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Send Emails with Gmail API

Gmail is one of the most popular email services, and you very well may want to use it as a mailbox for your web or mobile app. It is safe and credible, which is crucial to preventing your emails from going into the spam folder. That’s why we decided to flesh out how to send emails with Gmail API.

Gmail API – why you should consider using it

The API provides you with a RESTful access to the features you usually have with Gmail:

Developers love Gmail API because it’s easy to implement. We’ll talk about that a bit later. Also, you can use this option for versatile cases like:

Resource types and methods

With Gmail API, you can deal with several resource types and manage them using the following methods:

Resource typeMethod
Draft
an unsent message that you can modify once created
  • create (creating a new draft)
  • delete (removing the specified draft)
  • get (obtaining the specified draft)
  • list (listing drafts in the mailbox)
  • send (sending the specified draft according to the To, Cc, and Bcc headers)
  • update (updating the specified draft’s content)
  • Message
    an immutable resource that you cannot modify
  • batchDelete (removing messages by message ID)
  • batchModify (modifying labels on the specified messages)
  • delete (removing the specified message)
  • get (obtaining the specified message)
  • import (importing the message into the mailbox (similar to receiving via SMTP))
  • insert (inserting the message into the mailbox (similar to IMAP)
  • list (listing messages in the mailbox)
  • modify (modifying labels on the specified message)
  • send (sending the specified message according to the To, Cc, and Bcc headers)
  • trash (transferring the specified message to the trash)
  • untrash (transferring the specified message from the trash)
  • Thread
    a collection of messages within a single conversation
  • delete (removing the specified thread)
  • get (obtaining the specified thread)
  • list (listing threads in the mailbox)
  • modify (modifying labels in the thread)
  • trash (transferring the specified thread to the trash)
  • untrash (transferring the specified thread from the trash)
  • Label
    a resource to organize messages and threads (for example, inbox, spam, trash, etc.)
  • create (creating a new label)
  • delete (removing the specified label)
  • get (obtaining the specified label)
  • list (listing labels in the mailbox)
  • patch (patching the specified label) – this method supports patch semantics
  • update (updating the specified label).
  • History
    a collection of changes made to the mailbox
  • list (listing the history of all changes to the mailbox)
  • Settings
    setting up Gmail features
  • getAutoForwarding (auto-forwarding setting)
  • updateAutoForwarding (updating the auto-forwarding setting)
  • getImap (IMAP settings)
  • updateImap (updating IMAP settings)
  • getLanguage (language settings)
  • updateLanguage (updating language settings)
  • getPop (POP3 settings)
  • updatePop (updating POP3 settings)
  • getVacation (vacation responder settings)
  • updateVacation (updating vacation responder settings)
  • How to make your app send emails with Gmail API

    Step 1: Create a project at Google API Console

    If you want to have access to your Gmail from your mobile or web app, you should start with Google Developers Console. Those who visit this page for the first time ever will have to agree with the Terms of Service and pick their Country of residence. Then click Select a project and create a new one.

    Name your new project and press Create at the bottom. 

    Step 2: Enable Gmail API

    Once that’s done, you can press the Library tab on the left and find yourself in the API Library page. Enter “Gmail API” in the search bar and click on it once found. Now, you need to enable the API for your project. 

    Note that you’ll have to enable it separately for each new project you work on. 

    Step 3: Credentials and authentication with OAuth 2.0

    Once the API is enabled, you’ll be taken to a nice dashboard that says, “To use this API, you may need credentials”. If you click Create credentials, you’ll have to pass through a set of questions to find out what kind of credentials you need. We advise you to go another way since we already know what it is: OAuth client ID. So, click the Credential tab on the left, and then pick OAuth client ID from the drop-down list of the Create Credentials button. 

    You’ll see the Configure consent screen button. It will bring you to a page with many fields. You can just enter the name of your app and specify authorized domains. Fill in other fields if you want. 

    Click save and then pick the type of your app (web app, Android, Chrome App, iOS, or other). After that, name your OAuth Client ID. Also, enter JavaScript origins and redirect domains for use with requests from a browser or a web server, respectively. Click create to finalize. That’s it. Download a JSON file with your credentials – you’ll need it later.

    Step 4: Pick a quickstart guide 

    The next step is to select a quickstart guide according to the technology your app is built with. So far, there are the following options:

    For mobile apps, there are G Suite APIs for iOS and Android as well. 

    What you need first in this quickstart guide is the Prerequisites section. Let’s say your choice is PHP. In this case, make sure your PHP version corresponds to the given one. Also, install the JSON extension and the Composer dependency management tool if you haven’t already. After that, you can install the Google Client Library. For Java, you’ll need to create a new project structure and the src/main/resources/ directory. Then, copy the JSON file with credentials to this directory and replace the content of the build.gradle file with this code. So, pay attention when preparing your project.

    Route your test emails to Mailtrap for safe testing.

    Step 5: API client library

    Google provides client libraries to work with the API:

    API client for Go

    # Installation
    go get -u google.golang.org/api/gmail/v1
    go get -u golang.org/x/oauth2/google

    API client for Java

    // Installation via Gradle
    repositories {
      mavenCentral()
    }
    dependencies {
      compile 'com.google.api-client:google-api-client:1.30.2' 
    }

    API client for Ruby

    # Installation
    gem install google-api-client

    API client for .NET

    // Installation via NuGet Package Manager Console:
    Install-Package Google.Apis.Gmail.v1

    API client for Node.js

    # Installation via npm
    npm install googleapis@39 --save

    API client for PHP

    # Installation via Composer
    composer require google/apiclient:"^2.0"

    API client for Python

    # Installation
    pip install --upgrade google-api-python-client google-auth-httplib2 google-auth-oauthlib
    # or
    easy_install --upgrade google-api-python-client google-auth-httplib2 google-auth-oauthlib

    Step 6: Access to Gmail

    In this step, we need to authorize access to your Gmail account from the app, and then you’ll be able to manage emails. For this, you need to create a file in your working directory. Below you’ll find the specific file names for each technology. Copy-paste a corresponding code sample from the chosen Quickstart Guide and run it. Here are the links to the code samples:

    Go

    Java

    Ruby

    .NET

    Node.js

    PHP

    Python

    JavaScript (browser)

    It worked… or not. Google will warn you about a probable failure of the sample you run to open a new window in your default browser. If this happens, you’ll need to do it manually. Copy the URL from the console and paste it in the browser. It will look like this:

    Next, you’ll be asked to either log into your Google account or select one account for authorization. Press allow and you’ll see all your inbox labels in the SSH shell like this:

    Congrats! Gmail API works, and you can send your first email.

    Step 7: Create an email

    To send a message, first, you need to create one. For this, your app can use the drafts.create method, which includes:

    Let’s see how this is done in practice with Python:

    def create_message(sender, to, subject, message_text):
      message = MIMEText(message_text)
      message['to'] = to
      message['from'] = sender
      message['subject'] = subject
      raw_message = base64.urlsafe_b64encode(message.as_string().encode("utf-8"))
      return {
        'raw': raw_message.decode("utf-8")
      }
    
    def create_draft(service, user_id, message_body):
      try:
        message = {'message': message_body}
        draft = service.users().drafts().create(userId=user_id, body=message).execute()
        print("Draft id: %s\nDraft message: %s" % (draft['id'], draft['message']))
        return draft
      except Exception as e:
        print('An error occurred: %s' % e)
        return None

    and PHP

    /**
    * @param $sender string sender email address
    * @param $to string recipient email address
    * @param $subject string email subject
    * @param $messageText string email text
    * @return Google_Service_Gmail_Message
    */
    function createMessage($sender, $to, $subject, $messageText) {
      $message = new Google_Service_Gmail_Message();
      $rawMessageString = "From: <{$sender}>\r\n";
      $rawMessageString .= "To: <{$to}>\r\n";
      $rawMessageString .= 'Subject: =?utf-8?B?' . base64_encode($subject) . "?=\r\n";
      $rawMessageString .= "MIME-Version: 1.0\r\n";
      $rawMessageString .= "Content-Type: text/html; charset=utf-8\r\n";
      $rawMessageString .= 'Content-Transfer-Encoding: quoted-printable' . "\r\n\r\n";
      $rawMessageString .= "{$messageText}\r\n";
      $rawMessage = strtr(base64_encode($rawMessageString), array('+' => '-', '/' => '_'));
      $message->setRaw($rawMessage);
      return $message;
    }
    
    /**
    * @param $service Google_Service_Gmail an authorized Gmail API service instance.
    * @param $user string User's email address or "me"
    * @param $message Google_Service_Gmail_Message
    * @return Google_Service_Gmail_Draft
    */
    function createDraft($service, $user, $message) {
      $draft = new Google_Service_Gmail_Draft();
      $draft->setMessage($message);
      try {
        $draft = $service->users_drafts->create($user, $draft);
        print 'Draft ID: ' . $draft->getId();
      } catch (Exception $e) {
        print 'An error occurred: ' . $e->getMessage();
      }
      return $draft;
    }

    Step 8: Send an email

    Once you have created your message, you can either call messages.send or drafts.send to send it. Here is how it may look:

    Python

    def send_message(service, user_id, message):
      try:
        message = service.users().messages().send(userId=user_id, body=message).execute()
        print('Message Id: %s' % message['id'])
        return message
      except Exception as e:
        print('An error occurred: %s' % e)
        return None

    and PHP

    /**
    * @param $service Google_Service_Gmail an authorized Gmail API service instance.
    * @param $userId string User's email address or "me"
    * @param $message Google_Service_Gmail_Message
    * @return null|Google_Service_Gmail_Message
    */
    function sendMessage($service, $userId, $message) {
      try {
        $message = $service->users_messages->send($userId, $message);
        print 'Message with ID: ' . $message->getId() . ' sent.';
        return $message;
      } catch (Exception $e) {
        print 'An error occurred: ' . $e->getMessage();
      }
      return null;
    }

    Step 8.1: Send an email with attachments

    You can also create and send a multi-part MIME message. For example, this is how it looks with Python:

    def send_message(service, user_id, message):
      try:
        message = service.users().messages().send(userId=user_id, body=message).execute()
        print('Message Id: %s' % message['id'])
        return message
      except Exception as e:
        print('An error occurred: %s' % e)
        return None
    
    def create_message_with_attachment(sender, to, subject, message_text, file):
      message = MIMEMultipart()
      message['to'] = to
      message['from'] = sender
      message['subject'] = subject
      msg = MIMEText(message_text)
      message.attach(msg)
      content_type, encoding = mimetypes.guess_type(file)
      if content_type is None or encoding is not None:
        content_type = 'application/octet-stream'
      main_type, sub_type = content_type.split('/', 1)
      if main_type == 'text':
        fp = open(file, 'rb')
        msg = MIMEText(fp.read().decode("utf-8"), _subtype=sub_type)
        fp.close()
      elif main_type == 'image':
        fp = open(file, 'rb')
        msg = MIMEImage(fp.read(), _subtype=sub_type)
        fp.close()
      elif main_type == 'audio':
        fp = open(file, 'rb')
        msg = MIMEAudio(fp.read(), _subtype=sub_type)
        fp.close()
      else:
        fp = open(file, 'rb')
        msg = MIMEBase(main_type, sub_type)
        msg.set_payload(fp.read())
        fp.close()
      filename = os.path.basename(file)
      msg.add_header('Content-Disposition', 'attachment', filename=filename)
      message.attach(msg)
      raw_message = base64.urlsafe_b64encode(message.as_string().encode("utf-8"))
      return {'raw': raw_message.decode("utf-8")}

    Test your emails before they are sent to real users.

    Step 9: Read a specific email from your inbox

    It would be weird if you can’t use the API to read messages from Gmail. Luckily you can by using the get method by the message ID. Here is how it may look in a Python app:

    import base64
    import email
    
    def get_messages(service, user_id):
      try:
        return service.users().messages().list(userId=user_id).execute()
      except Exception as error:
        print('An error occurred: %s' % error)
    
    def get_message(service, user_id, msg_id):
      try:
        return service.users().messages().get(userId=user_id, id=msg_id, format='metadata').execute()
      except Exception as error:
        print('An error occurred: %s' % error)
    
    def get_mime_message(service, user_id, msg_id):
      try:
        message = service.users().messages().get(userId=user_id, id=msg_id,
                                                 format='raw').execute()
        print('Message snippet: %s' % message['snippet'])
        msg_str = base64.urlsafe_b64decode(message['raw'].encode("utf-8")).decode("utf-8")
        mime_msg = email.message_from_string(msg_str)
        return mime_msg
      except Exception as error:
        print('An error occurred: %s' % error)

    If the message contains an attachment, expand your code with the following:

    def get_attachments(service, user_id, msg_id, store_dir):
      try:
        message = service.users().messages().get(userId=user_id, id=msg_id).execute()
        for part in message['payload']['parts']:
          if(part['filename'] and part['body'] and part['body']['attachmentId']):
            attachment = service.users().messages().attachments().get(id=part['body']['attachmentId'], userId=user_id, messageId=msg_id).execute()
            file_data = base64.urlsafe_b64decode(attachment['data'].encode('utf-8'))
            path = ''.join([store_dir, part['filename']])
            f = open(path, 'wb')
            f.write(file_data)
            f.close()
      except Exception as error:
        print('An error occurred: %s' % error)

    What is a good alternative to sending with Gmail API?

    If you don’t want to use Gmail API, there are alternatives that will send your emails and also help you make sure those emails end up in a recipient’s inbox and not their spam folder.

    One such alternative is Mailtrap Email API – the email-sending solution of the Mailtrap email delivery platform.

    You can use Email API to send emails from any application with a sending throughput of up to ~10000 emails/second. What’s more, this sending solution will allow you to gain more control over your email deliverability

    Users of Email API have access to a batch of actionable analytics features which you can spot and fix sending issues in the early stages, and these features include:

    Email API also offers suppression lists, dedicated IPs, auto IP warmups, and more features, all geared toward helping you boost your deliverability. 

    To start sending with Email API, you will need to create a Mailtrap account and then complete the processes of adding and verifying your domain, demonstrated in the video below.

    With Email API, you have the option of sending via API or SMTP.

    For sending via API, you will copy an API example code provided to you and run it with your app. The code is generated based on your selection of programming language from a dropdown menu. 

    For sending via SMTP, you will need to set up Mailtrap as an SMTP server in your project, app, or email sending service by using the SMTP credentials again provided to you by the solution.

    After the straightforward setup, Email API should be up and running!

    Testing your emails before sending them

    Regardless if you decide on sending emails using Mailtrap Email API, Gmail API, a traditional SMTP server, or a different method, you need to test your emails beforehand.

    This way, you can ensure that your email HTML/CSS is being rendered properly, that your email content is not raising any red flags in terms of spam, and that your sending domain isn’t blacklisted. 

    A testing solution capable of checking all of this and more is Email Sandbox which is also part of Mailtrap’s email delivery platform. 

    The way Email Sandbox works is that it captures all SMTP traffic from staging and dev environments in a virtual inbox. You can then inspect and debug all the emails captured before you send them to real recipients. So, in essence, you are testing emails in a safe environment and have no risk of spamming real recipients while you are at it.

    When using Maitrap Email Sandbox, you have the ability to check the support email clients have for the HTML elements/CSS rules used in your emails, and you can filter the information by device type and email client.

    For each element/rule that is not supported or is just partially supported, you will have a list of email clients having trouble with it as well as a link to the code line containing the element/rule making it easy for you to find and fix the issue.

    Also, as Email Sandbox provides a virtual inbox for you, you will no longer need to test using your personal one, which can be very bad for your domain reputation. 

    To start testing your emails with Email Sandbox, you will first need to complete a 5-minute setup.

    In your Mailtrap account, navigate to Email Testing, select your inbox, and under SMTP Settings, you will find the SMTP/POP3 credentials of your virtual inbox, which you can put into your email client or MTA, as well as the email sending configuration code in different programming languages you can paste into your application.

    Pick one of the options and send your first test email.

    Once the email arrives in your virtual inbox, you can start with inspecting and debugging to make sure it looks exactly the way you intended it to when it reaches recipients. 

    Why is Gmail API better or worse than traditional SMTP?

    Email protocol used

    Simple Mail Transfer Protocol (SMTP) is a set of rules for sending emails either from the sender to the email server or between servers. Most email service providers use SMTP to send emails and POP3/IMAP4 to receive them. To learn more about these protocols, you can read our IMAP vs. POP3 vs. SMTP blog post. Google also provides the Gmail SMTP server as a free SMTP service. Application Programming Interface (API) is an interaction channel used by apps, platforms, and codes to reach each other. With Gmail API, you can send emails using only HyperText Transfer Protocol (HTTP), a set of rules that defines how messages are formatted and transmitted.

    How are emails sent?

    You can call the API from the app to communicate with an email service that is used to send emails from another server. 

    For SMTP, a client establishes a TCP connection to the SMTP server and transfers an email. After authorization, the server sends the email to the recipient’s SMTP server, which, in turn, forwards it to the IMAP4 or POP3 server. Client and server communicate with each other using SMTP commands and responses.

    Authentication

    Gmail API uses open authentication (Oauth2), which only lets you request the scope of access you need. SMTP provides full access to the account using client login and password SMTP authentication.

    Quota

    The usage limit of Gmail API is one billion quota units per day. Each method requires a particular number of quota units. For example, a drafts.create is 10 units and a messages.send is 100 units. Gmail API enforces standard daily mail sending limits. Also, keep in mind that the maximum email size in Gmail is 25MB.

    SMTP or API?

    Each option has its own pros and cons. SMTP is a widely adopted and easy-to-set-up solution to send emails. Moreover, you don’t need any coding skills to handle stuff. Also, you can benefit from using a fake SMTP server such as Mailtrap as a playground for safe email testing.

    Besides, it is a great option to automate processes and provide a wide range of functionality for the app. Also, API can boast an extra level of security, which is crucial if you deal with sending sensitive data in emails.

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