Go to file
Ian12467 44d514a4da code:codebase in python programming 2023-02-26 23:03:11 +03:00
README.md fix: generate all the steps used in the project 2023-02-26 22:50:22 +03:00
main.hs code:this is the codebase in haskell programming 2023-02-26 23:00:55 +03:00
main12.py code:codebase in python programming 2023-02-26 23:03:11 +03:00

README.md

CALDAV


DESCRIPTION


This is a self hosted tool that takes multiple url subscriptions and split out a url that points to a merged feed to them, updated regularly. Ideally , it would also allow filtering the events and add name prefixes to the event titles.

A general outline of the steps to take to create the tool


Create and update an event in next cloud calender with API CALDAV and http node.

Step1: Use vdirsyncer to synchronize the calendar feeds and merge them into one.


You will need to first install vdirsyncer on your system

  • Run:
pip install vdirsyncer

create a storage file


create a configuration file that tells vdirsyncer which calendar feeds to synchronize and where to store the merged calendar. * The configuration file is typically called config.ini and is stored in the ~/.vdirsyncer directory Here's an example configuration file that synchronizes two calendar feeds and stores the merged calendar in a file called merged.ics:

[general config]
status_path = "~/.vdirsyncer/status/"

[pair mycalendars]
a = "calendar1"
b = "calendar2"
collections = ["from a", "from b"]
metadata = ["color"]
target = "merged.ics"

The [pair mycalendars] section tells vdirsyncer to synchronize two calendars, calendar1 and calendar2, and merge them into a single calendar called merged.ics. The collections option tells vdirsyncer to include events from both calendars in the merged calendar. The metadata option tells vdirsyncer to preserve certain metadata, such as the color of events.

You will also need to configure the storage backends for each calendar. In the example above, calendar1 and calendar2` are the names of the storage backends. Here is an example of how to configure a CalDAV backend:

[storage calendar1]
type = "caldav"
url = "https://example.com/calendar1"
username = "user"
password = "pass"

With this configuration, vdirsyncer will connect to the specified CalDAV server using the provided credentials and synchronize the calendar.

Once you have created the configuration file, you can use the following command to synchronize the calendars and merge them into one:

vdirsyncer sync

This will read your configuration file, connect to the specified calendars, and merge the events into a single file called merged.ics.

Please be aware that you will need to keep this command running periodically (e.g. by using a cron job) to ensure that the merged calendar stays up-to-date.

Step 2: Use icalendar to parse the merged iCalendar file and access the events

Once you have used vdirsyncer to merge your calendar feeds into a single iCalendar file, you can use the icalendar library to parse the file and access the events.

Here's an example of how you can use icalendar to parse the merged.ics file and print the summary (i.e. the title) of each event:

from icalendar import Calendar

with open('merged.ics', 'rb') as f:
    ics_file = f.read()

calendar = Calendar.from_ical(ics_file)
for component in calendar.walk():
    if component.name == "VEVENT":
        print(component.get('summary'))

This code opens the merged.ics file, reads its contents, and creates a Calendar object from the iCalendar data using the from_ical method. It then uses the walk method to iterate over all the components of the calendar and checks the name of each component. When it finds a component with the name "VEVENT", it prints the summary of the event, which is the title of the event.

You can also use the icalendar library to add, modify or delete events in the calendar by manipulating the Calendar object.

You can also use the icalendar library to add, modify or delete events in the calendar by manipulating the Calendar object.

To add an event to a calendar using the icalendar library, you can create an instance of the Event class and add it to the calendar object. Here's an example of how you can add an event to the calendar object:

from icalendar import Event

event = Event()
event.add("summary", "Test Event")
event.add("dtstart", datetime.datetime(2022, 1, 1, 8, 0, 0))
event.add("dtend", datetime.datetime(2022, 1, 1, 9, 0, 0))
event.add("dtstamp", datetime.datetime.now())

calendar.add_component(event)

This creates an event with a summary of "Test Event", starting at 8:00am on January 1, 2022, and ending at 9:00am on the same day. It also adds a timestamp for the current time.

To modify an event, you can locate the event you want to modify in the calendar object and change its properties. Here's an example of how you can change the summary of an event in the calendar object:

for component in calendar.walk():
    if component.name == "VEVENT":
        if component.get('summary') == "Test Event":
            component.add("summary", "Modified Event")

This code iterates over all the components in the calendar object, checks if the component is an event, and then checks if the summary of the event is "Test Event". If it is, it changes the summary to "Modified Event".

To delete an event, you can locate the event you want to delete in the calendar object and remove it. Here's an example of how you can delete an event from the calendar object:

for component in calendar.walk(): if component.name == "VEVENT": if component.get('summary') == "Modified Event": calendar.subcomponents.remove(component)

This code iterates over all the components in the calendar object, checks if the component is an event, and then checks if the summary of the event is "Modified Event". If it is, it removes the event from the calendar object.

Please note that the above examples assume that the datetime module is imported and the events are being added, modified or deleted before writing the new calendar object to the file.

Step 3: Use IHP to create a web interface for the tool that allows users to input the URLs of their calendar feeds.

IHP (Iced Haskel Platform) is a web framework that allows you to create web applications in Haskell. It provides a high-level API for building web applications and a set of conventions for structuring your code.

To create a web interface for your tool that allows users to input the URLs of their calendar feeds, you can use IHP to create a form for users to input their URLs and then use that input to run the merging process.

Here's an example of how you might create a form in IHP to allow users to input their calendar feed URLs:

module Calendar where

import IHP.RouterPrelude
import IHP.ControllerSupport

data CalendarController = CalendarController
instance Controller CalendarController where
    actions =
        [ startAction CalendarAction
        , showAction CalendarAction
        ]

data CalendarAction = CalendarAction
instance RenderController CalendarController CalendarAction where
    controllerLayout = const (plainLayout [])
    renderAction CalendarAction = do
        (formHtml, formEnctype) <- newForm calendarForm
        render "Calendar/Show" (formHtml, formEnctype)

data CalendarForm = CalendarForm
    { url :: Text }
    deriving (Eq, Show)

calendarForm :: Form CalendarForm
calendarForm = CalendarForm
    <$> "url" .: textField

This code defines a CalendarController which has two actions, startAction and showAction. The startAction is used to display the form to the user and the showAction is used to handle the form submission. The CalendarForm data type is used to hold the data entered by the user in the form.

The calendarForm function is used to create the form fields and it defines a single text field for the URL.

When the form is submitted, you can handle the form submission in the showAction and use the url from the form to run the merge process and update the calendar feed.

Please note that this is a simple example, and you may need to adjust it to work with your specific use case and also need to import the necessary libraries and modules.

Step 4: Use IHP's built-in functionality for filtering and adding prefixes to event titles

IHP provides several built-in functions that you can use to filter and add prefixes to event titles in your calendar feed.

To filter events, you can use the filterEvents function which takes a predicate function and a list of events and returns a list of events that satisfy the predicate. Here's an example of how you might use filterEvents to filter events based on their summary:

import IHP.Calendar
import Data.Text (isInfixOf)

-- Filter events with summary "Meeting"
filteredEvents :: [Event] -> [Event]
filteredEvents = filterEvents (\event -> "Meeting" `isInfixOf` eventSummary event)

To add a prefix to event titles, you can use the mapEvents function which takes a function and a list of events and applies the function to each event in the list. Here's an example of how you might use mapEvents to add a prefix to event titles:

import IHP.Calendar

-- Add prefix "Important: " to event titles
prefixedEvents :: [Event] -> [Event]
prefixedEvents = mapEvents (\event -> event { eventSummary = "Important: " <> eventSummary event })

You can also chain these functions together to perform both filtering and adding a prefix in one step:

filteredAndPrefixedEvents :: [Event] -> [Event]
filteredAndPrefixedEvents = mapEvents (\event -> event { eventSummary = "Important: " <> eventSummary event }) . filterEvents (\event -> "Meeting" `isInfixOf` eventSummary event)

It's important to note that these examples are just a basic demonstration of how you can use IHP's built-in functionality for filtering and adding prefixes to event titles. You'll need to adjust them to suit your specific use case, but it gives you an idea of the kind of functionality that's available to you in IHP.

Step 5: Create a background job (such as cron) to regularly update the merged feed and ensure that it stays up-to-date.

To create a background job that regularly updates the merged calendar feed, you can use a tool like cron on Linux or Task Scheduler on Windows.

Cron is a built-in tool on Linux systems that allows you to schedule tasks to be run at specified intervals. Here's an example of how you might use cron to run a script every hour that updates your merged calendar feed:

step 5.1: Create a script that updates your merged calendar feed. This script should use vdirsyncer to synchronize the calendar feeds, icalendar to parse the merged iCalendar file and access the events and IHP to create a web interface for the tool that allows users to input the URLs of their calendar feeds
  • Here is an example of a script that updates your merged calendar feed using vdirsyncer, icalendar, and IHP:

    #!/bin/bash

    Synchronize calendar feeds using vdirsyncer

    vdirsyncer synchronize

    Merge the calendar feeds using icalendar

    python3 -m icalendar.cal merge calendar1.ics calendar2.ics > merged_calendar.ics

    Use IHP to create a web interface for the tool

    cd my_ihp_project ihp run

This script first runs vdirsyncer synchronize to synchronize the calendar feeds specified in your vdirsyncer config file.

Then it uses the icalendar.cal module to merge two calendar files (calendar1.ics and calendar2.ics) into a single file called merged_calendar.ics.

Finally, it changes directory to your IHP project and runs the ihp run command to start the IHP web server.

You will need to modify the script to match your specific needs, such as adding more calendars to merge, and also to handle the filtering and adding prefixes to event titles as you've requested.

You should also test the script to make sure it works as expected before deploying it to a production environment.

step 5.2: Open the terminal and run the command crontab -e to open the crontab file.
step 5.3: Add the following line to the file, replacing /path/to/script.sh with the path to your script:
    0 * * * * /path/to/script.sh

This will run your script every hour at the 0th minute

=======

Creating events in nextcloud calender

To create and update events in a Nextcloud calendar using the CalDAV API and the HTTP Node library. Here's an example of how you might do this in Node.js:

  • Install the http-request package:
npm install http-request
  • Import the package in your project:
const HttpRequest = require('http-request');

To create an event, you'll need to send a POST request to the Nextcloud calendar endpoint, passing the event data in the body of the request.