use async_trait::async_trait;
use futures::future;
use serde::Serialize;
use serde_json::Value;
use crate::config::EmbeddingConfig;
use crate::engine::EmbeddingEngine;
use crate::error::{EmbeddingError, EmbeddingResult};
use crate::utils::{handle_embedding_response, sanitize_embedding_inputs};
#[derive(Serialize)]
struct OllamaEmbedRequest<'a> {
model: &'a str,
input: &'a str,
#[serde(skip_serializing_if = "Option::is_none")]
dimensions: Option<usize>,
}
pub struct OllamaEmbeddingEngine {
client: reqwest::Client,
endpoint: String,
model: String,
dimensions: usize,
batch_size: usize,
max_completion_tokens: usize,
}
impl OllamaEmbeddingEngine {
pub fn new(config: &EmbeddingConfig) -> EmbeddingResult<Self> {
let endpoint = config
.endpoint
.clone()
.unwrap_or_else(|| "http://localhost:11434/api/embed".to_string());
let mut default_headers = reqwest::header::HeaderMap::new();
if let Some(api_key) = &config.api_key
&& !api_key.is_empty()
{
let bearer = format!("Bearer {api_key}");
let auth_value = reqwest::header::HeaderValue::from_str(&bearer)
.map_err(|e| EmbeddingError::ConfigError(format!("Invalid API key value: {e}")))?;
default_headers.insert(reqwest::header::AUTHORIZATION, auth_value);
}
let client = reqwest::Client::builder()
.default_headers(default_headers)
.timeout(std::time::Duration::from_secs(30))
.build()
.map_err(|e| {
EmbeddingError::ConfigError(format!("Failed to build HTTP client: {e}"))
})?;
Ok(Self {
client,
endpoint,
model: config.model.clone(),
dimensions: config.dimensions,
batch_size: config.batch_size,
max_completion_tokens: config.max_completion_tokens,
})
}
fn truncate_text<'a>(&self, text: &'a str) -> &'a str {
let char_limit = self.max_completion_tokens * 4;
let byte_pos = text
.char_indices()
.nth(char_limit)
.map(|(i, _)| i)
.unwrap_or(text.len());
&text[..byte_pos]
}
async fn embed_single_once(&self, text: &str) -> EmbeddingResult<Vec<f32>> {
let truncated = self.truncate_text(text);
let request_body = OllamaEmbedRequest {
model: &self.model,
input: truncated,
dimensions: if self.dimensions > 0 {
Some(self.dimensions)
} else {
None
},
};
let response = self
.client
.post(&self.endpoint)
.json(&request_body)
.send()
.await
.map_err(|e| EmbeddingError::HttpError(format!("Request failed: {e}")))?;
let status = response.status();
if !status.is_success() {
let body = response
.text()
.await
.unwrap_or_else(|_| "<failed to read body>".to_string());
return Err(if status.as_u16() == 429 || status.is_server_error() {
EmbeddingError::HttpError(format!("HTTP {status}: {body}"))
} else {
EmbeddingError::ApiError(format!("HTTP {status}: {body}"))
});
}
let value: Value = response
.json()
.await
.map_err(|e| EmbeddingError::ApiError(format!("Failed to parse response: {e}")))?;
extract_embedding_from_value(&value)
}
async fn embed_single_with_retry(&self, text: &str) -> EmbeddingResult<Vec<f32>> {
let max_duration = std::time::Duration::from_secs(128);
let start = std::time::Instant::now();
let mut wait_secs = 8u64;
loop {
match self.embed_single_once(text).await {
Ok(v) => return Ok(v),
Err(e)
if matches!(e, EmbeddingError::HttpError(_))
&& start.elapsed() < max_duration =>
{
let jitter = rand::random::<u64>() % wait_secs;
tokio::time::sleep(std::time::Duration::from_secs(wait_secs + jitter)).await;
wait_secs = (wait_secs * 2).min(128);
}
Err(e) => return Err(e),
}
}
}
async fn embed_all(&self, texts: &[&str]) -> EmbeddingResult<Vec<Vec<f32>>> {
let sanitized = sanitize_embedding_inputs(texts);
let sanitized_refs: Vec<&str> = sanitized.iter().map(|s| s.as_ref()).collect();
let futures: Vec<_> = sanitized_refs
.iter()
.map(|&text| self.embed_single_with_retry(text))
.collect();
let results = future::join_all(futures).await;
let embeddings: EmbeddingResult<Vec<Vec<f32>>> = results.into_iter().collect();
Ok(handle_embedding_response(
texts,
embeddings?,
self.dimensions,
))
}
}
#[async_trait]
impl EmbeddingEngine for OllamaEmbeddingEngine {
async fn embed(&self, texts: &[&str]) -> EmbeddingResult<Vec<Vec<f32>>> {
if texts.is_empty() {
return Ok(Vec::new());
}
self.embed_all(texts).await
}
fn dimension(&self) -> usize {
self.dimensions
}
fn batch_size(&self) -> usize {
self.batch_size
}
fn max_sequence_length(&self) -> usize {
self.max_completion_tokens
}
}
fn extract_embedding_from_value(value: &Value) -> EmbeddingResult<Vec<f32>> {
if let Some(embeddings) = value.get("embeddings") {
if let Some(first) = embeddings.get(0) {
return parse_f32_array(first);
}
return Err(EmbeddingError::ApiError(
"Response 'embeddings' array is empty".to_string(),
));
}
if let Some(embedding) = value.get("embedding") {
return parse_f32_array(embedding);
}
if let Some(data) = value.get("data") {
if let Some(first) = data.get(0)
&& let Some(embedding) = first.get("embedding")
{
return parse_f32_array(embedding);
}
return Err(EmbeddingError::ApiError(
"Response 'data' array is empty or missing 'embedding' field".to_string(),
));
}
Err(EmbeddingError::ApiError(format!(
"Unrecognised response shape; expected 'embeddings', 'embedding', or 'data' key. Got: {value}"
)))
}
fn parse_f32_array(value: &Value) -> EmbeddingResult<Vec<f32>> {
let arr = value.as_array().ok_or_else(|| {
EmbeddingError::ApiError(format!("Expected a JSON array for embedding, got: {value}"))
})?;
arr.iter()
.map(|v| {
v.as_f64().map(|f| f as f32).ok_or_else(|| {
EmbeddingError::ApiError(format!("Non-numeric value in embedding array: {v}"))
})
})
.collect()
}
#[cfg(test)]
#[allow(
clippy::expect_used,
clippy::unwrap_used,
reason = "test code — panics are acceptable failures"
)]
mod tests {
use super::*;
use crate::config::EmbeddingConfig;
use crate::provider::EmbeddingProvider;
fn make_config() -> EmbeddingConfig {
EmbeddingConfig {
provider: EmbeddingProvider::Ollama,
model: "avr/sfr-embedding-mistral:latest".to_string(),
dimensions: 1024,
endpoint: None,
api_key: None,
api_version: None,
max_completion_tokens: 8191,
batch_size: 10,
mock: false,
mock_mode: Default::default(),
#[cfg(feature = "onnx")]
onnx: Default::default(),
huggingface_tokenizer: None,
}
}
#[test]
fn test_constructor_defaults() {
let config = make_config();
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
assert_eq!(engine.endpoint, "http://localhost:11434/api/embed");
assert_eq!(engine.model, "avr/sfr-embedding-mistral:latest");
assert_eq!(engine.dimension(), 1024);
assert_eq!(engine.batch_size(), 10);
assert_eq!(engine.max_sequence_length(), 8191);
}
#[test]
fn test_constructor_custom_endpoint() {
let config = EmbeddingConfig {
endpoint: Some("http://my-ollama:11434/api/embed".to_string()),
..make_config()
};
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
assert_eq!(engine.endpoint, "http://my-ollama:11434/api/embed");
}
#[test]
fn test_truncate_text_short() {
let config = EmbeddingConfig {
max_completion_tokens: 10,
..make_config()
};
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
let result = engine.truncate_text("hello");
assert_eq!(result, "hello");
}
#[test]
fn test_truncate_text_exact_limit() {
let config = EmbeddingConfig {
max_completion_tokens: 2,
..make_config()
};
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
let result = engine.truncate_text("abcdefgh");
assert_eq!(result, "abcdefgh");
}
#[test]
fn test_truncate_text_over_limit() {
let config = EmbeddingConfig {
max_completion_tokens: 2,
..make_config()
};
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
let result = engine.truncate_text("abcdefghij");
assert_eq!(result, "abcdefgh");
}
#[test]
fn test_truncate_text_unicode_boundary() {
let config = EmbeddingConfig {
max_completion_tokens: 1,
..make_config()
};
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
let result = engine.truncate_text("héllo");
assert_eq!(result, "héll");
assert!(std::str::from_utf8(result.as_bytes()).is_ok());
}
#[test]
fn test_truncate_text_empty() {
let config = make_config();
let engine = OllamaEmbeddingEngine::new(&config).expect("should construct engine");
assert_eq!(engine.truncate_text(""), "");
}
#[test]
fn test_parse_shape1_embeddings() {
let json = serde_json::json!({
"embeddings": [[0.1_f64, 0.2_f64, 0.3_f64]]
});
let result = extract_embedding_from_value(&json).expect("should parse shape 1");
assert_eq!(result.len(), 3);
assert!((result[0] - 0.1_f32).abs() < 1e-6);
assert!((result[1] - 0.2_f32).abs() < 1e-6);
assert!((result[2] - 0.3_f32).abs() < 1e-6);
}
#[test]
fn test_parse_shape2_embedding() {
let json = serde_json::json!({
"embedding": [0.4_f64, 0.5_f64]
});
let result = extract_embedding_from_value(&json).expect("should parse shape 2");
assert_eq!(result.len(), 2);
assert!((result[0] - 0.4_f32).abs() < 1e-6);
assert!((result[1] - 0.5_f32).abs() < 1e-6);
}
#[test]
fn test_parse_shape3_data() {
let json = serde_json::json!({
"data": [{"embedding": [0.6_f64, 0.7_f64, 0.8_f64]}]
});
let result = extract_embedding_from_value(&json).expect("should parse shape 3");
assert_eq!(result.len(), 3);
assert!((result[0] - 0.6_f32).abs() < 1e-6);
assert!((result[1] - 0.7_f32).abs() < 1e-6);
assert!((result[2] - 0.8_f32).abs() < 1e-6);
}
#[test]
fn test_parse_unrecognised_shape() {
let json = serde_json::json!({ "unknown": "value" });
let result = extract_embedding_from_value(&json);
assert!(result.is_err());
assert!(matches!(result, Err(EmbeddingError::ApiError(_))));
}
#[test]
fn test_parse_empty_embeddings_array() {
let json = serde_json::json!({ "embeddings": [] });
let result = extract_embedding_from_value(&json);
assert!(result.is_err());
assert!(matches!(result, Err(EmbeddingError::ApiError(_))));
}
#[test]
fn test_parse_empty_data_array() {
let json = serde_json::json!({ "data": [] });
let result = extract_embedding_from_value(&json);
assert!(result.is_err());
assert!(matches!(result, Err(EmbeddingError::ApiError(_))));
}
#[test]
fn test_parse_non_numeric_values() {
let json = serde_json::json!({ "embedding": ["not", "numbers"] });
let result = extract_embedding_from_value(&json);
assert!(result.is_err());
assert!(matches!(result, Err(EmbeddingError::ApiError(_))));
}
}