Mesos provides mechanisms to reserve resources in specific slaves. The concept was first introduced with static reservation in 0.14.0 which enabled operators to specify the reserved resources on slave startup. This was extended with dynamic reservation in 0.23.0 which enabled operators and authorized frameworks to dynamically reserve resources in the cluster.
No breaking changes were introduced with dynamic reservation, which means the existing static reservation mechanism continues to be fully supported.
In both types of reservations, resources are reserved for a role.
An operator can configure a slave with resources reserved for a role. The reserved resources are specified via the --resources
flag. For example, suppose we have 12 CPUs and 6144 MB of RAM available on a slave and that we want to reserve 8 CPUs and 4096 MB of RAM for the ads
role. We start the slave like so:
$ mesos-slave \ --master=<ip>:<port> \ --resources="cpus:4;mem:2048;cpus(ads):8;mem(ads):4096"
We now have 8 CPUs and 4096 MB of RAM reserved for ads
on this slave.
CAVEAT: In order to modify a static reservation, the operator must drain and restart the slave with the new configuration specifed in the --resources
flag.
NOTE: This feature is supported for backwards compatibility. The recommended approach is to specify the total resources available on the slave as unreserved via the --resources
flag and manage reservations dynamically via the master HTTP endpoints.
As mentioned in Static Reservation, specifying the reserved resources via the --resources
flag makes the reservation static. This is, statically reserved resources cannot be reserved for another role nor be unreserved. Dynamic Reservation enables operators and authorized frameworks to reserve and unreserve resources post slave-startup.
We require a principal
from the operator or framework in order to authenticate/authorize the operations. Authorization is specified via the existing ACL mechanism. (Coming Soon)
Offer::Operation::Reserve
and Offer::Operation::Unreserve
messages are available for frameworks to send back via the acceptOffers
API as a response to a resource offer./reserve
and /unreserve
HTTP endpoints are available for operators to manage dynamic reservations through the master. (Coming Soon).In the following sections, we will walk through examples of each of the interfaces described above.
Offer::Operation::Reserve
A framework is able to reserve resources through the resource offer cycle. Suppose we receive a resource offer with 12 CPUs and 6144 MB of RAM unreserved.
{ "id": <offer_id>, "framework_id": <framework_id>, "slave_id": <slave_id>, "hostname": <hostname>, "resources": [ { "name": "cpus", "type": "SCALAR", "scalar": { "value": 12 }, "role": "*", }, { "name": "mem", "type": "SCALAR", "scalar": { "value": 6144 }, "role": "*", } ] }
We can reserve 8 CPUs and 4096 MB of RAM by sending the following Offer::Operation
message. Offer::Operation::Reserve
has a resources
field which we specify with the resources to be reserved. We need to expicitly set the role
and principal
fields with the framework's role and principal.
{ "type": Offer::Operation::RESERVE, "reserve": { "resources": [ { "name": "cpus", "type": "SCALAR", "scalar": { "value": 8 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, { "name": "mem", "type": "SCALAR", "scalar": { "value": 4096 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } } ] } }
The subsequent resource offer will contain the following reserved resources:
{ "id": <offer_id>, "framework_id": <framework_id>, "slave_id": <slave_id>, "hostname": <hostname>, "resources": [ { "name": "cpus", "type": "SCALAR", "scalar": { "value": 8 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, { "name": "mem", "type": "SCALAR", "scalar": { "value": 4096 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, ] }
Offer::Operation::Unreserve
A framework is able to unreserve resources through the resource offer cycle. In Offer::Operation::Reserve, we reserved 8 CPUs and 4096 MB of RAM for our role
. The master will continue to offer these resources to our role
. Suppose we would like to unreserve these resources. First, we receive a resource offer (copy/pasted from above):
{ "id": <offer_id>, "framework_id": <framework_id>, "slave_id": <slave_id>, "hostname": <hostname>, "resources": [ { "name": "cpus", "type": "SCALAR", "scalar": { "value": 8 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, { "name": "mem", "type": "SCALAR", "scalar": { "value": 4096 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, ] }
We unreserve the 8 CPUs and 4096 MB of RAM by sending the following Offer::Operation
message. Offer::Operation::Unreserve
has a resources
field which we specify with the resources to be unreserved.
{ "type": Offer::Operation::UNRESERVE, "unreserve": { "resources": [ { "name": "cpus", "type": "SCALAR", "scalar": { "value": 8 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } }, { "name": "mem", "type": "SCALAR", "scalar": { "value": 4096 }, "role": <framework_role>, "reservation": { "principal": <framework_principal> } } ] } }
The unreserved resources may now be offered to other frameworks.
/reserve
(Coming Soon)Suppose we want to reserve 8 CPUs and 4096 MB of RAM for the ads
role on a slave with id=<slave_id>
. We send an HTTP POST request to the /reserve
HTTP endpoint like so:
$ curl -i \ -u <operator_principal>:<password> \ -d slaveId=<slave_id> \ -d resources='[ \ { \ "name": "cpus", \ "type": "SCALAR", \ "scalar": { "value": 8 }, \ "role": "ads", \ "reservation": { \ "principal": <operator_principal> \ } \ }, \ { \ "name": "mem", \ "type": "SCALAR", \ "scalar": { "value": 4096 }, \ "role": "ads", \ "reservation": { \ "principal": <operator_principal> \ } \ } \ ]' \ -X POST http://<ip>:<port>/master/reserve
The user receives one of the following HTTP responses:
200 OK
: Success400 BadRequest
: Invalid arguments (e.g. missing parameters).401 Unauthorized
: Unauthorized request.409 Conflict
: Insufficient resources to satisfy the reserve operation./unreserve
(Coming Soon)Suppose we want to unreserve the resources that we dynamically reserved above. We can send an HTTP POST request to the /unreserve
HTTP endpoint like so:
$ curl -i \ -u <operator_principal>:<password> \ -d slaveId=<slave_id> \ -d resources='[ \ { \ "name": "cpus", \ "type": "SCALAR", \ "scalar": { "value": 8 }, \ "role": "ads", \ "reservation": { \ "principal": <operator_principal> \ } \ }, \ { \ "name": "mem", \ "type": "SCALAR", \ "scalar": { "value": 4096 }, \ "role": "ads", \ "reservation": { \ "principal": <operator_principal> \ } \ } \ ]' \ -X POST http://<ip>:<port>/master/unreserve
The user receives one of the following HTTP responses:
200 OK
: Success400 BadRequest
: Invalid arguments (e.g. missing parameters).401 Unauthorized
: Unauthorized request.409 Conflict
: Insufficient resources to satisfy unreserve operation.