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homestar-wasm

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Outline

Description

This wasm library manages the wasmtime runtime, provides the IPLD to/from Wasm Interace Types (WIT) interpreter/translation-layer, and implements the input interface for working with Ipvm's standard Wasm tasks.

For more information, please go to our Homestar Readme.

Interpreting between IPLD and WIT

Our recursive interpreter is able to bidirectionally translate between the runtime IPLD data model and WIT values, based on known WIT interface types.

Primitive Types

We'll start by covering WIT primitive types.

Booleans

This section outlines the translation process between IPLD boolean values (Ipld::Bool) and WIT bool runtime values.

  • IPLD to WIT Translation:

    When a WIT function expects a bool input, an Ipld::Bool value (either true or false) is mapped to a bool WIT runtime value.

    Example: Consider a WIT function defined as follows:

    export fn: func(a: bool) -> bool;

    Given a JSON input for this function:

    {
      "args": [true]
    }

    true is converted into an Ipld::Bool, which is then translated and passed into fn as a boolean argument (bool).

  • WIT to IPLD Translation:

    Conversely, when a boolean value is returned from a WIT function, it can be translated back into an Ipld::Bool.

IPLD Schema Definition:

type IPLDBooleanAsWit bool

Integers

This section outlines the translation process between IPLD integer values (Ipld::Integer) and WIT integer rutime values.

The Component Model supports these integer types:

ty ::= 'u8' | 'u16' | 'u32' | 'u64'
     | 's8' | 's16' | 's32' | 's64'
  • IPLD to WIT Translation:

    Typically, when a WIT function expects an integer input, an Ipld::Integer value is mapped to an integer WIT runtime value.

    Example: Consider a WIT function defined as follows:

    export fn: func(a: s32) -> s32;

    Given a JSON input for this function:

    {
      "args": [1]
    }

    1 is converted into an Ipld::Integer, which is then translated and passed into fn as an integer argument (s32).

    Note: However, if the input argument to the WIT interface is a float type, but the incoming value is an Ipld::Integer, then the IPLD value will be cast to a float, and remain as one for the rest of the computation. The cast is to provide affordances for JavaScript where, for example, the number 1.0 is converted to 1.

  • WIT to IPLD Translation:

    Conversely, when an integer value (not a float) is returned from a WIT function, it can be translated back into an Ipld::Integer.

IPLD Schema Definitions:

type IPLDIntegerAsWit union {
  | U8        int
  | U16       int
  | U32       int
  | U64       int
  | S8        int
  | S16       int
  | S32       int
  | S64       int
  | Float32In int
  | Float64In int
} representation kinded

type WitAsIpldInteger union {
  | U8          int
  | U16         int
  | U32         int
  | U64         int
  | S8          int
  | S16         int
  | S32         int
  | S64         int
  | Float32Out  float
  | Float64Out  float
} representation kinded

Floats

This section outlines the translation process between IPLD float values (Ipld::Float) and WIT float runtime values.

The Component Model supports these Float types:

ty ::= 'float32' | 'float64'
  • IPLD to WIT Translation:

    Typically, when a WIT function expects a float input, an Ipld::Float value is mapped to a float WIT runtime value. Casting is done to convert from f32 to f64 if necessary.

    Example: Consider a WIT function defined as follows:

    export fn: func(a: f64) -> f64;

    Given a JSON input for this function:

    {
      "args": [1.0]
    }

    1.0 is converted into an Ipld::Float, which is then translated and passed into fn as a float argument (f64).

    Note: However, if the input argument to the WIT interface is one of the WIT interger types, but the incoming value is an Ipld::Integer, then the IPLD value will be cast to that integer type, and remain as one for the rest of the computation.

  • WIT to IPLD Translation:

    Conversely, when a float32 or float64 value is returned from a WIT function, it can be translated back into an Ipld::Float.

    Note: In converting from float32 to float64, the latter of which is the default precision for IPLD, precision will be lost. The interpreter will use decimal precision in this conversion.

IPLD Schema Definitions:

type IPLDFloatAsWit union {
  | Float32 float
  | Float64 float
} representation kinded

type WitAsIpldFloat union {
  | Float32 float
  | Float64 float
} representation kinded

Strings

This section outlines the translation process between IPLD string values (Ipld::String) and various WIT runtime values. A Ipld::String value can be interpreted as one of a string, char, or an enum discriminant (which has no payload).

  • string

    • IPLD to WIT Translation

      When a WIT function expects a string input, an Ipld::String value is mapped to a string WIT runtime value.

      Example:

      export fn: func(a: string) -> string;

      Given a JSON input for this function:

      {
        "args": ["Saspirilla"]
      }

      "Saspirilla" is converted into an Ipld::String, which is then translated and passed into fn as a string argument (string).

    • WIT to IPLD Translation:

      Conversely, when a string value is returned from a WIT function, it is translated back into an Ipld::String.

  • char

    • IPLD to WIT Translation

      When a WIT function expects a char input, an Ipld::String value is mapped to a char WIT runtime value.

      Example:

      export fn: func(a: char) -> char;

      Given a JSON input for this function:

      {
        "args": ["S"]
      }

      "S"is converted into an Ipld::String, which is then translated and passed into fn as a char argument (char).

    • WIT to IPLD Translation:

      Conversely, when a char value is returned from a WIT function, it is translated back into an Ipld::String.

  • enum:

    An enum statement defines a new type which is semantically equivalent to a variant where none of the cases have a payload type.

    • IPLD to WIT Translation

      When a WIT function expects an enum input, an Ipld::String value is mapped to a enum WIT runtime value.

      Example:

      enum color {
          Red,
          Green,
          Blue
      }
      
      export fn: func(a: color) -> string;

      Given a JSON input for this function:

      {
        "args": ["Green"]
      }

      "Green" is converted into an Ipld::String, which is then translated and passed into fn as a enum argument (color). You'll have to provide a string that matches on one of the discriminants.

    • WIT to IPLD Translation:

      Conversely, when an enum value is returned from a WIT function, it can be translated back into an Ipld::String value.

IPLD Schema Definitions:

type Enum enum {
  | Red
  | Green
  | Blue
}

type IPLDStringAsWit union {
 | Enum     Enum
 | String   string
 | Char     string
 | Listu8In string
} representation kinded

type WitAsIpldString union {
 | Enum      Enum
 | String    string
 | Char      string
 | Listu8Out bytes
} representation kinded

Bytes

This section outlines the translation process between IPLD bytes values (Ipld::Bytes) and various WIT runtime values. A Ipld::Bytes value can be interpreted either as a list<u8> or string.

  • list:

    • IPLD to WIT Translation

      When a WIT function expects a list<u8> input, an Ipld::Bytes value is mapped to a list<u8> WIT runtime value.

      Example:

      export fn: func(a: list<u8>) -> list<u8>;

      Given a JSON input for this function:

      {
        "args": [{"/": {"bytes": "aGVsbDA"}}]
      }

      "aGVsbDA" is converted into an Ipld::Bytes, which is then translated into bytes and passed into fn as a list<u8> argument.

    • WIT to IPLD Translation:

      Conversely, when a list<u8> value is returned from a WIT function, it is translated back into an Ipld::Bytes value if the list contains valid u8 values.

  • string

    • IPLD to WIT Translation

      When a WIT function expects a string input, an Ipld::Bytes value is mapped to a string WIT runtime value.

      Example:

      export fn: func(a: string) -> string;

      Given a JSON input for this function:

      {
        "args": [{"/": {"bytes": "aGVsbDA"}}]
      }

      "aGVsbDA" is converted into an Ipld::Bytes, which is then translated into a string and passed into fn as a string argument.

    • WIT to IPLD Translation:

      Here, when a string value is returned from a WIT function, it is translated into an Ipld::String value, because we can't determine if it was originally bytes.

IPLD Schema Definitions:

type IPLDBytesAsWit union {
  | ListU8   bytes
  | StringIn bytes
} representation kinded

type WitAsIpldBytes union {
  | ListU8    bytes
  | StringOut string
} representation kinded

Nulls

This section outlines the translation process between IPLD null values (Ipld::Null) and various WIT runtime values. A Ipld::Null value can be interpreted either as a string or option.

We'll cover only the string case here and return to the option case below.

  • IPLD to WIT Translation

    When a WIT function expects a string input, an Ipld::Null value is mapped as a "null" string WIT runtime value.

    Example:

    export fn: func(a: string) -> string;

    Given a JSON input for this function:

    {
      "args": [null]
    }

    null is converted into an Ipld::Null, which is then translated and passed into fn as a string argument with the value of "null".

  • WIT to IPLD Translation:

    Conversely, when a string value of "null" is returned from a WIT function, it can be translated into an Ipld::Null value.

IPLD Schema Definitions:

type None unit representation null

type IPLDNullAsWit union {
  | None
  | String string
} representation kinded

type WitAsIpldNull union {
  | None
  | String string
} representation kinded

Links

This section outlines the translation process between IPLD link values (Ipld::Link) and WIT string runtime values. A Ipld::Link is always interpreted as a string in WIT, and vice versa.

  • IPLD to WIT Translation

    When a WIT function expects a string input, an Ipld::Link value is mapped to a string WIT runtime value, translated accordingly based on the link being Cidv0 or Cidv1.

    Example:

    export fn: func(a: string) -> string;

    Given a JSON input for this function:

    {
      "args": ["bafybeiabee2ngqpdo7nant5wtj7hejzr7bse2kb54u4zg4gktjvih5uyfu"]
    }

    "bafybeiabee2ngqpdo7nant5wtj7hejzr7bse2kb54u4zg4gktjvih5uyfu" is converted into an Ipld::Link, which is then translated and passed into fn as a string argument.

  • WIT to IPLD Translation:

    Conversely, when a string value is returned from a WIT function, and if it can be converted to a Cid, it can then be translated into an Ipld::Link value.

IPLD Schema Definitions:

type IPLDLinkAsWit &String link

type WitAsIpldLink &String link

Non-primitive Types

Next, we'll cover the more interesting, WIT non-primitive types.

List Values

This section outlines the translation process between IPLD list values (Ipld::List) and various WIT runtime values. A Ipld::List value can be interpreted as one of a list, tuple, set of flags, or a result.

We'll return to the result case below, and cover the rest of the possibilities here.

  • list

    • IPLD to WIT Translation

      When a WIT function expects a list input, an Ipld::List value is mapped to a list WIT runtime value.

      Example:

      export fn: func(a: list<s32>, b: s32) -> list<s32>;

      Given a JSON input for this function:

      {
        "args": [[1, 2, 3], 44]
      }

      [1, 2, 3] is converted into an Ipld::List, which is then translated and passed into fn as a list<s32> argument.

    • WIT to IPLD Translation:

      Conversely, when a list value is returned from a WIT function, it is translated back into an Ipld::List value.

  • tuple:

    • IPLD to WIT Translation

      When a WIT function expects a tuple input, an Ipld::List value is mapped to a tuple WIT runtime value.

      Example:

      type ipv6-socket-address = tuple<u16, u16, u16, u16, u16, u16, u16, u16>;
      
      export fn: func(a: ipv6-socket-address) -> tuple<u32, u32>;

      Given a JSON input for this function:

      {
        "args": [[8193, 3512, 34211, 0, 0, 35374, 880, 29492]]
      }

      [8193, 3512, 34211, 0, 0, 35374, 880, 29492] is converted into an Ipld::List, which is then translated and passed into fn as a tuple<u16, u16, u16, u16, u16, u16, u16, u16> argument.

      If the length of list does not match not match the number of fields in the tuple interface type, then an error will be thrown in the interpreter.

    • WIT to IPLD Translation:

      Conversely, when a tuple value is returned from a WIT function, it is translated back into an Ipld::List value.

  • flags:

    flags represent a bitset structure with a name for each bit. The type represents a set of named booleans. In an instance of the named type, each flag will be either true or false.

    • IPLD to WIT Translation

      When a WIT function expects a flags input, an Ipld::List value is mapped to a flags WIT runtime value.

      When used as an input, you can set the flags you want turned on/true as an inclusive subset of strings. When used as an output, you will get a list of strings representing the flags that are set to true.

      Example:

      flags permissions {
          read,
          write,
          exec,
      }
      
      export fn: func(perm: permissions) -> bool;

      Given a JSON input for this function:

      {
        "args": [["read", "write"]]
      }

      [read, write] is converted into an Ipld::List, which is then translated and passed into fn as a permissions argument.

    • WIT to IPLD Translation:

      Conversely, when a flags value is returned from a WIT function, it is translated back into an Ipld::List value.

IPLD Schema Definitions:

type IPLDListAsWit union {
  | List [any]
  | Tuple [any]
  | Flags [string]
} representation kinded

type WitAsIpldList union {
  | List [any]
  | Tuple [any]
  | Flags [string]
} representation kinded

Maps

This section outlines the translation process between IPLD map values (Ipld::Map) and various WIT runtime values. A Ipld::Map value can be interpreted as one of a record, variant, or a list of two-element tuples.

  • record:

    • IPLD to WIT Translation

      When a WIT function expects a record input, an Ipld::Map value is mapped to a record WIT runtime value.

      Example:

      record pair {
          x: u32,
          y: u32,
      }
      
      export fn: func(a: pair) -> u32;

      Given a JSON input for this function:

      {
        "args": [{"x": 1, "y": 2}]
      }

      {"x": 1, "y": 2} is converted into an Ipld::Map, which is then translated and passed into fn as a pair argument.

      The keys in the map must match the field names in the record type.

    • WIT to IPLD Translation:

      Conversely, when a record value is returned from a WIT function, it is translated back into an Ipld::Map value.

  • variant:

    A variant statement defines a new type where instances of the type match exactly one of the variants listed for the type. This is similar to a "sum" type in algebraic datatypes (or an enum in Rust if you're familiar with it). Variants can be thought of as tagged unions as well.

    Each case of a variant can have an optional type / payload associated with it which is present when values have that particular case's tag.

    • IPLD to WIT Translation

      When a WIT function expects a variant input, an Ipld::Map value is mapped to a variant WIT runtime value.

      Example:

      variant filter {
          all,
          none,
          some(list<string>),
      }
      
      export fn: func(a: filter);

      Given a JSON input for this function:

      {
        "args": [{"some" : ["a", "b", "c"]}]
      }

      {"some" : ["a", "b", "c"]} is converted into an Ipld::Map, which is then translated and passed into fn as a filter argument, where the key is the variant name and the value is the payload.

      The keys in the map must match the variant names in the variant type.

    • WIT to IPLD Translation:

      Conversely, when a variant value is returned from a WIT function, it is translated back into an Ipld::Map value where the tag is the key and payload is the value.

  • list:

    • IPLD to WIT Translation

      When a WIT function expects a nested list of two-element tuples as input, an Ipld::Map value is mapped to that specific WIT runtime value.

      Example:

      export fn: func(a: list<tuple<string, u32>>) -> list<u32>;

      Given a JSON input for this function:

      {
        "args": [{"a": 1, "b": 2}]
      }

      {"a": 1, "b": 2} is converted into an Ipld::Map, which is then translated and passed into fn as a list<tuple<string, u32>> argument.

    • WIT to IPLD Translation:

      Conversely, when a list of two-element tuples is returned from a WIT function, it can be translated back into an Ipld::Map value.

IPLD Schema Definitions:

type TupleAsMap {string:any} representation listpairs

type IPLDMapAsWit union {
  | Record {string:any}
  | Variant {string:any}
  | List TupleAsMap
} representation kinded

type WitAsIpldMap union {
  | Record {string:any}
  | Variant {string:any}
  | List TupleAsMap
} representation kinded

WIT Options

This section outlines the translation process between WIT option runtime values (of type option) and various IPLD values. An option can be interpreted as either a Ipld::Null or of any other IPLD value.

  • IPLD to WIT Translation

    When a WIT function expects an option as input, an Ipld::Null value is mapped to the None/Unit case for a WIT option. Otherwise, any other IPLD value will be mapped to its matching WIT runtime value directly.

    Example:

    export fn: func(a: option<s32>) -> option<s32>;
    • Some case:

      • Json Input:

        {
          "args": [1]
        }
    • None case:

      • Json Input:

        {
          "args": [null]
        }

    1 is converted into an Ipld::Integer, which is then translated and passed into fn as an integer argument (s32), as the Some case of the option.

    null is converted into an Ipld::Null, which is then translated and passed into fn as a None/Unit case of the option (i.e. no value in WIT).

    Essentially, you can view this as Ipld::Any being the Some case and Ipld::Null being the None case.

  • WIT to IPLD Translation:

    Conversely, when an option value is returned from a WIT function, it can be translated back into an Ipld::Null value if it's the None/Unit case, or any other IPLD value if it's the Some case.

IPLD Schema Definitions:

type IpldAsWitOption union {
  | Some any
  | None
} representation kinded

type WitAsIpldOption union {
  | Some any
  | None
} representation kinded

WIT Results

This section outlines the translation process between WIT result runtime values (of type result) and various IPLD values. We treat result as Left/Right either types over an Ipld::List of two elements.

A result can be interpreted as one of these patterns:

  • Ok (with a payload)

    • IPLD to WIT Translation

      When a WIT function expects a result as input, an Ipld::List value can be mapped to the Ok case of the result WIT runtime value, including a payload.

      Example:

      export fn: func(a: result<s32, string>) -> result<s32, string>;

      Given a JSON input for this function:

      {
        "args": [[47, null]]
      }

      [47, null] is converted into an Ipld::List, which is then translated and passed into fn as an Ok case of the result argument with a payload of 47 matching the s32 type on the left.

    • WIT to IPLD Translation:

      Conversely, when a result value is returned from a WIT function, it can be translated back into an Ipld::List of this specific structure.

  • Err (with a payload)

    • IPLD to WIT Translation

      Example:

      export fn: func(a: result<s32, string>) -> result<s32, string>;

      Given a JSON input for this function:

      {
        "args": [[null, "error message"]]
      }

      [null, "error message"] is converted into an Ipld::List, which is then translated and passed into fn as an Err case of the result argument with a payload of "error message" matching the string type on the right.

    • WIT to IPLD Translation:

      Conversely, when a result value is returned from a WIT function, it can be translated back into an Ipld::List of this specific structure.

  • Ok case (without a payload)

    • IPLD to WIT Translation

      Example:

      export fn: func(a: result<_, string>) -> result<_, string>;

      Given a JSON input for this function:

      {
        "args": [[47, null]]
      }

      [47, null] is converted into an Ipld::List, which is then translated and passed into fn as an Ok case of the result argument. The payload is ignored as it's not needed (expressed in the type as _ above), so 47 is not used.

    • WIT to IPLD Translation:

      Here, when this specific Ok case is returned from a WIT function, it can be translated back into an Ipld::List, but one structured as [1, null] internally, which signifies the Ok (not error) case, with the 1 payload discarded.

  • Err case (without a payload)

    • IPLD to WIT Translation

      Example:

      export fn: func(a: result<s32, _>) -> result<s32, _>;

      Given a JSON input for this function:

      {
        "args": [[null, "error message"]]
      }

      [null, "error message"] is converted into an Ipld::List, which is then translated and passed into fn as an Err case of the result argument. The payload is ignored as it's not needed (expressed in the type as _ above), so "error message" is not used.

    • WIT to IPLD Translation:

      Here, when this specific Err case is returned from a WIT function, it can be translated back into an Ipld::List, but one structured as [null, 1] internally, which signifies the Err (error) case, with the 1 payload discarded.

IPLD Schema Definitions:

type Null unit representation null

type IpldAsWitResult union {
  | Ok [any, Null]
  | Err [Null, any]
} representation kinded

type WitAsIpldResult union {
  | Ok [any, Null]
  | OkNone [1, Null]
  | Err [Null, any]
  | ErrNone [Null, 1]
} representation kinded

Note: any is used here to represent any type that's not Null. So, given an input with a result type, the JSON value of

{
  "args": [null, null]
}

will fail to be translated into a Wit resultruntime value, as it's ambiguous which case it should be mapped to.