52 Commits

Author SHA256 Message Date
minimons 244a6f19fe 20: Add actual refreshing logic to loop 2026-06-28 18:40:05 +02:00
minimons ff4f5a0356 20: Adding refresher file filtering 2026-06-28 18:33:20 +02:00
minimons f86652df7d 20: More refresher logic 2026-06-28 18:30:58 +02:00
minimons 5e5f8ebd51 20: Prepare background refresher thread 2026-06-28 18:19:20 +02:00
minimons d216c06ba1 20: Add watcher wire-up 2026-06-28 18:14:13 +02:00
minimons c1cbaf0c52 20: Add new JupiterPerpsEntryPriceVariableRefreshWatcher class 2026-06-28 18:06:50 +02:00
minimons 76446f8b73 20: Clean-up before update 2026-06-28 11:48:08 +02:00
minimons dac1b62628 20: Update variable map with new data 2026-06-28 11:45:04 +02:00
minimons 0aff69429a 20: Map mint addresses to asset symbols 2026-06-28 11:40:13 +02:00
minimons 384fad01bf 20: Fetch open Perps positions JupiterPerpsEntryPriceVariableRefresher 2026-06-28 11:36:05 +02:00
minimons 520a0bcd92 20: Inject JupiterPerpsService into JupiterPerpsEntryPriceVariableRefresher 2026-06-28 11:30:03 +02:00
minimons 896b5235d0 20: Add new JupiterPerpsEntryPriceVariableRefresher class 2026-06-28 11:08:14 +02:00
minimons 403d7af6e9 20: CompositeAlarmAction compilation fix 2026-06-27 23:32:51 +02:00
minimons 90fd1694fb 20: Fix compilatoin of PushoverAlarmAction 2026-06-27 23:27:47 +02:00
minimons 1fb712b61d 20: Fix compilation of ConsoleAlarmAction 2026-06-27 23:25:04 +02:00
minimons 1355422597 20: Use resolved node in PriceAlarm trigger 2026-06-27 21:12:26 +02:00
minimons c6ba8dc009 20: Change AlarmAction to use resolved data 2026-06-27 21:07:17 +02:00
minimons a5e5470c2b 20: Create new ResolvedPriceAlarm and resolve note 2026-06-27 21:03:21 +02:00
minimons 2953b07609 20: Switch variables with brackets 2026-06-27 20:54:02 +02:00
minimons 0d14bb3538 20: Store variables keys without brackets 2026-06-27 20:48:28 +02:00
minimons 41bd1898c2 20: Change AlarmConfiguration to use ConcurrentHashMap 2026-06-27 20:43:09 +02:00
minimons 873086eeaf 20: Handle missing variables gracefully 2026-06-27 20:35:10 +02:00
minimons d33289d8ce 20: Wire-up resolver 2026-06-27 20:29:24 +02:00
minimons b0eb4e6d93 20: Make AlarmConfigurationParser return AlarmConfiguration 2026-06-27 20:20:03 +02:00
minimons 2d359f59e4 20: Add new AlarmConfiguration class 2026-06-27 20:15:41 +02:00
minimons 3fc769a687 20: Initialize AlarmVariableResolver 2026-06-27 20:12:10 +02:00
minimons 4edd5af9d7 20: Inject AlarmVariableResolver 2026-06-27 20:07:14 +02:00
minimons 7a06d87f4a 20: Use resolver in PriceAlarm 2026-06-27 20:01:47 +02:00
minimons 05b0b6cb6a 20: Add AlarmVariableResolver class 2026-06-27 19:57:02 +02:00
minimons 4a5450b4b0 20: Do not resolve while reading config 2026-06-27 19:54:12 +02:00
minimons 1410c959e6 20: Fix target price compilation issues 2026-06-27 19:49:36 +02:00
minimons 6e75cf3725 20: Update PriceAlarm to use parser 2026-06-27 19:40:46 +02:00
minimons c8c443fdc8 20: Move target price parsing to new AlarmTargetParser class 2026-06-27 19:27:25 +02:00
minimons 545b79de3b 20: Do not resolve target price 2026-06-27 19:14:01 +02:00
minimons 97ecb7572a 20: Update PriceAlarmDefinition to support expressions 2026-06-27 19:05:59 +02:00
minimons 940e1ece94 20: Change config file 2026-06-27 19:05:59 +02:00
minimons a212791ba9 X: Add publishGitHub 2026-06-27 19:05:59 +02:00
minimons d9f773c1f9 X: Updated for some manual testing in Main 2026-06-26 22:27:57 +02:00
minimons 2d68b83cf4 17: Add mint address field in JupiterPerpsPosition 2026-06-26 22:27:57 +02:00
minimons 7e6e9978a2 18: Add a codec class for Base58 2026-06-26 20:55:37 +02:00
minimons 35052a045a X: Rename AnchorIdlJupiterPerpsPositionServiceImpl 2026-06-26 19:26:24 +02:00
minimons ce74550825 X: Rename JupiterPerpsPositionService 2026-06-26 19:26:24 +02:00
minimons a5c9c78fdd X: Move JupiterPerpsPositionService to API instead of implementation 2026-06-26 19:26:24 +02:00
minimons c4f67fa0fc 16: Add 'side' to AnchorIdlJupiterPerpsPositionDecoder 2026-06-26 19:26:24 +02:00
minimons c8ca946fcc X: Move JupiterPerpsPosition to API from implementation 2026-06-26 18:08:26 +02:00
minimons 760ba0e823 X: Add some manuel testing code 2026-06-26 17:02:41 +02:00
minimons 1cb78fa3db 15: Add getOpenPositions() to Jupiter Perps API 2026-06-26 17:02:40 +02:00
minimons 09bd70b348 14: Add getProgramAccounts(...) API method 2026-06-26 14:14:06 +02:00
minimons cd573b1ce0 X: Some dependency cleanup 2026-06-25 19:08:52 +02:00
minimons 96d1289730 13: Create initial Jupiter Perps position API 2026-06-25 15:30:30 +02:00
minimons 539068978f 12: Add grace period support for persistent alarms 2026-06-23 18:26:23 +02:00
minimons 48f087dc6e 11: Remove temporary SelfTest code 2026-06-23 12:57:03 +02:00
28 changed files with 1050 additions and 387 deletions
+1
View File
@@ -44,6 +44,7 @@ dependencies {
runtimeOnly("org.apache.logging.log4j:log4j-core:2.26.0") runtimeOnly("org.apache.logging.log4j:log4j-core:2.26.0")
runtimeOnly("org.apache.logging.log4j:log4j-slf4j2-impl:2.26.0") runtimeOnly("org.apache.logging.log4j:log4j-slf4j2-impl:2.26.0")
implementation("com.r35157.nenjim:hubd-api:0.1-dev")
implementation("com.fasterxml.jackson.core:jackson-databind:2.18.6") implementation("com.fasterxml.jackson.core:jackson-databind:2.18.6")
implementation("com.fazecast:jSerialComm:2.11.4") implementation("com.fazecast:jSerialComm:2.11.4")
implementation("com.google.code.gson:gson:2.14.0") implementation("com.google.code.gson:gson:2.14.0")
+56 -8
View File
@@ -1,8 +1,56 @@
# Id Asset Direction Target Trigger Severity Note # General configurations
###################################################################################################################### #####################################################
1 SOL ABOVE 97.03-1.25% ONETIME CRITICAL "CRITICAL: Risiko for Perps Solana short LIKVIDERING!" {{JUPITER_PERPS_WALLET}} 8abcYourWalletAddressHere
2 SOL BELOW 48.72+1.25% ONETIME CRITICAL "CRITICAL: Risiko for Perps Solana long LIKVIDERING!"
3 BTC ABOVE 85032.87-1% ONETIME CRITICAL "CRITICAL: Risiko for Perps Bitcoin short LIKVIDERING!"
4 BTC BELOW 42779.40+1% ONETIME CRITICAL "CRITICAL: Risiko for Perps Bitcoin long LIKVIDERING!" # Constant Name Value
5 ETH ABOVE 2296.13-1% ONETIME CRITICAL "CRITICAL: Risiko for Perps Ethereum short LIKVIDERING!" ####################################
6 ETH BELOW 1155.19+1% ONETIME CRITICAL "CRITICAL: Risiko for Perps Ethereum long LIKVIDERING!"
{{SOL_LONG_ENTRY_PRICE}} 73.67
{{SOL_LONG_LIQ_PRICE}} 70.28
{{SOL_SHORT_ENTRY_PRICE}} 70.47
{{SOL_SHORT_LIQ_PRICE}} 75.01
{{ETH_LONG_ENTRY_PRICE}} 1589.63
{{ETH_LONG_LIQ_PRICE}} 1461.11
{{ETH_SHORT_ENTRY_PRICE}} 1545.29
{{ETH_SHORT_LIQ_PRICE}} 1698.42
{{BTC_LONG_ENTRY_PRICE}} 61236.03
{{BTC_LONG_LIQ_PRICE}} 40984.70
{{BTC_SHORT_ENTRY_PRICE}} 59451.94
{{BTC_SHORT_LIQ_PRICE}} 65084.53
# Id Asset Direction Target Trigger Severity Note
###############################################################################################################################
# SOL SHORT
1 SOL ABOVE {{SOL_SHORT_LIQ_PRICE}}-1.25% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko SOL Short!"
2 SOL ABOVE {{SOL_SHORT_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "🌱 Short SOL now"
3 SOL BELOW {{SOL_SHORT_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "💵 Close SOL Short"
# SOL LONG
4 SOL BELOW {{SOL_LONG_LIQ_PRICE}}+1.25% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko SOL Long!"
5 SOL BELOW {{SOL_LONG_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "🌱 Long SOL now"
6 SOL ABOVE {{SOL_LONG_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "💵 Close SOL Long"
# ETH SHORT
7 ETH ABOVE {{ETH_SHORT_LIQ_PRICE}}-1% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko ETH Short!"
8 ETH ABOVE {{ETH_SHORT_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "🌱 Short ETH now"
9 ETH BELOW {{ETH_SHORT_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "💵 Close ETH Short"
# ETH LONG
10 ETH BELOW {{ETH_LONG_LIQ_PRICE}}+1% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko ETH Long!"
11 ETH BELOW {{ETH_LONG_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "🌱 Long ETH now"
12 ETH ABOVE {{ETH_LONG_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "💵 Close ETH Long"
# BTC SHORT
13 BTC ABOVE {{BTC_SHORT_LIQ_PRICE}}-1% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko BTC Short!"
14 BTC ABOVE {{BTC_SHORT_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "🌱 Short BTC now"
15 BTC BELOW {{BTC_SHORT_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "💵 Close BTC Short"
# BTC LONG
16 BTC BELOW {{BTC_LONG_LIQ_PRICE}}+1% ONETIME CRITICAL "🚨 LIKVIDERINGS-risiko BTC Long!"
17 BTC BELOW {{BTC_LONG_ENTRY_PRICE}}-3% PERSISTENT:900 INFO "🌱 Long BTC now"
18 BTC ABOVE {{BTC_LONG_ENTRY_PRICE}}+3% PERSISTENT:900 INFO "💵 Close BTC Long"
+23
View File
@@ -0,0 +1,23 @@
#!/usr/bin/env bash
set -euo pipefail
SOURCE="$HOME/projects/com_r35157_nenjim-hubd-impl_ref"
TARGET="$HOME/projects/com_r35157_nenjim-hubd-impl_ref_github_snapshot"
rsync -a --delete \
--exclude '.git' \
--exclude 'conf/*.conf' \
--exclude 'conf/*.xml' \
"$SOURCE/" \
"$TARGET/"
cd "$TARGET"
git add -A
if git diff --cached --quiet; then
echo "No snapshot changes to publish."
exit 0
fi
git commit -m "Mirror snapshot"
git push
@@ -2,5 +2,5 @@ package com.r35157.jupiterperpsalarm.impl.ref;
@FunctionalInterface @FunctionalInterface
public interface AlarmAction { public interface AlarmAction {
void trigger(OraclePrice price, PriceAlarmDefinition alarm); void trigger(OraclePrice price, ResolvedPriceAlarm alarm);
} }
@@ -0,0 +1,19 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.ConcurrentHashMap;
public record AlarmConfiguration(
List<PriceAlarmDefinition> definitions,
Map<String, String> variables
) {
public AlarmConfiguration {
Objects.requireNonNull(definitions, "definitions");
Objects.requireNonNull(variables, "variables");
definitions = List.copyOf(definitions);
variables = new ConcurrentHashMap<>(variables);
}
}
@@ -3,16 +3,16 @@ package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.jupiterperpsalarm.AlarmSeverity; import com.r35157.jupiterperpsalarm.AlarmSeverity;
import java.io.IOException; import java.io.IOException;
import java.math.BigDecimal;
import java.nio.file.Files; import java.nio.file.Files;
import java.nio.file.Path; import java.nio.file.Path;
import java.util.*; import java.util.*;
public final class AlarmConfigurationParser { public final class AlarmConfigurationParser {
public static List<PriceAlarmDefinition> parse(Path path) throws IOException { public static AlarmConfiguration parse(Path path) throws IOException {
List<String> lines = Files.readAllLines(path); List<String> lines = Files.readAllLines(path);
List<PriceAlarmDefinition> alarms = new ArrayList<>(); List<PriceAlarmDefinition> alarms = new ArrayList<>();
Map<String, String> constants = new LinkedHashMap<>();
for (int lineNumber = 1; lineNumber <= lines.size(); lineNumber++) { for (int lineNumber = 1; lineNumber <= lines.size(); lineNumber++) {
String line = lines.get(lineNumber - 1); String line = lines.get(lineNumber - 1);
@@ -26,8 +26,7 @@ public final class AlarmConfigurationParser {
if(isConstantDefinition(trimmed)) { if(isConstantDefinition(trimmed)) {
parseConstantDefinition(constants, line); parseConstantDefinition(constants, line);
} else { } else {
String resolvedLine = replaceConstants(line, constants); alarms.add(parseLine(line));
alarms.add(parseLine(resolvedLine));
} }
} catch (RuntimeException exception) { } catch (RuntimeException exception) {
throw new IllegalArgumentException( throw new IllegalArgumentException(
@@ -41,7 +40,7 @@ public final class AlarmConfigurationParser {
throw new IllegalArgumentException("No alarms found in " + path); throw new IllegalArgumentException("No alarms found in " + path);
} }
return List.copyOf(alarms); return new AlarmConfiguration(alarms, constants);
} }
static PriceAlarmDefinition parseLine(String line) { static PriceAlarmDefinition parseLine(String line) {
@@ -57,10 +56,10 @@ public final class AlarmConfigurationParser {
cursor.nextToken("direction").toUpperCase(Locale.ROOT) cursor.nextToken("direction").toUpperCase(Locale.ROOT)
); );
BigDecimal target = parseTarget(cursor.nextToken("target")); String targetExpression = cursor.nextToken("target");
AlarmTrigger trigger = AlarmTrigger.valueOf( TriggerConfiguration triggerConfiguration = parseTrigger(
cursor.nextToken("trigger").toUpperCase(Locale.ROOT) cursor.nextToken("trigger")
); );
AlarmSeverity severity = AlarmSeverity.valueOf( AlarmSeverity severity = AlarmSeverity.valueOf(
@@ -80,62 +79,56 @@ public final class AlarmConfigurationParser {
id, id,
asset, asset,
direction, direction,
target, targetExpression,
trigger, triggerConfiguration.trigger(),
triggerConfiguration.gracePeriod(),
severity, severity,
note note
); );
} }
private static BigDecimal parseTargetPercentage( private static TriggerConfiguration parseTrigger(String triggerText) {
String targetStr, String normalized = triggerText.toUpperCase(Locale.ROOT);
int operatorIndex,
boolean add
) {
BigDecimal base = new BigDecimal(targetStr.substring(0, operatorIndex));
String percentStr = targetStr.substring(operatorIndex + 1, targetStr.length() - 1);
BigDecimal percent = new BigDecimal(percentStr);
BigDecimal delta = base if (normalized.equals("ONETIME")) {
.multiply(percent) return new TriggerConfiguration(AlarmTrigger.ONETIME, 0);
.divide(BigDecimal.valueOf(100));
BigDecimal target = add ? base.add(delta) : base.subtract(delta);
validateTarget(base, targetStr);
validateTarget(percent, targetStr);
validateTarget(target, targetStr);
return target;
}
private static void validateTarget(BigDecimal target, String originalTargetStr) {
if (target.compareTo(BigDecimal.ZERO) < 0) {
throw new IllegalArgumentException(
"Target must be zero or positive: " + originalTargetStr
);
}
}
private static BigDecimal parseTarget(String targetStr) {
String trimmedTargetStr = targetStr.trim();
if (trimmedTargetStr.endsWith("%")) {
int plusIndex = trimmedTargetStr.indexOf('+');
int minusIndex = trimmedTargetStr.indexOf('-', 1);
if (plusIndex >= 0) {
return parseTargetPercentage(trimmedTargetStr, plusIndex, true);
}
if (minusIndex >= 0) {
return parseTargetPercentage(trimmedTargetStr, minusIndex, false);
}
} }
BigDecimal target = new BigDecimal(trimmedTargetStr); if (normalized.equals("PERSISTENT")) {
validateTarget(target, targetStr); return new TriggerConfiguration(AlarmTrigger.PERSISTENT, 0);
return target; }
if (normalized.startsWith("PERSISTENT:")) {
String graceText = normalized.substring("PERSISTENT:".length());
if (graceText.isEmpty()) {
throw new IllegalArgumentException("Missing persistent grace period: " + triggerText);
}
ΩsecondsΩ gracePeriodSeconds;
try {
gracePeriodSeconds = Integer.parseInt(graceText);
} catch (NumberFormatException exception) {
throw new IllegalArgumentException(
"Invalid persistent grace period: " + triggerText,
exception
);
}
if (gracePeriodSeconds < 0) {
throw new IllegalArgumentException(
"Persistent grace period cannot be negative: " + triggerText
);
}
return new TriggerConfiguration(AlarmTrigger.PERSISTENT, gracePeriodSeconds);
}
if (normalized.startsWith("ONETIME:")) {
throw new IllegalArgumentException("ONETIME cannot have a grace period: " + triggerText);
}
throw new IllegalArgumentException("Unknown trigger: " + triggerText);
} }
private static final class Cursor { private static final class Cursor {
@@ -244,9 +237,21 @@ public final class AlarmConfigurationParser {
validateConstantName(name); validateConstantName(name);
if (constants.putIfAbsent(name, value) != null) { constants.put(parseVariableName(name), value);
throw new IllegalArgumentException("Duplicate constant: " + name); }
private static String parseVariableName(String variableName) {
if (!variableName.startsWith("{{") || !variableName.endsWith("}}")) {
throw new IllegalArgumentException("Invalid variable name: " + variableName);
} }
String parsedVariableName = variableName.substring(2, variableName.length() - 2);
if (parsedVariableName.isBlank()) {
throw new IllegalArgumentException("Variable name cannot be blank: " + variableName);
}
return parsedVariableName;
} }
private static String replaceConstants( private static String replaceConstants(
@@ -274,8 +279,12 @@ public final class AlarmConfigurationParser {
} }
} }
private AlarmConfigurationParser() { private record TriggerConfiguration(
AlarmTrigger trigger,
ΩsecondsΩ gracePeriod
) {
} }
private static Map<String, String> constants = new LinkedHashMap<>(); private AlarmConfigurationParser() {
}
} }
@@ -0,0 +1,60 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import java.math.BigDecimal;
public final class AlarmTargetParser {
private AlarmTargetParser() {
}
public static BigDecimal parse(String targetStr) {
String trimmedTargetStr = targetStr.trim();
if (trimmedTargetStr.endsWith("%")) {
int plusIndex = trimmedTargetStr.indexOf('+');
int minusIndex = trimmedTargetStr.indexOf('-', 1);
if (plusIndex >= 0) {
return parseTargetPercentage(trimmedTargetStr, plusIndex, true);
}
if (minusIndex >= 0) {
return parseTargetPercentage(trimmedTargetStr, minusIndex, false);
}
}
BigDecimal target = new BigDecimal(trimmedTargetStr);
validateTarget(target, targetStr);
return target;
}
private static BigDecimal parseTargetPercentage(
String targetStr,
int operatorIndex,
boolean add
) {
BigDecimal base = new BigDecimal(targetStr.substring(0, operatorIndex));
String percentStr = targetStr.substring(operatorIndex + 1, targetStr.length() - 1);
BigDecimal percent = new BigDecimal(percentStr);
BigDecimal delta = base
.multiply(percent)
.divide(BigDecimal.valueOf(100));
BigDecimal target = add ? base.add(delta) : base.subtract(delta);
validateTarget(base, targetStr);
validateTarget(percent, targetStr);
validateTarget(target, targetStr);
return target;
}
private static void validateTarget(BigDecimal target, String originalTargetStr) {
if (target.compareTo(BigDecimal.ZERO) < 0) {
throw new IllegalArgumentException(
"Target must be zero or positive: " + originalTargetStr
);
}
}
}
@@ -0,0 +1,30 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import java.util.Map;
import java.util.Objects;
public final class AlarmVariableResolver {
public AlarmVariableResolver(Map<String, String> variables) {
this.variables = Objects.requireNonNull(variables, "variables");
}
public String resolve(String text) {
Objects.requireNonNull(text, "text");
String resolvedText = text;
for (Map.Entry<String, String> entry : variables.entrySet()) {
String placeholder = "{{" + entry.getKey() + "}}";
resolvedText = resolvedText.replace(placeholder, entry.getValue());
}
if (resolvedText.contains("{{") || resolvedText.contains("}}")) {
throw new IllegalArgumentException("Unresolved variable in text: " + text);
}
return resolvedText;
}
private final Map<String, String> variables;
}
@@ -12,6 +12,7 @@ public final class AssetPriceAlarmMonitor {
public AssetPriceAlarmMonitor( public AssetPriceAlarmMonitor(
JupiterPerpsAsset asset, JupiterPerpsAsset asset,
List<PriceAlarmDefinition> definitions, List<PriceAlarmDefinition> definitions,
AlarmVariableResolver variableResolver,
AlarmAction action AlarmAction action
) { ) {
this.asset = asset; this.asset = asset;
@@ -22,7 +23,7 @@ public final class AssetPriceAlarmMonitor {
"Alarm asset " + definition.asset() + " does not match monitor " + asset "Alarm asset " + definition.asset() + " does not match monitor " + asset
); );
} }
return new PriceAlarm(definition, action); return new PriceAlarm(definition, variableResolver, action);
}) })
.toList(); .toList();
@@ -9,7 +9,7 @@ public final class CompositeAlarmAction implements AlarmAction {
} }
@Override @Override
public void trigger(OraclePrice price, PriceAlarmDefinition alarm) { public void trigger(OraclePrice price, ResolvedPriceAlarm alarm) {
for (AlarmAction action : actions) { for (AlarmAction action : actions) {
try { try {
action.trigger(price, alarm); action.trigger(price, alarm);
@@ -2,7 +2,7 @@ package com.r35157.jupiterperpsalarm.impl.ref;
public final class ConsoleAlarmAction implements AlarmAction { public final class ConsoleAlarmAction implements AlarmAction {
@Override @Override
public void trigger(OraclePrice price, PriceAlarmDefinition alarm) { public void trigger(OraclePrice price, ResolvedPriceAlarm alarm) {
System.err.println(); System.err.println();
System.err.println("============================================================"); System.err.println("============================================================");
System.err.printf( System.err.printf(
@@ -48,25 +48,6 @@ public final class DovesAgPriceFeedDecoder {
); );
} }
public static void selfTest() {
byte[] data = new byte[ACCOUNT_SIZE];
System.arraycopy(AG_PRICE_FEED_DISCRIMINATOR, 0, data, 0, 8);
putUnsignedLongLittleEndian(data, PRICE_OFFSET, new BigInteger("123456789"));
data[EXPONENT_OFFSET] = (byte) -6;
ByteBuffer.wrap(data, TIMESTAMP_OFFSET, Long.BYTES)
.order(ByteOrder.LITTLE_ENDIAN)
.putLong(1_700_000_000L);
OraclePrice decoded = decode(JupiterPerpsAsset.SOL, data, 42L, "self-test");
if (decoded.priceUsd().compareTo(new BigDecimal("123.456789")) != 0) {
throw new IllegalStateException("Decoder self-test failed: " + decoded.priceUsd());
}
if (!decoded.oracleTime().equals(Instant.ofEpochSecond(1_700_000_000L))) {
throw new IllegalStateException("Timestamp self-test failed");
}
}
private static BigInteger readUnsignedLongLittleEndian(byte[] data, int offset) { private static BigInteger readUnsignedLongLittleEndian(byte[] data, int offset) {
byte[] positiveBigEndian = new byte[Long.BYTES + 1]; byte[] positiveBigEndian = new byte[Long.BYTES + 1];
for (int index = 0; index < Long.BYTES; index++) { for (int index = 0; index < Long.BYTES; index++) {
@@ -1,5 +1,10 @@
package com.r35157.jupiterperpsalarm.impl.ref; package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.libs.jupiter.perps.JupiterPerpsService;
import com.r35157.libs.jupiter.perps.impl.anchoridl.AnchorIdlJupiterPerpsServiceImpl;
import com.r35157.libs.solana.SolanaBlockChain;
import com.r35157.libs.solana.impl.ref.SolanaBlockChainImpl;
import java.net.URI; import java.net.URI;
import java.nio.file.Path; import java.nio.file.Path;
import java.util.ArrayList; import java.util.ArrayList;
@@ -13,6 +18,7 @@ public final class JupiterPerpsAlarmImpl {
public static void main(String[] args) throws Exception { public static void main(String[] args) throws Exception {
Config config; Config config;
try { try {
config = Config.parse(args, System.getenv()); config = Config.parse(args, System.getenv());
} catch (IllegalArgumentException exception) { } catch (IllegalArgumentException exception) {
@@ -21,20 +27,35 @@ public final class JupiterPerpsAlarmImpl {
throw new IllegalStateException(errMsg, exception); throw new IllegalStateException(errMsg, exception);
} }
if (config.selfTest()) {
SelfTest.run();
System.out.println("All self-tests passed.");
return;
}
List<PriceAlarmDefinition> definitions; List<PriceAlarmDefinition> definitions;
AlarmConfiguration alarmConfiguration;
try { try {
definitions = AlarmConfigurationParser.parse(config.alarmConfiguration()); alarmConfiguration = AlarmConfigurationParser.parse(config.alarmConfiguration());
definitions = alarmConfiguration.definitions();
} catch (Exception exception) { } catch (Exception exception) {
String errMsg = "Could not load alarm configuration: " + exception.getMessage() + "!"; String errMsg = "Could not load alarm configuration: " + exception.getMessage() + "!";
throw new IllegalStateException(errMsg, exception); throw new IllegalStateException(errMsg, exception);
} }
AlarmVariableResolver variableResolver = new AlarmVariableResolver(
alarmConfiguration.variables()
);
SolanaBlockChain solanaBlockChain = new SolanaBlockChainImpl();
JupiterPerpsService jupiterPerpsService = new AnchorIdlJupiterPerpsServiceImpl(solanaBlockChain);
JupiterPerpsEntryPriceVariableRefresher entryPriceVariableRefresher =
new JupiterPerpsEntryPriceVariableRefresher(alarmConfiguration.variables(), jupiterPerpsService);
entryPriceVariableRefresher.refresh();
JupiterPerpsEntryPriceVariableRefreshWatcher entryPriceVariableRefreshWatcher =
new JupiterPerpsEntryPriceVariableRefreshWatcher(
config.alarmConfiguration().getParent(),
entryPriceVariableRefresher
);
entryPriceVariableRefreshWatcher.start();
List<AlarmAction> actions = new ArrayList<>(); List<AlarmAction> actions = new ArrayList<>();
actions.add(new ConsoleAlarmAction()); actions.add(new ConsoleAlarmAction());
@@ -58,9 +79,10 @@ public final class JupiterPerpsAlarmImpl {
Map<JupiterPerpsAsset, AssetPriceAlarmMonitor> monitors = new EnumMap<>( Map<JupiterPerpsAsset, AssetPriceAlarmMonitor> monitors = new EnumMap<>(
JupiterPerpsAsset.class JupiterPerpsAsset.class
); );
definitionsByAsset.forEach((asset, assetDefinitions) -> monitors.put( definitionsByAsset.forEach((asset, assetDefinitions) -> monitors.put(
asset, asset,
new AssetPriceAlarmMonitor(asset, assetDefinitions, action) new AssetPriceAlarmMonitor(asset, assetDefinitions, variableResolver, action)
)); ));
List<OracleWebSocketClient> clients = new ArrayList<>(); List<OracleWebSocketClient> clients = new ArrayList<>();
@@ -91,7 +113,7 @@ public final class JupiterPerpsAlarmImpl {
assetDefinitions.forEach(definition -> System.out.printf( assetDefinitions.forEach(definition -> System.out.printf(
" %s %s USD, %s, severity=%s%n", " %s %s USD, %s, severity=%s%n",
definition.direction(), definition.direction(),
definition.target().toPlainString(), definition.targetExpression(),
definition.trigger(), definition.trigger(),
definition.severity() definition.severity()
)); ));
@@ -126,7 +148,6 @@ public final class JupiterPerpsAlarmImpl {
Options: Options:
--config=<path> Default: price-alarms.conf --config=<path> Default: price-alarms.conf
--ws=<url1,url2,...> Default: wss://api.mainnet-beta.solana.com --ws=<url1,url2,...> Default: wss://api.mainnet-beta.solana.com
--self-test Test parser, alarm semantics and oracle decoder
Environment: Environment:
PRICE_ALARMS_CONFIG Alternative default configuration path PRICE_ALARMS_CONFIG Alternative default configuration path
@@ -140,11 +161,9 @@ public final class JupiterPerpsAlarmImpl {
Path alarmConfiguration, Path alarmConfiguration,
List<URI> webSocketEndpoints, List<URI> webSocketEndpoints,
String pushoverToken, String pushoverToken,
String pushoverUserKey, String pushoverUserKey
boolean selfTest
) { ) {
private static Config parse(String[] args, Map<String, String> environment) { private static Config parse(String[] args, Map<String, String> environment) {
boolean selfTest = Arrays.asList(args).contains("--self-test");
Map<String, String> options = Arrays.stream(args) Map<String, String> options = Arrays.stream(args)
.filter(argument -> argument.startsWith("--") && argument.contains("=")) .filter(argument -> argument.startsWith("--") && argument.contains("="))
.map(argument -> argument.substring(2).split("=", 2)) .map(argument -> argument.substring(2).split("=", 2))
@@ -184,8 +203,7 @@ public final class JupiterPerpsAlarmImpl {
Path.of(configurationText), Path.of(configurationText),
endpoints, endpoints,
blankToNull(environment.get("PUSHOVER_APP_TOKEN")), blankToNull(environment.get("PUSHOVER_APP_TOKEN")),
blankToNull(environment.get("PUSHOVER_USER_KEY")), blankToNull(environment.get("PUSHOVER_USER_KEY"))
selfTest
); );
} }
@@ -0,0 +1,92 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import java.nio.file.*;
import java.util.Objects;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.FileSystems;
import java.nio.file.StandardWatchEventKinds;
import java.nio.file.WatchEvent;
import java.nio.file.WatchKey;
import java.nio.file.WatchService;
public final class JupiterPerpsEntryPriceVariableRefreshWatcher {
public JupiterPerpsEntryPriceVariableRefreshWatcher(
Path confDirectory,
JupiterPerpsEntryPriceVariableRefresher refresher
) {
this.confDirectory = Objects.requireNonNull(confDirectory, "confDirectory");
this.refresher = Objects.requireNonNull(refresher, "refresher");
}
public void start() {
Thread thread = new Thread(
this::run,
"jupiter-perps-entry-price-variable-refresh-watcher"
);
thread.setDaemon(true);
thread.start();
}
private void run() {
try (WatchService watchService = FileSystems.getDefault().newWatchService()) {
confDirectory.register(
watchService,
StandardWatchEventKinds.ENTRY_CREATE
);
System.out.println(
"Jupiter Perps entry price variable refresh watcher started for directory: "
+ confDirectory
);
while (true) {
WatchKey key = watchService.take();
for (WatchEvent<?> event : key.pollEvents()) {
Path path = (Path) event.context();
if (!REFRESH_TRIGGER_FILE_NAME.equals(path.getFileName().toString())) {
continue;
}
Path triggerFile = confDirectory.resolve(path);
System.out.println("Refresh trigger file detected: " + triggerFile);
try {
refresher.refresh();
} finally {
Files.deleteIfExists(triggerFile);
}
}
if (!key.reset()) {
System.err.println(
"Jupiter Perps entry price variable refresh watcher stopped: watch key is no longer valid"
);
return;
}
}
} catch (IOException exception) {
System.err.println(
"Could not start Jupiter Perps entry price variable refresh watcher: "
+ exception.getMessage()
);
} catch (InterruptedException exception) {
Thread.currentThread().interrupt();
System.err.println(
"Jupiter Perps entry price variable refresh watcher interrupted"
);
}
}
private static final String REFRESH_TRIGGER_FILE_NAME =
"jupiter-perps-alarm-var.refresh";
private final Path confDirectory;
private final JupiterPerpsEntryPriceVariableRefresher refresher;
}
@@ -0,0 +1,86 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.libs.jupiter.perps.JupiterPerpsPosition;
import com.r35157.libs.jupiter.perps.JupiterPerpsService;
import java.io.IOException;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
public final class JupiterPerpsEntryPriceVariableRefresher {
public JupiterPerpsEntryPriceVariableRefresher(
Map<String, String> variables,
JupiterPerpsService jupiterPerpsService
) {
this.variables = Objects.requireNonNull(variables, "variables");
this.jupiterPerpsService = Objects.requireNonNull(jupiterPerpsService, "jupiterPerpsService");
}
public void refresh() {
ΩSolanaWalletIdΩ wallet = variables.get("JUPITER_PERPS_WALLET");
if (wallet == null || wallet.isBlank()) {
System.err.println("Cannot refresh Jupiter Perps entry price variables: JUPITER_PERPS_WALLET is not configured");
return;
}
try {
Set<JupiterPerpsPosition> positions = jupiterPerpsService.getOpenPositions(wallet);
System.out.println(
"Fetched " + positions.size()
+ " open Jupiter Perps positions for wallet: " + wallet
);
removeEntryPriceVariables();
for (JupiterPerpsPosition position : positions) {
String variableName = createEntryPriceVariableName(position);
System.out.println(
"Jupiter Perps position maps to variable "
+ variableName
+ " = "
+ position.entryPrice()
);
variables.put(variableName, position.entryPrice().toPlainString());
}
} catch (IOException | InterruptedException exception) {
if (exception instanceof InterruptedException) {
Thread.currentThread().interrupt();
}
System.err.println(
"Could not refresh Jupiter Perps entry price variables: "
+ exception.getMessage()
);
}
}
private void removeEntryPriceVariables() {
variables.remove("SOL_LONG_ENTRY_PRICE");
variables.remove("SOL_SHORT_ENTRY_PRICE");
variables.remove("BTC_LONG_ENTRY_PRICE");
variables.remove("BTC_SHORT_ENTRY_PRICE");
variables.remove("ETH_LONG_ENTRY_PRICE");
variables.remove("ETH_SHORT_ENTRY_PRICE");
}
private static String createEntryPriceVariableName(JupiterPerpsPosition position) {
String asset = switch (position.tradedTokenMint()) {
case "So11111111111111111111111111111111111111112" -> "SOL";
case "3NZ9JMVBmGAqocybic2c7LQCJScmgsAZ6vQqTDzcqmJh" -> "BTC";
case "7vfCXTUXx5WJV5JADk17DUJ4ksgau7utNKj4b963voxs" -> "ETH";
default -> throw new IllegalArgumentException(
"Unsupported Jupiter Perps traded token mint: " + position.tradedTokenMint()
);
};
return asset + "_" + position.direction() + "_ENTRY_PRICE";
}
private final Map<String, String> variables;
private final JupiterPerpsService jupiterPerpsService;
}
@@ -1,9 +1,17 @@
package com.r35157.jupiterperpsalarm.impl.ref; package com.r35157.jupiterperpsalarm.impl.ref;
import java.math.BigDecimal;
import java.time.Instant;
public final class PriceAlarm { public final class PriceAlarm {
public PriceAlarm(PriceAlarmDefinition definition, AlarmAction action) { public PriceAlarm(
PriceAlarmDefinition definition,
AlarmVariableResolver variableResolver,
AlarmAction action
) {
this.definition = definition; this.definition = definition;
this.variableResolver = variableResolver;
this.action = action; this.action = action;
} }
@@ -14,9 +22,23 @@ public final class PriceAlarm {
); );
} }
BigDecimal target;
try {
target = AlarmTargetParser.parse(
variableResolver.resolve(definition.targetExpression())
);
} catch (RuntimeException exception) {
System.err.printf(
"Could not resolve target for alarm %d: %s%n",
definition.id(),
exception.getMessage()
);
return;
}
boolean reached = definition.direction().reached( boolean reached = definition.direction().reached(
price.priceUsd(), price.priceUsd(),
definition.target() target
); );
boolean enteredTriggeredSide = previousReached == null boolean enteredTriggeredSide = previousReached == null
@@ -25,16 +47,28 @@ public final class PriceAlarm {
previousReached = reached; previousReached = reached;
if (!enteredTriggeredSide) { if (!reached) {
previousReached = false;
return; return;
} }
if (definition.trigger() == AlarmTrigger.ONETIME && triggerCount > 0) { if (definition.trigger() == AlarmTrigger.ONETIME) {
if (!enteredTriggeredSide || triggerCount > 0) {
return;
}
trigger(price, target);
return; return;
} }
triggerCount++; if (definition.trigger() == AlarmTrigger.PERSISTENT) {
action.trigger(price, definition); if (lastTriggeredAt == null || persistentGracePeriodHasPassed()) {
trigger(price, target);
}
return;
}
throw new IllegalStateException("Unsupported alarm trigger: " + definition.trigger());
} }
public PriceAlarmDefinition definition() { public PriceAlarmDefinition definition() {
@@ -45,9 +79,58 @@ public final class PriceAlarm {
return triggerCount; return triggerCount;
} }
private boolean persistentGracePeriodHasPassed() {
if (lastTriggeredAt == null) {
return true;
}
ΩsecondsΩ gracePeriod = definition.triggerGracePeriod();
if (gracePeriod == 0) {
return true;
}
return !Instant.now().isBefore(
lastTriggeredAt.plusSeconds(gracePeriod)
);
}
private void trigger(OraclePrice price, BigDecimal target) {
triggerCount++;
lastTriggeredAt = Instant.now();
String note;
try {
note = variableResolver.resolve(definition.note());
} catch (RuntimeException exception) {
System.err.printf(
"Could not resolve note for alarm %d: %s%n",
definition.id(),
exception.getMessage()
);
return;
}
ResolvedPriceAlarm resolvedAlarm = new ResolvedPriceAlarm(
definition.id(),
definition.asset(),
definition.direction(),
target,
definition.trigger(),
definition.triggerGracePeriod(),
definition.severity(),
note
);
action.trigger(price, resolvedAlarm);
}
private final PriceAlarmDefinition definition; private final PriceAlarmDefinition definition;
private final AlarmVariableResolver variableResolver;
private final AlarmAction action; private final AlarmAction action;
private Instant lastTriggeredAt;
private Boolean previousReached; private Boolean previousReached;
private long triggerCount; private long triggerCount;
} }
@@ -2,27 +2,34 @@ package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.jupiterperpsalarm.AlarmSeverity; import com.r35157.jupiterperpsalarm.AlarmSeverity;
import java.math.BigDecimal;
import java.util.Objects; import java.util.Objects;
public record PriceAlarmDefinition( public record PriceAlarmDefinition(
int id, int id,
JupiterPerpsAsset asset, JupiterPerpsAsset asset,
PriceDirection direction, PriceDirection direction,
BigDecimal target, String targetExpression,
AlarmTrigger trigger, AlarmTrigger trigger,
ΩsecondsΩ triggerGracePeriod,
AlarmSeverity severity, AlarmSeverity severity,
String note String note
) { ) {
public PriceAlarmDefinition { public PriceAlarmDefinition {
Objects.requireNonNull(asset, "asset"); Objects.requireNonNull(asset, "asset");
Objects.requireNonNull(direction, "direction"); Objects.requireNonNull(direction, "direction");
Objects.requireNonNull(target, "target"); Objects.requireNonNull(targetExpression, "targetExpression");
Objects.requireNonNull(trigger, "trigger"); Objects.requireNonNull(trigger, "trigger");
Objects.requireNonNull(severity, "severity");
Objects.requireNonNull(note, "note"); Objects.requireNonNull(note, "note");
if (target.signum() < 0) { if (targetExpression.isBlank()) {
throw new IllegalArgumentException("Target price cannot be negative (was: " + target.signum() + ")!"); throw new IllegalArgumentException("Target expression cannot be blank");
}
if (triggerGracePeriod < 0) {
throw new IllegalArgumentException(
"Trigger grace period cannot be negative: " + triggerGracePeriod
);
} }
} }
} }
@@ -18,7 +18,7 @@ public final class PushoverAlarmAction implements AlarmAction {
} }
@Override @Override
public void trigger(OraclePrice price, PriceAlarmDefinition alarm) { public void trigger(OraclePrice price, ResolvedPriceAlarm alarm) {
String title = "Jupiter Perps " + price.asset() + " alarm"; String title = "Jupiter Perps " + price.asset() + " alarm";
String message = createMessage(price, alarm); String message = createMessage(price, alarm);
@@ -26,7 +26,7 @@ public final class PushoverAlarmAction implements AlarmAction {
form("user", userKey) + "&" + form("user", userKey) + "&" +
form("title", title) + "&" + form("title", title) + "&" +
form("message", message) + "&" + form("message", message) + "&" +
createPushoverSeverityParameters(alarm.severity());; createPushoverSeverityParameters(alarm.severity());
HttpRequest request = HttpRequest.newBuilder(PUSHOVER_URI) HttpRequest request = HttpRequest.newBuilder(PUSHOVER_URI)
.timeout(Duration.ofSeconds(15)) .timeout(Duration.ofSeconds(15))
@@ -69,7 +69,7 @@ public final class PushoverAlarmAction implements AlarmAction {
}; };
} }
private static String createMessage(OraclePrice price, PriceAlarmDefinition alarm) { private static String createMessage(OraclePrice price, ResolvedPriceAlarm alarm) {
return String.format( return String.format(
"%d - %s: %s%n%n%s is %s USD.%nTarget: %s %s USD.%nOracle time: %s.%nSlot: %d.", "%d - %s: %s%n%n%s is %s USD.%nTarget: %s %s USD.%nOracle time: %s.%nSlot: %d.",
alarm.id(), alarm.id(),
@@ -0,0 +1,16 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.jupiterperpsalarm.AlarmSeverity;
import java.math.BigDecimal;
public record ResolvedPriceAlarm(
int id,
JupiterPerpsAsset asset,
PriceDirection direction,
BigDecimal target,
AlarmTrigger trigger,
ΩsecondsΩ triggerGracePeriod,
AlarmSeverity severity,
String note
) {
}
@@ -1,121 +0,0 @@
package com.r35157.jupiterperpsalarm.impl.ref;
import com.r35157.jupiterperpsalarm.AlarmSeverity;
import java.math.BigDecimal;
import java.time.Instant;
import java.util.ArrayList;
import java.util.List;
public final class SelfTest {
public static void run() {
DovesAgPriceFeedDecoder.selfTest();
configurationParserTest();
oneTimeAlarmTest();
persistentAlarmTest();
initialTriggerTest();
}
private static void configurationParserTest() {
PriceAlarmDefinition alarm = AlarmConfigurationParser.parseLine(
"SOL ABOVE 75.7 ONETIME CRITICAL \"ALARM: Risiko for likvidering!\""
);
require(alarm.asset() == JupiterPerpsAsset.SOL, "Asset parsing failed");
require(alarm.direction() == PriceDirection.ABOVE, "Direction parsing failed");
require(alarm.target().compareTo(new BigDecimal("75.7")) == 0, "Target parsing failed");
require(alarm.trigger() == AlarmTrigger.ONETIME, "Trigger parsing failed");
require(alarm.severity() == AlarmSeverity.CRITICAL, "Severity parsing failed");
require(alarm.note().equals("ALARM: Risiko for likvidering!"), "Note parsing failed");
}
private static void oneTimeAlarmTest() {
List<BigDecimal> triggeredPrices = new ArrayList<>();
PriceAlarm alarm = new PriceAlarm(
definition(PriceDirection.ABOVE, "100", AlarmTrigger.ONETIME),
(price, definition) -> triggeredPrices.add(price.priceUsd())
);
accept(alarm, "90");
accept(alarm, "100");
accept(alarm, "110");
accept(alarm, "90");
accept(alarm, "101");
require(triggeredPrices.equals(List.of(new BigDecimal("100"))), "ONETIME semantics failed");
}
private static void persistentAlarmTest() {
List<BigDecimal> triggeredPrices = new ArrayList<>();
PriceAlarm alarm = new PriceAlarm(
definition(PriceDirection.BELOW, "100", AlarmTrigger.PERSISTENT),
(price, definition) -> triggeredPrices.add(price.priceUsd())
);
accept(alarm, "110");
accept(alarm, "99");
accept(alarm, "98");
accept(alarm, "101");
accept(alarm, "100");
require(
triggeredPrices.equals(List.of(new BigDecimal("99"), new BigDecimal("100"))),
"PERSISTENT crossing semantics failed"
);
}
private static void initialTriggerTest() {
List<BigDecimal> triggeredPrices = new ArrayList<>();
PriceAlarm alarm = new PriceAlarm(
definition(PriceDirection.ABOVE, "100", AlarmTrigger.PERSISTENT),
(price, definition) -> triggeredPrices.add(price.priceUsd())
);
accept(alarm, "105");
accept(alarm, "106");
require(
triggeredPrices.equals(List.of(new BigDecimal("105"))),
"Initial satisfied alarm did not trigger exactly once"
);
}
private static PriceAlarmDefinition definition(
PriceDirection direction,
String target,
AlarmTrigger trigger
) {
return new PriceAlarmDefinition(
123,
JupiterPerpsAsset.SOL,
direction,
new BigDecimal(target),
trigger,
AlarmSeverity.CRITICAL,
"ignored for now"
);
}
private static void accept(PriceAlarm alarm, String price) {
BigDecimal decimal = new BigDecimal(price);
alarm.accept(new OraclePrice(
JupiterPerpsAsset.SOL,
decimal.unscaledValue().abs(),
-decimal.scale(),
decimal,
Instant.ofEpochSecond(1_700_000_000L),
1L,
"self-test"
));
}
private static void require(boolean condition, String message) {
if (!condition) {
throw new IllegalStateException(message);
}
}
private SelfTest() {
}
}
@@ -0,0 +1,2 @@
package com.r35157.jupiterperpsalarm.impl.ref;
@@ -0,0 +1,70 @@
package com.r35157.libs.codec.impl.ref;
import com.r35157.libs.codec.Base58Codec;
public class Base58CodecImpl implements Base58Codec {
public String encode(byte[] input) {
if (input.length == 0) {
return "";
}
byte[] copy = input.clone();
int zeros = 0;
while (zeros < copy.length && copy[zeros] == 0) {
zeros++;
}
char[] encoded = new char[copy.length * 2];
int outputStart = encoded.length;
int inputStart = zeros;
while (inputStart < copy.length) {
int remainder = divmod58(
copy,
inputStart
);
if (copy[inputStart] == 0) {
inputStart++;
}
encoded[--outputStart] = ALPHABET[remainder];
}
while (outputStart < encoded.length && encoded[outputStart] == ENCODED_ZERO) {
outputStart++;
}
while (zeros-- > 0) {
encoded[--outputStart] = ENCODED_ZERO;
}
return new String(
encoded,
outputStart,
encoded.length - outputStart
);
}
private static int divmod58(byte[] number, int startAt) {
int remainder = 0;
for (int i = startAt; i < number.length; i++) {
int digit = number[i] & 0xff;
int temp = remainder * 256 + digit;
number[i] = (byte) (temp / 58);
remainder = temp % 58;
}
return remainder;
}
private static final char[] ALPHABET =
"123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz".toCharArray();
private static final char ENCODED_ZERO =
ALPHABET[0];
}
@@ -0,0 +1,50 @@
package com.r35157.libs.jupiter.perps.impl.anchoridl;
import com.r35157.libs.codec.Base58Codec;
import com.r35157.libs.codec.impl.ref.Base58CodecImpl;
import com.r35157.libs.solana.SolanaAccountInfo;
import java.util.Base64;
class AnchorIdlJupiterPerpsCustodyDecoder {
ΩSPLMintAddressΩ decodeMint(
SolanaAccountInfo custodyAccountInfo
) {
byte[] data = Base64.getDecoder().decode(custodyAccountInfo.dataBase64());
if (data.length < MINT_OFFSET + PUBLIC_KEY_LENGTH) {
throw new IllegalArgumentException(
"Jupiter Perps custody account data is too short: " + data.length
);
}
return readPublicKey(data, MINT_OFFSET);
}
private ΩSPLMintAddressΩ readPublicKey(
byte[] data,
int offset
) {
byte[] publicKeyBytes = new byte[PUBLIC_KEY_LENGTH];
System.arraycopy(
data,
offset,
publicKeyBytes,
0,
PUBLIC_KEY_LENGTH
);
return base58.encode(publicKeyBytes);
}
private static final int ANCHOR_DISCRIMINATOR_LENGTH = 8;
private static final int PUBLIC_KEY_LENGTH = 32;
private static final int MINT_OFFSET =
ANCHOR_DISCRIMINATOR_LENGTH
+ PUBLIC_KEY_LENGTH; // pool
private static final Base58Codec base58 = new Base58CodecImpl();
}
@@ -0,0 +1,114 @@
package com.r35157.libs.jupiter.perps.impl.anchoridl;
import com.r35157.libs.codec.Base58Codec;
import com.r35157.libs.codec.impl.ref.Base58CodecImpl;
import com.r35157.libs.jupiter.perps.JupiterPerpsPosition;
import com.r35157.libs.jupiter.perps.JupiterPerpsPositionDirection;
import com.r35157.libs.solana.SolanaAccountInfo;
import java.math.BigDecimal;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.Base64;
class AnchorIdlJupiterPerpsPositionDecoder {
JupiterPerpsPosition decode(
ΩJupiterPerpsPositionAccountΩ positionAccount,
SolanaAccountInfo accountInfo,
ΩSPLMintAddressΩ tradedTokenMint
) {
byte[] data = Base64.getDecoder().decode(accountInfo.dataBase64());
if (data.length < PRICE_OFFSET + U64_LENGTH) {
throw new IllegalArgumentException(
"Jupiter Perps position account data is too short: " + data.length
);
}
JupiterPerpsPositionDirection direction =
decodeDirection(data[SIDE_OFFSET]);
long rawEntryPrice = ByteBuffer
.wrap(data, PRICE_OFFSET, U64_LENGTH)
.order(ByteOrder.LITTLE_ENDIAN)
.getLong();
ΩUSDCPriceΩ entryPrice = BigDecimal
.valueOf(rawEntryPrice)
.movePointLeft(6);
JupiterPerpsPosition pos = new JupiterPerpsPosition(
positionAccount,
entryPrice,
direction,
tradedTokenMint
);
return pos;
}
ΩSolanaAddressΩ decodeCustodyAccount(SolanaAccountInfo accountInfo) {
byte[] data = Base64.getDecoder().decode(accountInfo.dataBase64());
if (data.length < CUSTODY_OFFSET + PUBLIC_KEY_LENGTH) {
throw new IllegalArgumentException(
"Jupiter Perps position account data is too short: " + data.length
);
}
return readPublicKey(
data,
CUSTODY_OFFSET
);
}
private JupiterPerpsPositionDirection decodeDirection(
byte rawSide
) {
// Jupiter Perps position side values are encoded as 1 = LONG, 2 = SHORT.
JupiterPerpsPositionDirection direction = switch (rawSide) {
case 1 -> JupiterPerpsPositionDirection.LONG;
case 2 -> JupiterPerpsPositionDirection.SHORT;
default -> throw new IllegalArgumentException(
"Unknown Jupiter Perps position side: " + rawSide
);
};
return direction;
}
private ΩSolanaAddressΩ readPublicKey(
byte[] data,
int offset
) {
byte[] publicKeyBytes = new byte[PUBLIC_KEY_LENGTH];
System.arraycopy(
data,
offset,
publicKeyBytes,
0,
PUBLIC_KEY_LENGTH
);
return base58.encode(publicKeyBytes);
}
private static final int ANCHOR_DISCRIMINATOR_LENGTH = 8;
private static final int PUBLIC_KEY_LENGTH = 32;
private static final int I64_LENGTH = 8;
private static final int SIDE_ENUM_LENGTH = 1;
private static final int U64_LENGTH = 8;
private static final int OWNER_OFFSET = ANCHOR_DISCRIMINATOR_LENGTH;
private static final int POOL_OFFSET = OWNER_OFFSET + PUBLIC_KEY_LENGTH;
private static final int CUSTODY_OFFSET = POOL_OFFSET + PUBLIC_KEY_LENGTH;
private static final int COLLATERAL_CUSTODY_OFFSET = CUSTODY_OFFSET + PUBLIC_KEY_LENGTH; // custody
private static final int OPEN_TIME_OFFSET = COLLATERAL_CUSTODY_OFFSET + PUBLIC_KEY_LENGTH;
private static final int UPDATE_TIME_OFFSET = OPEN_TIME_OFFSET + I64_LENGTH; // openTime
private static final int SIDE_OFFSET = UPDATE_TIME_OFFSET + I64_LENGTH;
private static final int PRICE_OFFSET = SIDE_OFFSET + SIDE_ENUM_LENGTH;
private static final Base58Codec base58 = new Base58CodecImpl();
}
@@ -0,0 +1,99 @@
package com.r35157.libs.jupiter.perps.impl.anchoridl;
import com.r35157.libs.jupiter.perps.JupiterPerpsPosition;
import com.r35157.libs.jupiter.perps.JupiterPerpsService;
import com.r35157.libs.solana.SolanaAccountInfo;
import com.r35157.libs.solana.SolanaBlockChain;
import com.r35157.libs.solana.SolanaProgramAccountMemcmpFilter;
import java.io.IOException;
import java.util.HashSet;
import java.util.Set;
public class AnchorIdlJupiterPerpsServiceImpl implements JupiterPerpsService {
public AnchorIdlJupiterPerpsServiceImpl(
SolanaBlockChain solanaBlockChain
) {
this.solanaBlockChain = solanaBlockChain;
this.positionDecoder = new AnchorIdlJupiterPerpsPositionDecoder();
this.custodyDecoder = new AnchorIdlJupiterPerpsCustodyDecoder();
}
@Override
public JupiterPerpsPosition getPosition(ΩJupiterPerpsPositionAccountΩ positionAccount)
throws IOException, InterruptedException {
SolanaAccountInfo accountInfo = solanaBlockChain.getAccountInfo(positionAccount);
if (accountInfo == null) {
throw new IllegalArgumentException("Jupiter Perps position account does not exist: " + positionAccount);
}
if (!JUPITER_PERPS_PROGRAM_ID.equals(accountInfo.owner())) {
throw new IllegalArgumentException(
"Account is not owned by Jupiter Perps program: " + positionAccount
);
}
ΩSPLMintAddressΩ tradedTokenMint = getTradedTokenMint(accountInfo);
JupiterPerpsPosition pos = positionDecoder.decode(positionAccount, accountInfo, tradedTokenMint);
return pos;
}
@Override
public Set<JupiterPerpsPosition> getOpenPositions(ΩSolanaWalletIdΩ owner)
throws IOException, InterruptedException {
Set<SolanaAccountInfo> accountInfos = solanaBlockChain.getProgramAccounts(
JUPITER_PERPS_PROGRAM_ID,
Set.of(new SolanaProgramAccountMemcmpFilter(
POSITION_OWNER_OFFSET,
owner
))
);
Set<JupiterPerpsPosition> positions = new HashSet<>();
for (SolanaAccountInfo accountInfo : accountInfos) {
ΩSolanaAddressΩ address = accountInfo.address();
ΩSolanaProgramIdΩ programId = accountInfo.owner();
if (!JUPITER_PERPS_PROGRAM_ID.equals(programId)) {
String errorMsg = "Account '" + address + "' is not owned by Jupiter Perps program '" +
programId + "'";
throw new IllegalArgumentException(errorMsg);
}
ΩSPLMintAddressΩ tradedTokenMint = getTradedTokenMint(accountInfo);
JupiterPerpsPosition position = positionDecoder.decode(address, accountInfo, tradedTokenMint);
positions.add(position);
}
return Set.copyOf(positions);
}
private ΩSPLMintAddressΩ getTradedTokenMint(SolanaAccountInfo positionAccountInfo)
throws IOException, InterruptedException
{
ΩSolanaAddressΩ custodyAccount = positionDecoder.decodeCustodyAccount(positionAccountInfo);
SolanaAccountInfo custodyAccountInfo = solanaBlockChain.getAccountInfo(custodyAccount);
if (custodyAccountInfo == null) {
throw new IllegalArgumentException(
"Jupiter Perps custody account does not exist: " + custodyAccount
);
}
ΩSPLMintAddressΩ mintAddress = custodyDecoder.decodeMint(custodyAccountInfo);
return mintAddress;
}
private static final ΩJupiterPerpsProgramIdΩ JUPITER_PERPS_PROGRAM_ID =
"PERPHjGBqRHArX4DySjwM6UJHiR3sWAatqfdBS2qQJu";
private static final int POSITION_OWNER_OFFSET = 8;
private final SolanaBlockChain solanaBlockChain;
private final AnchorIdlJupiterPerpsPositionDecoder positionDecoder;
private final AnchorIdlJupiterPerpsCustodyDecoder custodyDecoder;
}
@@ -1,146 +0,0 @@
package com.r35157.libs.solana;
import com.r35157.libs.solana.valuetypes.SolanaProgramDerivedAddress;
import com.r35157.libs.solana.valuetypes.economic.SolanaSPLTokenProgram;
import com.r35157.libs.valuetypes.basic.MoneyAmount;
import java.io.IOException;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* Provides read-oriented access to the Solana blockchain.
*
* <p>This interface exposes the Solana operations needed by higher-level
* integrations. It can fetch native SOL balances, SPL token holdings, NFT-like
* token holding candidates, account information and program derived addresses.</p>
*
* <p>The interface is intentionally generic and does not contain Raydium-specific
* logic. Higher-level integrations are expected to interpret Solana accounts,
* token holdings and derived addresses according to their own domain rules.</p>
*/
public interface SolanaBlockChain {
/**
* Fetches the native SOL balance for a Solana address.
*
* @param address the Solana address to inspect
* @return the native SOL balance for the address
* @throws IOException if the balance could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching the balance
*/
ΩSolanaAmountΩ getBalanceInSolana(ΩSolanaAddressΩ address) throws IOException, InterruptedException;
/**
* Fetches the native SOL balance for a Solana address in lamports.
*
* <p>Lamports are the smallest unit of native SOL.</p>
*
* @param address the Solana address to inspect
* @return the native SOL balance for the address in lamports
* @throws IOException if the balance could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching the balance
*/
ΩlamportsΩ getBalanceInLamport(ΩSolanaAddressΩ address) throws IOException, InterruptedException;
/**
* Fetches SPL token holdings owned by a Solana address for a specific token program.
*
* <p>The supplied token program decides which token accounts are inspected. For example,
* callers may query the original SPL Token Program or the Token-2022 Program depending
* on which token accounts they need to discover.</p>
*
* @param ownerAddress the Solana owner address whose token holdings should be inspected
* @param splProgramId the SPL token program to query
* @return a map of SPL mint addresses to token holding information
* @throws IOException if the token holdings could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching token holdings
*/
Map<ΩSPLMintAddressΩ, SPLTokenHolding> getSPLTokenHoldings(
ΩSolanaAddressΩ ownerAddress,
SolanaSPLTokenProgram splProgramId
) throws IOException, InterruptedException;
/**
* Fetches NFT-like token mint address candidates owned by a Solana address for a specific token program.
*
* <p>This method identifies token holdings that look like NFTs within the supplied token
* program. A returned address is only a candidate. Higher-level integrations are responsible
* for deciding whether the returned address has domain-specific meaning.</p>
*
* // TODO This method currently identifies candidates from the owner's token holdings only.
* // A token with zero decimals and an owner balance of one is not guaranteed to be a real NFT,
* // because the mint's total supply may still be greater than one. A future implementation
* // should verify the mint supply, for example by using Solana getTokenSupply, before treating
* // the result as a confirmed NFT.
*
* @param ownerAddress the Solana owner address whose NFT-like holdings should be inspected
* @param splProgram the SPL token program to query
* @return the NFT-like Solana mint address candidates owned by the address
* @throws IOException if the NFT candidate addresses could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching NFT candidate addresses
*/
Set<ΩSolanaNFTAddressΩ> getSolanaNFTCandidateAddresses(
ΩSolanaAddressΩ ownerAddress,
SolanaSPLTokenProgram splProgram
) throws IOException, InterruptedException;
/**
* Finds a Solana program derived address for a program id and a set of seeds.
*
* <p>The seeds describe the logical inputs used to derive the address. The implementation
* is responsible for converting each seed into the byte representation required by Solana.</p>
*
* @param programId the Solana program id used to derive the address
* @param seeds the seeds used when deriving the program address
* @return the derived Solana address together with its bump value
*/
SolanaProgramDerivedAddress findProgramAddress(
ΩSolanaProgramIdΩ programId,
List<SolanaProgramAddressSeed> seeds
);
/**
* Fetches account information for a Solana account address.
*
* <p>If the account does not exist, this method returns {@code null}. If the account exists,
* the returned value contains the account address, the owning Solana program id and the
* account data encoded as Base64.</p>
*
* @param accountAddress the Solana account address to inspect
* @return account information, or {@code null} if the account does not exist
* @throws IOException if the account information could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching account information
*/
SolanaAccountInfo getAccountInfo(ΩSolanaAddressΩ accountAddress)
throws IOException, InterruptedException;
/**
* Encodes a raw 32-byte Solana address into its textual Solana address representation.
*
* <p>This method is intended for callers that have obtained raw Solana address bytes from
* account data and need the normal string representation used elsewhere in the API.</p>
*
* @param addressBytes the raw 32-byte Solana address
* @return the encoded Solana address
* @throws IllegalArgumentException if the supplied byte array is not a valid Solana address length
*/
ΩSolanaAddressΩ encodeSolanaAddress(byte[] addressBytes);
/**
* Fetches the total supply of an SPL token mint for a specific token program.
*
* <p>The supplied token program identifies which SPL token program owns the mint,
* for example the original SPL Token Program or the Token-2022 Program.</p>
*
* @param mintAddress the SPL mint address whose supply should be fetched
* @param splProgram the SPL token program to query
* @return the SPL token supply for the mint
* @throws IOException if the token supply could not be fetched or parsed
* @throws InterruptedException if the calling thread is interrupted while fetching token supply
*/
SPLTokenSupply getSPLTokenSupply(
ΩSPLMintAddressΩ mintAddress,
SolanaSPLTokenProgram splProgram
) throws IOException, InterruptedException;
}
@@ -331,6 +331,113 @@ public class SolanaBlockChainImpl implements SolanaBlockChain {
); );
} }
@Override
public Set<SolanaAccountInfo> getProgramAccounts(
ΩSolanaProgramIdΩ programId,
Set<SolanaProgramAccountMemcmpFilter> filters
) throws IOException, InterruptedException {
String jsonBody = createGetProgramAccountsBody(programId, filters);
HttpRequest request = HttpRequest.newBuilder()
.uri(URI.create(RPC_URL))
.header("Content-Type", "application/json")
.POST(HttpRequest.BodyPublishers.ofString(jsonBody))
.build();
HttpResponse<String> response = sendThrottled(request);
if (response.statusCode() != 200) {
throw new IOException("RPC call failed: HTTP " + response.statusCode() + "\n" + response.body());
}
JsonNode root = objectMapper.readTree(response.body());
if (root.has("error")) {
throw new IOException("Solana RPC error: " + root.get("error").toPrettyString());
}
JsonNode result = root.path("result");
if (!result.isArray()) {
throw new IOException("getProgramAccounts response did not contain result array!");
}
Set<SolanaAccountInfo> accountInfos = new HashSet<>();
for (JsonNode accountNode : result) {
JsonNode pubkeyNode = accountNode.path("pubkey");
JsonNode account = accountNode.path("account");
if (!pubkeyNode.isTextual()) {
throw new IOException("getProgramAccounts response contained account without textual pubkey!");
}
JsonNode ownerNode = account.path("owner");
if (!ownerNode.isTextual()) {
throw new IOException("getProgramAccounts response contained account without textual owner!");
}
JsonNode dataNode = account.path("data");
if (!dataNode.isArray() || dataNode.isEmpty() || !dataNode.get(0).isTextual()) {
throw new IOException("getProgramAccounts response contained account without base64 data!");
}
accountInfos.add(new SolanaAccountInfo(
pubkeyNode.asText(),
ownerNode.asText(),
dataNode.get(0).asText()
));
}
return Set.copyOf(accountInfos);
}
private String createGetProgramAccountsBody(
ΩSolanaProgramIdΩ programId,
Set<SolanaProgramAccountMemcmpFilter> filters
) throws IOException {
StringBuilder filtersJson = new StringBuilder();
boolean first = true;
for (SolanaProgramAccountMemcmpFilter filter : filters) {
if (!first) {
filtersJson.append(",");
}
filtersJson.append("""
{
"memcmp": {
"offset": %d,
"bytes": "%s"
}
}
""".formatted(
filter.offset(),
filter.bytes()
));
first = false;
}
return """
{
"jsonrpc": "2.0",
"id": 1,
"method": "getProgramAccounts",
"params": [
"%s",
{
"commitment": "finalized",
"encoding": "base64",
"filters": [
%s
]
}
]
}
""".formatted(programId, filtersJson);
}
private synchronized HttpResponse<String> sendThrottled(HttpRequest request) throws IOException, InterruptedException { private synchronized HttpResponse<String> sendThrottled(HttpRequest request) throws IOException, InterruptedException {
waitBeforeRemoteCall(); waitBeforeRemoteCall();
@@ -1,5 +1,10 @@
package com.r35157.nenjim.hubd.impl.ref; package com.r35157.nenjim.hubd.impl.ref;
import com.r35157.libs.jupiter.perps.JupiterPerpsPosition;
import com.r35157.libs.jupiter.perps.JupiterPerpsService;
import com.r35157.libs.jupiter.perps.impl.anchoridl.AnchorIdlJupiterPerpsServiceImpl;
import com.r35157.libs.solana.SolanaBlockChain;
import com.r35157.libs.solana.impl.ref.SolanaBlockChainImpl;
import com.r35157.nenjim.hubd.ctx.Context; import com.r35157.nenjim.hubd.ctx.Context;
import com.r35157.nenjim.hubd.NenjimHub; import com.r35157.nenjim.hubd.NenjimHub;
import org.slf4j.Logger; import org.slf4j.Logger;
@@ -12,12 +17,21 @@ import com.r35157.nenjim.hubd.journal.JournalManager;
import com.r35157.nenjim.hubd.impl.ref.JournalManagerImpl; import com.r35157.nenjim.hubd.impl.ref.JournalManagerImpl;
import java.nio.file.Files; import java.nio.file.Files;
import java.nio.file.Path; import java.nio.file.Path;
import java.util.Set;
public class Main { public class Main {
// TODO: Consider if we really need a Main class or we just need to move the main method to NenjimHubImpl? // TODO: Consider if we really need a Main class or we just need to move the main method to NenjimHubImpl?
static void main(String[] args) throws Exception { static void main(String[] args) throws Exception {
NenjimHubImpl nenjimHub = new NenjimHubImpl(); NenjimHubImpl nenjimHub = new NenjimHubImpl();
/*
SolanaBlockChain sbc = new SolanaBlockChainImpl();
JupiterPerpsService jupiter = new AnchorIdlJupiterPerpsServiceImpl(sbc);
ΩSolanaWalletIdΩ walletId = "vj98roDZ7744EBfxyuDFkKpEGCsKQLr7K8UFRumJNHf";
Set<JupiterPerpsPosition> positions = jupiter.getOpenPositions(walletId);
int a=0;
*/
nenjimHub.awaitShutdown(); nenjimHub.awaitShutdown();
/* try { /* try {