syntax = "proto2";

import "lib/common.proto";

message ImgInputOutputProto {
	enum Order {
		UNDEFINED = 0;
		CHS = 1;
		HCS = 2;
	}

	message SectorsProto {
		repeated int32 sector = 1 [(help) = "sector ID"];
	}

	message SectorRangeProto {
		optional int32 start_sector = 1 [default=0, (help) = "first sector ID"];
		optional int32 sector_count = 2 [default=1, (help) = "total number of sectors"];
	}

	message TrackdataProto {
		optional int32 track = 1       [(help) = "if present, this format only applies to this track"];
		optional int32 up_to_track = 5 [(help) = "if present, forms a range with track"];
		optional int32 side = 2        [(help) = "if present, this format only applies to this side"];

		optional int32 sector_size = 3 [default=512, (help) = "number of bytes per sector"];

		oneof sectors_oneof {
			SectorsProto sectors = 4 [(help) = "use a list of sector IDs"];
			SectorRangeProto sector_range = 6 [(help) = "use a range of contiguous IDs"];
		}
	}

	repeated TrackdataProto trackdata = 4 [(help) = "per-track format information (repeatable)"];
	optional int32 tracks = 5 [default=0, (help) = "number of tracks in image"];
	optional int32 sides = 6 [default=0, (help) = "number of sides in image"];
	optional Order order = 9 [default=CHS, (help) = "the order in which to emit tracks in the image"];
}

message DiskCopyInputProto {}
message ImdInputProto {}
message Jv3InputProto {}
message D64InputProto {}
message NsiInputProto {}
message Td0InputProto {}
message DimInputProto {}
message FdiInputProto {}
message D88InputProto {}
message NFDInputProto {}

message ImageReaderProto {
	optional string filename = 1 [(help) = "filename of input sector image"];
	oneof format {
		ImgInputOutputProto img = 2;
		DiskCopyInputProto diskcopy = 3;
		ImdInputProto imd = 4;
		Jv3InputProto jv3 = 5;
		D64InputProto d64 = 6;
		NsiInputProto nsi = 7;
		Td0InputProto td0 = 8;
		DimInputProto dim = 9;
		FdiInputProto fdi = 10;
		D88InputProto d88 = 11;
        NFDInputProto nfd = 12;
	}
}