docker-compose ignores ubuntu:latest in Dockerfile [duplicate] - docker

I want to build a docker image for the Linkurious project on github, which requires both the Neo4j database, and Node.js to run.
My first approach was to declare a base image for my image, containing Neo4j. The reference docs do not define "base image" in any helpful manner:
Base image:
An image that has no parent is a base image
from which I read that I may only have a base image if that image has no base image itself.
But what is a base image? Does it mean, if I declare neo4j/neo4j in a FROM directive, that when my image is run the neo database will automatically run and be available within the container on port 7474?
Reading the Docker reference I see:
FROM can appear multiple times within a single Dockerfile in order to create multiple images. Simply make a note of the last image ID output by the commit before each new FROM command.
Do I want to create multiple images? It would seem what I want is to have a single image that contains the contents of other images e.g. neo4j and node.js.
I've found no directive to declare dependencies in the reference manual. Are there no dependencies like in RPM where in order to run my image the calling context must first install the images it needs?
I'm confused...

As of May 2017, multiple FROMs can be used in a single Dockerfile.
See "Builder pattern vs. Multi-stage builds in Docker" (by Alex Ellis) and PR 31257 by Tõnis Tiigi.
The general syntax involves adding FROM additional times within your Dockerfile - whichever is the last FROM statement is the final base image. To copy artifacts and outputs from intermediate images use COPY --from=<base_image_number>.
FROM golang:1.7.3 as builder
WORKDIR /go/src/github.com/alexellis/href-counter/
RUN go get -d -v golang.org/x/net/html
COPY app.go .
RUN CGO_ENABLED=0 GOOS=linux go build -a -installsuffix cgo -o app .
FROM alpine:latest
RUN apk --no-cache add ca-certificates
WORKDIR /root/
COPY --from=builder /go/src/github.com/alexellis/href-counter/app .
CMD ["./app"]
The result would be two images, one for building, one with just the resulting app (much, much smaller)
REPOSITORY TAG IMAGE ID CREATED SIZE
multi latest bcbbf69a9b59 6 minutes ago 10.3MB
golang 1.7.3 ef15416724f6 4 months ago 672MB
what is a base image?
A set of files, plus EXPOSE'd ports, ENTRYPOINT and CMD.
You can add files and build a new image based on that base image, with a new Dockerfile starting with a FROM directive: the image mentioned after FROM is "the base image" for your new image.
does it mean that if I declare neo4j/neo4j in a FROM directive, that when my image is run the neo database will automatically run and be available within the container on port 7474?
Only if you don't overwrite CMD and ENTRYPOINT.
But the image in itself is enough: you would use a FROM neo4j/neo4j if you had to add files related to neo4j for your particular usage of neo4j.

Let me summarize my understanding of the question and the answer, hoping that it will be useful to others.
Question: Let’s say I have three images, apple, banana and orange. Can I have a Dockerfile that has FROM apple, FROM banana and FROM orange that will tell docker to magically merge all three applications into a single image (containing the three individual applications) which I could call smoothie?
Answer: No, you can't. If you do that, you will end up with four images, the three fruit images you pulled, plus the new image based on the last FROM image. If, for example, FROM orange was the last statement in the Dockerfile without anything added, the smoothie image would just be a clone of the orange image.
Why Are They Not Merged? I Really Want It
A typical docker image will contain almost everything the application needs to run (leaving out the kernel) which usually means that they’re built from a base image for their chosen operating system and a particular version or distribution.
Merging images successfully without considering all possible distributions, file systems, libraries and applications, is not something Docker, understandably, wants to do. Instead, developers are expected to embrace the microservices paradigm, running multiple containers that talk to each other as needed.
What’s the Alternative?
One possible use case for image merging would be to mix and match Linux distributions with our desired applications, for example, Ubuntu and Node.js. This is not the solution:
FROM ubuntu
FROM node
If we don’t want to stick with the Linux distribution chosen by our application image, we can start with our chosen distribution and use the package manager to install the applications instead, e.g.
FROM ubuntu
RUN apt-get update &&\
apt-get install package1 &&\
apt-get install package2
But you probably knew that already. Often times there isn’t a snap or package available in the chosen distribution, or it’s not the desired version, or it doesn't work well in a docker container out of the box, which was the motivation for wanting to use an image. I’m just confirming that, as far as I know, the only option is to do it the long way, if you really want to follow a monolithic approach.
In the case of Node.js for example, you might want to manually install the latest version, since apt provides an ancient one, and snap does not come with the Ubuntu image. For neo4j we might have to download the package and manually add it to the image, according to the documentation and the license.
One strategy, if size does not matter, is to start with the base image that would be hardest to install manually, and add the rest on top.
When To Use Multiple FROM Directives
There is also the option to use multiple FROM statements and manually copy stuff between build stages or into your final one. In other words, you can manually merge images, if you know what you're doing. As per the documentation:
Optionally a name can be given to a new build stage by adding AS name
to the FROM instruction. The name can be used in subsequent FROM and
COPY --from=<name> instructions to refer to the image built in this
stage.
Personally, I’d only be comfortable using this merge approach with my own images or by following documentation from the application vendor, but it’s there if you need it or you're just feeling lucky.
A better application of this approach though, would be when we actually do want to use a temporary container from a different image, for building or doing something and discard it after copying the desired output.
Example
I wanted a lean image with gpgv only, and based on this Unix & Linux answer, I installed the whole gpg with yum and then copied only the binaries required, to the final image:
FROM docker.io/photon:latest AS builder
RUN yum install gnupg -y
FROM docker.io/photon:latest
COPY --from=builder /usr/bin/gpgv /usr/bin/
COPY --from=builder /usr/lib/libgcrypt.so.20 /usr/lib/libgpg-error.so.0 /usr/lib/
The rest of the Dockerfile continues as usual.

The first answer is too complex, historic, and uninformative for my tastes.
It's actually rather simple. Docker provides for a functionality called multi-stage builds the basic idea here is to,
Free you from having to manually remove what you don't want, by forcing you to allowlist what you do want,
Free resources that would otherwise be taken up because of Docker's implementation.
Let's start with the first. Very often with something like Debian you'll see.
RUN apt-get update \
&& apt-get dist-upgrade \
&& apt-get install <whatever> \
&& apt-get clean
We can explain all of this in terms of the above. The above command is chained together so it represents a single change with no intermediate Images required. If it was written like this,
RUN apt-get update ;
RUN apt-get dist-upgrade;
RUN apt-get install <whatever>;
RUN apt-get clean;
It would result in 3 more temporary intermediate Images. Having it reduced to one image, there is one remaining problem: apt-get clean doesn't clean up artifacts used in the install. If a Debian maintainer includes in his install a script that modifies the system that modification will also be present in the final solution (see something like pepperflashplugin-nonfree for an example of that).
By using a multi-stage build you get all the benefits of a single changed action, but it will require you to manually allowlist and copy over files that were introduced in the temporary image using the COPY --from syntax documented here. Moreover, it's a great solution where there is no alternative (like an apt-get clean), and you would otherwise have lots of un-needed files in your final image.
See also
Multi-stage builds
COPY syntax

Here is probably one of the most fundamental use cases of using multiple FROMs, aka, multi stage builds.
I want want one dockerfile, and I want to change one word and depending on what I set that word to, I get different images depending on whether I want to run, Dev or Publish the application!
Run - I just want to run the app
Dev - I want to edit the code and run the app
Publish - Run the app in production
Lets suppose we're working in the dotnet environment. Heres one single Dockerfile. Without multi stage build, there would be multiple files (builder pattern)
#See https://aka.ms/containerfastmode to understand how Visual Studio uses this Dockerfile to build your images for faster debugging.
FROM mcr.microsoft.com/dotnet/runtime:5.0 AS base
WORKDIR /app
FROM mcr.microsoft.com/dotnet/sdk:5.0 AS build
WORKDIR /src
COPY ["ConsoleApp1/ConsoleApp1.csproj", "ConsoleApp1/"]
RUN dotnet restore "ConsoleApp1/ConsoleApp1.csproj"
COPY . .
WORKDIR "/src/ConsoleApp1"
RUN dotnet build "ConsoleApp1.csproj" -c Release -o /app/build
FROM build AS publish
RUN dotnet publish "ConsoleApp1.csproj" -c Release -o /app/publish
FROM base AS final
WORKDIR /app
COPY --from=publish /app/publish .
ENTRYPOINT ["dotnet", "ConsoleApp1.dll"]
Want to run the app? Leave FROM base AS final as it currently is in the dockerfile above.
Want to dev the source code in the container? Change the same line to FROM build AS final
Want to release into prod? Change the same line to FROM publish AS final

I agree with the OP, that this feature is useful for docker! Here is a different view into the same problem:
If you had multiple FROMs (or a "FROM" and multiple "MERGE"'s, for example) then you can use the docker registry versioning system for the base docker image AND other container elements, and that is the win here: I have third party development tools which do not exist in .deb format, so these tools must be installed by un-taring a tball and is HUGE, so caching on the docker host will be important but versioning/change control of the image is equally important. I (think I) can simply use "RUN git ....", and docker will deal with the caching of the new layer for me, which is what I want; because another container will have the same base image but a different set of HUGE third party tools, so the caching of the base image and the tools image is really important (the 3rd party tools tar can be as big as the base image of say ubuntu so caching of these is really important too). The (suggested) feature just allows all these elements to be managed in a central repo. versioning system.
Said a different way, why do we use FROM at all? If I were to simply git clone an ubuntu image using the RUN command for my "base image/layer", this would create a new layer and docker would cache this anyway...so is there any difference/advantage in using FROM, other than it uses dockers internal versioning system/syntax?

Related

Dockerfile RUN layers vs script

Docker version 19.03.12, build 48a66213fe
So in a dockerfile, if I have the following lines:
RUN yum install aaa \
bbb \
ccc && \
<some cmd> && \
<etc> && \
<some cleanup>
is that a best practice? Should I keep yum part separate than when I call other <commands/scripts>?
If I want a cleaner (vs traceable) Dockerfile, what if I put those lines in a .sh script can just call that script (i.e. COPY followed by a RUN statement). Will the build step run each time, even though nothing is changes inside .sh script**?** Looking for some gotchas here.
I'm thinking, whatever packages are stable, have a separate RUN <those packages> i.e. in one layer and lines which depend upon / change frequently i.e. may use user-defined (docker build time CLI level args) keep those in separate RUN layer (so I can use layer cache effectively).
Wondering if you think keeping a cleaner Dockerfile (calling RUN some.sh) would be less efficient than a traceable Dockerfile (where everything is listed in Dockerfile what makes that image).
Thanks.
In terms of the final image filesystem, you will notice no difference if you RUN the commands directly, or RUN a script, or have multiple RUN commands. The number of layers and the size of the command string doesn't really make any difference at all.
What can you observe?
Particularly on the "classic" Docker build system, each RUN command becomes an image layer. In your example, you RUN yum install && ... && <some cleanup>; if this was split into multiple RUN commands then the un-cleaned-up content would be committed as part of the image and takes up space even though it's removed in a later layer.
"More layers" isn't necessarily bad on its own, unless you have so many layers that you hit an internal limit. The only real downside here is creating a layer with content that you're planning to delete, in which case its space will still be in the final image.
As a more specific example of this, there's an occasional pattern where an image installs some development-only packages, runs an installation step, and uninstalls the packages. An Alpine-based example might look like
RUN apk add --virtual .build-deps \
gcc make \
&& make \
&& make install \
&& apk del .build-deps
In this case you must run the "install" and "uninstall" in the same RUN command; otherwise Docker will create a layer that includes the build-only packages.
(A multi-stage build may be an easier way to accomplish the same goal of needing build-only tools, but not including them in the final image.)
The actual text of the RUN command is visible in docker history and similar inspection commands.
And...that's kind of it. If you think it's more maintainable to keep the installation steps in a separate script (maybe you have some way to use the same script in a non-Docker context) then go for it. I'd generally default to keeping the steps spelled out in RUN commands, and in general try to keep those setup steps as light-weight as possible.
I guess the question is somewhat opinion based.
It depends on what you are after. It's ultimately a tradeoff between development experience and an optimized image.
If you put everything in on RUN instruction, you are reducing the number of layers and therefore the image size to some degree. Also, each layer is stored in the registry, so pushing and pulling would get more time-consuming and expensive.
On the other hand, it means that each small change causes everything in the RUN instruction to run again, as it invalidates the cache for that single layer.
If you are creating temporary files with a RUN instruction that are removed by a later RUN instruction, then it would be better to run both commands in a single instruction to not create a layer with temporary files.
For a production image, I would opt for a single RUN instruction as optimization is more important than build speed and caching, IMO. If you can, you could also use multi staging, where the first stage uses an individual RUN instruction to utilize the layer caching. In the second stage, some artefacts from the first stage are taken and the number of layers is aggressively kept at a minimum. Only the final stage will be pushed and pulled from a registry.
For example, in the below image, the builder stage is using more instructions than strictly required to gain better caching. Even The template file is copied into the first stage, even though it's not used at all there, since it's only read and used at runtime. But this way the final stage can get the output binary and the template with a single COPY instruction.
FROM golang as builder
WORKDIR /src
COPY go.mod go.sum ./
RUN go mod download
COPY *.go /src/
RUN mkdir -p /dist/templates
RUN CGO_ENABLED=0 GOOS=linux GOARCH=amd64 go build -a -o /dist/run .
COPY haproxy.cfg.template /dist/templates/
FROM alpine
WORKDIR /mananger
COPY --from=builder /dist ./
ENTRYPOINT ["./run"]
In terms of script vs RUN instruction, I think it is more idiomatic to use a RUN instruction and concatenate multiple commands with the double ampersand &&. If things get very complex, then it may be better to use a dedicated script to make better use of shell syntax/features. It depends on what you are doing there.
Will the build step run each time, even though nothing is changes inside .sh script**?**
The build step would only run once and get cached. As long as the content of the script would not change, docker would use the cached layer. You need to get the file somehow into the image to run beforehand, so I guess the real cache invalidation would already happen in the COPY instruction, if the file has changed.
As mentioned in the previous paragraph, using a script will cost you at minium 1 COPY or ADD instruction more, introducing an additional layer that could have been avoided, if a RUN instruction had been used.

Dummy downsize after Docker build

Using multi-stage builds, I want to downsize an image at the end of Dockerfile, something like this:
FROM ubuntu AS ubuntu_build
RUN # do a lot of build things
FROM alpine
COPY --from=ubuntu_build /app /app
ENTRYPOINT whatever
the alpine image is small, and in theory only the /app stuff will get copied from the ubuntu image, is this the best trick in the book, or is there some other way to minimize the size of the final image?
Distroless
Google provides instructions and tools to help make distroless images.
"Distroless" images contain only your application and its runtime dependencies. They do not contain package managers, shells or any other programs you would expect to find in a standard Linux distribution.
Why should I use distroless images?
Restricting what's in your runtime container to precisely what's necessary for your app is a best practice employed by Google and other tech giants that have used containers in production for many years. It improves the signal to noise of scanners (e.g. CVE) and reduces the burden of establishing provenance to just what you need.
If your app is a compiled binary then you could get away with a single binary plus the shared libraries it links against. If you limit the libraries you link against you might only need a couple. Here, for instance, is what a minimal C program compiled with gcc links against on my machine:
$ ldd basic-program
linux-vdso.so.1 (0x00007fffd3fa2000)
libc.so.6 => /lib/x86_64-linux-gnu/libc.so.6 (0x00007f2e4611b000)
/lib64/ld-linux-x86-64.so.2 (0x00007f2e4670e000)
Heck, you could even statically link the entire program and have no dependencies at all.
Google provides a set of base images targeted at different languages:
gcr.io/distroless/static (Go, Rust, D)
gcr.io/distroless/base (C, C++)
gcr.io/distroless/java (Java)
gcr.io/distroless/cc (Rust, D)
They have only some bare essential files, far less than what even a minimal distro like alpine pulls in, since it still has the apk package manager, userspace utilities, etc. You use them the same way you describe in your question: as the last stage in a multi-stage build.
FROM gcr.io/distroless/base
COPY --from=build /go/bin/app /
CMD ["/app"]
FROM scratch
You can also go the full raw-food-living-in-the-woods route and build your final image FROM scratch. It doesn't get any purer than that. There's absolutely nothing that you didn't put there yourself. This is the route traefik chose, for instance.
FROM scratch
COPY certs/ca-certificates.crt /etc/ssl/certs/
COPY traefik /
EXPOSE 80
VOLUME ["/tmp"]
ENTRYPOINT ["/traefik"]
Besides use multi-stage, another typical way is use docker-slim to reduce the size of final built out image, like next:
docker-slim build --http-probe your-name/your-app
Detail refers to this guide
Add other common thoughts excerpt from "Five Ways to Slim Your Docker Images" in case you needed:
Think Carefully About Your Application’s Needs
Just install what you really needed in dockerfile.
Use a Small Base Image
Could use Alpine Linux or even directly from scratch, see how to create-the-smallest-possible-docker-container
Use as Few Layers As Possible
Combine run together, more run more layers, more layers more size
Use .dockerignore files
This avoid copy all things to images if use COPY . /, more, if not use .gitignore, you then need to avoid to use COPY . / which may copy some necessary things to image.
Squash Docker Images
The idea here is that after your image is created, you then flatten it as much as possible, using a tool such as docker-squash.

How to speed up Docker build

I'm trying to create a Dockerfile for a project I'm working on. Installing all the required packages through apt and pip takes a couple of minutes. Since the required packages don't change, is there a way so I can skip to the steps that do change?
I'm running Docker CE on OS X (version 17.06.2-ce-mac27).
Yes you can. Create two images
Dockerfile-base
FROM python:3.6
RUN pip install selenium
Then build using below
docker build -f Dockerfile-base -t base .
Dockerfile
FROM base
COPY . .
So you won't rebuild base. And keep on working on the main Dockerfile. There are other possible solutions also like deploying local Nexus package manager and using it to cache packages locally. But then too much of effort for a developer machine
If you use the docker cache each layer of the image will only be rebuilt if it has changed or the layer above has changed.
FROM alpine:latest # First layer
RUN apk add git gcc # Second layer
RUN apk add another-package # Third layer
If the first or second layers are changed (say you add openssl to the second line for example) the second and third layer will be rebuilt without using the cache.
But if only the third layer is changed, only that layer will have to rebuild, while the first and second layer is built from cache.
So sometimes you can move all the stuff that are supposed to be built rarely to the top of the file, and then let stuff that rebuild often be in its own layer further down (even though more layers increases image size).
If you rather move it into multiple images, you can absolutely do as Tarun says above.
If it is only data that you wish to move from one image to another (that is, not installed packages and such) you could check into multi-stage builds which allows you to define multiple images in a single file and let them copy data from the one built before in the file.
To get more information about how the build cache works, check out the docs!

Selecting different code branches when using a shared base image in Docker

I am containerising a codebase that serves multiple applications. I have created three images;
app-base:
FROM ubuntu
RUN apt-get install package
COPY ./app-code /code-dir
...
app-foo:
FROM app-base:latest
RUN foo-specific-setup.sh
and app-buzz which is very similar to app-foo.
This works currently, except I want to be able to build versions of app-foo and app-buzz for specific code branches and versions. It's easy to do that for app-base and tag appropriately, but app-foo and app-buzz can't dynamically select that tag, they are always pinned to app-base:latest.
Ultimately I want this build process automated by Jenkins. I could just dynamically re-write the Dockerfile, or not have three images and just have two nearly-but-not-quite identical Dockerfiles for each app that would need to be kept in sync manually (later increasing to 4 or 5). Each of those solutions has obvious drawbacks however.
I've seen lots of discussions in the past about things such as an INCLUDE statement, or dynamic tags. None seemed to come to anything.
Does anyone have a working, clean(ish) solution to this problem? As long as it means Dockerfile code can be shared across images, I'd be happy. If it also means that the shared layers of images don't need to be rebuilt for each app, then even better.
You could still use build args to do this.
Dockerfile:
FROM ubuntu
ARG APP_NAME
RUN echo $APP_NAME-specific-setup.sh >> /root/test
ENTRYPOINT cat /root/test
Build:
docker build --build-arg APP_NAME=foo -t foo .
Run:
$ docker run --rm foo
foo-specific-setup.sh
In your case you could run the correct script in the RUN using the argument you just set before. You would have one Dockerfile per app-base variant and run the correct set-up based on the build argument.
FROM ubuntu
RUN apt-get install package
COPY ./app-code /code-dir
ARG APP_NAME
RUN $APP_NAME-specific-setup.sh
Any layers before setting the ARG would not need to be rebuilt when creating other versions.
You can then push the built images to separate docker repositories for each app.
If your apps need different ENTRYPOINT instructions, you can have an APP_NAME-entrypoint.sh per app and rename it to entrypoint.sh within your APP_NAME-specific-setup.sh (or pass it through as an argument to run).

I'm trying to make the perfect docker build file, do i need to build it from scratch each time?

For an assignment the marker requires of me to create a dockerfile to build my project's container, however I have a fairly complex set of tasks I need to have work in the right way together for my dockerfile to be of any use to me, so I am currently building a file that takes 30 minutes each time just to see if minor changes affect the outcome in the right way, so my question is, is there a better way of doing this?
The Dockerfile best practices, or an earlier question might help: Creating a Dockerfile - docker starts from scratch on each new build
In my experience, a full build every time means you're working against docker's caching mechanism, usually by having COPY . . early in the Dockerfile.
If the files copied into the image are then used to drive a package manager, or download other sources - try copying just the script or requirements file, then using it, then copying the rest of the sources.
a simplified python example, restated from the best practices link:
COPY requirements.txt .
RUN pip install -r requirements.txt
COPY . .
With that structure, as long as requirements.txt does not change, the first COPY and following RUN command use cached layers and rebuilds are much faster.
The first tip is using COPY/ADD for artifacts that need to be download when docker builds.
The second tip is, you can create one Dockerfile for each step and reuse them in next steps.
for example, if you want to install postgres db, and install wildfly in your image. You can start creating a Dockerfile for postgresDB only, and build it to make your-postgres docker image.
Then create another Dockerfile which reuse your-postgres image by
FROM your-postgres
.....
and so on...

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