manipulate these arguments in some manner. You may even want to have it callable in different ways. These concepts will be illustrated by the PHP/FI crypt() function. See also the section entitled Notes for Code Hacks for some more technical details about writing code for PHP/FI.
The Crypt() Grammar in parse.raw:
%token CRYPT . . . | CRYPT '(' expr ',' expr ')' { if(GetCurrentState(NULL) || inCase || inElseIf) Crypt(1); } | CRYPT '(' expr ')' { if(GetCurrentState(NULL) || inCase || inElseIf) Crypt(0); }
Here it is shown how to define a grammar which lets you call a function with either 1 or 2 arguments. You could write different functions to handle the two cases, or simply send a mode parameter as is done here to indicate the mode in which the function is called. Note that in this case you cannot use one of the pre-defined INTFUNCn grammars since your function can take a variable number of arguments.
The other aspect that is shown is how to actually represent function arguments. In most cases you will want to use the expr identifier. This identifier means that the argument is an expression. An expression can be a literal value, a function call or a combination of many expressions. See parse.raw for the complete yacc grammar definition for expressions for more details.
The Hash Table entry in lex.c:
{ "crypt",CRYPT,NULL },
Notice that the last item is a NULL in this case since the function call is handled in parse.raw directly. If you used an INTFUNCn grammar, then you would put the name of your function in place of this NULL. The actual Crypt() function in crypt.c:
/* * If mode is non-zero, a salt is expected. * If mode is zero, a pseudo-random salt will be selected. */ void Crypt(int mode) { #if HAVE_CRYPT Stack *s; char salt[8]; char *enc; salt[0] = '\0'; if(mode) { s = Pop(); if(!s) { Error("Stack error in crypt"); return; } if(s->strval) strncpy(salt,s->strval,2); } s = Pop(); if(!s) { Error("Stack error in crypt"); return; } if(!salt[0]) { salt[0] = 'A' + (time(NULL) % 26); salt[1] = 'a' + (time(NULL) % 26); salt[2] = '\0'; } enc = (char *)crypt(s->strval,salt); #if DEBUG Debug("Crypt returned [%s]\n",enc); #endif Push(enc,STRING); #else Error("No crypt support compiled into this version"); #endif }
The most important aspect of this function is the s = Pop() call. The arguments to the function must be popped off the expression stack one by one. When you write a function which takes multiple arguments, remember that a stack is a LAST-IN, FIRST-OUT data structure. This means that you will be popping your arguments off the stack in reverse order. The last argument is popped off first. In the above example we check to see if we are in the 2 argument mode. If we are, we pop the argument off the stack and save it. Then we pop the next argument off the stack. Pop() returns a pointer to a Stack structure (s). The Stack structure looks like this (from php.h):
/* Expression Stack */ typedef struct Stack { short type; unsigned char *strval; long intval; double douval; VarTree *var; struct Stack *next; } Stack;
The type will generally be one of STRING, LNUMBER or DNUMBER. The strval, intval, and douval components are the string, integer and double representations of the value respectively. If the expression is actually a defined variable, the var component contains a pointer to the variable structure which defines this variable.
In our Crypt() function we are only interested in the string value of the argument, so we use s->strval. Many PHP/FI functions can do different things depending on the type of the variable simply by checking s->type and using s->strval, s->intval and/or s->douval appropriately.
After calling the real crypt() function and getting the encrypted string, our Crypt() function calls Push(enc,STRING); to push the return value onto the expression stack. It should be noted that the expression stack is cleared after each PHP/FI line, so if you push expressions onto this stack that are never popped by anything, it won't matter.
The Debug() call in the Crypt() example shows how to add debugging output to your function. Debug() is a varags (variable argument list) function just like printf.
Memory management within PHP/FI is a tricky thing. Since we can run as a server module, we have to be very careful about memory resources. Not only do we need to be reentrant, but we also need to be handle the fact that we can receive a timeout signal at any time at which point we drop out of the module. We get no warning, and we get no time to free any memory that we may have allocated. And this memory has to be freed, or the data space of the httpd process we are linked to could grow indefinitely. This also applies when PHP is running in CGI mode since it can be set up to run as a FastCGI persistent process.
The solution is to use sub-pools of memory. These pools are automatically cleared by Apache when a session is terminated, or in the case of a FastCGI persistent process, these pools are cleared in main.c every time the FastCGI wrapper loop executes. Three such pools are used at the moment. They are numbered 0,1 and 2. The sub-pool number is the first argument to the emalloc and estrdup functions.
The use of sub-pools completely eliminates the need to explicitly free memory anywhere in the code, with the one exception being memory allocated using a regular malloc call by various libraries that could be linked into PHP. The gdbm library is one such example.