parseToml

Signature

// Return the value(s) that correspond to 'key'
vm.parseToml(string memory toml, string memory key)
// Return the entire TOML file
vm.parseToml(string memory toml);

Description

These cheatcodes are used to parse TOML files in the form of strings after converting to JSON. Usually, it’s coupled with vm.readFile() which returns an entire file in the form of a string.

You can use stdToml from forge-std, as a helper library for better UX.

The cheatcode accepts either a key to search for a specific value in the TOML, or no key to return the entire TOML. It returns the value as an abi-encoded bytes array. That means that you will have to abi.decode() to the appropriate type for it to function properly, else it will revert.

JSONpath Key

parseToml uses a syntax called JSONpath to form arbitrary keys for arbitrary JSON files. The same syntax (or rather a dialect) is used by the tool jq.

To read more about the syntax, you can visit the README of the rust library that we use under the hood to implement the feature. That way you can be certain that you are using the correct dialect of jsonPath.

Encoding Rules

We use the terms string, integer, float, boolean, array, datetime, inline-table as they are defined in the TOML spec.

We use the terms number, string, object, array, boolean, null as they are defined in the JSON spec.

TOML Encoding Rules

  • float is limited to 32 bits (i.e. +1.5). It is recommended to use strings to prevent precision loss
  • integer is limited to 64 bits (i.e. 9223372036854775807). It is recommended to use strings to encode large values
  • Array values cannot have mixed types (i.e. [256, "b"], only [256, 512] or ["a", "b"])
  • datetime is encoded as a string upon conversion
  • float is encoded as a number upon conversion
  • integer is encoded as a number upon conversion
  • inline-table (or table) is encoded as object upon conversion
  • null is encoded as a "null" string

JSON Encoding Rules

  • null is encoded as bytes32(0) or ""
  • Numbers >= 0 are encoded as uint256
  • Negative numbers are encoded as int256
  • Floating point numbers with decimal digits are not allowed
  • Floating point numbers using the scientific notation can be uint256 or int256 depending on the value
  • A string that can be decoded into a type of H160 and starts with 0x is encoded as an address. In other words, if it can be decoded into an address, it’s probably an address
  • A string that starts with 0x is encoded as bytes32 if it has a length of 66 or else to bytes
  • A string that is neither an address, a bytes32 or bytes, is encoded as a string
  • An array is encoded as a dynamic array of the type of its first element
  • An object ({}) is encoded as a tuple

Type Coercion

As described above, parseToml needs to deduce the type of TOML value and that has some inherent limitations. For that reason, there is a sub-family of parseToml* cheatcodes that coerce the type of the returned value.

For example vm.parseTomlUint(toml, key) will coerce the value to a uint256. That means that it can parse all the following values and return them as a uint256. That includes a number as type number, a stringified number as a string and of course it’s hex representation.

hexUint = "0x12C980"
stringUint = "115792089237316195423570985008687907853269984665640564039457584007913129639935"
numberUint = 9223372036854775807 # TOML is limited to 64-bit integers

Similarly, there are cheatcodes for all types (including bytes and bytes32) and their arrays (vm.parseTomlUintArray).

Decoding TOML tables into Solidity structs

TOML tables are converted to JSON objects. JSON objects are encoded as tuples, and can be decoded via tuples or structs. That means that you can define a struct in Solidity and it will decode the entire JSON object into that struct.

For example:

The following TOML:

a = 43
b = "sigma"

will be converted into the following JSON:

{
  "a": 43,
  "b": "sigma"
}

will be decoded into:

struct Json {
    uint256 a;
    string b;
}

As the values are returned as an abi-encoded tuple, the exact name of the attributes of the struct don’t need to match the names of the keys in the JSON. The above json file could also be decoded as:

struct Json {
    uint256 apple;
    string pineapple;
}

What matters is the alphabetical order. As the JSON object is an unordered data structure but the tuple is an ordered one, we had to somehow give order to the JSON. The easiest way was to order the keys by alphabetical order. That means that in order to decode the JSON object correctly, you will need to define attributes of the struct with types that correspond to the values of the alphabetical order of the keys of the JSON.

  • The struct is interpreted serially. That means that the tuple’s first item will be decoded based on the first item of the struct definition (no alphabetical order).
  • The JSON will parsed alphabetically, not serially.
  • Note that this parsing uses Rust’s BTreeMap crate under the hood, meaning that uppercase and lowercase strings are treated differently. Uppercase characters precede lowercase in this lexicographical ordering, ie “Zebra” would precede “apple”.

Thus, the first (in alphabetical order) value of the JSON, will be abi-encoded and then tried to be abi-decoded, based on the type of the first attribute of the struct.

The above TOML would not be able to be decoded with the struct below:

struct Json {
    uint256 b;
    uint256 a;
}

The reason is that it would try to decode the string "sigma" as a uint. To be exact, it would be decoded, but it would result to a wrong number, since it would interpret the bytes incorrectly.

How to use StdToml

  1. Import the library import "../StdToml.sol";
  2. Define its usage with string: using stdToml for string;
  3. If you want to parse simple values (numbers, address, etc.) use the helper functions
  4. If you want to parse entire TOML tables:
    1. Define the struct in Solidity. Make sure to follow the alphabetical order – it’s hard to debug
    2. Use the parseRaw() helper function to return abi-encoded bytes and then decode them to your struct
string memory root = vm.projectRoot();
string memory path = string.concat(root, "/src/test/fixtures/config.toml");
string memory toml = vm.readFile(path);
bytes memory data = toml.parseRaw(".");
Config memory config = abi.decode(data, (Config))

Troubleshooting

Cannot read file

FAIL. Reason: The path <file-path> is not allowed to be accessed for read operations

If you receive this error, make sure that you enable read permissions in foundry.toml using the fs_permissions key

References