seaweedfs/weed/pb/volume_server.proto
Chris Lu cb2061f86a
Merge pull request #925 from stlpmo-jn/checkUnhealthReplication
the implement of repair the error replications of the volume
2019-04-10 23:37:12 -07:00

193 lines
4.2 KiB
Protocol Buffer

syntax = "proto3";
package volume_server_pb;
//////////////////////////////////////////////////
service VolumeServer {
//Experts only: takes multiple fid parameters. This function does not propagate deletes to replicas.
rpc BatchDelete (BatchDeleteRequest) returns (BatchDeleteResponse) {
}
rpc VacuumVolumeCheck (VacuumVolumeCheckRequest) returns (VacuumVolumeCheckResponse) {
}
rpc VacuumVolumeCompact (VacuumVolumeCompactRequest) returns (VacuumVolumeCompactResponse) {
}
rpc VacuumVolumeCommit (VacuumVolumeCommitRequest) returns (VacuumVolumeCommitResponse) {
}
rpc VacuumVolumeCleanup (VacuumVolumeCleanupRequest) returns (VacuumVolumeCleanupResponse) {
}
rpc DeleteCollection (DeleteCollectionRequest) returns (DeleteCollectionResponse) {
}
rpc AllocateVolume (AllocateVolumeRequest) returns (AllocateVolumeResponse) {
}
rpc VolumeSyncStatus (VolumeSyncStatusRequest) returns (VolumeSyncStatusResponse) {
}
rpc VolumeFollow (VolumeFollowRequest) returns (stream VolumeFollowResponse) {
}
rpc VolumeMount (VolumeMountRequest) returns (VolumeMountResponse) {
}
rpc VolumeUnmount (VolumeUnmountRequest) returns (VolumeUnmountResponse) {
}
rpc VolumeDelete (VolumeDeleteRequest) returns (VolumeDeleteResponse) {
}
rpc ReplicateVolume (ReplicateVolumeRequest) returns (ReplicateVolumeResponse) {
}
rpc ReadVolumeFileStatus (ReadVolumeFileStatusRequest) returns (ReadVolumeFileStatusResponse) {
}
rpc CopyFile (CopyFileRequest) returns (stream CopyFileResponse) {
}
}
//////////////////////////////////////////////////
message BatchDeleteRequest {
repeated string file_ids = 1;
}
message BatchDeleteResponse {
repeated DeleteResult results = 1;
}
message DeleteResult {
string file_id = 1;
int32 status = 2;
string error = 3;
uint32 size = 4;
}
message Empty {
}
message VacuumVolumeCheckRequest {
uint32 volume_id = 1;
}
message VacuumVolumeCheckResponse {
double garbage_ratio = 1;
}
message VacuumVolumeCompactRequest {
uint32 volume_id = 1;
int64 preallocate = 2;
}
message VacuumVolumeCompactResponse {
}
message VacuumVolumeCommitRequest {
uint32 volume_id = 1;
}
message VacuumVolumeCommitResponse {
}
message VacuumVolumeCleanupRequest {
uint32 volume_id = 1;
}
message VacuumVolumeCleanupResponse {
}
message DeleteCollectionRequest {
string collection = 1;
}
message DeleteCollectionResponse {
}
message AllocateVolumeRequest {
uint32 volume_id = 1;
string collection = 2;
int64 preallocate = 3;
string replication = 4;
string ttl = 5;
}
message AllocateVolumeResponse {
}
message VolumeSyncStatusRequest {
uint32 volume_id = 1;
}
message VolumeSyncStatusResponse {
uint32 volume_id = 1;
string collection = 2;
string replication = 4;
string ttl = 5;
uint64 tail_offset = 6;
uint32 compact_revision = 7;
uint64 idx_file_size = 8;
}
message VolumeFollowRequest {
uint32 volume_id = 1;
uint64 since = 2;
}
message VolumeFollowResponse {
bytes file_content = 1;
}
message VolumeMountRequest {
uint32 volume_id = 1;
}
message VolumeMountResponse {
}
message VolumeUnmountRequest {
uint32 volume_id = 1;
}
message VolumeUnmountResponse {
}
message VolumeDeleteRequest {
uint32 volume_id = 1;
}
message VolumeDeleteResponse {
}
message ReplicateVolumeRequest {
uint32 volume_id = 1;
string collection = 2;
string replication = 3;
string ttl = 4;
string source_data_node = 5;
}
message ReplicateVolumeResponse {
}
message CopyFileRequest {
uint32 volume_id = 1;
bool is_idx_file = 2;
bool is_dat_file = 3;
}
message CopyFileResponse {
bytes file_content = 1;
}
message ReadVolumeFileStatusRequest {
uint32 volume_id = 1;
}
message ReadVolumeFileStatusResponse {
uint32 volume_id = 1;
uint64 idx_file_timestamp = 2;
uint64 idx_file_size = 3;
uint64 dat_file_timestamp = 4;
uint64 dat_file_size = 5;
uint64 file_count = 6;
}
message DiskStatus {
string dir = 1;
uint64 all = 2;
uint64 used = 3;
uint64 free = 4;
}
message MemStatus {
int32 goroutines = 1;
uint64 all = 2;
uint64 used = 3;
uint64 free = 4;
uint64 self = 5;
uint64 heap = 6;
uint64 stack = 7;
}