Bow
Bow is a minimal embedded database powered by Badger.
The mission of Bow is to provide a simple, fast and reliable way to persist structured data for projects that don't need an external database server such as PostgreSQL or MongoDB.
Bow is powered by BadgerDB, implementing buckets and serialization on top of it.
Table of Contents
Why Badger and not Bolt?
Badger is more actively maintained than bbolt, allows for key-only iteration and has some very interesting performance characteristics.
Getting Started
Installing
go get -u github.com/zippoxer/bow
Opening a database
// Open database under directory "test".
db, err := bow.Open("test")
if err != nil {
log.Fatal(err)
}
defer db.Close()
With options:
db, err := bow.Open("test",
bow.SetCodec(msgp.Codec{}),
bow.SetBadgerOptions(badger.DefaultOptions}))
if err != nil {
log.Fatal(err)
}
Defining a structure
Each record in the database has an explicit or implicit unique key.
If a structure doesn't define a key or has a zero-value key, Bow stores it with a randomly generated key.
type Page struct {
Body []byte
Tags []string
Created time.Time
}
Structures must define a key if they wish to manipulate it.
type Page struct {
Id string `bow:"key"`
Body []byte
Tags []string
Created time.Time
}
Keys must be a string, a byte slice, any built-in integer of at least 32 bits (int32, uint32 and above) or a type that implements codec.Marshaler
and codec.Unmarshaler
.
Randomly generated keys
Id
is a convenient placeholder for Bow's randomly generated keys.
type Page struct {
Id bow.Id // Annotating with `bow:"key"` isn't necessary.
// ...
}
Id.String()
returns a user-friendly representation of Id
.
ParseId(string)
parses the user-friendly representation into an Id
.
NewId()
generates a random Id. Only necessary when you need to know the inserted Id.
Persisting a structure
Put
persists a structure into the bucket. If a record with the same key already exists, then it will be updated.
page1 := Page{
Id: bow.NewId(),
Body: []byte("<h1>Example Domain</h1>"),
Tags: []string{"example", "h1"},
Created: time.Now(),
}
err := db.Bucket("pages").Put(page1)
if err != nil {
log.Fatal(err)
}
Retrieving a structure
Get
retrieves a structure by key from a bucket, returning ErrNotFound if it doesn't exist.
var page2 Page
err := db.Bucket("pages").Get(page1.Id, &page2)
if err != nil {
log.Fatal(err)
}
Iterating a bucket
iter := db.Bucket("pages").Iter()
defer iter.Close()
var page Page
for iter.Next(&page) {
log.Println(page.Id.String()) // User-friendly representation of bow.Id.
}
if iter.Err() != nil {
log.Fatal(err)
}
Prefix iteration
Iterate over records whose key starts with a given prefix.
For example, let's define Page
with URL as the key:
type Page struct {
URL string `bow:"key"`
Body []byte
}
Finally, let's iterate over HTTPS pages:
iter := db.Bucket("pages").Prefix("https://")
var page Page
for iter.Next(&page) {
log.Println(page.URL)
}
Serialization
By default, Bow serializes structures with encoding/json
. You can change that behaviour by passing a type that implements codec.Codec
via the bow.SetCodec
option.
tinylib/msgp
MessagePack with msgp is a code generation tool and serialization library for MessagePack, and it's nearly as fast as protocol buffers and about an order of magnitude faster than encoding/json (see benchmarks). Bow provides a codec.Codec
implementation for msgp under the codec/msgp
package. Here's how to use it:
- Since msgp generates code to serialize structures, you must include the following directive in your Go file:
//go:generate msgp
-
Replace any use of
bow.Id
in your structures withstring
. Sincebow.Id
is astring
, you can convert between the two without any cost. -
Import
github.com/zippoxer/bow/codec/msgp
and open a database withmsgp.Codec
:
bow.Open("test", bow.SetCodec(msgp.Codec{}))
Read more about msgp and it's code generation settings at https://github.com/tinylib/msgp
Upcoming
Key-only iteration
Since Badger separates keys from values, key-only iteration should be orders of magnitude faster, at least in some cases, than it's equivalent with Bolt.
Bow's key-only iterator is a work in progress.
Transactions
Cross-bucket transactions are a work in progress. See branch tx.
Querying
Bow doesn't feature a querying mechanism yet. Instead, you must iterate records to query or filter them.
For example, let's say I want to perform the equivalent of
SELECT * FROM pages WHERE url LIKE '%/home%'
in Bow, I could iterate the pages bucket and filter pages with URLs containing '/home':
var matches []Page
iter := db.Bag("pages").Iter()
defer iter.Close()
var page Page
for iter.Next(&page) {
if strings.Contains(strings.ToLower(page.URL), "/home") {
matches = append(matches, page)
}
}
return matches, iter.Err()
Meanwhile, you can try Storm if you want convenient querying.
Performance
Bow is nearly as fast as Badger, and in most cases faster than Storm. See Go Database Benchmarks.
Contributing
I welcome any feedback and contribution.
My priorities right now are tests, documentation and polish.
Bow lacks decent tests and documentation for types, functions and methods. Most of Bow's code was written before I had any plan to release it, and I think it needs polish.