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osiris/docs/ARCHITECTURE.md
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2025-10-20 22:24:25 +02:00

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# OSIRIS Architecture - Trait-Based Generic Objects
## Overview
OSIRIS has been refactored to use a trait-based architecture similar to heromodels, allowing any object implementing the `Object` trait to be stored and indexed automatically based on field attributes.
## Core Concepts
### 1. BaseData
Every OSIRIS object must include `BaseData`, which provides:
- **id**: Unique identifier (UUID or user-assigned)
- **ns**: Namespace the object belongs to
- **created_at**: Creation timestamp
- **modified_at**: Last modification timestamp
- **mime**: Optional MIME type
- **size**: Optional content size
```rust
pub struct BaseData {
pub id: String,
pub ns: String,
pub created_at: OffsetDateTime,
pub modified_at: OffsetDateTime,
pub mime: Option<String>,
pub size: Option<u64>,
}
```
### 2. Object Trait
The `Object` trait is the core abstraction for all OSIRIS objects:
```rust
pub trait Object: Debug + Clone + Serialize + Deserialize + Send + Sync {
/// Get the object type name
fn object_type() -> &'static str where Self: Sized;
/// Get base data reference
fn base_data(&self) -> &BaseData;
/// Get mutable base data reference
fn base_data_mut(&mut self) -> &mut BaseData;
/// Get index keys for this object (auto-generated from #[index] fields)
fn index_keys(&self) -> Vec<IndexKey>;
/// Get list of indexed field names
fn indexed_fields() -> Vec<&'static str> where Self: Sized;
/// Get searchable text content
fn searchable_text(&self) -> Option<String>;
/// Serialize to JSON
fn to_json(&self) -> Result<String>;
/// Deserialize from JSON
fn from_json(json: &str) -> Result<Self> where Self: Sized;
}
```
### 3. IndexKey
Represents an index entry for a field:
```rust
pub struct IndexKey {
pub name: &'static str, // Field name
pub value: String, // Field value
}
```
## Example: Note Object
```rust
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Note {
pub base_data: BaseData,
// Indexed field - marked with #[index]
#[index]
pub title: Option<String>,
// Searchable content (not indexed)
pub content: Option<String>,
// Indexed tags - marked with #[index]
#[index]
pub tags: BTreeMap<String, String>,
}
impl Object for Note {
fn object_type() -> &'static str {
"note"
}
fn base_data(&self) -> &BaseData {
&self.base_data
}
fn base_data_mut(&mut self) -> &mut BaseData {
&mut self.base_data
}
fn index_keys(&self) -> Vec<IndexKey> {
let mut keys = Vec::new();
// Index title
if let Some(title) = &self.title {
keys.push(IndexKey::new("title", title));
}
// Index tags
for (key, value) in &self.tags {
keys.push(IndexKey::new(&format!("tag:{}", key), value));
}
keys
}
fn indexed_fields() -> Vec<&'static str> {
vec!["title", "tags"]
}
fn searchable_text(&self) -> Option<String> {
let mut text = String::new();
if let Some(title) = &self.title {
text.push_str(title);
text.push(' ');
}
if let Some(content) = &self.content {
text.push_str(content);
}
if text.is_empty() { None } else { Some(text) }
}
}
```
## Example: Event Object
```rust
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Event {
pub base_data: BaseData,
#[index]
pub title: String,
pub description: Option<String>,
#[index]
pub start_time: OffsetDateTime,
pub end_time: OffsetDateTime,
#[index]
pub location: Option<String>,
#[index]
pub status: EventStatus,
pub all_day: bool,
#[index]
pub category: Option<String>,
}
impl Object for Event {
fn object_type() -> &'static str {
"event"
}
fn base_data(&self) -> &BaseData {
&self.base_data
}
fn base_data_mut(&mut self) -> &mut BaseData {
&mut self.base_data
}
fn index_keys(&self) -> Vec<IndexKey> {
let mut keys = Vec::new();
keys.push(IndexKey::new("title", &self.title));
if let Some(location) = &self.location {
keys.push(IndexKey::new("location", location));
}
let status_str = match self.status {
EventStatus::Draft => "draft",
EventStatus::Published => "published",
EventStatus::Cancelled => "cancelled",
};
keys.push(IndexKey::new("status", status_str));
if let Some(category) = &self.category {
keys.push(IndexKey::new("category", category));
}
// Index by date for day-based queries
let date_str = self.start_time.date().to_string();
keys.push(IndexKey::new("date", date_str));
keys
}
fn indexed_fields() -> Vec<&'static str> {
vec!["title", "location", "status", "category", "start_time"]
}
fn searchable_text(&self) -> Option<String> {
let mut text = String::new();
text.push_str(&self.title);
text.push(' ');
if let Some(description) = &self.description {
text.push_str(description);
}
Some(text)
}
}
```
## Storage Layer
### GenericStore
The `GenericStore` provides a type-safe storage layer for any object implementing `Object`:
```rust
pub struct GenericStore {
client: HeroDbClient,
index: FieldIndex,
}
impl GenericStore {
/// Store an object
pub async fn put<T: Object>(&self, obj: &T) -> Result<()>;
/// Get an object by ID
pub async fn get<T: Object>(&self, ns: &str, id: &str) -> Result<T>;
/// Delete an object
pub async fn delete<T: Object>(&self, obj: &T) -> Result<bool>;
/// Get IDs matching an index key
pub async fn get_ids_by_index(&self, ns: &str, field: &str, value: &str) -> Result<Vec<String>>;
}
```
### Usage Example
```rust
use osiris::objects::Note;
use osiris::store::{GenericStore, HeroDbClient};
// Create store
let client = HeroDbClient::new("redis://localhost:6379", 1)?;
let store = GenericStore::new(client);
// Create and store a note
let note = Note::new("notes".to_string())
.set_title("My Note")
.set_content("This is the content")
.add_tag("topic", "rust")
.add_tag("priority", "high");
store.put(&note).await?;
// Retrieve the note
let retrieved: Note = store.get("notes", &note.id()).await?;
// Search by index
let ids = store.get_ids_by_index("notes", "tag:topic", "rust").await?;
```
## Index Storage
### Keyspace Design
```
obj:<ns>:<id> → JSON serialized object
idx:<ns>:<field>:<value> → Set of object IDs
scan:<ns> → Set of all object IDs in namespace
```
### Examples
```
obj:notes:abc123 → {"base_data":{...},"title":"My Note",...}
idx:notes:title:My Note → {abc123, def456}
idx:notes:tag:topic:rust → {abc123, xyz789}
idx:notes:mime:text/plain → {abc123}
scan:notes → {abc123, def456, xyz789}
```
## Automatic Indexing
When an object is stored:
1. **Serialize** the object to JSON
2. **Store** at `obj:<ns>:<id>`
3. **Generate index keys** by calling `obj.index_keys()`
4. **Create indexes** for each key at `idx:<ns>:<field>:<value>`
5. **Add to scan index** at `scan:<ns>`
When an object is deleted:
1. **Retrieve** the object
2. **Generate index keys**
3. **Remove** from all indexes
4. **Delete** the object
## Comparison with heromodels
| Feature | heromodels | OSIRIS |
|---------|-----------|--------|
| Base struct | `BaseModelData` | `BaseData` |
| Core trait | `Model` | `Object` |
| ID type | `u32` (auto-increment) | `String` (UUID) |
| Timestamps | `i64` (Unix) | `OffsetDateTime` |
| Index macro | `#[index]` (derive) | Manual `index_keys()` |
| Storage | OurDB/Postgres | HeroDB (Redis) |
| Serialization | CBOR/JSON | JSON |
## Future Enhancements
### 1. Derive Macro for #[index]
Create a proc macro to automatically generate `index_keys()` from field attributes:
```rust
#[derive(Object)]
pub struct Note {
pub base_data: BaseData,
#[index]
pub title: Option<String>,
pub content: Option<String>,
#[index]
pub tags: BTreeMap<String, String>,
}
```
### 2. Query Builder
Type-safe query builder for indexed fields:
```rust
let results = store
.query::<Note>("notes")
.filter("tag:topic", "rust")
.filter("tag:priority", "high")
.limit(10)
.execute()
.await?;
```
### 3. Relations
Support for typed relations between objects:
```rust
pub struct Note {
pub base_data: BaseData,
pub title: String,
#[relation(target = "Note", label = "references")]
pub references: Vec<String>,
}
```
### 4. Validation
Trait-based validation:
```rust
pub trait Validate {
fn validate(&self) -> Result<()>;
}
impl Validate for Note {
fn validate(&self) -> Result<()> {
if self.title.is_none() {
return Err(Error::InvalidInput("Title required".into()));
}
Ok(())
}
}
```
## Migration from Old API
The old `OsirisObject` API is still available for backwards compatibility:
```rust
// Old API (still works)
use osiris::store::OsirisObject;
let obj = OsirisObject::new("notes".to_string(), Some("text".to_string()));
// New API (recommended)
use osiris::objects::Note;
let note = Note::new("notes".to_string())
.set_title("Title")
.set_content("text");
```
## Benefits of Trait-Based Architecture
1. **Type Safety**: Compile-time guarantees for object types
2. **Extensibility**: Easy to add new object types
3. **Automatic Indexing**: Index keys generated from object structure
4. **Consistency**: Same pattern as heromodels
5. **Flexibility**: Each object type controls its own indexing logic
6. **Testability**: Easy to mock and test individual object types
## Summary
The trait-based architecture makes OSIRIS:
- **More flexible**: Any type can be stored by implementing `Object`
- **More consistent**: Follows heromodels patterns
- **More powerful**: Automatic indexing based on object structure
- **More maintainable**: Clear separation of concerns
- **More extensible**: Easy to add new object types and features
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