This repository is a fork of the upstream o2 library from https://github.com/pipacs/o2, with patches from QGIS applied on top of the base library version
This library encapsulates the OAuth 1.0 and 2.0 client authentication flows, and the sending of authenticated HTTP requests.
The primary target is Qt Quick applications on embedded devices.
Supported Qt versions: 5 and 6.
Notes to contributors:
- Please follow the coding style of the existing source code
- Code contributions are released under Simplified BSD License, as specified in LICENSE. Do not contribute if this license does not suit your code
Class | Header | Purpose |
---|---|---|
O0AbstractStore | o0abstractstore.h | Base class of persistent stores |
O0BaseAuth | o0baseauth.h | Base class of OAuth authenticators |
O0SettingsStore | o0settingsstore.h | QSettings-based persistent store |
o0keyChainStore | o0keychainstore.h | Settings stored through the system keychain keychain |
O0SimpleCrypt | o0simplecrypt.h | Simple encryption and decryption by Andre Somers |
O1 | o1.h | Generic OAuth 1.0 authenticator |
O1Dropbox | o1dropbox.h | Dropbox OAuth specialization |
O1Flickr | o1flickr.h | Flickr OAuth specialization |
O1Freshbooks | o1freshbooks.h | Freshbooks OAuth specialization |
O1Requestor | o1requestor.h | Makes authenticated OAuth 1.0 requests: GET, POST or PUT, handles timeouts |
O1RequestParameter | o1.h | An extra request parameter participating in request signing |
O1Twitter | o1twitter.h | Twitter OAuth specialization |
O1SmugMug | o1smugmug.h | SmugMug OAuth specialization |
O2 | o2.h | Generic OAuth 2.0 authenticator |
O2Facebook | o2facebook.h | Facebook OAuth specialization |
O2Gft | o2gft.h | Google Fusion Tables OAuth specialization |
O2Google | o2google.h | Google Oauth specialization scopes |
O2GoogleDevice | o2google.h | Google Sign-In for TVs and Devices |
O2Hubic | o2hubic.h | Hubic OAuth specialization |
O2Msgraph | o2msgraph.h | Microsoft Graph OAuth specialization |
O2Reply | o2reply.h | A network request/reply that can time out |
O2ReplyServer | o2replyserver.h | HTTP server to process authentication responses |
O2Requestor | o2requestor.h | Makes authenticated OAuth 2.0 requests (GET, POST or PUT), handles timeouts and token expiry |
O2Skydrive | o2skydrive.h | OneDrive OAuth specialization |
O2SurveyMonkey | o2surveymonkey.h | SurveyMonkey OAuth specialization |
OXTwitter | oxtwitter.h | Twitter XAuth specialization |
O2Uber | o2uber.h | Uber OAuth specialization |
Clone the Github repository, then add all files in src to your Qt project, by including src/src.pri.
This example assumes a hypothetical Twitter client that will post tweets. Twitter is using OAuth 1.0.
Include the required header files, and have some member variables that will be used for authentication and sending requests:
#include "o1twitter.h"
#include "o1requestor.h"
O1Twitter *o1;
Instantiate one of the authenticator classes, like O1Twitter, set your application ID and application secret, and install the signal handlers:
o1 = new O1Twitter(this);
o1->setClientId(MY_CLIENT_ID);
o1->setClientSecret(MY_CLIENT_SECRET);
connect(o1, SIGNAL(linkedChanged()), this, SLOT(onLinkedChanged()));
connect(o1, SIGNAL(linkingFailed()), this, SLOT(onLinkingFailed()));
connect(o1, SIGNAL(linkingSucceeded()), this, SLOT(onLinkingSucceeded()));
connect(o1, SIGNAL(openBrowser(QUrl)), this, SLOT(onOpenBrowser(QUrl)));
connect(o1, SIGNAL(closeBrowser()), this, SLOT(onCloseBrowser()));
Note: For browserless Twitter authentication, you can use the OXTwitter specialized class that can do Twitter XAuth. You will need to additionally provide your Twitter login credentials (username & password) before calling link().
O2 is an asynchronous library. It will send signals at various stages of authentication and request processing.
To handle these signals, implement the following slots in your code:
void onLinkedChanged() {
// Linking (login) state has changed.
// Use o1->linked() to get the actual state
}
void onLinkingFailed() {
// Login has failed
}
void onLinkingSucceeded() {
// Login has succeeded
}
void onOpenBrowser(const QUrl *url) {
// Open a web browser or a web view with the given URL.
// The user will interact with this browser window to
// enter login name, password, and authorize your application
// to access the Twitter account
}
void onCloseBrowser() {
// Close the browser window opened in openBrowser()
}
Note: From onOpenBrowser, prefer opening a web view, instead of a full-blown external browser.
Note: If you must use an external browser on Android, change this line in the Qt-generated manifest.xml:
meta-data android:name="android.app.background_running" android:value="true"
To log in (e.g. to link your application to the OAuth service), call the link() method:
o1->link();
This initiates the authentication sequence. Your signal handlers above will be called at various stages. Lastly, if linking succeeds, onLinkingSucceeded() will be called.
To log out, call the unlink() method:
o1->unlink();
Logging out always succeeds, and requires no user interaction.
Once linked, you can start sending authenticated requests to the service. We start with a simple example of sending a text-only tweet or as it's known in Twitter docs, a 'status update'.
First we need a Qt network manager and an O1 requestor object:
QNetworkAccessManager *manager = new QNetworkAccessManager(this);
O1Requestor *requestor = new O1Requestor(manager, o1, this);
Next, create parameters for posting the update:
QByteArray paramName("status");
QByteArray tweetText("My first tweet!");
QList<O1RequestParameter> requestParams = QList<O1RequestParameter>();
requestParams << O1RequestParameter(paramName, tweetText);
QByteArray postData = O1::createQueryParams(requestParams);
// Using Twitter's REST API ver 1.1
QUrl url = QUrl("https://api.twitter.com/1.1/statuses/update.json");
QNetworkRequest request(url);
request.setHeader(QNetworkRequest::ContentTypeHeader, O2_MIME_TYPE_XFORM);
Finally we authenticate and send the request using the O1 requestor object:
QNetworkReply *reply = requestor->post(request, reqestParams, postData);
Continuing with the example, we will now send a tweet containing an image as well as a message.
We create an HTTP request containing the image and the message, in the format specified by Twitter:
QString imagePath("/tmp/image.jpg");
QString message("My tweet with an image!");
QFileInfo fileInfo(imagePath);
QFile file(imagePath);
file.open(QIODevice::ReadOnly);
QString boundary("7d44e178b0439");
QByteArray data(QString("--" + boundary + "\r\n").toAscii());
data += "Content-Disposition: form-data; name=\"media[]\"; filename=\"" + fileInfo.fileName() + "\"\r\n";
data += "Content-Transfer-Encoding: binary\r\n";
data += "Content-Type: application/octet-stream\r\n\r\n";
data += file.readAll();
file.close();
data += QString("\r\n--") + boundary + "\r\n";
data += "Content-Disposition: form-data; name=\"status\"\r\n";
data += "Content-Transfer-Encoding: binary\r\n";
data += "Content-Type: text/plain; charset=utf-8\r\n\r\n";
data += message.toUtf8();
data += QString("\r\n--") + boundary + "--\r\n";
QNetworkRequest request;
// Using Twitter's REST API ver 1.1
request.setUrl(QUrl("https://api.twitter.com/1.1/statuses/update_with_media.json"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "multipart/form-data; boundary=" + boundary);
request.setHeader(QNetworkRequest::ContentLengthHeader, data.length());
QNetworkReply *reply = requestor->post(request, QList<O1RequestParameter>(), data);
That's it. Tweets using the O2 library!
O2 provides simple storage classes for writing OAuth tokens in a peristent location. Currently, a QSettings based backing store O0SettingsStore is provided in O2. O2SettingsStore keeps all token values in an encrypted form. You have to specify the encryption key to use while constructing the object:
O0SettingsStore *settings = new O0SettingsStore("myencryptionkey");
// Set the store before starting OAuth, i.e before calling link()
o1->setStore(settings);
// ...
Once set, the O0BaseAuth takes ownership of the O0SettingsStore object.
You can also create it with your customized QSettings object. O2SettingsStore will then use that QSettings object for storing the tokens:
O0SettingsStore *settings = new O0SettingsStore(mySettingsObject, "myencryptionkey");
Once set, O2SettingsStore takes ownership of the QSettings object.
Note: If you do not specify a storage object to use, O2 will create one by default (which QSettings based), and use it. In such a case, a default encryption key is used for encrypting the data. This is not a secure solution: prefer storing the tokens in a Keychain or Wallet based facility instead.
Note: If using O2SettingsStore, make sure organization name, domain and application name are set:
QCoreApplication::setOrganizationName("MySoft");
QCoreApplication::setOrganizationDomain("mysoft.com");
QCoreApplication::setApplicationName("Star Runner");
Some OAuth services provide additional information in the access token response. For example Twitter returns two additional tokens: screen_name and user_id.
O2 exposes such tokens via the property extraTokens. You can query this property after a successful OAuth exchange, i.e after the linkingSucceeded() signal has been emitted.
The examples folder contains complete example applications:
Name | Description |
---|---|
facebookdemo | Command line application authenticating with Facebook |
sialis | QT Quick Twitter client using OAuth 1 |
twitterdemo | Command line client for authenticating with Twitter and posting status updates. Uses OAuth 1 or Twitter XAuth |
- Last Qt5-only release
- Persist the extra tokens, too
- Add Qt Quick Twitter client example