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ticat

A lightweight command line components platform

Workflow automating in unix-pipe style

Quick start

Suppose we are working for a distributed system, let's run a demo to see how ticat works.

Recommend to type and execute the commands during reading.

Download and install

$> curl --proto '=https' --tlsv1.2 -sSf https://raw.githubusercontent.com/innerr/ticat/main/install.sh | sh

Build

golang is needed:

$> git clone https://github.com/innerr/ticat
$> cd ticat
$> make

Recommend to set ticat/bin to system $PATH, it's handy.

Run jobs shared by others

Add repo to ticat

We want to do a benchmark for the demo distributed system.

Someone already wrote a bench tool and push to git server, it's easy to fetch it by command hub.add:

$> ticat hub.add innerr/quick-start-usage.ticat

Find out what we got from the repo

/ and // are important commands to find commands, they have the same usage.

The difference is / shows brief messages, and // shows rich infos.

Now use // as search command to find out what we got by search the repo's name.

We can use them to find commands by tags like @ready,

$> ticat @ready quick-start-usage :/
[bench]
     @ready
     'pretend to do bench.'
...

From the search result we found the command bench. (what tags we should search is depend on the author, or we could use command @ to list tags)

Find out what command bench do

The usage of ticat has similar style with unix pipe, but use : instead of |.

Concate "bench" and "-" with ":", it shows the info of command bench:

$> ticat bench:-
--->>>
[bench]
     'pretend to do bench. @ready'
        --->>>
        [bench.load]
             'pretend to load data'
        [bench.run]
             'pretend to run bench'
        <<<---
<<<---

+ could do the same job, we chose - for a clean view.

Run the shared bench tool we received

Looks like bench is what we need to run benchmarks.

Say we have a single node cluster running, the access port is 4000.

Try to bench by:

$> ticat bench

Got an error:

-------=<unsatisfied env read>=-------

<FATAL> 'cluster.port'
       - read by:
            [bench.load]
            [bench.run]
       - but not provided

We should provide the cluster port, try again:

$> ticat {cluster.port=4000} bench

Succeeded, we ran a benchmark with a small dataset (scale=1):

┌───────────────────┐
│ stack-level: [2]  │             05-27 21:20:29
├───────────────────┴────────────────────────────┐
│    cluster.port = 4000                         │
├────────────────────────────────────────────────┤
│ >> bench.load                                  │
│    bench.run                                   │
└────────────────────────────────────────────────┘
data loading to 127.0.0.1:4000 begin, scale=1
...
data loading to 127.0.0.1:4000 finish
┌───────────────────┐
│ stack-level: [2]  │             05-27 21:20:30
├───────────────────┴────────────────────────────┐
│    bench.scale = 1                             │
│    cluster.host = 127.0.0.1                    │
│    cluster.port = 4000                         │
├────────────────────────────────────────────────┤
│    bench.load                                  │
│ >> bench.run                                   │
└────────────────────────────────────────────────┘
benchmark on 127.0.0.1:4000 begin, scale=1
...
benchmark on 127.0.0.1:4000 finish

Manipulate env key-values

We could save the port value to env:

$> ticat {cluster.port=4000} env.save

So we don't need to type it down every time:

$> ticat bench

Now run a larger dataset, this time we turn on "step-by-step", it will ask for confirming on each step:

$> ticat {bench.scale=10} dbg.step.on : bench

These changes could all persist to env by env.save.

Assamble pieces to flows

Call another command

There is another command dev.bench in the previous search result:

...
[dev.bench]
      @ready
     'build binary in pwd, then restart cluster and do benchmark.'
[bench.jitter-scan]
      @ready @scanner
     'pretend to scan jitter'

It does "build" and "restart" before bench according to the help string, useful for develeping.

The default data scale is "1", we use "4" for testing.

Bisides that, we add a jitter detecting step after benchmark, this command also have the @ready tag so we found it.

$> ticat {bench.scale=4} dev.bench : bench.jitter-scan

(TODO: remove all things about @ready)

Save commands to a flow for convenient

This command sequence runs perfectly.

But it's annoying to type all those every time.

So we save it to a flow with the name xx:

$> ticat {bench.scale=4} dev.bench : cluster.jitter-scan : flow.save xx

Using it in coding is convenient:

...
  (code editing)
$> ticat xx
  (code editing)
$> ticat xx
...

Take a good look at the env key-values

We could use "step-by-step" to confirm every step,

$> ticat dbg.step.on : xx

and we could observe what will happen in the info box:

...
┌───────────────────┐
│ stack-level: [2]  │             05-27 23:32:07
├───────────────────┴────────────────────────────┐
│    bench.scale = 3                             │
│    cluster.host = 127.0.0.1                    │
│    cluster.port = 4000                         │
├────────────────────────────────────────────────┤
│    local.build                                 │
│    cluster.local                               │
│        port = ''                               │
│        host = 127.0.0.1                        │
│ >> cluster.restart                             │
│    ben(=bench).load                            │
│    ben(=bench).run                             │
└────────────────────────────────────────────────┘
...

As en example, in the box it's about to restart cluster, the upper part has the current env key-values.

Dig inside the commands we got

The commands we got are flows provided by repo author, just like xx we saved.

Understand flow: executing modules one by one

Sometimes it's nice to have a preflight check.

Appending a command + or - to the sequence can get the answers.

Let's check out the flow xx we just saved:

$> ticat xx:-
--->>>
[xx]
        --->>>
        [dev.bench]
             'build binary in pwd, then restart cluster and do benchmark. @ready'
                --->>>
                [local.build]
                     'pretend to build demo cluster's server binary'
                [cluster.local]
                     'set local cluster as active cluster to env'
                [cluster.restart]
                     'pretend to run bench'
                [bench.load]
                     'pretend to load data'
                [bench.run]
                     'pretend to run bench'
                <<<---
        [bench.jitter-scan]
             'pretend to scan jitter @ready'
        <<<---
<<<---

Env: a shared key-value set

We investigate bench with +: (the + result of xx is a bit long, so we use it on bench)

$> ticat bench:+

The output will be a full description of the execution:

--->>>
[bench]
     'pretend to do bench'
    - flow:
        bench.load : bench.run
        --->>>
        [bench.load]
             'pretend to load data'
            - env-ops:
                cluster.host = may-read : write
                cluster.port = read
                bench.scale = may-read : write
        [bench.run]
             'pretend to run bench'
            - env-ops:
                cluster.host = may-read
                cluster.port = read
                bench.scale = may-read
                bench.begin = write
                bench.end = write
        <<<---
<<<---

From the description, we know how modules are executed one by one, each one may read or write from the env.

The env read/write report from +

Beside the flow description, there is a check result about env read/write.

An env key-value being read before write will cause a FATAL error, risk is normally fine.

-------=<unsatisfied env read>=-------

<risk>  'bench.scale'
       - may-read by:
            [bench.load]
       - but not provided

Customize features by re-assemble pieces

Now we know what's in the "ready-to-go" commands, we are able to do customizations.

Let's remove the bench.load step from dev.bench, to make it faster when on coding:

$> ticat local.build : cluster.local : cluster.restart : bench.run : flow.save dev.bench.no-reload

We just saved a flow without data scale config, it's a good practice seperating "process-logic" from "config".

We then save a new flow with data scale to get a handy command:

$> ticat {bench.scale=4} dev.bench.no-reload : flow.save z

Use it:

...
  (code editing)
$> ticat z
  (code editing)
$> ticat z
...

Share our flows

Each flow is a small file, move it to a local dir, then push it to git server.

Share the repo address with friends, then they can use it in ticat.

It's nice to write help string and add some tags to it, in that other users can tell what it's use for.

For more details, checkout the "Module developing zone" below.

Writing new modules also easy and quick, it only take some minutes to wrap a existing tool into a ticat module. Check out the quick-start-for-module-developing.

Important command branchs

The builtin commands

A branch is a set of commands like env env.tree env.flat, they share a same path branch.

These builtin branchs are important:

  • hub: manage the git repo list we added. abbr h.
  • env: manage env. abbr e.
  • flow: manage saved flows. abbr f.
  • cmds: manage all callable commands(modules and flows). abbr c.

Use ~ ~~ to navigate them, here are some usage examples.

Overview of branch cmds:

$> ticat cmds:~
[cmds]
     'display cmd info, sub tree cmds will not show'
    [tree]
         'list builtin and loaded cmds'
        [simple]
             'list builtin and loaded cmds, skeleton only'
    [list]
         'list builtin and loaded cmds'
        [simple]
             'list builtin and loaded cmds in lite style'

Overview of branch env:

[0:19] 0 ~ $ ticat env:~
[env]
     'list env values in flatten format'
    [tree]
         'list all env layers and KVs in tree format'
    [abbrs]
         'list env tree and abbrs'
    [list]
         'list env values in flatten format'
    [save]
         'save session env changes to local'
    [remove-and-save]
         'remove specific env KV and save changes to local'
    [reset-and-save]
         'reset all local saved env KVs'

Search "tree"(could be any string) in the branch cmds:

$> ticat cmds:~ tree
[cmds]
     'display cmd info, sub tree cmds will not show'
[cmds.tree]
     'list builtin and loaded cmds'

Use ~~ instead of ~ to get more detail:

$> ticat cmds:~ tree
[cmds|cmd|c|C]
     'display cmd info, no sub tree'
    - args:
        cmd-path|path|p|P = ''
[tree|t|T]
     'list builtin and loaded cmds'
    - full-cmd:
        cmds.tree
    - full-abbrs:
        cmds|cmd|c|C.tree|t|T
    - args:
        cmd-path|path|p|P = ''

Cheat sheet

  • Use : to concate commands, will be executed one by one
  • Use {key=value} to modify env key-values
  • (With :) append = or == to any command(s) we want to investigate
  • Search commands by:
    • ticat / <str> <str> ..
    • ticat <command> :/ <str> <str> ..
  • Frequently-used commands:
    • hub.add <repo-addr>, abbr h.+
    • flow.save, abbr f.+
    • env.save, abbr e.+
  • Lots of abbrs like [bench|ben] in search result, use them to save typing time (TODO: copy the content from ticat help.self to here)

User manual

Module developing zone

Inside ticat

User stories

(TODO: trivial level)

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A lightweight command line components platform

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