First of all, let us have a deeper look into a Dockerfile. I have set up a repository for demo purposes for this question, too.
# We use a so called two stage build.
# Basically this means we build our go binary in one image
# which has the go compiler and all the required tools and libraries.
# However, since we do not need those in our production image,
# we copy the binary created into a basic alpine image
# resulting in a much smaller image for production.
# We define our image for the build environment...
FROM golang:1.11-alpine3.8 as build
# ...and copy our project directory tp the according place.
COPY . "/go/src/github.com/mwmahlberg/so-postgres-compose"
# We set our work directory...
WORKDIR /go/src/github.com/mwmahlberg/so-postgres-compose
# ...and add git, which - forever reason, is not included into the golang image.
RUN apk add git
# We set up our dependency management and make sure all dependencies outside
# the standard library are installed.
RUN set -x && \
go get github.com/golang/dep/cmd/dep && \
dep ensure -v
# Finally, we build our binary and name it accordingly
RUN CGO_ENABLED=0 GOOS=linux GOARCH=amd64 go build -o /apiserver
# Now for the second stage, we use a basic alpine image...
FROM alpine:3.8
# ... update it...
RUN apk --no-cache upgrade
# .. and take the binary from the image we build above.
# Note the location: [/usr]{/bin:/sbin} are reserved for
# the OS's package manager. Binaries added to an OS by
# the administrator which are not part of the OS's package
# mangement system should always go below /usr/local/{bin,sbin}
COPY --from=build /apiserver /usr/local/bin/apiserver
# Last but not least, we tell docker which binary to execute.
ENTRYPOINT ["/usr/local/bin/apiserver"]
The last line should actually do the trick: ENTRYPOINT specifies the command to be executed when a container is started. Arguments are appended to this command. So to add your connection string, you could do the following
api:
build: .
restart: always
command: "host=db user=user dbname=dbname sslmode=disable password=123"
ports:
- 8080:8080
links:
- db
The last thing you should do is to have a static configuration for a docker image, like you show in your example. You basically set a static connection string, which deprives you of much of the flexibility using containers.
However, imho it is bad practice to use command line flags to configure containers, the first place. A much more flexible way is to use environment variables. For example, in kubernetes you would use a config map to set up environment variables which in turn configure a pod. However, environment variables can be used with docker-compose or docker swarm, too.
Hence, I would change the docker-compose.yml to something like this:
version: '3'
services:
db:
volumes:
- ./db/pgdata:/pgdata
image: postgres
ports:
- "5432"
restart: always
environment:
- POSTGRES_USER=user
- POSTGRES_DB=dbname
- POSTGRES_PASSWORD=123
- PGDATA=/pgdata
# adminer added for convenience
adminer:
image: adminer
restart: always
ports:
- 8081:8080
depends_on:
- db
api:
build: .
restart: always
ports:
- 8080:8080
depends_on:
- db
environment:
- POSTGRES_USER=user
- POSTGRES_DB=dbname
- POSTGRES_PASSWORD=123
- POSTGRES_HOST=db
- POSTGRES_PORT=5432
and use the environment variables to configure the binary.
I added a simple example how to use environment variables in Go to the repo. Note that projects like https://github.com/spf13/cobra/cobra or https://gopkg.in/alecthomas/kingpin.v2 make it much easier to work with environment variables, as they provide automatic type conversion, the ability to easily set default values and much more.
As for a more in depth reasoning why to use environment variables, you might want to read part 3 of the 12 factor app methodology.
hth
