JSON output

Structured logging for probe-run.

As an alternative to its human-focused output, probe-run offers structured JSON output. There are two use-cases:

  • building software on top of probe-run
  • storing probe-run's output, in order to analyze it over time

⚠️ probe-run v0.3.3+ is necessary to use this feature!

How to use it?

😁: Sounds great, how can I use it?

To activate the JSON output, just add the --json flag to your invocation of probe-run. If you are using our app-template edit .cargo/config.toml like this:

[target.'cfg(all(target_arch = "arm", target_os = "none"))']
- runner = "probe-run --chip $CHIP"
+ runner = "probe-run --chip $CHIP --json"

Now probe-run will output one line with a JSON object for each log-statement to stdout, and your output will look similar to this:

$ DEFMT_LOG=debug cargo run --bin levels

{"schema_version":1}
(HOST) INFO  flashing program (2 pages / 8.00 KiB)
└─ probe_run @ src/main.rs:93
(HOST) INFO  success!
└─ probe_run @ src/main.rs:126
────────────────────────────────────────────────────────────────────────────────
{"data":"info","host_timestamp":1643113115873940726,"level":"INFO","location":{"file":"src/bin/levels.rs","line":10,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"0"}
{"data":"warn","host_timestamp":1643113115873952269,"level":"WARN","location":{"file":"src/bin/levels.rs","line":12,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"1"}
{"data":"debug","host_timestamp":1643113115873957827,"level":"DEBUG","location":{"file":"src/bin/levels.rs","line":13,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"2"}
{"data":"error","host_timestamp":1643113115873981443,"level":"ERROR","location":{"file":"src/bin/levels.rs","line":14,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"3"}
{"data":"println","host_timestamp":1643113115873987212,"level":null,"location":{"file":"src/bin/levels.rs","line":15,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"4"}
────────────────────────────────────────────────────────────────────────────────
(HOST) INFO  device halted without error
└─ probe_run::backtrace @ src/backtrace/mod.rs:108

🤯: But wait a moment?! ... That is not only JSON! How am I supposed to process that?

That is easy. As mentioned, the JSON output goes to stdout. All the other output, like host logs and backtraces go to stderr and therefore can be processed separately.

For example, you can redirect the JSON output to a file and still see the host logs in the terminal:

$ DEFMT_LOG=debug cargo rb levels > levels.json

(HOST) INFO  flashing program (2 pages / 8.00 KiB)
└─ probe_run @ src/main.rs:93
(HOST) INFO  success!
└─ probe_run @ src/main.rs:126
────────────────────────────────────────────────────────────────────────────────
────────────────────────────────────────────────────────────────────────────────
(HOST) INFO  device halted without error
└─ probe_run::backtrace @ src/backtrace/mod.rs:108

Afterwards levels.json looks like this:

{"schema_version":1}
{"data":"info","host_timestamp":1643113389707243978,"level":"INFO","location":{"file":"src/bin/levels.rs","line":10,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"0"}
{"data":"warn","host_timestamp":1643113389707290115,"level":"WARN","location":{"file":"src/bin/levels.rs","line":12,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"1"}
{"data":"debug","host_timestamp":1643113389707299759,"level":"DEBUG","location":{"file":"src/bin/levels.rs","line":13,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"2"}
{"data":"error","host_timestamp":1643113389707306961,"level":"ERROR","location":{"file":"src/bin/levels.rs","line":14,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"3"}
{"data":"println","host_timestamp":1643113389707313290,"level":null,"location":{"file":"src/bin/levels.rs","line":15,"module_path":{"crate_name":"levels","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"4"}

🤔: That seems convenient, but what is this schema version in the first line?

It indicates the version of the json format you are using. probe-run will always output it as a header at the beginning of each stream of logs. We anticipate that the format will slightly change while probe-run and defmt evolve. Using this version you always know which revision is in use and can act upon that.

🤗: Sounds great!

Data transfer objects

🤔: So, what can I do with the JSON output?

There really are no boundaries. You can process the JSON with any programming language you like and also store it any data store of your choice to process and analyze it later. If you are saving the output for later, it might make sense to store the schema version together with additional metadata like e.g. a device id or firmware version. One option is to use a program like jq to extract the parts of interest.

If you wish to deserialize the entire data back into a Rust program, you will need to be able to decode the SchemaVersion object at the start of the stream, as well as the JsonFrame objects which follow after the schema version. To do that, we supply a few things in defmt_json_schema:

  • a SchemaVersion struct in defmt_json_schema::SchemaVersion,
  • a versioned JsonFrame struct in defmt_json_schema::{schema_version}::JsonFrame and
  • a SCHEMA_VERSION constant for each version of the JsonFrame in defmt_json_schema::{version}::SCHEMA_VERSION.

You can use all of this together with serde_json like following:

extern crate defmt_json_schema;
extern crate serde_json;

use defmt_json_schema::{v1, SchemaVersion};

const DATA: &str = r#"{"schema_version":1}
{"data":"Hello, world!","host_timestamp":1642698490360848721,"level":null,"location":{"file":"src/bin/hello.rs","line":9,"module_path":{"crate_name":"hello","modules":[],"function":"__cortex_m_rt_main"}},"target_timestamp":"0"}
{"data":"S { a: 8 }","host_timestamp":1642698490361019228,"level":"INFO","location":{"file":"src/bin/hello.rs","line":26,"module_path":{"crate_name":"hello","modules":["{impl#0}"],"function":"abc"}},"target_timestamp":"1"}"#;

fn main() {
    let mut data = DATA.lines().collect::<Vec<_>>();

    // first we decode the schema version
    let schema_version: SchemaVersion = serde_json::from_str(data[0]).unwrap();

    // and then handle the rest of the data (depending on the schema version)
    match schema_version {
        v1::SCHEMA_VERSION => handle_v1(&data[1..]),
        // v2::SCHEMA_VERSION => handle_v2(&data[1..]),
        _ => unreachable!(),
    };
}

fn handle_v1(data: &[&str]) {
    println!("Detected version \"1\" of JsonFrame!");
    use v1::JsonFrame;

    for &data in data.iter() {
        let json_frame: JsonFrame = serde_json::from_str(data).unwrap();
        println!("{:?}", json_frame);
    }
}

You can find an example with reading the content from a file here.