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github.com/timbray/quamina
Quamina implements a data type with APIs to
create an instance and add multiple Patterns to it,
and then query data objects called Events to
discover which of the Patterns match
the fields in the Event. In typical cases, Quamina
can match millions of Events per second, even with
many Patterns added to the instance.
Quamina has no run-time dependencies beyond built-in Go libraries.
Quamina welcomes contributions.
This is version 1.5.1 of Quamina. In future, the API will be changed only additively.
Note that we have documented more APIs than are actually fully implemented, with the intent of showing direction.
Consider the following JSON Event, taken from the example in RFC 8259:
{
"Image": {
"Width": 800,
"Height": 600,
"Title": "View from 15th Floor",
"Thumbnail": {
"Url": "http://www.example.com/image/481989943",
"Height": 125,
"Width": 100
},
"Animated" : false,
"IDs": [116, 943, 234, 38793]
}
}
The following Patterns would match it:
{"Image": {"Width": [800]}}
{
"Image": {
"Animated": [ false ],
"Thumbnail": {
"Height": [ 125 ]
},
"IDs": [ 943 ]
}
}
{"Image": { "Title": [ { "exists": true } ] } }
{
"Image": {
"Width": [800],
"Title": [ { "exists": true } ],
"Animated": [ false ]
}
}
{"Image": { "Width": [800], "IDs": [ { "exists": true } ] } }
{"Foo": [ { "exists": false } ] }
{
"Image": {
"Thumbnail": { "Url": [ { "wildcard": "*9943" } ] }
}
}
{
"Image": {
"Thumbnail": { "Url":
[ { "wildcard": "http://www.example.com/*" } ] }
}
}
{
"Image": {
"Thumbnail": { "Url":
[ { "wildcard": "http://www.example.*/*9943" } ] }
}
}
{
"Image": {
"Title": [ {"anything-but": ["Pikachu", "Eevee"] } ]
}
}
{
"Image": {
"Thumbnail": {
"Url": [ "a", { "prefix": "https:" } ] }
}
}
{
"Image": {
"Title": [ { "equals-ignore-case": "VIEW FROM 15th FLOOR" } ]
}
}
The syntax and semantics of Patterns are fully specified in Patterns in Quamina.
The structure of a Pattern, in terms of field names and nesting, must be the same as the structure of the Event to be matched. The field values are always given as an array; if any element of the array matches the value in the Event, the match is good. If the field in the Event is array-valued, matching is true if the intersection of the arrays is non-empty.
Fields which are not mentioned in the Pattern will be assumed to match, but all fields mentioned must match. So the semantics are effectively an OR on each field's values, but an AND on the field names.
The "exists":true
and "exists":false
patterns
have corner cases; details are covered in
Patterns in Quamina.
The first step in finding matches for an Event is
“flattening” it, which is to say turning it
into a list of pathname/value pairs called Fields. Quamina
defines a Flattener
interface type and has a built-in
Flattener
for JSON.
Note that should you wish to process Events
in a format other than JSON, you can implement
the Flattener
interface yourself.
Note: Both Patterns and Events are required to be RFC 8259-conforming JSON. In particular, field names and values in both Patterns and Events must be valid UTF-8. Unescaped characters smaller than 0x1F (illegal per JSON), and bytes with value greater than 0XF4 (can't occur in correctly composed UTF-8) are rejected by the APIs.
In some cases, JSON errors in Events may not be caught by the Matching APIs. The Flattener works hard to avoid processing areas of the Event that cannot match any of the provided Patterns and, in skipping over them, may miss certain errors.
func New(opts ...Option) (*Quamina, error)
func WithMediaType(mediaType string) Option
func WithFlattener(f Flattener) Option
func WithPatternDeletion(b bool) Option
func WithPatternStorage(ps LivePatternsState) Option
For example:
q, err := quamina.New(quamina.WithMediaType("application/json"))
The meanings of the Option
functions are:
WithMediaType
: In the futue, Quamina will support
Events not just in JSON but in other formats such as
Avro, Protobufs, and so on. This option will make sure
to invoke the correct Flattener. At the moment, the only
supported value is application/json
, the default.
WithFlattener
: Requests that Quamina flatten Events with
the provided (presumably user-written) Flattener.
WithPatternDeletion
: If true, arranges that Quamina
allows Patterns to be deleted from an instance. This is
not free; it can incur extra costs in memory and
occasional stop-the-world Quamina rebuilds. (We plan
to improve this.)
WithPatternStorage
: If you provide an argument that
supports the LivePatternStorage
API, Quamina will
use it to maintain a list of which Patterns have currently
been added but not deleted. This could be useful if you
wanted to rebuild Quamina instances for sharded
processing or after a system failure. Note: Not
yet implemented.
func (q *Quamina) AddPattern(x X, patternJSON string) error
The first argument identifies the Pattern and will be
returned by Quamina when asked to match against Events.
X is defined as any
.
The Pattern is provided in the second argument string which must be a JSON object as exemplified above in this document.
The error
return is used to signal invalid Pattern
structure, which could be bad UTF-8 or malformed JSON
or leaf values which are not provided as arrays.
As many Patterns as desired can be added to a Quamina
instance. More than one Pattern can be added with the
same X
identifier.
The AddPattern
call is single-threaded; if multiple
threads call it, they will block and execute sequentially.
func (q *Quamina) DeletePatterns(x X) error
After calling this API, no list of matches from
AddPattern
will include the X
value specified
in the argument.
The error
return value is nil unless there was an
internal failure of Quamina’s storage system.
func (q *Quamina) MatchesForEvent(event []byte) ([]X, error)
The error
return value is nil unless there was an
error in the encoding of the Event.
The []X
return slice may be empty if none of the Patterns
match the provided Event.
A single Quamina instance can not safely be used by
multiple goroutines at the same time. However, the
underlying data structure is designed for concurrent
access and the Copy
API is provided to support this.
func (q *Quamina) Copy() *Quamina
This generates a copy of the target instance. Such
copies may safely run in parallel in different
goroutines executing any combination of
MatchesForEvent()
, AddPattern()
, and
DeletePattern()
calls. There is a significant
performance penalty if a high proportion of these
calls are AddPattern()
.
Note that the Copy()
API is somewhat expensive, and
that a Quamina instance exhibits “warm-up” behavior,
i.e. the performance of MatchesForEvent()
improves
slightly upon repeated calls, especially over the
first few calls. The conclusion is that, for maximum efficiency, once
you’ve created a Quamina instance, whether through
New()
or Copy()
, keep it around and run as many
Events through it as is practical.
AddPattern()
PerformanceTens of thousands of Patterns per second can be added to a Quamina instance; the in-memory data structure will become larger, but not unreasonably so. The amount of available memory is the only significant limit to the number of patterns an instance can carry.
MatchesForEvent()
PerformanceI used to say that the performance of
MatchesForEvent
was O(1) in the number of
Patterns. That’s probably a reasonable way to think
about it, because it’s almost right, except in the
case where a very large number of wildcard
patterns
have been added; this is discussed in the next section.
To be correct, the performance is a little worse than O(N) where N is the average number of unique fields in an event that are used in one or more Patterns that have been added to the Quamina instance.
For example, suppose you have a list of 50,000 words, and you add a Pattern for each, of the form:
{"word": ["one of the words"]}
The performance in matching events should be about the same for one word or 50,000, with some marginal loss following on growth in the size of the necessary data structures.
However, adding another pattern that looks like the
following, in the case that the Events have a top-level
number
field, would decrease the performance by a factor of
roughly 2:
{"number": [11, 22, 33]}
After that, adding a few thousand more "number"
patterns shouldn’t
decrease the performance observably.
A word of explanation: Quamina compiles the Patterns into a somewhat-decorated automaton and uses that to find matches in Events. For Quamina to work, the incoming Events must be flattened into a list of pathname/value pairs and sorted. This process exceeds 50% of execution time, and is optimized by discarding any fields that do not appear in one or more of the Patterns added to Quamina. This code is optimized and in many cases can avoid processing every byte of the event. It’s complicated.
Once the list of fields which might match a Pattern is extracted, the cost of traversing the automaton is at most N, the number of fields left after discarding.
So, adding a new Pattern that only mentions fields which are already mentioned in previous Patterns is effectively free, i.e. O(1) in terms of run-time performance.
wildcard
PatternsA study of the theory of finite automata reveals that processing
regular-expression constructs such as *
increases the complexity of
the automata necessary to match them. It develops that when
a large number of such automata are compiled together, the merged
output can contain a high degree of nondeterminism which can result
in a drastic slowdown.
A fuzz test which adds a pattern for each of 12,959 5-letter words with
one *
embedded in each at a random offset slows matching speed down to
below 10,000/second, in stark contrast to most Quamina instances, which
can achieve millions of matches/second.
This slowdown is under active investigation and it is possible that the situation will improve.
There is a series of blog posts entitled Quamina Diary that provides a detailed discussion of the design decisions at a length unsuitable for in-code comments.
From Wikipedia: Quamina Gladstone (1778 – 16 September 1823), most often referred to simply as Quamina, was a Guyanese slave from Africa and father of Jack Gladstone. He and his son were involved in the Demerara rebellion of 1823, one of the largest slave revolts in the British colonies before slavery was abolished.
@timbray: v0.0 and patches.
@jsmorph: Pruner
and concurrency testing.
@embano1: CI/CD and project structure.
@yosiat: Flattening optimization.
@arnehormann: compact high-precision number representation.
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