lotus/testplans/DELVING.md

# Delving into the unknown

This write-up summarises how to debug what appears to be a mischievous Lotus
instance during our Testground tests. It also goes enumerates which assets are
useful to report suspicious behaviours upstream, in a way that they are
actionable.

## Querying the Lotus RPC API

The `local:docker` and `cluster:k8s` map ports that you specify in the
composition.toml, so you can access them externally.

All our compositions should carry this fragment:

```toml
[global.run_config]
  exposed_ports = { pprof = "6060", node_rpc = "1234", miner_rpc = "2345" }
```

This tells Testground to expose the following ports:

* `6060` => Go pprof.
* `1234` => Lotus full node RPC.
* `2345` => Lotus storage miner RPC.

### `local:docker`

1. Install the `lotus` binary on your host.
2. Find the container that you want to connect to in `docker ps`.
     * Note that our _container names_ are slightly long, and they're the last
       field on every line, so if your terminal is wrapping text, the port
       numbers will end up ABOVE the friendly/recognizable container name (e.g. `tg-lotus-soup-deals-e2e-acfc60bc1727-miners-1`).
     * The testground output displays the _container ID_ inside coloured angle
       brackets, so if you spot something spurious in a particular node, you can
       hone in on that one, e.g. `<< 54dd5ad916b2 >>`.

    ```
    ⟩ docker ps
    CONTAINER ID        IMAGE                       COMMAND                  CREATED             STATUS              PORTS                                                                                                NAMES
    54dd5ad916b2        be3c18d7f0d4                "/testplan"              10 seconds ago      Up 8 seconds        0.0.0.0:32788->1234/tcp, 0.0.0.0:32783->2345/tcp, 0.0.0.0:32773->6060/tcp, 0.0.0.0:32777->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-clients-2
    53757489ce71        be3c18d7f0d4                "/testplan"              10 seconds ago      Up 8 seconds        0.0.0.0:32792->1234/tcp, 0.0.0.0:32790->2345/tcp, 0.0.0.0:32781->6060/tcp, 0.0.0.0:32786->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-clients-1
    9d3e83b71087        be3c18d7f0d4                "/testplan"              10 seconds ago      Up 8 seconds        0.0.0.0:32791->1234/tcp, 0.0.0.0:32789->2345/tcp, 0.0.0.0:32779->6060/tcp, 0.0.0.0:32784->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-clients-0
    7bd60e75ed0e        be3c18d7f0d4                "/testplan"              10 seconds ago      Up 8 seconds        0.0.0.0:32787->1234/tcp, 0.0.0.0:32782->2345/tcp, 0.0.0.0:32772->6060/tcp, 0.0.0.0:32776->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-miners-1
    dff229d7b342        be3c18d7f0d4                "/testplan"              10 seconds ago      Up 9 seconds        0.0.0.0:32778->1234/tcp, 0.0.0.0:32774->2345/tcp, 0.0.0.0:32769->6060/tcp, 0.0.0.0:32770->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-miners-0
    4cd67690e3b8        be3c18d7f0d4                "/testplan"              11 seconds ago      Up 8 seconds        0.0.0.0:32785->1234/tcp, 0.0.0.0:32780->2345/tcp, 0.0.0.0:32771->6060/tcp, 0.0.0.0:32775->6060/tcp   tg-lotus-soup-deals-e2e-acfc60bc1727-bootstrapper-0
    aeb334adf88d        iptestground/sidecar:edge   "testground sidecar …"   43 hours ago        Up About an hour    0.0.0.0:32768->6060/tcp                                                                              testground-sidecar
    c1157500282b        influxdb:1.8                "/entrypoint.sh infl…"   43 hours ago        Up 25 seconds       0.0.0.0:8086->8086/tcp                                                                               testground-influxdb
    99ca4c07fecc        redis                       "docker-entrypoint.s…"   43 hours ago        Up About an hour    0.0.0.0:6379->6379/tcp                                                                               testground-redis
    bf25c87488a5        bitnami/grafana             "/run.sh"                43 hours ago        Up 26 seconds       0.0.0.0:3000->3000/tcp                                                                               testground-grafana
    cd1d6383eff7        goproxy/goproxy             "/goproxy"               45 hours ago        Up About a minute   8081/tcp                                                                                             testground-goproxy
    ``` 

3. Take note of the port mapping. Imagine in the output above, we want to query
   `54dd5ad916b2`. We'd use `localhost:32788`, as it forwards to the container's
   1234 port (Lotus Full Node RPC).
4. Run your Lotus CLI command setting the `FULLNODE_API_INFO` env variable,
   which is a multiaddr:

   ```sh
   $ FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/$port/http" lotus chain list
   [...]
   ```

---

Alternatively, you could download gawk and setup a script in you .bashrc or .zshrc similar to:

```
lprt() {
  NAME=$1
  PORT=$2

  docker ps --format "table {{.Names}}" | grep $NAME | xargs -I {} docker port {} $PORT | gawk --field-separator=":" '{print $2}'
}

envs() {
  NAME=$1

  local REMOTE_PORT_1234=$(lprt $NAME 1234)
  local REMOTE_PORT_2345=$(lprt $NAME 2345)

  export FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/$REMOTE_PORT_1234/http"
  export STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/$REMOTE_PORT_2345/http"

  echo "Setting \$FULLNODE_API_INFO to $FULLNODE_API_INFO"
  echo "Setting \$STORAGE_API_INFO to $STORAGE_API_INFO"
}
```

Then call commands like:
```
envs miners-0
lotus chain list
```

### `cluster:k8s`

Similar to `local:docker`, you pick a pod that you want to connect to and port-forward 1234 and 2345 to that specific pod, such as:

```
export PODNAME="tg-lotus-soup-ae620dfb2e19-miners-0"
kubectl port-forward pods/$PODNAME 1234:1234 2345:2345

export FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/1234/http"
export STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/2345/http"
lotus-storage-miner storage-deals list
lotus-storage-miner storage-deals get-ask
```

### Useful commands / checks

* **Making sure miners are on the same chain:** compare outputs of `lotus chain list`.
* **Checking deals:** `lotus client list-deals`.
* **Sector queries:** `lotus-storage-miner info` , `lotus-storage-miner proving info`
* **Sector sealing errors:**
    * `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector info`
    * `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector status <sector_no>`
    * `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector status --log <sector_no>`

## Viewing logs of a particular container `local:docker`

This works for both started and stopped containers. Just get the container ID
(in double angle brackets in Testground output, on every log line), and do a:

```shell script
$ docker logs $container_id
```

## Accessing the golang instrumentation

Testground exposes a pprof endpoint under local port 6060, which both
`local:docker` and `cluster:k8s` map.

For `local:docker`, see above to figure out which host port maps to the
container's 6060 port.

## Acquiring a goroutine dump

When things appear to be stuck, get a goroutine dump.

```shell script
$ wget -o goroutine.out http://localhost:${pprof_port}/debug/pprof/goroutine?debug=2
``` 

You can use whyrusleeping/stackparse to extract a summary:

```shell script
$ go get https://github.com/whyrusleeping/stackparse
$ stackparse --summary goroutine.out
```

## Acquiring a CPU profile

When the CPU appears to be spiking/rallying, grab a CPU profile.

```shell script
$ wget -o profile.out http://localhost:${pprof_port}/debug/pprof/profile
``` 

Analyse it using `go tool pprof`. Usually, generating a `png` graph is useful:

```shell script
$ go tool pprof profile.out
File: testground
Type: cpu
Time: Jul 3, 2020 at 12:00am (WEST)
Duration: 30.07s, Total samples = 2.81s ( 9.34%)
Entering interactive mode (type "help" for commands, "o" for options)
(pprof) png
Generating report in profile003.png
```

## Submitting actionable reports / findings

This is useful both internally (within the Oni team, so that peers can help) and
externally (when submitting a finding upstream).

We don't need to play the full bug-hunting game on Lotus, but it's tremendously
useful to provide the necessary data so that any reports are actionable.

These include:

* test outputs (use `testground collect`).
* stack traces that appear in logs (whether panics or not).
* output of relevant Lotus CLI commands.
* if this is some kind of blockage / deadlock, goroutine dumps.
* if this is a CPU hotspot, a CPU profile would be useful.
* if this is a memory issue, a heap dump would be useful.

**When submitting bugs upstream (Lotus), make sure to indicate:**

* Lotus commit.
* FFI commit.
initial DELVING.md document. 2020-07-03 11:15:58 +00:00			`# Delving into the unknown`

			`This write-up summarises how to debug what appears to be a mischievous Lotus`
			`instance during our Testground tests. It also goes enumerates which assets are`
			`useful to report suspicious behaviours upstream, in a way that they are`
			`actionable.`

			`## Querying the Lotus RPC API`

			The `local:docker` and `cluster:k8s` map ports that you specify in the
			`composition.toml, so you can access them externally.`

			`All our compositions should carry this fragment:`

			```toml
			`[global.run_config]`
make the testkit friends with local:exec. (#105) 2020-07-06 14:47:17 +00:00			`exposed_ports = { pprof = "6060", node_rpc = "1234", miner_rpc = "2345" }`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00			```

			`This tells Testground to expose the following ports:`

			* `6060` => Go pprof.
			* `1234` => Lotus full node RPC.
			* `2345` => Lotus storage miner RPC.

improved readme - lotus-soup (#136) 2020-07-09 17:09:32 +00:00			### `local:docker`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00
			1. Install the `lotus` binary on your host.
			2. Find the container that you want to connect to in `docker ps`.
			`* Note that our _container names_ are slightly long, and they're the last`
			`field on every line, so if your terminal is wrapping text, the port`
			numbers will end up ABOVE the friendly/recognizable container name (e.g. `tg-lotus-soup-deals-e2e-acfc60bc1727-miners-1`).
			`* The testground output displays the _container ID_ inside coloured angle`
			`brackets, so if you spot something spurious in a particular node, you can`
			hone in on that one, e.g. `<< 54dd5ad916b2 >>`.

			```
			`⟩ docker ps`
			`CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES`
			`54dd5ad916b2 be3c18d7f0d4 "/testplan" 10 seconds ago Up 8 seconds 0.0.0.0:32788->1234/tcp, 0.0.0.0:32783->2345/tcp, 0.0.0.0:32773->6060/tcp, 0.0.0.0:32777->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-clients-2`
			`53757489ce71 be3c18d7f0d4 "/testplan" 10 seconds ago Up 8 seconds 0.0.0.0:32792->1234/tcp, 0.0.0.0:32790->2345/tcp, 0.0.0.0:32781->6060/tcp, 0.0.0.0:32786->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-clients-1`
			`9d3e83b71087 be3c18d7f0d4 "/testplan" 10 seconds ago Up 8 seconds 0.0.0.0:32791->1234/tcp, 0.0.0.0:32789->2345/tcp, 0.0.0.0:32779->6060/tcp, 0.0.0.0:32784->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-clients-0`
			`7bd60e75ed0e be3c18d7f0d4 "/testplan" 10 seconds ago Up 8 seconds 0.0.0.0:32787->1234/tcp, 0.0.0.0:32782->2345/tcp, 0.0.0.0:32772->6060/tcp, 0.0.0.0:32776->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-miners-1`
			`dff229d7b342 be3c18d7f0d4 "/testplan" 10 seconds ago Up 9 seconds 0.0.0.0:32778->1234/tcp, 0.0.0.0:32774->2345/tcp, 0.0.0.0:32769->6060/tcp, 0.0.0.0:32770->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-miners-0`
			`4cd67690e3b8 be3c18d7f0d4 "/testplan" 11 seconds ago Up 8 seconds 0.0.0.0:32785->1234/tcp, 0.0.0.0:32780->2345/tcp, 0.0.0.0:32771->6060/tcp, 0.0.0.0:32775->6060/tcp tg-lotus-soup-deals-e2e-acfc60bc1727-bootstrapper-0`
			`aeb334adf88d iptestground/sidecar:edge "testground sidecar …" 43 hours ago Up About an hour 0.0.0.0:32768->6060/tcp testground-sidecar`
			`c1157500282b influxdb:1.8 "/entrypoint.sh infl…" 43 hours ago Up 25 seconds 0.0.0.0:8086->8086/tcp testground-influxdb`
			`99ca4c07fecc redis "docker-entrypoint.s…" 43 hours ago Up About an hour 0.0.0.0:6379->6379/tcp testground-redis`
			`bf25c87488a5 bitnami/grafana "/run.sh" 43 hours ago Up 26 seconds 0.0.0.0:3000->3000/tcp testground-grafana`
			`cd1d6383eff7 goproxy/goproxy "/goproxy" 45 hours ago Up About a minute 8081/tcp testground-goproxy`
			```

			`3. Take note of the port mapping. Imagine in the output above, we want to query`
			`54dd5ad916b2`. We'd use `localhost:32788`, as it forwards to the container's
			`1234 port (Lotus Full Node RPC).`
			4. Run your Lotus CLI command setting the `FULLNODE_API_INFO` env variable,
			`which is a multiaddr:`

			```sh
			`$ FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/$port/http" lotus chain list`
			`[...]`
			```
commands for cluster:k8s ; automating setting up of envs 2020-07-03 12:24:10 +00:00
			`---`

			`Alternatively, you could download gawk and setup a script in you .bashrc or .zshrc similar to:`

			```
			`lprt() {`
			`NAME=$1`
			`PORT=$2`

			`docker ps --format "table {{.Names}}" \| grep $NAME \| xargs -I {} docker port {} $PORT \| gawk --field-separator=":" '{print $2}'`
			`}`

			`envs() {`
			`NAME=$1`

			`local REMOTE_PORT_1234=$(lprt $NAME 1234)`
			`local REMOTE_PORT_2345=$(lprt $NAME 2345)`

			`export FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/$REMOTE_PORT_1234/http"`
			`export STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/$REMOTE_PORT_2345/http"`

			`echo "Setting \$FULLNODE_API_INFO to $FULLNODE_API_INFO"`
			`echo "Setting \$STORAGE_API_INFO to $STORAGE_API_INFO"`
			`}`
			```

			`Then call commands like:`
			```
			`envs miners-0`
			`lotus chain list`
			```

improved readme - lotus-soup (#136) 2020-07-09 17:09:32 +00:00			### `cluster:k8s`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00
commands for cluster:k8s ; automating setting up of envs 2020-07-03 12:24:10 +00:00			Similar to `local:docker`, you pick a pod that you want to connect to and port-forward 1234 and 2345 to that specific pod, such as:

			```
			`export PODNAME="tg-lotus-soup-ae620dfb2e19-miners-0"`
			`kubectl port-forward pods/$PODNAME 1234:1234 2345:2345`

			`export FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/1234/http"`
			`export STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/2345/http"`
			`lotus-storage-miner storage-deals list`
			`lotus-storage-miner storage-deals get-ask`
			```

initial DELVING.md document. 2020-07-03 11:15:58 +00:00			`### Useful commands / checks`

			* Making sure miners are on the same chain: compare outputs of `lotus chain list`.
			* Checking deals: `lotus client list-deals`.
add lsm commands 2020-07-03 12:26:32 +00:00			* Sector queries: `lotus-storage-miner info` , `lotus-storage-miner proving info`
Update DELVING.md 2020-07-07 15:54:55 +00:00			`* Sector sealing errors:`
			* `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector info`
			* `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector status <sector_no>`
			* `STORAGE_API_INFO=":/ip4/127.0.0.1/tcp/53624/http" FULLNODE_API_INFO=":/ip4/127.0.0.1/tcp/53623/http" lotus-storage-miner sector status --log <sector_no>`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00
improved readme - lotus-soup (#136) 2020-07-09 17:09:32 +00:00			## Viewing logs of a particular container `local:docker`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00
			`This works for both started and stopped containers. Just get the container ID`
			`(in double angle brackets in Testground output, on every log line), and do a:`

			```shell script
			`$ docker logs $container_id`
			```

			`## Accessing the golang instrumentation`

			`Testground exposes a pprof endpoint under local port 6060, which both`
			`local:docker` and `cluster:k8s` map.

			For `local:docker`, see above to figure out which host port maps to the
			`container's 6060 port.`

			`## Acquiring a goroutine dump`

			`When things appear to be stuck, get a goroutine dump.`

			```shell script
			`$ wget -o goroutine.out http://localhost:${pprof_port}/debug/pprof/goroutine?debug=2`
			```

			`You can use whyrusleeping/stackparse to extract a summary:`

			```shell script
			`$ go get https://github.com/whyrusleeping/stackparse`
			`$ stackparse --summary goroutine.out`
			```

			`## Acquiring a CPU profile`

			`When the CPU appears to be spiking/rallying, grab a CPU profile.`

			```shell script
			`$ wget -o profile.out http://localhost:${pprof_port}/debug/pprof/profile`
			```

			Analyse it using `go tool pprof`. Usually, generating a `png` graph is useful:

			```shell script
			`$ go tool pprof profile.out`
			`File: testground`
			`Type: cpu`
			`Time: Jul 3, 2020 at 12:00am (WEST)`
			`Duration: 30.07s, Total samples = 2.81s ( 9.34%)`
			`Entering interactive mode (type "help" for commands, "o" for options)`
			`(pprof) png`
			`Generating report in profile003.png`
			```

			`## Submitting actionable reports / findings`

			`This is useful both internally (within the Oni team, so that peers can help) and`
			`externally (when submitting a finding upstream).`

			`We don't need to play the full bug-hunting game on Lotus, but it's tremendously`
			`useful to provide the necessary data so that any reports are actionable.`

			`These include:`

			* test outputs (use `testground collect`).
			`* stack traces that appear in logs (whether panics or not).`
			`* output of relevant Lotus CLI commands.`
			`* if this is some kind of blockage / deadlock, goroutine dumps.`
			`* if this is a CPU hotspot, a CPU profile would be useful.`
			`* if this is a memory issue, a heap dump would be useful.`

add instruction on submitting issues upstream. 2020-07-03 11:28:09 +00:00			`When submitting bugs upstream (Lotus), make sure to indicate:`
initial DELVING.md document. 2020-07-03 11:15:58 +00:00
add instruction on submitting issues upstream. 2020-07-03 11:28:09 +00:00			`* Lotus commit.`
			`* FFI commit.`