I have a flask app which I am running like this:
flask run --host=0.0.0.0
When I look at the process list I see this:
UID PID PPID C STIME TTY TIME CMD root 1 0 0 23:48 pts/0 00:00:00 /bin/sh -c flask run --host=0.0.0.0 root 6 1 1 23:48 pts/0 00:00:01 /usr/local/bin/python /usr/local/bin/flask run --host=0.0.0.0 root 8 6 3 23:48 pts/0 00:00:02 /usr/local/bin/python /usr/local/bin/flask run --host=0.0.0.0
If I run using
--without-threads I also the same three processes:
UID PID PPID C STIME TTY TIME CMD root 1 0 0 00:28 pts/0 00:00:00 /bin/sh -c flask run --host=0.0.0.0 --without-threads root 6 1 2 00:28 pts/0 00:00:02 /usr/local/bin/python /usr/local/bin/flask run --host=0.0.0.0 --without-threads root 8 6 4 00:28 pts/0 00:00:04 /usr/local/bin/python /usr/local/bin/flask run --host=0.0.0.0 --without-threads
Is there a way to somehow run flask as a single process?
The flask app in question is running inside a docker container. I would like to be able to set breakpoints using
I have observed that if I set this in my docker-compose file:
stdin_open: true tty: true
and run, instead of a flask app, a simple single-process python app...
$ docker exec -it bug_demo_bug_demo_1 bash root@98245482089b:/opt/bug_demo/bug_demo# ps -ef UID PID PPID C STIME TTY TIME CMD root 1 0 0 00:41 pts/0 00:00:00 /bin/sh -c python app.py root 7 1 20 00:41 pts/0 00:00:00 python app.py
... and attach to the container while the app is at a breakpoint, I am able to drop into
ibpd and use it normally – arrow keys and tab completion work properly.
But when I try do the same with the flask app (attach to the container while the app is waiting in a breakpoint), things do not work correctly.
Either I disable
tty: true in
docker-compose.yml, and can use use
ipdb but without arrow keys and tab completion, OR I leave
tty: true in place, but then cannot really use
ipdb at all, b/c it appears the
tty is attached to all three flask processes, causing everything other than single character commands to get garbled. (Although I can see with this setup that arrow keys and tab completion work.)
All of this leads me to believe that if I can find a way to run my flask app as a single process, I will be able to attach to the docker container and use
ipdb as desired.
Is there some way to do this?
Update: problem manifests during startup, not during request handling
Upon further examination, I see that this problem only manifests during "startup" code. ex: if the breakpoint is inside the
If the breakpoint is inside a request handler method, or code called from a request handler, everything works as expected.
exec reduces the process count from three to two (the root process gets replaced by the first worker), but the problem still manifest for breakpoints inside
Running flask with
--no-reload makes the second worker go away, so process count can then be forced to one or two, by then not using or using
exec. Running with
--no-reload is not ideal for my use case, but it does make the problem go away, even for breakpoints in
For my purposes, I can live with the limitation of
ipdb only playing nice with the terminal inside request handlers -- I don't expect a great need to run the debugger from startup code. (But I will still accept an answer & happily award the bounty, if anyone can explain exactly what is happening in the startup-code breakpoint case, and why the problem does not manifest in the request-handler breakpoint case.)
Based on the
--no-reload finding, it does feel like the underlying flakiness is somehow related to the TTY being "shared" by the request handling process and the code-reloading process.
Flask & Docker Version Info
ipdb> flask.__version__ '1.0.3'
$ docker version Client: Docker Engine - Community Version: 18.09.2 API version: 1.39 Go version: go1.10.8 Git commit: 6247962 Built: Sun Feb 10 04:12:39 2019 OS/Arch: darwin/amd64 Experimental: false Server: Docker Engine - Community Engine: Version: 18.09.2 API version: 1.39 (minimum version 1.12) Go version: go1.10.6 Git commit: 6247962 Built: Sun Feb 10 04:13:06 2019 OS/Arch: linux/amd64 Experimental: false
$ docker info Containers: 22 Running: 3 Paused: 0 Stopped: 19 Images: 362 Server Version: 18.09.2 Storage Driver: overlay2 Backing Filesystem: extfs Supports d_type: true Native Overlay Diff: true Logging Driver: json-file Cgroup Driver: cgroupfs Plugins: Volume: local Network: bridge host macvlan null overlay Log: awslogs fluentd gcplogs gelf journald json-file local logentries splunk syslog Swarm: inactive Runtimes: runc Default Runtime: runc Init Binary: docker-init containerd version: 9754871865f7fe2f4e74d43e2fc7ccd237edcbce runc version: 09c8266bf2fcf9519a651b04ae54c967b9ab86ec init version: fec3683 Security Options: seccomp Profile: default Kernel Version: 4.9.125-linuxkit Operating System: Docker for Mac OSType: linux Architecture: x86_64 CPUs: 2 Total Memory: 3.855GiB Name: linuxkit-025000000001 ID: ZAK2:V2VU:IZFF:6MQQ:IFJB:2ZKY:VHA5:CSO3:VXQQ:UK6C:O3I7:S3ZU Docker Root Dir: /var/lib/docker Debug Mode (client): false Debug Mode (server): true File Descriptors: 59 Goroutines: 89 System Time: 2019-07-28T14:00:38.3184372Z EventsListeners: 2 HTTP Proxy: gateway.docker.internal:3128 HTTPS Proxy: gateway.docker.internal:3129 Registry: https://index.docker.io/v1/ Labels: Experimental: false Insecure Registries: 127.0.0.0/8 Live Restore Enabled: false Product License: Community Engine
$ docker-compose --version docker-compose version 1.23.2, build 1110ad01