Computation Payload Manifest
Computation Payload Manifest allows a requestor to define an application package Payload and allows to set constraints on the computations performed on a provider node.
A manifest can be configured in yapapi.
The provider node operator controls what computations can be performed by:
- [Importing certificates] used to sign app authors' certificates into the provider's keystore (which allows the provider agent to verify manifest signatures)
- Adding domain patterns to Provider's domain whitelist (which makes the manifest [signature] optional).
Configuration
The manifest can be configured as a yapapi.payload.vm.manifest function parameter together with an optional manifest signature and the [App author's certificate].
Manifest schema
Computation Payload Manifest must follow a specific JSON Schema (Documentation)
Schema verification
Manifests can be verified using jsonschema
library:
wget https://github.com/golemfactory/yagna-docs/blob/master/requestor-tutorials/vm-runtime/computation-payload-manifest.schema.json
pip install jsonschema
jsonschema --instance manifest.json computation-payload-manifest.schema.json
Payload object
Computation Payload Manifest must contain at least one Payload object.
Payload definition allows to define GVMI images used by Application and supported architecture.
Simple Computation Payload Manifest with Payload definition:
{
"version": "0.1.0",
"createdAt": "2022-09-15T00:00:00.000000Z",
"expiresAt": "2100-01-01T00:00:00.000000Z",
"payload": [
{
"platform": {
"arch": "x86_64",
"os": "linux"
},
"urls": [
"http://girepo.dev.golem.network:8000/docker-golem-hello-world-latest-779758b432.gvmi"
],
"hash": "sha3:d646d7b93083d817846c2ae5c62c72ca0507782385a2e29291a3d376"
}
]
}
Computation Manifest object
Computation Payload Manifest can contain Computation Manifests object.
With a Computation Manifest object, requestor constrains themself to a certain set of allowed actions, to be negotiated with and approved by a provider.
Requestors' actions will be verified against the Manifest during computation.
Supported Computation Manifest constraints:
compManifest.script
Defines a set of allowed ExeScript commands and applies constraints to their arguments.
compManifest.script.commands
compManifest.script.commands : List[Script]
specifies a curated list of commands in a form of:UTF-8 encoded JSON strings
Command context (e.g. env) or argument matching mode needs to be specified for a command.
Example:
[ "{ \"run\": { \"args\": \"/bin/date -R\", \"env\": { \"MYVAR\": \"42\", \"match\": \"strict\" } } }" ]
UTF-8 encoded strings
No command context or matching mode needs to be specified.
Example:
["run /bin/cat /etc/motd", "run /bin/date -R"]
Mix of both
Commands
deploy
,start
andterminate
are always allowed. These values become the default if nocompManifest.script.commands
property has been set, but thecompManifest
object is present.compManifest.script.match
compManifest.script.match : String
selects a default way of comparing command arguments stated in the manifest and the ones received in the ExeScript, unless stated otherwise in a command JSON object.The
match
property could be one of:strict
: byte-to-byte argument equality (default)regex
: treat arguments as regular expressionsSyntax: Perl-compatible regular expressions (UTF-8 Unicode mode), w/o the support for a look around and backreferences (among others).
compManifest.net
compManifest.net : Object
applies constraints to networking.compManifest.net.inet.out
compManifest.net.inet.out : Object
outgoing requests to the public Internet network constraints.compManifest.net.inet.out.protocols
compManifest.net.inet.out.protocols : List[String]
list of allowed outbound protocols. Currently fixed at ["http", "https"].compManifest.net.inet.out.urls
compManifest.net.inet.out.urls : List[String]
list of allowed external URLs that outbound requests can be sent to. E.g. ["https://api.some-public-service.com", "https://some-other-service.com/api/resource"]
Example of Computation Payload Manifest with Computation Manifest definition:
{
"version": "0.1.0",
"createdAt": "2022-09-15T00:00:00.000000Z",
"expiresAt": "2100-01-01T00:00:00.000000Z",
"payload": [
{
"urls": [
"http://yacn2.dev.golem.network:8000/docker-golem-script-curl-latest-d75268e752.gvmi"
],
"hash": "sha3:e5f5ddfd649525dbe25d93d9ed51d1bdd0849933d9a5720adb4b5810"
}
],
"compManifest": {
"version": "0.1.0",
"script": {
"commands": ["run curl.*", "transfer .*/output.txt"],
"match": "regex"
},
"net": {
"inet": {
"out": {
"protocols": ["https"],
"urls": ["https://api.some-public-service.com"]
}
}
}
}
}
Certificates
App author's certificate gets sent in a demand together with a Computation Payload Manifest and its signature. The certificate is used to verify the signature. In order to verify the signature, a Provider first needs to verify the incoming App author's certificate. To do so, it has to have a certificate that's used to sign the App author's certificate [imported] into its keystore (together with every intermediate certificate in the chain).
Manifest signature
Signature allows a Provider to verify the content of an incoming Computation Payload Manifest.
It can be generated using the openssl
tool and a private key related to App author's certificate signed by a certificate that's trusted by Providers.
A signature needs to be generated from the content of the Computation Payload Manifest encoded in base64
:
openssl dgst -sha256 -sign author.key -out manifest.json.base64.sign.sha256 manifest.json.base64
# both Signature and App Author Certificate need to be sent in base64 encoded form
base64 manifest.json.base64.sign.sha256 --wrap=0 > manifest.json.base64.sign.sha256.base64
base64 author.crt.pem --wrap=0 > author.crt.pem.base64
JS SDK users can utilize the SDK CLI tool to create and sign manifests.
Self signed certificate example
A basic example showing the generation of a self-signed root CA certificate to then sign the App author's certificate, and afterwards importing a generated root CA certificate into the Provider's keystore.
1. Generating self signed root CA certificate
Create openssl-ca.conf
for CA certificate
[ req ]
distinguished_name = req_dn
x509_extensions = v3_ext
[ req_dn ]
organizationName = Organization Name (company name)
commonName = Common Name (your name, or app name)
emailAddress = Email Address (support email address)
[ v3_ext ]
basicConstraints = CA:true
[ ca ]
default_ca = CA_default
[ CA_default ]
database = index.txt
serial = serial.txt
policy = policy_default
[ policy_default ]
organizationName = match
commonName = supplied
emailAddress = supplied
Then prepare referenced in config files:
touch index.txt index.txt.attr
echo '1000' > serial.txt
Then generate the CA certificate and key pair:
openssl req -new -newkey rsa:2048 -days 360 -nodes -x509 -sha256 -keyout ca.key.pem -out ca.crt.pem -config openssl-ca.conf
2. Generating Requestor certificate
Create openssl.conf
for the App author's certificate:
[ req ]
distinguished_name = req_dn
x509_extensions = v3_ext
[ req_dn ]
organizationName = Organization Name (company name)
commonName = Common Name (your name, or app name)
emailAddress = Email Address (support email address)
[ v3_ext ]
basicConstraints = CA:true
Then generate App author's certificate Signing Request (use same organizationName
):
openssl req -new -newkey rsa:2048 -sha256 -keyout author.key.pem -out author.csr.pem -config openssl.conf
Finally, generate App author's certificate using CSR and CA certificate:
openssl x509 -req -in author.csr.pem -CA ca.crt.pem -CAkey ca.key.pem -CAcreateserial -out author.crt.pem
3. Importing application author's certificates
To set the rule to accept payloads with unrestricted outbound access signed by authors who holds certs from a trusted ca, use a the following command:
ya-provider rule set outbound audited-payload import-cert ca.crt.pem --mode all
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