yoi/crates/manifest/src/lib.rs

mod cascade;
mod config;
pub mod defaults;
mod model;
pub mod paths;
mod scope;

pub use cascade::{LayerLoadError, find_project_manifest_from, load_layer};
pub use config::{
    CompactionConfigPartial, FileUploadLimitsPartial, PermissionConfigPartial, PodManifestConfig,
    PodMetaConfig, ResolveError, ToolOutputLimitsPartial, WorkerManifestConfig,
};
pub use model::{
    AuthRef, ModelCapability, ModelManifest, ReasoningControl, ReasoningEffort, SchemeKind,
};
pub use paths::user_manifest_path;
pub use protocol::{Permission, ScopeRule};
pub use scope::{Scope, ScopeError, SharedScope};

use std::collections::HashMap;
use std::num::NonZeroU32;
use std::path::PathBuf;

use serde::{Deserialize, Serialize};

/// Declarative configuration for a Pod.
///
/// Parsed from a TOML manifest file. Describes the model, system prompt,
/// and directory scope (required). The Pod's working directory is **not**
/// part of the manifest — it is the process's `std::env::current_dir()`
/// at construction time.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PodManifest {
    pub pod: PodMeta,
    pub model: ModelManifest,
    pub worker: WorkerManifest,
    pub scope: ScopeConfig,
    /// Optional manifest-level tool permission policy. Absent means the
    /// permission layer is disabled and tool calls run as before.
    #[serde(default)]
    pub permissions: Option<ToolPermissionConfig>,
    #[serde(default)]
    pub compaction: Option<CompactionConfig>,
    /// Memory subsystem opt-in. Presence of `[memory]` in TOML enables
    /// the memory tools (MemoryRead / MemoryWrite / MemoryEdit) and
    /// causes Pod to deny generic write access to `<workspace>/memory/`
    /// and `<workspace>/knowledge/`. Absent ⇒ legacy behaviour, no
    /// memory tools registered.
    #[serde(default)]
    pub memory: Option<MemoryConfig>,
    /// External Agent Skills (`SKILL.md`) directories to ingest as
    /// Workflows. Each entry is a path to a skills *root* (i.e. a
    /// directory whose children are individual `<name>/SKILL.md` skill
    /// bundles). Paths are resolved against the manifest's base
    /// directory like other path fields. Absent ⇒ no skills loaded;
    /// there is no implicit `$config_dir/skills/` or builtin probe.
    #[serde(default)]
    pub skills: Option<SkillsConfig>,
}

/// External Agent Skills (`SKILL.md`) ingest configuration. Skills are
/// loaded *only* from the directories listed here — there is no
/// implicit `$config_dir/skills/` or builtin probe. Cascade-merged
/// across manifest layers, so a user-level manifest can declare a
/// shared skill root once while a project manifest adds its own
/// `.claude/skills/` / `.cursor/skills/` paths on top.
#[derive(Debug, Clone, Default, Serialize, Deserialize)]
pub struct SkillsConfig {
    /// Skills *roots*. Children of each root must be individual
    /// `<name>/SKILL.md` bundles; the directory itself is not a skill.
    /// Resolved against the manifest base directory before
    /// [`PodManifest`] is materialised.
    #[serde(default)]
    pub directories: Vec<PathBuf>,
}

/// Memory subsystem configuration. Presence in the manifest enables
/// memory; the workspace root defaults to the Pod's pwd unless an
/// explicit override is given.
///
/// All fields are `Option`; defaults are applied at the consumer
/// (`.unwrap_or(defaults::...)`). This keeps cascade `merge` simple
/// (`upper.x.or(self.x)`) without a separate partial/resolved split.
#[derive(Debug, Clone, Default, Serialize, Deserialize)]
pub struct MemoryConfig {
    /// Override for the workspace root. When `None`, the Pod's pwd
    /// (resolved at construction time) is used. When set, must be an
    /// absolute path.
    #[serde(default)]
    pub workspace_root: Option<PathBuf>,
    /// Maximum number of records returned by `MemoryQuery` /
    /// `KnowledgeQuery` per call. `None` ⇒ tool default (20).
    #[serde(default)]
    pub query_result_limit: Option<usize>,
    /// Lines of context before and after each match in query excerpts.
    /// Ignored when the request omits `query`. `None` ⇒ tool default (3).
    #[serde(default)]
    pub query_excerpt_lines: Option<usize>,
    /// Language used by memory extraction / consolidation workers for durable
    /// memory and knowledge text. Free-form so workspaces can use names like
    /// `English`, `Japanese`, or locale tags. `None` ⇒
    /// [`defaults::MEMORY_LANGUAGE`].
    #[serde(default)]
    pub language: Option<String>,
    /// Optional model for the extract worker. When `None`,
    /// the main pod model is cloned via `clone_boxed()`. Lightweight
    /// reasoning-capable models (Haiku / 4o-mini / Flash class) are
    /// recommended.
    #[serde(default)]
    pub extract_model: Option<ModelManifest>,
    /// Cumulative input-token threshold (since the last extract pointer)
    /// that triggers an extract run. `None` disables the extract trigger
    /// entirely; memory tools and resident injection still work, only
    /// the auto-extract trigger is dormant.
    #[serde(default)]
    pub extract_threshold: Option<u64>,
    /// Current prompt-occupancy cap for the extract worker's own LLM
    /// requests. Exceeding this aborts the extract run. `None` ⇒
    /// [`defaults::MEMORY_EXTRACT_WORKER_MAX_INPUT_TOKENS`].
    #[serde(default)]
    pub extract_worker_max_input_tokens: Option<u64>,
    /// Optional maximum extract-worker tool-loop depth. `None` leaves
    /// the worker unlimited; the default bounds runaway short-context
    /// loops. Falls through to
    /// [`defaults::MEMORY_EXTRACT_WORKER_MAX_TURNS`] when unset.
    #[serde(default)]
    pub extract_worker_max_turns: Option<u32>,
    /// Optional model for the consolidation worker. When
    /// `None`, the main pod model is cloned via `clone_boxed()`.
    /// Reasoning-class models are recommended.
    #[serde(default)]
    pub consolidation_model: Option<ModelManifest>,
    /// Consolidation trigger: file-count threshold of `_staging/`. The
    /// consolidation run fires when the staging directory has at least
    /// this many entries. Either threshold reaching its limit fires
    /// consolidation (logical OR). `None` for both thresholds ⇒
    /// consolidation disabled.
    #[serde(default)]
    pub consolidation_threshold_files: Option<usize>,
    /// Consolidation trigger: byte-size threshold across all `_staging/`
    /// entries. Either threshold reaching its limit fires consolidation.
    /// `None` for both thresholds ⇒ consolidation disabled.
    #[serde(default)]
    pub consolidation_threshold_bytes: Option<u64>,
}

/// Pod metadata.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PodMeta {
    pub name: String,
    /// Optional path to a TOML override file read as the top layer of
    /// `pod::PromptCatalog`. Subject to the same relative-path
    /// resolution as other manifest paths (joined against the
    /// manifest's base directory). `None` leaves the 4th overlay layer
    /// empty; auto-discovered user and workspace packs still apply.
    ///
    /// Note: unlike `worker.instruction`, this is a plain filesystem
    /// path — not a `$prefix/` prompt reference. Pack files carry
    /// structured TOML data, while `worker.instruction` points at a
    /// minijinja `.md` template; the two use different addressing
    /// conventions on purpose.
    #[serde(default)]
    pub prompt_pack: Option<PathBuf>,
}

/// Worker-level configuration embedded in the manifest.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct WorkerManifest {
    /// Reference to the instruction prompt asset used as the body of
    /// the worker's system prompt. Uses the `PromptLoader` prefix
    /// addressing scheme (`$insomnia/...`, `$user/...`,
    /// `$workspace/...`) and is always populated after resolution —
    /// unset manifests fall through to [`defaults::DEFAULT_INSTRUCTION`].
    #[serde(default = "default_instruction")]
    pub instruction: String,
    /// Language policy used by the main worker for normal prose responses.
    /// Free-form so workspaces can use names like `English`, `Japanese`,
    /// locale tags, or a policy phrase. Unset manifests fall through to
    /// [`defaults::WORKER_LANGUAGE`].
    #[serde(default = "default_worker_language")]
    pub language: String,
    #[serde(default)]
    pub max_tokens: Option<u32>,
    #[serde(default)]
    pub max_turns: Option<NonZeroU32>,
    #[serde(default)]
    pub temperature: Option<f32>,
    #[serde(default)]
    pub top_p: Option<f32>,
    #[serde(default)]
    pub top_k: Option<u32>,
    #[serde(default)]
    pub stop_sequences: Vec<String>,
    #[serde(default)]
    pub reasoning: Option<ReasoningControl>,
    /// Byte-size caps applied to tool `content` before it reaches the
    /// conversation history. The section is optional in TOML — when
    /// omitted, `ToolOutputLimits::default()` (64 KiB default cap, no
    /// per-tool overrides) is applied so truncation is on by default.
    #[serde(default)]
    pub tool_output: ToolOutputLimits,
    /// Byte-size cap applied to submit-time FileRef uploads / attachments.
    /// For file refs this caps the file body; for normal directory refs this
    /// caps the rendered shallow listing body.
    /// This is intentionally separate from tool-output truncation because
    /// user-requested file attachments can usually tolerate a larger budget.
    #[serde(default)]
    pub file_upload: FileUploadLimits,
}

/// Byte-size caps applied to tool execution `content` before it enters
/// conversation history. Guards against a single oversized tool result
/// blowing past the provider's per-minute input-token rate limit.
///
/// Field names are deliberately phrased in bytes (not tokens) because
/// accurate pre-send token counting is not yet available; the caps can
/// be migrated to token units later without renaming.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ToolOutputLimits {
    /// Cap applied to any tool not listed in `per_tool`.
    #[serde(default = "default_tool_output_max_bytes")]
    pub default_max_bytes: usize,
    /// Per-tool overrides, keyed by tool registration name (e.g. "Glob").
    #[serde(default)]
    pub per_tool: HashMap<String, usize>,
}

/// Byte-size cap for submit-time FileRef uploads / attachments.
///
/// This governs the `[File: <path>]` system-message attachment produced
/// when a user explicitly submits a `@<path>` file reference, and the
/// rendered body of a shallow `[Dir: <path>]` listing for a normal directory
/// reference. It does not affect tool result truncation; see
/// [`ToolOutputLimits`] for that path.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct FileUploadLimits {
    /// Cap applied to each resolved FileRef file body or directory-listing body.
    #[serde(default = "default_file_upload_max_bytes")]
    pub max_bytes: usize,
}

fn default_tool_output_max_bytes() -> usize {
    defaults::TOOL_OUTPUT_MAX_BYTES
}

fn default_file_upload_max_bytes() -> usize {
    defaults::FILE_UPLOAD_MAX_BYTES
}

fn default_instruction() -> String {
    defaults::DEFAULT_INSTRUCTION.to_string()
}

fn default_worker_language() -> String {
    defaults::WORKER_LANGUAGE.to_string()
}

impl Default for ToolOutputLimits {
    fn default() -> Self {
        Self {
            default_max_bytes: default_tool_output_max_bytes(),
            per_tool: HashMap::new(),
        }
    }
}

impl Default for FileUploadLimits {
    fn default() -> Self {
        Self {
            max_bytes: default_file_upload_max_bytes(),
        }
    }
}

impl ToolOutputLimits {
    /// Resolve the cap for a given tool name.
    pub fn limit_for(&self, tool_name: &str) -> usize {
        self.per_tool
            .get(tool_name)
            .copied()
            .unwrap_or(self.default_max_bytes)
    }
}

/// Declarative scope configuration.
///
/// A Pod may only touch paths whose effective permission (computed from
/// allow/deny rules below) is at least `Read` / `Write`. See
/// [`Scope`] for the resolved runtime form.
#[derive(Debug, Clone, Default, Serialize, Deserialize)]
pub struct ScopeConfig {
    /// Rules granting access. At least one entry is required for the
    /// scope to be meaningful; [`Scope::from_config`] enforces this.
    #[serde(default)]
    pub allow: Vec<ScopeRule>,
    /// Rules capping access below the stated permission level. Empty by
    /// default.
    #[serde(default)]
    pub deny: Vec<ScopeRule>,
}

/// Manifest-level pattern-based tool permission policy.
///
/// Presence of `[permissions]` enables this layer. Rules are evaluated
/// in declaration order; if none match, [`Self::default_action`] is used.
#[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq)]
pub struct ToolPermissionConfig {
    pub default_action: ToolPermissionAction,
    #[serde(default, rename = "rule")]
    pub rules: Vec<ToolPermissionRule>,
}

/// One `[[permissions.rule]]` entry.
#[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq)]
pub struct ToolPermissionRule {
    /// Tool registration name. Matching is case-insensitive at runtime so
    /// manifests may use either `Bash` or `bash`.
    pub tool: String,
    /// Glob-like pattern matched against the tool's permission target
    /// (for built-in tools, commonly `command`, `file_path`, or `pattern`).
    pub pattern: String,
    pub action: ToolPermissionAction,
}

/// Tool permission decision.
#[derive(Debug, Clone, Copy, Serialize, Deserialize, PartialEq, Eq)]
#[serde(rename_all = "snake_case")]
pub enum ToolPermissionAction {
    Allow,
    Deny,
    Ask,
}

/// Context compaction configuration.
///
/// Controls Prune (content removal from old tool results) and Compact
/// (full history summarisation). Omitting `[compaction]` disables both.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct CompactionConfig {
    /// Token budget at the history tail protected from pruning.
    #[serde(default = "default_prune_protected_tokens")]
    pub prune_protected_tokens: u64,

    /// Minimum estimated token savings to trigger a prune.
    #[serde(default = "default_prune_min_savings")]
    pub prune_min_savings: u64,

    /// Proactive (between-turns) compaction threshold.
    ///
    /// Checked by the Controller after each run. When current occupancy
    /// exceeds this value, compact runs before the next turn. `None`
    /// disables the between-turns check.
    #[serde(default)]
    pub compact_threshold: Option<u64>,

    /// Safety-net (between-requests) compaction threshold.
    ///
    /// Checked by `PodInterceptor::pre_llm_request` inside a turn. When
    /// current occupancy exceeds this value, the run yields so that the
    /// Controller can compact before the next LLM request. `None`
    /// disables the between-requests check.
    ///
    /// Expected relation: `compact_threshold < compact_request_threshold`
    /// (proactive triggers before safety net). A reversed configuration
    /// is accepted but logged as a warning.
    #[serde(default)]
    pub compact_request_threshold: Option<u64>,

    /// Token budget retained verbatim at the tail of the history after
    /// compaction. Measured against the occupancy estimate from
    /// `UsageRecord` history; turn boundaries are ignored.
    #[serde(default = "default_compact_retained_tokens")]
    pub compact_retained_tokens: u64,

    /// Aggregate token budget for auto-read file contents injected into
    /// the compacted session by the compact worker.
    #[serde(default = "default_compact_auto_read_budget")]
    pub compact_auto_read_budget: u64,

    /// Current prompt-occupancy cap for the compact worker's own LLM
    /// requests. Exceeding this aborts the compact run.
    #[serde(default = "default_compact_worker_max_input_tokens")]
    pub compact_worker_max_input_tokens: u64,

    /// Optional maximum compact-worker tool-loop depth. `None` leaves the
    /// worker unlimited; the default bounds runaway short-context loops.
    #[serde(default = "default_compact_worker_max_turns")]
    pub compact_worker_max_turns: Option<u32>,

    /// Optional model for the compactor (summary) LLM.
    /// If omitted, the main model is cloned via `clone_boxed()`.
    #[serde(default)]
    pub model: Option<ModelManifest>,
}

fn default_prune_protected_tokens() -> u64 {
    defaults::PRUNE_PROTECTED_TOKENS
}
fn default_prune_min_savings() -> u64 {
    defaults::PRUNE_MIN_SAVINGS
}
fn default_compact_retained_tokens() -> u64 {
    defaults::COMPACT_RETAINED_TOKENS
}
fn default_compact_auto_read_budget() -> u64 {
    defaults::COMPACT_AUTO_READ_BUDGET
}
fn default_compact_worker_max_input_tokens() -> u64 {
    defaults::COMPACT_WORKER_MAX_INPUT_TOKENS
}
fn default_compact_worker_max_turns() -> Option<u32> {
    defaults::COMPACT_WORKER_MAX_TURNS
}

impl Default for CompactionConfig {
    fn default() -> Self {
        Self {
            prune_protected_tokens: default_prune_protected_tokens(),
            prune_min_savings: default_prune_min_savings(),
            compact_threshold: None,
            compact_request_threshold: None,
            compact_retained_tokens: default_compact_retained_tokens(),
            compact_auto_read_budget: default_compact_auto_read_budget(),
            compact_worker_max_input_tokens: default_compact_worker_max_input_tokens(),
            compact_worker_max_turns: default_compact_worker_max_turns(),
            model: None,
        }
    }
}

impl PodManifest {
    /// Parse a manifest from a TOML string.
    pub fn from_toml(s: &str) -> Result<Self, toml::de::Error> {
        config::reject_removed_manifest_fields(s)?;
        toml::from_str(s)
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    const MINIMAL_REQUIRED: &str = r#"
[pod]
name = "test-agent"

[model]
scheme = "anthropic"
model_id = "claude-sonnet-4-20250514"

[worker]

[[scope.allow]]
target = "/abs/scope"
permission = "write"
"#;

    #[test]
    fn parse_minimal_manifest() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        assert_eq!(manifest.pod.name, "test-agent");
        assert_eq!(manifest.model.scheme, Some(SchemeKind::Anthropic));
        assert_eq!(
            manifest.model.model_id.as_deref(),
            Some("claude-sonnet-4-20250514")
        );
        assert!(manifest.model.auth.is_none());
        assert_eq!(manifest.scope.allow.len(), 1);
        assert!(manifest.scope.deny.is_empty());
        assert_eq!(manifest.worker.instruction, defaults::DEFAULT_INSTRUCTION);
        assert!(manifest.worker.top_p.is_none());
        assert!(manifest.worker.top_k.is_none());
        assert!(manifest.worker.stop_sequences.is_empty());
    }

    #[test]
    fn parse_full_manifest() {
        let toml = r#"
[pod]
name = "code-reviewer"

[model]
scheme = "anthropic"
model_id = "claude-sonnet-4-20250514"
auth = { kind = "api_key", file = "/abs/keys/anthropic" }

[worker]
instruction = "$user/reviewer"
max_tokens = 4096
temperature = 0.3
top_p = 0.9
top_k = 40
stop_sequences = ["\n\n", "</stop>"]
reasoning = "medium"

[[scope.allow]]
target = "/abs/project"
permission = "write"

[[scope.allow]]
target = "/abs/docs"
permission = "read"
recursive = false

[[scope.deny]]
target = "/abs/project/secrets.rs"
permission = "write"
"#;
        let manifest = PodManifest::from_toml(toml).unwrap();
        assert_eq!(manifest.pod.name, "code-reviewer");
        let file = match manifest.model.auth.as_ref() {
            Some(AuthRef::ApiKey { file, .. }) => file.as_deref(),
            _ => panic!("expected ApiKey"),
        };
        assert_eq!(file, Some(std::path::Path::new("/abs/keys/anthropic")));
        assert_eq!(manifest.worker.instruction, "$user/reviewer");
        assert_eq!(manifest.worker.max_tokens, Some(4096));
        assert_eq!(manifest.worker.temperature, Some(0.3));
        assert_eq!(manifest.worker.top_p, Some(0.9));
        assert_eq!(manifest.worker.top_k, Some(40));
        assert_eq!(manifest.worker.stop_sequences, vec!["\n\n", "</stop>"]);
        assert_eq!(
            manifest.worker.reasoning,
            Some(ReasoningControl::Effort(ReasoningEffort::Medium))
        );
        let allow = &manifest.scope.allow;
        assert_eq!(allow.len(), 2);
        assert_eq!(allow[0].permission, Permission::Write);
        assert!(allow[0].recursive);
        assert_eq!(allow[1].permission, Permission::Read);
        assert!(!allow[1].recursive);
        assert_eq!(manifest.scope.deny.len(), 1);
        assert_eq!(manifest.scope.deny[0].permission, Permission::Write);
    }

    #[test]
    fn reject_missing_scope() {
        let toml = r#"
[pod]
name = "missing-scope"

[model]
scheme = "anthropic"
model_id = "claude-sonnet-4-20250514"

[worker]
"#;
        assert!(PodManifest::from_toml(toml).is_err());
    }

    #[test]
    fn parse_max_turns() {
        let toml = MINIMAL_REQUIRED.replace("[worker]\n", "[worker]\nmax_turns = 50\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        assert_eq!(manifest.worker.max_turns.unwrap().get(), 50);
    }

    #[test]
    fn parse_reasoning_budget() {
        let toml = MINIMAL_REQUIRED.replace("[worker]\n", "[worker]\nreasoning = -1\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        assert_eq!(
            manifest.worker.reasoning,
            Some(ReasoningControl::BudgetTokens(-1))
        );
    }

    #[test]
    fn omitted_max_turns_is_none() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        assert!(manifest.worker.max_turns.is_none());
    }

    #[test]
    fn reject_max_turns_zero() {
        let toml = MINIMAL_REQUIRED.replace("[worker]\n", "[worker]\nmax_turns = 0\n");
        assert!(PodManifest::from_toml(&toml).is_err());
    }

    #[test]
    fn parse_compaction_config() {
        let toml = format!("{MINIMAL_REQUIRED}\n[compaction]\ncompact_threshold = 80000\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let c = manifest.compaction.unwrap();
        assert_eq!(c.prune_protected_tokens, 8000);
        assert_eq!(c.prune_min_savings, 4096);
        assert_eq!(c.compact_threshold, Some(80000));
        assert_eq!(c.compact_request_threshold, None);
        assert_eq!(c.compact_retained_tokens, 8000);
        assert_eq!(c.compact_worker_max_turns, Some(20));
    }

    #[test]
    fn reject_removed_prune_protected_turns_field() {
        let toml = format!("{MINIMAL_REQUIRED}\n[compaction]\nprune_protected_turns = 3\n");
        let err = PodManifest::from_toml(&toml).unwrap_err();
        assert!(
            err.to_string().contains("compaction.prune_protected_turns"),
            "unexpected error: {err}"
        );
    }

    #[test]
    fn parse_compaction_worker_max_turns() {
        let toml = format!(
            "{MINIMAL_REQUIRED}\n\
             [compaction]\n\
             compact_worker_max_turns = 7\n"
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let c = manifest.compaction.unwrap();
        assert_eq!(c.compact_worker_max_turns, Some(7));
    }

    #[test]
    fn parse_compaction_both_thresholds() {
        let toml = format!(
            "{MINIMAL_REQUIRED}\n\
             [compaction]\n\
             compact_threshold = 80000\n\
             compact_request_threshold = 90000\n"
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let c = manifest.compaction.unwrap();
        assert_eq!(c.compact_threshold, Some(80000));
        assert_eq!(c.compact_request_threshold, Some(90000));
    }

    #[test]
    fn parse_compaction_request_threshold_only() {
        let toml = format!(
            "{MINIMAL_REQUIRED}\n\
             [compaction]\n\
             compact_request_threshold = 90000\n"
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let c = manifest.compaction.unwrap();
        assert_eq!(c.compact_threshold, None);
        assert_eq!(c.compact_request_threshold, Some(90000));
    }

    #[test]
    fn parse_compaction_with_model() {
        let toml = format!(
            "{MINIMAL_REQUIRED}\n\
             [compaction]\n\
             compact_threshold = 80000\n\n\
             [compaction.model]\n\
             scheme = \"gemini\"\n\
             model_id = \"gemini-2.0-flash\"\n"
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let c = manifest.compaction.unwrap();
        let p = c.model.unwrap();
        assert_eq!(p.scheme, Some(SchemeKind::Gemini));
        assert_eq!(p.model_id.as_deref(), Some("gemini-2.0-flash"));
    }

    #[test]
    fn omitted_compaction_is_none() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        assert!(manifest.compaction.is_none());
    }

    #[test]
    fn omitted_memory_is_none() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        assert!(manifest.memory.is_none());
    }

    #[test]
    fn empty_memory_section_enables_with_default_root() {
        let toml = format!("{MINIMAL_REQUIRED}\n[memory]\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let mem = manifest.memory.expect("memory section parsed");
        assert!(mem.workspace_root.is_none());
    }

    #[test]
    fn memory_section_with_explicit_root() {
        let toml = format!("{MINIMAL_REQUIRED}\n[memory]\nworkspace_root = \"/some/where\"\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let mem = manifest.memory.unwrap();
        assert_eq!(
            mem.workspace_root.unwrap(),
            std::path::PathBuf::from("/some/where")
        );
    }

    #[test]
    fn memory_section_with_language() {
        let toml = format!("{MINIMAL_REQUIRED}\n[memory]\nlanguage = \"Japanese\"\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let mem = manifest.memory.unwrap();
        assert_eq!(mem.language.as_deref(), Some("Japanese"));
    }

    #[test]
    fn reject_unknown_scheme() {
        let toml =
            MINIMAL_REQUIRED.replace("scheme = \"anthropic\"", "scheme = \"unknown_scheme\"");
        assert!(PodManifest::from_toml(&toml).is_err());
    }

    #[test]
    fn omitted_limits_fall_back_to_defaults() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        let limits = &manifest.worker.tool_output;
        assert_eq!(limits.default_max_bytes, defaults::TOOL_OUTPUT_MAX_BYTES);
        assert!(limits.per_tool.is_empty());
        assert_eq!(
            manifest.worker.file_upload.max_bytes,
            defaults::FILE_UPLOAD_MAX_BYTES
        );
    }

    #[test]
    fn worker_language_defaults_and_parses() {
        let manifest = PodManifest::from_toml(MINIMAL_REQUIRED).unwrap();
        assert_eq!(manifest.worker.language, defaults::WORKER_LANGUAGE);

        let toml = MINIMAL_REQUIRED.replace("[worker]\n", "[worker]\nlanguage = \"Japanese\"\n");
        let manifest = PodManifest::from_toml(&toml).unwrap();
        assert_eq!(manifest.worker.language, "Japanese");
    }

    #[test]
    fn parse_worker_output_limits() {
        let toml = MINIMAL_REQUIRED.replace(
            "[worker]\n",
            "[worker]\n\
             [worker.tool_output]\n\
             default_max_bytes = 8192\n\n\
             [worker.tool_output.per_tool]\n\
             Read = 32768\n\
             Grep = 4096\n\n\
             [worker.file_upload]\n\
             max_bytes = 12345\n",
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let limits = &manifest.worker.tool_output;
        assert_eq!(limits.default_max_bytes, 8192);
        assert_eq!(limits.limit_for("Read"), 32768);
        assert_eq!(limits.limit_for("Grep"), 4096);
        assert_eq!(limits.limit_for("Unknown"), 8192);
        assert_eq!(manifest.worker.file_upload.max_bytes, 12345);
    }

    #[test]
    fn empty_tool_output_section_uses_default_max_bytes() {
        let toml = MINIMAL_REQUIRED.replace(
            "[worker]\n",
            "[worker]\n\
             [worker.tool_output]\n",
        );
        let manifest = PodManifest::from_toml(&toml).unwrap();
        let limits = &manifest.worker.tool_output;
        assert_eq!(limits.default_max_bytes, defaults::TOOL_OUTPUT_MAX_BYTES);
        assert!(limits.per_tool.is_empty());
    }

    #[test]
    fn default_recursive_true() {
        let rule: ScopeRule = toml::from_str(
            r#"
target = "./"
permission = "read"
"#,
        )
        .unwrap();
        assert!(rule.recursive);
    }
}