Revised Ethereum Smart Contract Packaging Standard (EthPM v3)
Simple Summary
A data format describing a smart contract software package.
Abstract
This EIP defines a data format for package manifest documents, representing a package of one or more smart contracts, optionally including source code and any/all deployed instances across multiple networks. Package manifests are minified JSON objects, to be distributed via content addressable storage networks, such as IPFS. Packages are then published to on-chain EthPM registries, defined in EIP-1319, from where they can be freely accessed.
This document presents a natural language description of a formal specification for version 3 of this format.
Motivation
This standard aims to encourage the Ethereum development ecosystem towards software best practices around code reuse. By defining an open, community-driven package data format standard, this effort seeks to provide support for package management tools development by offering a general-purpose solution that has been designed with observed common practices in mind.
- Updates the schema for a package manifest to be compatible with the metadata output for compilers.
- Updates the
"sources"
object definition to support a wider range of source file types and serve as JSON input for a compiler. - Moves compiler definitions to a top-level
"compilers"
array in order to:- Simplify the links between a compiler version, sources, and the compiled assets.
- Simplify packages that use multiple compiler versions.
- Updates key formatting from
snake_case
tocamelCase
to be more consistent with JSON convention.
Guiding Principles
This specification makes the following assumptions about the document lifecycle.
-
Package manifests are intended to be generated programmatically by package management software as part of the release process.
-
Package manifests will be consumed by package managers during tasks like installing package dependencies or building and deploying new releases.
-
Package manifests will typically not be stored alongside the source, but rather by package registries or referenced by package registries and stored in something akin to IPFS.
-
Package manifests can be used to verify public deployments of source contracts.
Use Cases
The following use cases were considered during the creation of this specification.
- owned: A package which contains contracts which are not meant to be used by themselves but rather as base contracts to provide functionality to other contracts through inheritance.
- transferable: A package which has a single dependency.
- standard-token: A package which contains a reusable contract.
- safe-math-lib: A package which contains deployed instance of one of the package contracts.
- piper-coin: A package which contains a deployed instance of a reusable contract from a dependency.
- escrow: A package which contains a deployed instance of a local contract which is linked against a deployed instance of a local library.
- wallet: A package with a deployed instance of a local contract which is linked against a deployed instance of a library from a dependency.
- wallet-with-send: A package with a deployed instance which links against a deep dependency.
- simple-auction: Compiler
"metadata"
field output.
Package Specification
Conventions
RFC2119
The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this document are to be interpreted as described in RFC 2119.
Prefixed vs Unprefixed
A prefixed hexadecimal value begins with 0x
.
Unprefixed values have no prefix. Unless otherwise
specified, all hexadecimal values should be represented with the
0x
prefix.
- Prefixed:
0xdeadbeef
- Unprefixed:
deadbeef
Document Format
The canonical format is a single JSON object. Packages must conform to the following serialization rules.
-
The document must be tightly packed, meaning no linebreaks or extra whitespace.
-
The keys in all objects must be sorted alphabetically.
-
Duplicate keys in the same object are invalid.
-
The document must use UTF-8 encoding.
-
The document must not have a trailing newline.
-
To ensure backwards compatibility,
manifest_version
is a forbidden top-level key.
Document Specification
The following fields are defined for the package. Custom fields may
be included. Custom fields should be prefixed with x-
to prevent
name collisions with future versions of the specification.
- See Also: Formalized (JSON-Schema) version of this specification: package.spec.json
- Jump To: Definitions
EthPM Manifest Version
The manifest
field defines the specification version that this
document conforms to.
-
Packages must include this field.
- Required: Yes
- Key:
manifest
- Type: String
- Allowed Values:
ethpm/3
Package Name
The name
field defines a human readable name for this package.
-
Packages should include this field to be released on an EthPM registry.
-
Package names must begin with a lowercase letter and be comprised of only the lowercase letters
a-z
, numeric characters0-9
, and the dash character-
. -
Package names must not exceed 255 characters in length.
- Required: If
version
is included. - Key:
name
- Type: String
- Format: must match the regular expression
^[a-z][-a-z0-9]{0,255}$
Package Version
The version
field declares the version number of this release.
-
Packages should include this field to be released on an EthPM registry.
-
This value should conform to the semver version numbering specification.
- Required: If
name
is included. - Key:
version
- Type: String
Package Metadata
The meta
field defines a location for metadata about the package which
is not integral in nature for package installation, but may be important
or convenient to have on-hand for other reasons.
-
This field should be included in all Packages.
- Required: No
- Key:
meta
- Type: Package Meta Object
Sources
The sources
field defines a source tree that should comprise the
full source tree necessary to recompile the contracts contained in this
release.
- Required: No
- Key:
sources
- Type: Object (String: Sources Object)
Contract Types
The contractTypes
field hosts the Contract
Types which have been included in this release.
-
Packages should only include contract types that can be found in the source files for this package.
-
Packages should not include contract types from dependencies.
-
Packages should not include abstract contracts in the contract types section of a release.
- Required: No
- Key:
contractTypes
- Type: Object (String: Contract Type Object)
- Format: Keys must be valid Contract Aliases.
Values must conform to the Contract Type Object definition.
Compilers
The compilers
field holds the information about the compilers and
their settings that have been used to generate the various
contractTypes
included in this release.
- Required: No
- Key:
compilers
- Type: Array (Compiler Information Object)
Deployments
The deployments
field holds the information for the chains on which
this release has Contract Instances as well
as the Contract Types and other deployment
details for those deployed contract instances. The set of chains defined
by the BIP122 URI keys for this object must be
unique. There cannot be two different URI keys in a deployments field
representing the same blockchain.
- Required: No
- Key:
deployments
- Type: Object (String: Object(String: Contract Instance Object))
- Format: Keys must be a valid BIP122 URI chain definition.
Values must be objects which conform to the following format:
- Keys must be valid Contract Instance Names
- Values must be a valid Contract Instance Object
Build Dependencies
The buildDependencies
field defines a key/value mapping of EthPM
packages that this project depends on.
- Required: No
- Key:
buildDependencies
- Type: Object (String: String)
- Format: Keys must be valid package names.
Values must be a Content Addressable URI which resolves to a valid package that conforms the same EthPM manifest version as its parent.
Object Definitions
Definitions for different objects used within the Package. All objects
allow custom fields to be included. Custom fields should be prefixed
with x-
to prevent name collisions with future versions of the
specification.
The Link Reference Object
A Link Reference object has the following key/value pairs. All link references are assumed to be associated with some corresponding Bytecode.
Offsets: offsets
The offsets
field is an array of integers, corresponding to each of
the start positions where the link reference appears in the bytecode.
Locations are 0-indexed from the beginning of the bytes representation
of the corresponding bytecode. This field is invalid if it references a
position that is beyond the end of the bytecode.
- Required: Yes
- Type: Array
Length: length
The length
field is an integer which defines the length in bytes of
the link reference. This field is invalid if the end of the defined link
reference exceeds the end of the bytecode.
- Required: Yes
- Type: Integer
Name: name
The name
field is a string which must be a valid
Identifier. Any link references which should be
linked with the same link value should be given the same name.
- Required: No
- Type: String
- Format: must conform to the Identifier format.
The Link Value Object
Describes a single Link Value.
A Link Value object is defined to have the following key/value pairs.
Offsets: offsets
The offsets
field defines the locations within the corresponding
bytecode where the value
for this link value was written. These
locations are 0-indexed from the beginning of the bytes representation
of the corresponding bytecode.
- Required: Yes
- Type: Integer
- Format: See below.
Format
Array of integers, where each integer must conform to all of the following.
-
greater than or equal to zero
-
strictly less than the length of the unprefixed hexadecimal representation of the corresponding bytecode.
Type: type
The type
field defines the value
type for determining what is
encoded when linking the corresponding bytecode.
- Required: Yes
- Type: String
- Allowed Values:
"literal"
for bytecode literals."reference"
for named references to a particular Contract Instance
Value: value
The value
field defines the value which should be written when linking the corresponding bytecode.
- Required: Yes
- Type: String
- Format: Determined based on
type
, see below.
Format
For static value literals (e.g. address), value must be a 0x-prefixed hexadecimal string representing bytes.
To reference the address of a Contract Instance from the current package the value should be the name of that contract instance.
-
This value must be a valid Contract Instance Name.
-
The chain definition under which the contract instance that this link value belongs to must contain this value within its keys.
-
This value may not reference the same contract instance that this link value belongs to.
To reference a contract instance from a Package from somewhere within the dependency tree the value is constructed as follows.
-
Let
[p1, p2, .. pn]
define a path down the dependency tree. -
Each of
p1, p2, pn
must be valid package names. -
p1
must be present in keys of thebuildDependencies
for the current package. -
For every
pn
wheren > 1
,pn
must be present in the keys of thebuildDependencies
of the package forpn-1
. -
The value is represented by the string
<p1>:<p2>:<...>:<pn>:<contract-instance>
where all of<p1>
,<p2>
,<pn>
are valid package names and<contract-instance>
is a valid Contract Name. -
The
<contract-instance>
value must be a valid Contract Instance Name. -
Within the package of the dependency defined by
<pn>
, all of the following must be satisfiable:-
There must be exactly one chain defined under the
deployments
key which matches the chain definition that this link value is nested under. -
The
<contract-instance>
value must be present in the keys of the matching chain.
-
The Bytecode Object
A bytecode object has the following key/value pairs.
Bytecode: bytecode
The bytecode
field is a string containing the 0x
prefixed
hexadecimal representation of the bytecode.
- Required: Yes
- Type: String
- Format:
0x
prefixed hexadecimal.
Link References: linkReferences
The linkReferences
field defines the locations in the corresponding
bytecode which require linking.
- Required: No
- Type: Array
- Format: All values must be valid Link Reference objects. See also below.
Format
This field is considered invalid if any of the Link
References are invalid when applied to the
corresponding bytecode
field, or if any of the link references
intersect.
Intersection is defined as two link references which overlap.
Link Dependencies: linkDependencies
The linkDependencies
defines the Link Values that
have been used to link the corresponding bytecode.
- Required: No
- Type: Array
- Format: All values must be valid Link Value objects. See also below.
Format
Validation of this field includes the following:
-
Two link value objects must not contain any of the same values for
offsets
. -
Each link value object must have a corresponding link reference object under the
linkReferences
field. -
The length of the resolved
value
must be equal to thelength
of the corresponding Link Reference.
The Package Meta Object
The Package Meta object is defined to have the following key/value pairs.
Authors
The authors
field defines a list of human readable names for the
authors of this package. Packages may include this field.
- Required: No
- Key:
authors
- Type: Array(String)
License
The license
field declares the license associated with this package.
This value should conform to the
SPDX
format. Packages should include this field. If a file Source
Object defines its own license, that license takes
precedence for that particular file over this package-scoped meta
license.
- Required: No
- Key:
license
- Type: String
Description
The description
field provides additional detail that may be relevant
for the package. Packages may include this field.
- Required: No
- Key:
description
- Type: String
Keywords
The keywords
field provides relevant keywords related to this package.
- Required: No
- Key:
keywords
- Type: Array(String)
Links
The links
field provides URIs to relevant resources associated with
this package. When possible, authors should use the following keys
for the following common resources.
-
website
: Primary website for the package. -
documentation
: Package Documentation -
repository
: Location of the project source code. - Required: No
- Key:
links
- Type: Object (String: String)
The Sources Object
A Sources object is defined to have the following fields.
- Key: A unique identifier for the source file. (String)
- Value: Source Object
The Source Object
Checksum: checksum
Hash of the source file.
- Required: Only if the
content
field is missing and none of the provided URLs contain a content hash. - Key:
checksum
- Value: Checksum Object
URLS: urls
Array of urls that resolve to the same source file.
-
Urls should be stored on a content-addressable filesystem. If they are not, then either
content
orchecksum
must be included. -
Urls must be prefixed with a scheme.
-
If the resulting document is a directory the key should be interpreted as a directory path.
-
If the resulting document is a file the key should be interpreted as a file path.
- Required: If
content
is not included. - Key:
urls
- Value: Array(String)
Content: content
Inlined contract source. If both urls
and content
are provided, the content
value
must match the content of the files identified in urls
.
- Required: If
urls
is not included. - Key:
content
- Value: String
Install Path: installPath
Filesystem path of source file.
-
Must be a relative filesystem path that begins with a
./
. -
Must resolve to a path that is within the current virtual working directory.
-
Must be unique across all included sources.
-
Must not contain
../
to avoid accessing files outside of the source folder in improper implementations. - Required: This field must be included for the package to be writable to disk.
- Key:
installPath
- Value: String
Type: type
The type
field declares the type of the source file. The field
should be one of the following values: solidity
, vyper
,
abi-json
, solidity-ast-json
.
- Required: No
- Key:
type
- Value: String
License: license
The license
field declares the type of license associated with
this source file. When defined, this license overrides the
package-scoped meta license.
- Required: No
- Key:
license
- Value: String
The Checksum Object
A Checksum object is defined to have the following key/value pairs.
Algorithm: algorithm
The algorithm
used to generate the corresponding hash. Possible
algorithms include, but are not limited to sha3
, sha256
, md5
,
keccak256
.
- Required: Yes
- Type: String
Hash: hash
The hash
of a source files contents generated with the corresponding
algorithm.
- Required: Yes
- Type: String
The Contract Type Object
A Contract Type object is defined to have the following key/value pairs.
Contract Name: contractName
The contractName
field defines the Contract
Name for this Contract
Type.
- Required: If the Contract Name and Contract Alias are not the same.
- Type: String
- Format: Must be a valid Contract Name
Source ID: sourceId
The global source identifier for the source file from which this contract type was generated.
- Required: No
- Type: String
- Format: Must match a unique source ID included in the Sources Object for this package.
Deployment Bytecode: deploymentBytecode
The deploymentBytecode
field defines the bytecode for this Contract
Type.
- Required: No
- Type: Object
- Format: Must conform to the Bytecode object format.
Runtime Bytecode: runtimeBytecode
The runtimeBytecode
field defines the unlinked 0x
-prefixed runtime
portion of Bytecode for this Contract
Type.
- Required: No
- Type: Object
- Format: Must conform to the Bytecode object format.
ABI: abi
- Required: No
- Type: Array
- Format: Must conform to the Ethereum Contract ABI JSON format.
UserDoc: userdoc
- Required: No
- Type: Object
- Format: Must conform to the UserDoc format.
DevDoc: devdoc
- Required: No
- Type: Object
- Format: Must conform to the DevDoc format.
The Contract Instance Object
A Contract Instance Object represents a single deployed Contract Instance and is defined to have the following key/value pairs.
Contract Type: contractType
The contractType
field defines the Contract
Type for this Contract
Instance. This can reference any of the
contract types included in this Package or any of the
contract types found in any of the package dependencies from the
buildDependencies
section of the Package
Manifest.
- Required: Yes
- Type: String
- Format: See below.
Format
Values for this field must conform to one of the two formats herein.
To reference a contract type from this Package, use the format
<contract-alias>
.
-
The
<contract-alias>
value must be a valid Contract Alias. -
The value must be present in the keys of the
contractTypes
section of this Package.
To reference a contract type from a dependency, use the format
<package-name>:<contract-alias>
.
-
The
<package-name>
value must be present in the keys of thebuildDependencies
of this Package. -
The
<contract-alias>
value must be be a valid Contract Alias. -
The resolved package for
<package-name>
must contain the<contract-alias>
value in the keys of thecontractTypes
section.
Address: address
The address
field defines the Address of the
Contract Instance.
- Required: Yes
- Type: String
- Format: Hex encoded
0x
prefixed Ethereum address matching the regular expression^0x[0-9a-fA-F]{40}$
.
Transaction: transaction
The transaction
field defines the transaction hash in which this
Contract Instance was created.
- Required: No
- Type: String
- Format:
0x
prefixed hex encoded transaction hash.
Block: block
The block
field defines the block hash in which this the transaction
which created this contract instance was mined.
- Required: No
- Type: String
- Format:
0x
prefixed hex encoded block hash.
Runtime Bytecode: runtimeBytecode
The runtimeBytecode
field defines the runtime portion of bytecode for
this Contract Instance. When present, the
value from this field supersedes the runtimeBytecode
from the
Contract Type for this Contract
Instance.
- Required: No
- Type: Object
- Format: Must conform to the Bytecode Object format.
Every entry in the linkReferences
for this bytecode must have a
corresponding entry in the linkDependencies
section.
The Compiler Information Object
The compilers
field defines the various compilers and settings used
during compilation of any Contract Types or
Contract Instance included in this package.
A Compiler Information object is defined to have the following key/value pairs.
Name: name
The name
field defines which compiler was used in compilation.
- Required: Yes
- Key:
name
- Type: String
Version: version
The version
field defines the version of the compiler. The field
should be OS agnostic (OS not included in the string) and take the
form of either the stable version in
semver format or if built on a
nightly should be denoted in the form of <semver>-<commit-hash>
ex:
0.4.8-commit.60cc1668
.
- Required: Yes
- Key:
version
- Type: String
Settings: settings
The settings
field defines any settings or configuration that was used
in compilation. For the "solc"
compiler, this should conform to
the Compiler Input and Output
Description.
- Required: No
- Key:
settings
- Type: Object
Contract Types: contractTypes
A list of the Contract Alias or Contract Types in this package that used this compiler to generate its outputs.
-
All
contractTypes
that locally declareruntimeBytecode
should be attributed for by a compiler object. -
A single
contractTypes
must not be attributed to more than one compiler. - Required: No
- Key:
contractTypes
- Type: Array(Contract Alias)
BIP122 URI
BIP122 URIs are used to define a blockchain via a subset of the BIP-122 spec.
blockchain://<genesis_hash>/block/<latest confirmed block hash>
The <genesis hash>
represents the blockhash of the first block on the
chain, and <latest confirmed block hash>
represents the hash of the
latest block that’s been reliably confirmed (package managers should be
free to choose their desired level of confirmations).
Glossary
The terms in this glossary have been updated to reflect the changes made in V3.
ABI
The JSON representation of the application binary interface. See the official specification for more information.
Address
A public identifier for an account on a particular chain
Bytecode
The set of EVM instructions as produced by a compiler. Unless otherwise
specified this should be assumed to be hexadecimal encoded, representing
a whole number of bytes, and prefixed with 0x
.
Bytecode can either be linked or unlinked. (see Linking)
- Unlinked Bytecode: The hexadecimal representation of a contract’s EVM instructions that contains sections of code that requires linking for the contract to be functional.
The sections of code which are unlinked must be filled in with zero bytes.
Example:0x606060405260e06000730000000000000000000000000000000000000000634d536f
- Linked Bytecode: The hexadecimal representation of a contract’s EVM instructions which has had all Link References replaced with the desired Link Values. Example:
0x606060405260e06000736fe36000604051602001526040518160e060020a634d536f
Chain Definition
This definition originates from BIP122 URI.
A URI in the format blockchain://<chain_id>/block/<block_hash>
-
chain_id
is the unprefixed hexadecimal representation of the genesis hash for the chain. -
block_hash
is the unprefixed hexadecimal representation of the hash of a block on the chain.
A chain is considered to match a chain definition if the genesis
block hash matches the chain_id
and the block defined by block_hash
can be found on that chain. It is possible for multiple chains to match
a single URI, in which case all chains are considered valid matches
Content Addressable URI
Any URI which contains a cryptographic hash which can be used to verify the integrity of the content found at the URI.
The URI format is defined in RFC3986
It is recommended that tools support IPFS and Swarm.
Contract Alias
This is a name used to reference a specific Contract Type. Contract aliases must be unique within a single Package.
The contract alias must use one of the following naming schemes:
-
<contract-name>
-
<contract-name><identifier>
The <contract-name>
portion must be the same as the Contract
Name for this contract type.
The <identifier>
portion must match the regular expression
^[-a-zA-Z0-9]{1,256}$
.
Contract Instance
A contract instance a specific deployed version of a Contract Type.
All contract instances have an Address on some specific chain.
Contract Instance Name
A name which refers to a specific Contract
Instance on a specific chain from the
deployments of a single Package. This name must be
unique across all other contract instances for the given chain. The name
must conform to the regular expression
^[a-zA-Z_$][a-zA-Z0-9_$]{0,255}$
In cases where there is a single deployed instance of a given Contract Type, package managers should use the Contract Alias for that contract type for this name.
In cases where there are multiple deployed instances of a given contract type, package managers should use a name which provides some added semantic information as to help differentiate the two deployed instances in a meaningful way.
Contract Name
The name found in the source code that defines a specific Contract
Type. These names must conform to the regular
expression ^[a-zA-Z_$][a-zA-Z0-9_$]{0,255}$
.
There can be multiple contracts with the same contract name in a projects source files.
Contract Type
Refers to a specific contract in the package source. This term can be used to refer to an abstract contract, a normal contract, or a library. Two contracts are of the same contract type if they have the same bytecode.
Example:
contract Wallet {
...
}
A deployed instance of the Wallet
contract would be of of type
Wallet
.
Identifier
Refers generally to a named entity in the Package.
A string matching the regular expression
^[a-zA-Z][-_a-zA-Z0-9]{0,255}$
Link Reference
A location within a contract’s bytecode which needs to be linked. A link reference has the following properties.
offset
: Defines the location within the bytecode where the link reference begins.length
: Defines the length of the reference.name
: (optional) A string to identify the reference.
Link Value
A link value is the value which can be inserted in place of a Link Reference
Linking
The act of replacing Link References with Link Values within some Bytecode.
Package
Distribution of an application’s source or compiled bytecode along with metadata related to authorship, license, versioning, et al.
For brevity, the term Package is often used metonymously to mean Package Manifest.
Package Manifest
A machine-readable description of a package.
Prefixed
Bytecode string with leading 0x
.
- Example:
0xdeadbeef
Unprefixed
Not Prefixed.
- Example:
deadbeef
Rationale
Minification
EthPM packages are distributed as alphabetically-ordered & minified JSON to ensure consistency. Since packages are published on content-addressable filesystems (eg. IPFS), this restriction guarantees that any given set of contract assets will always resolve to the same content-addressed URI.
Package Names
Package names are restricted to lower-case characters, numbers, and -
to improve the readability
of the package name, in turn improving the security properties for a package. A user is more likely
to accurately identify their target package with this restricted set of characters, and not confuse
a malicious package that disguises itself as a trusted package with similar but different
characters (e.g. O
and 0
).
BIP122
The BIP-122 standard has been used since EthPM v1 since it is an industry standard URI scheme for identifying different blockchains and distinguishing between forks.
Compilers
Compilers are now defined in a top-level array, simplifying the task for tooling to identify the compiler types
needed to interact with or validate the contract assets. This also removes unnecessarily duplicated
information, should multiple contractTypes
share the same compiler type.
Backwards Compatibility
To improve understanding and readability of the EthPM spec, the
manifest_version
field was updated to manifest
in v3. To ensure
backwards compatibility, v3 packages must define a top-level
"manifest"
with a value of "ethpm/3"
. Additionally,
"manifest_version"
is a forbidden top-level key in v3 packages.
Security Considerations
Using EthPM packages implicitly requires importing &/or executing code written by others. The EthPM spec guarantees that when using a properly constructed and released EthPM package, the user will have the exact same code that was included in the package by the package author. However, it is impossible to guarantee that this code is safe to interact with. Therefore, it is critical that end users only interact with EthPM packages authored and released by individuals or organizations that they trust to include non-malicious code.
Copyright
Copyright and related rights waived via CC0.