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/*
* Copyright (c) 2017-2019 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @header ConnectionTable
* @abstract Records all the current connections and references to them
* @discussion
*
*/
#ifndef _WIN32
#include <unistd.h>
#endif
#include <src/config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <parc/assert/parc_Assert.h>
#include <parc/algol/parc_ArrayList.h>
#include <parc/algol/parc_Hash.h>
#include <parc/algol/parc_HashCodeTable.h>
#include <parc/algol/parc_Memory.h>
#include <parc/algol/parc_TreeRedBlack.h>
#include <src/core/connectionTable.h>
#include <src/io/addressPair.h>
struct connection_table {
// The main storage table that has a Destroy method.
// The key is an unsigned int pointer. We use an unsigned int pointer
// because we want to be able to lookup by the id alone, and not have to
// have the IoOperations everywhere.
PARCHashCodeTable *storageTableById;
// The key is a AddressPair
// It does not have a destroy method for the data or key,
// as they are derived from the storage table.
PARCHashCodeTable *indexByAddressPair;
// An iterable stucture organized by connection id. The keys and
// values are the same pointers as in storageTableById, so there
// are no destructors in the tree.
// The only reason to keep this tree is so we have an iterable list
// of connections, which the hash table does not give us.
PARCTreeRedBlack *listById;
};
static bool connectionTable_ConnectionIdEquals(const void *keyA,
const void *keyB) {
unsigned idA = *((unsigned *)keyA);
unsigned idB = *((unsigned *)keyB);
return (idA == idB);
}
static int connectionTable_ConnectionIdCompare(const void *keyA,
const void *keyB) {
unsigned idA = *((unsigned *)keyA);
unsigned idB = *((unsigned *)keyB);
if (idA < idB) {
return -1;
}
if (idA > idB) {
return +1;
}
return 0;
}
static bool connectionTable_AddressPairEquals(const void *keyA,
const void *keyB) {
const AddressPair *pairA = (const AddressPair *)keyA;
const AddressPair *pairB = (const AddressPair *)keyB;
return addressPair_Equals(pairA, pairB);
}
static HashCodeType connectionTable_ConnectionIdHashCode(const void *keyA) {
unsigned idA = *((unsigned *)keyA);
return parcHash32_Int32(idA);
}
static HashCodeType connectionTable_AddressPairHashCode(const void *keyA) {
const AddressPair *pairA = (const AddressPair *)keyA;
return addressPair_HashCode(pairA);
}
static void connectionTable_ConnectionIdDestroyer(void **dataPtr) {
unsigned *idA = (unsigned *)*dataPtr;
parcMemory_Deallocate((void **)&idA);
*dataPtr = NULL;
}
static void connectionTable_ConnectionDestroyer(void **dataPtr) {
connection_Release((Connection **)dataPtr);
}
ConnectionTable *connectionTable_Create() {
size_t initialSize = 16384;
ConnectionTable *conntable =
parcMemory_AllocateAndClear(sizeof(ConnectionTable));
parcAssertNotNull(conntable, "parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(ConnectionTable));
conntable->storageTableById = parcHashCodeTable_Create_Size(
connectionTable_ConnectionIdEquals, connectionTable_ConnectionIdHashCode,
connectionTable_ConnectionIdDestroyer,
connectionTable_ConnectionDestroyer, initialSize);
// no key or data destroyer, this is an index into storageByid.
conntable->indexByAddressPair = parcHashCodeTable_Create_Size(
connectionTable_AddressPairEquals, connectionTable_AddressPairHashCode,
NULL, NULL, initialSize);
conntable->listById =
parcTreeRedBlack_Create(connectionTable_ConnectionIdCompare,
NULL, // key free
NULL, // key copy
NULL, // value equals
NULL, // value free
NULL); // value copy
return conntable;
}
void connectionTable_Destroy(ConnectionTable **conntablePtr) {
parcAssertNotNull(conntablePtr, "Parameter must be non-null double pointer");
parcAssertNotNull(*conntablePtr,
"Parameter must dereference to non-null pointer");
ConnectionTable *conntable = *conntablePtr;
parcTreeRedBlack_Destroy(&conntable->listById);
parcHashCodeTable_Destroy(&conntable->indexByAddressPair);
parcHashCodeTable_Destroy(&conntable->storageTableById);
parcMemory_Deallocate((void **)&conntable);
*conntablePtr = NULL;
}
/**
* @function connectionTable_Add
* @abstract Add a connection, takes ownership of memory
*/
void connectionTable_Add(ConnectionTable *table, Connection *connection) {
parcAssertNotNull(table, "Parameter table must be non-null");
parcAssertNotNull(connection, "Parameter connection must be non-null");
unsigned *connectionIdKey = parcMemory_Allocate(sizeof(unsigned));
parcAssertNotNull(connectionIdKey, "parcMemory_Allocate(%zu) returned NULL",
sizeof(unsigned));
*connectionIdKey = connection_GetConnectionId(connection);
if (parcHashCodeTable_Add(table->storageTableById, connectionIdKey,
connection)) {
parcHashCodeTable_Add(table->indexByAddressPair,
(void *)connection_GetAddressPair(connection),
connection);
parcTreeRedBlack_Insert(table->listById, connectionIdKey, connection);
} else {
parcTrapUnexpectedState(
"Could not add connection id %u -- is it a duplicate?",
*connectionIdKey);
}
}
/**
* @function connectionTable_Remove
* @abstract Removes the connection, calling Destroy on our copy
*/
void connectionTable_Remove(ConnectionTable *table,
const Connection *connection) {
parcAssertNotNull(table, "Parameter table must be non-null");
parcAssertNotNull(connection, "Parameter connection must be non-null");
unsigned connid = connection_GetConnectionId(connection);
parcTreeRedBlack_Remove(table->listById, &connid);
parcHashCodeTable_Del(table->indexByAddressPair,
connection_GetAddressPair(connection));
parcHashCodeTable_Del(table->storageTableById, &connid);
}
void connectionTable_RemoveById(ConnectionTable *table, unsigned id) {
parcAssertNotNull(table, "Parameter table must be non-null");
const Connection *connection = connectionTable_FindById(table, id);
if (connection) {
connectionTable_Remove(table, connection);
}
}
const Connection *connectionTable_FindByAddressPair(ConnectionTable *table,
const AddressPair *pair) {
parcAssertNotNull(table, "Parameter table must be non-null");
return (Connection *)parcHashCodeTable_Get(table->indexByAddressPair, pair);
}
const Connection *connectionTable_FindById(ConnectionTable *table,
unsigned id) {
parcAssertNotNull(table, "Parameter table must be non-null");
return (Connection *)parcHashCodeTable_Get(table->storageTableById, &id);
}
ConnectionList *connectionTable_GetEntries(const ConnectionTable *table) {
parcAssertNotNull(table, "Parameter table must be non-null");
ConnectionList *list = connectionList_Create();
PARCArrayList *values = parcTreeRedBlack_Values(table->listById);
for (size_t i = 0; i < parcArrayList_Size(values); i++) {
Connection *original = parcArrayList_Get(values, i);
connectionList_Append(list, original);
}
parcArrayList_Destroy(&values);
return list;
}
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