i3bar input protocol ==================== Michael Stapelberg February 2012 This document explains the protocol in which i3bar expects its input. It provides support for colors, urgency, shortening and easy manipulation. == Rationale for chosing JSON Before describing the protocol, let’s cover why JSON is a building block of this protocol. 1. Other bar display programs such as dzen2 or xmobar are using in-band signaling: they recognize certain sequences (like ^fg(#330000) in your input text). We would like to avoid that and separate information from meta-information. By information, we mean the actual output, like the IP address of your ethernet adapter and by meta-information, we mean in which color it should be displayed right now. 2. It is easy to write a simple script which manipulates part(s) of the input. Each block of information (like a block for the disk space indicator, a block for the current IP address, etc.) can be identified specifically and modified in whichever way you like. 3. It remains easy to write a simple script which just suffixes (or prefixes) a status line input, because tools like i3status will output their JSON in such a way that each line array will be terminated by a newline. Therefore, you are not required to use a streaming JSON parser, but you can use any JSON parser and write your script in any programming language. In fact, you can decide to not bother with the JSON parsing at all and just inject your output at a specific position (beginning or end). 4. Relying on JSON does not introduce any new dependencies. In fact, the IPC interface of i3 also uses JSON, therefore i3bar already depends on JSON. The only point against using JSON is computational complexity. If that really bothers you, just use the plain text input format (which i3bar will continue to support). == The protocol The first message of the protocol is a header block, which contains (at least) the version of the protocol to be used. In case there are significant changes (not only additions), the version will be incremented. i3bar will still understand the old protocol version, but in order to use the new one, you need to provide the correct version. The header block is terminated by a newline and consists of a single JSON hash: *Example*: ---------------- { "version": 1 } ---------------- What follows is an infinite array (so it should be parsed by a streaming JSON parser, but as described above you can go for a simpler solution), whose elements are one array per status line. A status line is one unit of information which should be displayed at a time. i3bar will not display any input until the status line is complete. In each status line, every block will be represented by a JSON hash: *Example*: ------ [ [ { "full_text": "E: 10.0.0.1 (1000 Mbit/s)", "color": "#00ff00" }, { "full_text": "2012-01-05 20:00:01" } ], [ { "full_text": "E: 10.0.0.1 (1000 Mbit/s)", "color": "#00ff00" }, { "full_text": "2012-01-05 20:00:02" } ], … ------ Please note that this example was pretty printed for human consumption. i3status and others will output single statuslines in one line, separated by \n. === Blocks in detail full_text:: The most simple block you can think of is one which just includes the only required key, the +full_text+ key. i3bar will display the string value and that’s it. short_text:: Where appropriate, the +short_text+ (string) entry should also be provided. It will be used in case the status line needs to be shortened because it uses more space than your screen provides. For example, when displaying an IPv6 address, the prefix is usually (!) more relevant than the suffix, because the latter stays constant when using autoconf, while the prefix changes. When displaying the date, the time is more important than the date (it is more likely that you know which day it is than what time it is). color:: To make the current state of the information easy to spot, colors can be used. For example, the wireless block could be displayed in red (using the +color+ (string) entry) if the card is not associated with any network and in green or yellow (depending on the signal strength) when it is associated. Colors are specified in hex (like in HTML), starting with a leading hash sign. For example, +#ff0000+ means red. name and instance:: Every block should have a unique +name+ (string) entry so that it can be easily identified in scripts which process the output. i3bar completely ignores the name and instance fields. Make sure to also specify an +instance+ (string) entry where appropriate. For example, the user can have multiple disk space blocks for multiple mount points. urgent:: A boolean which specifies whether the current value is urgent. Examples are battery charge values below 1 percent or no more available disk space (for non-root users). The presentation of urgency is up to i3bar. If you want to put in your own entries into a block, prefix the key with an underscore (_). i3bar will ignore all keys it doesn’t understand, and prefixing them with an underscore makes it clear in every script that they are not part of the i3bar protocol. *Example*: ------------------------------------------ { "full_text": "E: 10.0.0.1 (1000 Mbit/s)", "_ethernet_vendor": "Intel" } ------------------------------------------ An example of a block which uses all possible entries follows: *Example*: ------------------------------------------ { "full_text": "E: 10.0.0.1 (1000 Mbit/s)", "short_text": "10.0.0.1", "color": "#00ff00", "urgent": false, "name": "ethernet", "instance": "eth0" } ------------------------------------------