Introduction to Istio

Decoupling at Layer 5

Lee Calcote

calcotestudios.com/talks

Lee Calcote

linkedin.com/in/leecalcote

@lcalcote

gingergeek.com

lee@calcotestudios.com

cloud native and its management

calcotestudios.com/talks

github.com/leecalcote

Service Mesh Patterns

Naveen Jain

Our virtual Lab Assistants

Kanishkar J

Shivay Lamba

@howdevelop

@nveenjain

@_kanishkarj_

Connect

Collaborate

Contribute

Join Slack http://slack.layer5.io

Prereq

Confirm Prerequisites

Start Docker Desktop, Minikube or other.
(either single-node or multi-node clusters will work)
Verify that you have a functional Docker environment by running :

$ docker run hello-world
Unable to find image 'hello-world:latest' locally
latest: Pulling from library/hello-world
1b930d010525: Pull complete
Digest: sha256:0e11c388b664df8a27a901dce21eb89f11d8292f7fca1b3e3c4321bf7897bffe
Status: Downloaded newer image for hello-world:latest

Hello from Docker!

Docker and Kubernetes

Prereq

@lcalcote

Prepare Docker Desktop

Ensure your Docker Desktop VM has 4GB of memory assigned.

Ensure Kubernetes is enabled.

Prereq

@lcalcote

Deploy Kubernetes

Confirm access to your Kubernetes cluster.

$ kubectl version --short
Client Version: v1.14.1
Server Version: v1.14.1

$ kubectl get nodes
NAME             STATUS   ROLES    AGE   VERSION
docker-desktop   Ready    master   10m   v1.14.1

Prereq

v1.9 or higher

@lcalcote

meshery.io

Deploy Management Plane

Management
Plane

Provides expanded governance, backend system integration, multi-mesh, federation, expanded policy, and dynamic application and mesh configuration.

Control Plane

Data Plane

brew tap layer5io/tap
brew install mesheryctl
mesheryctl start

Install Meshery

Prereq

@lcalcote

Using brew

Using bash

curl -L https://git.io/meshery | sudo bash -

kubectl config view --minify --flatten > config_minikube.yaml

If using minikube:

What is a Service Mesh?

a dedicated layer for managing service-to-service communication

So, a microservices platform?

obviously.

Orchestrators don't bring all that you need

and neither do service meshes,

but they do get you closer.

partially.

a services-first network

@lcalcote

What is Istio?

an open platform to connect, manage, and secure microservices

Observability
Resiliency
Traffic Control
Security
Policy Enforcement

istio.io

github.com/istio

@IstioMesh

@lcalcote

Reviews v1

Reviews Pod

Reviews v2

Reviews v3

Product Pod

Details Container

Details Pod

Ratings Container

Ratings Pod

Product Container

Reviews Service

Ratings Service

Details Service

Product Service

BookInfo Sample App

@lcalcote

BookInfo Sample App on Service Mesh

Reviews v1

Reviews Pod

Reviews v2

Reviews v3

Product Pod

Details Container

Details Pod

Ratings Container

Ratings Pod

Product Container

Envoy sidecar

Reviews Service

Enovy sidecar

Envoy ingress

Product Service

Ratings Service

Details Service

@lcalcote

Observability

what gets people hooked on service metrics

Goals

Metrics without instrumenting apps
Consistent metrics across fleet
Trace flow of requests across services
Portable across metric back-end providers

You get a metric! You get a metric! Everyone gets a metric!

@lcalcote

Traffic Control

control over chaos

Traffic splitting
- L7 tag based routing?
Traffic steering
- Look at the contents of a request and route it to a specific set of instances.
Ingress and egress routing

Resilency

Systematic fault injection
Timeouts and Retries with timeout budget
Control connection pool size and request load
Circuit breakers and Health checks

content-based traffic steering

Missing: application lifecycle management, but not by much

Missing: distributed debugging; provide nascent visibility (topology)

@lcalcote

Relating to

Service Meshes

Which is why...

I have a container orchestrator.

@lcalcote

Core

Capabilities

Cluster Management
- Host Discovery
- Host Health Monitoring
Scheduling
Orchestrator Updates and Host Maintenance
Service Discovery
Networking and Load Balancing
Stateful Services
Multi-Tenant, Multi-Region

Additional

Key Capabilities

Application Health and Performance Monitoring
Application Deployments
Application Secrets

minimal capabilities required to qualify as a container orchestrator

Service meshes generally rely on these underlying layers.

@lcalcote

Which is why...

I have an API gateway.

@lcalcote

Microservices API Gateways

Ambassador uses Envoy
Kong uses Nginx
OpenResty uses Nginx
Traefik

north-south vs. east-west

Which is why...

I have client-side libraries.

Enforcing consistency is challenging.

Foo Container

Flow Control

Foo Pod

Go Library
A v1

Network Stack

Service Discovery

Circuit Breaking

Application / Business Logic

Bar Container

Flow Control

Bar Pod

Go Library
A v2

Network Stack

Service Discovery

Circuit Breaking

Application / Business Logic

Baz Container

Flow Control

Baz Pod

Java Library
B v1

Network Stack

Service Discovery

Circuit Breaking

Application / Business Logic

Retry Budgets

Rate Limiting

@lcalcote

Why use a Service Mesh?

to avoid...

Bloated service code
Duplicating work to make services production-ready
- Load balancing, auto scaling, rate limiting, traffic routing...
Inconsistency across services
- Retry, tls, failover, deadlines, cancellation, etc., for each language, framework
- Siloed implementations lead to fragmented, non-uniform policy application and difficult debugging
Diffusing responsibility of service management

@lcalcote

What do we need?

• Observability

• Logging
• Metrics
• Tracing

• Traffic Control

• Resiliency

• Efficiency
• Security

• Policy

@lcalcote

...a Service Mesh

@lcalcote

DEV

OPS

Decoupling at Layer 5

where Dev and Ops meet

Problem: too much infrastructure code in services

Help with Modernization

@lcalcote

Can modernize your IT inventory without:
- Rewriting your applications
- Adopting microservices, regular services are fine
- Adopting new frameworks
- Moving to the cloud

address the long-tail of IT services

Get there for free

Service Mesh Architectures

Service Mesh Architecture

Data Plane

Touches every packet/request in the system.
Responsible for service discovery, health checking, routing, load balancing, authentication, authorization, and observability.

Ingress Gateway

Egress Gateway

@lcalcote

Service Mesh Architecture

No control plane? Not a service mesh.

Control Plane

Provides policy, configuration, and platform integration.
Takes a set of isolated stateless sidecar proxies and turns them into a service mesh.
Does not touch any packets/requests in the data path.

Data Plane

Touches every packet/request in the system.
Responsible for service discovery, health checking, routing, load balancing, authentication, authorization, and observability.

Ingress Gateway

Egress Gateway

@lcalcote

Service Mesh Architecture

Control Plane

Data Plane

Touches every packet/request in the system.
Responsible for service discovery, health checking, routing, load balancing, authentication, authorization, and observability.

Provides policy, configuration, and platform integration.
Takes a set of isolated stateless sidecar proxies and turns them into a service mesh.
Does not touch any packets/requests in the data path.

You need a management plane.

Ingress Gateway

Management
Plane

Provides federation, backend system integration, expanded policy and governance, continuous delivery integration, workflow, chaos, and application performance tuning.

Egress Gateway

@lcalcote

Pilot

Citadel

Mixer

Control Plane

Data Plane

istio-system namespace

policy check

Foo Pod

Proxy Sidecar

Service Foo

tls certs

discovery & config

Foo Container

Bar Pod

Proxy Sidecar

Service Bar

Bar Container

Out-of-band telemetry propagation

telemetry

reports

Control flow

application traffic

Application traffic

application namespace

telemetry reports

Istio Architecture

Galley

Ingress Gateway

Egress Gateway

@lcalcote

Control Plane

Data Plane

octa-system namespace

policy check

Foo Pod

Proxy
Sidecar

Service Foo

discovery & config

Foo Container

Bar Pod

Service Bar

Bar Container

Out-of-band telemetry propagation

telemetry

reports

Control flow

application traffic

Application traffic

application namespace

telemetry reports

Octarine Architecture

Policy
Engine

Security Engine

Visibility
Engine

Proxy
Sidecar

@lcalcote

Control Plane

Data Plane

linkerd-system namespace

Foo Pod

Proxy Sidecar

Service Foo

Foo Container

Bar Pod

Proxy Sidecar

Service Bar

Bar Container

Out-of-band telemetry propagation

telemetry

scarping

Control flow during request processing

application traffic

Application traffic

application namespace

telemetry scraping

Architecture

destination

Prometheus

Grafana

tap

web

CLI

proxy-api

public-api

Linkerd

proxy-injector

@lcalcote

Deploy Istio

@lcalcote

Install Istio using Meshery
Find control plane namespace
Inspect control plane services
Inspect control plane components

open http://localhost:9081

kubectl get namespaces

kubectl get svc -n istio-system

kubectl get pod -n istio-system

Lab 1

github.com/layer5io/istio-service-mesh-workshop

Our service mesh of study: Istio

Pilot

Citadel

Mixer

Control Plane

Data Plane

istio-system namespace

policy check

Foo Pod

Proxy Sidecar

Service Foo

tls certs

discovery & config

Foo Container

Bar Pod

Proxy Sidecar

Service Bar

Bar Container

Out-of-band telemetry propagation

telemetry

reports

Control flow

application traffic

Application traffic

application namespace

telemetry reports

Istio Architecture

@lcalcote

Galley

Ingress Gateway

Egress Gateway

Service Proxy Sidecar

- A C++ based L4/L7 proxy

- Low memory footprint

- In production at Lyft™

@lcalcote

Capabilities:

API driven config updates → no reloads
Zone-aware load balancing w/ failover
Traffic routing and splitting
Health checks, circuit breakers, timeouts, retry budgets, fault injection…
HTTP/2, gRPC, web sockets, tcp
Transparent proxying
Designed for observability

the included battery

Data Plane

Pod

Proxy sidecar

App Container

the workhorse

What are Galley and Pilot?

@lcalcote

provides service discovery to sidecars

manages sidecar configuration

Pilot

Citadel

the head of the ship

Mixer

istio-system namespace

system of record for service mesh

}

provides abstraction from underlying platforms

Galley

Control Plane

What's Mixer for?

Point of integration with infrastructure back ends
- Intermediates between Istio and back ends, under operator control
- Enables platform and environment mobility
Responsible for policy evaluation and telemetry reporting
- Provides granular control over operational policies and telemetry
Has a rich configuration model
- Intent-based config abstracts most infrastructure concerns

@lcalcote

an attribute-processing and routing machine

operator-focused

Precondition checking
Quota management
Telemetry reporting

Pilot

Citadel

Mixer

istio-system namespace

Galley

Control Plane

Mixer

@lcalcote

Mixer

Control Plane

Data Plane

istio-system namespace

Foo Pod

Proxy sidecar

Service Foo

Foo Container

Out-of-band telemetry propagation

Control flow during request processing

application traffic

application namespace

telemetry reports

an attribute processing engine

What's Citadel for?

@lcalcote

Verifiable identity
- Issues certs
- Certs distributed to service proxies
- Mounted as a Kubernetes secret
Secure naming / addressing
Traffic encryption

security at scale

security by default

Orchestrate Key & Certificate:

Generation
Deployment
Rotation
Revocation

Pilot

Citadel

Mixer

istio-system namespace

Galley

Control Plane

Q&A

Break

Deploy Sample App

@lcalcote

Multi-language, multi-service application
Automatic vs manual sidecar injection
Verify install

Use Meshery or install manually

Lab 2

Sidecar Injection

@lcalcote

Automatic sidecar injection leverages Kubernetes' Mutating Webhook Admission Controller.

Verify whether your Kubernetes deployment supports these APIs by executing:
Inspect the istio-sidecar-injector webhook:

If your environment does NOT this API, then you may manually inject the istio sidecar.

Lab 2

github.com/layer5io/istio-service-mesh-workshop

kubectl get mutatingwebhookconfigurations
kubectl get mutatingwebhookconfigurations istio-sidecar-injector -o yaml

kubectl api-versions | grep admissionregistration

Sidecars proxy can be either manually or automatically injected into your pods.

Deploy Sample App with Automatic Sidecar Injection

@lcalcote

Verify presence of the sidecar injector

Envoy ingress

kubectl -n istio-system get deployment -l istio=sidecar-injector

Lab 2

github.com/layer5io/istio-service-mesh-workshop

2. Confirm namespace label

kubectl get ns -L istio-injection

Deploy Sample App with Manual Sidecar Injection

@lcalcote

Envoy ingress

In namespaces without the istio-injection label, you can use istioctl kube-inject to manually inject Envoy containers in your application pods before deploying them:

istioctl kube-inject -f <your-app-spec>.yaml | kubectl apply -f -

Lab 2

github.com/layer5io/istio-service-mesh-workshop

Expose BookInfo via Istio Ingress Gateway

@lcalcote

Inspecting the Istio Ingress Gateway
Configure Istio Ingress Gateway for Bookinfo
Inspect the Istio proxy of the productpage pod

Istio ingress gateway

application traffic

Lab 3

github.com/layer5io/istio-service-mesh-workshop

Telemetry

Core Infrastructure
Initative

Service Mesh Interface (SMI)

Configuration

Security

Telemetry

Control Plane

Data
Plane

service mesh ns

Foo Pod

Proxy Sidecar

Service Foo

Foo Container

Bar Pod

Proxy Sidecar

Service Bar

Bar Container

Out-of-band telemetry propagation

Control flow

application traffic

http / gRPC

Application traffic

application namespace

Meshery Architecture

Ingress Gateway

Egress Gateway

Management
Plane

meshery

adapter

gRPC

kube-api

kube-system

@lcalcote

Load Generation

Lab 4

@mesheryio

meshery.io

1. Use Meshery to generate load on Bookinfo

2. View in monitoring tools

Lab 4 Tasks

@lcalcote

Uses pluggable adapters to extend its functionality
- Adapters run within the Mixer process
Adapters are modules that interface to infrastructure backends
- (logging, metrics, quotas, etc.)
Multi-interface adapters are possible
- (some adapters send logs and metrics)

Mixer Adapters

Layer5

Prometheus

Stackdriver

Open Policy Agent

Grafana

Fluentd

Statsd

Pilot

Citadel

Mixer

istio-system namespace

Galley

Control Plane

types: logs, metrics, access control, quota

Metrics

@lcalcote

Mixer

Control Plane

Data Plane

istio-system namespace

Foo Pod

Proxy sidecar

Service Foo

Foo Container

Out-of-band telemetry propagation

Control flow during request processing

application traffic

application namespace

telemetry reports

Lab 4

Expose services with NodePort:
Find port assigned to Prometheus:

kubectl -n istio-system edit svc prometheus

kubectl -n istio-system get svc prometheus

Metrics Dashboard

@lcalcote

Lab 4

Expose services with NodePort:
Find port assigned to Grafana:

kubectl -n istio-system edit svc grafana

kubectl -n istio-system get svc grafana

Grafana

@lcalcote

Lab 4

Distributed Tracing

Jaeger

github.com/layer5io/istio-service-mesh-workshop

Distributed Tracing

Jaeger

@lcalcote

The istio-proxy collects and propagates the following headers from the incoming request to any outgoing requests:

x-request-id
x-b3-traceid
x-b3-spanid
x-b3-parentspanid
x-b3-sampled
x-b3-flags
x-ot-span-context

Lab 4

Expose services with NodePort:
Find port assigned to Jaeger:

kubectl -n istio-system edit svc tracing

kubectl -n istio-system get svc tracing

github.com/layer5io/istio-service-mesh-workshop

Services Observation

Kiali

@lcalcote

Lab 4

Expose services with NodePort:
Find port assigned to Kiali:

kubectl -n istio-system edit svc kiali

kubectl -n istio-system get svc kiali

github.com/layer5io/istio-service-mesh-workshop

Q&A

Break

Request Routing and Canary Testing

@lcalcote

Configure the default route for all services to V1
Content based routing
Canary Testing - Traffic Shifting

layer5.io/workshops

kubectl apply -f samples/bookinfo/networking/destination-rule-all-mtls.yaml

Lab 5

Timeouts & Retries

@lcalcote

Web

Service Foo

Timeout = 600ms
Retries = 3

Timeout = 300ms
Retries = 3

Timeout = 900ms
Retries = 3

Service Bar

Database

Timeout = 500ms
Retries = 3

Timeout = 300ms
Retries = 3

Timeout = 900ms
Retries = 3

Deadlines

Web

Service Foo

Deadline = 600ms

Deadline = 496ms

Service Bar

Database

Deadline = 428ms

Deadline=180ms

Elapsed=104ms

Elapsed=68ms

Elapsed=248ms

layer5.io/workshops

Fault Injection and Rate-Limiting

@lcalcote

Inject a route rule to create a fault using HTTP delay
Inject a route rule to create a fault using HTTP abort
Verify fault injection

Lab 6

Circuit Breaking

@lcalcote

Deploy a client for the app
1. With manual sidecar injection:
Initial test calls from client to server
Time to trip the circuit

Lab 7

Mutual TLS & Identity Verification

@lcalcote

Verify mTLS
Understanding SPIFFE

Lab 8

Lee Calcote

cloud native and its management

@lcalcote

calcotestudios.com/talks

linkedin.com/in/leecalcote

layer5.io/subscribe

Service Mesh Deployment Models

If we have time...

Client

Edge Cache

Istio Gateway

(envoy)

Cache Generator

Collection of VMs running APIs

service mesh

Istio VirtualService

Istio ServiceEntry

Situation:

existing services running on VMs (that have little to no service-to-service traffic).
nearly all traffic flows from client to the service and back to client.

Benefits:

gain granular traffic control (e.g path rewrites).
detailed service monitoring without immediately deploying a thousand sidecars.

Ingress

Istio - The Weather Company's Journey

Out-of-band telemetry propagation

Application traffic

@lcalcote

Control flow

Proxy per Node

Service A

linkerd

Node (server)

Service A

Service B

linkerd

Node (server)

Service A

Service C

linkerd

Node (server)

Advantages:

Less (memory) overhead.
Simpler distribution of configuration information.
primarily physical or virtual server based; good for large monolithic applications.

Disadvantages:

Coarse support for encryption of service-to-service communication, instead host-to-host encryption and authentication policies.
Blast radius of a proxy failure includes all applications on the node, which is essentially equivalent to losing the node itself.
Not a transparent entity, services must be aware of its existence.

Configuration

Security

Telemetry

Control Plane

Data
Plane

service mesh ns

Foo Pod

Proxy Sidecar

Service Foo

Foo Container

Bar Pod

Proxy Sidecar

Service Bar

Bar Container

Out-of-band telemetry propagation

Control flow

Application traffic

application namespace

Istio v1.0 Multi-Cluster

@lcalcote

Ingress Gateway

kube-api

kube-system

Barz Pod

Proxy Sidecar

Service Bar

Baz Container

application namespace

kube-api

kube-system

LOCAL CLUSTER

REMOTE CLUSTER

Egress Gateway

injector

Shared Root CA

layer5.io/books

Advantages:

Good starting point for building a brand-new microservices architecture or for migrating from a monolith.

Disadvantages:

When the number of services increase, it becomes difficult to manage.

Router "Mesh"

Fabric Model

Advantages:

Granular encryption of service-to-service communication.
Can be gradually added to an existing cluster without central coordination.

Disadvantages:

Lack of central coordination. Difficult to scale operationally.

Ingress or Edge Proxy

Advantages:

Works with existing services that can be broken down over time.

Disadvantages:

Is missing the benefits of service-to-service visibility and control.