GSP1049

Overview

Cloud Spanner is Google’s fully managed, horizontally scalable relational database service. Customers in financial services, gaming, retail and many other industries trust it to run their most demanding workloads, where consistency and availability at scale are critical.

In this lab, you explore various ways to load data into Cloud Spanner and perform a backup of your database.

What you'll do

• Insert data with DML
• Insert data through a client library
• Insert batch data through a client library
• Load data using Dataflow
• Backup your database

Setup and requirements

Before you click the Start Lab button

Read these instructions. Labs are timed and you cannot pause them. The timer, which starts when you click Start Lab, shows how long Google Cloud resources are made available to you.

This hands-on lab lets you do the lab activities in a real cloud environment, not in a simulation or demo environment. It does so by giving you new, temporary credentials you use to sign in and access Google Cloud for the duration of the lab.

To complete this lab, you need:

• Access to a standard internet browser (Chrome browser recommended).

Note: Use an Incognito (recommended) or private browser window to run this lab. This prevents conflicts between your personal account and the student account, which may cause extra charges incurred to your personal account.

• Time to complete the lab—remember, once you start, you cannot pause a lab.

Note: Use only the student account for this lab. If you use a different Google Cloud account, you may incur charges to that account.

How to start your lab and sign in to the Google Cloud console

1. Click the Start Lab button. If you need to pay for the lab, a dialog opens for you to select your payment method. On the left is the Lab Details pane with the following:

   • The Open Google Cloud console button
   • Time remaining
   • The temporary credentials that you must use for this lab
   • Other information, if needed, to step through this lab

2. Click Open Google Cloud console (or right-click and select Open Link in Incognito Window if you are running the Chrome browser).

   The lab spins up resources, and then opens another tab that shows the Sign in page.

   Tip: Arrange the tabs in separate windows, side-by-side.

   Note: If you see the Choose an account dialog, click Use Another Account.

3. If necessary, copy the Username below and paste it into the Sign in dialog.

   {{{user_0.username | "Username"}}}

   You can also find the Username in the Lab Details pane.

4. Click Next.

5. Copy the Password below and paste it into the Welcome dialog.

   {{{user_0.password | "Password"}}}

   You can also find the Password in the Lab Details pane.

6. Click Next.

   Important: You must use the credentials the lab provides you. Do not use your Google Cloud account credentials. Note: Using your own Google Cloud account for this lab may incur extra charges.

7. Click through the subsequent pages:

   • Accept the terms and conditions.
   • Do not add recovery options or two-factor authentication (because this is a temporary account).
   • Do not sign up for free trials.

After a few moments, the Google Cloud console opens in this tab.

Note: To access Google Cloud products and services, click the Navigation menu or type the service or product name in the Search field.

Activate Cloud Shell

Cloud Shell is a virtual machine that is loaded with development tools. It offers a persistent 5GB home directory and runs on the Google Cloud. Cloud Shell provides command-line access to your Google Cloud resources.

1. Click Activate Cloud Shell at the top of the Google Cloud console.

2. Click through the following windows:

   • Continue through the Cloud Shell information window.
   • Authorize Cloud Shell to use your credentials to make Google Cloud API calls.

When you are connected, you are already authenticated, and the project is set to your Project_ID, . The output contains a line that declares the Project_ID for this session:

Your Cloud Platform project in this session is set to {{{project_0.project_id | "PROJECT_ID"}}}

gcloud is the command-line tool for Google Cloud. It comes pre-installed on Cloud Shell and supports tab-completion.

3. (Optional) You can list the active account name with this command:

gcloud auth list

4. Click Authorize.

Output:

ACTIVE: * ACCOUNT: {{{user_0.username | "ACCOUNT"}}} To set the active account, run: $ gcloud config set account `ACCOUNT`

5. (Optional) You can list the project ID with this command:

gcloud config list project

Output:

[core] project = {{{project_0.project_id | "PROJECT_ID"}}} Note: For full documentation of gcloud, in Google Cloud, refer to the gcloud CLI overview guide.

Task 1. Explore the instance

During deployment, a Cloud Spanner instance, database, and table were created for you.

1. From the Console, open the navigation menu () > View All Products. Under Databases section, click Spanner.

The instance name is banking-instance, click on it to explore the databases. The associated database is named banking-db. Click on it to explore and you will see there is already a table named Customer. Click on it and you will be able to check the schema.

2. The table is currently empty. Navigate back to banking-db overview page. On the left menu, click Spanner Studio and then run the following:

SELECT * FROM Customer;

3. No results are returned.

Task 2. Insert data with DML

The easiest way to insert data into Spanner is via DML. Using the cloud shell and gcloud you can run any DML statement, including INSERT.

1. In Cloud Shell, run the following command:

gcloud spanner databases execute-sql banking-db --instance=banking-instance \ --sql="INSERT INTO Customer (CustomerId, Name, Location) VALUES ('bdaaaa97-1b4b-4e58-b4ad-84030de92235', 'Richard Nelson', 'Ada Ohio')"

2. Return to the Console, on the left menu click Overview. Navigate to the Customer table and select Data, you will see the row you just inserted.

As mentioned before, you can use gcloud to run any DML command. Check the documentation for DML and Spanner.

Of course, loading a database row by row is not very efficient.

Task 3. Insert data through a client library

The optimal way to access Spanner is via a programmatic interface. There are a wide variety of client libraries including C++, C#, Go, Java, Node.js, PHP, Python and Ruby.

1. In the Cloud Shell enter the following command to invoke the Nano text editor and create a new empty configuration file named insert.py.

nano insert.py

2. Paste the code block listed below.

from google.cloud import spanner from google.cloud.spanner_v1 import param_types INSTANCE_ID = "banking-instance" DATABASE_ID = "banking-db" spanner_client = spanner.Client() instance = spanner_client.instance(INSTANCE_ID) database = instance.database(DATABASE_ID) def insert_customer(transaction): row_ct = transaction.execute_update( "INSERT INTO Customer (CustomerId, Name, Location)" "VALUES ('b2b4002d-7813-4551-b83b-366ef95f9273', 'Shana Underwood', 'Ely Iowa')" ) print("{} record(s) inserted.".format(row_ct)) database.run_in_transaction(insert_customer)

3. Press Ctrl+X to exit Nano, Y to confirm the update, and press Enter to save your changes.

4. Run the python code.

python3 insert.py

5. Refresh the Cloud Console, or click on a different item on the left menu and then click again on Data and you will see the new row in your database.

Like with gcloud, you can run any DML statement from the client libraries. You can find multiple examples for all the different languages in the documentation.

This is more flexible than loading data using gcloud, but still has limitations when loading a source containing a large number of rows.

6. Click Check my progress to verify the objective.

Insert data through a client library

Task 4. Insert batch data through a client library

A more optimal way to load data into Spanner is doing so in batches. All of the client libraries support batch loading. This example uses Python.

1. In the Cloud Shell enter the following command to invoke the Nano text editor and create a new empty configuration file named batch_insert.py.

nano batch_insert.py

2. Paste the code block listed below.

from google.cloud import spanner from google.cloud.spanner_v1 import param_types INSTANCE_ID = "banking-instance" DATABASE_ID = "banking-db" spanner_client = spanner.Client() instance = spanner_client.instance(INSTANCE_ID) database = instance.database(DATABASE_ID) with database.batch() as batch: batch.insert( table="Customer", columns=("CustomerId", "Name", "Location"), values=[ ('edfc683f-bd87-4bab-9423-01d1b2307c0d', 'John Elkins', 'Roy Utah'), ('1f3842ca-4529-40ff-acdd-88e8a87eb404', 'Martin Madrid', 'Ames Iowa'), ('3320d98e-6437-4515-9e83-137f105f7fbc', 'Theresa Henderson', 'Anna Texas'), ('6b2b2774-add9-4881-8702-d179af0518d8', 'Norma Carter', 'Bend Oregon'), ], ) print("Rows inserted")

3. Press Ctrl+X to exit Nano, Y to confirm the update, and press Enter to save your changes.

4. Run the python code.

python3 batch_insert.py

5. Go back to Cloud Console, refresh to see the new data you just inserted.

The batch method is more efficient, since it's run as a single request. Only one client-server round trip is needed, reducing latency.

However this is a very slow and resource consuming method to load data.

6. Click Check my progress to verify the objective.

Insert batch data through a client library

Task 5. Load data using Dataflow

Dataflow is a Google Cloud service for streaming and batch data processing at large scale. Dataflow uses multiple workers to run data processing in parallel. The way in which data is processed is defined using pipelines that transform data from its origin (sources) to its destination (sinks).

There are connectors for Spanner that allow you to connect a database as a source or a sink in Dataflow.

In order to load big amounts of data, you can use the serverless distributed power of Dataflow to read data from a source (for example, a CSV file in Google Cloud Storage) and load it into your Spanner database using a sink connector.

1. To prepare for the Dataflow job, in the Cloud Shell run these commands to create a bucket in your project and a folder with an empty file inside it.

gsutil mb gs://{{{project_0.project_id|Project ID}}} touch emptyfile gsutil cp emptyfile gs://{{{project_0.project_id|Project ID}}}/tmp/emptyfile

2. To ensure that the proper APIs and permissions are set, execute the following block of code in the Cloud Shell.

gcloud services disable dataflow.googleapis.com --force gcloud services enable dataflow.googleapis.com

3. From the Console, open the navigation menu () > View All Products. Under Analytics section, click Dataflow.

4. On the top of the screen, click Create Job From Template.

5. Place the following values in the template:

   • Job Name: spanner-load

   • Regional endpoint:

6. Scroll down the Dataflow template selector and you will see all the different blueprints you can use with Dataflow. Of course, you can also create your own tailored pipelines, using the Beam SDK.

There are two main types of templates:

• Stream will create a pipeline for data that is flowing and is processed continuously (for example, online orders from a website).
• Batch will process a dataset that has a beginning and an end (for example, files stored in Google Cloud Storage).

In your scenario, you will load data into Spanner banking database from a CSV file with over 150,000 rows.

7. Select the Text Files on Cloud Storage to Cloud Spanner template.

8. Place the following values in the template:

Item	Value
Cloud Spanner Instance Id	banking-instance
Cloud Spanner Database Id	banking-db
Text Import Manifest file	cloud-training/OCBL372/manifest.json

The manifest.json file format is explained in the tutorial for this template (you can access it by clicking open tutorial just above the parameter input fields).

The manifest file must be stored in a Google Cloud Storage bucket that Dataflow can access to and read from. For this lab, this is the content of manifest.json:

{ "tables": [ { "table_name": "Customer", "file_patterns": [ "gs://cloud-training/OCBL372/Customer_List.csv" ], "columns": [ {"column_name" : "CustomerId", "type_name" : "STRING" }, {"column_name" : "Name", "type_name" : "STRING" }, {"column_name" : "Location", "type_name" : "STRING" } ] } ] }

The manifest file specifies the table, name and type of the columns (in the order that they appear in the CSV file), and the CSV file itself, which is also stored in a Google Cloud Storage bucket.

This is what the CSV file looks like:

9d238899-8348-4642-9c00-77dc4481145b,Nicole Anderson,Ada Ohio 360ecaa6-9ec3-4fa0-81a5-3b0dc629e1fa,Ellen Richardson,Ada Ohio 8ee6c2ea-923b-45db-8d51-7f8e7a117af0,Wendy Daniel,Ada Ohio 1d7112cc-c1ee-414f-9325-95c97f9a25d3,Virginia Beasley,Ada Ohio ...

9. For the Temporary Location parameter input the following value:

{{{project_0.project_id|Project ID}}}/tmp

10. Expand Optional Parameters.

11. Uncheck Use default machine type.

12. Under General purpose, choose the following:

    • Series: E2
    • Machine type: e2-medium (2 vCPU, 4 GB memory)

13. Click Run Job to start the pipeline.

14. The process will take around 12 to 16 minutes. You will see Dataflow go through multiple stages, first starting up the workers and analyzing the pipeline from the template. Then it will read the manifest file and will start processing the CSV file.

Note: If your pipeline fails with an error related to worker nodes not being provisioned, create a new job with the same name from the same template starting from Step 4. This time choose a different Regional endpoint in the United States. For example if Step 5 lists "us-east4" as your Regional endpoint try "us-east1" for your second attempt.

Wait until Dataflow finishes processing before proceeding. It will have a status of Succeeded when complete.

15. Go back to Spanner by selecting it in the left menu on Cloud Console. Navigate to the Customer table and select Data. You will see all the new rows that have been loaded using Dataflow.

16. Navigate back to banking-db overview page. On the left menu, click Spanner Studio and run the following to see the total number of rows in the Customer table:

SELECT COUNT(*) FROM Customer;

With Dataflow templates it is easy (and quick!) to load big amounts of data. You can load dumps from other databases, and load not only CSV but also Avro files following the same procedure. You can even run the process the other way around, using your Spanner database as a source in Dataflow to export the data in CSV or Avro.

17. Click Check my progress to verify the objective.

Load data using Dataflow

Task 6. Backup your database

Using Dataflow as explained above is a way to create backups of your data. But Spanner has its own tool for backups. You can backup a Spanner database from the Cloud Console, client libraries or gcloud commands. Check the previous links for documentation.

In this lab, you will use the Cloud Console to backup your database.

1. Select Backup/Restore from the left menu.

2. Click Create Backup.

3. Place or select the following values in the wizard:

Item	Value
Database Name	banking-db
Backup Name	banking-backup-001
Expiration Date	1 year

4. Click Create.

5. The backup will take around 15 minutes to complete and will appear in the Backups list while being created.

Congratulations!

You now have a solid understanding of various ways to load data into Cloud Spanner Instance and perform backups.

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Manual Last Updated July 17, 2024

Lab Last Tested July 17, 2024

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