ERROR: manifest for hyperledger/fabric-couchdb:latest not found - blockchain

I was following the tutorial listed here to create my first blockchain network. but when I run ./startfabric.sh it gives me the error
# don't rewrite paths for Windows Git Bash users
export MSYS_NO_PATHCONV=1
docker-compose -f docker-compose.yml down
Removing network net_basic
docker-compose -f docker-compose.yml up -d ca.example.com orderer.example.com peer0.org1.example.com couchdb
Creating network "net_basic" with the default driver
Pulling couchdb (hyperledger/fabric-couchdb:latest)...
ERROR: manifest for hyperledger/fabric-couchdb:latest not found
Any help on how I could fix this?

I think you have missed the step with "Download Platform-specific Binaries", which basically takes care to download all relevant images and binary files, such that you won't have to compile them.

Please download the version of couchdb manually.
docker pull "hyperledger/fabric-couchdb:<version>"
create a tag with latest.
docker image tag hyperledger/fabric-couchdb:<version> hyperledger/fabric-couchdb:latest
NOTE:
Solution is only for this case. Why fabric-couchdb with latest tag is missing in docker hub is to be investigated.

Related

How to use Dockerfile COPY command to copy files from parent directories [duplicate]

How can I include files from outside of Docker's build context using the "ADD" command in the Docker file?
From the Docker documentation:
The path must be inside the context of the build; you cannot ADD
../something/something, because the first step of a docker build is to
send the context directory (and subdirectories) to the docker daemon.
I do not want to restructure my whole project just to accommodate Docker in this matter. I want to keep all my Docker files in the same sub-directory.
Also, it appears Docker does not yet (and may not ever) support symlinks: Dockerfile ADD command does not follow symlinks on host #1676.
The only other thing I can think of is to include a pre-build step to copy the files into the Docker build context (and configure my version control to ignore those files). Is there a better workaround for than that?
The best way to work around this is to specify the Dockerfile independently of the build context, using -f.
For instance, this command will give the ADD command access to anything in your current directory.
docker build -f docker-files/Dockerfile .
Update: Docker now allows having the Dockerfile outside the build context (fixed in 18.03.0-ce). So you can also do something like
docker build -f ../Dockerfile .
I often find myself utilizing the --build-arg option for this purpose. For example after putting the following in the Dockerfile:
ARG SSH_KEY
RUN echo "$SSH_KEY" > /root/.ssh/id_rsa
You can just do:
docker build -t some-app --build-arg SSH_KEY="$(cat ~/file/outside/build/context/id_rsa)" .
But note the following warning from the Docker documentation:
Warning: It is not recommended to use build-time variables for passing secrets like github keys, user credentials etc. Build-time variable values are visible to any user of the image with the docker history command.
I spent a good time trying to figure out a good pattern and how to better explain what's going on with this feature support. I realized that the best way to explain it was as follows...
Dockerfile: Will only see files under its own relative path
Context: a place in "space" where the files you want to share and your Dockerfile will be copied to
So, with that said, here's an example of the Dockerfile that needs to reuse a file called start.sh
Dockerfile
It will always load from its relative path, having the current directory of itself as the local reference to the paths you specify.
COPY start.sh /runtime/start.sh
Files
Considering this idea, we can think of having multiple copies for the Dockerfiles building specific things, but they all need access to the start.sh.
./all-services/
/start.sh
/service-X/Dockerfile
/service-Y/Dockerfile
/service-Z/Dockerfile
./docker-compose.yaml
Considering this structure and the files above, here's a docker-compose.yml
docker-compose.yaml
In this example, your shared context directory is the runtime directory.
Same mental model here, think that all the files under this directory are moved over to the so-called context.
Similarly, just specify the Dockerfile that you want to copy to that same directory. You can specify that using dockerfile.
The directory where your main content is located is the actual context to be set.
The docker-compose.yml is as follows
version: "3.3"
services:
service-A
build:
context: ./all-service
dockerfile: ./service-A/Dockerfile
service-B
build:
context: ./all-service
dockerfile: ./service-B/Dockerfile
service-C
build:
context: ./all-service
dockerfile: ./service-C/Dockerfile
all-service is set as the context, the shared file start.sh is copied there as well the Dockerfile specified by each dockerfile.
Each gets to be built their own way, sharing the start file!
On Linux you can mount other directories instead of symlinking them
mount --bind olddir newdir
See https://superuser.com/questions/842642 for more details.
I don't know if something similar is available for other OSes.
I also tried using Samba to share a folder and remount it into the Docker context which worked as well.
If you read the discussion in the issue 2745 not only docker may never support symlinks they may never support adding files outside your context. Seems to be a design philosophy that files that go into docker build should explicitly be part of its context or be from a URL where it is presumably deployed too with a fixed version so that the build is repeatable with well known URLs or files shipped with the docker container.
I prefer to build from a version controlled source - ie docker build
-t stuff http://my.git.org/repo - otherwise I'm building from some random place with random files.
fundamentally, no.... -- SvenDowideit, Docker Inc
Just my opinion but I think you should restructure to separate out the code and docker repositories. That way the containers can be generic and pull in any version of the code at run time rather than build time.
Alternatively, use docker as your fundamental code deployment artifact and then you put the dockerfile in the root of the code repository. if you go this route probably makes sense to have a parent docker container for more general system level details and a child container for setup specific to your code.
I believe the simpler workaround would be to change the 'context' itself.
So, for example, instead of giving:
docker build -t hello-demo-app .
which sets the current directory as the context, let's say you wanted the parent directory as the context, just use:
docker build -t hello-demo-app ..
You can also create a tarball of what the image needs first and use that as your context.
https://docs.docker.com/engine/reference/commandline/build/#/tarball-contexts
This behavior is given by the context directory that the docker or podman uses to present the files to the build process.
A nice trick here is by changing the context dir during the building instruction to the full path of the directory, that you want to expose to the daemon.
e.g:
docker build -t imageName:tag -f /path/to/the/Dockerfile /mysrc/path
using /mysrc/path instead of .(current directory), you'll be using that directory as a context, so any files under it can be seen by the build process.
This example you'll be exposing the entire /mysrc/path tree to the docker daemon.
When using this with docker the user ID who triggered the build must have recursively read permissions to any single directory or file from the context dir.
This can be useful in cases where you have the /home/user/myCoolProject/Dockerfile but want to bring to this container build context, files that aren't in the same directory.
Here is an example of building using context dir, but this time using podman instead of docker.
Lets take as example, having inside your Dockerfile a COPY or ADDinstruction which is copying files from a directory outside of your project, like:
FROM myImage:tag
...
...
COPY /opt/externalFile ./
ADD /home/user/AnotherProject/anotherExternalFile ./
...
In order to build this, with a container file located in the /home/user/myCoolProject/Dockerfile, just do something like:
cd /home/user/myCoolProject
podman build -t imageName:tag -f Dockefile /
Some known use cases to change the context dir, is when using a container as a toolchain for building your souce code.
e.g:
podman build --platform linux/s390x -t myimage:mytag -f ./Dockerfile /tmp/mysrc
or it can be a path relative, like:
podman build --platform linux/s390x -t myimage:mytag -f ./Dockerfile ../../
Another example using this time a global path:
FROM myImage:tag
...
...
COPY externalFile ./
ADD AnotherProject ./
...
Notice that now the full global path for the COPY and ADD is omitted in the Dockerfile command layers.
In this case the contex dir must be relative to where the files are, if both externalFile and AnotherProject are in /opt directory then the context dir for building it must be:
podman build -t imageName:tag -f ./Dockerfile /opt
Note when using COPY or ADD with context dir in docker:
The docker daemon will try to "stream" all the files visible on the context dir tree to the daemon, which can slowdown the build. And requires the user to have recursively permission from the context dir.
This behavior can be more costly specially when using the build through the API. However,with podman the build happens instantaneously, without needing recursively permissions, that's because podman does not enumerate the entire context dir, and doesn't use a client/server architecture as well.
The build for such cases can be way more interesting to use podman instead of docker, when you face such issues using a different context dir.
Some references:
https://docs.docker.com/engine/reference/commandline/build/
https://docs.podman.io/en/latest/markdown/podman-build.1.html
As is described in this GitHub issue the build actually happens in /tmp/docker-12345, so a relative path like ../relative-add/some-file is relative to /tmp/docker-12345. It would thus search for /tmp/relative-add/some-file, which is also shown in the error message.*
It is not allowed to include files from outside the build directory, so this results in the "Forbidden path" message."
Using docker-compose, I accomplished this by creating a service that mounts the volumes that I need and committing the image of the container. Then, in the subsequent service, I rely on the previously committed image, which has all of the data stored at mounted locations. You will then have have to copy these files to their ultimate destination, as host mounted directories do not get committed when running a docker commit command
You don't have to use docker-compose to accomplish this, but it makes life a bit easier
# docker-compose.yml
version: '3'
services:
stage:
image: alpine
volumes:
- /host/machine/path:/tmp/container/path
command: bash -c "cp -r /tmp/container/path /final/container/path"
setup:
image: stage
# setup.sh
# Start "stage" service
docker-compose up stage
# Commit changes to an image named "stage"
docker commit $(docker-compose ps -q stage) stage
# Start setup service off of stage image
docker-compose up setup
Create a wrapper docker build shell script that grabs the file then calls docker build then removes the file.
a simple solution not mentioned anywhere here from my quick skim:
have a wrapper script called docker_build.sh
have it create tarballs, copy large files to the current working directory
call docker build
clean up the tarballs, large files, etc
this solution is good because (1.) it doesn't have the security hole from copying in your SSH private key (2.) another solution uses sudo bind so that has another security hole there because it requires root permission to do bind.
I think as of earlier this year a feature was added in buildx to do just this.
If you have dockerfile 1.4+ and buildx 0.8+ you can do something like this
docker buildx build --build-context othersource= ../something/something .
Then in your docker file you can use the from command to add the context
ADD –from=othersource . /stuff
See this related post https://www.docker.com/blog/dockerfiles-now-support-multiple-build-contexts/
Workaround with links:
ln path/to/file/outside/context/file_to_copy ./file_to_copy
On Dockerfile, simply:
COPY file_to_copy /path/to/file
I was personally confused by some answers, so decided to explain it simply.
You should pass the context, you have specified in Dockerfile, to docker when
want to create image.
I always select root of project as the context in Dockerfile.
so for example if you use COPY command like COPY . .
first dot(.) is the context and second dot(.) is container working directory
Assuming the context is project root, dot(.) , and code structure is like this
sample-project/
docker/
Dockerfile
If you want to build image
and your path (the path you run the docker build command) is /full-path/sample-project/,
you should do this
docker build -f docker/Dockerfile .
and if your path is /full-path/sample-project/docker/,
you should do this
docker build -f Dockerfile ../
An easy workaround might be to simply mount the volume (using the -v or --mount flag) to the container when you run it and access the files that way.
example:
docker run -v /path/to/file/on/host:/desired/path/to/file/in/container/ image_name
for more see: https://docs.docker.com/storage/volumes/
I had this same issue with a project and some data files that I wasn't able to move inside the repo context for HIPAA reasons. I ended up using 2 Dockerfiles. One builds the main application without the stuff I needed outside the container and publishes that to internal repo. Then a second dockerfile pulls that image and adds the data and creates a new image which is then deployed and never stored anywhere. Not ideal, but it worked for my purposes of keeping sensitive information out of the repo.
In my case, my Dockerfile is written like a template containing placeholders which I'm replacing with real value using my configuration file.
So I couldn't specify this file directly but pipe it into the docker build like this:
sed "s/%email_address%/$EMAIL_ADDRESS/;" ./Dockerfile | docker build -t katzda/bookings:latest . -f -;
But because of the pipe, the COPY command didn't work. But the above way solves it by -f - (explicitly saying file not provided). Doing only - without the -f flag, the context AND the Dockerfile are not provided which is a caveat.
How to share typescript code between two Dockerfiles
I had this same problem, but for sharing files between two typescript projects. Some of the other answers didn't work for me because I needed to preserve the relative import paths between the shared code. I solved it by organizing my code like this:
api/
Dockerfile
src/
models/
index.ts
frontend/
Dockerfile
src/
models/
index.ts
shared/
model1.ts
model2.ts
index.ts
.dockerignore
Note: After extracting the shared code into that top folder, I avoided needing to update the import paths because I updated api/models/index.ts and frontend/models/index.ts to export from shared: (eg export * from '../../../shared)
Since the build context is now one directory higher, I had to make a few additional changes:
Update the build command to use the new context:
docker build -f Dockerfile .. (two dots instead of one)
Use a single .dockerignore at the top level to exclude all node_modules. (eg **/node_modules/**)
Prefix the Dockerfile COPY commands with api/ or frontend/
Copy shared (in addition to api/src or frontend/src)
WORKDIR /usr/src/app
COPY api/package*.json ./ <---- Prefix with api/
RUN npm ci
COPY api/src api/ts*.json ./ <---- Prefix with api/
COPY shared usr/src/shared <---- ADDED
RUN npm run build
This was the easiest way I could send everything to docker, while preserving the relative import paths in both projects. The tricky (annoying) part was all the changes/consequences caused by the build context being up one directory.
One quick and dirty way is to set the build context up as many levels as you need - but this can have consequences.
If you're working in a microservices architecture that looks like this:
./Code/Repo1
./Code/Repo2
...
You can set the build context to the parent Code directory and then access everything, but it turns out that with a large number of repositories, this can result in the build taking a long time.
An example situation could be that another team maintains a database schema in Repo1 and your team's code in Repo2 depends on this. You want to dockerise this dependency with some of your own seed data without worrying about schema changes or polluting the other team's repository (depending on what the changes are you may still have to change your seed data scripts of course)
The second approach is hacky but gets around the issue of long builds:
Create a sh (or ps1) script in ./Code/Repo2 to copy the files you need and invoke the docker commands you want, for example:
#!/bin/bash
rm -r ./db/schema
mkdir ./db/schema
cp -r ../Repo1/db/schema ./db/schema
docker-compose -f docker-compose.yml down
docker container prune -f
docker-compose -f docker-compose.yml up --build
In the docker-compose file, simply set the context as Repo2 root and use the content of the ./db/schema directory in your dockerfile without worrying about the path.
Bear in mind that you will run the risk of accidentally committing this directory to source control, but scripting cleanup actions should be easy enough.

AWS CodeBuild with Multi Docker Containers: unable to prepare context: unable to evaluate symlinks in Dockerfile path

so I am trying to deploy my multi-docker container(Frontend, Backend, and Nginx containers) application in AWS BeansTalk. I am using CodeBuild to build the docker images using buildspec.yml file. The build fails when trying to build the first container(containerizing frontend application). Kindly refer to the image attached for the error details.
It is basically saying could not find the Dockerfile in the client directory but the funny thing is that it exists and it works as expected locally when I build the containers with docker-compose.
Here is the project directory:
buildspec.yml file:
For the benefit of others, The reason for the error is that the Dockerfile is missing in the location. Make sure you have the DockerFile inside the directory (./client in this case). It has to be exactly spelled as Dockerfile. If it's not, check the source repo and ensure that the Dockerfile file is committed.

MQ Custom Docker Image - MQM Group Not Found

Description: Getting the following error when running a docker build. I thought mqm group would be automatically created by default. Doesn't mention otherwise in the site link below. Can someone else try this?
System Notes:(VS Code- Docker build), windows machine.
Error:
useradd: group 'mqm' does not exist
Reference site for instructions:
IBM MQ Customer Docker Image Instructions
Docker File:
FROM ibmcom/mq
USER root
RUN useradd alice -G mqm && \
echo alice:passw0rd | chpasswd
USER mqm
COPY 20-config.mqsc /etc/mqm/
Duplicate of ibmcom/mq docker image backward compatibility issue
From 9.1.5 the container does not use OS based users or groups. This is to conform to cloud best practices. Instead a file based system is being used. This is so that when you roll-out the container in a cloud into production you can switch to an LDAP based system.
The 9.1.5 container uses htpasswd, with the relevant file in /etc/mqm/
For development, if you are not going to create new users, then you can use the 9.1.5 container. If you want to create new users, then you can use 9.1.4 or earlier, or use htpasswd with bcrypt to create the users.
I was using a deprecated site apparently that's in the docker repo link. I guess its a problem with docker and they can`t remove it. Please follow the instructions here. I had no issue.
https://github.com/ibm-messaging/mq-container

How do I get a podman/buildah container to run under CentOS on GCE?

1. Summarize the problem
I am following this simple tutorial from Developers RedHat to get a simple node/express container working.
I cannot get a container to run under a CentOS 7 VM on GCE.
I have a CentOS 7 GCE virtual machine, where I have Docker installed.
I am able to successfully build and run Docker containers and push them to Google's container registry with no problem.
Now I am trying to build podman/buildah containers, and do the same.
I have buildman/podman installed. When I run this:
podman build -t hello-world-nodejs .
I get the following error message:
cannot clone: Invalid argument user namespaces are not enabled in /proc/sys/user/max_user_namespaces Error: could not get runtime: cannot re-exec process
any ideas?
Additionally, if there are any guides into getting this image into Google's container registry, and running under Cloud Run, it would be greatly appreciated.
Ultimately the destination for some containers is a cloud service.
2. Provide background including what you've already tried
I have tried doing a web search for a solution, nothing found that has solved the problem so far.
3. Show some code
podman build -t hello-world-nodejs .
4. Describe expected and actual results including any error messages
I can create and run docker images/containers on this GCE VM, I am trying to do the same with buildah/podman.
The following solved this issue for me:
sudo bash -c 'echo 10000 > /proc/sys/user/max_user_namespaces'
sudo bash -c "echo $(whoami):110000:65536 > /etc/subuid"
sudo bash -c "echo $(whoami):110000:65536 > /etc/subgid"
And then if you encounter an errors related to lchown run the following:
sudo rm -rf ~/.{config,local/share}/containers /run/user/$(id -u)/{libpod,runc,vfs-*}
I have spun up a CentOS 7 VM on GCE and got same issue. The issue is caused because User Namespaces is not enabled on the kernel by default. You have 2 options, either running podman as root (or using sudo) or enabling User Namespaces in your CentOS VM (the hard way).
According to the post here, the use of user namespace and the allocations of uid and gid’s that are required to make rootless containers work securely in your environment.
Probably StackOverflow is not the best place to ask this question. It's better to ask in the ServerFault site since it's a server and not coding problem.

AWS Elastic Beanstalk - .ebextensions

My app currently uses a folder called "Documents" that is located in the root of the app. This is where it stores supporting docs, temporary files, uploaded files etc. I'm trying to move my app from Azure to Beanstalk and I don't know how to give permissions to this folder and sub-folders. I think it's supposed to be done using .ebextensions but I don't know how to format the config file. Can someone suggest how this config file should look? This is an ASP.NET app running on Windows/IIS.
Unfortunately, you cannot use .ebextensions to set permissions to files/folders within your deployment directory.
If you look at the event hooks for an elastic beanstalk deployment:
https://docs.aws.amazon.com/elasticbeanstalk/latest/dg/customize-containers-windows-ec2.html#windows-container-commands
You'll find that commands run before the ec2 app and web server are set up, and
container_commands run after the ec2 app and web server are setup, but before your application version is deployed.
The solution is to use a wpp.targets file to set the necessary ACLs.
The following SO post is most useful
Can Web Deploy's setAcl provider be used on a sub-directory?
Given below is the sample .ebextensions config file to create a directory/file and modify the permissions and add some content to the file
====== .ebextensions/custom_directory.config ======
commands:
create_directory:
command: mkdir C:\inetpub\AspNetCoreWebApps\backgroundtasks\mydirectory
command: cacls C:\inetpub\AspNetCoreWebApps\backgroundtasks\mydirectory /t /e /g username:W
files:
"C:/inetpub/AspNetCoreWebApps/backgroundtasks/mydirectory/mytestfile.txt":
content: |
This is my Sample file created from ebextensions
ebextensions go into the root of the application source code through a directory called .ebextensions. For more information on how to use ebextensions, please go through the documentation here
Place a file 01_fix_permissions.config inside .ebextensions folder.
files:
"/opt/elasticbeanstalk/hooks/appdeploy/pre/49_change_permissions.sh":
mode: "000755"
owner: root
group: root
content: |
#!/usr/bin/env bash
sudo chown -R ec2-user:ec2-user tmp/
Following that you can set your folder permissions as you want.
See this answer on Serverfault.
There are platform hooks that you can use to run scripts at various points during deployment that can get you around the shortcomings of the .ebextension Commands and Platform Commands that Napoli describes.
There seems to be some debate on whether or not this setup is officially supported, but judging by comments made on the AWS github, it seems to be not explicitly prohibited.
I can see where Napoli's answer could be the more standard MS way of doing things, but wpp.targets looks like hot trash IMO.
The general scheme of that answer is to use Commands/Platform commands to copy a script file into the appropriate platform hook directory (/opt/elasticbeanstalk/hooks or C:\Program Files\Amazon\ElasticBeanstalk\hooks\ ) to run at your desired stage of deployment.
I think its worth noting that differences exist between platforms and versions such as Amazon Linux 1 and Linux 2.
I hope this helps someone. It took me a day to gather that info and what's on this page and pick what I liked best.
Edit 11/4 - I would like to note that I saw some inconsistencies with the File .ebextension directive when trying to place scripts drirectly into the platform hook dir's during repeated deployments. Specifically the File directive failed to correctly move the backup copies named .bak/.bak1/etc. I would suggest using a Container Command to copy with overwriting from another directory into the desired hook directory to overcome this issue.