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si.proto
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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Code generated by make build. DO NOT EDIT
syntax = "proto3";
package si.v1;
import "google/protobuf/descriptor.proto";
option go_package = "lib/go/si";
extend google.protobuf.FieldOptions {
// Indicates that a field MAY contain information that is sensitive
// and MUST be treated as such (e.g. not logged).
bool si_secret = 1059;
}
service Scheduler {
// Register a RM, if it is a reconnect from previous RM the call will
// trigger a cleanup of all in-memory data and resync with RM.
rpc RegisterResourceManager (RegisterResourceManagerRequest)
returns (RegisterResourceManagerResponse) { }
// Update Scheduler status (this includes node status update, allocation request
// updates, etc. And receive updates from scheduler for allocation changes,
// any required status changes, etc.
// Update allocation request
rpc UpdateAllocation(stream AllocationRequest)
returns (stream AllocationResponse) { }
// Update application request
rpc UpdateApplication(stream ApplicationRequest)
returns (stream ApplicationResponse) { }
// Update node info
rpc UpdateNode(stream NodeRequest)
returns (stream NodeResponse) { }
}
message RegisterResourceManagerRequest {
// An ID which can uniquely identify a RM **cluster**. (For example, if a RM cluster has multiple manager instances for HA purpose, they should use the same information when do registration).
// If RM register with the same ID, all previous scheduling state in memory will be cleaned up, and expect RM report full scheduling state after registration.
string rmID = 1;
// Version of RM scheduler interface client.
string version = 2;
// Policy group name:
// This defines which policy to use. Policy should be statically configured. (Think about network security group concept of ec2).
// Different RMs can refer to the same policyGroup if their static configuration is identical.
string policyGroup = 3;
// Pass the build information of k8shim to core.
map<string, string> buildInfo = 4;
// Pass the serialized configuration for this policyGroup to core.
string config = 5;
// Additional configuration key/value pairs for configuration not related to the policyGroup.
map<string, string> extraConfig = 6;
}
// Upon success, scheduler returns RegisterResourceManagerResponse to RM, otherwise RM receives exception.
message RegisterResourceManagerResponse {
// Intentionally empty.
}
message AllocationRequest {
// New allocation requests or replace existing allocation request (if allocationID is same)
repeated AllocationAsk asks = 1;
// Allocations can be released.
AllocationReleasesRequest releases = 2;
// ID of RM, this will be used to identify which RM of the request comes from.
string rmID = 3;
// Existing allocations to be added.
repeated Allocation allocations = 4;
}
message ApplicationRequest {
// RM should explicitly add application when allocation request also explictly belongs to application.
// This is optional if allocation request doesn't belong to a application. (Independent allocation)
repeated AddApplicationRequest new = 1;
// RM can also remove applications, all allocation/allocation requests associated with the application will be removed
repeated RemoveApplicationRequest remove = 2;
// ID of RM, this will be used to identify which RM of the request comes from.
string rmID = 3;
}
message NodeRequest {
// New node can be scheduled. If a node is notified to be "unscheduable", it needs to be part of this field as well.
repeated NodeInfo nodes = 1;
// ID of RM, this will be used to identify which RM of the request comes from.
string rmID = 2;
}
message AllocationResponse {
// New allocations
repeated Allocation new = 1;
// Released allocations, this could be either ack from scheduler when RM asks to terminate some allocations.
// Or it could be decision made by scheduler (such as preemption or timeout).
repeated AllocationRelease released = 2;
// Released allocation asks(placeholder), when the placeholder allocation times out
repeated AllocationAskRelease releasedAsks = 3;
// Rejected allocation requests
repeated RejectedAllocationAsk rejected = 4;
// Rejected allocations
repeated RejectedAllocation rejectedAllocations = 5;
}
message ApplicationResponse {
// Rejected Applications
repeated RejectedApplication rejected = 1;
// Accepted Applications
repeated AcceptedApplication accepted = 2;
// Updated Applications
repeated UpdatedApplication updated = 3;
}
message NodeResponse {
// Rejected Node Registrations
repeated RejectedNode rejected = 1;
// Accepted Node Registrations
repeated AcceptedNode accepted = 2;
}
message UpdatedApplication {
// The application ID that was updated
string applicationID = 1;
// State of the application
string state = 2;
// Timestamp of the state transition
int64 stateTransitionTimestamp = 3;
// Detailed message
string message = 4;
}
message RejectedApplication {
// The application ID that was rejected
string applicationID = 1;
// A human-readable reason message
string reason = 2;
}
message AcceptedApplication {
// The application ID that was accepted
string applicationID = 1;
}
message RejectedNode {
// The node ID that was rejected
string nodeID = 1;
// A human-readable reason message
string reason = 2;
}
message AcceptedNode {
// The node ID that was accepted
string nodeID = 1;
}
// A sparse map of resource to Quantity.
message Resource {
map<string, Quantity> resources = 1;
}
// Quantity includes a single int64 value
message Quantity {
int64 value = 1;
}
message AllocationAsk {
// Allocation key is used by both of scheduler and RM to track allocations.
// It doesn't have to be same as RM's internal allocation id (such as Pod name of K8s or ContainerID of YARN).
// Allocations from the same AllocationAsk which are returned to the RM at the same time will have the same allocationKey.
// The request is considered an update of the existing AllocationAsk if an ALlocationAsk with the same allocationKey
// already exists.
string allocationKey = 1;
// The application ID this allocation ask belongs to
string applicationID = 2;
// The partition the application belongs to
string partitionName = 3;
// The amount of resources per ask
Resource resourceAsk = 4;
// Maximum number of allocations
int32 maxAllocations = 5;
// Priority of ask
int32 priority = 6;
// Execution timeout: How long this allocation will be terminated (by scheduler)
// once allocated by scheduler, 0 or negative value means never expire.
int64 executionTimeoutMilliSeconds = 7;
// A set of tags for this spscific AllocationAsk. Allocation level tags are used in placing this specific
// ask on nodes in the cluster. These tags are used in the PlacementConstraints.
// These tags are optional.
map<string, string> tags = 8;
// The name of the TaskGroup this ask belongs to
string taskGroupName = 9;
// Is this a placeholder ask (true) or a real ask (false), defaults to false
// ignored if the taskGroupName is not set
bool placeholder = 10;
// Is this ask the originator of the application?
bool Originator = 11;
// The preemption policy for this ask
PreemptionPolicy preemptionPolicy = 12;
}
message PreemptionPolicy {
// Opt-out from preemption
bool allowPreemptSelf = 1;
// Allow preemption of other tasks with same or lower priority
bool allowPreemptOther = 2;
}
message AddApplicationRequest {
// The ID of the application, must be unique
string applicationID = 1;
// The queue this application is requesting. The scheduler will place the application into a
// queue according to policy, taking into account the requested queue as per the policy.
string queueName = 2;
// The partition the application belongs to
string partitionName = 3;
// The user group information of the application owner
UserGroupInformation ugi = 4;
// A set of tags for the application. These tags provide application level generic inforamtion.
// The tags are optional and are used in placing an appliction or scheduling.
// Application tags are not considered when processing AllocationAsks.
map<string, string> tags = 5;
// Execution timeout: How long this application can be in a running state
// 0 or negative value means never expire.
int64 executionTimeoutMilliSeconds = 6;
// The total amount of resources gang placeholders will request
Resource placeholderAsk = 7;
// Gang scheduling style can be hard (the application will fail after placeholder timeout)
// or soft (after the timeout the application will be scheduled as a normal application)
string gangSchedulingStyle = 8;
}
message RemoveApplicationRequest {
// The ID of the application to remove
string applicationID = 1;
// The partition the application belongs to
string partitionName = 2;
}
message UserGroupInformation {
// the user name
string user = 1;
// the list of groups of the user, can be empty
repeated string groups = 2;
}
message Allocation {
// AllocationKey from AllocationAsk
string allocationKey = 1;
// Allocation tags from AllocationAsk
map<string, string> allocationTags = 2;
// UUID of the allocation
string UUID = 3;
// Resource for each allocation
Resource resourcePerAlloc = 5;
// Priority of ask
int32 priority = 6;
// Node which the allocation belongs to
string nodeID = 8;
// The ID of the application
string applicationID = 9;
// Partition of the allocation
string partitionName = 10;
// The name of the TaskGroup this allocation belongs to
string taskGroupName = 11;
// Is this a placeholder allocation (true) or a real allocation (false), defaults to false
// ignored if the taskGroupName is not set
bool placeholder = 12;
reserved 7;
reserved "queueName";
}
message AllocationReleasesRequest {
// The allocations to release
repeated AllocationRelease allocationsToRelease = 1;
// The asks to release
repeated AllocationAskRelease allocationAsksToRelease = 2;
}
enum TerminationType {
UNKNOWN_TERMINATION_TYPE = 0;//TerminationType not set
STOPPED_BY_RM = 1; // Stopped or killed by ResourceManager (created by RM)
TIMEOUT = 2; // Timed out based on the executionTimeoutMilliSeconds (created by core)
PREEMPTED_BY_SCHEDULER = 3; // Preempted allocation by scheduler (created by core)
PLACEHOLDER_REPLACED = 4; // Placeholder allocation replaced by real allocation (created by core)
}
// Release allocation: this is a bidirectional message. The Terminationtype defines the origin, or creator,
// as per the comment. The confirmation or response from the receiver is the same message with the same
// termination type set.
message AllocationRelease {
// The name of the partition the allocation belongs to
string partitionName = 1;
// The application the allocation belongs to
string applicationID = 2;
// The UUID of the allocation to release, if not set all allocations are released for
// the applicationID
string UUID = 3;
// Termination type of the released allocation
TerminationType terminationType = 4;
// human-readable message
string message = 5;
// AllocationKey from AllocationAsk
string allocationKey = 6;
}
// Release ask
message AllocationAskRelease {
// Which partition to release the ask from, required.
string partitionName = 1;
// optional, when this is set, filter allocation key by application id.
// when application id is set and allocationKey is not set, release all allocations key under the application id.
string applicationID = 2;
// optional, when this is set, only release allocation ask by specified
string allocationKey = 3;
// Termination type of the released allocation ask
TerminationType terminationType = 4;
// For human-readable message
string message = 5;
}
message NodeInfo {
// Action from RM
enum ActionFromRM {
//ActionFromRM not set
UNKNOWN_ACTION_FROM_RM = 0;
// Create Node as initially schedulable.
CREATE = 1;
// Update node resources, attributes.
UPDATE = 2;
// Do not allocate new allocations on the node.
DRAIN_NODE = 3;
// Decomission node, it will immediately stop allocations on the node and
// remove the node from schedulable lists.
DECOMISSION = 4;
// From Draining state to SCHEDULABLE state.
// If node is not in draining state, error will be thrown
DRAIN_TO_SCHEDULABLE = 5;
// Create Node as initially draining (i.e. unschedulable). Before scheduling can proceed,
// DRAIN_TO_SCHEDULABLE must be called.
CREATE_DRAIN = 6;
}
// ID of node, the node must exist to be updated
string nodeID = 1;
// Action to perform by the scheduler
ActionFromRM action = 2;
// New attributes of node, which will replace previously reported attribute.
map<string, string> attributes = 3;
// new schedulable resource, scheduler may preempt allocations on the
// node or schedule more allocations accordingly.
Resource schedulableResource = 4;
// when the scheduler is co-exist with some other schedulers, some node
// resources might be occupied (allocated) by other schedulers.
Resource occupiedResource = 5;
// Allocated resources, this will be added when node registered to RM (recovery)
repeated Allocation existingAllocations = 6;
}
message RejectedAllocationAsk {
// the ID of the allocation ask
string allocationKey = 1;
// The ID of the application
string applicationID = 2;
// A human-readable reason message
string reason = 3;
}
message RejectedAllocation {
// the ID of the allocation
string allocationKey = 1;
// The ID of the application
string applicationID = 2;
// A human-readable reason message
string reason = 3;
}
message PredicatesArgs {
// allocation key identifies a container, the predicates function is going to check
// if this container is eligible to be placed ont to a node.
string allocationKey = 1;
// the node ID the container is assigned to.
string nodeID = 2;
// run the predicates for alloactions (true) or reservations (false)
bool allocate = 3;
}
message PreemptionPredicatesArgs {
// the allocation key of the container to check
string allocationKey = 1;
// the node ID the container should be attempted to be scheduled on
string nodeID = 2;
// a list of existing allocations that should be tentatively removed before checking
repeated string preemptAllocationKeys = 3;
// index of last allocation in starting attempt (first attempt should be 0..startIndex)
int32 startIndex = 4;
}
message PreemptionPredicatesResponse {
// whether or not container will schedule on the node
bool success = 1;
// index of last allocation which was removed before success (ignored during failure)
int32 index = 2;
}
message UpdateContainerSchedulingStateRequest {
// container scheduling states
enum SchedulingState {
//SchedulingState not set
UNKNOWN_SCHEDULING_STATE = 0;
// the container is being skipped by the scheduler
SKIPPED = 1;
// the container is scheduled and it has been assigned to a node
SCHEDULED = 2;
// the container is reserved on some node, but not yet assigned
RESERVED = 3;
// scheduler has visited all candidate nodes for this container
// but non of them could satisfy this container's requirement
FAILED = 4;
}
// application ID
string applicartionID = 1;
// allocation key used to identify a container.
string allocationKey = 2;
// container scheduling state
SchedulingState state = 3;
// an optional plain message to explain why it is in such state
string reason = 4;
}
message UpdateConfigurationRequest {
// RM ID to update
string rmID = 2;
// PolicyGroup to update
string policyGroup = 3;
// New configuration to update
string config = 4;
// Additional configuration key/value pairs for configuration not related to the policyGroup.
map<string, string> extraConfig = 5;
reserved 1;
reserved "configs";
}
message EventRecord {
enum Type {
//EventRecord Type not set
UNKNOWN_EVENTRECORD_TYPE = 0;
REQUEST = 1;
APP = 2;
NODE = 3;
QUEUE = 4;
}
enum ChangeType {
NONE = 0;
SET = 1;
ADD = 2;
REMOVE = 3;
}
enum ChangeDetail {
DETAILS_NONE = 0;
REQUEST_CANCEL = 100; // Request cancelled by the RM
REQUEST_ALLOC = 101; // Request allocated
REQUEST_TIMEOUT = 102; // Request cancelled due to timeout
APP_ALLOC = 200; // Allocation changed
APP_REQUEST = 201; // Request changed
APP_REJECT = 202; // Application rejected on create
APP_NEW = 203; // Application added with state new
APP_ACCEPTED = 204; // State change to accepted
APP_STARTING = 205; // State change to starting
APP_RUNNING = 206; // State change to running
APP_COMPLETING = 207; // State change to completing
APP_COMPLETED = 208; // State change to completed
APP_FAILING = 209; // State change to failing
APP_FAILED = 210; // State change to failed
APP_RESUMING = 211; // State change to resuming
APP_EXPIRED = 212; // State change to expired
NODE_DECOMISSION = 300; // Node removal
NODE_READY = 301; // Node ready state change
NODE_SCHEDULABLE = 302; // Node schedulable state change (cordon)
NODE_ALLOC = 303; // Allocation changed
NODE_CAPACITY = 304; // Capacity changed
NODE_OCCUPIED = 305; // Occupied resource changed
NODE_RESERVATION = 306; // Reservation/unreservation occurred
QUEUE_CONFIG = 400; // Managed queue update or removal
QUEUE_DYNAMIC = 401; // Dynamic queue update or removal
QUEUE_TYPE = 402; // Queue type change
QUEUE_MAX = 403; // Max resource changed
QUEUE_GUARANTEED = 404; // Guaranteed resource changed
QUEUE_APP = 405; // Application changed
QUEUE_ALLOC = 406; // Allocation changed
ALLOC_CANCEL = 500; // Allocation cancelled by the RM
ALLOC_PREEMPT = 501; // Allocation preempted by the core
ALLOC_TIMEOUT = 502; // Allocation cancelled due to timeout
ALLOC_REPLACED = 503; // Allocation replacement (placeholder)
ALLOC_NODEREMOVED = 504; // Allocation cancelled, node removal
}
// the type of the object associated with the event
Type type = 1;
// ID of the object associated with the event
string objectID = 2;
// the detailed message as string
string message = 5;
// timestamp of the event
int64 timestampNano = 6;
// the type of the change
ChangeType eventChangeType = 7;
// details about the change
ChangeDetail eventChangeDetail = 8;
// the secondary object in the event (eg. allocation UUID, request ID)
string referenceID = 9;
// the resource value if the change involves setting/modifying a resource
Resource resource = 10;
reserved 3;
reserved "groupID";
reserved 4;
reserved "reason";
}