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wownero/docs/PORTABLE_STORAGE.md

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Portable Storage Format

Background

Monero makes use of a set of helper classes from a small library named epee. Part of this library implements a networking protocol called Levin, which internally uses a storage format called Portable Storage. This format (amongst the rest of the epee library), is undocumented - or rather relies on the code itself to serve as the documentation. Unfortunately, whilst the rest of the library is fairly straightforward to decipher, the Portable Storage is less-so. Hence this document.

Preliminaries

String and integer encoding

varint

Varints are used to pack integers in an portable and space optimized way. The lowest 2 bits store the amount of bytes required, which means the largest value integer that can be packed into 1 byte is 63 (6 bits).

Lowest 2 bits Size value Value range
b00 1 byte 0 to 63
b01 2 bytes 64 to 16383
b10 4 bytes 16384 to 1073741823
b11 8 bytes 1073741824 to 4611686018427387903

string

These are simply length (varint) prefixed char strings.

Packet format

Header

A packet starts with a header:

Header Type Value
Signature 8 bytes 0x0111010101010201
Version byte 0x01

Section

Next we have a root object (or section as the library calls it). This is a map of name-value pairs called entries. It starts with a count:

Section Type
Entry count varint

Which is followed by the section's name-value entries sequentially:

Entry

Entry Type
Name string1
Type byte
Count2 varint
Value(s) (type dependant data)

1 Note, the string used for the entry name is not prefixed with a varint, it is prefixed with a single byte to specify the length of the name. This means an entry name cannot be more that 255 chars, which seems a reasonable restriction.

2 Note, this is only present if the entry type has the array flag (see below).

Entry types

The types defined are:

#define SERIALIZE_TYPE_INT64                1
#define SERIALIZE_TYPE_INT32                2
#define SERIALIZE_TYPE_INT16                3
#define SERIALIZE_TYPE_INT8                 4
#define SERIALIZE_TYPE_UINT64               5
#define SERIALIZE_TYPE_UINT32               6
#define SERIALIZE_TYPE_UINT16               7
#define SERIALIZE_TYPE_UINT8                8
#define SERIALIZE_TYPE_DUOBLE               9
#define SERIALIZE_TYPE_STRING               10
#define SERIALIZE_TYPE_BOOL                 11
#define SERIALIZE_TYPE_OBJECT               12
#define SERIALIZE_TYPE_ARRAY                13

The entry type can be bitwise OR'ed with a flag:

#define SERIALIZE_FLAG_ARRAY              0x80

This signals there are multiple values for the entry. When we are dealing with an array, the next value is a varint specifying the array length followed by the array item values. For example:

name, type, count, value1, value2,..., valuen

Entry values

It's important to understand that entry values can be encoded any way in which an implementation chooses. For example, the integers can be in either big or little endian byte order.

Entry values which are objects (i.e. SERIALIZE_TYPE_OBJECT), are stored as sections.

Note, I have not yet seen the type SERIALIZE_TYPE_ARRAY in use. My assumption is this would be used for untyped arrays and so subsequent entries could be of any type.

Monero specifics

Entry values

Strings

These are prefixed with a varint to specify the string length.

Integers

These are stored little endian byte order.

Hashes, Keys, Blobs

These are stored as strings, SERIALIZE_TYPE_STRING.

STL containers (vector, list)

These can be arrays of standard integer types, strings or SERIALIZE_TYPE_OBJECT's for structs.

Links to some Monero struct definitions