Awesome
Craterl
Erlang client for crate.
This client is in an alpha state and, though tested very intensively, not yet verified to be rock-solid in a production environment.
Compatibility
Tested with OTP releases R16B
, 17
and 18
.
Installation
Rebar 3
Craterl is built using rebar3, using it in your project is highly recommended.
Here is how you'd add it to your dependencies.
If you want to load a craterl release from hex.pm, configure it like so:
{deps,[
{craterl,"0.2.3"}
]}.
Or load it directly from github:
{deps,[
{craterl, {git, "git://github.com/crate/craterl.git", {tag, "0.2.3"}}}
]}.
Rebar 2
You can also use craterl in your project using rebar2, though rebar3 is recommended.
With rebar2 you need to load craterl from github. Use a git tag or a commit ref in order to get reproducable builds:
{deps,[
{craterl, "0.2.3", {git, "git://github.com/crate.craterl.git", {tag, "0.2.3}}}
]}.
Mix
Craterl releases are hosted on hex.pm.
Declare it as a dependency in your mix.exs
file:
def deps do
[{:craterl, "~> 0.2.3"}]
end
Or load it directly from github:
def deps do
[{:craterl, git: "git://github.com/crate/craterl.git", tag: "0.2.3"}]
end
Usage
Normally you'd start craterl as part of your application's startup, so the Erlang/OTP application framework will take care of actually starting craterl.
However, if you want to play around with craterl on the erlang or elixir shell you can start it up with the following convenience method:
ok = craterl:start().
Having a running craterl
application, the next step is starting a client
instance using a variant of the craterl:new()
function:
ClientSpec = {local, my_client}.
Servers = [{<<"localhost">>, 4200}, "localhost:4201"].
Options = [{poolsize, 1000}, {timeout, 5000}].
ClientRef = craterl:new(ClientSpec, Servers, Options).
It is possible to create many clients on one erlang node.
craterl
client instances are created using a client spec which is
a tuple you would use when registering a process, like {local, your_name}
.
The process name, your_name
in this example, must be unique on a node.
Options
The following options can be used to change the behaviour of a newly created craterl client:
- poolname -
string()
orbinary()
, the name of the connection pool, handled by hackney (erlang http client) - poolsize -
integer()
, the size of the connection pool, also handled by hackney - timeout -
integer()
, the receive and connect timeout for connections to crate servers, in milliseconds - ssl_options -
term()
, the same options the erlang ssl module accepts asssloptions()
- ssl_insecure -
boolean()
, whether ssl certificates should be validated or not
Example:
Options = [
{poolname, "my_pool"},
{poolsize, 200}, {timeout, 6000},
{ssl_insecure, false},
{ssl_options, [
{cipers, [{rsa, aes_256_cbc, sha}]},
{cacerts, MyDerEncodedCaCerts}
]}
].
ClientRef = craterl:new({local, craterl}, [{<<"localhost">>, 4200}], Options).
See the documentation of the craterl
module for more detailed api documentation.
SQL
Issuing SQL statements using craterl is possible with one of the variants
of craterl:sql()
:
{ok Response} = craterl:sql("select id, name from sys.cluster").
[[<<"89b8f6bf-4082-415b-937e-7de66b67f6fe">>, <<"crate">>]] = craterl_resp:rows(Response).
[<<"id">>,<<"name">>] = craterl_resp:column_names(Response).
Stmt = <<"select * from user where id in (?, ?, ?)">>.
Args = [1, 2, 3].
{ok, Response2} = craterl:sql(ClientRef, Stmt, Args).
For issuing multiple INSERT / DELETE or UPDATE requests with one roundtrip,
the craterl:sql_bulk()
functions can be used:
Stmt = <<"insert into t (id, name) values (?, ?)">>.
BulkArgs = [[1, <<"Ford">>], [2, <<"Trillian">>], [3, <<"Zaphod">>]].
{ok, BulkResponse} = craterl:sql_bulk(ClientRef, Stmt, BulkArgs).
BulkResults = craterl_resp:bulk_results(BulkResponse).
[1,1,1] = lists:map(fun craterl_resp:row_count/1, BulkResults).
Stmt2 = <<"update t set new_column=? where id=?">>.
BulkArgs2 = [[<<"funky">>, 1], [<<"shizzle">>, 2], [<<"indeed">>, 3]].
{ok, BulkResponse2} = craterl:sql_bulk(Stmt2, BulkArgs2).
BulkResults2 = craterl_resp:bulk_results(BulkResponse2).
[1,1,1] = lists:map(fun craterl_resp:row_count/1, BulkResults2).
{ok, SelectResponse} = craterl:sql("select * from t").
[[1,<<"Ford">>,<<"funky">>],
[2,<<"Trillian">>,<<"shizzle">>],
[3,<<"Zaphod">>,<<"indeed">>]] = craterl_resp:rows(SelectResponse).
Every sql api function has a variant that accepts a ClientRef
as first
argument that is an atom referencing a craterl
client that has been
started using a variant craterl:new()
in order to issue your request
against a specific server / cluster.
Blobs
Crate is able to store blobs, files, binary somethings. They can be replicated to make sure you won't lose data.
Craterl fully supports storing, retrieving and manipulating blobs.
At first a blob table is needed to store blobs into:
{ok, SqlResponse} = craterl:sql("create blob table myblobs with (number_of_replicas=1)").
It is possible to upload blobs from stuff you have available in ram or from a file:
Content = <<"awesome!">>.
{ok, {created, HashDigest}} = craterl:blob_put(<<"myblobs">>, Content).
HashDigest = <<"040f06fd774092478d450774f5ba30c5da78acc8">>.
File = <<"/usr/share/dict/words">>
{ok,{created, WordsHash}} = craterl:blob_put_file(ClientRef, <<"myblobs">>, <<"/usr/share/dict/words">>).
WordsHash = <<"a62edf8685920f7d5a95113020631cdebd18a185">>.
You can get blobs to memory or to file. Both methods will make use of chunked HTTP encoding so you will receive the blob piece by piece and won't load big blobs into memory at once.
{ok, GetDataFun} = craterl:blob_get(<<"myblobs">>, WordsHash).
GetDataFun()
{ok,<<"A\na\naa\naal\naalii\naam\nAani\naardvark\naardwolf\nAaron\nAaronic\nAaronical\nAaronite\nAaronitic\nAaru\nAb\naba\nAbabdeh\nA"...>>}
GetDataFun()
{ok,<<"inoposterior\nabdominoscope\nabdominoscopy\nabdominothoracic\nabdominous\nabdominovaginal\nabdominovesical\nabduce\n"...>>}
...
GetDataFun()
{ok, done}
NewWordsFile = <<"/tmp/blobwords">>
{ok, NewWordsFile} = craterl:blob_get_to_file(<<"myblobs">>, WordsHash, NewWordsFile).
file:read_file(NewWordsFile)
{ok,<<"A\na\naa\naal\naalii\naam\nAani\naardvark\naardwolf\nAaron\nAaronic\nAaronical\nAaronite\nAaronitic\nAaru\nAb\naba\nAbabdeh\nA"...>>}
Check for existence of blobs:
ok = craterl:blob_exists(ClientRef, <<"myblobs">>, WordsHash).
{error, 404} = craterl:blob_exists(craterl, <<"myblobs">>, <<"doesnotexist">>).
Delete blobs:
ok = craterl:blob_delete(<<"myblobs">>, WordsHash).
{error, 404} = craterl:blob_delete(<<"myblobs">>, WordsHash).
Every blob api function, like the sql functions, has a variant that accepts
a ClientRef
as first argument that is an atom referencing a craterl
client that has been started using a variant of craterl:new()
.
Tests
Simply call make test
to run the unit and integration tests for craterl
.
Contributions
Are very welcome, be it code, constructive feedback, money, or some motivating words!