13 KiB
Burlesque
Burlesque is a message queue server writen in Go. It gives access to queues using the pub/sub HTTP API.
This server's main purpose is to provide an inter-process comunication tool with a memory efficient persistent storage for messages. These messages usually are delayed job descriptions serialized in JSON that are published by the application server and later on retrieved by application workers.
Subscription uses long polling technique. When application worker subscribes to a queue which is empty at the moment, connection is kept open until a client publishes a message to this queue, or subscription timeout is reached. If there is already a message in the queue it is removed from the queue and returned to the worker.
To store messages Burlesque uses Kyoto Cabinet, which is a powerful DIY database. Usage of Kyoto Cabinet is thoroughly described in the storage section of this document.
Contents
Installation
Download and extract the latest release. That's it.
Building on OS X
First install Homebrew. Using Homebrew install Go language compiler and tools. Then install Kyoto Cabinet library.
brew install go
brew install kyoto-cabinet
go get github.com/KosyanMedia/burlesque
Starting
The following arguments are supported by the burlesque
executable:
Argument | Description | Defaults |
---|---|---|
-storage |
Kyoto Cabinet storage path (e.g. storage.kch#msiz=524288000 ) |
- |
-environment |
Process environment: development or production |
development |
-port |
Server HTTP port | 4401 |
-rollbar |
Rollbar token |
Example
wget -O burlesque.zip https://github.com/KosyanMedia/burlesque/archive/1.0.0.zip
unzip burlesque.zip
./burlesque
By default, Burlesque starts on port 4401
and uses in-memory database ProtoHashDB
.
Storage
-storage
argument defines the way data is stored in the database. You can read more on Kyoto Cabinet database types here.
In-memory databases
If you need a temporary in-memory storage use the following symbols as the -storage
value:
Value | Database Type |
---|---|
- |
ProtoHashDB Prototype hash database. In-memory database implemented with std::unorderd_map |
+ |
ProtoTreeDB Prototype tree database. In-memory database implemented with std::map |
: |
StashDB Stash database. In-memory database saving memory |
* |
CacheDB Cache hash database. In-memory database featuring LRU deletion |
% |
GrassDB Cache tree database. In-memory database of B+ tree: cache with order |
Example: -
Persistent databases
In order to use a persistent database, use the path to the database file (or directory) as the -storage
argument value. File extension in the database path defines the type of the database created.
File Extension | Database Type |
---|---|
kch |
HashDB File hash database. File database of hash table: typical DBM |
kct |
TreeDB File tree database. File database of B+ tree: DBM with order |
kcd |
DirDB Directory hash database. Respective files in a directory of the file system |
kcf |
ForestDB Directory tree database. Directory database of B+ tree: huge DBM with order |
kcx |
TextDB Plain text database. Emulation to handle a plain text file as a database |
Example: /path/to/my/storage.kch
Tuning parameters
When the database type is defined, you can also add tuning parameters to the -storage
argument. Tuning parameters are separated by the #
symbol, parameters' name and value are separated by the =
symbol.
The table below describes tuning parameters.
Parameter | Description |
---|---|
apow |
Power of the record size alignment |
bnum |
Base hash table size (number of buckets of the hash table) |
capcnt |
Capacity limit by the number of records (#capcnt=10000 means "keep in memory 10,000 records maximum") |
capsiz |
Capacity limit by the size of records (#capsiz=536870912 means "keep in memory all the records that fit into 512 megabytes") |
dfunit |
Unit step number of auto defragmentation (#dfunit=8 means "run defragmentation every 8 fragmentations detected"). |
fpow |
Power of the free block pool capacity |
log |
Path to the log file. Use - for the STDOUT, or + for the STDERR |
logkinds |
Kinds of logged messages. The value can be debug , info , warn or error |
logpx |
Prefix of each log message |
msiz |
Expected database memory usage |
opts |
Additional options: s , l and c (can be specified together, e.g lc ). s stands for "small" and reduces the width of record address from 6 bytes to 4 bytes. As a result, the footprint for each record is reduced from 16 bytes to 12 bytes. However, it limits the maximum size of the database file to 16GB. l stands for "linear" and changes the data structure of the collision chain of hash table from binary tree to linear linked list. c enables compression of the record values. If the value is bigger than 1KB compression is effective. |
pccap |
Capacity size of the page cache |
psiz |
Page size |
rcomp |
Comparator used to compare key names. lex for the lexical comparator, dec for the decimal comparator, lexdesc for the lexical descending comparator, or decdesc for the decimal descending comparator |
zcomp |
Compression library: zlib for the ZLIB raw compressor, def for the ZLIB deflate compressor, gz for the ZLIB gzip compressor, lzo for the LZO compressor, lzma for the LZMA compressor, or arc for the Arcfour cipher |
zkey |
Cipher keyword used with compression |
Example: storage.kch#opts=c#zcomp=gz#msiz=524288000
Support of tuning parameters by databases
The table below describes support of these parameters by the in-memory database types.
Parameter | ProtoHashDB |
ProtoTreeDB |
StashDB |
CacheDB |
GrassDB |
---|---|---|---|---|---|
bnum |
• | • | • | ||
capcnt |
• | ||||
capsiz |
• | ||||
log |
• | • | • | • | • |
logkinds |
• | • | • | • | • |
logpx |
• | • | • | • | • |
opts |
• | • | |||
pccap |
• | ||||
psiz |
• | ||||
rcomp |
• | ||||
zcomp |
• | • | |||
zkey |
• | • |
The table below describes support of these parameters by the persistent database types.
Parameter | HashDB |
TreeDB |
DirDB |
ForestDB |
TextDB |
---|---|---|---|---|---|
apow |
• | • | |||
bnum |
• | • | |||
dfunit |
• | • | |||
fpow |
• | • | |||
log |
• | • | • | • | • |
logkinds |
• | • | • | • | • |
logpx |
• | • | • | • | • |
msiz |
• | • | |||
opts |
• | • | • | • | |
pccap |
• | • | |||
psiz |
• | • | |||
rcomp |
• | • | |||
zcomp |
• | • | • | • | |
zkey |
• | • | • | • |
What storage to choose
Production
For production usage it is strongly recommended to choose a persistent database. Burlesque uses Kyoto Cabinet as a persistent hash-table, which means HashDB
would be a smart choice.
If the average message size is expected to be more than 1KB then compression should be considered as an option. To enable compression you need to pass opts
tuning parameter to the database path with value c
(#opts=c
) in it, you also need to define compression algorithm using the zcomp
parameter (e.g #zcomp=gz
).
You can define maximum memory limit; when the limit is reached new records are swapped to disk. Memory limit is defined by value of msiz
parameter in bytes (e.g #msiz=524288000
)
So, to use a persistent hash database with enabled compression and 512MB memory limit the -storage
argument value should be storage.kch#opts=c#zcomp=gz#msiz=524288000
.
Further tuning
If queues are kept empty or relatively small, bnum
option might be considered (e.g #bnum=1000
)
Development
If development database doesn't need to be persisted consider using ProtoHashDB
(which locks the whole table), StashDB
(locks record) or CacheDB
(locks record using a mutex). By default ProtoHashDB
is used.
API
All endpoints exposed by the API are described below.
Publish
This endpoint is used to publish messages to a queue. If there is a connection waiting to recieve a message from this queue, the message will be handed directly to the awaiting worker.
Publication can be done via both GET
and POST
methods. Both methods use queue
argument to pass queue name. When using GET
method pass message body with msg
argument. To publish a message via POST
method pass message body via request body instead of the msg
argument.
In case of success, server will respond with status 200 and OK
message. Otherwise, there will be status 500 and FAIL
message.
Example
curl '127.0.0.1:4401/publish?queue=urgent' -d 'Process this message as soon as possible!'
Response
OK
Subscribe
This endpoint is used to try and fetch a message from one of the queues given. If at least one of these queues contains a message, this message will be removed from the queue and returned as a response body. The name of the queue where this message was taken from will be provided as a Queue
response header.
Subscription is always done via GET
method. To fetch a message from a queue use the name of the queue as the queues
argument value. Multiple queue names could be passed separated with the comma character.
Example
curl '127.0.0.1:4401/subscribe?queues=urgent,someday'
Response
Process this message as soon as possible!
Status
This endpoint is used to display information about the queues, their messages and current subscriptions encoded in JSON format.
Example
curl 127.0.0.1:4401/status
Response
{
"urgent": {
"messages": 0,
"subscriptions": 0
},
"someday": {
"messages": 0,
"subscriptions": 0
}
}
Debug
This endpoint is used to display debug information about Burlesque process. Currenty displays the number of goroutines only.
Example
curl 127.0.0.1:4401/debug
Response
{
"gomaxprocs": 1,
"goroutines": 12,
"kyoto_cabinet": {
"count": 0,
"path": "-",
"realtype": 16,
"size": 0,
"type": 16
},
"version": "0.2.0"
}