liquidator: Deal with net-borrow restricted tcs executions

bin/liquidator/src/trigger_tcs.rs

@@ -12,14 +12,16 @@ use {anyhow::Context, fixed::types::I80F48, solana_sdk::pubkey::Pubkey};
 
 use crate::{token_swap_info, util};
 
-// The liqee health ratio to aim for when executing tcs orders that are bigger
-// than the liqee can support.
-//
-// The background here is that the program considers bringing the liqee health ratio
-// below 1% as "the tcs was completely fulfilled" and then closes the tcs.
-// Choosing a value too close to 0 is problematic, since then small oracle fluctuations
-// could bring the final health below 0 and make the triggering invalid!
-const TARGET_HEALTH_RATIO: f64 = 0.5;
+/// When computing the max possible swap for a liqee, assume the price is this fraction worse for them.
+///
+/// That way when executing the swap, the prices may move this much against the liqee without
+/// making the whole execution fail.
+const SLIPPAGE_BUFFER: f64 = 0.01; // 1%
+
+/// If a tcs gets limited due to exhausted net borrows, don't trigger execution if
+/// the possible value is below this amount. This avoids spamming executions when net
+/// borrows are exhausted.
+const NET_BORROW_EXECUTION_THRESHOLD: u64 = 1_000_000; // 1 USD
 
 pub struct Config {
     pub min_health_ratio: f64,
@@ -154,27 +156,21 @@ async fn execute_token_conditional_swap(
 
     let base_price = buy_token_price / sell_token_price;
     let premium_price = tcs.premium_price(base_price.to_num());
-    let maker_price = I80F48::from_num(tcs.maker_price(premium_price));
     let taker_price = I80F48::from_num(tcs.taker_price(premium_price));
 
     let max_take_quote = I80F48::from(config.max_trigger_quote_amount);
 
-    let liqee_target_health_ratio = I80F48::from_num(TARGET_HEALTH_RATIO);
-
-    let max_sell_token_to_liqor = util::max_swap_source(
-        mango_client,
-        account_fetcher,
-        &liqee,
-        tcs.sell_token_index,
-        tcs.buy_token_index,
-        I80F48::ONE / maker_price,
-        liqee_target_health_ratio,
-    )?
-    .min(max_take_quote / sell_token_price)
-    .floor()
-    .to_num::<u64>()
-    .min(tcs.remaining_sell());
+    let (liqee_max_buy, liqee_max_sell) =
+        match tcs_max_liqee_execution(liqee, mango_client, account_fetcher, tcs)? {
+            Some(v) => v,
+            None => return Ok(false),
+        };
+    let max_sell_token_to_liqor = liqee_max_sell;
 
+    // In addition to the liqee's requirements, the liqor also has requirements:
+    // - only swap while the health ratio stays high enough
+    // - possible net borrow limit restrictions from the liqor borrowing the buy token
+    // - liqor has a max_take_quote
     let max_buy_token_to_liqee = util::max_swap_source(
         mango_client,
         account_fetcher,
@@ -187,7 +183,7 @@ async fn execute_token_conditional_swap(
     .min(max_take_quote / buy_token_price)
     .floor()
     .to_num::<u64>()
-    .min(tcs.remaining_buy());
+    .min(liqee_max_buy);
 
     if max_sell_token_to_liqor == 0 || max_buy_token_to_liqee == 0 {
         return Ok(false);
@@ -332,8 +328,46 @@ fn tcs_max_volume(
     mango_client: &MangoClient,
     account_fetcher: &chain_data::AccountFetcher,
     tcs: &TokenConditionalSwap,
-) -> anyhow::Result<u64> {
-    // Compute the max viable swap (for liqor and liqee) and min it
+) -> anyhow::Result<Option<u64>> {
+    let buy_bank_pk = mango_client
+        .context
+        .mint_info(tcs.buy_token_index)
+        .first_bank();
+    let sell_bank_pk = mango_client
+        .context
+        .mint_info(tcs.sell_token_index)
+        .first_bank();
+    let buy_token_price = account_fetcher.fetch_bank_price(&buy_bank_pk)?;
+    let sell_token_price = account_fetcher.fetch_bank_price(&sell_bank_pk)?;
+
+    let (max_buy, max_sell) =
+        match tcs_max_liqee_execution(account, mango_client, account_fetcher, tcs)? {
+            Some(v) => v,
+            None => return Ok(None),
+        };
+
+    let max_quote =
+        (I80F48::from(max_buy) * buy_token_price).min(I80F48::from(max_sell) * sell_token_price);
+
+    Ok(Some(max_quote.floor().clamp_to_u64()))
+}
+
+/// Compute the max viable swap for liqee
+/// This includes
+/// - tcs restrictions (remaining buy/sell, create borrows/deposits)
+/// - reduce only banks
+/// - net borrow limits on BOTH sides, even though the buy side is technically
+///   a liqor limitation: the liqor could acquire the token before trying the
+///   execution... but in practice the liqor will work on margin
+///
+/// Returns Some((native buy amount, native sell amount)) if execution is sensible
+/// Returns None if the execution should be skipped (due to net borrow limits...)
+fn tcs_max_liqee_execution(
+    account: &MangoAccountValue,
+    mango_client: &MangoClient,
+    account_fetcher: &chain_data::AccountFetcher,
+    tcs: &TokenConditionalSwap,
+) -> anyhow::Result<Option<(u64, u64)>> {
     let buy_bank_pk = mango_client
         .context
         .mint_info(tcs.buy_token_index)
@@ -347,6 +381,10 @@ fn tcs_max_volume(
     let buy_token_price = account_fetcher.fetch_bank_price(&buy_bank_pk)?;
     let sell_token_price = account_fetcher.fetch_bank_price(&sell_bank_pk)?;
 
+    let base_price = buy_token_price / sell_token_price;
+    let premium_price = tcs.premium_price(base_price.to_num());
+    let maker_price = tcs.maker_price(premium_price);
+
     let buy_position = account
         .token_position(tcs.buy_token_index)
         .map(|p| p.native(&buy_bank))
@@ -356,31 +394,67 @@ fn tcs_max_volume(
         .map(|p| p.native(&sell_bank))
         .unwrap_or(I80F48::ZERO);
 
-    let base_price = buy_token_price / sell_token_price;
-    let premium_price = tcs.premium_price(base_price.to_num());
-    let maker_price = tcs.maker_price(premium_price);
-
-    let liqee_target_health_ratio = I80F48::from_num(TARGET_HEALTH_RATIO);
-
-    let max_sell = util::max_swap_source(
+    // this is in "buy token received per sell token given" units
+    let swap_price = I80F48::from_num((1.0 - SLIPPAGE_BUFFER) / maker_price);
+    let max_sell_ignoring_net_borrows = util::max_swap_source_ignore_net_borrows(
         mango_client,
         account_fetcher,
         &account,
         tcs.sell_token_index,
         tcs.buy_token_index,
-        I80F48::from_num(1.0 / maker_price),
-        liqee_target_health_ratio,
+        swap_price,
+        I80F48::ZERO,
     )?
     .floor()
     .to_num::<u64>()
     .min(tcs.max_sell_for_position(sell_position, &sell_bank));
 
-    let max_buy = tcs.max_buy_for_position(buy_position, &buy_bank);
+    let max_buy_ignoring_net_borrows = tcs.max_buy_for_position(buy_position, &buy_bank);
 
-    let max_quote =
-        (I80F48::from(max_buy) * buy_token_price).min(I80F48::from(max_sell) * sell_token_price);
+    // What follows is a complex manual handling of net borrow limits, for the following reason:
+    // Usually, we _do_ want to execute tcs even for small amounts because that will close the
+    // tcs order: either due to full execution or due to the health threshold being reached.
+    //
+    // However, when the net borrow limits are hit, we do _not_ want to close the tcs order
+    // even though no further execution is possible at that time. Furthermore, we don't even
+    // want to send a too-tiny tcs execution transaction, because there's a good chance we
+    // would then be sending lot of those as oracle prices fluctuate.
+    //
+    // Thus, we need to detect if the possible execution amount is tiny _because_ of the
+    // net borrow limits. Then skip. If it's tiny for other reasons we can proceed.
 
-    Ok(max_quote.floor().clamp_to_u64())
+    fn available_borrows(bank: &Bank, price: I80F48) -> u64 {
+        if bank.net_borrow_limit_per_window_quote < 0 {
+            u64::MAX
+        } else {
+            let limit = (I80F48::from(bank.net_borrow_limit_per_window_quote) / price)
+                .floor()
+                .clamp_to_i64();
+            (limit - bank.net_borrows_in_window).max(0) as u64
+        }
+    }
+    let available_buy_borrows = available_borrows(&buy_bank, buy_token_price);
+    let available_sell_borrows = available_borrows(&sell_bank, sell_token_price);
+
+    // This technically depends on the liqor's buy token position, but we
+    // just assume it'll be fully margined here
+    let max_buy = max_buy_ignoring_net_borrows.min(available_buy_borrows);
+
+    let sell_borrows = (I80F48::from(max_sell_ignoring_net_borrows) - sell_position).clamp_to_u64();
+    let max_sell =
+        max_sell_ignoring_net_borrows - sell_borrows + sell_borrows.min(available_sell_borrows);
+
+    let tiny_due_to_net_borrows = {
+        let buy_threshold = I80F48::from(NET_BORROW_EXECUTION_THRESHOLD) / buy_token_price;
+        let sell_threshold = I80F48::from(NET_BORROW_EXECUTION_THRESHOLD) / sell_token_price;
+        max_buy < buy_threshold && max_buy_ignoring_net_borrows > buy_threshold
+            || max_sell < sell_threshold && max_sell_ignoring_net_borrows > sell_threshold
+    };
+    if tiny_due_to_net_borrows {
+        return Ok(None);
+    }
+
+    Ok(Some((max_buy, max_sell)))
 }
 
 pub fn find_interesting_tcs_for_account(
@@ -401,8 +475,12 @@ pub fn find_interesting_tcs_for_account(
             now_ts,
         ) {
             Ok(true) => {
-                let volume_result = tcs_max_volume(&liqee, mango_client, account_fetcher, tcs);
-                Some(volume_result.map(|v| (*pubkey, tcs.id, v)))
+                // Filter out Ok(None) resuts of tcs that shouldn't be executed right now
+                match tcs_max_volume(&liqee, mango_client, account_fetcher, tcs) {
+                    Ok(Some(v)) => Some(Ok((*pubkey, tcs.id, v))),
+                    Ok(None) => None,
+                    Err(e) => Some(Err(e)),
+                }
             }
             Ok(false) => None,
             Err(e) => Some(Err(e)),

bin/liquidator/src/util.rs

@@ -144,3 +144,46 @@ pub fn max_swap_source(
         .context("getting max_swap_source")?;
     Ok(amount)
 }
+
+/// Convenience wrapper for getting max swap amounts for a token pair
+pub fn max_swap_source_ignore_net_borrows(
+    client: &MangoClient,
+    account_fetcher: &chain_data::AccountFetcher,
+    account: &MangoAccountValue,
+    source: TokenIndex,
+    target: TokenIndex,
+    price: I80F48,
+    min_health_ratio: I80F48,
+) -> anyhow::Result<I80F48> {
+    let mut account = account.clone();
+
+    // Ensure the tokens are activated, so they appear in the health cache and
+    // max_swap_source() will work.
+    account.ensure_token_position(source)?;
+    account.ensure_token_position(target)?;
+
+    let health_cache =
+        mango_v4_client::health_cache::new_sync(&client.context, account_fetcher, &account)
+            .expect("always ok");
+
+    let mut source_bank: Bank =
+        account_fetcher.fetch(&client.context.mint_info(source).first_bank())?;
+    source_bank.net_borrow_limit_per_window_quote = -1;
+    let mut target_bank: Bank =
+        account_fetcher.fetch(&client.context.mint_info(target).first_bank())?;
+    target_bank.net_borrow_limit_per_window_quote = -1;
+
+    let source_price = health_cache.token_info(source).unwrap().prices.oracle;
+
+    let amount = health_cache
+        .max_swap_source_for_health_ratio(
+            &account,
+            &source_bank,
+            source_price,
+            &target_bank,
+            price,
+            min_health_ratio,
+        )
+        .context("getting max_swap_source")?;
+    Ok(amount)
+}