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396 lines
12 KiB
Plaintext
396 lines
12 KiB
Plaintext
/*
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GSport - an Apple //gs Emulator
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Copyright (C) 2013-2014 by Peter Neubauer
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This program is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2 of the License, or (at your
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option) any later version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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/** This module implements the ELAP port of the bridge. **/
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#include <stdbool.h>
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#include "../defc.h"
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#include "atbridge.h"
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#include "elap.h"
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#include "port.h"
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#include "aarp.h"
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#include "elap_defs.h"
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#include "pcap_delay.h"
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#ifdef __CYGWIN__
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#include <Windows.h>
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#include <NspAPI.h>
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#endif
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#ifdef WIN32
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#include <winsock.h>
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#include <IPHlpApi.h>
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#endif
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#ifdef __linux__
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#include <netinet/in.h>
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#include <netpacket/packet.h>
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#endif
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extern int g_ethernet_interface;
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static pcap_t* pcap_session;
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static struct packet_port_t elap_port;
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static struct ether_addr_t HW_LOCAL;
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/*static void dump_device_list(pcap_if_t* devices)
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{
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int i = 0;
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for(pcap_if_t* device = devices; device; device = device->next)
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{
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printf("%d. %s", ++i, device->name);
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if (device->description)
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printf(" (%s)\n", device->description);
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else
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printf(" (No description available)\n");
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}
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}*/
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static void elap_clone_host_mac(pcap_if_t* device)
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{
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if (!device)
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return;
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#ifdef WIN32
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////
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// Extract the device GUID, which Windows uses to identify the device.
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char* name = device->name;
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while (name && *name != '{')
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name++;
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size_t guidLen = strlen(name);
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////
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// Find and copy the device MAC address.
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ULONG size = sizeof(IP_ADAPTER_ADDRESSES) * 15;
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IP_ADAPTER_ADDRESSES* addresses = malloc(size);
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ULONG result = GetAdaptersAddresses(AF_UNSPEC,
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GAA_FLAG_SKIP_ANYCAST | GAA_FLAG_SKIP_MULTICAST | GAA_FLAG_SKIP_DNS_SERVER, NULL, addresses, &size);
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if (result == ERROR_BUFFER_OVERFLOW)
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{
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// The addresses buffer is too small. Allocate a bigger buffer.
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free(addresses);
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addresses = malloc(size);
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result = GetAdaptersAddresses(AF_UNSPEC,
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GAA_FLAG_SKIP_ANYCAST | GAA_FLAG_SKIP_MULTICAST | GAA_FLAG_SKIP_DNS_SERVER, NULL, addresses, &size);
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}
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if (result == NO_ERROR)
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{
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// Search for the desired adapter address.
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IP_ADAPTER_ADDRESSES* current = addresses;
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while (current)
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{
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if (current->PhysicalAddressLength == ETHER_ADDR_LEN && memcmp(current->AdapterName, name, guidLen) == 0)
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{
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memcpy(&HW_LOCAL.mac, ¤t->PhysicalAddress, sizeof(HW_LOCAL.mac));
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break;
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}
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current = current->Next;
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}
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}
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else
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{
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halt_printf("ATBridge: Failed to find host MAC address (%d).", result);
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}
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free(addresses);
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#else
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struct pcap_addr* address;
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for (address = device->addresses; address != 0; address = address->next)
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if (address->addr->sa_family == AF_PACKET)
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{
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struct sockaddr_ll* ll = (struct sockaddr_ll*)address->addr;
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memcpy(&HW_LOCAL.mac, ll->sll_addr, sizeof(HW_LOCAL.mac));
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}
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#endif
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}
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const struct ether_addr_t* elap_get_mac()
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{
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return &HW_LOCAL;
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}
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bool elap_init()
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{
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port_init(&elap_port);
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memcpy(&HW_LOCAL, &HW_LOCAL_DEFAULT, sizeof(HW_LOCAL));
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pcap_if_t* device;
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pcap_if_t* alldevs;
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int i = 0;
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char errbuf[PCAP_ERRBUF_SIZE];
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// Load the PCAP library.
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if (!pcapdelay_load())
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{
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halt_printf("ATBridge: PCAP not available.\n");
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return false;
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}
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// Retrieve the device list.
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if(pcapdelay_findalldevs(&alldevs, errbuf) == -1)
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{
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atbridge_printf("ATBridge: Error enumerating PCAP devices: %s\n", errbuf);
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return false;
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}
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//dump_device_list(alldevs);
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// Jump to the selected adapter.
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for (device = alldevs, i = 0; i < g_ethernet_interface; device = device->next, i++);
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if (!device)
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{
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halt_printf("ATBridge: PCAP device not found. Check interface number in settings.\n");
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return false;
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}
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// Clone the MAC address of the underlying interface. In certain configurations (e.g. Windows with an MS Loopback
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// interface), the interface, even in promiscous mode, filters foreign MAC addresses.
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elap_clone_host_mac(device);
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// Open the adapter,
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if ((pcap_session = pcapdelay_open_live(device->name, // name of the device
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65536, // portion of the packet to capture.
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// 65536 grants that the whole packet will be captured on all the MACs.
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1, // promiscuous mode (nonzero means promiscuous)
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1, // read timeout
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errbuf // error buffer
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)) == NULL)
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{
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halt_printf("ATBridge: Unable to open the adapter. Pcap does not support %s.\n", device->name);
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pcapdelay_freealldevs(alldevs);
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return false;
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}
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// The device must support Ethernet because the bridge "speaks" EtherTalk.
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if (pcapdelay_datalink(pcap_session) == DLT_EN10MB)
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{
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pcapdelay_setnonblock(pcap_session, 1, errbuf);
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atbridge_printf("ATBridge: AppleTalk bridging using network device '%s' with Ethernet address %.2X:%.2X:%.2X:%.2X:%.2X:%.2X.\n",
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device->description, HW_LOCAL.mac[0], HW_LOCAL.mac[1], HW_LOCAL.mac[2], HW_LOCAL.mac[3], HW_LOCAL.mac[4], HW_LOCAL.mac[5]);
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pcapdelay_freealldevs(alldevs);
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return true;
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}
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else
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{
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pcapdelay_close(pcap_session);
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pcap_session = 0;
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halt_printf("ATBridge: Selected network device %s must support Ethernet.\n", device->description);
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pcapdelay_freealldevs(alldevs);
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return false;
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}
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}
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void elap_shutdown()
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{
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port_shutdown(&elap_port);
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if (pcap_session)
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{
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pcapdelay_close(pcap_session);
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pcap_session = 0;
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}
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pcapdelay_unload();
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}
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void elap_enqueue_out(struct packet_t* packet)
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{
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enqueue_packet(&elap_port.out, packet);
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}
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struct packet_t* elap_dequeue_in()
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{
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return dequeue(&elap_port.in);
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}
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void elap_send(const struct ether_addr_t* dest, const struct snap_discriminator_t* discriminator, size_t size, byte data[])
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{
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if (pcap_session && dest && discriminator)
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{
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// Allocate heap space for the frame.
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const size_t frame_size = sizeof(struct ethernet_header_t) + sizeof(struct snap_header_t) + size;
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u_char* frame_data;
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size_t pad = 0;
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if (frame_size < ETHER_MIN_SIZE)
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pad = ETHER_MIN_SIZE - frame_size;
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frame_data = (u_char*)malloc(frame_size + pad);
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// Build the 802.3 header.
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struct ethernet_header_t* ether = (struct ethernet_header_t*)frame_data;
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memcpy(ether->dest.mac, dest, sizeof(ether->dest.mac));
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memcpy(ether->source.mac, HW_LOCAL.mac, sizeof(ether->source.mac));
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ether->length = htons(frame_size - sizeof(struct ethernet_header_t));
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// Build the 802.2 header.
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struct snap_header_t* snap = (struct snap_header_t*)(frame_data + sizeof(struct ethernet_header_t));
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snap->dsap = SNAP_DSAP;
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snap->ssap = SNAP_SSAP;
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snap->control = SNAP_CONTROL;
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memcpy(&snap->discriminator, discriminator, sizeof(snap->discriminator));
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// Add the data payload.
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struct snap_header_t* payload = (struct snap_header_t*)(frame_data + sizeof(struct ethernet_header_t) + sizeof(struct snap_header_t));
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memcpy(payload, data, size);
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// Add padding to meet minimum Ethernet frame size.
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if (pad > 0)
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memset(frame_data + frame_size, 0, pad);
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pcapdelay_sendpacket(pcap_session, frame_data, frame_size + pad);
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}
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}
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static bool elap_send_one_queued()
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{
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// Attempt to send one packet out the host network interface.
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struct packet_t* packet = queue_peek(&elap_port.out);
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if (packet)
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{
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// Find the MAC address.
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const struct ether_addr_t* dest;
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if (packet->dest.node == at_broadcast_node)
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dest = &HW_APPLETALK_BROADCAST;
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else
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dest = aarp_request_hardware(&packet->dest);
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// Send it.
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if (dest)
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{
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elap_send(dest, &SNAP_APPLETALK, packet->size, packet->data);
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dequeue(&elap_port.out);
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free(packet->data);
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free(packet);
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}
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else
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{
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// AARP does not have the needed hardware address. Give AARP time to obtain the address and keep the current packet.
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if (!aarp_retry())
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{
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// However, if AARP has reached the retry limit, the packet is undeliverable. Discard the packet and move on.
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atbridge_printf("ATBridge: AARP failed to find MAC address for network %d node %d. Dropping packet.\n", packet->dest.network, packet->dest.node);
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aarp_retry_reset();
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dequeue(&elap_port.out);
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free(packet->data);
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free(packet);
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}
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}
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return true;
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}
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else
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return false;
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}
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static void elap_send_all_queued()
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{
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while (elap_send_one_queued());
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}
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static bool elap_receive_one()
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{
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if (!pcap_session)
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return false;
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struct pcap_pkthdr header;
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const u_char* packet = pcapdelay_next(pcap_session, &header);
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if (packet)
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{
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// Receive and process one packet from the host network interface.
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////
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// Check the Ethernet 802.3 header.
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const struct ethernet_header_t* ether = (struct ethernet_header_t*)packet;
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if (header.len > sizeof(struct ethernet_header_t) &&
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ntohs(ether->length) <= ETHER_MAX_SIZE &&
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ntohs(ether->length) > sizeof(struct snap_header_t) &&
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(memcmp(ðer->source, &HW_LOCAL, sizeof(ether->source)) != 0) && /* Ignore packets sent from our node. */
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(memcmp(ðer->dest, &HW_LOCAL, sizeof(ether->dest)) == 0 || /* Accept packets destined for our node ... */
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memcmp(ðer->dest, &HW_APPLETALK_BROADCAST, sizeof(ether->dest)) == 0 /* ... or for broadcast. */)
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)
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{
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// Check the 802.2 SNAP header.
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const struct snap_header_t* snap = (struct snap_header_t*)(packet + sizeof(struct ethernet_header_t));
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if (snap->dsap == SNAP_DSAP &&
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snap->ssap == SNAP_SSAP &&
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snap->control == SNAP_CONTROL)
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{
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if (memcmp(&snap->discriminator, &SNAP_APPLETALK, sizeof(snap->discriminator)) == 0)
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{
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// Handle an AppleTalk packet.
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const size_t payload_size = ntohs(ether->length) - sizeof(struct snap_header_t);
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const u_char* payload = packet + sizeof(struct ethernet_header_t) + sizeof(struct snap_header_t);
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byte* copy = (byte*)malloc(payload_size);
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memcpy(copy, payload, payload_size);
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// ELAP does not support short-form DDP, so this must be a long-form DDP packet.
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struct at_addr_t source, dest;
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if (payload_size >= sizeof(struct DDP_LONG))
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{
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// Extract the protocol address from the header.
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//
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// ELAP really shouldn't be looking at the header for the next level of the protocol stack,
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// but this is a convenient place to glean addresses for the AMT, a process that needs both
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// hardware and protocol addresses.
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struct DDP_LONG* header = (struct DDP_LONG*)copy;
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dest.network = (at_network_t)ntohs(header->dest_net);
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source.network = (at_network_t)ntohs(header->source_net);
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dest.node = header->dest_node;
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source.node = header->source_node;
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enqueue(&elap_port.in, dest, source, LAP_DDP_LONG, payload_size, copy);
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aarp_glean(&source, ðer->source);
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}
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else
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atbridge_printf("ATBridge: Dropping invalid short ELAP frame.\n");
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}
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else if (memcmp(&snap->discriminator, &SNAP_AARP, sizeof(snap->discriminator)) == 0)
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{
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// Handle an AARP packet.
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struct aarp_header_t* aarp = (struct aarp_header_t*)(packet + sizeof(struct ethernet_header_t) + sizeof(struct snap_header_t));
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aarp->dest_proto_addr.addr.network = ntohs(aarp->dest_proto_addr.addr.network);
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aarp->source_proto_addr.addr.network = ntohs(aarp->source_proto_addr.addr.network);
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aarp->function = ntohs(aarp->function);
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aarp->hardware_type = ntohs(aarp->hardware_type);
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aarp->protocol_type = ntohs(aarp->protocol_type);
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aarp_handle_packet(aarp);
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}
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}
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}
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return true;
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}
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else
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return false;
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}
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static void elap_receive_all()
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{
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while (elap_receive_one());
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}
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void elap_process()
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{
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elap_receive_all();
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elap_send_all_queued();
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} |