---
title: Configuration
description: Config file, environment variables, and the TUI editor.
---
# Configuration
kache reads configuration from three places, in order of priority:
1. **Environment variables** — always win, useful for CI overrides
2. **Config file** — selected from the config file priority below
3. **Defaults** — sensible values that work without any configuration
## Config file
The config file is TOML. You can edit it directly or use the TUI editor:
```sh
kache config
```
The TUI editor surfaces the common fields with their current values, marks which ones are coming from env vars (those are read-only and the cursor skips them), and lets you toggle or edit the rest interactively. Navigate with the arrows or `j`/`k`, jump between sections with Tab/Shift-Tab, Enter edits a field, Space toggles a boolean, `s` (or Ctrl-S) saves, and `q`/Esc quits with an unsaved-changes prompt. Some advanced sections — `[cache.planner]`, `[cc]`, and `cache.path_only_env_vars` — have no form fields and are preserved verbatim on save.
Config file priority:
1. `KACHE_CONFIG`, when set
2. The nearest project-local `.kache.toml`, walking up from the current directory
3. User config at `~/.config/kache/config.toml`, respecting `XDG_CONFIG_HOME`
A minimal config that enables a remote cache looks like this:
```toml title="~/.config/kache/config.toml"
[cache.remote]
type = "s3"
bucket = "my-build-cache"
endpoint = "https://s3.example.com" # omit for AWS S3
profile = "my-aws-profile" # omit to use the default credential chain
```
## All settings
| Environment variable | Config key | Default | Description |
|---|---|---|---|
| `KACHE_CACHE_DIR` | `cache.local_store` | `~/Library/Caches/kache` on macOS, `~/.cache/kache` on Linux | Local cache directory |
| `KACHE_MAX_SIZE` | `cache.local_max_size` | `50GiB` | Maximum local store size |
| `KACHE_CONFIG` | — | — | Explicit config file path; overrides the project-local `.kache.toml` / XDG resolution |
| `KACHE_BASE_DIR` | — | — | Path prefix stripped from cache keys (collapsed to `<BASE_DIR>`) for checkout / container-mount paths the automatic sentinels don't catch — the analog of ccache's `CCACHE_BASEDIR` (see [Cache key](/docs/how-it-works/cache-key)) |
| `KACHE_S3_BUCKET` | `cache.remote.bucket` | — | S3 bucket name |
| `KACHE_S3_ENDPOINT` | `cache.remote.endpoint` | — | S3 endpoint URL (required for Ceph, MinIO, R2) |
| `KACHE_S3_REGION` | `cache.remote.region` | `us-east-1` | AWS region |
| `KACHE_S3_PREFIX` | `cache.remote.prefix` | `artifacts` | Key prefix inside the bucket |
| `KACHE_S3_PROFILE` | `cache.remote.profile` | — | AWS credentials profile |
| `KACHE_S3_ACCESS_KEY` | — | — | Explicit S3 access key |
| `KACHE_S3_SECRET_KEY` | — | — | Explicit S3 secret key |
| `KACHE_CACHE_EXECUTABLES` | `cache.cache_executables` | `false` | Also cache user-facing executables (`bin` crates and `--test` binaries). dylib/cdylib/proc-macro are always cached and are unaffected by this flag |
| `KACHE_CLEAN_INCREMENTAL` | `cache.clean_incremental` | `true` | Auto-clean tracked incremental dirs during GC; active builds also remove the current crate's incremental dir eagerly. Env is on unless the value is exactly `0` or `false` (case-insensitive) |
| `KACHE_VERIFY_RESTORES` | — | `off` | Re-hash restored blobs before serving hits: `off`, `sampled` (~1/16 hits), or `always`. `1`/`true` map to `always` |
| — | `cache.exclude` | `[]` | Source-path glob patterns that bypass kache and compile normally without lookup, store, or upload |
| `KACHE_COMPRESSION_LEVEL` | `cache.compression_level` | `3` | Zstd compression level (1–22) |
| `KACHE_S3_CONCURRENCY` | `cache.s3_concurrency` | `16` | Max concurrent S3 operations |
| `KACHE_S3_POOL_IDLE_SECS` | `cache.s3_pool_idle_secs` | `300` | How long an idle S3 connection is kept in the HTTP pool. Higher values reuse warm TLS sessions across build phases; lower this if you sit behind a load balancer that drops idle connections aggressively |
| `KACHE_DAEMON_IDLE_TIMEOUT` | `cache.daemon_idle_timeout_secs` | `600` | Idle daemon shutdown timeout in seconds (`0` disables auto-shutdown) |
| `KACHE_KEY_SALT` | `cache.key_salt` | — | Opaque string folded into every cache key. Change it to force a cold cache on a toolchain change kache cannot otherwise see (see [Cache-key salt](#cache-key-salt)) |
| `KACHE_CC_EXTRA_ALLOWLIST_FLAGS` | `cc.extra_allowlist_flags` | `[]` | C/C++ flags to opt into caching that kache's built-in allow-list doesn't yet model (see [Extra cc allowlist flags](#extra-cc-allowlist-flags)). Env value is whitespace-separated |
| `KACHE_DISABLED` | — | `false` | Disable caching entirely (pass-through to rustc). Env-only, no config key: `1` or `true` (case-insensitive) disables; any other value — including `0`, `false`, or unset — leaves caching on |
| `KACHE_LOCAL_ONLY` | `cache.local_only` | `false` | Strict local-only mode: ignore **all** remote and planner config/env (no S3 bucket, no planner endpoint, no egress) for a guaranteed-hermetic build. Local caching stays fully on — unlike `KACHE_DISABLED`. `1`/`true` enables; env wins over the file (an explicit `0` overrides `local_only = true`) |
| — (file-only) | `cache.ignore_env` | `false` | Make the config file authoritative by ignoring `KACHE_*` env overrides for file-backed settings (see [Pinning config against env](#pinning-config-against-env)) |
| `KACHE_FALLBACK` | `cache.fallback` | — | Secondary compiler-wrapper to hand passed-through compiles to; kache runs `<fallback> <compiler> <args>` when it declines to cache. `off`/`none`/empty disables |
| `KACHE_PATH_ONLY_ENV_VARS` | `cache.path_only_env_vars` | `[]` | Extra env vars (besides `OUT_DIR`) whose values only locate an `include!`'d file, so kache normalizes their absolute path in the cache key. Env value is comma/whitespace-separated and replaces the file list (see [Path-only env vars](#path-only-env-vars)) |
| `KACHE_PLANNER_ENDPOINT` | `cache.planner.endpoint` | — | Prefetch-planner service URL; setting it enables the planner client. Empty/whitespace is treated as unset |
| `KACHE_PLANNER_TIMEOUT_MS` | `cache.planner.timeout_ms` | `750` | Planner request timeout in milliseconds |
| `KACHE_PLANNER_TOKEN` | `cache.planner.token` | — | Bearer credential sent with planner requests |
| `KACHE_NAMESPACE` | — | — | Enables content-addressed shard uploads/prefetch (requires a `Cargo.lock`); the `kache save-manifest --namespace` flag takes precedence. Unset uploads only the monolithic manifest |
| `KACHE_EVENT_ROOT` | — | auto-detected | Explicit root path stamped on wrapper events for report filtering; useful for benchmark harnesses that share a cache/event log |
| `KACHE_LOG` | — | `kache=warn` * | Log level for stderr output |
| `KACHE_LOG_FILE` | — | `kache=info` * | Log level for the file log |
| `KACHE_PROGRESS` | — | (off) | Per-crate progress lines to stderr: `1`/`hits` prints cache hits only; `verbose`/`all` also prints dups and misses; unset or anything else stays silent |
\* In wrapper mode (`RUSTC_WRAPPER`, the common path) stderr logging defaults to **off** and the file log is **disabled** unless `KACHE_LOG_FILE` is set explicitly. The `kache=warn` / `kache=info` defaults apply to CLI and daemon invocations.
## Excluding Sources
Use `cache.exclude` when a source file should compile normally but never use kache:
```toml title=".kache.toml"
[cache]
exclude = [
"crates/problematic-rust-crate/**",
"vendor/problematic-c-lib/**",
"$CARGO_HOME/registry/src/**/some-crate-*/**",
]
```
Patterns are globs matched against the compiler's primary source path. Relative patterns are matched relative to the current build directory and, when kache can infer it, the Cargo workspace root. Excluded invocations bypass local lookup, remote lookup, store, and upload.
Exclude patterns support `~`, `$VAR`, and `${VAR}` expansion. `$CARGO_HOME` falls back to Cargo's default `~/.cargo` when the environment variable is not set, so registry-source exclusions work on default Cargo installs.
## Pinning config against env
By default every `KACHE_*` environment variable **wins** over the config file — convenient for CI overrides, but it means a stray machine-global export can silently change behavior. The riskiest case is `KACHE_KEY_SALT`: a leaked export would shift *every* cache key without a word.
Set `ignore_env` to make a pinned config authoritative:
```toml title=".kache.toml"
[cache]
ignore_env = true
key_salt = "v3-toolchain-abc"
```
With this, kache ignores the `KACHE_*` overrides for **file-backed settings** (cache dir, max size, key salt, fallback, S3/planner settings, the toggles, etc.) and takes the file value (or built-in default) instead. When an ignored override is actually set, kache logs a warning naming it, so the suppression is never silent.
`ignore_env` is **file-only** by design — an env var can't re-enable env overrides, or the lockdown would be trivially undone by the same stray export it defends against. It deliberately does **not** cover bootstrap/operational vars that have no file representation (`KACHE_CONFIG`, `KACHE_DISABLED`, `KACHE_LOG` / `KACHE_LOG_FILE` / `KACHE_PROGRESS`, `KACHE_NAMESPACE`, `KACHE_BASE_DIR`) or S3 credentials (`KACHE_S3_ACCESS_KEY` / `KACHE_S3_SECRET_KEY`), which are secrets rather than config.
## Cache-key salt
kache's cache key captures everything it can *observe* about a compile: the rustc version, the target, flags, source and dependency hashes, and the linker's `--version` banner. That set is complete for divergences a tool reports in its version output. It is **not** complete for toolchain changes that alter compiled output while leaving every banner unchanged — most commonly a `glibc`, `mold`, or linker bump, or a Nix store rebuild that swaps the ELF interpreter baked into a binary.
When that happens, the key does not move, so a stale artifact can be restored. On Nix in particular, a `nixpkgs` bump followed by `nix store gc` can leave a restored executable pointing at a garbage-collected interpreter — an error no `cargo clean` can fix, because the key never changed.
`key_salt` is an opaque string folded into every cache key. Set it to a value that *does* change when your toolchain changes — a hash of the toolchain closure, a store-path digest, a date, a CI build id — and that change re-keys the cache (a cold miss) instead of serving a stale hit:
```toml title=".kache.toml"
[cache]
key_salt = "nixpkgs-a1b2c3d-mold-2.40"
```
Or compute it from the toolchain itself:
```sh
export KACHE_KEY_SALT="$(nix eval --raw .#devShells.default.outPath | sha256sum | cut -c1-16)"
```
The salt is hashed raw; its meaning is entirely yours. An unset or empty value has **no effect** — keys are byte-identical to not setting it — so it is safe to leave off until you need it. A misconfigured salt can only cost hit rate (an extra miss), never cause a wrong artifact to be restored.
## Extra cache-key inputs
kache keys a crate on what the compiler reports — source files, `--extern` dependencies, flags. Some crates also read files **at compile time that the compiler never reports**, so kache can't see them change:
- sqlx's `query!` macro reads `.sqlx/query-*.json` (the offline query cache)
- migration macros read `migrations/`
- codegen / macros that `include!` data files by a path rustc doesn't surface
Edit one of those and the `.rs` files are unchanged, so the key doesn't move — and kache would restore the previously-compiled artifact (a stale hit). Declare those files so a change to them re-keys the crate.
Add a `kache.toml` next to the crate's `Cargo.toml`:
```toml title="my-app/db/kache.toml"
extra_inputs = [
".sqlx/**/*.json",
"migrations/**/*.sql",
]
```
Globs are relative to the crate directory. A bare directory is fine — `.sqlx` and `.sqlx/` both mean "everything under it." The matched files' contents are folded into that crate's key.
A pattern **may** reach outside the crate with `..` or an absolute path when a build genuinely depends on a shared tree above the crates or a machine-specific file. That's allowed and stays fail-safe, but it makes the crate's key host- or layout-specific (kache logs a warning), so it no longer shares across machines or worktrees — prefer a co-located input where you can.
This is **opt-in and scoped per crate**: a crate with no `kache.toml` is unaffected, and one crate's `extra_inputs` never *implicitly* touch a sibling crate's key. It is also **union-only** — a misdeclared glob can only cause an extra cache *miss* (a rebuild), never restore a wrong artifact. Each file is folded as its crate-relative path plus content hash, so moving the worktree doesn't bust the cache, but swapping two matched files' contents (where order matters, like sqlx migrations) does re-key. The declared patterns are folded too, so editing `kache.toml` itself re-keys — even when it currently matches nothing.
<Callout type="warn">
Keep patterns narrow. A glob that walks a huge tree (an absolute `/**`, or a
`**/*` that accidentally spans `target/`) re-keys on every change and re-walks
the tree on every compile — kache warns when a pattern matches the filesystem
root or an unusually large number of files.
</Callout>
<Callout type="warn">
`extra_inputs` is only evaluated **when cargo invokes the compiler**. Editing a
tracked file in a warm in-place target — changing `.sqlx/` without touching any
`.rs` — doesn't re-invoke rustc on its own, so the key isn't recomputed and the
prior artifact is restored. To make such edits re-key, your build script must
emit a matching `cargo:rerun-if-changed` for the path (cargo then re-runs the
crate when it changes). `kache doctor` flags crates that declare `extra_inputs`
but whose build script won't re-trigger the compiler.
</Callout>
<Callout type="info">
`kache.toml` (no leading dot) is **only** for `extra_inputs`. It is distinct
from the project config `.kache.toml`; any other key in it is a loud error.
</Callout>
## Path-only env vars
By default kache normalizes the absolute path baked into `OUT_DIR` so the cache key stays portable across machines and worktrees. Some builds set other env vars that serve the same role — they only point at a generated file that a crate `include!`s, and their absolute value should not bust the key (e.g. Firefox's `BUILDCONFIG_RS` / `MOZ_TOPOBJDIR`).
`cache.path_only_env_vars` opts those vars into the same path-only treatment:
```toml title=".kache.toml"
[cache]
path_only_env_vars = ["BUILDCONFIG_RS", "MOZ_TOPOBJDIR"]
```
Or via the environment (comma- or whitespace-separated; replaces the file list entirely):
```sh
export KACHE_PATH_ONLY_ENV_VARS="BUILDCONFIG_RS MOZ_TOPOBJDIR"
```
This is an advanced opt-in: only list vars whose value is purely a path locator. An empty list means only `OUT_DIR` is normalized.
## Extra cc allowlist flags
kache caches a C/C++ compile only when it recognizes every flag on the command line. Its cc flag classifier is an **allow-list**: each flag is one kache has reasoned about and knows how to key. Anything unrecognized is refused and the compile passes through uncached — the safe default, since a flag kache doesn't model could change the object file without changing the key.
For setup and the current C/C++ support matrix, see [C/C++ caching](/docs/getting-started/c-cpp).
**Supported compilers and dialects.** kache wraps the GNU-dialect drivers (`cc`, `c++`, `gcc`, `g++`, `clang`, `clang++`; POSIX) and the MSVC-dialect `clang-cl` (Windows, or `clang --driver-mode=cl`). The two dialects have separate allow-lists, so each flag is classified in the spelling its compiler actually uses — e.g. `-fno-rtti` (GNU) vs `-GR-` (clang-cl), `-std=c++20` vs `-std:c++20`. For clang-cl, debug info (`/Z7` / `-Z7` / `-g`) **is** cached (machine-local — clang-cl embeds CodeView paths in the `.obj`), while `-bigobj` and `-showIncludes` are still deliberately **refused** (passed through) for now; the common MSVC codegen set (`-EH*`, `-GR`/`-GS`, `-guard:`, `-std:`, `-fms-compatibility-version=`, `/O*`, `-Gy`/`-Gw`, `-MD`/`-MT`, …) is modeled. `extra_allowlist_flags` entries below are matched against command-line tokens verbatim, so list them in whichever dialect your compiler speaks (a `/`-spelled clang-cl flag included).
The cost is that a common-but-unlisted flag disables caching for that compile until kache ships a release adding it. `cc.extra_allowlist_flags` lets you opt such a flag in locally, ahead of official support:
```toml title=".kache.toml"
[cc]
extra_allowlist_flags = ["-ffunction-sections", "-fdata-sections", "-fno-rtti"]
```
Or via the environment (whitespace-separated; overrides the file):
```sh
export KACHE_CC_EXTRA_ALLOWLIST_FLAGS="-ffunction-sections -fdata-sections"
```
Semantics:
- **Exact match.** An entry matches a command-line token character-for-character — no prefixes or wildcards. List each value you use (e.g. `-march=armv8.2-a`, not `-march=`).
- **Hashed verbatim.** A matched flag that's actually present is folded into the cache key as its literal string, so a different flag (or value) always produces a different key — it can never miscache *by value*.
- **Add-only.** This can only make kache *stop refusing* a flag. It cannot override structural refusals — link mode, coverage instrumentation, multi-`-arch`, precompiled headers, modules, and the like still pass through.
- **Off by default.** An empty list has no effect; keys are byte-identical to not setting it.
<Callout type="warn">
Avoid host-dependent flags like `-march=native`. The string is identical on every machine but compiles to different objects per CPU, so hashing it verbatim collides across hosts — a cache hit on one machine can restore an object built for another. List explicit architectures instead.
</Callout>
To confirm it took effect, run with `KACHE_LOG=kache=debug`: the cc flag-classify summary gains a `user-allowed` count, and the flag no longer appears in any `unsupported flag(s): … — passthrough` line. At `kache=trace` each accepted flag logs as `user-allowed (config)` and each one folded into the key logs as `cc_extra_flag=`.
## Credential resolution order
Remote S3 credentials are resolved in this order:
1. `KACHE_S3_ACCESS_KEY` + `KACHE_S3_SECRET_KEY`
2. AWS profile from `cache.remote.profile` or `KACHE_S3_PROFILE`
3. AWS default chain, such as `AWS_ACCESS_KEY_ID`, `~/.aws/credentials [default]`, or IAM roles
For Ceph, MinIO, or R2, set `cache.remote.endpoint` or `KACHE_S3_ENDPOINT`.
```toml title="Ceph example"
[cache.remote]
type = "s3"
bucket = "build-cache"
endpoint = "https://s3.example.com"
profile = "ceph"
```
## Composing with other compiler wrappers
kache works as a `RUSTC_WRAPPER` and composes with a second wrapper in either direction.
**Behind another workspace wrapper** (`RUSTC_WORKSPACE_WRAPPER`, e.g. `clippy-driver`): when cargo has both `RUSTC_WRAPPER=kache` and a `RUSTC_WORKSPACE_WRAPPER` set, it invokes `kache <workspace-wrapper> <rustc> <args>`. kache detects that the inner argument is itself a compiler, forwards the real rustc path as the workspace wrapper expects, and keys/caches around it. `cargo clippy` (which drives `clippy-driver`) is handled the same way — no extra configuration needed.
**In front of another wrapper** — when you want a second wrapper to cache the compiles kache *declines*: set [`KACHE_FALLBACK`](#all-settings) (or `cache.fallback`). kache then runs `<fallback> <compiler> <args>` for passed-through invocations, so e.g. sccache gets a chance at the compiles kache won't cache.
<Callout type="info">
`KACHE_DISABLED=1` makes kache a transparent shim (no lookup, store, or
upload) while still stripping incremental flags — useful to temporarily
bypass kache in a wrapper chain without unsetting the env var. Only `1` or
`true` (case-insensitive) disable; `0`/`false`/unset leave caching on.
</Callout>
## Restore verification
By default, a hit checks recorded metadata and blob size, then restores the blob. Set `KACHE_VERIFY_RESTORES=sampled` to content-hash roughly one in sixteen hits, or `KACHE_VERIFY_RESTORES=always` to hash every restored blob before serving it:
```sh
KACHE_VERIFY_RESTORES=sampled cargo build
```
`sampled` is useful as cheap background coverage for silent disk corruption. `always` is stricter but adds an extra full read of every restored blob.
## Size values
Size fields (`KACHE_MAX_SIZE`, `cache.local_max_size`) accept human-friendly strings:
```
50GiB 10GB 512MiB 1024MB
```
## Log levels
`KACHE_LOG` follows the `tracing` subscriber syntax:
```sh
KACHE_LOG=kache=debug # verbose, useful when diagnosing cache misses
KACHE_LOG=kache=info # operational detail
KACHE_LOG=kache=warn # default — only surface real problems
```
The file log is written to `~/Library/Logs/kache/kache.log` on macOS and `~/.cache/kache/kache.log` elsewhere. It rotates automatically when it exceeds 5 MB.
## Local store layout
```
<cache_dir>/ # Linux: ~/.cache/kache · macOS: ~/Library/Caches/kache · Windows: %LOCALAPPDATA%\kache
├── store/
│ ├── blobs/
│ │ └── ab/
│ │ └── abcdef... # content-addressed blob (blake3), stored once
│ └── <cache_key>/
│ └── meta.json # entry metadata; references its blobs by hash
├── index.db # SQLite index (WAL mode) — sibling of store/, not inside it
├── events.jsonl # build event log
├── transfers.jsonl # transfer log
└── daemon.sock # daemon IPC socket (a named pipe on Windows)
```
The whole cache directory is excluded from Time Machine and Spotlight on macOS automatically — on first start the daemon sets a `tmutil` exclusion and a `.metadata_never_index` sentinel.
## Containers and cross-compilation
kache's index (`index.db`) is a SQLite database, and SQLite needs reliable file locking from the filesystem it lives on — plus shared memory, in WAL mode. A normal local cache directory provides both. A cache directory **shared across machine or OS boundaries** does not.
The usual way to hit this is bind-mounting your host cache directory into a build container — for example [`cross`](https://github.com/cross-rs/cross), Docker, or Podman:
- The directory is mounted from the host into the container, so `index.db` is opened from two different operating systems at once.
- A kache daemon on the host typically holds `index.db` open in WAL mode for the duration of the build, and that WAL state cannot be shared with the process inside the container.
When kache can't open the index it falls back to building **uncached** — your build still succeeds, just with no cache hits or stores — and prints a one-time warning:
```
[kache] the cache index could not be opened after retries (...).
[kache] Caching is disabled for this build — compilation still succeeds,
[kache] just without cache hits or stores (everything builds uncached).
[kache] ...
[kache] → set KACHE_CACHE_DIR to a fast, local, single-machine path
```
**Give the container its own cache directory.** Point `KACHE_CACHE_DIR` at a path the container alone uses — ideally a dedicated volume so the cache persists across runs:
```sh
# inside the container / cross build — a container-local volume, NOT the host's cache dir
export KACHE_CACHE_DIR=/kache-cache
```
Don't bind-mount the host's cache directory into the container. Sharing it gains little anyway: host and cross builds target different platforms and feature sets, so they produce different cache keys and would not reuse each other's entries.
<Callout type="info">
The same rule applies to network filesystems (NFS, SMB/CIFS, 9p) and any
setup where more than one machine touches the same directory: keep
`KACHE_CACHE_DIR` on a fast, local disk owned by a single machine. To reuse
build artifacts *across* machines, use a [remote cache](/docs/remote-cache/s3-setup)
— that's the supported path for cross-machine sharing.
</Callout>