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/* |
2 |
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* ether.cpp - Ethernet device driver |
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* |
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< |
* Basilisk II (C) 1997-1999 Christian Bauer |
4 |
> |
* Basilisk II (C) 1997-2008 Christian Bauer |
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* |
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* This program is free software; you can redistribute it and/or modify |
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* it under the terms of the GNU General Public License as published by |
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* Inside AppleTalk, chapter 3 "Ethernet and TokenTalk Link Access Protocols" |
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*/ |
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|
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#include "sysdeps.h" |
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|
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#include <string.h> |
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#include <map> |
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|
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#if SUPPORTS_UDP_TUNNEL |
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#include <netinet/in.h> |
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#include <sys/socket.h> |
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#include <sys/ioctl.h> |
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#include <netdb.h> |
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#include <unistd.h> |
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#include <errno.h> |
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#endif |
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|
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#include "sysdeps.h" |
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#include "cpu_emulation.h" |
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#include "main.h" |
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#include "macos_util.h" |
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#include "emul_op.h" |
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#include "prefs.h" |
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#include "ether.h" |
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#include "ether_defs.h" |
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|
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#ifndef NO_STD_NAMESPACE |
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using std::map; |
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#endif |
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|
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#define DEBUG 0 |
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#include "debug.h" |
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|
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#define MONITOR 0 |
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|
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|
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#ifdef __BEOS__ |
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#define CLOSESOCKET closesocket |
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#else |
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#define CLOSESOCKET close |
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#endif |
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|
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|
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// Global variables |
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uint8 ether_addr[6]; // Ethernet address (set by EtherInit()) |
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bool net_open = false; // Flag: initialization succeeded, network device open (set by EtherInit()) |
68 |
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uint8 ether_addr[6]; // Ethernet address (set by ether_init()) |
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static bool net_open = false; // Flag: initialization succeeded, network device open (set by EtherInit()) |
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|
71 |
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static bool udp_tunnel = false; // Flag: tunnelling AppleTalk over UDP using BSD socket API |
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static uint16 udp_port; |
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static int udp_socket = -1; |
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|
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// Mac address of driver data in MacOS RAM |
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uint32 ether_data = 0; |
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|
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// Attached network protocols for UDP tunneling, maps protocol type to MacOS handler address |
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static map<uint16, uint32> udp_protocols; |
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|
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|
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/* |
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* Initialization |
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*/ |
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|
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void EtherInit(void) |
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{ |
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net_open = false; |
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udp_tunnel = false; |
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|
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#if SUPPORTS_UDP_TUNNEL |
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// UDP tunnelling requested? |
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if (PrefsFindBool("udptunnel")) { |
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udp_tunnel = true; |
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> |
udp_port = PrefsFindInt32("udpport"); |
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|
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// Open UDP socket |
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udp_socket = socket(PF_INET, SOCK_DGRAM, 0); |
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if (udp_socket < 0) { |
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perror("socket"); |
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return; |
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} |
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|
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// Bind to specified address and port |
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struct sockaddr_in sa; |
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memset(&sa, 0, sizeof(sa)); |
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sa.sin_family = AF_INET; |
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sa.sin_addr.s_addr = INADDR_ANY; |
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sa.sin_port = htons(udp_port); |
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if (bind(udp_socket, (struct sockaddr *)&sa, sizeof(sa)) < 0) { |
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perror("bind"); |
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CLOSESOCKET(udp_socket); |
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udp_socket = -1; |
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return; |
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} |
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|
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// Retrieve local IP address (or at least one of them) |
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socklen_t sa_length = sizeof(sa); |
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getsockname(udp_socket, (struct sockaddr *)&sa, &sa_length); |
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uint32 udp_ip = sa.sin_addr.s_addr; |
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if (udp_ip == INADDR_ANY || udp_ip == INADDR_LOOPBACK) { |
122 |
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char name[256]; |
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gethostname(name, sizeof(name)); |
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struct hostent *local = gethostbyname(name); |
125 |
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if (local) |
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udp_ip = *(uint32 *)local->h_addr_list[0]; |
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} |
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udp_ip = ntohl(udp_ip); |
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|
130 |
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// Construct dummy Ethernet address from local IP address |
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> |
ether_addr[0] = 'B'; |
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ether_addr[1] = '2'; |
133 |
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ether_addr[2] = udp_ip >> 24; |
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ether_addr[3] = udp_ip >> 16; |
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ether_addr[4] = udp_ip >> 8; |
136 |
> |
ether_addr[5] = udp_ip; |
137 |
> |
D(bug("Ethernet address %02x %02x %02x %02x %02x %02x\n", ether_addr[0], ether_addr[1], ether_addr[2], ether_addr[3], ether_addr[4], ether_addr[5])); |
138 |
> |
|
139 |
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// Set socket options |
140 |
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int on = 1; |
141 |
> |
#ifdef __BEOS__ |
142 |
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setsockopt(udp_socket, SOL_SOCKET, SO_NONBLOCK, &on, sizeof(on)); |
143 |
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#else |
144 |
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setsockopt(udp_socket, SOL_SOCKET, SO_BROADCAST, &on, sizeof(on)); |
145 |
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ioctl(udp_socket, FIONBIO, &on); |
146 |
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#endif |
147 |
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|
148 |
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// Start thread for packet reception |
149 |
> |
if (!ether_start_udp_thread(udp_socket)) { |
150 |
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CLOSESOCKET(udp_socket); |
151 |
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udp_socket = -1; |
152 |
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return; |
153 |
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} |
154 |
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|
155 |
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net_open = true; |
156 |
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} else |
157 |
> |
#endif |
158 |
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if (ether_init()) |
159 |
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net_open = true; |
160 |
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} |
161 |
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|
162 |
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|
163 |
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/* |
164 |
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* Deinitialization |
165 |
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*/ |
166 |
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|
167 |
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void EtherExit(void) |
168 |
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{ |
169 |
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if (net_open) { |
170 |
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#if SUPPORTS_UDP_TUNNEL |
171 |
> |
if (udp_tunnel) { |
172 |
> |
if (udp_socket >= 0) { |
173 |
> |
ether_stop_udp_thread(); |
174 |
> |
CLOSESOCKET(udp_socket); |
175 |
> |
udp_socket = -1; |
176 |
> |
} |
177 |
> |
} else |
178 |
> |
#endif |
179 |
> |
ether_exit(); |
180 |
> |
net_open = false; |
181 |
> |
} |
182 |
> |
} |
183 |
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|
184 |
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|
185 |
> |
/* |
186 |
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* Reset |
187 |
> |
*/ |
188 |
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|
189 |
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void EtherReset(void) |
190 |
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{ |
191 |
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udp_protocols.clear(); |
192 |
> |
ether_reset(); |
193 |
> |
} |
194 |
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|
195 |
> |
|
196 |
> |
/* |
197 |
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* Check whether Ethernet address is AppleTalk or Ethernet broadcast address |
198 |
> |
*/ |
199 |
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|
200 |
< |
uint32 ether_data = 0; // Mac address of driver data in MacOS RAM |
200 |
> |
static inline bool is_apple_talk_broadcast(uint8 *p) |
201 |
> |
{ |
202 |
> |
return p[0] == 0x09 && p[1] == 0x00 && p[2] == 0x07 |
203 |
> |
&& p[3] == 0xff && p[4] == 0xff && p[5] == 0xff; |
204 |
> |
} |
205 |
> |
|
206 |
> |
static inline bool is_ethernet_broadcast(uint8 *p) |
207 |
> |
{ |
208 |
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return p[0] == 0xff && p[1] == 0xff && p[2] == 0xff |
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&& p[3] == 0xff && p[4] == 0xff && p[5] == 0xff; |
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} |
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|
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|
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/* |
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if (r.a[0] == 0) |
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return openErr; |
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ether_data = r.a[0]; |
228 |
< |
D(bug(" data %08lx\n", ether_data)); |
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> |
D(bug(" data %08x\n", ether_data)); |
229 |
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|
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WriteMacInt16(ether_data + ed_DeferredTask + qType, dtQType); |
231 |
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WriteMacInt32(ether_data + ed_DeferredTask + dtAddr, ether_data + ed_Code); |
263 |
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uint16 code = ReadMacInt16(pb + csCode); |
264 |
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D(bug("EtherControl %d\n", code)); |
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switch (code) { |
266 |
< |
case 1: // KillIO |
266 |
> |
case 1: // KillIO |
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return -1; |
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|
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case kENetAddMulti: // Add multicast address |
270 |
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D(bug("AddMulti %08lx%04x\n", ReadMacInt32(pb + eMultiAddr), ReadMacInt16(pb + eMultiAddr + 4))); |
271 |
< |
if (net_open) |
270 |
> |
D(bug(" AddMulti %08x%04x\n", ReadMacInt32(pb + eMultiAddr), ReadMacInt16(pb + eMultiAddr + 4))); |
271 |
> |
if (net_open && !udp_tunnel) |
272 |
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return ether_add_multicast(pb); |
273 |
< |
else |
110 |
< |
return noErr; |
273 |
> |
return noErr; |
274 |
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|
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case kENetDelMulti: // Delete multicast address |
276 |
< |
D(bug("DelMulti %08lx%04x\n", ReadMacInt32(pb + eMultiAddr), ReadMacInt16(pb + eMultiAddr + 4))); |
277 |
< |
if (net_open) |
276 |
> |
D(bug(" DelMulti %08x%04x\n", ReadMacInt32(pb + eMultiAddr), ReadMacInt16(pb + eMultiAddr + 4))); |
277 |
> |
if (net_open && !udp_tunnel) |
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|
return ether_del_multicast(pb); |
279 |
< |
else |
280 |
< |
return noErr; |
279 |
> |
return noErr; |
280 |
> |
|
281 |
> |
case kENetAttachPH: { // Attach protocol handler |
282 |
> |
uint16 type = ReadMacInt16(pb + eProtType); |
283 |
> |
uint32 handler = ReadMacInt32(pb + ePointer); |
284 |
> |
D(bug(" AttachPH prot %04x, handler %08x\n", type, handler)); |
285 |
> |
if (net_open) { |
286 |
> |
if (udp_tunnel) { |
287 |
> |
if (udp_protocols.find(type) != udp_protocols.end()) |
288 |
> |
return lapProtErr; |
289 |
> |
udp_protocols[type] = handler; |
290 |
> |
} else |
291 |
> |
return ether_attach_ph(type, handler); |
292 |
> |
} |
293 |
> |
return noErr; |
294 |
> |
} |
295 |
> |
|
296 |
> |
case kENetDetachPH: { // Detach protocol handler |
297 |
> |
uint16 type = ReadMacInt16(pb + eProtType); |
298 |
> |
D(bug(" DetachPH prot %04x\n", type)); |
299 |
> |
if (net_open) { |
300 |
> |
if (udp_tunnel) { |
301 |
> |
if (udp_protocols.erase(type) == 0) |
302 |
> |
return lapProtErr; |
303 |
> |
} else |
304 |
> |
return ether_detach_ph(type); |
305 |
> |
} |
306 |
> |
return noErr; |
307 |
> |
} |
308 |
|
|
309 |
< |
case kENetAttachPH: // Attach protocol handler |
310 |
< |
D(bug("AttachPH prot %04x, handler %08lx\n", ReadMacInt16(pb + eProtType), ReadMacInt32(pb + ePointer))); |
311 |
< |
if (net_open) |
312 |
< |
return ether_attach_ph(ReadMacInt16(pb + eProtType), ReadMacInt32(pb + ePointer)); |
123 |
< |
else |
124 |
< |
return noErr; |
125 |
< |
|
126 |
< |
case kENetDetachPH: // Detach protocol handler |
127 |
< |
D(bug("DetachPH prot %04x\n", ReadMacInt16(pb + eProtType))); |
128 |
< |
if (net_open) |
129 |
< |
return ether_detach_ph(ReadMacInt16(pb + eProtType)); |
130 |
< |
else |
131 |
< |
return noErr; |
132 |
< |
|
133 |
< |
case kENetWrite: // Transmit raw Ethernet packet |
134 |
< |
D(bug("EtherWrite\n")); |
135 |
< |
if (ReadMacInt16(ReadMacInt32(pb + ePointer)) < 14) |
309 |
> |
case kENetWrite: { // Transmit raw Ethernet packet |
310 |
> |
uint32 wds = ReadMacInt32(pb + ePointer); |
311 |
> |
D(bug(" EtherWrite ")); |
312 |
> |
if (ReadMacInt16(wds) < 14) |
313 |
|
return eLenErr; // Header incomplete |
314 |
< |
if (net_open) |
315 |
< |
return ether_write(ReadMacInt32(pb + ePointer)); |
316 |
< |
else |
317 |
< |
return noErr; |
314 |
> |
|
315 |
> |
// Set source address |
316 |
> |
uint32 hdr = ReadMacInt32(wds + 2); |
317 |
> |
Host2Mac_memcpy(hdr + 6, ether_addr, 6); |
318 |
> |
D(bug("to %08x%04x, type %04x\n", ReadMacInt32(hdr), ReadMacInt16(hdr + 4), ReadMacInt16(hdr + 12))); |
319 |
> |
|
320 |
> |
if (net_open) { |
321 |
> |
#if SUPPORTS_UDP_TUNNEL |
322 |
> |
if (udp_tunnel) { |
323 |
> |
|
324 |
> |
// Copy packet to buffer |
325 |
> |
uint8 packet[1514]; |
326 |
> |
int len = ether_wds_to_buffer(wds, packet); |
327 |
> |
|
328 |
> |
// Extract destination address |
329 |
> |
uint32 dest_ip; |
330 |
> |
if (packet[0] == 'B' && packet[1] == '2') |
331 |
> |
dest_ip = (packet[2] << 24) | (packet[3] << 16) | (packet[4] << 8) | packet[5]; |
332 |
> |
else if (is_apple_talk_broadcast(packet) || is_ethernet_broadcast(packet)) |
333 |
> |
dest_ip = INADDR_BROADCAST; |
334 |
> |
else |
335 |
> |
return eMultiErr; |
336 |
> |
|
337 |
> |
#if MONITOR |
338 |
> |
bug("Sending Ethernet packet:\n"); |
339 |
> |
for (int i=0; i<len; i++) { |
340 |
> |
bug("%02x ", packet[i]); |
341 |
> |
} |
342 |
> |
bug("\n"); |
343 |
> |
#endif |
344 |
> |
|
345 |
> |
// Send packet |
346 |
> |
struct sockaddr_in sa; |
347 |
> |
sa.sin_family = AF_INET; |
348 |
> |
sa.sin_addr.s_addr = htonl(dest_ip); |
349 |
> |
sa.sin_port = htons(udp_port); |
350 |
> |
if (sendto(udp_socket, packet, len, 0, (struct sockaddr *)&sa, sizeof(sa)) < 0) { |
351 |
> |
D(bug("WARNING: Couldn't transmit packet\n")); |
352 |
> |
return excessCollsns; |
353 |
> |
} |
354 |
> |
} else |
355 |
> |
#endif |
356 |
> |
return ether_write(wds); |
357 |
> |
} |
358 |
> |
return noErr; |
359 |
> |
} |
360 |
|
|
361 |
|
case kENetGetInfo: { // Get device information/statistics |
362 |
< |
D(bug("GetInfo buf %08lx, size %d\n", ReadMacInt32(pb + ePointer), ReadMacInt16(pb + eBuffSize))); |
362 |
> |
D(bug(" GetInfo buf %08x, size %d\n", ReadMacInt32(pb + ePointer), ReadMacInt16(pb + eBuffSize))); |
363 |
|
|
364 |
|
// Collect info (only ethernet address) |
365 |
|
uint8 buf[18]; |
371 |
|
if (size > 18) |
372 |
|
size = 18; |
373 |
|
WriteMacInt16(pb + eDataSize, size); // Number of bytes actually written |
374 |
< |
memcpy(Mac2HostAddr(ReadMacInt32(pb + ePointer)), buf, size); |
374 |
> |
Host2Mac_memcpy(ReadMacInt32(pb + ePointer), buf, size); |
375 |
|
return noErr; |
376 |
|
} |
377 |
|
|
378 |
|
case kENetSetGeneral: // Set general mode (always in general mode) |
379 |
< |
D(bug("SetGeneral\n")); |
379 |
> |
D(bug(" SetGeneral\n")); |
380 |
|
return noErr; |
381 |
|
|
382 |
|
default: |
390 |
|
* Ethernet ReadPacket routine |
391 |
|
*/ |
392 |
|
|
393 |
< |
void EtherReadPacket(uint8 **src, uint32 &dest, uint32 &len, uint32 &remaining) |
393 |
> |
void EtherReadPacket(uint32 &src, uint32 &dest, uint32 &len, uint32 &remaining) |
394 |
|
{ |
395 |
< |
D(bug("EtherReadPacket src %08lx, dest %08lx, len %08lx, remaining %08lx\n", *src, dest, len, remaining)); |
395 |
> |
D(bug("EtherReadPacket src %08x, dest %08x, len %08x, remaining %08x\n", src, dest, len, remaining)); |
396 |
|
uint32 todo = len > remaining ? remaining : len; |
397 |
< |
memcpy(Mac2HostAddr(dest), *src, todo); |
398 |
< |
*src += todo; |
397 |
> |
Mac2Mac_memcpy(dest, src, todo); |
398 |
> |
src += todo; |
399 |
|
dest += todo; |
400 |
|
len -= todo; |
401 |
|
remaining -= todo; |
402 |
|
} |
403 |
+ |
|
404 |
+ |
|
405 |
+ |
#if SUPPORTS_UDP_TUNNEL |
406 |
+ |
/* |
407 |
+ |
* Read packet from UDP socket |
408 |
+ |
*/ |
409 |
+ |
|
410 |
+ |
void ether_udp_read(uint32 packet, int length, struct sockaddr_in *from) |
411 |
+ |
{ |
412 |
+ |
// Drop packets sent by us |
413 |
+ |
if (memcmp(Mac2HostAddr(packet) + 6, ether_addr, 6) == 0) |
414 |
+ |
return; |
415 |
+ |
|
416 |
+ |
#if MONITOR |
417 |
+ |
bug("Receiving Ethernet packet:\n"); |
418 |
+ |
for (int i=0; i<length; i++) { |
419 |
+ |
bug("%02x ", ReadMacInt8(packet + i)); |
420 |
+ |
} |
421 |
+ |
bug("\n"); |
422 |
+ |
#endif |
423 |
+ |
|
424 |
+ |
// Get packet type |
425 |
+ |
uint16 type = ReadMacInt16(packet + 12); |
426 |
+ |
|
427 |
+ |
// Look for protocol |
428 |
+ |
uint16 search_type = (type <= 1500 ? 0 : type); |
429 |
+ |
if (udp_protocols.find(search_type) == udp_protocols.end()) |
430 |
+ |
return; |
431 |
+ |
uint32 handler = udp_protocols[search_type]; |
432 |
+ |
if (handler == 0) |
433 |
+ |
return; |
434 |
+ |
|
435 |
+ |
// Copy header to RHA |
436 |
+ |
Mac2Mac_memcpy(ether_data + ed_RHA, packet, 14); |
437 |
+ |
D(bug(" header %08x%04x %08x%04x %04x\n", ReadMacInt32(ether_data + ed_RHA), ReadMacInt16(ether_data + ed_RHA + 4), ReadMacInt32(ether_data + ed_RHA + 6), ReadMacInt16(ether_data + ed_RHA + 10), ReadMacInt16(ether_data + ed_RHA + 12))); |
438 |
+ |
|
439 |
+ |
// Call protocol handler |
440 |
+ |
M68kRegisters r; |
441 |
+ |
r.d[0] = type; // Packet type |
442 |
+ |
r.d[1] = length - 14; // Remaining packet length (without header, for ReadPacket) |
443 |
+ |
r.a[0] = packet + 14; // Pointer to packet (Mac address, for ReadPacket) |
444 |
+ |
r.a[3] = ether_data + ed_RHA + 14; // Pointer behind header in RHA |
445 |
+ |
r.a[4] = ether_data + ed_ReadPacket; // Pointer to ReadPacket/ReadRest routines |
446 |
+ |
D(bug(" calling protocol handler %08x, type %08x, length %08x, data %08x, rha %08x, read_packet %08x\n", handler, r.d[0], r.d[1], r.a[0], r.a[3], r.a[4])); |
447 |
+ |
Execute68k(handler, &r); |
448 |
+ |
} |
449 |
+ |
#endif |
450 |
+ |
|
451 |
+ |
|
452 |
+ |
/* |
453 |
+ |
* Ethernet packet allocator |
454 |
+ |
*/ |
455 |
+ |
|
456 |
+ |
#if SIZEOF_VOID_P != 4 || REAL_ADDRESSING == 0 |
457 |
+ |
static uint32 ether_packet = 0; // Ethernet packet (cached allocation) |
458 |
+ |
static uint32 n_ether_packets = 0; // Number of ethernet packets allocated so far (should be at most 1) |
459 |
+ |
|
460 |
+ |
EthernetPacket::EthernetPacket() |
461 |
+ |
{ |
462 |
+ |
++n_ether_packets; |
463 |
+ |
if (ether_packet && n_ether_packets == 1) |
464 |
+ |
packet = ether_packet; |
465 |
+ |
else { |
466 |
+ |
M68kRegisters r; |
467 |
+ |
r.d[0] = 1516; |
468 |
+ |
Execute68kTrap(0xa71e, &r); // NewPtrSysClear() |
469 |
+ |
assert(r.a[0] != 0); |
470 |
+ |
packet = r.a[0]; |
471 |
+ |
if (ether_packet == 0) |
472 |
+ |
ether_packet = packet; |
473 |
+ |
} |
474 |
+ |
} |
475 |
+ |
|
476 |
+ |
EthernetPacket::~EthernetPacket() |
477 |
+ |
{ |
478 |
+ |
--n_ether_packets; |
479 |
+ |
if (packet != ether_packet) { |
480 |
+ |
M68kRegisters r; |
481 |
+ |
r.a[0] = packet; |
482 |
+ |
Execute68kTrap(0xa01f, &r); // DisposePtr |
483 |
+ |
} |
484 |
+ |
if (n_ether_packets > 0) { |
485 |
+ |
bug("WARNING: Nested allocation of ethernet packets!\n"); |
486 |
+ |
} |
487 |
+ |
} |
488 |
+ |
#endif |