c/ietf-wimse-ect
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
d8d1524dacfdd45db7c54209bb9f32a7df0482b3
ietf-wimse-ect/draft-nennemann-wimse-execution-context-00.xml
Christian Nennemann d8d1524dac Make SPIFFE ID format recommended, not required for iss claim 
Allow any URI scheme for the iss claim (SPIFFE, HTTPS, URN:UUID)
to support non-WIMSE deployments that want DAG tracing without
SPIFFE infrastructure. SPIFFE format remains SHOULD for WIMSE
deployments.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-02-24 23:27:34 +01:00

3195 lines
138 KiB
XML
Raw Blame History

This file contains invisible Unicode characters
This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
<?xml version="1.0" encoding="UTF-8"?>
<?xml-stylesheet type="text/xsl" href="rfc2629.xslt" ?>
<!-- generated by https://github.com/cabo/kramdown-rfc version 1.7.31 (Ruby 3.4.5) -->
<!DOCTYPE rfc [
<!ENTITY nbsp "&#160;">
<!ENTITY zwsp "&#8203;">
<!ENTITY nbhy "&#8209;">
<!ENTITY wj "&#8288;">
]>
<rfc ipr="trust200902" docName="draft-nennemann-wimse-execution-context-00" category="std" consensus="true" submissionType="IETF" tocInclude="true" sortRefs="true" symRefs="true">
<front>
<title abbrev="WIMSE Execution Context">Execution Context Tokens for Distributed Agentic Workflows</title>
<author fullname="Christian Nennemann">
<organization>Independent Researcher</organization>
<address>
<email>ietf@nennemann.de</email>
</address>
</author>
<date year="2026" month="February" day="24"/>
<area>Security</area>
<workgroup>WIMSE</workgroup>
<keyword>execution context</keyword> <keyword>workload identity</keyword> <keyword>agentic workflows</keyword> <keyword>audit trail</keyword> <keyword>compliance</keyword> <keyword>regulated systems</keyword>
<abstract>
<?line 85?>
<t>This document defines Execution Context Tokens (ECTs), an extension
to the Workload Identity in Multi System Environments (WIMSE)
architecture for distributed agentic workflows in regulated
environments. ECTs provide signed, structured records of task
execution order, policy evaluation outcomes, and compliance state
across
agent-to-agent communication. By extending WIMSE Workload Identity
Tokens with execution context claims in JSON Web Token (JWT)
format, this specification enables regulated systems to maintain
structured audit trails that support compliance verification.
ECTs use a directed acyclic graph (DAG) structure to represent task
dependencies, record policy evaluation outcomes at each decision
point, and integrate with WIMSE Workload Identity Tokens (WIT)
using the same signing model and cryptographic primitives. A new
HTTP header field,
Execution-Context, is defined for transporting ECTs alongside
existing WIMSE headers. ECTs are a technical building block that
supports, but does not by itself constitute, compliance with
regulatory frameworks.</t>
</abstract>
</front>
<middle>
<?line 107?>
<section anchor="introduction"><name>Introduction</name>
<section anchor="motivation"><name>Motivation</name>
<t>The Workload Identity in Multi System Environments (WIMSE)
framework <xref target="I-D.ietf-wimse-arch"/> provides robust workload
authentication through Workload Identity Tokens (WIT) and Workload
Proof Tokens (WPT). The WIMSE service-to-service protocol
<xref target="I-D.ietf-wimse-s2s-protocol"/> defines how workloads authenticate
each other across call chains using the Workload-Identity and
Workload-Proof-Token HTTP headers.</t>
<t>However, workload identity alone does not address execution
accountability. Knowing who performed an action does not record
what was done, what policy was applied, or whether compliance
requirements were evaluated at each decision point.</t>
<t>Regulated environments increasingly deploy autonomous agents that
coordinate across organizational boundaries. Multiple regulatory
frameworks — including <xref target="EU-AI-ACT"/>, <xref target="FDA-21CFR11"/>, <xref target="MIFID-II"/>,
and <xref target="DORA"/> — require structured, auditable records of automated
decision-making and execution (see <xref target="_table-regulatory"/> for a
detailed mapping).</t>
<t>This document defines an extension to the WIMSE architecture that
addresses the gap between workload identity and execution
accountability. WIMSE authenticates agents; this extension records
what they did, in what order, and what policy was evaluated.</t>
<t>As identified in <xref target="I-D.ni-wimse-ai-agent-identity"/>, call context
in agentic workflows needs to be visible and preserved. ECTs
provide a mechanism to address this requirement with cryptographic
assurances.</t>
</section>
<section anchor="problem-statement"><name>Problem Statement</name>
<t>Three core gaps exist in current approaches to regulated agentic
systems:</t>
<t><list style="numbers" type="1">
<t>WIMSE authenticates agents but does not record what they
actually did. A WIT proves "Agent A is authorized" but not
"Agent A executed Task X, under Policy Y, producing Output Z."</t>
<t>No standard mechanism exists to record policy evaluation
outcomes at each decision point in a multi-agent workflow.</t>
<t>No mechanism exists to cryptographically link compensation and
rollback decisions to original actions.</t>
</list></t>
<t>Existing observability tools such as distributed tracing
<xref target="OPENTELEMETRY"/> provide visibility for debugging and monitoring
but do not provide cryptographic assurances. Tracing data is not
cryptographically signed, not tamper-evident, and not designed for
regulatory audit scenarios.</t>
</section>
<section anchor="scope-and-applicability"><name>Scope and Applicability</name>
<t>This document defines:</t>
<t><list style="symbols">
<t>The Execution Context Token (ECT) format (<xref target="ect-format"/>)</t>
<t>DAG structure for task dependency ordering (<xref target="dag-validation"/>)</t>
<t>Policy checkpoint recording (<xref target="policy-claims"/>)</t>
<t>Integration with the WIMSE identity framework
(<xref target="wimse-integration"/>)</t>
<t>An HTTP header for ECT transport (<xref target="http-header"/>)</t>
<t>Audit ledger interface requirements (<xref target="ledger-interface"/>)</t>
</list></t>
<t>The following are out of scope and are handled by WIMSE:</t>
<t><list style="symbols">
<t>Workload authentication and identity provisioning</t>
<t>Key distribution and management</t>
<t>Trust domain establishment and management</t>
<t>Credential lifecycle management</t>
</list></t>
</section>
<section anchor="relationship-to-regulatory-compliance"><name>Relationship to Regulatory Compliance</name>
<t>ECTs are a technical mechanism that can support compliance programs
by providing structured, cryptographically signed execution
records. ECTs do not by themselves constitute compliance with any
regulatory framework referenced in this document.</t>
<t>Compliance with each referenced regulation requires organizational
controls, policies, procedures, validation, and governance measures
beyond the scope of this specification. The regulatory references
in this document are intended to motivate the design requirements,
not to claim that implementing ECTs satisfies these regulations.</t>
<t>ECTs provide evidence of claimed execution ordering and policy
evaluation. They do not independently verify that the claimed
execution actually occurred as described, that the policy
evaluation was correct, or that the agent faithfully performed the
stated action. The trustworthiness of ECT claims depends on the
trustworthiness of the signing agent and the integrity of the
broader deployment environment.</t>
</section>
</section>
<section anchor="conventions-and-definitions"><name>Conventions and Definitions</name>
<t>The key words "<bcp14>MUST</bcp14>", "<bcp14>MUST NOT</bcp14>", "<bcp14>REQUIRED</bcp14>", "<bcp14>SHALL</bcp14>", "<bcp14>SHALL
NOT</bcp14>", "<bcp14>SHOULD</bcp14>", "<bcp14>SHOULD NOT</bcp14>", "<bcp14>RECOMMENDED</bcp14>", "<bcp14>NOT RECOMMENDED</bcp14>",
"<bcp14>MAY</bcp14>", and "<bcp14>OPTIONAL</bcp14>" in this document are to be interpreted as
described in BCP 14 <xref target="RFC2119"/> <xref target="RFC8174"/> when, and only when, they
appear in all capitals, as shown here.</t>
<?line -18?>
<t>The following terms are used in this document:</t>
<dl>
<dt>Agent:</dt>
<dd>
<t>An autonomous workload, as defined by WIMSE
<xref target="I-D.ietf-wimse-arch"/>, that executes tasks within a workflow.</t>
</dd>
<dt>Task:</dt>
<dd>
<t>A discrete unit of agent work that consumes inputs and produces
outputs.</t>
</dd>
<dt>Directed Acyclic Graph (DAG):</dt>
<dd>
<t>A graph structure representing task dependency ordering where
edges are directed and no cycles exist.</t>
</dd>
<dt>Execution Context Token (ECT):</dt>
<dd>
<t>A JSON Web Token <xref target="RFC7519"/> defined by this specification that
records task execution details and policy evaluation outcomes.</t>
</dd>
<dt>Audit Ledger:</dt>
<dd>
<t>An append-only, immutable log of all ECTs within a workflow or
set of workflows, used for regulatory audit and compliance
verification.</t>
</dd>
<dt>Policy Checkpoint:</dt>
<dd>
<t>A point in a workflow where a policy evaluation outcome is
recorded within an ECT.</t>
</dd>
<dt>Workload Identity Token (WIT):</dt>
<dd>
<t>A WIMSE credential proving a workload's identity within a trust
domain.</t>
</dd>
<dt>Workload Proof Token (WPT):</dt>
<dd>
<t>A WIMSE proof-of-possession token used for request-level
authentication.</t>
</dd>
<dt>Trust Domain:</dt>
<dd>
<t>A WIMSE concept representing an organizational boundary with a
shared identity issuer, corresponding to a SPIFFE <xref target="SPIFFE"/>
trust domain.</t>
</dd>
<dt>Witness:</dt>
<dd>
<t>A third-party entity that observes and attests to the execution
of a task, providing additional accountability.</t>
</dd>
</dl>
</section>
<section anchor="wimse-integration"><name>WIMSE Architecture Integration</name>
<section anchor="wimse-foundation"><name>WIMSE Foundation</name>
<t>The WIMSE architecture <xref target="I-D.ietf-wimse-arch"/> defines:</t>
<t><list style="symbols">
<t>Workload Identity Tokens (WIT) that prove a workload's identity
within a trust domain ("I am Agent X in trust domain Y")</t>
<t>Workload Proof Tokens (WPT) that prove possession of the private
key associated with a WIT ("I control the key for Agent X")</t>
<t>Multi-hop authentication via the service-to-service protocol
<xref target="I-D.ietf-wimse-s2s-protocol"/></t>
</list></t>
<t>The following execution accountability needs are complementary to
the WIMSE scope and are not addressed by workload identity alone:</t>
<t><list style="symbols">
<t>Recording what agents actually do with their authenticated
identity</t>
<t>Recording policy evaluation outcomes at each hop</t>
<t>Maintaining structured execution records</t>
<t>Linking compensation or rollback actions to original tasks</t>
</list></t>
</section>
<section anchor="extension-model"><name>Extension Model</name>
<t>ECTs extend WIMSE by adding an execution accountability layer
between the identity layer and the application layer:</t>
<figure title="WIMSE Extension Architecture Layers" anchor="fig-layers"><artwork type="ascii-art"><![CDATA[
+--------------------------------------------------+
| WIMSE Layer (Identity) |
| WIT: "I am Agent X (spiffe://td/agent/x)" |
| WPT: "I prove I control the key for Agent X" |
+--------------------------------------------------+
|
v
+--------------------------------------------------+
| ECT Layer (Execution Accountability) [This Spec]|
| ECT: "Task executed, dependencies met, |
| policy evaluated, outcome recorded" |
+--------------------------------------------------+
|
v
+--------------------------------------------------+
| Ledger Layer (Immutable Record) |
| "All ECTs appended to audit ledger" |
+--------------------------------------------------+
]]></artwork></figure>
<t>This extension reuses the WIMSE signing model, extends JWT claims
using standard JWT extensibility <xref target="RFC7519"/>, and maintains WIMSE
concepts including trust domains and workload identifiers.</t>
</section>
<section anchor="integration-points"><name>Integration Points</name>
<t>An ECT integrates with the WIMSE identity framework through the
following mechanisms:</t>
<t><list style="symbols">
<t>The ECT JOSE header "kid" parameter <bcp14>MUST</bcp14> reference the public
key identifier from the agent's WIT.</t>
<t>In WIMSE deployments, the ECT "iss" claim <bcp14>SHOULD</bcp14> use the WIMSE
workload identifier format (a SPIFFE ID <xref target="SPIFFE"/>).</t>
<t>The ECT <bcp14>MUST</bcp14> be signed with the same private key associated
with the agent's WIT.</t>
<t>The ECT signing algorithm (JOSE header "alg" parameter) <bcp14>MUST</bcp14>
match the algorithm used in the corresponding WIT.</t>
</list></t>
<t>When an agent makes an HTTP request to another agent, the
Execution-Context header is carried alongside WIMSE identity
headers:</t>
<figure title="HTTP Header Stacking" anchor="fig-http-headers"><artwork type="ascii-art"><![CDATA[
HTTP Request from Agent A to Agent B:
Workload-Identity: <WIT for Agent A>
Execution-Context: <ECT recording what A did>
]]></artwork></figure>
<t>When a Workload Proof Token (WPT) is available per
<xref target="I-D.ietf-wimse-s2s-protocol"/>, agents <bcp14>SHOULD</bcp14> include it
alongside the WIT and ECT. ECT verification does not depend
on the presence of a WPT; the ECT is independently verifiable
via the WIT public key.</t>
<t>The receiving agent (Agent B) verifies in order:</t>
<t><list style="numbers" type="1">
<t>WIT (WIMSE layer): Verifies Agent A's identity within the
trust domain. WPT verification, if present, per
<xref target="I-D.ietf-wimse-s2s-protocol"/>.</t>
<t>ECT (this extension): Records what Agent A did, what policy was
evaluated, and what precedent tasks exist.</t>
<t>Ledger: Appends the verified ECT to the audit ledger.</t>
</list></t>
</section>
</section>
<section anchor="ect-format"><name>Execution Context Token Format</name>
<t>An Execution Context Token is a JSON Web Token (JWT) <xref target="RFC7519"/>
signed as a JSON Web Signature (JWS) <xref target="RFC7515"/> using the Compact
Serialization. JWS JSON Serialization <bcp14>MUST NOT</bcp14> be used for ECTs.</t>
<section anchor="jose-header"><name>JOSE Header</name>
<t>The ECT JOSE header <bcp14>MUST</bcp14> contain the following parameters:</t>
<figure title="ECT JOSE Header Example" anchor="fig-header"><sourcecode type="json"><![CDATA[
{
"alg": "ES256",
"typ": "wimse-exec+jwt",
"kid": "agent-a-key-id-123"
}
]]></sourcecode></figure>
<dl>
<dt>alg:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. The digital signature algorithm used to sign the ECT.
<bcp14>MUST</bcp14> match the algorithm in the corresponding WIT.
Implementations <bcp14>MUST</bcp14> support ES256 <xref target="RFC7518"/>. The "alg"
value <bcp14>MUST NOT</bcp14> be "none". Symmetric algorithms (e.g., HS256,
HS384, HS512) <bcp14>MUST NOT</bcp14> be used, as ECTs require asymmetric
signatures for non-repudiation.</t>
</dd>
<dt>typ:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. <bcp14>MUST</bcp14> be set to "wimse-exec+jwt" to distinguish ECTs
from other JWT types, consistent with the WIMSE convention for
type parameter values.</t>
</dd>
<dt>kid:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. The key identifier referencing the public key from
the agent's WIT <xref target="RFC7517"/>. Used by verifiers to look up the
correct public key for signature verification.</t>
</dd>
</dl>
</section>
<section anchor="jwt-claims"><name>JWT Claims</name>
<t>The ECT payload contains both WIMSE-compatible standard JWT claims
and execution context claims defined by this specification.</t>
<section anchor="standard-jwt-claims"><name>Standard JWT Claims</name>
<t>The following standard JWT claims <xref target="RFC7519"/> <bcp14>MUST</bcp14> be present in
every ECT:</t>
<dl>
<dt>iss:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. StringOrURI. A URI identifying the issuer of the
ECT. In WIMSE deployments, this <bcp14>SHOULD</bcp14> be the workload's
SPIFFE ID in the format <spanx style="verb">spiffe://&lt;trust-domain&gt;/&lt;path&gt;</spanx>,
matching the "sub" claim of the agent's WIT. Non-WIMSE
deployments <bcp14>MAY</bcp14> use other URI schemes (e.g., HTTPS URLs or
URN:UUID identifiers).</t>
</dd>
<dt>sub:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. StringOrURI. The subject of the ECT. When present,
<bcp14>MUST</bcp14> equal the "iss" claim. This claim is included for
compatibility with JWT libraries and frameworks that expect a
"sub" claim to be present.</t>
</dd>
<dt>aud:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. StringOrURI or array of StringOrURI. The intended
recipient(s) of the ECT. Because ECTs serve as both inter-agent
messages and audit records, the "aud" claim <bcp14>SHOULD</bcp14> contain the
identifiers of all entities that will verify the ECT. In
practice this means:
</t>
<t><list style="symbols">
<t><strong>Point-to-point delivery</strong>: when an ECT is sent from one
agent to a single next agent, "aud" contains that agent's
workload identity. The receiving agent verifies the ECT and
forwards it to the ledger on behalf of the issuer.</t>
<t><strong>Direct-to-ledger submission</strong>: when an ECT is submitted
directly to the audit ledger (e.g., after a join or at
workflow completion), "aud" contains the ledger's identity.</t>
<t><strong>Multi-audience</strong>: when an ECT must be verified by both the
next agent and the ledger independently, "aud" <bcp14>MUST</bcp14> be an
array containing both identifiers (e.g.,
["spiffe://example.com/agent/next",
"spiffe://example.com/system/ledger"]). Each verifier checks
that its own identity appears in the array.</t>
</list></t>
<t>In multi-parent (join) scenarios where a task depends on ECTs
from multiple parent agents, the joining agent creates a new ECT
with the parent task IDs in "par". The "aud" of this new ECT
is set according to the rules above based on where the ECT will
be delivered — it is independent of the "aud" values in the
parent ECTs.</t>
</dd>
<dt>iat:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. NumericDate. The time at which the ECT was issued.
The ECT records a completed action, so the "iat" value reflects
when the record was created, not when task execution began.</t>
</dd>
<dt>exp:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. NumericDate. The expiration time of the ECT.
Implementations <bcp14>SHOULD</bcp14> set this to 5 to 15 minutes after "iat"
to limit the replay window while allowing for reasonable clock
skew and processing time.</t>
</dd>
</dl>
<t>The standard JWT "nbf" (Not Before) claim is not used in ECTs
because ECTs record completed actions and are valid immediately
upon issuance.</t>
<dl>
<dt>jti:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. String. A globally unique identifier for both the
ECT and the task it records, in UUID format <xref target="RFC9562"/>. Since
each ECT represents exactly one task, "jti" serves as both the
token identifier (for replay detection) and the task identifier
(for DAG parent references in "par"). Receivers <bcp14>MUST</bcp14> reject
ECTs whose "jti" has already been seen within the expiration
window. When "wid" is present, uniqueness is scoped to the
workflow; when "wid" is absent, uniqueness <bcp14>MUST</bcp14> be enforced
globally across the ECT store.</t>
</dd>
</dl>
</section>
<section anchor="exec-claims"><name>Execution Context</name>
<t>The following claims are defined by this specification:</t>
<dl>
<dt>wid:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. A workflow identifier that groups related
ECTs into a single workflow. When present, <bcp14>MUST</bcp14> be a UUID
<xref target="RFC9562"/>.</t>
</dd>
<dt>exec_act:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. String. The action or task type identifier describing
what the agent performed (e.g., "process_payment",
"validate_safety", "calculate_dosage"). Note: this claim is
intentionally named "exec_act" rather than "act" to avoid
collision with the "act" (Actor) claim registered by
<xref target="RFC8693"/>.</t>
</dd>
<dt>par:</dt>
<dd>
<t><bcp14>REQUIRED</bcp14>. Array of strings. Parent task identifiers
representing DAG dependencies. Each element <bcp14>MUST</bcp14> be the "jti"
value of a previously verified ECT. An empty array indicates
a root task with no dependencies. A workflow <bcp14>MAY</bcp14> contain
multiple root tasks.</t>
</dd>
</dl>
</section>
<section anchor="policy-claims"><name>Policy Evaluation</name>
<t>The following claims record policy evaluation outcomes:</t>
<dl>
<dt>pol:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. The identifier of the policy rule that was
evaluated for this task (e.g.,
"clinical_data_access_policy_v1"). <bcp14>MUST</bcp14> be present when
"pol_decision" is present.</t>
</dd>
<dt>pol_decision:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. The result of the policy evaluation. When
present, <bcp14>MUST</bcp14> be one of the values registered in the ECT Policy
Decision Values registry (<xref target="pol-decision-registry"/>). <bcp14>MUST</bcp14> be
present when "pol" is present. Initial values are:
</t>
<t><list style="symbols">
<t>"approved": The policy evaluation succeeded and the task
was authorized to proceed.</t>
<t>"rejected": The policy evaluation failed. A "rejected" ECT
<bcp14>MUST</bcp14> still be recorded for accountability. An ECT with
"pol_decision" of "rejected" <bcp14>MAY</bcp14> appear as a parent in the
"par" array of a subsequent ECT, but only for compensation,
rollback, or remediation tasks. Agents <bcp14>MUST NOT</bcp14> proceed
with normal workflow execution based on a parent ECT whose
"pol_decision" is "rejected".</t>
<t>"pending_human_review": The policy evaluation requires human
judgment before proceeding. Agents <bcp14>MUST NOT</bcp14> proceed with
dependent tasks until a subsequent ECT from a human reviewer
records an "approved" decision referencing this task as a
parent.</t>
</list></t>
<t>When "pol" and "pol_decision" are absent, the ECT records task
execution without a policy checkpoint. Regulated deployments
<bcp14>SHOULD</bcp14> include policy claims on all ECTs to maintain complete
audit trails.</t>
</dd>
<dt>pol_enforcer:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. StringOrURI. The identity of the entity (system or
person) that evaluated the policy decision. When present,
<bcp14>SHOULD</bcp14> use SPIFFE ID format.</t>
</dd>
</dl>
<t>This specification intentionally defines only the recording of
policy evaluation outcomes. The mechanisms by which policies are
defined, distributed to agents, and evaluated are out of scope.
The "pol" claim is an opaque identifier referencing an external
policy; the semantics and enforcement of that policy are
determined by the deployment environment. Implementations may
use any policy engine or framework (e.g., OPA/Rego, Cedar, XACML,
or custom solutions) provided that the evaluation outcome is
faithfully recorded in the ECT claims defined above.</t>
</section>
<section anchor="data-integrity-claims"><name>Data Integrity</name>
<t>The following claims provide integrity verification for task
inputs and outputs without revealing the data itself:</t>
<dl>
<dt>inp_hash:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. A cryptographic hash of the input data,
formatted as "hash-algorithm:base64url-encoded-hash" (e.g.,
"sha-256:n4bQgYhMfWWaL-qgxVrQFaO_TxsrC4Is0V1sFbDwCgg"). The
hash algorithm identifier <bcp14>MUST</bcp14> be a lowercase value from the
IANA Named Information Hash Algorithm Registry (e.g., "sha-256",
"sha-384", "sha-512"). Implementations <bcp14>MUST</bcp14> support "sha-256"
and <bcp14>SHOULD</bcp14> use "sha-256" unless a stronger algorithm is
required. Implementations <bcp14>MUST NOT</bcp14> accept hash algorithms
weaker than SHA-256 (e.g., MD5, SHA-1). The hash <bcp14>MUST</bcp14> be
computed over the raw octets of the input data.</t>
</dd>
<dt>out_hash:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. A cryptographic hash of the output data,
using the same format and algorithm requirements as "inp_hash".</t>
</dd>
</dl>
</section>
<section anchor="compensation-claims"><name>Compensation and Rollback</name>
<dl>
<dt>compensation_required:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. Boolean. Indicates whether this task is a
compensation or rollback action for a previous task.</t>
</dd>
<dt>compensation_reason:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. String. A human-readable reason for the compensation
action. <bcp14>MUST</bcp14> be present if "compensation_required" is true.
Values <bcp14>SHOULD</bcp14> use structured identifiers (e.g.,
"policy_violation_in_parent_trade") rather than free-form text
to minimize the risk of embedding sensitive information. See
<xref target="data-minimization"/> for privacy guidance.
If "compensation_reason" is present, "compensation_required"
<bcp14>MUST</bcp14> be true.</t>
</dd>
</dl>
<t>Note: compensation ECTs reference historical parent tasks via the
"par" claim. The referenced parent ECTs may have passed their own
"exp" time; ECT expiration applies to the verification window of
the ECT itself, not to its validity as a parent reference in the
ledger.</t>
</section>
<section anchor="extension-claims"><name>Extensions</name>
<dl>
<dt>ext:</dt>
<dd>
<t><bcp14>OPTIONAL</bcp14>. Object. An extension object for domain-specific
claims not defined by this specification. Implementations
that do not understand extension claims <bcp14>MUST</bcp14> ignore them.</t>
</dd>
</dl>
<t>To avoid key collisions between different domains, extension
key names <bcp14>MUST</bcp14> use reverse domain notation (e.g.,
"com.example.custom_field"). Implementations <bcp14>MUST NOT</bcp14> use
unqualified key names within the "ext" object. To prevent
abuse and excessive token size, the serialized JSON
representation of the "ext" object <bcp14>SHOULD NOT</bcp14> exceed 4096
bytes, and the JSON nesting depth within the "ext" object
<bcp14>SHOULD NOT</bcp14> exceed 5 levels. Implementations <bcp14>SHOULD</bcp14> reject
ECTs whose "ext" claim exceeds these limits.</t>
<t>The following extension keys are <bcp14>RECOMMENDED</bcp14> for common use
cases. These are not registered claims; they are carried
within the "ext" object:</t>
<t><list style="symbols">
<t>"org.ietf.wimse.exec_time_ms": Integer. Execution duration in
milliseconds.</t>
<t>"org.ietf.wimse.regulated_domain": String. Regulatory domain
(e.g., "medtech", "finance", "military").</t>
<t>"org.ietf.wimse.model_version": String. AI/ML model version.</t>
<t>"org.ietf.wimse.witnessed_by": Array of StringOrURI. Identifiers
of third-party entities that the issuer claims observed the
task. Note: this is self-asserted; for verifiable witness
attestation, witnesses should submit independent signed ECTs.</t>
<t>"org.ietf.wimse.inp_classification": String. Data sensitivity
classification (e.g., "public", "confidential", "restricted").</t>
<t>"org.ietf.wimse.pol_timestamp": NumericDate. Time at which the
policy decision was made, if distinct from "iat".</t>
</list></t>
</section>
</section>
<section anchor="complete-ect-example"><name>Complete ECT Example</name>
<t>The following is a complete ECT payload example:</t>
<figure title="Complete ECT Payload Example" anchor="fig-full-ect"><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://example.com/agent/clinical",
"sub": "spiffe://example.com/agent/clinical",
"aud": "spiffe://example.com/agent/safety",
"iat": 1772064150,
"exp": 1772064750,
"jti": "550e8400-e29b-41d4-a716-446655440001",
"wid": "a0b1c2d3-e4f5-6789-abcd-ef0123456789",
"exec_act": "recommend_treatment",
"par": [],
"pol": "clinical_reasoning_policy_v2",
"pol_decision": "approved",
"pol_enforcer": "spiffe://example.com/policy/clinical-engine",
"inp_hash": "sha-256:n4bQgYhMfWWaL-qgxVrQFaO_TxsrC4Is0V1sFbDwCgg",
"out_hash": "sha-256:LCa0a2j_xo_5m0U8HTBBNBNCLXBkg7-g-YpeiGJm564",
"ext": {
"org.ietf.wimse.pol_timestamp": 1772064145,
"org.ietf.wimse.exec_time_ms": 245,
"org.ietf.wimse.regulated_domain": "medtech",
"org.ietf.wimse.model_version": "clinical-reasoning-v4.2"
}
}
]]></sourcecode></figure>
</section>
</section>
<section anchor="http-header"><name>HTTP Header Transport</name>
<section anchor="execution-context-header-field"><name>Execution-Context Header Field</name>
<t>This specification defines the Execution-Context HTTP header field
<xref target="RFC9110"/> for transporting ECTs between agents.</t>
<t>The header field value is the ECT in JWS Compact Serialization
format <xref target="RFC7515"/>. The value consists of three Base64url-encoded
parts separated by period (".") characters.</t>
<t>An agent sending a request to another agent includes the
Execution-Context header alongside the WIMSE Workload-Identity
header:</t>
<figure title="HTTP Request with ECT Header" anchor="fig-http-example"><artwork><![CDATA[
GET /api/safety-check HTTP/1.1
Host: safety-agent.example.com
Workload-Identity: eyJhbGci...WIT...
Execution-Context: eyJhbGci...ECT...
]]></artwork></figure>
<t>When multiple parent tasks contribute context to a single request,
multiple Execution-Context header field lines <bcp14>MAY</bcp14> be included, each
carrying a separate ECT in JWS Compact Serialization format.</t>
<t>When a receiver processes multiple Execution-Context headers, it
<bcp14>MUST</bcp14> individually verify each ECT per the procedure in
<xref target="verification"/>. If any single ECT fails verification, the
receiver <bcp14>MUST</bcp14> reject the entire request. The set of verified
parent task IDs across all received ECTs represents the complete
set of parent dependencies available for the receiving agent's
subsequent ECT.</t>
</section>
</section>
<section anchor="dag-validation"><name>DAG Validation</name>
<section anchor="overview"><name>Overview</name>
<t>ECTs form a Directed Acyclic Graph (DAG) where each task
references its parent tasks via the "par" claim. This structure
provides a cryptographically signed record of execution ordering,
enabling auditors to reconstruct the complete workflow and verify
that required predecessor tasks were recorded before dependent
tasks.</t>
<t>DAG validation is performed against the audit ledger, which
serves as the authoritative store of previously verified ECTs.</t>
</section>
<section anchor="validation-rules"><name>Validation Rules</name>
<t>When receiving and verifying an ECT, implementations <bcp14>MUST</bcp14> perform
the following DAG validation steps:</t>
<t><list style="numbers" type="1">
<t>Task ID Uniqueness: The "jti" claim <bcp14>MUST</bcp14> be unique within the
applicable scope (the workflow identified by "wid", or the
entire ECT store if "wid" is absent). If an ECT with the same
"jti" already exists, the ECT <bcp14>MUST</bcp14> be rejected.</t>
<t>Parent Existence: Every task identifier listed in the "par"
array <bcp14>MUST</bcp14> correspond to a task that is available in the ECT
store (either previously recorded in the ledger or received
inline as a verified parent ECT). If any parent task is not
found, the ECT <bcp14>MUST</bcp14> be rejected.</t>
<t>Temporal Ordering: The "iat" value of every parent task <bcp14>MUST
NOT</bcp14> be greater than the "iat" value of the current task plus a
configurable clock skew tolerance (<bcp14>RECOMMENDED</bcp14>: 30 seconds).
That is, for each parent: <spanx style="verb">parent.iat &lt; child.iat +
clock_skew_tolerance</spanx>. The tolerance accounts for clock skew
between agents; it does not guarantee strict causal ordering
from timestamps alone. Causal ordering is primarily enforced
by the DAG structure (parent existence in the ECT store), not by
timestamps. If any parent task violates this constraint, the
ECT <bcp14>MUST</bcp14> be rejected.</t>
<t>Acyclicity: Following the chain of parent references <bcp14>MUST NOT</bcp14>
lead back to the current ECT's "jti". If a cycle is detected,
the ECT <bcp14>MUST</bcp14> be rejected.</t>
<t>Parent Policy Decision: If any parent ECT contains a
"pol_decision" of "rejected" or "pending_human_review", the
current ECT's "exec_act" <bcp14>MUST</bcp14> indicate a compensation,
rollback, remediation, or human review action.
Implementations <bcp14>MUST NOT</bcp14> accept an ECT representing normal
workflow continuation when a parent's "pol_decision" is not
"approved", unless the current ECT has "compensation_required"
set to true. This rule only applies when the parent ECT
contains policy claims.</t>
<t>Trust Domain Consistency: Parent tasks <bcp14>SHOULD</bcp14> belong to the
same trust domain or to a trust domain with which a federation
relationship has been established.</t>
</list></t>
</section>
<section anchor="dag-validation-algorithm"><name>DAG Validation Algorithm</name>
<t>The following pseudocode describes the DAG validation procedure:</t>
<figure title="DAG Validation Pseudocode" anchor="fig-dag-validation"><sourcecode type="pseudocode"><![CDATA[
function validate_dag(ect, ledger, clock_skew_tolerance):
// Step 1: Uniqueness check
if ledger.contains(ect.jti, ect.wid):
return error("ECT ID already exists")
// Step 2: Parent existence and temporal ordering
for parent_id in ect.par:
parent = ledger.get(parent_id)
if parent is null:
return error("Parent task not found: " + parent_id)
if parent.iat >= ect.iat + clock_skew_tolerance:
return error("Parent task not earlier than current")
// Step 3: Cycle detection (with traversal limit)
visited = set()
result = has_cycle(ect.jti, ect.par, ledger, visited,
max_ancestor_limit)
if result is error or result is true:
return error("Circular dependency or depth limit exceeded")
return success
function has_cycle(target_jti, parent_ids, ledger,
visited, max_depth):
if visited.size() >= max_depth:
return error("Maximum ancestor traversal limit exceeded")
for parent_id in parent_ids:
if parent_id == target_jti:
return true
if parent_id in visited:
continue
visited.add(parent_id)
parent = ledger.get(parent_id)
if parent is not null:
result = has_cycle(target_jti, parent.par, ledger,
visited, max_depth)
if result is error or result is true:
return result
return false
]]></sourcecode></figure>
<t>The cycle detection traverses the ancestor graph rooted at the
current task's parents. The complexity is O(V) where V is the
number of ancestor nodes reachable from the current task's parent
references. For typical workflows with shallow DAGs, this is
efficient. To prevent denial-of-service via extremely deep or
wide DAGs, implementations <bcp14>SHOULD</bcp14> enforce a maximum ancestor
traversal limit (<bcp14>RECOMMENDED</bcp14>: 10000 nodes). If the limit is
reached before cycle detection completes, the ECT <bcp14>SHOULD</bcp14> be
rejected. Implementations <bcp14>SHOULD</bcp14> cache cycle detection results
for previously verified tasks to avoid redundant traversals.</t>
</section>
</section>
<section anchor="verification"><name>Signature and Token Verification</name>
<section anchor="verification-procedure"><name>Verification Procedure</name>
<t>When an agent receives an ECT, it <bcp14>MUST</bcp14> perform the following
verification steps in order:</t>
<t><list style="numbers" type="1">
<t>Parse the JWS Compact Serialization to extract the JOSE header,
payload, and signature components per <xref target="RFC7515"/>.</t>
<t>Verify that the "typ" header parameter is "wimse-exec+jwt".</t>
<t>Verify that the "alg" header parameter is not "none" and is
not a symmetric algorithm.</t>
<t>Verify the "kid" header parameter references a known, valid
public key from a WIT within the trust domain.</t>
<t>Retrieve the public key identified by "kid" and verify the JWS
signature per <xref target="RFC7515"/> Section 5.2.</t>
<t>Verify that the signing key identified by "kid" has not been
revoked within the trust domain. Implementations <bcp14>MUST</bcp14> check
the key's revocation status using the trust domain's key
lifecycle mechanism (e.g., certificate revocation list, OCSP,
or SPIFFE trust bundle updates).</t>
<t>Verify the "alg" header parameter matches the algorithm in the
corresponding WIT.</t>
<t>Verify the "iss" claim matches the "sub" claim of the WIT
associated with the "kid" public key.</t>
<t>Verify the "aud" claim contains the verifier's own workload
identity. When "aud" is an array, it is sufficient that the
verifier's identity appears as one element; the presence of
other audience values does not cause verification failure.
When the verifier is the audit ledger, the ledger's own
identity <bcp14>MUST</bcp14> appear in "aud".</t>
<t>Verify the "exp" claim indicates the ECT has not expired.</t>
<t>Verify the "iat" claim is not unreasonably far in the past
(implementation-specific threshold, <bcp14>RECOMMENDED</bcp14> maximum of
15 minutes) and is not unreasonably far in the future
(<bcp14>RECOMMENDED</bcp14>: no more than 30 seconds ahead of the
verifier's current time, to account for clock skew).</t>
<t>Verify all required claims ("jti", "exec_act", "par") are
present and well-formed.</t>
<t>If "pol" or "pol_decision" is present, verify that both are
present and that "pol_decision" is one of "approved",
"rejected", or "pending_human_review".</t>
<t>Perform DAG validation per <xref target="dag-validation"/>.</t>
<t>If all checks pass, the ECT <bcp14>MUST</bcp14> be appended to the audit
ledger.</t>
</list></t>
<t>If any verification step fails, the ECT <bcp14>MUST</bcp14> be rejected and the
failure <bcp14>MUST</bcp14> be logged for audit purposes. Error messages
<bcp14>SHOULD NOT</bcp14> reveal whether specific parent task IDs exist in the
ledger, to prevent information disclosure.</t>
<t>When ECT verification fails during HTTP request processing, the
receiving agent <bcp14>SHOULD</bcp14> respond with HTTP 403 (Forbidden) if the
WIT is valid but the ECT is invalid, and HTTP 401
(Unauthorized) if the ECT signature verification fails. The
response body <bcp14>SHOULD</bcp14> include a generic error indicator without
revealing which specific verification step failed. The receiving
agent <bcp14>MUST NOT</bcp14> process the requested action when ECT verification
fails.</t>
</section>
<section anchor="verification-pseudocode"><name>Verification Pseudocode</name>
<figure title="ECT Verification Pseudocode" anchor="fig-verification"><sourcecode type="pseudocode"><![CDATA[
function verify_ect(ect_jws, verifier_id,
trust_domain_keys, ledger):
// Parse JWS
(header, payload, signature) = parse_jws(ect_jws)
// Verify header
if header.typ != "wimse-exec+jwt":
return reject("Invalid typ parameter")
if header.alg == "none" or is_symmetric(header.alg):
return reject("Prohibited algorithm")
// Look up public key
public_key = trust_domain_keys.get(header.kid)
if public_key is null:
return reject("Unknown key identifier")
// Verify signature
if not verify_jws_signature(header, payload,
signature, public_key):
return reject("Invalid signature")
// Verify key not revoked
if is_key_revoked(header.kid, trust_domain_keys):
return reject("Signing key has been revoked")
// Verify algorithm alignment
wit = get_wit_for_key(header.kid)
if header.alg != wit.alg:
return reject("Algorithm mismatch with WIT")
// Verify issuer matches WIT subject
if payload.iss != wit.sub:
return reject("Issuer does not match WIT subject")
// Verify audience
if verifier_id not in payload.aud:
return reject("ECT not intended for this recipient")
// Verify not expired
if payload.exp < current_time():
return reject("ECT has expired")
// Verify iat freshness (not too old, not in the future)
if payload.iat < current_time() - max_age_threshold:
return reject("ECT issued too long ago")
if payload.iat > current_time() + clock_skew_tolerance:
return reject("ECT issued in the future")
// Verify required claims
for claim in ["jti", "exec_act", "par"]:
if claim not in payload:
return reject("Missing required claim: " + claim)
// Validate policy claims (optional, but must be paired)
if "pol" in payload or "pol_decision" in payload:
if "pol" not in payload or "pol_decision" not in payload:
return reject("pol and pol_decision must both be present")
if payload.pol_decision not in
["approved", "rejected", "pending_human_review"]:
return reject("Invalid pol_decision value")
// Validate DAG (against ledger or inline parent ECTs)
result = validate_dag(payload, ledger,
clock_skew_tolerance)
if result is error:
return reject("DAG validation failed")
// All checks passed; append to ledger
ledger.append(payload)
return accept
]]></sourcecode></figure>
</section>
</section>
<section anchor="ledger-interface"><name>Audit Ledger Interface</name>
<t>ECTs are designed to be recorded in an immutable audit ledger for
compliance verification and post-hoc analysis. This specification
defines required properties for the ledger but does not mandate
a specific storage technology. Implementations <bcp14>MAY</bcp14> use
append-only logs, databases with cryptographic commitment schemes,
distributed ledgers, or any storage mechanism that provides the
required properties.</t>
<t>An audit ledger implementation <bcp14>MUST</bcp14> provide:</t>
<t><list style="numbers" type="1">
<t>Append-only semantics: Once an ECT is recorded, it <bcp14>MUST NOT</bcp14> be
modified or deleted.</t>
<t>Ordering: The ledger <bcp14>MUST</bcp14> maintain a total ordering of ECT
entries via a monotonically increasing sequence number.</t>
<t>Lookup by ECT ID: The ledger <bcp14>MUST</bcp14> support efficient retrieval
of ECT entries by "jti" value.</t>
<t>Integrity verification: The ledger <bcp14>SHOULD</bcp14> provide a mechanism
to verify that no entries have been tampered with (e.g.,
hash chains or Merkle trees).</t>
</list></t>
<t>The ledger <bcp14>SHOULD</bcp14> be maintained by an entity independent of the
workflow agents to reduce the risk of collusion.</t>
</section>
<section anchor="use-cases"><name>Use Cases</name>
<t>This section describes representative use cases demonstrating how
ECTs provide execution records in regulated environments. These
examples demonstrate ECT mechanics; production deployments would
include additional domain-specific requirements beyond the scope
of this specification.</t>
<t>Note: task identifiers in this section are abbreviated for
readability. In production, all "jti" values are required to be
UUIDs per <xref target="exec-claims"/>.</t>
<section anchor="medical-device-sdlc-workflow"><name>Medical Device SDLC Workflow</name>
<t>In a medical device software development lifecycle (SDLC),
AI agents assist across multiple phases from requirements
analysis through release approval. Regulatory frameworks
including <xref target="FDA-21CFR11"/> Section 11.10(e) and <xref target="EU-MDR"/> require
audit trails documenting the complete development process for
software used in medical devices.</t>
<figure title="Medical Device SDLC Workflow" anchor="fig-medtech-sdlc"><artwork><![CDATA[
Agent A (Spec Reviewer):
jti: task-001 par: []
exec_act: review_requirements_spec
pol: spec_review_policy_v2 pol_decision: approved
Agent B (Code Generator):
jti: task-002 par: [task-001]
exec_act: implement_module
pol: coding_standards_v3 pol_decision: approved
Agent C (Test Agent):
jti: task-003 par: [task-002]
exec_act: execute_test_suite
pol: test_coverage_policy_v1 pol_decision: approved
Agent D (Build Agent):
jti: task-004 par: [task-003]
exec_act: build_release_artifact
pol: build_validation_v2 pol_decision: approved
Human Release Manager:
jti: task-005 par: [task-004]
exec_act: approve_release
pol: release_approval_policy pol_decision: approved
pol_enforcer: spiffe://meddev.example/human/release-mgr-42
ext: {org.ietf.wimse.witnessed_by: [...]} (extension metadata)
]]></artwork></figure>
<t>ECTs record that requirements were reviewed before implementation
began, that tests were executed against the implemented code, that
the build artifact was validated, and that a human release manager
explicitly approved the release. The DAG structure ensures no
phase was skipped or reordered.</t>
<section anchor="fda-audit-with-dag-reconstruction"><name>FDA Audit with DAG Reconstruction</name>
<t>During a regulatory audit, an FDA reviewer requests evidence of
the development process for a specific software release. The
auditing authority retrieves all ECTs sharing the same workflow
identifier ("wid") from the audit ledger and reconstructs the
complete DAG:</t>
<figure title="Reconstructed DAG for FDA Audit" anchor="fig-fda-audit"><artwork><![CDATA[
task-001 (review_requirements_spec)
|
v
task-002 (implement_module)
|
v
task-003 (execute_test_suite)
|
v
task-004 (build_release_artifact)
|
v
task-005 (approve_release) [human, witnessed]
]]></artwork></figure>
<t>The reconstructed DAG provides cryptographic evidence that:</t>
<t><list style="symbols">
<t>Each phase was executed by an identified and authenticated agent.</t>
<t>Policy checkpoints were evaluated at every phase transition.</t>
<t>The execution sequence was maintained (no step was bypassed).</t>
<t>A human-in-the-loop approved the final release, with independent
witness attestation.</t>
<t>Timestamps and execution durations are recorded for each step.</t>
</list></t>
<t>This can contribute to compliance with:</t>
<t><list style="symbols">
<t><xref target="FDA-21CFR11"/> Section 11.10(e): Computer-generated audit trails
that record the date, time, and identity of the operator.</t>
<t><xref target="EU-MDR"/> Annex II: Technical documentation traceability for the
software development lifecycle.</t>
<t><xref target="EU-AI-ACT"/> Article 12: Automatic logging capabilities for
high-risk AI systems involved in the development process.</t>
<t><xref target="EU-AI-ACT"/> Article 14: ECTs can record evidence that human
oversight events occurred during the release process.</t>
</list></t>
</section>
</section>
<section anchor="financial-trading-workflow"><name>Financial Trading Workflow</name>
<t>In a financial trading workflow, agents perform risk assessment,
compliance verification, and trade execution. The DAG structure
records that compliance checks were evaluated before trade
execution.</t>
<figure title="Financial Trading Workflow" anchor="fig-finance"><artwork><![CDATA[
Agent A (Risk Assessment):
jti: task-001 par: []
exec_act: calculate_risk_exposure
pol: risk_limits_policy_v2 pol_decision: approved
Agent B (Compliance):
jti: task-002 par: [task-001]
exec_act: verify_compliance
pol: compliance_check_v1 pol_decision: approved
Agent C (Execution):
jti: task-003 par: [task-002]
exec_act: execute_trade
pol: execution_policy_v3 pol_decision: approved
]]></artwork></figure>
<t>This can contribute to compliance with:</t>
<t><list style="symbols">
<t><xref target="MIFID-II"/>: ECTs provide cryptographic records of the execution
sequence that can support transaction audit requirements.</t>
<t><xref target="DORA"/> Article 12: ECTs contribute to ICT activity logging.</t>
<t><xref target="EU-AI-ACT"/> Article 12: Logging of decisions made by AI-driven
systems.</t>
</list></t>
</section>
<section anchor="compensation-and-rollback"><name>Compensation and Rollback</name>
<t>When a compliance violation is discovered after execution, ECTs
provide a mechanism to record authorized compensation actions with
a cryptographic link to the original task:</t>
<figure title="Compensation ECT Example" anchor="fig-compensation"><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://bank.example/agent/operations",
"sub": "spiffe://bank.example/agent/operations",
"aud": "spiffe://bank.example/system/ledger",
"iat": 1772150550,
"exp": 1772151150,
"jti": "550e8400-e29b-41d4-a716-446655440099",
"wid": "d3e4f5a6-b7c8-9012-def0-123456789012",
"exec_act": "initiate_trade_rollback",
"par": ["550e8400-e29b-41d4-a716-446655440003"],
"pol": "compensation_policy_v1",
"pol_decision": "approved",
"pol_enforcer": "spiffe://bank.example/human/compliance-officer",
"compensation_required": true,
"compensation_reason": "policy_violation_in_parent_trade"
}
]]></sourcecode></figure>
<t>The "par" claim links the compensation action to the original
trade, creating an auditable chain from execution through
violation discovery to remediation.</t>
</section>
<section anchor="autonomous-logistics-coordination"><name>Autonomous Logistics Coordination</name>
<t>In a logistics workflow, multiple compliance checks complete
before shipment commitment. The DAG structure records that all
required checks were completed:</t>
<figure title="Logistics Workflow with Parallel Tasks" anchor="fig-logistics"><artwork><![CDATA[
Agent A (Route Planning):
jti: task-001 par: []
exec_act: plan_route
pol: route_policy_v1 pol_decision: approved
Agent B (Customs):
jti: task-002 par: [task-001]
exec_act: validate_customs
pol: customs_policy_v2 pol_decision: approved
Agent C (Safety):
jti: task-003 par: [task-001]
exec_act: verify_cargo_safety
pol: safety_policy_v1 pol_decision: approved
Agent D (Payment):
jti: task-004 par: [task-002, task-003]
exec_act: authorize_payment
pol: payment_policy_v3 pol_decision: approved
System (Commitment):
jti: task-005 par: [task-004]
exec_act: commit_shipment
pol: commitment_policy_v1 pol_decision: approved
]]></artwork></figure>
<t>Note that tasks 002 and 003 both depend only on task-001 and can
execute in parallel. Task 004 depends on both, demonstrating the
DAG's ability to represent parallel execution with a join point.</t>
</section>
</section>
<section anchor="security-considerations"><name>Security Considerations</name>
<t>This section addresses security considerations following the
guidance in <xref target="RFC3552"/>.</t>
<section anchor="threat-model"><name>Threat Model</name>
<t>The following threat actors are considered:</t>
<t><list style="symbols">
<t>Malicious agent (insider threat): An agent within the trust
domain that intentionally creates false ECT claims.</t>
<t>Compromised agent (external attacker): An agent whose private
key has been obtained by an external attacker.</t>
<t>Ledger tamperer: An entity attempting to modify or delete ledger
entries after they have been recorded.</t>
<t>Time manipulator: An entity attempting to manipulate timestamps
to alter perceived execution ordering.</t>
</list></t>
</section>
<section anchor="self-assertion-limitation"><name>Self-Assertion Limitation</name>
<t>ECTs are self-asserted by the executing agent. The agent claims
what it did, and this claim is signed with its private key. A
compromised or malicious agent could create ECTs with false claims
(e.g., setting "pol_decision" to "approved" without actually
evaluating the policy).</t>
<t>ECTs do not independently verify that:</t>
<t><list style="symbols">
<t>The claimed execution actually occurred as described</t>
<t>The policy evaluation was correctly performed</t>
<t>The input/output hashes correspond to the actual data processed</t>
<t>The agent faithfully performed the stated action</t>
</list></t>
<t>The trustworthiness of ECT claims depends on the trustworthiness
of the signing agent. To mitigate single-agent false claims,
regulated environments <bcp14>SHOULD</bcp14> use the "org.ietf.wimse.witnessed_by"
extension key (carried in "ext") to include independent
third-party observers at critical decision points. However,
this value is self-asserted by the ECT issuer: the listed
witnesses do not co-sign the ECT and there is no cryptographic
evidence within a single ECT that the witnesses actually
observed the task. An issuing agent could list witnesses that
did not participate.</t>
<section anchor="witness-attestation-model"><name>Witness Attestation Model</name>
<t>To address the self-assertion limitation of the
"org.ietf.wimse.witnessed_by" extension, witnesses <bcp14>SHOULD</bcp14> submit their
own independent signed ECTs to the audit ledger attesting to the
observed task. A witness attestation ECT:</t>
<t><list style="symbols">
<t><bcp14>MUST</bcp14> set "iss" to the witness's own workload identity.</t>
<t><bcp14>MUST</bcp14> set "exec_act" to "witness_attestation" (or a domain-
specific equivalent).</t>
<t><bcp14>MUST</bcp14> include the observed task's "jti" in the "par" array,
linking the attestation to the original task.</t>
<t><bcp14>MUST</bcp14> set "pol_decision" to "approved" to indicate the witness
confirms the observation.</t>
</list></t>
<t>When a task's "org.ietf.wimse.witnessed_by" extension lists one or more
witnesses, auditors <bcp14>SHOULD</bcp14> verify that corresponding witness
attestation ECTs exist in the ledger for each listed witness. A
mismatch between the extension value and the set of independent
witness ECTs in the ledger <bcp14>SHOULD</bcp14> be flagged during audit review.</t>
<t>This model converts witness attestation from a self-asserted claim
to a cryptographically verifiable property of the ledger: the
witness independently signs their own ECT using their own key,
and the ledger records both the original task ECT and the witness
attestation ECTs.</t>
</section>
</section>
<section anchor="organizational-prerequisites"><name>Organizational Prerequisites</name>
<t>ECTs operate within a broader trust framework. The guarantees
provided by ECTs are only meaningful when the following
organizational controls are in place:</t>
<t><list style="symbols">
<t>Key management governance: Controls over who provisions agent
keys and how keys are protected.</t>
<t>Ledger integrity governance: The ledger is maintained by an
entity independent of the workflow agents.</t>
<t>Policy lifecycle management: Policy identifiers in ECTs map to
actual, validated policy rules.</t>
<t>Agent deployment governance: Agents are deployed and maintained
in a manner that preserves their integrity.</t>
</list></t>
</section>
<section anchor="signature-verification"><name>Signature Verification</name>
<t>ECTs <bcp14>MUST</bcp14> be signed with the agent's private key using JWS
<xref target="RFC7515"/>. The signature algorithm <bcp14>MUST</bcp14> match the algorithm
specified in the agent's WIT. Receivers <bcp14>MUST</bcp14> verify the ECT
signature against the WIT public key before processing any
claims. Receivers <bcp14>MUST</bcp14> verify that the signing key has not been
revoked within the trust domain (see step 6 in
<xref target="verification"/>).</t>
<t>If signature verification fails or if the signing key has been
revoked, the ECT <bcp14>MUST</bcp14> be rejected entirely and the failure <bcp14>MUST</bcp14>
be logged.</t>
<t>Implementations <bcp14>MUST</bcp14> use established JWS libraries and <bcp14>MUST NOT</bcp14>
implement custom signature verification.</t>
</section>
<section anchor="replay-attack-prevention"><name>Replay Attack Prevention</name>
<t>ECTs include short expiration times (<bcp14>RECOMMENDED</bcp14>: 5-15 minutes) to
limit the window for replay attacks. The "aud" claim restricts
replay to unintended recipients: an ECT intended for Agent B
will be rejected by Agent C. The "iat" claim enables receivers to
reject ECTs that are too old, even if not yet expired.</t>
<t>The DAG structure provides additional replay protection: an ECT
referencing parent tasks that already have a recorded child task
with the same action can be flagged as a potential replay.</t>
<t>Implementations <bcp14>MUST</bcp14> maintain a cache of recently-seen "jti"
values to detect replayed ECTs within the expiration window.
An ECT with a duplicate "jti" value <bcp14>MUST</bcp14> be rejected.</t>
</section>
<section anchor="man-in-the-middle-protection"><name>Man-in-the-Middle Protection</name>
<t>ECTs do not replace transport-layer security. ECTs <bcp14>MUST</bcp14> be
transmitted over TLS or mTLS connections. When used with the WIMSE
service-to-service protocol <xref target="I-D.ietf-wimse-s2s-protocol"/>,
transport security is already established. HTTP Message Signatures
<xref target="RFC9421"/> provide an alternative channel binding mechanism.</t>
<t>The defense-in-depth model provides:</t>
<t><list style="symbols">
<t>TLS/mTLS (transport layer): Prevents network-level tampering.</t>
<t>WIT/WPT (WIMSE identity layer): Proves agent identity and
request authorization.</t>
<t>ECT (execution accountability layer): Records what the agent did
and under what policy.</t>
</list></t>
</section>
<section anchor="key-compromise"><name>Key Compromise</name>
<t>If an agent's private key is compromised, an attacker can forge
ECTs that appear to originate from that agent. To mitigate this
risk:</t>
<t><list style="symbols">
<t>Implementations <bcp14>SHOULD</bcp14> use short-lived keys and rotate them
frequently (hours to days, not months).</t>
<t>Private keys <bcp14>SHOULD</bcp14> be stored in Hardware Security Modules (HSMs)
or equivalent secure key storage.</t>
<t>Trust domains <bcp14>MUST</bcp14> support rapid key revocation.</t>
<t>Upon suspected compromise, the trust domain <bcp14>MUST</bcp14> revoke the
compromised key and issue a new WIT with a fresh key pair.</t>
</list></t>
<t>ECTs signed with a compromised key that were recorded in the
ledger before revocation remain valid historical records but <bcp14>SHOULD</bcp14>
be flagged in the ledger as "signed with subsequently revoked key"
for audit purposes.</t>
</section>
<section anchor="collusion-and-false-claims"><name>Collusion and False Claims</name>
<t>A single malicious agent cannot forge parent task references
because DAG validation requires parent tasks to exist in the
ledger. However, multiple colluding agents could potentially
create a false execution history if they control the ledger.</t>
<t>Mitigations include:</t>
<t><list style="symbols">
<t>Independent ledger maintenance: The ledger <bcp14>SHOULD</bcp14> be maintained
by an entity independent of the workflow agents.</t>
<t>Witness attestation: Using the "org.ietf.wimse.witnessed_by" extension
key in "ext" to include independent third-party observers.</t>
<t>Cross-verification: Multiple independent ledger replicas can be
compared for consistency.</t>
<t>Out-of-band audit: External auditors periodically verify ledger
contents against expected workflow patterns.</t>
</list></t>
</section>
<section anchor="denial-of-service"><name>Denial of Service</name>
<t>ECT signature verification is computationally inexpensive
(approximately 1ms per ECT on modern hardware for ES256). DAG
validation complexity is O(V) where V is the number of ancestor
nodes reachable from the parent references; for typical shallow
DAGs this is efficient.</t>
<t>Implementations <bcp14>SHOULD</bcp14> apply rate limiting at the API layer to
prevent excessive ECT submissions. DAG validation <bcp14>SHOULD</bcp14> be
performed after signature verification to avoid wasting resources
on unsigned or incorrectly signed tokens.</t>
</section>
<section anchor="timestamp-accuracy"><name>Timestamp Accuracy</name>
<t>ECTs rely on timestamps ("iat", "exp") for temporal ordering.
Clock skew between agents can lead to incorrect ordering
judgments. Implementations <bcp14>SHOULD</bcp14> use synchronized time sources
(e.g., NTP) and <bcp14>SHOULD</bcp14> allow a configurable clock skew tolerance
(<bcp14>RECOMMENDED</bcp14>: 30 seconds).</t>
<t>Cross-organizational deployments where agents span multiple trust
domains with independent time sources <bcp14>MAY</bcp14> require a higher clock
skew tolerance. Deployments using trust domain federation <bcp14>SHOULD</bcp14>
document their configured clock skew tolerance value and <bcp14>SHOULD</bcp14>
ensure all participating trust domains agree on a common tolerance.</t>
<t>The temporal ordering check in DAG validation incorporates the
clock skew tolerance to account for minor clock differences
between agents.</t>
</section>
<section anchor="ect-size-constraints"><name>ECT Size Constraints</name>
<t>ECTs with many parent tasks or large extension objects can
increase HTTP header size. Implementations <bcp14>SHOULD</bcp14> limit the "par"
array to a maximum of 256 entries. Workflows requiring more
parent references <bcp14>SHOULD</bcp14> introduce intermediate aggregation
tasks. The "ext" object <bcp14>SHOULD NOT</bcp14> exceed 4096 bytes when
serialized as JSON and <bcp14>SHOULD NOT</bcp14> exceed a nesting depth of
5 levels (see also <xref target="extension-claims"/>).</t>
</section>
</section>
<section anchor="privacy-considerations"><name>Privacy Considerations</name>
<section anchor="data-exposure-in-ects"><name>Data Exposure in ECTs</name>
<t>ECTs necessarily reveal:</t>
<t><list style="symbols">
<t>Agent identities ("iss", "aud") for accountability purposes</t>
<t>Action descriptions ("exec_act") for audit trail completeness</t>
<t>Policy evaluation outcomes ("pol", "pol_decision") for
compliance verification</t>
<t>Timestamps ("iat", "exp") for temporal ordering</t>
</list></t>
<t>ECTs are designed to NOT reveal:</t>
<t><list style="symbols">
<t>Actual input or output data values (replaced with cryptographic
hashes via "inp_hash" and "out_hash")</t>
<t>Internal computation details or intermediate steps</t>
<t>Proprietary algorithms or intellectual property</t>
<t>Personally identifiable information (PII)</t>
</list></t>
</section>
<section anchor="data-minimization"><name>Data Minimization</name>
<t>Implementations <bcp14>SHOULD</bcp14> minimize the information included in ECTs.
The "exec_act" claim <bcp14>SHOULD</bcp14> use structured identifiers (e.g.,
"process_payment") rather than natural language descriptions.
The "pol" claim <bcp14>SHOULD</bcp14> reference policy identifiers rather than
embedding policy content.</t>
<t>The "compensation_reason" claim (<xref target="compensation-claims"/>)
deserves particular attention: because it is human-readable and
may describe the circumstances of a failure or policy violation,
it risks exposing sensitive operational details. Implementations
<bcp14>SHOULD</bcp14> use short, structured reason codes (e.g.,
"policy_violation_in_parent_trade") rather than free-form
natural language explanations. Implementers <bcp14>SHOULD</bcp14> review
"compensation_reason" values for potential information leakage
before deploying to production.</t>
</section>
<section anchor="storage-and-access-control"><name>Storage and Access Control</name>
<t>ECTs stored in audit ledgers <bcp14>SHOULD</bcp14> be access-controlled so that
only authorized auditors and regulators can read them.
Implementations <bcp14>SHOULD</bcp14> consider encryption at rest for ledger
storage containing sensitive regulatory data.</t>
<t>Full input and output data (corresponding to the hashes in ECTs)
<bcp14>SHOULD</bcp14> be stored separately from the ledger with additional access
controls, since auditors may need to verify hash correctness but
general access to the data values is not needed.</t>
</section>
<section anchor="regulatory-access"><name>Regulatory Access</name>
<t>ECTs are designed for interpretation by qualified human auditors
and regulators. ECTs provide structural records of execution
ordering and policy evaluation; they are not intended for public
disclosure.</t>
</section>
</section>
<section anchor="iana-considerations"><name>IANA Considerations</name>
<section anchor="media-type-registration"><name>Media Type Registration</name>
<t>This document requests registration of the following media type
in the "Media Types" registry maintained by IANA:</t>
<dl>
<dt>Type name:</dt>
<dd>
<t>application</t>
</dd>
<dt>Subtype name:</dt>
<dd>
<t>wimse-exec+jwt</t>
</dd>
<dt>Required parameters:</dt>
<dd>
<t>none</t>
</dd>
<dt>Optional parameters:</dt>
<dd>
<t>none</t>
</dd>
<dt>Encoding considerations:</dt>
<dd>
<t>8bit; an ECT is a JWT that is a JWS using the Compact
Serialization, which is a sequence of Base64url-encoded values
separated by period characters.</t>
</dd>
<dt>Security considerations:</dt>
<dd>
<t>See the Security Considerations section of this document.</t>
</dd>
<dt>Interoperability considerations:</dt>
<dd>
<t>none</t>
</dd>
<dt>Published specification:</dt>
<dd>
<t>This document</t>
</dd>
<dt>Applications that use this media type:</dt>
<dd>
<t>Applications that implement regulated agentic workflows requiring
execution context tracing and audit trails.</t>
</dd>
<dt>Additional information:</dt>
<dd>
<t>Magic number(s): none
File extension(s): none
Macintosh file type code(s): none</t>
</dd>
<dt>Person and email address to contact for further information:</dt>
<dd>
<t>Christian Nennemann, ietf@nennemann.de</t>
</dd>
<dt>Intended usage:</dt>
<dd>
<t>COMMON</t>
</dd>
<dt>Restrictions on usage:</dt>
<dd>
<t>none</t>
</dd>
<dt>Author:</dt>
<dd>
<t>Christian Nennemann</t>
</dd>
<dt>Change controller:</dt>
<dd>
<t>IETF</t>
</dd>
</dl>
</section>
<section anchor="header-registration"><name>HTTP Header Field Registration</name>
<t>This document requests registration of the following header field
in the "Hypertext Transfer Protocol (HTTP) Field Name Registry"
maintained by IANA:</t>
<dl>
<dt>Field name:</dt>
<dd>
<t>Execution-Context</t>
</dd>
<dt>Status:</dt>
<dd>
<t>permanent</t>
</dd>
<dt>Specification document:</dt>
<dd>
<t>This document, <xref target="http-header"/></t>
</dd>
</dl>
</section>
<section anchor="claims-registration"><name>JWT Claims Registration</name>
<t>This document requests registration of the following claims in
the "JSON Web Token Claims" registry maintained by IANA:</t>
<texttable title="JWT Claims Registrations" anchor="_table-claims">
<ttcol align='center'>Claim Name</ttcol>
<ttcol align='left'>Claim Description</ttcol>
<ttcol align='center'>Change Controller</ttcol>
<ttcol align='center'>Reference</ttcol>
<c>wid</c>
<c>Workflow Identifier</c>
<c>IETF</c>
<c><xref target="exec-claims"/></c>
<c>exec_act</c>
<c>Action/Task Type</c>
<c>IETF</c>
<c><xref target="exec-claims"/></c>
<c>par</c>
<c>Parent Task Identifiers</c>
<c>IETF</c>
<c><xref target="exec-claims"/></c>
<c>pol</c>
<c>Policy Rule Identifier</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
<c>pol_decision</c>
<c>Policy Decision Result</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
<c>pol_enforcer</c>
<c>Policy Enforcer Identity</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
<c>inp_hash</c>
<c>Input Data Hash</c>
<c>IETF</c>
<c><xref target="data-integrity-claims"/></c>
<c>out_hash</c>
<c>Output Data Hash</c>
<c>IETF</c>
<c><xref target="data-integrity-claims"/></c>
<c>compensation_required</c>
<c>Compensation Flag</c>
<c>IETF</c>
<c><xref target="compensation-claims"/></c>
<c>compensation_reason</c>
<c>Compensation Reason</c>
<c>IETF</c>
<c><xref target="compensation-claims"/></c>
<c>ext</c>
<c>Extension Object</c>
<c>IETF</c>
<c><xref target="extension-claims"/></c>
</texttable>
</section>
<section anchor="pol-decision-registry"><name>ECT Policy Decision Values Registry</name>
<t>This document establishes the "ECT Policy Decision Values"
registry under the "JSON Web Token (JWT)" group. Registration
policy is Specification Required per <xref target="RFC8126"/>.</t>
<t>The initial contents of the registry are:</t>
<texttable title="ECT Policy Decision Values" anchor="_table-pol-decision">
<ttcol align='center'>Value</ttcol>
<ttcol align='left'>Description</ttcol>
<ttcol align='center'>Change Controller</ttcol>
<ttcol align='center'>Reference</ttcol>
<c>approved</c>
<c>Policy evaluation succeeded</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
<c>rejected</c>
<c>Policy evaluation failed</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
<c>pending_human_review</c>
<c>Awaiting human judgment</c>
<c>IETF</c>
<c><xref target="policy-claims"/></c>
</texttable>
</section>
</section>
</middle>
<back>
<references title='References' anchor="sec-combined-references">
<references title='Normative References' anchor="sec-normative-references">
<reference anchor="RFC7515">
<front>
<title>JSON Web Signature (JWS)</title>
<author fullname="M. Jones" initials="M." surname="Jones"/>
<author fullname="J. Bradley" initials="J." surname="Bradley"/>
<author fullname="N. Sakimura" initials="N." surname="Sakimura"/>
<date month="May" year="2015"/>
<abstract>
<t>JSON Web Signature (JWS) represents content secured with digital signatures or Message Authentication Codes (MACs) using JSON-based data structures. Cryptographic algorithms and identifiers for use with this specification are described in the separate JSON Web Algorithms (JWA) specification and an IANA registry defined by that specification. Related encryption capabilities are described in the separate JSON Web Encryption (JWE) specification.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7515"/>
<seriesInfo name="DOI" value="10.17487/RFC7515"/>
</reference>
<reference anchor="RFC7517">
<front>
<title>JSON Web Key (JWK)</title>
<author fullname="M. Jones" initials="M." surname="Jones"/>
<date month="May" year="2015"/>
<abstract>
<t>A JSON Web Key (JWK) is a JavaScript Object Notation (JSON) data structure that represents a cryptographic key. This specification also defines a JWK Set JSON data structure that represents a set of JWKs. Cryptographic algorithms and identifiers for use with this specification are described in the separate JSON Web Algorithms (JWA) specification and IANA registries established by that specification.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7517"/>
<seriesInfo name="DOI" value="10.17487/RFC7517"/>
</reference>
<reference anchor="RFC7519">
<front>
<title>JSON Web Token (JWT)</title>
<author fullname="M. Jones" initials="M." surname="Jones"/>
<author fullname="J. Bradley" initials="J." surname="Bradley"/>
<author fullname="N. Sakimura" initials="N." surname="Sakimura"/>
<date month="May" year="2015"/>
<abstract>
<t>JSON Web Token (JWT) is a compact, URL-safe means of representing claims to be transferred between two parties. The claims in a JWT are encoded as a JSON object that is used as the payload of a JSON Web Signature (JWS) structure or as the plaintext of a JSON Web Encryption (JWE) structure, enabling the claims to be digitally signed or integrity protected with a Message Authentication Code (MAC) and/or encrypted.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7519"/>
<seriesInfo name="DOI" value="10.17487/RFC7519"/>
</reference>
<reference anchor="RFC7518">
<front>
<title>JSON Web Algorithms (JWA)</title>
<author fullname="M. Jones" initials="M." surname="Jones"/>
<date month="May" year="2015"/>
<abstract>
<t>This specification registers cryptographic algorithms and identifiers to be used with the JSON Web Signature (JWS), JSON Web Encryption (JWE), and JSON Web Key (JWK) specifications. It defines several IANA registries for these identifiers.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7518"/>
<seriesInfo name="DOI" value="10.17487/RFC7518"/>
</reference>
<reference anchor="RFC9562">
<front>
<title>Universally Unique IDentifiers (UUIDs)</title>
<author fullname="K. Davis" initials="K." surname="Davis"/>
<author fullname="B. Peabody" initials="B." surname="Peabody"/>
<author fullname="P. Leach" initials="P." surname="Leach"/>
<date month="May" year="2024"/>
<abstract>
<t>This specification defines UUIDs (Universally Unique IDentifiers) --
also known as GUIDs (Globally Unique IDentifiers) -- and a Uniform
Resource Name namespace for UUIDs. A UUID is 128 bits long and is
intended to guarantee uniqueness across space and time. UUIDs were
originally used in the Apollo Network Computing System (NCS), later
in the Open Software Foundation's (OSF's) Distributed Computing
Environment (DCE), and then in Microsoft Windows platforms.</t>
<t>This specification is derived from the OSF DCE specification with the
kind permission of the OSF (now known as "The Open Group"). Information from earlier versions of the OSF DCE specification have
been incorporated into this document. This document obsoletes RFC
4122.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="9562"/>
<seriesInfo name="DOI" value="10.17487/RFC9562"/>
</reference>
<reference anchor="RFC9110">
<front>
<title>HTTP Semantics</title>
<author fullname="R. Fielding" initials="R." role="editor" surname="Fielding"/>
<author fullname="M. Nottingham" initials="M." role="editor" surname="Nottingham"/>
<author fullname="J. Reschke" initials="J." role="editor" surname="Reschke"/>
<date month="June" year="2022"/>
<abstract>
<t>The Hypertext Transfer Protocol (HTTP) is a stateless application-level protocol for distributed, collaborative, hypertext information systems. This document describes the overall architecture of HTTP, establishes common terminology, and defines aspects of the protocol that are shared by all versions. In this definition are core protocol elements, extensibility mechanisms, and the "http" and "https" Uniform Resource Identifier (URI) schemes.</t>
<t>This document updates RFC 3864 and obsoletes RFCs 2818, 7231, 7232, 7233, 7235, 7538, 7615, 7694, and portions of 7230.</t>
</abstract>
</front>
<seriesInfo name="STD" value="97"/>
<seriesInfo name="RFC" value="9110"/>
<seriesInfo name="DOI" value="10.17487/RFC9110"/>
</reference>
<reference anchor="I-D.ietf-wimse-arch">
<front>
<title>Workload Identity in a Multi System Environment (WIMSE) Architecture</title>
<author fullname="Joseph A. Salowey" initials="J. A." surname="Salowey">
<organization>CyberArk</organization>
</author>
<author fullname="Yaroslav Rosomakho" initials="Y." surname="Rosomakho">
<organization>Zscaler</organization>
</author>
<author fullname="Hannes Tschofenig" initials="H." surname="Tschofenig">
<organization>University of Applied Sciences Bonn-Rhein-Sieg</organization>
</author>
<date day="30" month="September" year="2025"/>
<abstract>
<t> The increasing prevalence of cloud computing and micro service
architectures has led to the rise of complex software functions being
built and deployed as workloads, where a workload is defined as a
running instance of software executing for a specific purpose. This
document discusses an architecture for designing and standardizing
protocols and payloads for conveying workload identity and security
context information.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-ietf-wimse-arch-06"/>
</reference>
<reference anchor="I-D.ietf-wimse-s2s-protocol">
<front>
<title>WIMSE Workload-to-Workload Authentication</title>
<author fullname="Brian Campbell" initials="B." surname="Campbell">
<organization>Ping Identity</organization>
</author>
<author fullname="Joseph A. Salowey" initials="J. A." surname="Salowey">
<organization>CyberArk</organization>
</author>
<author fullname="Arndt Schwenkschuster" initials="A." surname="Schwenkschuster">
<organization>SPIRL</organization>
</author>
<author fullname="Yaron Sheffer" initials="Y." surname="Sheffer">
<organization>Intuit</organization>
</author>
<date day="16" month="October" year="2025"/>
<abstract>
<t> The WIMSE architecture defines authentication and authorization for
software workloads in a variety of runtime environments, from the
most basic ones up to complex multi-service, multi-cloud, multi-
tenant deployments. This document defines the simplest, atomic unit
of this architecture: the protocol between two workloads that need to
verify each other&#x27;s identity in order to communicate securely. The
scope of this protocol is a single HTTP request-and-response pair.
To address the needs of different setups, we propose two protocols,
one at the application level and one that makes use of trusted TLS
transport. These two protocols are compatible, in the sense that a
single call chain can have some calls use one protocol and some use
the other. Workload A can call Workload B with mutual TLS
authentication, while the next call from Workload B to Workload C
would be authenticated at the application level.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-ietf-wimse-s2s-protocol-07"/>
</reference>
<reference anchor="RFC2119">
<front>
<title>Key words for use in RFCs to Indicate Requirement Levels</title>
<author fullname="S. Bradner" initials="S." surname="Bradner"/>
<date month="March" year="1997"/>
<abstract>
<t>In many standards track documents several words are used to signify the requirements in the specification. These words are often capitalized. This document defines these words as they should be interpreted in IETF documents. This document specifies an Internet Best Current Practices for the Internet Community, and requests discussion and suggestions for improvements.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="14"/>
<seriesInfo name="RFC" value="2119"/>
<seriesInfo name="DOI" value="10.17487/RFC2119"/>
</reference>
<reference anchor="RFC8174">
<front>
<title>Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words</title>
<author fullname="B. Leiba" initials="B." surname="Leiba"/>
<date month="May" year="2017"/>
<abstract>
<t>RFC 2119 specifies common key words that may be used in protocol specifications. This document aims to reduce the ambiguity by clarifying that only UPPERCASE usage of the key words have the defined special meanings.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="14"/>
<seriesInfo name="RFC" value="8174"/>
<seriesInfo name="DOI" value="10.17487/RFC8174"/>
</reference>
<reference anchor="RFC8126">
<front>
<title>Guidelines for Writing an IANA Considerations Section in RFCs</title>
<author fullname="M. Cotton" initials="M." surname="Cotton"/>
<author fullname="B. Leiba" initials="B." surname="Leiba"/>
<author fullname="T. Narten" initials="T." surname="Narten"/>
<date month="June" year="2017"/>
<abstract>
<t>Many protocols make use of points of extensibility that use constants to identify various protocol parameters. To ensure that the values in these fields do not have conflicting uses and to promote interoperability, their allocations are often coordinated by a central record keeper. For IETF protocols, that role is filled by the Internet Assigned Numbers Authority (IANA).</t>
<t>To make assignments in a given registry prudently, guidance describing the conditions under which new values should be assigned, as well as when and how modifications to existing values can be made, is needed. This document defines a framework for the documentation of these guidelines by specification authors, in order to assure that the provided guidance for the IANA Considerations is clear and addresses the various issues that are likely in the operation of a registry.</t>
<t>This is the third edition of this document; it obsoletes RFC 5226.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="26"/>
<seriesInfo name="RFC" value="8126"/>
<seriesInfo name="DOI" value="10.17487/RFC8126"/>
</reference>
</references>
<references title='Informative References' anchor="sec-informative-references">
<reference anchor="RFC3552">
<front>
<title>Guidelines for Writing RFC Text on Security Considerations</title>
<author fullname="E. Rescorla" initials="E." surname="Rescorla"/>
<author fullname="B. Korver" initials="B." surname="Korver"/>
<date month="July" year="2003"/>
<abstract>
<t>All RFCs are required to have a Security Considerations section. Historically, such sections have been relatively weak. This document provides guidelines to RFC authors on how to write a good Security Considerations section. This document specifies an Internet Best Current Practices for the Internet Community, and requests discussion and suggestions for improvements.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="72"/>
<seriesInfo name="RFC" value="3552"/>
<seriesInfo name="DOI" value="10.17487/RFC3552"/>
</reference>
<reference anchor="RFC8693">
<front>
<title>OAuth 2.0 Token Exchange</title>
<author fullname="M. Jones" initials="M." surname="Jones"/>
<author fullname="A. Nadalin" initials="A." surname="Nadalin"/>
<author fullname="B. Campbell" initials="B." role="editor" surname="Campbell"/>
<author fullname="J. Bradley" initials="J." surname="Bradley"/>
<author fullname="C. Mortimore" initials="C." surname="Mortimore"/>
<date month="January" year="2020"/>
<abstract>
<t>This specification defines a protocol for an HTTP- and JSON-based Security Token Service (STS) by defining how to request and obtain security tokens from OAuth 2.0 authorization servers, including security tokens employing impersonation and delegation.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="8693"/>
<seriesInfo name="DOI" value="10.17487/RFC8693"/>
</reference>
<reference anchor="RFC9421">
<front>
<title>HTTP Message Signatures</title>
<author fullname="A. Backman" initials="A." role="editor" surname="Backman"/>
<author fullname="J. Richer" initials="J." role="editor" surname="Richer"/>
<author fullname="M. Sporny" initials="M." surname="Sporny"/>
<date month="February" year="2024"/>
<abstract>
<t>This document describes a mechanism for creating, encoding, and verifying digital signatures or message authentication codes over components of an HTTP message. This mechanism supports use cases where the full HTTP message may not be known to the signer and where the message may be transformed (e.g., by intermediaries) before reaching the verifier. This document also describes a means for requesting that a signature be applied to a subsequent HTTP message in an ongoing HTTP exchange.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="9421"/>
<seriesInfo name="DOI" value="10.17487/RFC9421"/>
</reference>
<reference anchor="I-D.ni-wimse-ai-agent-identity">
<front>
<title>WIMSE Applicability for AI Agents</title>
<author fullname="Ni Yuan" initials="N." surname="Yuan">
<organization>Huawei</organization>
</author>
<author fullname="Peter Chunchi Liu" initials="P. C." surname="Liu">
<organization>Huawei</organization>
</author>
<date day="20" month="October" year="2025"/>
<abstract>
<t> This document discusses WIMSE applicability to Agentic AI, so as to
establish independent identities and credential management mechanisms
for AI agents.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-ni-wimse-ai-agent-identity-01"/>
</reference>
<reference anchor="SPIFFE" target="https://spiffe.io/docs/latest/spiffe-about/overview/">
<front>
<title>Secure Production Identity Framework for Everyone (SPIFFE)</title>
<author >
<organization></organization>
</author>
<date />
</front>
</reference>
<reference anchor="EU-AI-ACT" target="https://eur-lex.europa.eu/eli/reg/2024/1689">
<front>
<title>Regulation (EU) 2024/1689 of the European Parliament and of the Council laying down harmonised rules on artificial intelligence (Artificial Intelligence Act)</title>
<author >
<organization>European Parliament and Council of the European Union</organization>
</author>
<date year="2024" month="June" day="13"/>
</front>
</reference>
<reference anchor="FDA-21CFR11" target="https://www.ecfr.gov/current/title-21/chapter-I/subchapter-A/part-11">
<front>
<title>Title 21, Code of Federal Regulations, Part 11: Electronic Records; Electronic Signatures</title>
<author >
<organization>U.S. Food and Drug Administration</organization>
</author>
<date />
</front>
</reference>
<reference anchor="MIFID-II" target="https://eur-lex.europa.eu/eli/dir/2014/65">
<front>
<title>Directive 2014/65/EU of the European Parliament and of the Council on markets in financial instruments (MiFID II)</title>
<author >
<organization>European Parliament and Council of the European Union</organization>
</author>
<date year="2014" month="May" day="15"/>
</front>
</reference>
<reference anchor="DORA" target="https://eur-lex.europa.eu/eli/reg/2022/2554">
<front>
<title>Regulation (EU) 2022/2554 on digital operational resilience for the financial sector (DORA)</title>
<author >
<organization>European Parliament and Council of the European Union</organization>
</author>
<date year="2022" month="December" day="14"/>
</front>
</reference>
<reference anchor="EU-MDR" target="https://eur-lex.europa.eu/eli/reg/2017/745">
<front>
<title>Regulation (EU) 2017/745 on medical devices (MDR)</title>
<author >
<organization>European Parliament and Council of the European Union</organization>
</author>
<date year="2017" month="April" day="05"/>
</front>
</reference>
<reference anchor="OPENTELEMETRY" target="https://opentelemetry.io/docs/specs/otel/">
<front>
<title>OpenTelemetry Specification</title>
<author >
<organization>Cloud Native Computing Foundation</organization>
</author>
<date />
</front>
</reference>
<reference anchor="I-D.ietf-scitt-architecture">
<front>
<title>An Architecture for Trustworthy and Transparent Digital Supply Chains</title>
<author fullname="Henk Birkholz" initials="H." surname="Birkholz">
<organization>Fraunhofer SIT</organization>
</author>
<author fullname="Antoine Delignat-Lavaud" initials="A." surname="Delignat-Lavaud">
<organization>Microsoft Research</organization>
</author>
<author fullname="Cedric Fournet" initials="C." surname="Fournet">
<organization>Microsoft Research</organization>
</author>
<author fullname="Yogesh Deshpande" initials="Y." surname="Deshpande">
<organization>ARM</organization>
</author>
<author fullname="Steve Lasker" initials="S." surname="Lasker">
</author>
<date day="10" month="October" year="2025"/>
<abstract>
<t> Traceability in supply chains is a growing security concern. While
verifiable data structures have addressed specific issues, such as
equivocation over digital certificates, they lack a universal
architecture for all supply chains. This document defines such an
architecture for single-issuer signed statement transparency. It
ensures extensibility, interoperability between different
transparency services, and compliance with various auditing
procedures and regulatory requirements.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-ietf-scitt-architecture-22"/>
</reference>
<reference anchor="I-D.ietf-oauth-transaction-tokens">
<front>
<title>Transaction Tokens</title>
<author fullname="Atul Tulshibagwale" initials="A." surname="Tulshibagwale">
<organization>SGNL</organization>
</author>
<author fullname="George Fletcher" initials="G." surname="Fletcher">
<organization>Practical Identity LLC</organization>
</author>
<author fullname="Pieter Kasselman" initials="P." surname="Kasselman">
<organization>Defakto Security</organization>
</author>
<date day="24" month="January" year="2026"/>
<abstract>
<t> Transaction Tokens (Txn-Tokens) are designed to maintain and
propagate user identity and authorization context across workloads
within a trusted domain during the processing of external requests,
such as API calls. They ensure that this context is preserved
throughout the call chain, even when new transactions are initiated
internally, thereby enhancing security and consistency in complex,
multi-service architectures.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-ietf-oauth-transaction-tokens-07"/>
</reference>
<reference anchor="I-D.oauth-transaction-tokens-for-agents">
<front>
<title>Transaction Tokens For Agents</title>
<author fullname="Ashay Raut" initials="A." surname="Raut">
<organization>Amazon</organization>
</author>
<date day="10" month="February" year="2026"/>
<abstract>
<t> This document specifies an extension to the OAuth Transaction Tokens
framework (https://drafts.oauth.net/oauth-transaction-tokens/draft-
ietf-oauth-transaction-tokens.html) to support agent context
propagation within Transaction Tokens for agent-based workloads. The
extension defines two new context fields: &#x27;actor&#x27; and &#x27;principal&#x27;.
The &#x27;actor&#x27; field identifies the agent performing the action, while
the &#x27;principal&#x27; field identifies the human or system entity that
initiated the agent&#x27;s action. For autonomous agents operating
independently, the &#x27;principal&#x27; field MAY be omitted. These
additional context fields enable services within the call graph to
make more granular access control decisions, thereby enhancing
security.
</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" value="draft-oauth-transaction-tokens-for-agents-04"/>
</reference>
</references>
</references>
<?line 1585?>
<section numbered="false" anchor="related-work"><name>Related Work</name>
<section numbered="false" anchor="wimse-workload-identity"><name>WIMSE Workload Identity</name>
<t>The WIMSE architecture <xref target="I-D.ietf-wimse-arch"/> and service-to-
service protocol <xref target="I-D.ietf-wimse-s2s-protocol"/> provide the
identity foundation upon which ECTs are built. WIT/WPT answer
"who is this agent?" and "does it control the claimed key?" while
ECTs record "what did this agent do?" and "what policy was
evaluated?" Together they form an identity-plus-accountability
framework for regulated agentic systems.</t>
</section>
<section numbered="false" anchor="oauth-20-token-exchange-and-the-act-claim"><name>OAuth 2.0 Token Exchange and the "act" Claim</name>
<t><xref target="RFC8693"/> defines the OAuth 2.0 Token Exchange protocol and
registers the "act" (Actor) claim in the JWT Claims registry.
The "act" claim creates nested JSON objects representing a
delegation chain: "who is acting on behalf of whom." While
the nesting superficially resembles a chain, it is strictly
linear (each "act" object contains at most one nested "act"),
represents authorization delegation rather than task execution,
and carries no task identifiers, policy decisions, or
input/output integrity data. The "act" chain cannot represent
branching (fan-out) or convergence (fan-in) and therefore
cannot form a DAG.</t>
<t>ECTs intentionally use the distinct claim name "exec_act" for the
action/task type to avoid collision with the "act" claim. The
two concepts are orthogonal: "act" records "who authorized whom,"
ECTs record "what was done, in what order, with what policy
outcomes."</t>
</section>
<section numbered="false" anchor="transaction-tokens"><name>Transaction Tokens</name>
<t>OAuth Transaction Tokens <xref target="I-D.ietf-oauth-transaction-tokens"/>
propagate authorization context across workload call chains.
The Txn-Token "req_wl" claim accumulates a comma-separated list
of workloads that requested replacement tokens, which is the
closest existing mechanism to call-chain recording.</t>
<t>However, "req_wl" cannot form a DAG because:</t>
<t><list style="symbols">
<t>It is linear: a comma-separated string with no branching or
merging representation. When a workload fans out to multiple
downstream services, each receives the same "req_wl" value and
the branching is invisible.</t>
<t>It is incomplete: only workloads that request a replacement
token from the Transaction Token Service appear in "req_wl";
workloads that forward the token unchanged are not recorded.</t>
<t>It carries no task-level granularity, no parent references,
no policy evaluation outcomes, and no execution content.</t>
</list></t>
<t>Extensions for agentic use cases
(<xref target="I-D.oauth-transaction-tokens-for-agents"/>) add agent
identity and constraints ("agentic_ctx") but no execution
ordering or DAG structure.</t>
<t>ECTs and Transaction Tokens are complementary: a Txn-Token
propagates authorization context ("this request is authorized
for scope X on behalf of user Y"), while an ECT records
execution accountability ("task T was performed, depending on
tasks P1 and P2, with policy Z evaluated and approved"). An
agent request could carry both a Txn-Token for authorization
and an ECT for execution recording. The WPT "tth" claim
defined in <xref target="I-D.ietf-wimse-s2s-protocol"/> can hash-bind a
WPT to a co-present Txn-Token; a similar binding mechanism
for ECTs is a potential future extension.</t>
</section>
<section numbered="false" anchor="distributed-tracing-opentelemetry"><name>Distributed Tracing (OpenTelemetry)</name>
<t>OpenTelemetry <xref target="OPENTELEMETRY"/> and similar distributed tracing
systems provide observability for debugging and monitoring. ECTs
differ in several important ways: ECTs are cryptographically
signed per-task with the agent's private key; ECTs are
tamper-evident through JWS signatures; ECTs enforce DAG validation
rules; and ECTs are designed for regulatory audit rather than
operational monitoring. OpenTelemetry data is typically controlled
by the platform operator and can be modified or deleted without
detection. ECTs and distributed traces are complementary: traces
provide observability while ECTs provide signed execution records.
ECTs may reference OpenTelemetry trace identifiers in the "ext"
claim for correlation.</t>
</section>
<section numbered="false" anchor="blockchain-and-distributed-ledgers"><name>Blockchain and Distributed Ledgers</name>
<t>Both ECTs and blockchain systems provide immutable records. This
specification intentionally defines only the ECT token format and
is agnostic to the storage mechanism. ECTs can be stored in
append-only logs, databases with cryptographic commitments,
blockchain networks, or any storage providing the required
properties defined in <xref target="ledger-interface"/>.</t>
</section>
<section numbered="false" anchor="scitt-supply-chain-integrity-transparency-and-trust"><name>SCITT (Supply Chain Integrity, Transparency, and Trust)</name>
<t>The SCITT architecture <xref target="I-D.ietf-scitt-architecture"/> defines a
framework for creating transparent and auditable supply chain
records through Transparency Services, Signed Statements, and
Receipts. ECTs and SCITT are naturally complementary: the ECT
"wid" (Workflow Identifier) claim can serve as a correlation
identifier referenced in SCITT Signed Statements, linking a
complete ECT audit trail to a supply chain transparency record.
For example, in a regulated manufacturing workflow, each agent
step produces an ECT (recording what was done, by whom, under
what policy), while the overall workflow identified by "wid" is
registered as a SCITT Signed Statement on a Transparency Service.
This enables auditors to verify both the individual execution
steps (via ECT DAG validation) and the end-to-end supply chain
integrity (via SCITT Receipts) using the "wid" as the shared
correlation point. The "ext" claim in ECTs (<xref target="exec-claims"/>)
can carry SCITT-specific metadata such as Transparency Service
identifiers or Receipt references for tighter integration.</t>
</section>
<section numbered="false" anchor="w3c-verifiable-credentials"><name>W3C Verifiable Credentials</name>
<t>W3C Verifiable Credentials represent claims about subjects (e.g.,
identity, qualifications). ECTs represent execution records of
actions (what happened, in what order, under what policy). While
both use JWT/JWS as a serialization format, their semantics and
use cases are distinct.</t>
</section>
</section>
<section numbered="false" anchor="implementation-guidance"><name>Implementation Guidance</name>
<section numbered="false" anchor="minimal-implementation"><name>Minimal Implementation</name>
<t>A minimal conforming implementation needs to:</t>
<t><list style="numbers" type="1">
<t>Create JWTs with all required claims ("iss", "aud", "iat",
"exp", "jti", "exec_act", "par") and policy claims ("pol",
"pol_decision") when policy evaluation was performed.</t>
<t>Sign ECTs with the agent's private key using an algorithm
matching the WIT (ES256 recommended).</t>
<t>Verify ECT signatures against WIT public keys.</t>
<t>Perform DAG validation (parent existence, temporal ordering,
cycle detection).</t>
<t>Append verified ECTs to the audit ledger.</t>
</list></t>
</section>
<section numbered="false" anchor="storage-recommendations"><name>Storage Recommendations</name>
<t><list style="symbols">
<t>Append-only log: Simplest approach; immutability by design.</t>
<t>Database with hash chains: Periodic cryptographic commitments
over batches of entries.</t>
<t>Distributed ledger: Maximum immutability guarantees for
cross-organizational audit.</t>
<t>Hybrid: Hot storage in a database, cold archive in immutable
storage.</t>
</list></t>
</section>
<section numbered="false" anchor="performance-considerations"><name>Performance Considerations</name>
<t><list style="symbols">
<t>ES256 signature verification: approximately 1ms per ECT on
modern hardware.</t>
<t>DAG validation: O(V) where V is the number of reachable ancestor
nodes (typically small for shallow workflows).</t>
<t>JSON serialization: sub-millisecond per ECT.</t>
<t>Total per-request overhead: approximately 5-10ms, acceptable
for regulated workflows where correctness is prioritized over
latency.</t>
</list></t>
</section>
<section numbered="false" anchor="interoperability"><name>Interoperability</name>
<t>Implementations are expected to use established JWT/JWS libraries
(JOSE) for token creation and verification. Custom cryptographic
implementations are strongly discouraged. Implementations are
expected to be tested against multiple JWT libraries to ensure
interoperability.</t>
</section>
</section>
<section numbered="false" anchor="regulatory-compliance-mapping"><name>Regulatory Compliance Mapping</name>
<t>The following table summarizes how ECTs can contribute to
compliance with various regulatory frameworks. ECTs are a
technical building block; achieving compliance requires
additional organizational measures beyond this specification.</t>
<texttable title="Regulatory Compliance Mapping" anchor="_table-regulatory">
<ttcol align='left'>Regulation</ttcol>
<ttcol align='left'>Requirement</ttcol>
<ttcol align='left'>ECT Contribution</ttcol>
<c>FDA 21 CFR Part 11</c>
<c>Audit trails recording date, time, operator, actions (11.10(e))</c>
<c>Cryptographic signatures and append-only ledger contribute to audit trail requirements</c>
<c>EU MDR</c>
<c>Technical documentation traceability (Annex II)</c>
<c>ECTs provide signed records of AI-assisted decision sequences</c>
<c>EU AI Act Art. 12</c>
<c>Automatic logging capabilities for high-risk AI</c>
<c>ECTs contribute cryptographic activity logging</c>
<c>EU AI Act Art. 14</c>
<c>Human oversight capability</c>
<c>ECTs can record evidence that human oversight events occurred</c>
<c>MiFID II</c>
<c>Transaction records for supervisory authorities</c>
<c>ECTs provide cryptographic execution sequence records</c>
<c>DORA Art. 12</c>
<c>ICT activity logging policies</c>
<c>ECT ledger contributes to ICT activity audit trail</c>
</texttable>
</section>
<section numbered="false" anchor="examples"><name>Examples</name>
<section numbered="false" anchor="example-1-simple-two-agent-workflow"><name>Example 1: Simple Two-Agent Workflow</name>
<t>Agent A executes a data retrieval task and sends the ECT to
Agent B:</t>
<t>ECT JOSE Header:</t>
<figure><sourcecode type="json"><![CDATA[
{
"alg": "ES256",
"typ": "wimse-exec+jwt",
"kid": "agent-a-key-2026-02"
}
]]></sourcecode></figure>
<t>ECT Payload:</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://example.com/agent/data-retrieval",
"sub": "spiffe://example.com/agent/data-retrieval",
"aud": "spiffe://example.com/agent/validator",
"iat": 1772064150,
"exp": 1772064750,
"jti": "550e8400-e29b-41d4-a716-446655440001",
"wid": "b1c2d3e4-f5a6-7890-bcde-f01234567890",
"exec_act": "fetch_patient_data",
"par": [],
"pol": "clinical_data_access_policy_v1",
"pol_decision": "approved",
"inp_hash": "sha-256:n4bQgYhMfWWaL-qgxVrQFaO_TxsrC4Is0V1sFbDwCgg",
"out_hash": "sha-256:LCa0a2j_xo_5m0U8HTBBNBNCLXBkg7-g-YpeiGJm564"
}
]]></sourcecode></figure>
<t>Agent B receives the ECT, verifies it, executes a validation
task, and creates its own ECT:</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://example.com/agent/validator",
"sub": "spiffe://example.com/agent/validator",
"aud": "spiffe://example.com/system/ledger",
"iat": 1772064160,
"exp": 1772064760,
"jti": "550e8400-e29b-41d4-a716-446655440002",
"wid": "b1c2d3e4-f5a6-7890-bcde-f01234567890",
"exec_act": "validate_safety",
"par": ["550e8400-e29b-41d4-a716-446655440001"],
"pol": "safety_validation_policy_v2",
"pol_decision": "approved"
}
]]></sourcecode></figure>
<t>The resulting DAG:</t>
<figure><artwork><![CDATA[
task-...-0001 (fetch_patient_data)
|
v
task-...-0002 (validate_safety)
]]></artwork></figure>
</section>
<section numbered="false" anchor="example-2-medical-device-sdlc-with-release-approval"><name>Example 2: Medical Device SDLC with Release Approval</name>
<t>A multi-step medical device software lifecycle workflow with
autonomous agents and human release approval:</t>
<t>Task 1 (Spec Review Agent):</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://meddev.example/agent/spec-reviewer",
"sub": "spiffe://meddev.example/agent/spec-reviewer",
"aud": "spiffe://meddev.example/agent/code-gen",
"iat": 1772064150,
"exp": 1772064750,
"jti": "a1b2c3d4-0001-0000-0000-000000000001",
"wid": "c2d3e4f5-a6b7-8901-cdef-012345678901",
"exec_act": "review_requirements_spec",
"par": [],
"pol": "spec_review_policy_v2",
"pol_decision": "approved",
"inp_hash": "sha-256:n4bQgYhMfWWaL-qgxVrQFaO_TxsrC4Is0V1sFbDwCgg",
"out_hash": "sha-256:LCa0a2j_xo_5m0U8HTBBNBNCLXBkg7-g-YpeiGJm564"
}
]]></sourcecode></figure>
<t>Task 2 (Code Generation Agent):</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://meddev.example/agent/code-gen",
"sub": "spiffe://meddev.example/agent/code-gen",
"aud": "spiffe://meddev.example/agent/test-runner",
"iat": 1772064200,
"exp": 1772064800,
"jti": "a1b2c3d4-0001-0000-0000-000000000002",
"wid": "c2d3e4f5-a6b7-8901-cdef-012345678901",
"exec_act": "implement_module",
"par": ["a1b2c3d4-0001-0000-0000-000000000001"],
"pol": "coding_standards_v3",
"pol_decision": "approved"
}
]]></sourcecode></figure>
<t>Task 3 (Autonomous Test Agent):</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://meddev.example/agent/test-runner",
"sub": "spiffe://meddev.example/agent/test-runner",
"aud": "spiffe://meddev.example/agent/build",
"iat": 1772064260,
"exp": 1772064860,
"jti": "a1b2c3d4-0001-0000-0000-000000000003",
"wid": "c2d3e4f5-a6b7-8901-cdef-012345678901",
"exec_act": "execute_test_suite",
"par": ["a1b2c3d4-0001-0000-0000-000000000002"],
"pol": "test_coverage_policy_v1",
"pol_decision": "approved"
}
]]></sourcecode></figure>
<t>Task 4 (Build Agent):</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://meddev.example/agent/build",
"sub": "spiffe://meddev.example/agent/build",
"aud": "spiffe://meddev.example/human/release-mgr-42",
"iat": 1772064310,
"exp": 1772064910,
"jti": "a1b2c3d4-0001-0000-0000-000000000004",
"wid": "c2d3e4f5-a6b7-8901-cdef-012345678901",
"exec_act": "build_release_artifact",
"par": ["a1b2c3d4-0001-0000-0000-000000000003"],
"pol": "build_validation_v2",
"pol_decision": "approved",
"out_hash": "sha-256:Ry1YfOoW2XpC5Mq8HkGzNx3dL9vBa4sUjE7iKt0wPZc"
}
]]></sourcecode></figure>
<t>Task 5 (Human Release Manager Approval):</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://meddev.example/human/release-mgr-42",
"sub": "spiffe://meddev.example/human/release-mgr-42",
"aud": "spiffe://meddev.example/system/ledger",
"iat": 1772064510,
"exp": 1772065110,
"jti": "a1b2c3d4-0001-0000-0000-000000000005",
"wid": "c2d3e4f5-a6b7-8901-cdef-012345678901",
"exec_act": "approve_release",
"par": ["a1b2c3d4-0001-0000-0000-000000000004"],
"pol": "release_approval_policy",
"pol_decision": "approved",
"pol_enforcer": "spiffe://meddev.example/human/release-mgr-42",
"ext": {
"org.ietf.wimse.witnessed_by": [
"spiffe://meddev.example/audit/qa-observer-1"
]
}
}
]]></sourcecode></figure>
<t>The resulting DAG records the complete SDLC: spec review preceded
implementation, implementation preceded testing, testing preceded
build, and a human release manager approved the final release.
The "ext" object in task 5 carries witness metadata via
the "org.ietf.wimse.witnessed_by" extension key.</t>
<figure><artwork><![CDATA[
task-...-0001 (review_requirements_spec)
|
v
task-...-0002 (implement_module)
|
v
task-...-0003 (execute_test_suite)
|
v
task-...-0004 (build_release_artifact)
|
v
task-...-0005 (approve_release) [human]
]]></artwork></figure>
<t>An FDA auditor reconstructs this DAG by querying the audit ledger
for all ECTs with wid "c2d3e4f5-a6b7-8901-cdef-012345678901" and
verifying each signature. The DAG provides cryptographic evidence
that the SDLC followed the prescribed process with human oversight
at the release gate.</t>
</section>
<section numbered="false" anchor="example-3-parallel-execution-with-join"><name>Example 3: Parallel Execution with Join</name>
<t>A workflow where two tasks execute in parallel and a third task
depends on both:</t>
<figure><artwork><![CDATA[
task-...-0001 (assess_risk)
| \
v v
task-...-0002 task-...-0003
(check (verify
compliance) liquidity)
| /
v v
task-...-0004 (execute_trade)
]]></artwork></figure>
<t>Task 004 ECT payload:</t>
<figure><sourcecode type="json"><![CDATA[
{
"iss": "spiffe://bank.example/agent/execution",
"sub": "spiffe://bank.example/agent/execution",
"aud": "spiffe://bank.example/system/ledger",
"iat": 1772064250,
"exp": 1772064850,
"jti": "f1e2d3c4-0004-0000-0000-000000000004",
"wid": "d3e4f5a6-b7c8-9012-def0-123456789012",
"exec_act": "execute_trade",
"par": [
"f1e2d3c4-0002-0000-0000-000000000002",
"f1e2d3c4-0003-0000-0000-000000000003"
],
"pol": "trade_execution_policy_v3",
"pol_decision": "approved"
}
]]></sourcecode></figure>
<t>The "par" array with two entries records that both compliance
checking and liquidity verification were completed before trade
execution.</t>
</section>
</section>
<section numbered="false" anchor="acknowledgments"><name>Acknowledgments</name>
<t>The author thanks the WIMSE working group for their foundational
work on workload identity in multi-system environments. The
concepts of Workload Identity Tokens and Workload Proof Tokens
provide the identity foundation upon which execution context
tracing is built.</t>
</section>
</back>
<!-- ##markdown-source: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-->
</rfc>
Reference in New Issue View Git Blame Copy Permalink