More and better error messages in the DHT.

[quix0rs-apt-p2p.git] / apt_dht_Khashmir / khashmir.py

diff --git a/apt_dht_Khashmir/khashmir.py b/apt_dht_Khashmir/khashmir.py
index 1cb4a3c187e0e50b313c57d1b5ae4400abcd7295..d3479e661e4f610723ff9a1cc825b19078b9e153 100644 (file)
--- a/apt_dht_Khashmir/khashmir.py
+++ b/apt_dht_Khashmir/khashmir.py
@@ -33,6 +33,7 @@ class KhashmirBase(protocol.Factory):
         self.store = DB(os.path.join(cache_dir, 'khashmir.' + str(self.port) + '.db'))
         self.node = self._loadSelfNode('', self.port)
         self.table = KTable(self.node, config)
+        self.token_secrets = [newID()]
         #self.app = service.Application("krpc")
         self.udp = krpc.hostbroker(self, config)
         self.udp.protocol = krpc.KRPC
@@ -59,6 +60,9 @@ class KhashmirBase(protocol.Factory):
         return self._Node(id, host, port)
         
     def checkpoint(self, auto=0):
+        self.token_secrets.insert(0, newID())
+        if len(self.token_secrets) > 3:
+            self.token_secrets.pop()
         self.store.saveSelfNode(self.node.id)
         self.store.dumpRoutingTable(self.table.buckets)
         self.refreshTable()
@@ -80,12 +84,12 @@ class KhashmirBase(protocol.Factory):
 
     #######
     #######  LOCAL INTERFACE    - use these methods!
-    def addContact(self, host, port, callback=None):
+    def addContact(self, host, port, callback=None, errback=None):
         """
             ping this node and add the contact info to the table on pong!
         """
         n = self.Node(NULL_ID, host, port)
-        self.sendPing(n, callback=callback)
+        self.sendJoin(n, callback=callback, errback=errback)
 
     ## this call is async!
     def findNode(self, id, callback, errback=None):
@@ -133,32 +137,34 @@ class KhashmirBase(protocol.Factory):
             df = old.ping(self.node.id)
             df.addCallbacks(_notStaleNodeHandler, _staleNodeHandler)
 
-    def sendPing(self, node, callback=None):
+    def sendJoin(self, node, callback=None, errback=None):
         """
             ping a node
         """
-        df = node.ping(self.node.id)
+        df = node.join(self.node.id)
         ## these are the callbacks we use when we issue a PING
         def _pongHandler(dict, node=node, self=self, callback=callback):
             n = self.Node(dict['rsp']['id'], dict['_krpc_sender'][0], dict['_krpc_sender'][1])
             self.insertNode(n)
             if callback:
-                callback()
-        def _defaultPong(err, node=node, table=self.table, callback=callback):
+                callback((dict['rsp']['ip_addr'], dict['rsp']['port']))
+        def _defaultPong(err, node=node, table=self.table, callback=callback, errback=errback):
             table.nodeFailed(node)
-            if callback:
-                callback()
+            if errback:
+                errback()
+            else:
+                callback(None)
         
         df.addCallbacks(_pongHandler,_defaultPong)
 
-    def findCloseNodes(self, callback=lambda a: None):
+    def findCloseNodes(self, callback=lambda a: None, errback = None):
         """
             This does a findNode on the ID one away from our own.  
             This will allow us to populate our table with nodes on our network closest to our own.
             This is called as soon as we start up with an empty table
         """
         id = self.node.id[:-1] + chr((ord(self.node.id[-1]) + 1) % 256)
-        self.findNode(id, callback)
+        self.findNode(id, callback, errback)
 
     def refreshTable(self, force=0):
         """
@@ -199,12 +205,18 @@ class KhashmirBase(protocol.Factory):
         self.insertNode(n, contacted=0)
         return {"id" : self.node.id}
         
+    def krpc_join(self, id, _krpc_sender):
+        n = self.Node(id, _krpc_sender[0], _krpc_sender[1])
+        self.insertNode(n, contacted=0)
+        return {"ip_addr" : _krpc_sender[0], "port" : _krpc_sender[1], "id" : self.node.id}
+        
     def krpc_find_node(self, target, id, _krpc_sender):
         n = self.Node(id, _krpc_sender[0], _krpc_sender[1])
         self.insertNode(n, contacted=0)
         nodes = self.table.findNodes(target)
-        nodes = map(lambda node: node.senderDict(), nodes)
-        return {"nodes" : nodes, "id" : self.node.id}
+        nodes = map(lambda node: node.contactInfo(), nodes)
+        token = sha(self.token_secrets[0] + _krpc_sender[0]).digest()
+        return {"nodes" : nodes, "token" : token, "id" : self.node.id}
 
 
 ## This class provides read-only access to the DHT, valueForKey
@@ -242,7 +254,7 @@ class KhashmirRead(KhashmirBase):
             return {'values' : l, "id": self.node.id}
         else:
             nodes = self.table.findNodes(key)
-            nodes = map(lambda node: node.senderDict(), nodes)
+            nodes = map(lambda node: node.contactInfo(), nodes)
             return {'nodes' : nodes, "id": self.node.id}
 
 ###  provides a generic write method, you probably don't want to deploy something that allows
@@ -251,7 +263,7 @@ class KhashmirWrite(KhashmirRead):
     _Node = KNodeWrite
     ## async, callback indicates nodes we got a response from (but no guarantee they didn't drop it on the floor)
     def storeValueForKey(self, key, value, callback=None):
-        """ stores the value for key in the global table, returns immediately, no status 
+        """ stores the value and origination time for key in the global table, returns immediately, no status 
             in this implementation, peers respond but don't indicate status to storing values
             a key can have many values
         """
@@ -268,11 +280,15 @@ class KhashmirWrite(KhashmirRead):
         self.findNode(key, _storeValueForKey)
                     
     #### Remote Interface - called by remote nodes
-    def krpc_store_value(self, key, value, id, _krpc_sender):
+    def krpc_store_value(self, key, value, token, id, _krpc_sender):
         n = self.Node(id, _krpc_sender[0], _krpc_sender[1])
         self.insertNode(n, contacted=0)
-        self.store.storeValue(key, value)
-        return {"id" : self.node.id}
+        for secret in self.token_secrets:
+            this_token = sha(secret + _krpc_sender[0]).digest()
+            if token == this_token:
+                self.store.storeValue(key, value)
+                return {"id" : self.node.id}
+        raise krpc.KrpcError, (krpc.KRPC_ERROR_INVALID_TOKEN, 'token is invalid, do a find_nodes to get a fresh one')
 
 # the whole shebang, for testing
 class Khashmir(KhashmirWrite):
@@ -282,7 +298,7 @@ class SimpleTests(unittest.TestCase):
     
     timeout = 10
     DHT_DEFAULTS = {'PORT': 9977, 'K': 8, 'HASH_LENGTH': 160,
-                    'CHECKPOINT_INTERVAL': 900, 'CONCURRENT_REQS': 4,
+                    'CHECKPOINT_INTERVAL': 300, 'CONCURRENT_REQS': 4,
                     'STORE_REDUNDANCY': 3, 'MAX_FAILURES': 3,
                     'MIN_PING_INTERVAL': 900,'BUCKET_STALENESS': 3600,
                     'KEINITIAL_DELAY': 15, 'KE_DELAY': 1200,
@@ -356,7 +372,7 @@ class MultiTest(unittest.TestCase):
     timeout = 30
     num = 20
     DHT_DEFAULTS = {'PORT': 9977, 'K': 8, 'HASH_LENGTH': 160,
-                    'CHECKPOINT_INTERVAL': 900, 'CONCURRENT_REQS': 4,
+                    'CHECKPOINT_INTERVAL': 300, 'CONCURRENT_REQS': 4,
                     'STORE_REDUNDANCY': 3, 'MAX_FAILURES': 3,
                     'MIN_PING_INTERVAL': 900,'BUCKET_STALENESS': 3600,
                     'KEINITIAL_DELAY': 15, 'KE_DELAY': 1200,