# Scriptform Manual This is the manual for version %%VERSION%%. ## Table of Contents 1. [Introduction](#intro) - [Terminology](#intro_terminology) 1. [Installation](#inst) - [Debian / Ubuntu](#inst_debian) - [Redhat / Centos](#inst_redhat) - [Other](#inst_other) 1. [Invocations](#invocations) - [Shell foreground](#invocations_foreground) - [Daemon](#invocations_daemon) - [Init script](#invocations_init) * [Debian / Ubuntu](#invocations_init_debian) * [RedHat / Centos](#invocations_init_redhat) - [Behind Apache](#invocations_apache) 1. [Tutorial](#tutorial) - [Your first form](#tutorial_firstform) - [Output types](#tutorial_output) - [Fields](#tutorial_fields) - [Uploads](#tutorial_uploads) - [Validation](#tutorial_validation) - [Further reading](#tutorial_further) 1. [Form config (JSON) files](#form_config) 1. [Field types](#field_types) - [String](#field_types_string) - [Integer](#field_types_integer) - [Float](#field_types_float) - [Date](#field_types_date) - [Radio](#field_types_radio) - [Checkbox](#field_types_checkbox) - [Select](#field_types_select) - [Text](#field_types_text) - [Password](#field_types_password) - [File](#field_types_file) 1. [Output](#output) - [Output types](#output_types) - [Exit codes](#output_exitcodes) - [Serving static files](#output_static_files) 1. [Script execution](#script_execution) - [Validation](#script_validation) - [Field Values](#script_fieldvalues) - [Execution security policy](#script_runas) 1. [Users](#users) - [Passwords](#users_passwords) - [Form limiting](#users_formlimit) - [Security considerations](#users_security) 1. [Form customization](#cust) - [Custom CSS](#cust_css) 1. [Security](#security) ## Introduction Scriptform is a stand-alone webserver that automatically generates forms from JSON to serve as frontends to scripts. ScriptForm takes a JSON file which contains form definitions. It then constructs web forms from this JSON and serves these to users over HTTP. The user can select a form and fill it out. When the user submits the form, it is validated and the associated script is called. Data entered in the form is passed to the script through the environment. ## Installation and configuration ### Requirements ScriptForm requires: * Python 2.6+ No other libraries are required. Python v2.6+ is generally available by default on almost every major linux distribution. For other platforms Python is almost certainly available. ### Debian / Ubuntu Download the .deb package from: https://github.com/fboender/scriptform/releases Either double-click the package in a file browser or open up a terminal and type: $ cd Downloads/ $ sudo dpkg -i scriptform-*.deb Scriptform is now installed. For the next steps, see: * The tutorial on how to write form configuration files. * Invocations for how to run Scriptform and how to start it at boot time ### RedHat / Centos Download the .rpm package from: https://github.com/fboender/scriptform/releases Open up a terminal and type: $ cd Downloads/ $ sudo rpm -i scriptform-*.rpm Scriptform is now installed. For the next steps, see: * The tutorial on how to write form configuration files. * Invocations for how to run Scriptform and how to start it at boot time ### Other Unix-like Operating Systems Install Python v2.6+. Download the .tar.gz package from: https://github.com/fboender/scriptform/releases Open up a terminal and type: $ cd Downloads/ $ tar -vxzf scriptform-*.tar.gz $ cd scriptform-X.Y $ sudo make install Scriptform is now installed. For the next steps, see: * The tutorial on how to write form configuration files. * Invocations for how to run Scriptform and how to start it at boot time ### Terminology Scriptform uses various terminology to distinguish between different components of the application. * **Form configuration**: The form configuration is the JSON file you write that describes your forms. A single JSON file contains some global properties (such as the title), the forms you want to define and their fields. * **Form definition**: A form definition describes a single form. Multiple form definitions can be given in a single form configuration. They are defined in the "forms" property of the form configuration. This "forms" property is a list of dictionaries. * **Form field**: Form definitions can contain one of more form fields. These are the fields in which users can enter information. Scriptform supports a variety of different field types, such as 'string', 'integer', 'date', etc. ## Invocations Upon starting Scriptform, it will change the working directory to the path containing the form definition you've specified. It will read the form definition and perform some basic sanity checks to see if, for instance, the scripts you specified exist and are executable. There are multiple ways of running ScriptForm. This chapter outlines the various methods. They are listed in the order of least to most production ready. ### Shell foreground Sriptform can be run directly from the shell in the foreground with the `-f` (`--foreground`) option. This is most useful for testing and development: $ /usr/bin/scriptform -p8000 -f ./formdef.json You can specify the `-r` option to automatically reload the JSON file upon each request: $ /usr/bin/scriptform -p8000 -r -f ./formdef.json ### Daemon If you do not specify the `-f` option, Scriptform will go into the background: $ /usr/bin/scriptform -p8000 ./formdef.json $ A pid file will be written in the current directory, or to the file specified by `--pid-file`. A log file will be written a .log file in the current directory, or to the file specified by the `--log-file` option. To stop the daemon, invoke the command with the `--stop` option. You must specify at least the `--pid-file` option, if the daemon was started with one. $ /usr/bin/scriptform --pid-file /var/run/scriptform.pid --stop ### Init script #### Debian / Ubuntu An example init script is provided in the *contrib* directory. For the Debian package, you can find it in `/usr/share/doc/scriptform/`. To install it on Debian-derived systems: sudo cp /usr/share/doc/scriptform/scriptform.init.d_debian /etc/init.d/scriptform sudo chmod 755 /etc/init.d/scriptform sudo update-rc.d scriptform defaults Then, edit the init script and set the FORM_CONFIG variable. sudo vi /etc/init.d/scriptform FORM_CONFIG="/usr/local/scriptform/myscript/myscript.json Finally, start it: sudo /etc/init.d/scriptform start #### RedHat / CentOs Install the init script: sudo cp /usr/share/doc/scriptform/scriptform.init.d_redhat /etc/init.d/scriptform sudo chmod 755 /etc/init.d/scriptform Then, edit the init script so it points to your form configuration file: sudo vi /etc/init.d/scriptform FORM_CONFIG="/usr/local/scriptform/myscript/myscript.json Finally, enable the init script to run at boot time: sudo chkconfig --add scriptform sudo chkconfig scriptform on Now we can start it: sudo /etc/init.d/scriptform start Starting scriptform: ### Behind Apache Scriptform does not support HTTPS / SSL, so for production environments you might want to run it behind an Apache server that has SSL enabled. To do so, you start Scriptform as a daemon and then forward requests to it from Apache: $ sudo /etc/init.d/scriptform start Enable Apache modules mod_proxy and mod_proxy_http: $ sudo a2enmod proxy $ sudo a2enmod proxy_http Configure: Redirect permanent /scriptform /scriptform/ ProxyPass /scriptform/ http://localhost:8000/ ProxyPassReverse /scriptform/ http://localhost:8000/ Make sure the path ends in a slash! (That's what the redirect is for). Otherwise, you may encounter the following error: + TypeError: index() got an unexpected keyword argument 'form_name' ## Tutorial ### Your first form This tutorial assumes you've already installed Scriptform on your system. Let's start off by creating a new form configuration file. Create a directory: $ mkdir sf_tutorial $ cd sf_tutorial Edit a new file called `sf_tutorial.json` in your favorite editor and put the following in: { "title": "Tutorial", "forms": [ { "name": "System information", "title": "System information", "description": "Show information about the operating system", "script": "job_sysinfo.sh", "fields": [] } ] } This is a form configuration with a single form definition "System information". The form has no fields; we'll get to that later. First, let's implement the `job_sysinfo.sh` script so we can perform a form callback. Edit a new file in the same directory called `job_sysinfo.sh`: #!/bin/sh HOSTNAME=$(hostname -f) MEM=$(free -h) DISK=$(df -h) cat << END_OF_TEXT Hostname ======== $HOSTNAME Memory ====== $MEM Disk ==== $DISK END_OF_TEXT Fix the permisions so it is executable: $ chmod 755 ./job_sysinfo.sh Now start Scriptform with our newly created form configuration file: $ scriptform -p8000 -f -r ./sf_tutorial.json This starts the built-in webserver which will serve the form on port 8000. When you open it in your browser (http://127.0.0.1:8000/) you will immediately see the form. If we had multiple forms in this form configuration, you would first see a list of all the forms. The `-p` option controls the port on which Scriptform will listen. Normally, Scriptform would go into the background and run as a daemon. We can surpress this with the `-f` (foreground) switch, which makes it easier to stop Scriptform by pressing Ctrl-c. The `-r` option tells Scriptform to reload the form configuration file on each request. This makes development much easier, since you won't have to stop and restart Scriptform whenever you make a change. ### Output types The output of our first form isn't exactly good-looking. We can change that by changing the output type of our form. There are three types: escaped, html and raw. Let's change our output to HTML. Open the `sf_tutorial.json` file and add an `output` property to the form: ... "script": "job_sysinfo.sh", "output": "html", "fields": [] ... Now modify the `job_sysinfo.sh` script to output HTML instead of plain text: cat << END_OF_TEXT

Hostname

$HOSTNAME

Memory

$MEM

Disk

$DISK
END_OF_TEXT Open http://127.0.0.1:8000 in your browser and submit the form. That looks a little better, doesn't it? The `html` output type lets you embed HTML in the output of the script. The default output type is `escaped`, which escaped any HTML and just outputs plain text wrapped in a Scriptform response header and footer. The last output type is `raw`, in which case Scriptform will send the *exact* output of your script directly to the browser. This means your script should not just output a result, but also the required HTTP headers to properly display it. This lets your send binary files (images, downloads, etc) to the browser. Read more about output types in the '[Output types](#output_types)' section. ### Fields As you've seen, we've kept the `fields` option empty in the previous examples. The `fields` option lets us specify input fields that will appear in the form. Every field has at least a `name`, `title` and `type`. Many fields support additional options for validation, etc. There are fields available for many types: strings, numbers, dates, dropdown boxes, file uploads, etc. For a full list see the [Field types](#field_types) section of the user manual. The simplest is the `string` field. This field type simply lets the user enter a value. Put the following in the `sf_tutorial.json` file, replacing the original content (or create a new json file): { "title": "Tutorial step 3", "forms": [ { "name": "hello_world", "title": "Hello, world!", "description": "Greetings", "script": "job_helloworld.sh", "fields": [ { "name": "name", "title": "Name", "type": "string" } ] } ] } Create the `job_helloworld.sh` script: #!/bin/sh if [ -z "$name" ]; then name="world" fi echo "Hello, $name!" Make it executable: $ chmod 755 job_helloworld.sh And start Scriptform (not required if it's still running and you're using the same .json file): $ scriptform -p8000 -f -r ./sf_tutorial.json Point your browser to http://127.0.0.01:8000. Try submitting the form with and without entering a name. As you can see, Scriptform makes form values available to scripts through the environment. This makes it easy to implement scripts in any language you'd like. For example, this is what a script implemented in Python would look like: #!/usr/bin/env python import os name = os.environ['name'] if not name: name = "world" print "Hello, {0}!".format(name) ### Upload Let's extend our form with a file upload. Modify `sf_tutorial.json` and add an upload field: ... { "name": "upload", "title": "Upload a file", "type": "file" } ... We'll also change it to run a different script: ... "script": "job_upload.py", ... The entire file now looks like this: { "title": "Tutorial step 4: Uploads", "forms": [ { "name": "hello_world", "title": "Hello, world!", "description": "Greetings", "script": "job_upload.sh", "fields": [ { "name": "name", "title": "Name", "type": "string" }, { "name": "upload", "title": "Upload a file", "type": "file" } ] } ] } We'll make the script output the size of the file in bytes. `job_upload.sh`: #!/bin/sh if [ -z "$name" ]; then name="stranger" fi echo "Hello, $name!" if [ -z "$upload" ]; then echo "Looks like you didn't upload a file!" else FILE_SIZE=$(wc -c $upload | cut -d " " -f1) echo "The size in bytes of $upload__name is $FILE_SIZE" fi When we submit the form with a file uploaded, the results look like this: Hello, stranger! The size in bytes of README.md is 146 Scriptform will stream the uploaded file to a temporary file (usually something like `/tmp/scriptform_e4CAXk`) and put the received file name in the `XXXX__name` variable. Temporary files are automatically removed when the script is done running, so if you want to keep it around, you should move it do a different directory. ### Validation Scriptform offers a simple way to validate form values before executing scripts. This saves you the trouble of having to do all the validation in your script. Validation is achieved by speciying additional field definition parameters. Let's modify the previous upload example and add some validation to it. We'll make the `name` field have a minimum and maximum length: { "name": "name", "title": "Name", "type": "string", "minlen": 2, "maxlen": 10 }, We'll change the `upload` field so it's required and you're only allowed to upload '.txt' files: { "name": "upload", "title": "Upload a file", "type": "file", "required": true, "extensions": ["txt"] } Try the validation out by submitting the form with some right and wrong values and by uploading no file or a file with a wrong extension. You'll see that Scriptform validates the submitted form before the script is executed. If any validations fail, the form is shown again. More details on validation and other additional options that can be supplied to field definitions can be found in the '[Field types](#field_types)' chapter. ### Further reading This concludes the tutorial for Scriptform, although it has a lot more to offer. Some suggestions on further reading materials: * [Full user manual](#manual): Everything you need to know. * [Script execution](#script_execution): Details on how scripts are executed. * [Users](#users): Scriptform can do user management. * [Form customization](#cust): Learn how to customize your forms. * Check the `examples` directory for many interesting examples on how to use Scriptform. And finally, **please read** the [Security](#security) section for important information regarding Scriptform's security. ## Form config (JSON) files Forms are defined in JSON format. They are referred to as *Form config* files. A single JSON file may contain multiple forms. Scriptform will show them on an overview page, and the user can select which form they want to fill out. Structurally, they are made up of the following elements: - **`title`**: Text to show at the top of each page. **Required**, **String**. - **`static_dir`**: Path to a directory from which static files should be served. See also "[Serving static files](#output_static_files)". **Optional**, **String**. - **`custom_css`**: Path to a file containing custom CSS. It will be included in every page's header. See also "[Form customization](#cust)". **Optional**, **String**. - **`forms`**: A list of dictionaries of form definitions. **Required**, **List of dictionaries**. - **`name`**: Name for the form. This must be unique. It is used internally by Scriptform to refer to forms. **Required**, **String**, **Unique**. - **`title`**: Title for the form. This is shown in the list of available forms and on the form page itself as the title for the form and as the caption for the button which takes you to the form. **Required**, **String**. - **`description`**: A description of the form. May include HTML tags. This is shown in the list of available forms and on the form page itself. **Required**, **String**. - **`script`**: The path to an executable script of binary that will be called if the form is submitted. See also [Callbacks](#callbacks). When Scriptform starts, it switches to the directory containing the form definition. You should place your scripts there or otherwise specify full paths to the scripts. **Required**, **String**. - **`submit_title`**: The text on the submit button of the form. **Optional**, **String**, **Default:** `Submit`. - **`output`**: Determines how the output of the callback is handled. See the [Output](#output) section. The default value is '`escaped`'. **Optional**, **String**, **Default:** `escaped`. - **`allowed_users`**: A list of users that are allowed to view and submit this form. **Optional**, **List of strings**. - **`hidden`**: If 'true', don't show the form in the list. You can still view it, if you know its name. This is useful for other forms to redirect to this forms and such. - **`run_as`**: Change to this user (and its groups) before running the script. Only works if Scriptform is running as `root`. See also [Execution security policy](#script_runas) **Optional**, **String**, **Default:** `nobody`. - **`fields`**: List of fields in the form. Each field is a dictionary. **Required**, **List of dictionaries**. - **`name`**: The name of the field. This is what is passed as an environment variable to the callback. **Required**, **String**. - **`title`**: The title for the field, shown just above the actual field. **Required**, **String**. - **`type`**: Field type. Supported types are: *string*, *integer*, *float*, *date*, *radio*, *checkbox*, *select*, *text*, *password* and *file*. For more information, see [Field types](#field_types). - **`required`**: Whether the field is required. **Optional**, **Boolean**, **Default:** `false`. - **`hidden`**: If 'true', the input field is hidden. This is useful for pre-filled forms which takes it values from the GET request. **Optional**, **boolean**, **Default:** `false`. - **`style`**: A string of inline CSS which will be applied to the field. **Optional**, **String**. - **`classes`**: A string of optional CSS classes to add to this field. **Optional**, **String**. - **`...`**: Other options, which depend on the type of field. For more information, see [Field types](#field_types). **Optional**. - **`users`**: A dictionary of users where the key is the username and the value is the plain text password. This field is not required. **Dictionary**. For example, here's a form config file that contains two forms: { "title": "Test server", "forms": [ "name": "import", "title": "Import data", "description": "Import SQL into a database", "submit_title": "Import", "script": "job_import.sh", "fields": [ { "name": "target_db", "title": "Database to import to", "type": "select", "options": [ ["devtest", "Dev Test db"], ["prodtest", "Prod Test db"] ] }, { "name": "sql_file", "title": "SQL file", "type": "file" } ] }, { "name": "add_user", "title": "Add user", "description": "Add a user to the htaccess file or change their password", "submit_title": "Add user", "script": "job_add_user.sh", "fields": [ { "name": "username", "title": "Username", "type": "string", "required": true }, { "name": "password1", "title": "Password", "type": "password", "required": true }, { "name": "password2", "title": "Password (Repear)", "type": "password", "required": true } ] } ] } Many more examples can be found in the `examples` directory in the source code. ## Field types Scriptform supports multiple field types. Field types determine what users may enter in the field, how they are validated and how they are passed to callback scripts. ### String The `string` field type presents the user with a single line input field. The `string` field type supports the following additional options: - **`minlen`**: The minimum allowed length for the field. - **`maxlen`**: The maximum allowed length for the field. - **`size`**: The size (in characters) of the input field. For example: ... "fields": [ { "name": "my_string", "title": "My string", "type": "string", "minlen": 12, "maxlen": 30, "size": 30 } ] ... ### Integer The `integer` field type presents the user with an input box in which they may enter an integer number. Depending on the browser's support for HTML5 forms, the input field may have spin-buttons to increase and decrease the value. The `integer` field type supports the following additional options: - **`min`**: The minimum allowed value for the field. - **`max`**: The maximum allowed value for the field. For example: ... "fields": [ { "name": "uid", "title": "UID", "type": "integer", "min": 1000, "max": 2000 } ] ... ### Float The `float` field type presents the user with an input box in which they enter a Real number (fractions). The `float` field type supports the following additional options: - **`min`**: The minimum allowed value for the field. - **`max`**: The maximum allowed value for the field. For example: ... "fields": [ { "name": "ammount", "title": "Ammount", "type": "float", "min": 10.0, "max": 2000.0 } ] ... Please note that some real numbers cannot be represented exactly by a computer and validation may thus be approximate. E.g. 0.500000000001 might pass the test for a maximum value of 0.5. Whether it does depends on the value given, the platform, your browser, and many other factors. ### Date The `date` field type presents the user with an input box in which they can enter a date. Depending on the browser's support for HTML5 forms, the input field may have a pop-out calendar from which the user can select a date. The date must be entered, and will be passed to the callback, in the form YYYY-MM-DD. The `date` field type supports the following additional options: - **`min`**: The minimum allowed date (format: a string YYYY-MM-DD) - **`max`**: The maximum allowed date (format: a string YYYY-MM-DD) For example: ... "fields": [ { "name": "birthdate", "title": "Birthdate", "type": "date", "min": "1900-01-01", "max": "2015-01-01", } ] ... ### Radio The `radio` field type lets the user pick one option from a list of options. The `radio` field type supports the following additional options: - **`options`**: The options available to the user. (list of lists, **required**) For example: ... "fields": [ { "name": "network", "title": "To which network", "type": "radio", "options": [ ["intra", "Whole intranet"], ["machine", "Acceptance machine"] ] } ] ... ### Checkbox The `checkbox` field type represents the user with a toggleble checkbox that can be either 'on' or 'off'. If the checkbox was checked, the value '`on`' is passed to the script. Otherwise, '`off`' is passed. Unlike HTML forms, which send no value to the server if the checkbox was not checked, Scriptform always sends either 'on' or 'off'. The `checkbox` field type supports the following additional options: - **`checked`**: Whether the checkbox should be checked by default (boolean) For example: ... "fields": [ { "name": "receive_newsletter", "title": "Do you want to receive our newsletter?", "type": "checkbox", "checked": true } ] ... ### Select The `select` field presents the user with a dropdown list from which they can pick a value. The `select` field type supports the following additional options: - **`options`**: A list of available options from which the user can choose. Each item in the list is itself a list of two values: the value and the title. For example ... "fields": [ { "name": "source_sql", "title": "Load which kind of database?", "type": "select", "options": [ ["empty", "Empty database"], ["dev", "Development test database"], ["ua", "Acceptance database"] ] } ] ... ### Text The `text` field presents the user with a field in which they can enter multi-lined text. The `text` field type supports the following additional options: - **`rows`**: The number of rows to make the input field - **`cols`**: The number of cols to make the input filed. - **`minlen`**: The minimum allowed length for the field. - **`maxlen`**: The maximum allowed length for the field. For example: ... "fields": [ { "name": "complaint", "title": "Please write down your complaint", "type": "text", "rows": 6, "cols": 60, "minlen": 1, "maxlen": 5 } ] ... ### Password - **`minlen`**: The minimum allowed length for the field. ### File The `file` field type presents the user with a field through which they can upload a file. Uploaded files are streamed to temporary files by Scriptform, after which the original field value is replaced with this temporary file name. This allows users to upload large files. The original file name of the uploaded file is stored in a new variable '<field_name>__name'. The `file` field type supports the following additional options: - **`extensions`**: A list of extensions (minus leading dot) that are accepted for file uploads. For example: `"extensions": ["csv", "tsv"]` No additional validation is done on the file contents. For example: ... "fields": [ { "name": "new_users", "title": "CSV file of new users", "type": "file", "extensions": ["csv"] } ] ... ## Output **All output is assumed to be UTF8, regardless of system encoding!** ### Output types Scriptform uses the output of the script (stdout, stderr) to display something back to the user executing the script. Scripts can have a few different output types. The output type is specified in the **`output`** field of the form definition. For example, the following form definition has a `raw` output type.: { "name": "display_image", "title": "Show an image", "description": "Show an image", "script: "job_display_image.sh", "output": "raw", "fields": [] } The following output types are supported: - **`escaped`**: the output of the callback will have its HTML entities escaped and will be wrapped in PRE elements. This is the **default** option. - **`html`**: If the value is `html`, the output will not be escaped or wrapped in PRE tags, and can thus include HTML markup. - **`raw`**: The output of the script is streamed directly to the client's browser. This allows you to output images, binary files, etc to the client. The script must include the proper headers and body itself. Examples of raw script output can be found in the `examples/raw` directory. ### Exit codes If the script's exit code is 0, the output of the script (stdout) is captured and shown to the user in the browser. If a script's exit code is not 0, it is assumed an error occured. Scriptform will show the script's stderr output (in red) to the user instead of stdin. ### Serving static files Scriptform can serve static files. It is disabled by default. To enable it, provide a `static_dir` option in the top section of the form configuration: { "title": "Static serve", "static_dir": "static", "forms": [ ... This tells Scriptform to serve static files from that location. To refer to a static file, use the `/static` URL: https://example.com/static?fname=foobar.png Will refer to the `static/foobar.png` file. If `static_dir` is a relative path, it will be relative to the form configuration (.json) file you're running. Scriptform does not provide the browser with a content-type of the file, since it is impossible to guess. Generally, browsers do a decent job at figuring it out themselves. ## Script execution When the user submits the form, Scriptform will validate the provided values. If they check out, the specified script for the form will be executed. A script can be any kind of executable, written in any kind of language, including scripting languages. As long as it is executable, can read the environment and output things to stdout it is usable. Scripts written in scripting languages should include the shebang line that indicates which interpreter it should use: #!/usr/bin/php ### Validation Fields of the form are validated by the Scriptform backend before the script is called. If you have a HTML5 capable browser, the form will also be validated in the browser before you submit it. Exactly what is validated depends on the options specified in the Form Definition. For more info on that, see the *Field Types* section of this manual. Form validation is somewhat limited. For example, you can force a string's minimum and maximum length, but you cannot do more advanced validation such as checking if it starts with a certain value. If you wish to do that, you will have to do the validation in the script callback for a form. ### Field values Field values are passed to the script in its environment. For instance, a form field definition: { "name": "ip_address", "title": "IP Address", "type": "string" } becomes available in a shell script as: echo $ip_address or in a Python script as: import os print os.environ['ip_address'] Uploaded files are streamed to temporary files by Scriptform. The name of the temporary file is then passed on as the field's value. For example, given the following field definition: { "name": "csv_file", "title": "CSV file to import", "type": "file" } The contents of the file is available in a shell script as: echo $csv_file # output: /tmp/tmp_scriptform_Xu72bK ROWS=$(wc -l $csv_file) echo "The CSV file has $(expr $ROWS - 1) rows" These temporary files are automatically cleaned up after the script's execution ends. Examples of file uploads can be found in the `examples/simple` and `examples/megacorp` directories. ### Execution security policy Running arbitrary scripts from Scriptform poses somewhat of a security risk. Scriptform tries to mitigate this risk by running scripts as a different user in some cases: * If Scriptform itelf is running as root: - By default, scripts will be run as user 'nobody'. - If a form specifies as `run_as` field, scripts will be executed as that user. * If Scriptform itself is running as a non-root user, scripts will be executed as that user. ## Users ScriptForm supports basic htauth user authentication. Users can be defined, and form access can be limited to certain users. Users are defined in the `users` top-level field of the form configuration file. For example, in the following form configuration file, there are two users. Only user `test2` is allowed to view the form 'only_some_users'. { "title": "Authorization protected", "users": { "test": "2bb80d537b1da3e38bd30361aa855686bde0eacd7162fef6a25fe97bf527a25b", "test2": "5e884898da28047151d0e56f8dc6292773603d0d6aabbdd62a11ef721d1542d8" }, "forms": [ "name": "only_some_users", "title": "Only some users", "description": "You should only see this if you're user 'test2'", "submit_title": "Do nothing", "script": "job_do_nothing.sh", "allowed_users": ["test2"], "fields": [] } ] } ### Passwords Passwords are unsalted SHA256 hashed passwords. To generate one, you can use the `--generate-pw` option of Scriptform. This will ask you twice for a plaintext password and return the hash that can be used in the `users` element. $ ./scriptform.py --generate-pw Password: Repeat password: ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad ### Form limiting You may specify a `allowed_users` field in a form definition. Only user names listed in the field are allowed to see and submit that form. If the user is not listed, they won't even see the form as being available. For an example, see the [beginning of this chapter](#users). ### Security considerations - Passwords have no salt. This makes them slightly easier to brute-force en-mass. - Scriptform does not natively support secure HTTPS connections. This means usernames and passwords are transmitted over the line in nearly plain text. If you wish to prevent this, you should put Scriptform behind a proxy that *does* support HTTPS, such as Apache. For more information on that, see the "Invocations" chapter. ## Form customization ### Custom CSS You can customize a form input field's style using the **`style`** property of the field definition in the form configuration. It takes a string that will be put in the generated form's `style=""` HTML attribute. For example: "fields": [ { "name": "background", "title": "Different background color", "type": "string", "style": "background-color: #C0FFC0;" } ] The example above will render as: You can also include a global piece of CSS by specifying the **`custom_css`** property in the form definition. For example: { "title": "Customized forms", "custom_css": "custom.css", "forms": [ ... `custom.css` is the path to a file which will be included in the rendered HTML page in the `