## Summary Add first-class Amazon Bedrock Mantle provider support so Codex can keep using its existing Responses API transport with OpenAI-compatible AWS-hosted endpoints such as AOA/Mantle. This is needed for the AWS launch path, where provider traffic should authenticate with AWS credentials instead of OpenAI bearer credentials. Requests are authenticated immediately before transport send, so SigV4 signs the final method, URL, headers, and body bytes that `reqwest` will send. ## What Changed - Added a new `codex-aws-auth` crate for loading AWS SDK config, resolving credentials, and signing finalized HTTP requests with AWS SigV4. - Added a built-in `amazon-bedrock` provider that targets Bedrock Mantle Responses endpoints, defaults to `us-east-1`, supports region/profile overrides, disables WebSockets, and does not require OpenAI auth. - Added Amazon Bedrock auth resolution in `codex-model-provider`: prefer `AWS_BEARER_TOKEN_BEDROCK` when set, otherwise use AWS SDK credentials and SigV4 signing. - Added `AuthProvider::apply_auth` and `Request::prepare_body_for_send` so request-signing providers can sign the exact outbound request after JSON serialization/compression. - Determine the region by taking the `aws.region` config first (required for bearer token codepath), and fallback to SDK default region. ## Testing Amazon Bedrock Mantle Responses paths: - Built the local Codex binary with `cargo build`. - Verified the custom proxy-backed `aws` provider using `env_key = "AWS_BEARER_TOKEN_BEDROCK"` streamed raw `responses` output with `response.output_text.delta`, `response.completed`, and `mantle-env-ok`. - Verified a full `codex exec --profile aws` turn returned `mantle-env-ok`. - Confirmed the custom provider used the bearer env var, not AWS profile auth: bogus `AWS_PROFILE` still passed, empty env var failed locally, and malformed env var reached Mantle and failed with `401 invalid_api_key`. - Verified built-in `amazon-bedrock` with `AWS_BEARER_TOKEN_BEDROCK` set passed despite bogus AWS profiles, returning `amazon-bedrock-env-ok`. - Verified built-in `amazon-bedrock` SDK/SigV4 auth passed with `AWS_BEARER_TOKEN_BEDROCK` unset and temporary AWS session env credentials, returning `amazon-bedrock-sdk-env-ok`.
codex-core
This crate implements the business logic for Codex. It is designed to be used by the various Codex UIs written in Rust.
Dependencies
Note that codex-core makes some assumptions about certain helper utilities being available in the environment. Currently, this support matrix is:
macOS
Expects /usr/bin/sandbox-exec to be present.
When using the workspace-write sandbox policy, the Seatbelt profile allows
writes under the configured writable roots while keeping .git (directory or
pointer file), the resolved gitdir: target, and .codex read-only.
Network access and filesystem read/write roots are controlled by
SandboxPolicy. Seatbelt consumes the resolved policy and enforces it.
Seatbelt also keeps the legacy default preferences read access
(user-preference-read) needed for cfprefs-backed macOS behavior.
Linux
Expects the binary containing codex-core to run the equivalent of codex sandbox linux (legacy alias: codex debug landlock) when arg0 is codex-linux-sandbox. See the codex-arg0 crate for details.
Legacy SandboxPolicy / sandbox_mode configs are still supported on Linux.
They can continue to use the legacy Landlock path when the split filesystem
policy is sandbox-equivalent to the legacy model after cwd resolution.
Split filesystem policies that need direct FileSystemSandboxPolicy
enforcement, such as read-only or denied carveouts under a broader writable
root, automatically route through bubblewrap. The legacy Landlock path is used
only when the split filesystem policy round-trips through the legacy
SandboxPolicy model without changing semantics. That includes overlapping
cases like /repo = write, /repo/a = none, /repo/a/b = write, where the
more specific writable child must reopen under a denied parent.
The Linux sandbox helper prefers the first bwrap found on PATH outside the
current working directory whenever it is available. If bwrap is present but
too old to support --argv0, the helper keeps using system bubblewrap and
switches to a no---argv0 compatibility path for the inner re-exec. If
bwrap is missing, it falls back to the vendored bubblewrap path compiled into
the binary and Codex surfaces a startup warning through its normal notification
path instead of printing directly from the sandbox helper. Codex also surfaces
a startup warning when bubblewrap cannot create user namespaces. WSL2 uses the
normal Linux bubblewrap path. WSL1 is not supported for bubblewrap sandboxing
because it cannot create the required user namespaces, so Codex rejects
sandboxed shell commands that would enter the bubblewrap path before invoking
bwrap.
Windows
Legacy SandboxPolicy / sandbox_mode configs are still supported on
Windows.
The elevated setup/runner backend supports legacy ReadOnlyAccess::Restricted
for read-only and workspace-write policies. Restricted read access honors
explicit readable roots plus the command cwd, and keeps writable roots
readable when workspace-write is used.
When include_platform_defaults = true, the elevated Windows backend adds
backend-managed system read roots required for basic execution, such as
C:\Windows, C:\Program Files, C:\Program Files (x86), and
C:\ProgramData. When it is false, those extra system roots are omitted.
The elevated Windows sandbox also supports:
- legacy
ReadOnlyandWorkspaceWritebehavior - split filesystem policies that need exact readable roots, exact writable roots, or extra read-only carveouts under writable roots
The unelevated restricted-token backend still supports the legacy full-read
Windows model for legacy ReadOnly and WorkspaceWrite behavior. It also
supports a narrow split-filesystem subset: full-read split policies whose
writable roots still match the legacy WorkspaceWrite root set, but add extra
read-only carveouts under those writable roots.
New [permissions] / split filesystem policies remain supported on Windows
only when they can be enforced directly by the selected Windows backend or
round-trip through the legacy SandboxPolicy model without changing semantics.
Policies that would require direct explicit unreadable carveouts (none) or
reopened writable descendants under read-only carveouts still fail closed
instead of running with weaker enforcement.
All Platforms
Expects the binary containing codex-core to simulate the virtual
apply_patch CLI when arg1 is --codex-run-as-apply-patch. See the
codex-arg0 crate for details.