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0.7.12

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SinuS von SifriduS
2026-04-29 11:21:40 +02:00
parent 7fbeb8826b
commit e37f8415fb
8 changed files with 1349 additions and 9 deletions
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1
CHANGELOG.md
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@@ -42,3 +42,4 @@
0.7.9 - Ajout dun registre des surfaces de lancement, dune attribution automatique des pools détectés à une origine de lancement, et dun premier support Meteora Fun Launch au-dessus de Meteora DBC / DAMM
0.7.10 - Ajout du premier support Orca Whirlpools avec décodage create_pool/swap, persistance des événements décodés et détection métier automatique pool/pair/listing
0.7.11 - Ajout du premier support FluxBeam avec décodage create_pool/swap, persistance des événements décodés et détection métier automatique pool/pair/listing
0.7.12 - Ajout du premier support DexLab Swap/Pool avec décodage create_pool/swap, persistance des événements décodés et détection métier automatique pool/pair/listing

2
Cargo.toml
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@@ -8,7 +8,7 @@ members = [
]
[workspace.package]
version = "0.7.11"
version = "0.7.12"
edition = "2024"
license = "MIT"
repository = "https://git.sasedev.com/Sasedev/khadhroony-bobobot"

15
ROADMAP.md
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@@ -568,15 +568,14 @@ Réalisé :
- conservation dun premier décodage heuristique à raffiner ultérieurement avec des transactions FluxBeam réelles.
### 6.044. Version `0.7.12` — DexLab
Objectif : couvrir un connecteur DEX / LP supplémentaire utile à la détection de listings.
Réalisé :
À faire :
- ajouter un décodeur dédié `DexLab`,
- identifier les événements utiles de création de pool et de swaps,
- persister les événements décodés dans `kb_dex_decoded_events`,
- ajouter la détection métier `pool / pair / listing` pour `DexLab`,
- conserver un découpage explicite entre protocole on-chain et surfaces démission.
- ajout du premier décodeur `DexLab Swap/Pool`,
- prise en charge initiale des événements de création de pool via un premier décodage `create_pool / initialize_pool`,
- prise en charge initiale des swaps via `swap`,
- persistance des événements `DexLab` dans `kb_dex_decoded_events`,
- ajout de la détection métier `DexLab` vers `pool / pair / listing`,
- conservation dune séparation entre pool DexLab natif et éventuel `OpenBook Market ID` créé ensuite.
### 6.045. Version `0.7.13` — Bags / Moonit comme origines de lancement
Objectif : étendre la couche `launch origins` à dautres surfaces au-dessus des protocoles DEX déjà intégrés.

7
kb_lib/src/dex.rs
View File

@@ -2,6 +2,7 @@
//! DEX-specific transaction decoders.
mod dexlab;
mod fluxbeam;
mod meteora_damm_v1;
mod meteora_damm_v2;
@@ -11,6 +12,12 @@ mod pump_fun;
mod pump_swap;
mod raydium_amm_v4;
pub use dexlab::KB_DEXLAB_PROGRAM_ID;
pub use dexlab::KbDexlabCreatePoolDecoded;
pub use dexlab::KbDexlabDecodedEvent;
pub use dexlab::KbDexlabDecoder;
pub use dexlab::KbDexlabSwapDecoded;
pub use fluxbeam::KB_FLUXBEAM_PROGRAM_ID;
pub use fluxbeam::KbFluxbeamCreatePoolDecoded;
pub use fluxbeam::KbFluxbeamDecodedEvent;

621
kb_lib/src/dex/dexlab.rs Normal file
View File

@@ -0,0 +1,621 @@
// file: kb_lib/src/dex/dexlab.rs
//! DexLab Swap/Pool transaction decoder.
/// DexLab Swap/Pool program id.
pub const KB_DEXLAB_PROGRAM_ID: &str = "DSwpgjMvXhtGn6BsbqmacdBZyfLj6jSWf3HJpdJtmg6N";
/// Decoded DexLab create-pool event.
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize)]
pub struct KbDexlabCreatePoolDecoded {
/// Parent transaction id.
pub transaction_id: i64,
/// Parent instruction id.
pub instruction_id: i64,
/// Transaction signature.
pub signature: std::string::String,
/// Program id.
pub program_id: std::string::String,
/// Optional pool account.
pub pool_account: std::option::Option<std::string::String>,
/// Optional token A mint.
pub token_a_mint: std::option::Option<std::string::String>,
/// Optional token B mint.
pub token_b_mint: std::option::Option<std::string::String>,
/// Optional creator / payer.
pub creator: std::option::Option<std::string::String>,
/// Optional fee tier representation.
pub fee_tier: std::option::Option<std::string::String>,
/// Decoded payload.
pub payload_json: serde_json::Value,
}
/// Decoded DexLab swap event.
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize)]
pub struct KbDexlabSwapDecoded {
/// Parent transaction id.
pub transaction_id: i64,
/// Parent instruction id.
pub instruction_id: i64,
/// Transaction signature.
pub signature: std::string::String,
/// Program id.
pub program_id: std::string::String,
/// Trade side relative to normalized base.
pub trade_side: crate::KbSwapTradeSide,
/// Optional pool account.
pub pool_account: std::option::Option<std::string::String>,
/// Optional token A mint.
pub token_a_mint: std::option::Option<std::string::String>,
/// Optional token B mint.
pub token_b_mint: std::option::Option<std::string::String>,
/// Decoded payload.
pub payload_json: serde_json::Value,
}
/// Decoded DexLab event.
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize)]
pub enum KbDexlabDecodedEvent {
/// Pool creation.
CreatePool(KbDexlabCreatePoolDecoded),
/// Swap.
Swap(KbDexlabSwapDecoded),
}
/// DexLab decoder.
#[derive(Debug, Clone, Default)]
pub struct KbDexlabDecoder;
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
enum KbDexlabInstructionKind {
CreatePool,
Swap,
Unknown,
}
impl KbDexlabDecoder {
/// Creates a new decoder.
pub fn new() -> Self {
Self
}
/// Decodes one projected transaction into zero or more DexLab events.
pub fn decode_transaction(
&self,
transaction: &crate::KbChainTransactionDto,
instructions: &[crate::KbChainInstructionDto],
) -> Result<std::vec::Vec<crate::KbDexlabDecodedEvent>, crate::KbError> {
let transaction_id_option = transaction.id;
let transaction_id = match transaction_id_option {
Some(transaction_id) => transaction_id,
None => {
return Err(crate::KbError::InvalidState(format!(
"chain transaction '{}' has no internal id",
transaction.signature
)));
}
};
let transaction_json_result =
serde_json::from_str::<serde_json::Value>(transaction.transaction_json.as_str());
let transaction_json = match transaction_json_result {
Ok(transaction_json) => transaction_json,
Err(error) => {
return Err(crate::KbError::Json(format!(
"cannot parse transaction_json for signature '{}': {}",
transaction.signature, error
)));
}
};
let log_messages = kb_extract_log_messages(&transaction_json);
let mut decoded_events = std::vec::Vec::new();
for instruction in instructions {
if instruction.parent_instruction_id.is_some() {
continue;
}
let program_id_option = &instruction.program_id;
let program_id = match program_id_option {
Some(program_id) => program_id,
None => continue,
};
if program_id.as_str() != crate::KB_DEXLAB_PROGRAM_ID {
continue;
}
let instruction_id_option = instruction.id;
let instruction_id = match instruction_id_option {
Some(instruction_id) => instruction_id,
None => continue,
};
let accounts_result = kb_parse_accounts_json(instruction.accounts_json.as_str());
let accounts = match accounts_result {
Ok(accounts) => accounts,
Err(error) => return Err(error),
};
let parsed_json_result =
kb_parse_optional_parsed_json(instruction.parsed_json.as_ref());
let parsed_json = match parsed_json_result {
Ok(parsed_json) => parsed_json,
Err(error) => return Err(error),
};
let instruction_kind =
kb_classify_instruction_kind(parsed_json.as_ref(), &log_messages);
let pool_account = kb_extract_string_by_candidate_keys(
parsed_json.as_ref(),
&[
"pool",
"poolAddress",
"poolAccount",
"amm",
"ammPool",
"poolState",
],
)
.or_else(|| kb_extract_account(&accounts, 0));
let token_a_mint = kb_extract_string_by_candidate_keys(
parsed_json.as_ref(),
&[
"tokenA",
"tokenAMint",
"mintA",
"baseMint",
"token0Mint",
"mint0",
],
)
.or_else(|| kb_extract_account(&accounts, 1));
let token_b_mint = kb_extract_string_by_candidate_keys(
parsed_json.as_ref(),
&[
"tokenB",
"tokenBMint",
"mintB",
"quoteMint",
"token1Mint",
"mint1",
],
)
.or_else(|| kb_extract_account(&accounts, 2));
let creator = kb_extract_string_by_candidate_keys(
parsed_json.as_ref(),
&["payer", "creator", "user", "owner"],
)
.or_else(|| kb_extract_account(&accounts, 3));
let fee_tier = kb_extract_string_by_candidate_keys(
parsed_json.as_ref(),
&["feeTier", "fee_tier", "tradeFeeTier", "feeRate"],
);
if instruction_kind == KbDexlabInstructionKind::CreatePool {
let payload_json = serde_json::json!({
"decoder": "dexlab",
"eventKind": "create_pool",
"signature": transaction.signature,
"instructionId": instruction_id,
"instructionIndex": instruction.instruction_index,
"accounts": accounts,
"parsed": parsed_json,
"logMessages": log_messages,
"poolAccount": pool_account,
"tokenAMint": token_a_mint,
"tokenBMint": token_b_mint,
"creator": creator,
"feeTier": fee_tier
});
decoded_events.push(crate::KbDexlabDecodedEvent::CreatePool(
crate::KbDexlabCreatePoolDecoded {
transaction_id,
instruction_id,
signature: transaction.signature.clone(),
program_id: program_id.clone(),
pool_account,
token_a_mint,
token_b_mint,
creator,
fee_tier,
payload_json,
},
));
continue;
}
if instruction_kind == KbDexlabInstructionKind::Swap {
let trade_side = kb_infer_trade_side(&log_messages);
let payload_json = serde_json::json!({
"decoder": "dexlab",
"eventKind": "swap",
"signature": transaction.signature,
"instructionId": instruction_id,
"instructionIndex": instruction.instruction_index,
"accounts": accounts,
"parsed": parsed_json,
"logMessages": log_messages,
"poolAccount": pool_account,
"tokenAMint": token_a_mint,
"tokenBMint": token_b_mint,
"tradeSide": format!("{:?}", trade_side)
});
decoded_events.push(crate::KbDexlabDecodedEvent::Swap(
crate::KbDexlabSwapDecoded {
transaction_id,
instruction_id,
signature: transaction.signature.clone(),
program_id: program_id.clone(),
trade_side,
pool_account,
token_a_mint,
token_b_mint,
payload_json,
},
));
}
}
Ok(decoded_events)
}
}
fn kb_classify_instruction_kind(
parsed_json: std::option::Option<&serde_json::Value>,
log_messages: &[std::string::String],
) -> KbDexlabInstructionKind {
let parsed_instruction_name = kb_extract_string_by_candidate_keys(
parsed_json,
&["instruction", "instructionName", "type", "name"],
);
if let Some(parsed_instruction_name) = parsed_instruction_name {
let normalized = kb_normalize_text(parsed_instruction_name.as_str());
if normalized.contains("createpool") || normalized.contains("initializepool") {
return KbDexlabInstructionKind::CreatePool;
}
if normalized == "swap" {
return KbDexlabInstructionKind::Swap;
}
}
if kb_log_messages_contain_keyword(log_messages, "create_pool")
|| kb_log_messages_contain_keyword(log_messages, "createpool")
|| kb_log_messages_contain_keyword(log_messages, "initialize_pool")
|| kb_log_messages_contain_keyword(log_messages, "initializepool")
{
return KbDexlabInstructionKind::CreatePool;
}
if kb_log_messages_contain_keyword(log_messages, "swap") {
return KbDexlabInstructionKind::Swap;
}
KbDexlabInstructionKind::Unknown
}
fn kb_extract_log_messages(
transaction_json: &serde_json::Value,
) -> std::vec::Vec<std::string::String> {
let mut messages = std::vec::Vec::new();
let meta_option = transaction_json.get("meta");
let meta = match meta_option {
Some(meta) => meta,
None => return messages,
};
let logs_option = meta.get("logMessages");
let logs = match logs_option {
Some(logs) => logs,
None => return messages,
};
let logs_array = match logs.as_array() {
Some(logs_array) => logs_array,
None => return messages,
};
for value in logs_array {
let text_option = value.as_str();
if let Some(text) = text_option {
messages.push(text.to_string());
}
}
messages
}
fn kb_log_messages_contain_keyword(log_messages: &[std::string::String], keyword: &str) -> bool {
let keyword_normalized = kb_normalize_text(keyword);
for log_message in log_messages {
let log_normalized = kb_normalize_text(log_message.as_str());
if log_normalized.contains(keyword_normalized.as_str()) {
return true;
}
}
false
}
fn kb_normalize_text(value: &str) -> std::string::String {
let mut normalized = std::string::String::new();
for character in value.chars() {
if character.is_ascii_alphanumeric() {
normalized.push(character.to_ascii_lowercase());
}
}
normalized
}
fn kb_parse_accounts_json(
accounts_json: &str,
) -> Result<std::vec::Vec<std::string::String>, crate::KbError> {
let values_result = serde_json::from_str::<std::vec::Vec<serde_json::Value>>(accounts_json);
let values = match values_result {
Ok(values) => values,
Err(error) => {
return Err(crate::KbError::Json(format!(
"cannot parse instruction accounts_json '{}': {}",
accounts_json, error
)));
}
};
let mut accounts = std::vec::Vec::new();
for value in values {
let text_option = value.as_str();
if let Some(text) = text_option {
accounts.push(text.to_string());
}
}
Ok(accounts)
}
fn kb_parse_optional_parsed_json(
parsed_json: std::option::Option<&std::string::String>,
) -> Result<std::option::Option<serde_json::Value>, crate::KbError> {
let parsed_json = match parsed_json {
Some(parsed_json) => parsed_json,
None => return Ok(None),
};
let value_result = serde_json::from_str::<serde_json::Value>(parsed_json.as_str());
match value_result {
Ok(value) => Ok(Some(value)),
Err(error) => Err(crate::KbError::Json(format!(
"cannot parse instruction parsed_json '{}': {}",
parsed_json, error
))),
}
}
fn kb_extract_string_by_candidate_keys(
value: std::option::Option<&serde_json::Value>,
candidate_keys: &[&str],
) -> std::option::Option<std::string::String> {
let value = match value {
Some(value) => value,
None => return None,
};
kb_extract_string_by_candidate_keys_inner(value, candidate_keys)
}
fn kb_extract_string_by_candidate_keys_inner(
value: &serde_json::Value,
candidate_keys: &[&str],
) -> std::option::Option<std::string::String> {
if let Some(object) = value.as_object() {
for candidate_key in candidate_keys {
let direct_option = object.get(*candidate_key);
if let Some(direct) = direct_option {
let direct_text_option = direct.as_str();
if let Some(direct_text) = direct_text_option {
return Some(direct_text.to_string());
}
}
}
for nested_value in object.values() {
let nested_result =
kb_extract_string_by_candidate_keys_inner(nested_value, candidate_keys);
if nested_result.is_some() {
return nested_result;
}
}
return None;
}
if let Some(array) = value.as_array() {
for nested_value in array {
let nested_result =
kb_extract_string_by_candidate_keys_inner(nested_value, candidate_keys);
if nested_result.is_some() {
return nested_result;
}
}
}
None
}
fn kb_extract_account(
accounts: &[std::string::String],
index: usize,
) -> std::option::Option<std::string::String> {
if index >= accounts.len() {
return None;
}
Some(accounts[index].clone())
}
fn kb_infer_trade_side(log_messages: &[std::string::String]) -> crate::KbSwapTradeSide {
if kb_log_messages_contain_keyword(log_messages, "buy") {
return crate::KbSwapTradeSide::BuyBase;
}
if kb_log_messages_contain_keyword(log_messages, "sell") {
return crate::KbSwapTradeSide::SellBase;
}
crate::KbSwapTradeSide::Unknown
}
#[cfg(test)]
mod tests {
fn make_create_transaction() -> crate::KbChainTransactionDto {
let mut dto = crate::KbChainTransactionDto::new(
"sig-dexlab-create-1".to_string(),
Some(893001),
Some(1779800001),
Some("helius_primary_http".to_string()),
Some("0".to_string()),
None,
None,
serde_json::json!({
"slot": 893001,
"meta": {
"logMessages": [
"Program log: Instruction: CreatePool"
]
},
"transaction": {
"message": {
"instructions": []
}
}
})
.to_string(),
);
dto.id = Some(801);
dto
}
fn make_create_instruction() -> crate::KbChainInstructionDto {
let mut dto = crate::KbChainInstructionDto::new(
801,
None,
0,
None,
Some(crate::KB_DEXLAB_PROGRAM_ID.to_string()),
Some("dexlab".to_string()),
Some(1),
serde_json::json!([
"DexlabPool111",
"DexlabTokenA111",
"So11111111111111111111111111111111111111112",
"DexlabCreator111"
])
.to_string(),
None,
None,
Some(
serde_json::json!({
"info": {
"instruction": "create_pool",
"pool": "DexlabPool111",
"tokenA": "DexlabTokenA111",
"tokenB": "So11111111111111111111111111111111111111112",
"payer": "DexlabCreator111",
"feeTier": "0.3%"
}
})
.to_string(),
),
);
dto.id = Some(802);
dto
}
fn make_swap_transaction() -> crate::KbChainTransactionDto {
let mut dto = crate::KbChainTransactionDto::new(
"sig-dexlab-swap-1".to_string(),
Some(893002),
Some(1779800002),
Some("helius_primary_http".to_string()),
Some("0".to_string()),
None,
None,
serde_json::json!({
"slot": 893002,
"meta": {
"logMessages": [
"Program log: Instruction: Swap"
]
},
"transaction": {
"message": {
"instructions": []
}
}
})
.to_string(),
);
dto.id = Some(803);
dto
}
fn make_swap_instruction() -> crate::KbChainInstructionDto {
let mut dto = crate::KbChainInstructionDto::new(
803,
None,
0,
None,
Some(crate::KB_DEXLAB_PROGRAM_ID.to_string()),
Some("dexlab".to_string()),
Some(1),
serde_json::json!([
"DexlabSwapPool111",
"DexlabSwapTokenA111",
"So11111111111111111111111111111111111111112"
])
.to_string(),
None,
None,
Some(
serde_json::json!({
"info": {
"instruction": "swap",
"pool": "DexlabSwapPool111",
"tokenA": "DexlabSwapTokenA111",
"tokenB": "So11111111111111111111111111111111111111112"
}
})
.to_string(),
),
);
dto.id = Some(804);
dto
}
#[test]
fn dexlab_create_pool_is_detected() {
let decoder = crate::KbDexlabDecoder::new();
let transaction = make_create_transaction();
let instructions = vec![make_create_instruction()];
let decoded_result = decoder.decode_transaction(&transaction, &instructions);
let decoded = match decoded_result {
Ok(decoded) => decoded,
Err(error) => panic!("decode must succeed: {}", error),
};
assert_eq!(decoded.len(), 1);
match &decoded[0] {
crate::KbDexlabDecodedEvent::CreatePool(event) => {
assert_eq!(event.transaction_id, 801);
assert_eq!(event.instruction_id, 802);
assert_eq!(event.pool_account, Some("DexlabPool111".to_string()));
assert_eq!(event.token_a_mint, Some("DexlabTokenA111".to_string()));
assert_eq!(
event.token_b_mint,
Some("So11111111111111111111111111111111111111112".to_string())
);
assert_eq!(event.fee_tier, Some("0.3%".to_string()));
}
crate::KbDexlabDecodedEvent::Swap(_) => {
panic!("unexpected swap event")
}
}
}
#[test]
fn dexlab_swap_is_detected() {
let decoder = crate::KbDexlabDecoder::new();
let transaction = make_swap_transaction();
let instructions = vec![make_swap_instruction()];
let decoded_result = decoder.decode_transaction(&transaction, &instructions);
let decoded = match decoded_result {
Ok(decoded) => decoded,
Err(error) => panic!("decode must succeed: {}", error),
};
assert_eq!(decoded.len(), 1);
match &decoded[0] {
crate::KbDexlabDecodedEvent::Swap(event) => {
assert_eq!(event.transaction_id, 803);
assert_eq!(event.instruction_id, 804);
assert_eq!(event.pool_account, Some("DexlabSwapPool111".to_string()));
assert_eq!(event.token_a_mint, Some("DexlabSwapTokenA111".to_string()));
assert_eq!(
event.token_b_mint,
Some("So11111111111111111111111111111111111111112".to_string())
);
}
crate::KbDexlabDecodedEvent::CreatePool(_) => {
panic!("unexpected create event")
}
}
}
}

299
kb_lib/src/dex_decode.rs
View File

@@ -15,6 +15,7 @@ pub struct KbDexDecodeService {
meteora_damm_v1_decoder: crate::KbMeteoraDammV1Decoder,
meteora_damm_v2_decoder: crate::KbMeteoraDammV2Decoder,
fluxbeam_decoder: crate::KbFluxbeamDecoder,
dexlab_decoder: crate::KbDexlabDecoder,
}
impl KbDexDecodeService {
@@ -32,6 +33,7 @@ impl KbDexDecodeService {
meteora_damm_v1_decoder: crate::KbMeteoraDammV1Decoder::new(),
meteora_damm_v2_decoder: crate::KbMeteoraDammV2Decoder::new(),
fluxbeam_decoder: crate::KbFluxbeamDecoder::new(),
dexlab_decoder: crate::KbDexlabDecoder::new(),
}
}
@@ -211,9 +213,221 @@ impl KbDexDecodeService {
};
persisted.push(persisted_event);
}
let dexlab_decoded_result = self
.dexlab_decoder
.decode_transaction(&transaction, &instructions);
let dexlab_decoded = match dexlab_decoded_result {
Ok(dexlab_decoded) => dexlab_decoded,
Err(error) => return Err(error),
};
for decoded_event in &dexlab_decoded {
let persist_result = self.persist_dexlab_event(&transaction, decoded_event).await;
let persisted_event = match persist_result {
Ok(persisted_event) => persisted_event,
Err(error) => return Err(error),
};
persisted.push(persisted_event);
}
Ok(persisted)
}
async fn persist_dexlab_event(
&self,
transaction: &crate::KbChainTransactionDto,
decoded_event: &crate::KbDexlabDecodedEvent,
) -> Result<crate::KbDexDecodedEventDto, crate::KbError> {
match decoded_event {
crate::KbDexlabDecodedEvent::CreatePool(event) => {
let payload_json_result = serde_json::to_string(&event.payload_json);
let payload_json = match payload_json_result {
Ok(payload_json) => payload_json,
Err(error) => {
return Err(crate::KbError::Json(format!(
"cannot serialize decoded dexlab payload: {}",
error
)));
}
};
let existing_result = crate::get_dex_decoded_event_by_key(
self.database.as_ref(),
event.transaction_id,
Some(event.instruction_id),
"dexlab.create_pool",
)
.await;
let existing_option = match existing_result {
Ok(existing_option) => existing_option,
Err(error) => return Err(error),
};
let already_present = existing_option.is_some();
let dto = crate::KbDexDecodedEventDto::new(
event.transaction_id,
Some(event.instruction_id),
"dexlab".to_string(),
event.program_id.clone(),
"dexlab.create_pool".to_string(),
event.pool_account.clone(),
None,
event.token_a_mint.clone(),
event.token_b_mint.clone(),
None,
payload_json,
);
let upsert_result =
crate::upsert_dex_decoded_event(self.database.as_ref(), &dto).await;
if let Err(error) = upsert_result {
return Err(error);
}
let fetched_result = crate::get_dex_decoded_event_by_key(
self.database.as_ref(),
event.transaction_id,
Some(event.instruction_id),
"dexlab.create_pool",
)
.await;
let fetched_option = match fetched_result {
Ok(fetched_option) => fetched_option,
Err(error) => return Err(error),
};
let fetched = match fetched_option {
Some(fetched) => fetched,
None => {
return Err(crate::KbError::InvalidState(
"decoded event disappeared after upsert".to_string(),
));
}
};
if !already_present {
let payload_value = event.payload_json.clone();
let observation_result = self
.persistence
.record_observation(&crate::KbDetectionObservationInput::new(
"dex.dexlab.create_pool".to_string(),
crate::KbObservationSourceKind::HttpRpc,
transaction.source_endpoint_name.clone(),
transaction.signature.clone(),
transaction.slot,
payload_value.clone(),
))
.await;
let observation_id = match observation_result {
Ok(observation_id) => observation_id,
Err(error) => return Err(error),
};
let signal_result = self
.persistence
.record_signal(&crate::KbDetectionSignalInput::new(
"signal.dex.dexlab.create_pool".to_string(),
crate::KbAnalysisSignalSeverity::Low,
transaction.signature.clone(),
Some(observation_id),
None,
payload_value,
))
.await;
if let Err(error) = signal_result {
return Err(error);
}
}
Ok(fetched)
}
crate::KbDexlabDecodedEvent::Swap(event) => {
let payload_json_result = serde_json::to_string(&event.payload_json);
let payload_json = match payload_json_result {
Ok(payload_json) => payload_json,
Err(error) => {
return Err(crate::KbError::Json(format!(
"cannot serialize decoded dexlab payload: {}",
error
)));
}
};
let existing_result = crate::get_dex_decoded_event_by_key(
self.database.as_ref(),
event.transaction_id,
Some(event.instruction_id),
"dexlab.swap",
)
.await;
let existing_option = match existing_result {
Ok(existing_option) => existing_option,
Err(error) => return Err(error),
};
let already_present = existing_option.is_some();
let dto = crate::KbDexDecodedEventDto::new(
event.transaction_id,
Some(event.instruction_id),
"dexlab".to_string(),
event.program_id.clone(),
"dexlab.swap".to_string(),
event.pool_account.clone(),
None,
event.token_a_mint.clone(),
event.token_b_mint.clone(),
None,
payload_json,
);
let upsert_result =
crate::upsert_dex_decoded_event(self.database.as_ref(), &dto).await;
if let Err(error) = upsert_result {
return Err(error);
}
let fetched_result = crate::get_dex_decoded_event_by_key(
self.database.as_ref(),
event.transaction_id,
Some(event.instruction_id),
"dexlab.swap",
)
.await;
let fetched_option = match fetched_result {
Ok(fetched_option) => fetched_option,
Err(error) => return Err(error),
};
let fetched = match fetched_option {
Some(fetched) => fetched,
None => {
return Err(crate::KbError::InvalidState(
"decoded event disappeared after upsert".to_string(),
));
}
};
if !already_present {
let payload_value = event.payload_json.clone();
let observation_result = self
.persistence
.record_observation(&crate::KbDetectionObservationInput::new(
"dex.dexlab.swap".to_string(),
crate::KbObservationSourceKind::HttpRpc,
transaction.source_endpoint_name.clone(),
transaction.signature.clone(),
transaction.slot,
payload_value.clone(),
))
.await;
let observation_id = match observation_result {
Ok(observation_id) => observation_id,
Err(error) => return Err(error),
};
let signal_result = self
.persistence
.record_signal(&crate::KbDetectionSignalInput::new(
"signal.dex.dexlab.swap".to_string(),
crate::KbAnalysisSignalSeverity::Low,
transaction.signature.clone(),
Some(observation_id),
None,
payload_value,
))
.await;
if let Err(error) = signal_result {
return Err(error);
}
}
Ok(fetched)
}
}
}
async fn persist_fluxbeam_event(
&self,
transaction: &crate::KbChainTransactionDto,
@@ -2244,4 +2458,89 @@ mod tests {
Some("So11111111111111111111111111111111111111112".to_string())
);
}
async fn seed_projected_dexlab_transaction(
database: std::sync::Arc<crate::KbDatabase>,
signature: &str,
) {
let service = crate::KbTransactionModelService::new(database);
let resolved_transaction = serde_json::json!({
"slot": 999009,
"blockTime": 1779000009,
"version": 0,
"transaction": {
"message": {
"instructions": [
{
"programId": crate::KB_DEXLAB_PROGRAM_ID,
"program": "dexlab",
"stackHeight": 1,
"accounts": [
"DexlabDecodePool111",
"DexlabDecodeTokenA111",
"So11111111111111111111111111111111111111112",
"DexlabDecodeCreator111"
],
"parsed": {
"info": {
"instruction": "create_pool",
"pool": "DexlabDecodePool111",
"tokenA": "DexlabDecodeTokenA111",
"tokenB": "So11111111111111111111111111111111111111112",
"payer": "DexlabDecodeCreator111",
"feeTier": "0.3%"
}
},
"data": "opaque"
}
]
}
},
"meta": {
"err": null,
"logMessages": [
"Program log: Instruction: CreatePool"
]
}
});
let persist_result = service
.persist_resolved_transaction(
signature,
Some("helius_primary_http".to_string()),
&resolved_transaction,
)
.await;
if let Err(error) = persist_result {
panic!("projection must succeed: {}", error);
}
}
#[tokio::test]
async fn decode_transaction_by_signature_persists_decoded_dexlab_event() {
let database = make_database().await;
seed_projected_dexlab_transaction(database.clone(), "sig-dex-decode-dexlab-1").await;
let service = crate::KbDexDecodeService::new(database.clone());
let decoded_result = service
.decode_transaction_by_signature("sig-dex-decode-dexlab-1")
.await;
let decoded = match decoded_result {
Ok(decoded) => decoded,
Err(error) => panic!("decode must succeed: {}", error),
};
assert_eq!(decoded.len(), 1);
assert_eq!(decoded[0].protocol_name, "dexlab");
assert_eq!(decoded[0].event_kind, "dexlab.create_pool");
assert_eq!(
decoded[0].pool_account,
Some("DexlabDecodePool111".to_string())
);
assert_eq!(
decoded[0].token_a_mint,
Some("DexlabDecodeTokenA111".to_string())
);
assert_eq!(
decoded[0].token_b_mint,
Some("So11111111111111111111111111111111111111112".to_string())
);
}
}

408
kb_lib/src/dex_detect.rs
View File

@@ -245,6 +245,25 @@ impl KbDexDetectService {
};
detection_results.push(detect_result);
}
if decoded_event.protocol_name == "dexlab"
&& decoded_event.event_kind == "dexlab.create_pool"
{
let detect_result = self.detect_dexlab_pool(&transaction, decoded_event).await;
let detect_result = match detect_result {
Ok(detect_result) => detect_result,
Err(error) => return Err(error),
};
detection_results.push(detect_result);
}
if decoded_event.protocol_name == "dexlab" && decoded_event.event_kind == "dexlab.swap"
{
let detect_result = self.detect_dexlab_pool(&transaction, decoded_event).await;
let detect_result = match detect_result {
Ok(detect_result) => detect_result,
Err(error) => return Err(error),
};
detection_results.push(detect_result);
}
}
Ok(detection_results)
}
@@ -2218,6 +2237,276 @@ impl KbDexDetectService {
})
}
async fn detect_dexlab_pool(
&self,
transaction: &crate::KbChainTransactionDto,
decoded_event: &crate::KbDexDecodedEventDto,
) -> Result<crate::KbDexPoolDetectionResult, crate::KbError> {
let decoded_event_id_option = decoded_event.id;
let decoded_event_id = match decoded_event_id_option {
Some(decoded_event_id) => decoded_event_id,
None => {
return Err(crate::KbError::InvalidState(
"decoded dex event has no internal id".to_string(),
));
}
};
let dex_id_result = self.ensure_dexlab_dex().await;
let dex_id = match dex_id_result {
Ok(dex_id) => dex_id,
Err(error) => return Err(error),
};
let pool_address_option = decoded_event.pool_account.clone();
let pool_address = match pool_address_option {
Some(pool_address) => pool_address,
None => {
return Err(crate::KbError::InvalidState(format!(
"decoded event '{}' has no pool_account",
decoded_event_id
)));
}
};
let token_a_mint_option = decoded_event.token_a_mint.clone();
let token_a_mint = match token_a_mint_option {
Some(token_a_mint) => token_a_mint,
None => {
return Err(crate::KbError::InvalidState(format!(
"decoded event '{}' has no token_a_mint",
decoded_event_id
)));
}
};
let token_b_mint_option = decoded_event.token_b_mint.clone();
let token_b_mint = match token_b_mint_option {
Some(token_b_mint) => token_b_mint,
None => {
return Err(crate::KbError::InvalidState(format!(
"decoded event '{}' has no token_b_mint",
decoded_event_id
)));
}
};
let base_is_token_a =
kb_choose_base_quote_order(token_a_mint.as_str(), token_b_mint.as_str());
let base_mint = if base_is_token_a {
token_a_mint.clone()
} else {
token_b_mint.clone()
};
let quote_mint = if base_is_token_a {
token_b_mint.clone()
} else {
token_a_mint.clone()
};
let base_token_id_result = self.ensure_token(base_mint.as_str()).await;
let base_token_id = match base_token_id_result {
Ok(base_token_id) => base_token_id,
Err(error) => return Err(error),
};
let quote_token_id_result = self.ensure_token(quote_mint.as_str()).await;
let quote_token_id = match quote_token_id_result {
Ok(quote_token_id) => quote_token_id,
Err(error) => return Err(error),
};
let existing_pool_result =
crate::get_pool_by_address(self.database.as_ref(), pool_address.as_str()).await;
let existing_pool_option = match existing_pool_result {
Ok(existing_pool_option) => existing_pool_option,
Err(error) => return Err(error),
};
let created_pool = existing_pool_option.is_none();
let pool_id = match existing_pool_option {
Some(pool) => {
let pool_id_option = pool.id;
match pool_id_option {
Some(pool_id) => pool_id,
None => {
return Err(crate::KbError::InvalidState(format!(
"pool '{}' has no internal id",
pool.address
)));
}
}
}
None => {
let pool_dto = crate::KbPoolDto::new(
dex_id,
pool_address.clone(),
crate::KbPoolKind::Amm,
crate::KbPoolStatus::Active,
);
let upsert_result = crate::upsert_pool(self.database.as_ref(), &pool_dto).await;
match upsert_result {
Ok(pool_id) => pool_id,
Err(error) => return Err(error),
}
}
};
let existing_pair_result =
crate::get_pair_by_pool_id(self.database.as_ref(), pool_id).await;
let existing_pair_option = match existing_pair_result {
Ok(existing_pair_option) => existing_pair_option,
Err(error) => return Err(error),
};
let created_pair = existing_pair_option.is_none();
let pair_symbol = kb_build_pair_symbol(base_mint.as_str(), quote_mint.as_str());
let pair_id = match existing_pair_option {
Some(pair) => {
let pair_id_option = pair.id;
match pair_id_option {
Some(pair_id) => pair_id,
None => {
return Err(crate::KbError::InvalidState(format!(
"pair for pool '{}' has no internal id",
pool_id
)));
}
}
}
None => {
let pair_dto = crate::KbPairDto::new(
dex_id,
pool_id,
base_token_id,
quote_token_id,
pair_symbol,
);
let upsert_result = crate::upsert_pair(self.database.as_ref(), &pair_dto).await;
match upsert_result {
Ok(pair_id) => pair_id,
Err(error) => return Err(error),
}
}
};
let upsert_base_pool_token_result = crate::upsert_pool_token(
self.database.as_ref(),
&crate::KbPoolTokenDto::new(
pool_id,
base_token_id,
crate::KbPoolTokenRole::Base,
None,
Some(0),
),
)
.await;
if let Err(error) = upsert_base_pool_token_result {
return Err(error);
}
let upsert_quote_pool_token_result = crate::upsert_pool_token(
self.database.as_ref(),
&crate::KbPoolTokenDto::new(
pool_id,
quote_token_id,
crate::KbPoolTokenRole::Quote,
None,
Some(1),
),
)
.await;
if let Err(error) = upsert_quote_pool_token_result {
return Err(error);
}
let existing_listing_result =
crate::get_pool_listing_by_pool_id(self.database.as_ref(), pool_id).await;
let existing_listing_option = match existing_listing_result {
Ok(existing_listing_option) => existing_listing_option,
Err(error) => return Err(error),
};
let created_listing = existing_listing_option.is_none();
let pool_listing_id = match existing_listing_option {
Some(pool_listing) => pool_listing.id,
None => {
let listing_id_result = self
.upsert_pool_listing_from_decoded_event(dex_id, pool_id, pair_id, transaction)
.await;
match listing_id_result {
Ok(listing_id) => Some(listing_id),
Err(error) => return Err(error),
}
}
};
let payload_value_result = kb_parse_payload_json(decoded_event.payload_json.as_str());
let payload_value = match payload_value_result {
Ok(payload_value) => payload_value,
Err(error) => return Err(error),
};
if created_pool {
let signal_result = self
.record_detection_signal(
transaction,
"signal.dex.dexlab.new_pool",
crate::KbAnalysisSignalSeverity::Low,
payload_value.clone(),
)
.await;
if let Err(error) = signal_result {
return Err(error);
}
}
if created_pair {
let signal_result = self
.record_detection_signal(
transaction,
"signal.dex.dexlab.new_pair",
crate::KbAnalysisSignalSeverity::Low,
payload_value.clone(),
)
.await;
if let Err(error) = signal_result {
return Err(error);
}
}
if created_listing {
let signal_result = self
.record_detection_signal(
transaction,
"signal.dex.dexlab.first_listing_seen",
crate::KbAnalysisSignalSeverity::Low,
payload_value,
)
.await;
if let Err(error) = signal_result {
return Err(error);
}
}
Ok(crate::KbDexPoolDetectionResult {
decoded_event_id,
dex_id,
pool_id,
pair_id,
pool_listing_id,
created_pool,
created_pair,
created_listing,
})
}
async fn ensure_dexlab_dex(&self) -> Result<i64, crate::KbError> {
let dex_result = crate::get_dex_by_code(self.database.as_ref(), "dexlab").await;
let dex_option = match dex_result {
Ok(dex_option) => dex_option,
Err(error) => return Err(error),
};
match dex_option {
Some(dex) => match dex.id {
Some(dex_id) => Ok(dex_id),
None => Err(crate::KbError::InvalidState(
"dexlab dex has no internal id".to_string(),
)),
},
None => {
let dex_dto = crate::KbDexDto::new(
"dexlab".to_string(),
"DexLab Swap/Pool".to_string(),
Some(crate::KB_DEXLAB_PROGRAM_ID.to_string()),
None,
true,
);
crate::upsert_dex(self.database.as_ref(), &dex_dto).await
}
}
}
async fn ensure_fluxbeam_dex(&self) -> Result<i64, crate::KbError> {
let dex_result = crate::get_dex_by_code(self.database.as_ref(), "fluxbeam").await;
let dex_option = match dex_result {
@@ -3609,4 +3898,123 @@ mod tests {
};
assert_eq!(pool_tokens.len(), 2);
}
async fn seed_decoded_dexlab_event(
database: std::sync::Arc<crate::KbDatabase>,
signature: &str,
) {
let transaction_model = crate::KbTransactionModelService::new(database.clone());
let dex_decode = crate::KbDexDecodeService::new(database);
let resolved_transaction = serde_json::json!({
"slot": 910009,
"blockTime": 1779100009,
"version": 0,
"transaction": {
"message": {
"instructions": [
{
"programId": crate::KB_DEXLAB_PROGRAM_ID,
"program": "dexlab",
"stackHeight": 1,
"accounts": [
"DexlabDetectPool111",
"DexlabDetectTokenA111",
"So11111111111111111111111111111111111111112",
"DexlabDetectCreator111"
],
"parsed": {
"info": {
"instruction": "create_pool",
"pool": "DexlabDetectPool111",
"tokenA": "DexlabDetectTokenA111",
"tokenB": "So11111111111111111111111111111111111111112",
"payer": "DexlabDetectCreator111",
"feeTier": "0.3%"
}
},
"data": "opaque"
}
]
}
},
"meta": {
"err": null,
"logMessages": [
"Program log: Instruction: CreatePool"
]
}
});
let project_result = transaction_model
.persist_resolved_transaction(
signature,
Some("helius_primary_http".to_string()),
&resolved_transaction,
)
.await;
if let Err(error) = project_result {
panic!("projection must succeed: {}", error);
}
let decode_result = dex_decode.decode_transaction_by_signature(signature).await;
if let Err(error) = decode_result {
panic!("dex decode must succeed: {}", error);
}
}
#[tokio::test]
async fn detect_transaction_by_signature_creates_dexlab_pool_pair_and_listing() {
let database = make_database().await;
seed_decoded_dexlab_event(database.clone(), "sig-dex-detect-dexlab-1").await;
let detect_service = crate::KbDexDetectService::new(database.clone());
let detect_result = detect_service
.detect_transaction_by_signature("sig-dex-detect-dexlab-1")
.await;
let results = match detect_result {
Ok(results) => results,
Err(error) => panic!("dex detect must succeed: {}", error),
};
assert_eq!(results.len(), 1);
assert!(results[0].created_pool);
assert!(results[0].created_pair);
assert!(results[0].created_listing);
let pool_result =
crate::get_pool_by_address(database.as_ref(), "DexlabDetectPool111").await;
let pool_option = match pool_result {
Ok(pool_option) => pool_option,
Err(error) => panic!("pool fetch must succeed: {}", error),
};
let pool = match pool_option {
Some(pool) => pool,
None => panic!("pool must exist"),
};
assert_eq!(pool.id, Some(results[0].pool_id));
assert_eq!(pool.pool_kind, crate::KbPoolKind::Amm);
let pair_result = crate::get_pair_by_pool_id(database.as_ref(), results[0].pool_id).await;
let pair_option = match pair_result {
Ok(pair_option) => pair_option,
Err(error) => panic!("pair fetch must succeed: {}", error),
};
let pair = match pair_option {
Some(pair) => pair,
None => panic!("pair must exist"),
};
assert_eq!(pair.id, Some(results[0].pair_id));
let listing_result =
crate::get_pool_listing_by_pool_id(database.as_ref(), results[0].pool_id).await;
let listing_option = match listing_result {
Ok(listing_option) => listing_option,
Err(error) => panic!("listing fetch must succeed: {}", error),
};
let listing = match listing_option {
Some(listing) => listing,
None => panic!("listing must exist"),
};
assert_eq!(listing.id, results[0].pool_listing_id);
let pool_tokens_result =
crate::list_pool_tokens_by_pool_id(database.as_ref(), results[0].pool_id).await;
let pool_tokens = match pool_tokens_result {
Ok(pool_tokens) => pool_tokens,
Err(error) => panic!("pool tokens list must succeed: {}", error),
};
assert_eq!(pool_tokens.len(), 2);
}
}

5
kb_lib/src/lib.rs
View File

@@ -256,5 +256,10 @@ pub use dex::KbFluxbeamCreatePoolDecoded;
pub use dex::KbFluxbeamDecodedEvent;
pub use dex::KbFluxbeamDecoder;
pub use dex::KbFluxbeamSwapDecoded;
pub use dex::KB_DEXLAB_PROGRAM_ID;
pub use dex::KbDexlabCreatePoolDecoded;
pub use dex::KbDexlabDecodedEvent;
pub use dex::KbDexlabDecoder;
pub use dex::KbDexlabSwapDecoded;
pub use launch_origin::KbLaunchAttributionResult;
pub use launch_origin::KbLaunchOriginService;