2022-10-28 10:52:34 -03:00

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Contributing

This guide have some instructions and tips on how to create a new Tachiyomi extension. Please read it carefully if you're a new contributor or don't have any experience on the required languages and knowledges.

This guide is not definitive and it's being updated over time. If you find any issue on it, feel free to report it through a Meta Issue or fixing it directly by submitting a Pull Request.

Prerequisites
1. Tools
2. Cloning the repository
Getting help
Writing an extension
Multi-source themes
Running
Debugging
Building
Submitting the changes
1. Pull Request checklist

Prerequisites

Before you start, please note that the ability to use following technologies is required and that existing contributors will not actively teach them to you.

Basic Android development
Kotlin
Web scraping
- HTML
- CSS selectors
- OkHttp
- JSoup

Tools

Android Studio
Emulator or phone with developer options enabled and a recent version of Tachiyomi installed
Icon Generator

Cloning the repository

Some alternative steps can be followed to ignore "repo" branch and skip unrelated sources, which will make it faster to pull, navigate and build. This will also reduce disk usage and network traffic.

Steps

Make sure to delete "repo" branch in your fork. You may also want to disable Actions in the repo settings.

Also make sure you are using the latest version of Git as many commands used here are pretty new.

Do a partial clone.

git clone --filter=blob:none --sparse <fork-repo-url>
cd tachiyomi-extensions/

Configure sparse checkout.

There are two modes of pattern matching. The default is cone (🔺) mode. Cone mode enables significantly faster pattern matching for big monorepos and the sparse index feature to make Git commands more responsive. In this mode, you can only filter by file path, which is less flexible and might require more work when the project structure changes.

You can skip this code block to use legacy mode if you want easier filters. It won't be much slower as the repo doesn't have that many files.

To enable cone mode together with sparse index, follow these steps:
```
git sparse-checkout set --cone --sparse-index
# add project folders
git sparse-checkout add .run buildSrc core gradle lib multisrc/src/main/java/generator
# add a single source
git sparse-checkout add src/<lang>/<source>
# add a multisrc theme
git sparse-checkout add multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/<source>
git sparse-checkout add multisrc/overrides/<source>
```
To remove a source, open .git/info/sparse-checkout and delete the exact lines you typed when adding it. Don't touch the other auto-generated lines unless you fully understand how cone mode works, or you might break it.

To use the legacy non-cone mode, follow these steps:
```
# enable sparse checkout
git sparse-checkout set --no-cone
# edit sparse checkout filter
vim .git/info/sparse-checkout
# alternatively, if you have VS Code installed
code .git/info/sparse-checkout
```
Here's an example:
```
/*
!/src/*
!/multisrc/overrides/*
!/multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/*
# allow a single source
/src/<lang>/<source>
# allow a multisrc theme
/multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/<source>
/multisrc/overrides/<source>
# or type the source name directly
<source>
```
Explanation: the rules are like gitignore. We first exclude all sources while retaining project folders, then add the needed sources back manually.

Configure remotes.

# add upstream
git remote add upstream <tachiyomiorg-repo-url>
# optionally disable push to upstream
git remote set-url --push upstream no_pushing
# ignore 'repo' branch of upstream
# option 1: use negative refspec
git config --add remote.upstream.fetch "^refs/heads/repo"
# option 2: fetch master only (ignore all other branches)
git config remote.upstream.fetch "+refs/heads/master:refs/remotes/upstream/master"
# update remotes
git remote update
# track master of upstream instead of fork
git branch master -u upstream/master

Useful configurations. (optional)

# prune obsolete remote branches on fetch
git config remote.origin.prune true
# fast-forward only when pulling master branch
git config pull.ff only
# Add an alias to sync master branch without fetching useless blobs.
# If you run `git pull` to fast-forward in a blobless clone like this,
# all blobs (files) in the new commits are still fetched regardless of
# sparse rules, which makes the local repo accumulate unused files.
# Use `git sync-master` to avoid this. Be careful if you have changes
# on master branch, which is not a good practice.
git config alias.sync-master '!git switch master && git fetch upstream && git reset --keep FETCH_HEAD'

Later, if you change the sparse checkout filter, run git sparse-checkout reapply.

Getting help

Join the Discord server for online help and to ask questions while developing your extension. When doing so, please ask it in the #programming channel.
There are some features and tricks that are not explored in this document. Refer to existing extension code for examples.

Writing an extension

The quickest way to get started is to copy an existing extension's folder structure and renaming it as needed. We also recommend reading through a few existing extensions' code before you start.

Setting up a new Gradle module

Each extension should reside in src/<lang>/<mysourcename>. Use all as <lang> if your target source supports multiple languages or if it could support multiple sources.

The <lang> used in the folder inside src should be the major language part. For example, if you will be creating a pt-BR source, use <lang> here as pt only. Inside the source class, use the full locale string instead.

Extension file structure

The simplest extension structure looks like this:

$ tree src/<lang>/<mysourcename>/
src/<lang>/<mysourcename>/
├── AndroidManifest.xml
├── build.gradle
├── res
│   ├── mipmap-hdpi
│   │   └── ic_launcher.png
│   ├── mipmap-mdpi
│   │   └── ic_launcher.png
│   ├── mipmap-xhdpi
│   │   └── ic_launcher.png
│   ├── mipmap-xxhdpi
│   │   └── ic_launcher.png
│   ├── mipmap-xxxhdpi
│   │   └── ic_launcher.png
│   └── web_hi_res_512.png
└── src
    └── eu
        └── kanade
            └── tachiyomi
                └── extension
                    └── <lang>
                        └── <mysourcename>
                            └── <MySourceName>.kt

13 directories, 9 files

AndroidManifest.xml

A minimal Android manifest file is needed for Android to recognize a extension when it's compiled into an APK file. You can also add intent filters inside this file (see URL intent filter for more information).

build.gradle

Make sure that your new extension's build.gradle file follows the following structure:

apply plugin: 'com.android.application'
apply plugin: 'kotlin-android'

ext {
    extName = '<My source name>'
    pkgNameSuffix = '<lang>.<mysourcename>'
    extClass = '.<MySourceName>'
    extVersionCode = 1
    isNsfw = true
}

apply from: "$rootDir/common.gradle"

Field	Description
`extName`	The name of the extension.
`pkgNameSuffix`	A unique suffix added to `eu.kanade.tachiyomi.extension`. The language and the site name should be enough. Remember your extension code implementation must be placed in this package.
`extClass`	Points to the class that implements `Source`. You can use a relative path starting with a dot (the package name is the base path). This is used to find and instantiate the source(s).
`extVersionCode`	The extension version code. This must be a positive integer and incremented with any change to the code.
`libVersion`	(Optional, defaults to `1.3`) The version of the extensions library used.
`isNsfw`	(Optional, defaults to `false`) Flag to indicate that a source contains NSFW content.

The extension's version name is generated automatically by concatenating libVersion and extVersionCode. With the example used above, the version would be 1.3.1.

Core dependencies

Extension API

Extensions rely on extensions-lib, which provides some interfaces and stubs from the app for compilation purposes. The actual implementations can be found here. Referencing the actual implementation will help with understanding extensions' call flow.

DataImage library

lib-dataimage is a library for handling base 64 encoded image data using an OkHttp interceptor.

dependencies {
    implementation(project(':lib-dataimage'))
}

Additional dependencies

If you find yourself needing additional functionality, you can add more dependencies to your build.gradle file. Many of the dependencies from the main Tachiyomi app are exposed to extensions by default.

Note that several dependencies are already exposed to all extensions via Gradle version catalog. To view which are available view libs.versions.toml under the gradle folder

Notice that we're using compileOnly instead of implementation if the app already contains it. You could use implementation instead for a new dependency, or you prefer not to rely on whatever the main app has at the expense of app size.

Note that using compileOnly restricts you to versions that must be compatible with those used in the latest stable version of Tachiyomi.

Extension main class

The class which is referenced and defined by extClass in build.gradle. This class should implement either SourceFactory or extend one of the Source implementations: HttpSource or ParsedHttpSource.

Class	Description
`SourceFactory`	Used to expose multiple `Source`s. Use this in case of a source that supports multiple languages or mirrors of the same website. For similar websites use theme sources.
`HttpSource`	For online source, where requests are made using HTTP.
`ParsedHttpSource`	Similar to `HttpSource`, but has methods useful for scraping pages.

Main class key variables

Field	Description
`name`	Name displayed in the "Sources" tab in Tachiyomi.
`baseUrl`	Base URL of the source without any trailing slashes.
`lang`	An ISO 639-1 compliant language code (two letters in lower case in most cases, but can also include the country/dialect part by using a simple dash character).
`id`	Identifier of your source, automatically set in `HttpSource`. It should only be manually overriden if you need to copy an existing autogenerated ID.

Extension call flow

Popular Manga

a.k.a. the Browse source entry point in the app (invoked by tapping on the source name).

The app calls fetchPopularManga which should return a MangasPage containing the first batch of found SManga entries.
- This method supports pagination. When user scrolls the manga list and more results must be fetched, the app calls it again with increasing page values (starting with page=1). This continues while MangasPage.hasNextPage is passed as true and MangasPage.mangas is not empty.
To show the list properly, the app needs url, title and thumbnail_url. You must set them here. The rest of the fields could be filled later (refer to Manga Details below).
- You should set thumbnail_url if is available, if not, fetchMangaDetails will be immediately called (this will increase network calls heavily and should be avoided).

Latest Manga

a.k.a. the Latest source entry point in the app (invoked by tapping on the "Latest" button beside the source name).

Enabled if supportsLatest is true for a source
Similar to popular manga, but should be fetching the latest entries from a source.

Manga Search

When the user searches inside the app, fetchSearchManga will be called and the rest of the flow is similar to what happens with fetchPopularManga.
- If search functionality is not available, return Observable.just(MangasPage(emptyList(), false))
getFilterList will be called to get all filters and filter types.

Filters

The search flow have support to filters that can be added to a FilterList inside the getFilterList method. When the user changes the filters' state, they will be passed to the searchRequest, and they can be iterated to create the request (by getting the filter.state value, where the type varies depending on the Filter used). You can check the filter types available here and in the table below.

Filter	State type	Description
`Filter.Header`	None	A simple header. Useful for separating sections in the list or showing any note or warning to the user.
`Filter.Separator`	None	A line separator. Useful for visual distinction between sections.
`Filter.Select<V>`	`Int`	A select control, similar to HTML's `<select>`. Only one item can be selected, and the state is the index of the selected one.
`Filter.Text`	`String`	A text control, similar to HTML's `<input type="text">`.
`Filter.CheckBox`	`Boolean`	A checkbox control, similar to HTML's `<input type="checkbox">`. The state is `true` if it's checked.
`Filter.TriState`	`Int`	A enhanced checkbox control that supports an excluding state. The state can be compared with `STATE_IGNORE`, `STATE_INCLUDE` and `STATE_EXCLUDE` constants of the class.
`Filter.Group<V>`	`List<V>`	A group of filters (preferentially of the same type). The state will be a `List` with all the states.
`Filter.Sort`	`Selection`	A control for sorting, with support for the ordering. The state indicates which item index is selected and if the sorting is `ascending`.

All control filters can have a default state set. It's usually recommended if the source have filters to make the initial state match the popular manga list, so when the user open the filter sheet, the state is equal and represents the current manga showing.

The Filter classes can also be extended, so you can create new custom filters like the UriPartFilter:

open class UriPartFilter(displayName: String, private val vals: Array<Pair<String, String>>) :
    Filter.Select<String>(displayName, vals.map { it.first }.toTypedArray()) {
    fun toUriPart() = vals[state].second
}

Manga Details

When user taps on a manga, fetchMangaDetails and fetchChapterList will be called and the results will be cached.
- A SManga entry is identified by it's url.
fetchMangaDetails is called to update a manga's details from when it was initialized earlier.
- SManga.initialized tells the app if it should call fetchMangaDetails. If you are overriding fetchMangaDetails, make sure to pass it as true.
- SManga.genre is a string containing list of all genres separated with ", ".
- SManga.status is an "enum" value. Refer to the values in the SManga companion object.
- During a backup, only url and title are stored. To restore the rest of the manga data, the app calls fetchMangaDetails, so all fields should be (re)filled in if possible.
- If a SManga is cached, fetchMangaDetails will be only called when the user does a manual update (Swipe-to-Refresh).
fetchChapterList is called to display the chapter list.
- The list should be sorted descending by the source order.

Chapter

After a chapter list for the manga is fetched and the app is going to cache the data, prepareNewChapter will be called.
SChapter.date_upload is the UNIX Epoch time expressed in milliseconds.
- If you don't pass SChapter.date_upload and leave it zero, the app will use the default date instead, but it's recommended to always fill it if it's available.
- To get the time in milliseconds from a date string, you can use a SimpleDateFormat like in the example below.
```
private fun parseDate(dateStr: String): Long {
    return runCatching { DATE_FORMATTER.parse(dateStr)?.time }
        .getOrNull() ?: 0L
}

companion object {
    private val DATE_FORMATTER by lazy {
        SimpleDateFormat("yyyy-MM-dd HH:mm:ss", Locale.ENGLISH)
    }
}
```
  Make sure you make the SimpleDateFormat a class constant or variable so it doesn't get recreated for every chapter. If you need to parse or format dates in manga description, create another instance since SimpleDateFormat is not thread-safe.
- If the parsing have any problem, make sure to return 0L so the app will use the default date instead.
- The app will overwrite dates of existing old chapters UNLESS 0L is returned.
- The default date has changed in preview ≥ r4442 or stable > 0.13.4.
  - In older versions, the default date is always the fetch date.
  - In newer versions, this is the same if every (new) chapter has 0L returned.
  - However, if the source only provides the upload date of the latest chapter, you can now set it to the latest chapter and leave other chapters default. The app will automatically set it (instead of fetch date) to every new chapter and leave old chapters' dates untouched.

Chapter Pages

When user opens a chapter, fetchPageList will be called and it will return a list of Pages.
While a chapter is open in the reader or is being downloaded, fetchImageUrl will be called to get URLs for each page of the manga if the Page.imageUrl is empty.
If the source provides all the Page.imageUrl's directly, you can fill them and let the Page.url empty, so the app will skip the fetchImageUrl source and call directly fetchImage.
The Page.url and Page.imageUrl attributes should be set as an absolute URL.
Chapter pages numbers start from 0.

Misc notes

Sometimes you may find no use for some inherited methods. If so just override them and throw exceptions: throw UnsupportedOperationException("Not used.")
You probably will find getUrlWithoutDomain useful when parsing the target source URLs. Keep in mind there's a current issue with spaces in the URL though, so if you use it, replace all spaces with URL encoded characters (like %20).
If possible try to stick to the general workflow from HttpSource/ParsedHttpSource; breaking them may cause you more headache than necessary.
By implementing ConfigurableSource you can add settings to your source, which is backed by SharedPreferences.

Advanced Extension features

URL intent filter

Extensions can define URL intent filters by defining it inside a custom AndroidManifest.xml file. For an example, refer to the NHentai module's AndroidManifest.xml file and its corresponding NHUrlActivity handler.

To test if the URL intent filter is working as expected, you can try opening the website in a browser and navigating to the endpoint that was added as a filter or clicking a hyperlink. Alternatively, you can use the adb command below.

$ adb shell am start -d "<your-link>" -a android.intent.action.VIEW

Renaming existing sources

There is some cases where existing sources changes their name on the website. To correctly reflect these changes in the extension, you need to explicity set the id to the same old value, otherwise it will get changed by the new name value and users will be forced to migrate back to the source.

To get the current id value before the name change, you can search the source name in the repository JSON file by looking into the sources attribute of the extension. When you have the id copied, you can override it in the source:

override val id: Long = <the-id>

Then the class name and the name attribute value can be changed. Also don't forget to update the extension name and class name in the individual Gradle file if it is not a multisrc extension.

Important: the package name needs to be the same (even if it has the old name), otherwise users will not receive the extension update when it gets published in the repository. If you're changing the name of a multisrc source, you can manually set it in the generator class of the theme by using pkgName = "oldpackagename".

The id also needs to be explicity set to the old value if you're changing the lang attribute.

Multi-source themes

The multisrc module houses source code for generating extensions for cases where multiple source sites use the same site generator tool(usually a CMS) for bootsraping their website and this makes them similar enough to prompt code reuse through inheritance/composition; which from now on we will use the general theme term to refer to.

This module contains the default implementation for each theme and definitions for each source that builds upon that default implementation and also it's overrides upon that default implementation, all of this becomes a set of source code which then is used to generate individual extensions from.

The directory structure

$ tree multisrc
multisrc
├── build.gradle.kts
├── overrides
│   └── <themepkg>
│       ├── default
│       │   ├── additional.gradle
│       │   └── res
│       │       ├── mipmap-hdpi
│       │       │   └── ic_launcher.png
│       │       ├── mipmap-mdpi
│       │       │   └── ic_launcher.png
│       │       ├── mipmap-xhdpi
│       │       │   └── ic_launcher.png
│       │       ├── mipmap-xxhdpi
│       │       │   └── ic_launcher.png
│       │       ├── mipmap-xxxhdpi
│       │       │   └── ic_launcher.png
│       │       └── web_hi_res_512.png
│       └── <sourcepkg>
│           ├── additional.gradle
│           ├── AndroidManifest.xml
│           ├── res
│           │   ├── mipmap-hdpi
│           │   │   └── ic_launcher.png
│           │   ├── mipmap-mdpi
│           │   │   └── ic_launcher.png
│           │   ├── mipmap-xhdpi
│           │   │   └── ic_launcher.png
│           │   ├── mipmap-xxhdpi
│           │   │   └── ic_launcher.png
│           │   ├── mipmap-xxxhdpi
│           │   │   └── ic_launcher.png
│           │   └── web_hi_res_512.png
│           └── src
│               └── <SourceName>.kt
└── src
    └── main
        ├── AndroidManifest.xml
        └── java
            ├── eu
            │   └── kanade
            │       └── tachiyomi
            │           └── multisrc
            │               └── <themepkg>
            │                   ├── <ThemeName>Generator.kt
            │                   └── <ThemeName>.kt
            └── generator
                ├── GeneratorMain.kt
                ├── IntelijConfigurationGeneratorMain.kt
                └── ThemeSourceGenerator.kt

multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/<themepkg>/<Theme>.kt defines the the theme's default implementation.
multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/<theme>/<Theme>Generator.kt defines the the theme's generator class, this is similar to a SourceFactory class.
multisrc/overrides/<themepkg>/default/res is the theme's default icons, if a source doesn't have overrides for res, then default icons will be used.
multisrc/overrides/<themepkg>/default/additional.gradle defines additional gradle code, this will be copied at the end of all generated sources from this theme.
multisrc/overrides/<themepkg>/<sourcepkg> contains overrides for a source that is defined inside the <Theme>Generator.kt class.
multisrc/overrides/<themepkg>/<sourcepkg>/src contains source overrides.
multisrc/overrides/<themepkg>/<sourcepkg>/res contains override for icons.
multisrc/overrides/<themepkg>/<sourcepkg>/additional.gradle defines additional gradle code, this will be copied at the end of the generated gradle file below the theme's additional.gradle.
multisrc/overrides/<themepkg>/<sourcepkg>/AndroidManifest.xml is copied as an override to the default AndroidManifest.xml generation if it exists.

Development workflow

There are three steps in running and testing a theme source:

Generate the sources
- Option 1: Only generate sources from one theme
  - Method 1: Find and run <ThemeName>Generator run configuration form the Run/Debug Configuration menu.
  - Method 2: Directly run <themepkg>.<ThemeName>Generator.main by pressing the play button in front of the method shown inside Android Studio's Code Editor to generate sources from the said theme.
- Option 2: Generate sources from all themes
  - Method 1: Run ./gradlew multisrc:generateExtensions from a terminal window to generate all sources.
  - Method 2: Directly run Generator.GeneratorMain.main by pressing the play button in front of the method shown inside Android Studio's Code Editor to generate all sources.
Sync gradle to import the new generated sources inside generated-src
- Method 1: Android Studio might prompt to sync the gradle. Click on Sync Now.
- Method 2: Manually re-sync by opening File -> Sync Project with Gradle Files or by pressing Alt+f then g.
Build and test the generated Extention like normal src sources.
- It's recommended to make changes here to skip going through step 1 and 2 multiple times, and when you are done, copying the changes back to multisrc.

Scaffolding overrides

You can use this python script to generate scaffolds for source overrides. Put it inside multisrc/overrides/<themepkg>/ as scaffold.py.

import os, sys
from pathlib import Path

theme = Path(os.getcwd()).parts[-1]

print(f"Detected theme: {theme}")

if len(sys.argv) < 3:
    print("Must be called with a class name and lang, for Example 'python scaffold.py LeviatanScans en'")
    exit(-1)

source = sys.argv[1]
package = source.lower()
lang = sys.argv[2]

print(f"working on {source} with lang {lang}")

os.makedirs(f"{package}/src")
os.makedirs(f"{package}/res")

with open(f"{package}/src/{source}.kt", "w") as f:
    f.write(f"package eu.kanade.tachiyomi.extension.{lang}.{package}\n\n")

Additional Notes

Generated sources extension version code is calculated as baseVersionCode + overrideVersionCode + multisrcLibraryVersion.
- Currently multisrcLibraryVersion is 0
- When a new source is added, it doesn't need to set overrideVersionCode as it's default is 0.
- For each time a source changes in a way that should the version increase, overrideVersionCode should be increased by one.
- When a theme's default implementation changes, baseVersionCode should be increased, the initial value should be 1.
- For example, for a new theme with a new source, extention version code will be 0 + 0 + 1 = 1.
IntelijConfigurationGeneratorMainKt should be run on creating or removing a multisrc theme.
- On removing a theme, you can manually remove the corresponding configuration in the .run folder instead.
- Be careful if you're using sparse checkout. If other configurations are accidentally removed, git add the file you want and git restore the others. Another choice is to allow /multisrc/src/main/java/eu/kanade/tachiyomi/multisrc/* before running the generator.

Running

To make local development more convenient, you can use the following run configuration to launch Tachiyomi directly at the Browse panel:

If you're running a Preview or debug build of Tachiyomi:

-W -S -n eu.kanade.tachiyomi.debug/eu.kanade.tachiyomi.ui.main.MainActivity -a eu.kanade.tachiyomi.SHOW_CATALOGUES

And for a release build of Tachiyomi:

-W -S -n eu.kanade.tachiyomi/eu.kanade.tachiyomi.ui.main.MainActivity -a eu.kanade.tachiyomi.SHOW_CATALOGUES

If you're deploying to Android 11 or higher, enable the "Always install with package manager" option in the run configurations.

Debugging

Android Debugger

You can leverage the Android Debugger to step through your extension while debugging.

You cannot simply use Android Studio's Debug 'module.name' -> this will most likely result in an error while launching.

Instead, once you've built and installed your extension on the target device, use Attach Debugger to Android Process to start debugging Tachiyomi.

Logs

You can also elect to simply rely on logs printed from your extension, which show up in the Logcat panel of Android Studio.

Inspecting network calls

One of the easiest way to inspect network issues (such as HTTP errors 404, 429, no chapter found etc.) is to use the Logcat panel of Android Studio and filtering by the OkHttpClient tag.

To be able to check the calls done by OkHttp, you need to enable verbose logging in the app, that is not enabled by default and is only included in the Preview versions of Tachiyomi. To enable it, go to More -> Settings -> Advanced -> Verbose logging. After enabling it, don't forget to restart the app.

Inspecting the Logcat allows you to get a good look at the call flow and it's more than enough in most cases where issues occurs. However, alternatively, you can also use an external tool like mitm-proxy. For that, refer to the next section.

Using external network inspecting tools

If you want to take a deeper look into the network flow, such as taking a look into the request and response bodies, you can use an external tool like mitm-proxy.

Setup your proxy server

We are going to use mitm-proxy but you can replace it with any other Web Debugger (i.e. Charles, Burp Suite, Fiddler etc). To install and execute, follow the commands bellow.

Install the tool.
$ sudo pip3 install mitmproxy
Execute the web interface and the proxy.
$ mitmweb

Alternatively, you can also use the Docker image:

$ docker run --rm -it -p 8080:8080 \
    -p 127.0.0.1:8081:8081 \
    --web-host 0.0.0.0 \
    mitmproxy/mitmproxy mitmweb

After installing and running, open your browser and navigate to http://127.0.0.1:8081.

OkHttp proxy setup

Since most of the manga sources are going to use HTTPS, we need to disable SSL verification in order to use the web debugger. For that, add this code to inside your source class:

package eu.kanade.tachiyomi.extension.en.mangasource
import eu.kanade.tachiyomi.multisrc.mangatheme.mangasource

import android.annotation.SuppressLint
import okhttp3.OkHttpClient
import java.net.InetSocketAddress
import java.net.Proxy
import java.security.SecureRandom
import java.security.cert.X509Certificate
import javax.net.ssl.SSLContext
import javax.net.ssl.TrustManager
import javax.net.ssl.X509TrustManager

class MangaSource : MangaTheme(
    "MangaSource",
    "https://example.com",
    "en"
) {
    private fun OkHttpClient.Builder.ignoreAllSSLErrors(): OkHttpClient.Builder {
        val naiveTrustManager = @SuppressLint("CustomX509TrustManager")
        object : X509TrustManager {
            override fun getAcceptedIssuers(): Array<X509Certificate> = emptyArray()
            override fun checkClientTrusted(certs: Array<X509Certificate>, authType: String) = Unit
            override fun checkServerTrusted(certs: Array<X509Certificate>, authType: String) = Unit
        }

        val insecureSocketFactory = SSLContext.getInstance("TLSv1.2").apply {
            val trustAllCerts = arrayOf<TrustManager>(naiveTrustManager)
            init(null, trustAllCerts, SecureRandom())
        }.socketFactory

        sslSocketFactory(insecureSocketFactory, naiveTrustManager)
        hostnameVerifier { _, _ -> true }
        return this
    }

    override val client: OkHttpClient = network.cloudflareClient.newBuilder()
        .ignoreAllSSLErrors()
        .proxy(Proxy(Proxy.Type.HTTP, InetSocketAddress("10.0.2.2", 8080)))
        .build()
}

Note: 10.0.2.2 is usually the address of your loopback interface in the android emulator. If Tachiyomi tells you that it's unable to connect to 10.0.2.2:8080 you will likely need to change it (the same if you are using hardware device).

If all went well, you should see all requests and responses made by the source in the web interface of mitmweb.

Building

APKs can be created in Android Studio via Build > Build Bundle(s) / APK(s) > Build APK(s) or Build > Generate Signed Bundle / APK.

Submitting the changes

When you feel confident about your changes, submit a new Pull Request so your code can be reviewed and merged if it's approved. We encourage following a GitHub Standard Fork & Pull Request Workflow and following the good practices of the workflow, such as not commiting directly to master: always create a new branch for your changes.

If you are more comfortable about using Git GUI-based tools, you can refer to this guide about the Git integration inside Android Studio, specifically the "How to Contribute to an to Existing Git Repository in Android Studio" section of the guide.

Please do test your changes by compiling it through Android Studio before submitting it. Also make sure to follow the PR checklist available in the PR body field when creating a new PR. As a reference, you can find it below.

Pull Request checklist

Update extVersionCode value in build.gradle for individual extensions
Update overrideVersionCode or baseVersionCode as needed for all multisrc extensions
Reference all related issues in the PR body (e.g. "Closes #xyz")
Add the isNsfw = true flag in build.gradle when appropriate
Explicitly kept the id if a source's name or language were changed
Test the modifications by compiling and running the extension through Android Studio

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