This documents describes the wire encoding for RPC using the Thrift compact protocol.

The information here is mostly based on the Java implementation in the Apache thrift library (version 0.9.1) and THRIFT-110 A more compact format. Other implementation however, should behave the same.

For background on Thrift see the Thrift whitepaper (pdf).

• Compact protocol
  • Base types
  • Message
  • Struct
  • List and Set
  • Map
• BNF notation used in this document

The compact protocol uses ZigZag'ed varint (aka ULEB128) encoding.

Values of type int8 are encoded as one byte, rest are converted to int64, Zigzag'ed then encoded as varint. Zigzag encoding maps signed integers to another domain, one where the sign bit is encoded in the least significant bit (LSB). For example 0 maps to 0, -1 to 1, 1 to 2, -2 to 3, etc. Hence the term zigzag. Mapping the sign bit to the LSB is important for compactness when the absolute value of the value is small, as ULEB encoding is more efficient for small values. Here are the (Scala) formulas to convert from int64 to a zigzag int64 and back:

def ToZigzag(n: Long): Long = (n << 1) ^ (n >> 63)
def FromZigzag(n: Long): Long = (n >>> 1) ^ - (n & 1)

A ULEB128 is encoded 7-bits at a time, starting from the LSB. Each 7-bits are encoded as 8-bits with the top bit set if this is not the last byte, unset otherwise.

For example, the integer 50399 is encoded as follows:

50399 =          11000100 11011111  (LSB)
      =  0000011  0001001  1011111  (7-bit groups)
      = 00000011 10001001 11011111  (add continuation bits)
      =     0x03     0x89     0xDF  (hex)
→ 0xDF 0x89 0x03 (write to ram LSB first)

Varints are sometimes used directly inside the compact protocol to represent positive numbers.

The generated code encodes Enums by taking the ordinal value and then encoding that as an int32.

Binary is sent as follows:

Binary protocol, binary data, 1+ bytes:
+--------+...+--------+--------+...+--------+
| byte length         | bytes               |
+--------+...+--------+--------+...+--------+

Where:

• byte length is the length of the byte array, using varint encoding (must be >= 0).
• bytes are the bytes of the byte array.

Strings are first encoded to UTF-8, and then send as binary. They do not include a NUL delimiter.

Values of type double are first converted to an int64 according to the IEEE 754 floating-point "double format" bit layout. Most run-times provide a library to make this conversion. But while the binary protocol encodes the int64 in 8 bytes in big endian order, the compact protocol encodes it in little endian order - this is due to an early implementation bug that finally became the de-facto standard.

Booleans are encoded differently depending on whether it is a field value (in a struct) or an element value (in a set, list or map). Field values are encoded directly in the field header. Element values of type bool are sent as an int8; true as 1 and false as 0.

Values of uuid type are expected as 16-byte binary in big endian order. Byte order conversion might be necessary on certain platforms, e.g. Windows holds GUIDs in a complex record-like structure whose memory layout differs.

Note: Since the length is fixed, no byte length prefix is necessary and the field is always 16 bytes long.

A Message on the wire looks as follows:

Compact protocol Message (4+ bytes):
+--------+--------+--------+...+--------+--------+...+--------+--------+...+--------+
|pppppppp|mmmvvvvv| seq id              | name length         | name                |
+--------+--------+--------+...+--------+--------+...+--------+--------+...+--------+

Where:

• pppppppp is the protocol id, fixed to 1000 0010, 0x82.
• mmm is the message type, an unsigned 3 bit integer.
• vvvvv is the version, an unsigned 5 bit integer, fixed to 00001.
• seq id is the sequence id, a signed 32 bit integer encoded as a varint.
• name length is the byte length of the name field, a signed 32 bit integer encoded as a varint (must be >= 0).
• name is the method name to invoke, a UTF-8 encoded string.

Message types are encoded with the following values:

• Call: 1
• Reply: 2
• Exception: 3
• Oneway: 4

A Struct is a sequence of zero or more fields, followed by a stop field. Each field starts with a field header and is followed by the encoded field value. The encoding can be summarized by the following BNF:

struct        ::= ( field-header field-value )* stop-field
field-header  ::= field-type field-id

Because each field header contains the field-id (as defined by the Thrift IDL file), the fields can be encoded in any order. Thrift's type system is not extensible; you can only encode the primitive types and structs. Therefore is also possible to handle unknown fields while decoding; these are simply ignored. While decoding the field type can be used to determine how to decode the field value.

Note that the field name is not encoded so field renames in the IDL do not affect forward and backward compatibility.

The default Java implementation (Apache Thrift 0.9.1) has undefined behavior when it tries to decode a field that has another field-type than what is expected. Theoretically this could be detected at the cost of some additional checking. Other implementation may perform this check and then either ignore the field, or return a protocol exception.

A Union is encoded exactly the same as a struct with the additional restriction that at most 1 field may be encoded.

An Exception is encoded exactly the same as a struct.

Compact protocol field header (short form) and field value:
+--------+--------+...+--------+
|ddddtttt| field value         |
+--------+--------+...+--------+

Compact protocol field header (1 to 3 bytes, long form) and field value:
+--------+--------+...+--------+--------+...+--------+
|0000tttt| field id            | field value         |
+--------+--------+...+--------+--------+...+--------+

Compact protocol stop field:
+--------+
|00000000|
+--------+

Where:

• dddd is the field id delta, an unsigned 4 bits integer, strictly positive.
• tttt is field-type id, an unsigned 4 bit integer.
• field id the field id, a varint (int16). Max field id is 32767.
• field-value the encoded field value.

The field id delta can be computed by current-field-id - previous-field-id, or just current-field-id if this is the first of the struct. The short form should be used when the field id delta is in the range 1 - 15 (inclusive).

The following field-types can be encoded:

• BOOLEAN_TRUE, encoded as 1
• BOOLEAN_FALSE, encoded as 2
• I8, encoded as 3
• I16, encoded as 4
• I32, encoded as 5
• I64, encoded as 6
• DOUBLE, encoded as 7
• BINARY, used for binary and string fields, encoded as 8
• LIST, encoded as 9
• SET, encoded as 10
• MAP, encoded as 11
• STRUCT, used for both structs and union fields, encoded as 12
• UUID, encoded as 13

Note that because there are 2 specific field types for the boolean values, the encoding of a boolean field value has no length (0 bytes).

List and sets are encoded the same: a header indicating the size and the element-type of the elements, followed by the encoded elements.

Compact protocol list header (1 byte, short form) and elements:
+--------+--------+...+--------+
|sssstttt| elements            |
+--------+--------+...+--------+

Compact protocol list header (2+ bytes, long form) and elements:
+--------+--------+...+--------+--------+...+--------+
|1111tttt| size                | elements            |
+--------+--------+...+--------+--------+...+--------+

Where:

• ssss is the size, 4 bit unsigned int, values 0 - 14
• tttt is the element-type, a 4 bit unsigned int
• size is the size, a varint (int32), positive values 15 or higher
• elements are the encoded elements

The short form should be used when the length is in the range 0 - 14 (inclusive).

The following element-types are used (see note below):

• BOOL, encoded as 2
• I8, encoded as 3
• I16, encoded as 4
• I32, encoded as 5
• I64, encoded as 6
• DOUBLE, encoded as 7
• BINARY, used for binary and string fields, encoded as 8
• LIST, encoded as 9
• SET, encoded as 10
• MAP, encoded as 11
• STRUCT, used for structs and union fields, encoded as 12
• UUID, encoded as 13

Note: Although field-types and element-types lists are currently very similar, there is no guarantee that this will remain true after new types are added.

The maximum list/set size is configurable. By default there is no limit (meaning the limit is the maximum int32 value: 2147483647).

Maps are encoded with a header indicating the size, the type of the keys and the element-type of the elements, followed by the encoded elements. The encoding follows this BNF:

map           ::= empty-map | non-empty-map
empty-map     ::= `0`
non-empty-map ::= size key-element-type value-element-type (key value)+

Compact protocol map header (1 byte, empty map):
+--------+
|00000000|
+--------+

Compact protocol map header (2+ bytes, non empty map) and key value pairs:
+--------+...+--------+--------+--------+...+--------+
| size                |kkkkvvvv| key value pairs     |
+--------+...+--------+--------+--------+...+--------+

Where:

• size is the size, a var int (int32), strictly positive values
• kkkk is the key element-type, a 4 bit unsigned int
• vvvv is the value element-type, a 4 bit unsigned int
• key value pairs are the encoded keys and values

The element-types are the same as for lists. The full list is included in the 'List and set' section.

The maximum map size is configurable. By default there is no limit (meaning the limit is the maximum int32 value: 2147483647).

The following BNF notation is used:

• a plus + appended to an item represents repetition; the item is repeated 1 or more times
• a star * appended to an item represents optional repetition; the item is repeated 0 or more times
• a pipe | between items represents choice, the first matching item is selected
• parenthesis ( and ) are used for grouping multiple items