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|
/*
* Linux NET3 Bridge Support
*
* Originally by John Hayes (Network Plumbing).
* Minor hacks to get it to run with 1.3.x by Alan Cox <Alan.Cox@linux.org>
* More hacks to be able to switch protocols on and off by Christoph Lameter
* <clameter@debian.org>
* Software and more Documentation for the bridge is available from ftp.debian.org
* in the bridgex package
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*
* Fixes:
* Yury Shevchuk : Bridge with non bridging ports
* Jean-Rene Peulve: jr.peulve@aix.pacwan.net Jan/Feb 98
* support Linux 2.0
* Handle Receive config bpdu
* kick mark_bh to send Spanning Tree pdus
* bridgeId comparison using htonl()
* make STP interoperable with other vendors
* wrong test in root_selection()
* add more STP debug info
* some performance improvments
* do not clear bridgeId.mac while setting priority
* do not reset port priority when starting bridge
* make port priority from user value and port number
* maintains user port state out of device state
* broacast/multicast storm limitation
* forwarding statistics
* stop br_tick when bridge is turn off
* add local MACs in avl_tree to forward up stack
* fake receive on right port for IP/ARP
* ages tree even if packet does not cross bridge
* add BRCMD_DISPLAY_FDB (ioctl for now)
*
* Alan Cox: Merged Jean-Rene's stuff, reformatted stuff a bit
* so blame me first if its broken ;)
*
* Robert Pintarelli: fixed bug in bpdu time values
*
* Todo:
* Don't bring up devices automatically. Start ports disabled
* and use a netlink notifier so a daemon can maintain the bridge
* port group (could we also do multiple groups ????).
* A nice /proc file interface.
* Put the path costs in the port info and devices.
* Put the bridge port number in the device structure for speed.
* Bridge SNMP stats.
*
*/
#include <linux/config.h>
#include <linux/errno.h>
#include <linux/types.h>
#include <linux/socket.h>
#include <linux/in.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/timer.h>
#include <linux/string.h>
#include <linux/net.h>
#include <linux/inet.h>
#include <linux/netdevice.h>
#include <linux/skbuff.h>
#include <linux/if_arp.h>
#include <linux/ip.h>
#include <linux/version.h>
#include <linux/init.h>
#include <asm/uaccess.h>
#include <asm/system.h>
#include <net/br.h>
#include <linux/proc_fs.h>
#ifndef min
#define min(a, b) (((a) <= (b)) ? (a) : (b))
#endif
static void transmit_config(int port_no);
static int root_bridge(void);
static int supersedes_port_info(int port_no, Config_bpdu *config);
static void record_config_information(int port_no, Config_bpdu *config);
static void record_config_timeout_values(Config_bpdu *config);
static void config_bpdu_generation(void);
static int designated_port(int port_no);
static void reply(int port_no);
static void transmit_tcn(void);
static void configuration_update(void);
static void root_selection(void);
static void designated_port_selection(void);
static void become_designated_port(int port_no);
static void port_state_selection(void);
static void make_forwarding(int port_no);
static void topology_change_detection(void);
static void topology_change_acknowledged(void);
static void acknowledge_topology_change(int port_no);
static void make_blocking(int port_no);
static void set_port_state(int port_no, int state);
static void received_config_bpdu(int port_no, Config_bpdu *config);
static void received_tcn_bpdu(int port_no, Tcn_bpdu *tcn);
static void hello_timer_expiry(void);
static void message_age_timer_expiry(int port_no);
static void forward_delay_timer_expiry(int port_no);
static int designated_for_some_port(void);
static void tcn_timer_expiry(void);
static void topology_change_timer_expiry(void);
static void hold_timer_expiry(int port_no);
static void br_init_port(int port_no);
static void enable_port(int port_no);
static void disable_port(int port_no);
static void set_bridge_priority(bridge_id_t *new_bridge_id);
static void set_port_priority(int port_no);
static void set_path_cost(int port_no, unsigned short path_cost);
static void start_hello_timer(void);
static void stop_hello_timer(void);
static int hello_timer_expired(void);
static void start_tcn_timer(void);
static void stop_tcn_timer(void);
static int tcn_timer_expired(void);
static void start_topology_change_timer(void);
static void stop_topology_change_timer(void);
static int topology_change_timer_expired(void);
static void start_message_age_timer(int port_no, unsigned short message_age);
static void stop_message_age_timer(int port_no);
static int message_age_timer_expired(int port_no);
static void start_forward_delay_timer(int port_no);
static void stop_forward_delay_timer(int port_no);
static int forward_delay_timer_expired(int port_no);
static void start_hold_timer(int port_no);
static void stop_hold_timer(int port_no);
static int hold_timer_expired(int port_no);
static int br_device_event(struct notifier_block *dnot, unsigned long event, void *ptr);
static void br_tick(unsigned long arg);
static int br_forward(struct sk_buff *skb, int port); /* 3.7 */
static int br_port_cost(struct net_device *dev); /* 4.10.2 */
static void br_bpdu(struct sk_buff *skb, int port); /* consumes skb */
static int br_cmp(unsigned int *a, unsigned int *b);
static int send_tcn_bpdu(int port_no, Tcn_bpdu *bpdu);
static int send_config_bpdu(int port_no, Config_bpdu *config_bpdu);
static int find_port(struct net_device *dev);
static void br_add_local_mac(unsigned char *mac);
static int br_flood(struct sk_buff *skb, int port);
static int br_drop(struct sk_buff *skb);
static int br_learn(struct sk_buff *skb, int port); /* 3.8 */
static unsigned char bridge_ula[ETH_ALEN] = { 0x01, 0x80, 0xc2, 0x00, 0x00, 0x00 };
static Bridge_data bridge_info; /* (4.5.3) */
Port_data port_info[All_ports]; /* (4.5.5) */
/* JRP: fdb cache 1/port save kmalloc/kfree on every frame */
struct fdb *newfdb[All_ports];
int allocated_fdb_cnt = 0;
/* broacast/multicast storm limitation */
int max_mcast_per_period = MAX_MCAST_PER_PERIOD;
int mcast_hold_time = MCAST_HOLD_TIME;
/* JRP: next two bpdu are copied to skbuff so we need only 1 of each */
static Config_bpdu config_bpdu;
static Tcn_bpdu tcn_bpdu;
static unsigned char port_priority[All_ports];
static unsigned char user_port_state[All_ports];
static Timer hello_timer; /* (4.5.4.1) */
static Timer tcn_timer; /* (4.5.4.2) */
static Timer topology_change_timer; /* (4.5.4.3) */
static Timer message_age_timer[All_ports]; /* (4.5.6.1) */
static Timer forward_delay_timer[All_ports]; /* (4.5.6.2) */
static Timer hold_timer[All_ports]; /* (4.5.6.3) */
/* entries timeout after this many seconds */
unsigned int fdb_aging_time = FDB_TIMEOUT;
struct br_stat br_stats;
#define br_stats_cnt br_stats.packet_cnts
static struct timer_list tl; /* for 1 second timer... */
/*
* the following structure is required so that we receive
* event notifications when network devices are enabled and
* disabled (ifconfig up and down).
*/
static struct notifier_block br_dev_notifier={
br_device_event,
NULL,
0
};
/*
* Implementation of Protocol specific bridging
*
* The protocols to be bridged or not to be bridged are stored in a hashed array. This is the old type
* of unlinked hash array where one simply takes the next cell if the one the hash function points to
* is occupied.
*/
#define BR_PROTOCOL_HASH(x) (x % BR_MAX_PROTOCOLS)
/* Checks if that protocol type is to be bridged */
int br_protocol_ok(unsigned short protocol)
{
unsigned x;
/* See if protocol statistics are to be kept */
if (br_stats.flags & BR_PROT_STATS)
{
for(x=0;x<BR_MAX_PROT_STATS && br_stats.prot_id[x]!=protocol && br_stats.prot_id[x];x++);
if (x<BR_MAX_PROT_STATS)
{
br_stats.prot_id[x]=protocol;br_stats.prot_counter[x]++;
}
}
for (x=BR_PROTOCOL_HASH(protocol); br_stats.protocols[x]!=0;)
{
if (br_stats.protocols[x]==protocol)
return !br_stats.policy;
x++;
if (x==BR_MAX_PROTOCOLS)
x=0;
}
return br_stats.policy;
}
/* Add a protocol to be handled opposite to the standard policy of the bridge */
static int br_add_exempt_protocol(unsigned short p)
{
unsigned x;
if (p == 0) return -EINVAL;
if (br_stats.exempt_protocols > BR_MAX_PROTOCOLS-2) return -EXFULL;
for (x=BR_PROTOCOL_HASH(p);br_stats.protocols[x]!=0;) {
if (br_stats.protocols[x]==p) return 0; /* Attempt to add the protocol a second time */
x++;
if (x==BR_MAX_PROTOCOLS) x=0;
}
br_stats.protocols[x]=p;
br_stats.exempt_protocols++;
return 0;
}
/* Valid Policies are 0=No Protocols bridged 1=Bridge all protocols */
static int br_set_policy(int policy)
{
if (policy>1) return -EINVAL;
br_stats.policy=policy;
/* Policy change means initializing the exempt table */
memset(br_stats.protocols,0,sizeof(br_stats.protocols));
br_stats.exempt_protocols = 0;
return 0;
}
/** Elements of Procedure (4.6) **/
/*
* this section of code was graciously borrowed from the IEEE 802.1d
* specification section 4.9.1 starting on pg 69. It has been
* modified somewhat to fit within our framework and structure. It
* implements the spanning tree algorithm that is the heart of the
* 802.1d bridging protocol.
*/
static void transmit_config(int port_no) /* (4.6.1) */
{
if (hold_timer[port_no].active) { /* (4.6.1.3.1) */
port_info[port_no].config_pending = TRUE; /* (4.6.1.3.1) */
} else { /* (4.6.1.3.2) */
config_bpdu.type = BPDU_TYPE_CONFIG;
config_bpdu.root_id = bridge_info.designated_root;
/* (4.6.1.3.2(1)) */
config_bpdu.root_path_cost = bridge_info.root_path_cost;
/* (4.6.1.3.2(2)) */
config_bpdu.bridge_id = bridge_info.bridge_id;
/* (4.6.1.3.2(3)) */
config_bpdu.port_id = port_info[port_no].port_id;
/*
* (4.6.1.3.2(4))
*/
if (root_bridge()) {
config_bpdu.message_age = Zero; /* (4.6.1.3.2(5)) */
} else {
config_bpdu.message_age
= (message_age_timer[bridge_info.root_port].value
+ Message_age_increment) << 8; /* (4.6.1.3.2(6)) */
}
config_bpdu.max_age = bridge_info.max_age << 8;/* (4.6.1.3.2(7)) */
config_bpdu.hello_time = bridge_info.hello_time << 8;
config_bpdu.forward_delay = bridge_info.forward_delay << 8;
config_bpdu.top_change_ack =
port_info[port_no].top_change_ack;
/* (4.6.1.3.2(8)) */
port_info[port_no].top_change_ack = 0;
config_bpdu.top_change =
bridge_info.top_change; /* (4.6.1.3.2(9)) */
send_config_bpdu(port_no, &config_bpdu);
port_info[port_no].config_pending = FALSE; /* (4.6.1.3.2(10)) */
start_hold_timer(port_no); /* (4.6.1.3.2(11)) */
}
/* JRP: we want the frame to be xmitted even if no other traffic.
* net_bh() will do a dev_transmit() that kicks all devices
*/
mark_bh(NET_BH);
}
static int root_bridge(void)
{
return (br_cmp(bridge_info.designated_root.BRIDGE_ID,
bridge_info.bridge_id.BRIDGE_ID)?FALSE:TRUE);
}
static int supersedes_port_info(int port_no, Config_bpdu *config) /* (4.6.2.2) */
{
return (
(br_cmp(config->root_id.BRIDGE_ID,
port_info[port_no].designated_root.BRIDGE_ID) < 0) /* (4.6.2.2.1) */
||
((br_cmp(config->root_id.BRIDGE_ID,
port_info[port_no].designated_root.BRIDGE_ID) == 0
)
&&
((config->root_path_cost
< port_info[port_no].designated_cost /* (4.6.2.2.2) */
)
||
((config->root_path_cost
== port_info[port_no].designated_cost
)
&&
((br_cmp(config->bridge_id.BRIDGE_ID,
port_info[port_no].designated_bridge.BRIDGE_ID) < 0 /* (4.6.2.2.3) */
)
||
((br_cmp(config->bridge_id.BRIDGE_ID,
port_info[port_no].designated_bridge.BRIDGE_ID) == 0
) /* (4.6.2.2.4) */
&&
((br_cmp(config->bridge_id.BRIDGE_ID,
bridge_info.bridge_id.BRIDGE_ID) != 0
) /* (4.6.2.2.4(1)) */
||
(config->port_id <=
port_info[port_no].designated_port
) /* (4.6.2.2.4(2)) */
))))))
);
}
static void record_config_information(int port_no, Config_bpdu *config) /* (4.6.2) */
{
port_info[port_no].designated_root = config->root_id; /* (4.6.2.3.1) */
port_info[port_no].designated_cost = config->root_path_cost;
port_info[port_no].designated_bridge = config->bridge_id;
port_info[port_no].designated_port = config->port_id;
start_message_age_timer(port_no, config->message_age); /* (4.6.2.3.2) */
}
static void record_config_timeout_values(Config_bpdu *config) /* (4.6.3) */
{
bridge_info.max_age = config->max_age >> 8; /* (4.6.3.3) */
bridge_info.hello_time = config->hello_time >> 8;
bridge_info.forward_delay = config->forward_delay >> 8;
bridge_info.top_change = config->top_change >> 8;
}
static void config_bpdu_generation(void)
{ /* (4.6.4) */
int port_no;
for (port_no = One; port_no <= No_of_ports; port_no++) { /* (4.6.4.3) */
if (designated_port(port_no) /* (4.6.4.3) */
&&
(port_info[port_no].state != Disabled)
) {
transmit_config(port_no); /* (4.6.4.3) */
} /* (4.6.1.2) */
}
}
static int designated_port(int port_no)
{
return ((br_cmp(port_info[port_no].designated_bridge.BRIDGE_ID,
bridge_info.bridge_id.BRIDGE_ID) == 0
)
&&
(port_info[port_no].designated_port
== port_info[port_no].port_id
)
);
}
static void reply(int port_no) /* (4.6.5) */
{
transmit_config(port_no); /* (4.6.5.3) */
}
static void transmit_tcn(void)
{ /* (4.6.6) */
int port_no;
port_no = bridge_info.root_port;
tcn_bpdu.type = BPDU_TYPE_TOPO_CHANGE;
send_tcn_bpdu(port_no, &tcn_bpdu); /* (4.6.6.3) */
}
static void configuration_update(void) /* (4.6.7) */
{
root_selection(); /* (4.6.7.3.1) */
/* (4.6.8.2) */
designated_port_selection(); /* (4.6.7.3.2) */
/* (4.6.9.2) */
}
static void root_selection(void)
{ /* (4.6.8) */
int root_port;
int port_no;
root_port = No_port;
for (port_no = One; port_no <= No_of_ports; port_no++) { /* (4.6.8.3.1) */
if (((!designated_port(port_no))
&&
(port_info[port_no].state != Disabled)
&&
(br_cmp(port_info[port_no].designated_root.BRIDGE_ID,
bridge_info.bridge_id.BRIDGE_ID) < 0)
)
&&
((root_port == No_port)
||
(br_cmp(port_info[port_no].designated_root.BRIDGE_ID,
port_info[root_port].designated_root.BRIDGE_ID) < 0
)
||
((br_cmp(port_info[port_no].designated_root.BRIDGE_ID,
port_info[root_port].designated_root.BRIDGE_ID) == 0
)
&&
(((port_info[port_no].designated_cost
+ port_info[port_no].path_cost
)
<
(port_info[root_port].designated_cost
+ port_info[root_port].path_cost
) /* (4.6.8.3.1(2)) */
)
||
(((port_info[port_no].designated_cost
+ port_info[port_no].path_cost
)
==
(port_info[root_port].designated_cost
+ port_info[root_port].path_cost
)
)
&&
((br_cmp(port_info[port_no].designated_bridge.BRIDGE_ID,
port_info[root_port].designated_bridge.BRIDGE_ID) < 0
) /* (4.6.8.3.1(3)) */
||
((br_cmp(port_info[port_no].designated_bridge.BRIDGE_ID,
port_info[root_port].designated_bridge.BRIDGE_ID) == 0
)
&&
((port_info[port_no].designated_port
< port_info[root_port].designated_port
) /* (4.6.8.3.1(4)) */
||
((port_info[port_no].designated_port
/* JRP: was missing an "=" ! */ == port_info[root_port].designated_port
)
&&
(port_info[port_no].port_id
< port_info[root_port].port_id
) /* (4.6.8.3.1(5)) */
))))))))) {
root_port = port_no;
}
}
bridge_info.root_port = root_port; /* (4.6.8.3.1) */
if (root_port == No_port) { /* (4.6.8.3.2) */
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "root_selection: becomes root\n");
#endif
bridge_info.designated_root = bridge_info.bridge_id;
/* (4.6.8.3.2(1)) */
bridge_info.root_path_cost = Zero;/* (4.6.8.3.2(2)) */
} else { /* (4.6.8.3.3) */
bridge_info.designated_root = port_info[root_port].designated_root;
/* (4.6.8.3.3(1)) */
bridge_info.root_path_cost = (port_info[root_port].designated_cost
+ port_info[root_port].path_cost
); /* (4.6.8.3.3(2)) */
}
}
static void designated_port_selection(void)
{ /* (4.6.9) */
int port_no;
for (port_no = One; port_no <= No_of_ports; port_no++) { /* (4.6.9.3) */
if(port_info[port_no].state == Disabled)
continue;
if (designated_port(port_no) /* (4.6.9.3.1) */
||
(
br_cmp(port_info[port_no].designated_root.BRIDGE_ID,
bridge_info.designated_root.BRIDGE_ID) != 0
)
||
(bridge_info.root_path_cost
< port_info[port_no].designated_cost
) /* (4.6.9.3.3) */
||
((bridge_info.root_path_cost
== port_info[port_no].designated_cost
)
&&
((br_cmp(bridge_info.bridge_id.BRIDGE_ID,
port_info[port_no].designated_bridge.BRIDGE_ID) < 0
) /* (4.6.9.3.4) */
||
((br_cmp(bridge_info.bridge_id.BRIDGE_ID,
port_info[port_no].designated_bridge.BRIDGE_ID) == 0
)
&&
(port_info[port_no].port_id
<= port_info[port_no].designated_port
) /* (4.6.9.3.5) */
)))) {
become_designated_port(port_no); /* (4.6.10.3.2.2) */
}
}
}
static void become_designated_port(int port_no)
{ /* (4.6.10) */
/* (4.6.10.3.1) */
port_info[port_no].designated_root = bridge_info.designated_root;
/* (4.6.10.3.2) */
port_info[port_no].designated_cost = bridge_info.root_path_cost;
/* (4.6.10.3.3) */
port_info[port_no].designated_bridge = bridge_info.bridge_id;
/* (4.6.10.3.4) */
port_info[port_no].designated_port = port_info[port_no].port_id;
}
static void port_state_selection(void)
{ /* (4.6.11) */
int port_no;
char *state_str;
for (port_no = One; port_no <= No_of_ports; port_no++) {
if(port_info[port_no].state == Disabled)
continue;
if (port_no == bridge_info.root_port) { /* (4.6.11.3.1) */
state_str = "root";
port_info[port_no].config_pending = FALSE; /* (4.6.11.3.1(1)) */
port_info[port_no].top_change_ack = 0;
make_forwarding(port_no); /* (4.6.11.3.1(2)) */
} else if (designated_port(port_no)) { /* (4.6.11.3.2) */
state_str = "designated";
stop_message_age_timer(port_no); /* (4.6.11.3.2(1)) */
make_forwarding(port_no); /* (4.6.11.3.2(2)) */
} else { /* (4.6.11.3.3) */
state_str = "blocking";
port_info[port_no].config_pending = FALSE; /* (4.6.11.3.3(1)) */
port_info[port_no].top_change_ack = 0;
make_blocking(port_no); /* (4.6.11.3.3(2)) */
}
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "port_state_selection: becomes %s port %d\n",
state_str, port_no);
#endif
}
}
static void make_forwarding(int port_no)
{ /* (4.6.12) */
if (port_info[port_no].state == Blocking) { /* (4.6.12.3) */
set_port_state(port_no, Listening); /* (4.6.12.3.1) */
start_forward_delay_timer(port_no); /* (4.6.12.3.2) */
}
}
static void topology_change_detection(void)
{ /* (4.6.14) */
#ifdef DEBUG_STP
if ((br_stats.flags & BR_DEBUG)
&& (bridge_info.top_change_detected == 0))
printk(KERN_DEBUG "topology_change_detected\n");
#endif
if (root_bridge()) { /* (4.6.14.3.1) */
bridge_info.top_change = 1;
start_topology_change_timer(); /* (4.6.14.3.1(2)) */
} else if (!(bridge_info.top_change_detected)) {
transmit_tcn(); /* (4.6.14.3.2(1)) */
start_tcn_timer(); /* (4.6.14.3.2(2)) */
}
bridge_info.top_change_detected = 1; /* (4.6.14.3.3) */
}
static void topology_change_acknowledged(void)
{ /* (4.6.15) */
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "topology_change_acked\n");
#endif
bridge_info.top_change_detected = 0; /* (4.6.15.3.1) */
stop_tcn_timer(); /* (4.6.15.3.2) */
}
static void acknowledge_topology_change(int port_no)
{ /* (4.6.16) */
port_info[port_no].top_change_ack = 1;
transmit_config(port_no); /* (4.6.16.3.2) */
}
static void make_blocking(int port_no) /* (4.6.13) */
{
if ((port_info[port_no].state != Disabled)
&&
(port_info[port_no].state != Blocking)
/* (4.6.13.3) */
) {
if ((port_info[port_no].state == Forwarding)
||
(port_info[port_no].state == Learning)
) {
topology_change_detection(); /* (4.6.13.3.1) */
/* (4.6.14.2.3) */
}
set_port_state(port_no, Blocking);/* (4.6.13.3.2) */
stop_forward_delay_timer(port_no);/* (4.6.13.3.3) */
}
}
static void set_port_state(int port_no, int state)
{
port_info[port_no].state = state;
}
static void received_config_bpdu(int port_no, Config_bpdu *config) /* (4.7.1) */
{
int root;
root = root_bridge();
if (port_info[port_no].state != Disabled) {
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "received_config_bpdu: port %d\n",
port_no);
#endif
if (supersedes_port_info(port_no, config)) { /* (4.7.1.1) *//* (4.
* 6.2.2) */
record_config_information(port_no, config); /* (4.7.1.1.1) */
/* (4.6.2.2) */
configuration_update(); /* (4.7.1.1.2) */
/* (4.6.7.2.1) */
port_state_selection(); /* (4.7.1.1.3) */
/* (4.6.11.2.1) */
if ((!root_bridge()) && root) { /* (4.7.1.1.4) */
stop_hello_timer();
if (bridge_info.top_change_detected) { /* (4.7.1.1.5 */
stop_topology_change_timer();
transmit_tcn(); /* (4.6.6.1) */
start_tcn_timer();
}
}
if (port_no == bridge_info.root_port) {
record_config_timeout_values(config); /* (4.7.1.1.6) */
/* (4.6.3.2) */
config_bpdu_generation(); /* (4.6.4.2.1) */
if (config->top_change_ack) { /* (4.7.1.1.7) */
topology_change_acknowledged(); /* (4.6.15.2) */
}
}
} else if (designated_port(port_no)) { /* (4.7.1.2) */
reply(port_no); /* (4.7.1.2.1) */
/* (4.6.5.2) */
}
}
}
static void received_tcn_bpdu(int port_no, Tcn_bpdu *tcn) /* (4.7.2) */
{
if (port_info[port_no].state != Disabled) {
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "received_tcn_bpdu: port %d\n",
port_no);
#endif
if (designated_port(port_no)) {
topology_change_detection(); /* (4.7.2.1) */
/* (4.6.14.2.1) */
acknowledge_topology_change(port_no); /* (4.7.2.2) */
} /* (4.6.16.2) */
}
}
static void hello_timer_expiry(void)
{ /* (4.7.3) */
config_bpdu_generation(); /* (4.6.4.2.2) */
start_hello_timer();
}
static void message_age_timer_expiry(int port_no) /* (4.7.4) */
{
int root;
root = root_bridge();
#ifdef DEBUG_STP
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "message_age_timer_expiry: port %d\n",
port_no);
#endif
become_designated_port(port_no); /* (4.7.4.1) */
/* (4.6.10.2.1) */
configuration_update(); /* (4.7.4.2) */
/* (4.6.7.2.2) */
port_state_selection(); /* (4.7.4.3) */
/* (4.6.11.2.2) */
if ((root_bridge()) && (!root)) { /* (4.7.4.4) */
bridge_info.max_age = bridge_info.bridge_max_age; /* (4.7.4.4.1) */
bridge_info.hello_time = bridge_info.bridge_hello_time;
bridge_info.forward_delay = bridge_info.bridge_forward_delay;
topology_change_detection(); /* (4.7.4.4.2) */
/* (4.6.14.2.4) */
stop_tcn_timer(); /* (4.7.4.4.3) */
config_bpdu_generation(); /* (4.7.4.4.4) */
/* (4.6.4.4.3) */
start_hello_timer();
}
}
static void forward_delay_timer_expiry(int port_no) /* (4.7.5) */
{
if (port_info[port_no].state == Listening)
{ /* (4.7.5.1) */
set_port_state(port_no, Learning); /* (4.7.5.1.1) */
start_forward_delay_timer(port_no); /* (4.7.5.1.2) */
}
else if (port_info[port_no].state == Learning)
{
/* (4.7.5.2) */
set_port_state(port_no, Forwarding); /* (4.7.5.2.1) */
if (designated_for_some_port())
{ /* (4.7.5.2.2) */
topology_change_detection(); /* (4.6.14.2.2) */
}
}
}
static int designated_for_some_port(void)
{
int port_no;
for (port_no = One; port_no <= No_of_ports; port_no++)
{
if(port_info[port_no].state == Disabled)
continue;
if ((br_cmp(port_info[port_no].designated_bridge.BRIDGE_ID,
bridge_info.bridge_id.BRIDGE_ID) == 0))
{
return (TRUE);
}
}
return (FALSE);
}
static void tcn_timer_expiry(void)
{ /* (4.7.6) */
transmit_tcn(); /* (4.7.6.1) */
start_tcn_timer(); /* (4.7.6.2) */
}
static void topology_change_timer_expiry(void)
{ /* (4.7.7) */
bridge_info.top_change_detected = 0; /* (4.7.7.1) */
bridge_info.top_change = 0;
/* (4.7.7.2) */
}
static void hold_timer_expiry(int port_no) /* (4.7.8) */
{
if (port_info[port_no].config_pending)
{
transmit_config(port_no); /* (4.7.8.1) */
} /* (4.6.1.2.3) */
}
/* Vova Oksman: Write the buffer (contents of the Bridge table) */
/* to a PROCfs file */
int br_tree_get_info(char *buffer, char **start, off_t offset, int length, int dummy)
{
int size;
int len=0;
off_t pos=0;
char* pbuffer;
if(0==offset)
{
/* first time write the header */
size = sprintf(buffer,"%s","MAC address Device Flags Age (sec.)\n");
len=size;
}
pbuffer=&buffer[len];
sprintf_avl(&pbuffer,NULL,&pos,&len,offset,length);
*start = buffer+len-(pos-offset); /* Start of wanted data */
len = pos-offset; /* Start slop */
if (len>length)
len = length; /* Ending slop */
return len;
}
#ifdef CONFIG_PROC_FS
struct proc_dir_entry proc_net_bridge= {
PROC_NET_BRIDGE, 6, "bridge",
S_IFREG | S_IRUGO, 1, 0, 0,
0, &proc_net_inode_operations,
br_tree_get_info
};
#endif
void __init br_init(void)
{ /* (4.8.1) */
int port_no;
printk(KERN_INFO "NET4: Ethernet Bridge 005 for NET4.0\n");
/*
* Form initial topology change time.
* The topology change timer is only used if this is the root bridge.
*/
bridge_info.topology_change_time = BRIDGE_MAX_AGE + BRIDGE_FORWARD_DELAY; /* (4.5.3.13) */
bridge_info.designated_root = bridge_info.bridge_id; /* (4.8.1.1) */
bridge_info.root_path_cost = Zero;
bridge_info.root_port = No_port;
#ifdef DEBUG_STP
printk(KERN_INFO "br_init: becomes root\n");
#endif
bridge_info.bridge_max_age = BRIDGE_MAX_AGE;
bridge_info.bridge_hello_time = BRIDGE_HELLO_TIME;
bridge_info.bridge_forward_delay = BRIDGE_FORWARD_DELAY;
bridge_info.hold_time = HOLD_TIME;
bridge_info.max_age = bridge_info.bridge_max_age; /* (4.8.1.2) */
bridge_info.hello_time = bridge_info.bridge_hello_time;
bridge_info.forward_delay = bridge_info.bridge_forward_delay;
bridge_info.top_change_detected = 0;
bridge_info.top_change = 0;
stop_tcn_timer();
stop_topology_change_timer();
memset(newfdb, 0, sizeof(newfdb));
for (port_no = One; port_no <= No_of_ports; port_no++) { /* (4.8.1.4) */
/* initial state = Enable */
user_port_state[port_no] = ~Disabled;
port_priority[port_no] = 128;
br_init_port(port_no);
disable_port(port_no);
}
#if 0 /* JRP: We are not UP ! Wait for the start command */
port_state_selection(); /* (4.8.1.5) */
config_bpdu_generation(); /* (4.8.1.6) */
/* initialize system timer */
tl.expires = jiffies+HZ; /* 1 second */
tl.function = br_tick;
add_timer(&tl);
#endif
register_netdevice_notifier(&br_dev_notifier);
br_stats.flags = 0; /*BR_UP | BR_DEBUG*/; /* enable bridge */
br_stats.policy = BR_ACCEPT; /* Enable bridge to accpet all protocols */
br_stats.exempt_protocols = 0;
/*start_hello_timer();*/
/* Vova Oksman: register the function for the PROCfs "bridge" file */
#ifdef CONFIG_PROC_FS
proc_net_register(&proc_net_bridge);
#endif
}
static inline unsigned short make_port_id(int port_no)
{
return (port_priority[port_no] << 8) | port_no;
}
static void br_init_port(int port_no)
{
port_info[port_no].port_id = make_port_id(port_no);
become_designated_port(port_no); /* (4.8.1.4.1) */
set_port_state(port_no, Blocking); /* (4.8.1.4.2) */
port_info[port_no].top_change_ack = 0;
port_info[port_no].config_pending = FALSE;/* (4.8.1.4.4) */
stop_message_age_timer(port_no); /* (4.8.1.4.5) */
stop_forward_delay_timer(port_no); /* (4.8.1.4.6) */
stop_hold_timer(port_no); /* (4.8.1.4.7) */
}
static void enable_port(int port_no) /* (4.8.2) */
{
br_init_port(port_no);
port_state_selection(); /* (4.8.2.7) */
} /* */
static void disable_port(int port_no) /* (4.8.3) */
{
int root;
root = root_bridge();
become_designated_port(port_no); /* (4.8.3.1) */
set_port_state(port_no, Disabled); /* (4.8.3.2) */
port_info[port_no].top_change_ack = 0;
port_info[port_no].config_pending = FALSE;/* (4.8.3.4) */
stop_message_age_timer(port_no); /* (4.8.3.5) */
stop_forward_delay_timer(port_no); /* (4.8.3.6) */
configuration_update();
port_state_selection(); /* (4.8.3.7) */
if ((root_bridge()) && (!root)) { /* (4.8.3.8) */
bridge_info.max_age = bridge_info.bridge_max_age; /* (4.8.3.8.1) */
bridge_info.hello_time = bridge_info.bridge_hello_time;
bridge_info.forward_delay = bridge_info.bridge_forward_delay;
topology_change_detection(); /* (4.8.3.8.2) */
stop_tcn_timer(); /* (4.8.3.8.3) */
config_bpdu_generation(); /* (4.8.3.8.4) */
start_hello_timer();
}
}
static void set_bridge_priority(bridge_id_t *new_bridge_id)
/* (4.8.4) */
{
int root;
int port_no;
root = root_bridge();
for (port_no = One; port_no <= No_of_ports; port_no++) { /* (4.8.4.2) */
if(port_info[port_no].state == Disabled)
continue;
if (designated_port(port_no)) {
port_info[port_no].designated_bridge = *new_bridge_id;
}
}
bridge_info.bridge_id = *new_bridge_id; /* (4.8.4.3) */
configuration_update(); /* (4.8.4.4) */
port_state_selection(); /* (4.8.4.5) */
if ((root_bridge()) && (!root)) { /* (4.8.4.6) */
bridge_info.max_age = bridge_info.bridge_max_age; /* (4.8.4.6.1) */
bridge_info.hello_time = bridge_info.bridge_hello_time;
bridge_info.forward_delay = bridge_info.bridge_forward_delay;
topology_change_detection(); /* (4.8.4.6.2) */
stop_tcn_timer(); /* (4.8.4.6.3) */
config_bpdu_generation(), /* (4.8.4.6.4) */
start_hello_timer();
}
}
static void set_port_priority(int port_no)
/* (4.8.5) */
{int new_port_id = make_port_id(port_no);
if (designated_port(port_no)) { /* (4.8.5.2) */
port_info[port_no].designated_port = new_port_id;
}
port_info[port_no].port_id = new_port_id; /* (4.8.5.3) */
if ((br_cmp(bridge_info.bridge_id.BRIDGE_ID,
port_info[port_no].designated_bridge.BRIDGE_ID) == 0
)
&&
(port_info[port_no].port_id
< port_info[port_no].designated_port
)
)
{
become_designated_port(port_no); /* (4.8.5.4.1) */
port_state_selection(); /* (4.8.5.4.2) */
}
}
static void set_path_cost(int port_no, unsigned short path_cost)
/* (4.8.6) */
{
port_info[port_no].path_cost = path_cost; /* (4.8.6.1) */
configuration_update(); /* (4.8.6.2) */
port_state_selection(); /* (4.8.6.3) */
}
static void br_tick(unsigned long arg)
{
int port_no;
if(!(br_stats.flags & BR_UP))
return; /* JRP: we have been shot down */
if (hello_timer_expired())
hello_timer_expiry();
if (tcn_timer_expired())
tcn_timer_expiry();
if (topology_change_timer_expired())
topology_change_timer_expiry();
for (port_no = One; port_no <= No_of_ports; port_no++)
{
if(port_info[port_no].state == Disabled)
continue;
if (forward_delay_timer_expired(port_no))
forward_delay_timer_expiry(port_no);
if (message_age_timer_expired(port_no))
message_age_timer_expiry(port_no);
if (hold_timer_expired(port_no))
hold_timer_expiry(port_no);
}
/* call me again sometime... */
tl.expires = jiffies+HZ; /* 1 second */
tl.function = br_tick;
add_timer(&tl);
}
static void start_hello_timer(void)
{
hello_timer.value = 0;
hello_timer.active = TRUE;
}
static void stop_hello_timer(void)
{
hello_timer.active = FALSE;
}
static int hello_timer_expired(void)
{
if (hello_timer.active && (++hello_timer.value >= bridge_info.hello_time))
{
hello_timer.active = FALSE;
return (TRUE);
}
return (FALSE);
}
static void start_tcn_timer(void)
{
tcn_timer.value = 0;
tcn_timer.active = TRUE;
}
static void stop_tcn_timer(void)
{
tcn_timer.active = FALSE;
}
static int tcn_timer_expired(void)
{
if (tcn_timer.active && (++tcn_timer.value >= bridge_info.bridge_hello_time))
{
tcn_timer.active = FALSE;
return (TRUE);
}
return (FALSE);
}
static void start_topology_change_timer(void)
{
topology_change_timer.value = 0;
topology_change_timer.active = TRUE;
}
static void stop_topology_change_timer(void)
{
topology_change_timer.active = FALSE;
}
static int topology_change_timer_expired(void)
{
if (topology_change_timer.active
&& (++topology_change_timer.value >= bridge_info.topology_change_time ))
{
topology_change_timer.active = FALSE;
return (TRUE);
}
return (FALSE);
}
static void start_message_age_timer(int port_no, unsigned short message_age)
{
message_age_timer[port_no].value = message_age;
message_age_timer[port_no].active = TRUE;
}
static void stop_message_age_timer(int port_no)
{
message_age_timer[port_no].active = FALSE;
}
static int message_age_timer_expired(int port_no)
{
if (message_age_timer[port_no].active && (++message_age_timer[port_no].value >= bridge_info.max_age))
{
message_age_timer[port_no].active = FALSE;
return (TRUE);
}
return (FALSE);
}
static void start_forward_delay_timer(int port_no)
{
forward_delay_timer[port_no].value = 0;
forward_delay_timer[port_no].active = TRUE;
}
static void stop_forward_delay_timer(int port_no)
{
forward_delay_timer[port_no].active = FALSE;
}
static int forward_delay_timer_expired(int port_no)
{
if (forward_delay_timer[port_no].active && (++forward_delay_timer[port_no].value >= bridge_info.forward_delay))
{
forward_delay_timer[port_no].active = FALSE;
return (TRUE);
}
return (FALSE);
}
static void start_hold_timer(int port_no)
{
hold_timer[port_no].value = 0;
hold_timer[port_no].active = TRUE;
}
static void stop_hold_timer(int port_no)
{
hold_timer[port_no].active = FALSE;
}
static int hold_timer_expired(int port_no)
{
if (hold_timer[port_no].active &&
(++hold_timer[port_no].value >= bridge_info.hold_time))
{
hold_timer[port_no].active = FALSE;
return (TRUE);
}
return (FALSE);
}
static struct sk_buff *alloc_bridge_skb(int port_no, int pdu_size, char *pdu_name)
{
struct sk_buff *skb;
struct net_device *dev = port_info[port_no].dev;
struct ethhdr *eth;
int size = dev->hard_header_len + BRIDGE_LLC1_HS + pdu_size;
unsigned char *llc_buffer;
int pad_size = 60 - size;
size = 60; /* minimum Ethernet frame - CRC */
if (port_info[port_no].state == Disabled)
{
printk(KERN_DEBUG "send_%s_bpdu: port %i not valid\n", pdu_name, port_no);
return NULL;
}
skb = alloc_skb(size, GFP_ATOMIC);
if (skb == NULL)
{
printk(KERN_DEBUG "send_%s_bpdu: no skb available\n", pdu_name);
return NULL;
}
skb->dev = dev;
skb->mac.raw = skb->nh.raw = skb_put(skb,size);
memset(skb->nh.raw + 60 - pad_size, 0xa5, pad_size);
eth = skb->mac.ethernet;
memcpy(eth->h_dest, bridge_ula, ETH_ALEN);
memcpy(eth->h_source, dev->dev_addr, ETH_ALEN);
if (br_stats.flags & BR_DEBUG)
printk("send_%s_bpdu: port %i src %02x:%02x:%02x:%02x:%02x:%02x\n",
pdu_name,
port_no,
eth->h_source[0],
eth->h_source[1],
eth->h_source[2],
eth->h_source[3],
eth->h_source[4],
eth->h_source[5]);
#if 0
/* 8038 is used in older DEC spanning tree protocol which uses a
* different pdu layout as well
*/
eth->h_proto = htons(0x8038);
#endif
eth->h_proto = htons(pdu_size + BRIDGE_LLC1_HS);
skb->nh.raw += skb->dev->hard_header_len;
llc_buffer = skb->nh.raw;
*llc_buffer++ = BRIDGE_LLC1_DSAP;
*llc_buffer++ = BRIDGE_LLC1_SSAP;
*llc_buffer++ = BRIDGE_LLC1_CTRL;
/* set nh.raw to where the bpdu starts */
skb->nh.raw += BRIDGE_LLC1_HS;
/* mark that we've been here... */
skb->pkt_bridged = IS_BRIDGED;
return skb;
}
static int send_config_bpdu(int port_no, Config_bpdu *config_bpdu)
{
struct sk_buff *skb;
/*
* Keep silent when disabled or when STP disabled
*/
if(!(br_stats.flags & BR_UP) || (br_stats.flags & BR_STP_DISABLED))
return -1;
/*
* Create and send the message
*/
skb = alloc_bridge_skb(port_no, BRIDGE_BPDU_8021_CONFIG_SIZE,
"config");
if (skb == NULL)
return(-1);
/* copy fields before "flags" */
memcpy(skb->nh.raw, config_bpdu, BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET);
/* build the "flags" field */
*(skb->nh.raw+BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET) = 0;
if (config_bpdu->top_change_ack)
*(skb->nh.raw+BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET) |= 0x80;
if (config_bpdu->top_change)
*(skb->nh.raw+BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET) |= 0x01;
config_bpdu_hton(config_bpdu);
/* copy the rest */
memcpy(skb->nh.raw+BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET+1,
(char*)&(config_bpdu->root_id),
BRIDGE_BPDU_8021_CONFIG_SIZE-1-BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET);
dev_queue_xmit(skb);
return(0);
}
static int send_tcn_bpdu(int port_no, Tcn_bpdu *bpdu)
{
struct sk_buff *skb;
/*
* Keep silent when disabled or when STP disabled
*/
if(!(br_stats.flags & BR_UP) || (br_stats.flags & BR_STP_DISABLED))
return -1;
skb = alloc_bridge_skb(port_no, sizeof(Tcn_bpdu), "tcn");
if (skb == NULL)
return(-1);
memcpy(skb->nh.raw, bpdu, sizeof(Tcn_bpdu));
dev_queue_xmit(skb);
return(0);
}
static int br_device_event(struct notifier_block *unused, unsigned long event, void *ptr)
{
struct net_device *dev = ptr;
int i;
/* check for loopback devices */
if (dev->flags & IFF_LOOPBACK)
return(NOTIFY_DONE);
switch (event)
{
case NETDEV_DOWN:
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "br_device_event: NETDEV_DOWN...\n");
/* find our device and mark it down */
for (i = One; i <= No_of_ports; i++)
{
if (port_info[i].dev == dev)
{
disable_port(i);
return NOTIFY_DONE;
break;
}
}
break;
case NETDEV_UP:
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "br_device_event: NETDEV_UP...\n");
/* Only handle ethernet ports */
if(dev->type!=ARPHRD_ETHER && dev->type!=ARPHRD_LOOPBACK)
return NOTIFY_DONE;
/* look up an unused device and enable it */
for (i = One; i <= No_of_ports; i++)
{
if (port_info[i].dev == NULL || port_info[i].dev == dev)
{
port_info[i].dev = dev;
port_info[i].port_id = i;
/* set bridge addr from 1st device addr */
if (((htonl(bridge_info.bridge_id.BRIDGE_ID[0])&0xffff) == 0) &&
(bridge_info.bridge_id.BRIDGE_ID[1] == 0))
{
memcpy(bridge_info.bridge_id.BRIDGE_ID_ULA, dev->dev_addr, 6);
if(bridge_info.bridge_id.BRIDGE_PRIORITY == 0)
bridge_info.bridge_id.BRIDGE_PRIORITY = htons(32768);
set_bridge_priority(&bridge_info.bridge_id);
}
br_add_local_mac(dev->dev_addr);
if((br_stats.flags & BR_UP) &&
(user_port_state[i] != Disabled))
{
/* don't start if user said so */
enable_port(i);
set_path_cost(i, br_port_cost(dev));
set_port_priority(i);
if (br_stats.flags & BR_STP_DISABLED)
port_info[i].state = Forwarding;
else
make_forwarding(i);
}
return NOTIFY_DONE;
break;
}
}
break;
case NETDEV_UNREGISTER:
if (br_stats.flags & BR_DEBUG)
printk(KERN_DEBUG "br_device_event: NETDEV_UNREGISTER...\n");
i = find_port(dev);
if (i > 0) {
br_avl_delete_by_port(i);
port_info[i].dev = NULL;
}
break;
}
return NOTIFY_DONE;
}
/*
* following routine is called when a frame is received
* from an interface, it returns 1 when it consumes the
* frame, 0 when it does not
*/
int br_receive_frame(struct sk_buff *skb) /* 3.5 */
{
int port;
Port_data *p;
struct ethhdr *eth;
/* sanity */
if (!skb) {
printk(KERN_CRIT "br_receive_frame: no skb!\n");
return(1);
}
skb->pkt_bridged = IS_BRIDGED;
/* check for loopback */
if (skb->dev->flags & IFF_LOOPBACK)
return 0 ;
port = find_port(skb->dev);
if(!port)
return 0;
skb->nh.raw = skb->mac.raw;
eth = skb->mac.ethernet;
p = &port_info[port];
if(p->state == Disabled)
{
/* We are here if BR_UP even if this port is Disabled.
* Send everything up
*/
skb->pkt_type = PACKET_HOST;
++br_stats_cnt.port_disable_up_stack;
return(0); /* pass frame up our stack (this will */
/* happen in net_bh() in dev.c) */
}
/* Here only if not disable.
* Remark: only frames going up will show up in NIT (tcpdump)
*/
/* JRP: even if port is Blocking we need to process the Spanning Tree
* frames to keep the port in that state
*/
if (memcmp(eth->h_dest, bridge_ula, ETH_ALEN) == 0)
{
++br_stats_cnt.rcv_bpdu;
br_bpdu(skb, port); /* br_bpdu consumes skb */
return(1);
}
switch (p->state)
{
case Learning:
if(br_learn(skb, port))
{ /* 3.8 */
++br_stats_cnt.drop_multicast;
return br_drop(skb);
}
/* fall through */
case Listening:
/* fall through */
case Blocking:
++br_stats_cnt.notForwarding;
return(br_drop(skb));
/*
case Disabled: is now handled before this switch !
Keep the break to allow GCC to use a jmp table.
*/
break;
case Forwarding:
if(br_learn(skb, port)) { /* 3.8 */
++br_stats_cnt.drop_multicast;
return br_drop(skb);
}
/* Now this frame came from one of bridged
ports this means we should attempt to forward it.
JRP: local addresses are now in the AVL tree,
br_forward will pass frames up if it matches
one of our local MACs or if it is a multicast
group address.
br_forward() will not consume the frame if this
is the case */
return(br_forward(skb, port));
default:
printk(KERN_DEBUG "br_receive_frame: port [%i] unknown state [%i]\n",
port, p->state);
++br_stats_cnt.unknown_state;
return(br_drop(skb)); /* discard frame */
}
}
/*
* the following routine is called to transmit frames from the host
* stack. it returns 1 when it consumes the frame and
* 0 when it does not.
*/
int br_tx_frame(struct sk_buff *skb) /* 3.5 */
{
int port;
struct ethhdr *eth;
/* sanity */
if (!skb)
{
printk(KERN_CRIT "br_tx_frame: no skb!\n");
return(0);
}
if (!skb->dev)
{
printk(KERN_CRIT "br_tx_frame: no dev!\n");
return(0);
}
/* check for loopback */
if (skb->dev->flags & IFF_LOOPBACK)
return(0);
/* if bridging is not enabled on the port we are going to send
to, we have nothing to do with this frame, hands off */
if (((port=find_port(skb->dev))==0)||(port_info[port].state==Disabled)) {
++br_stats_cnt.port_disable;
return(0);
}
++br_stats_cnt.port_not_disable;
skb->mac.raw = skb->nh.raw = skb->data;
eth = skb->mac.ethernet;
port = 0; /* an impossible port (locally generated) */
if (br_stats.flags & BR_DEBUG)
printk("br_tx_fr : port %i src %02x:%02x:%02x:%02x:%02x:%02x"
" dest %02x:%02x:%02x:%02x:%02x:%02x\n",
port,
eth->h_source[0],
eth->h_source[1],
eth->h_source[2],
eth->h_source[3],
eth->h_source[4],
eth->h_source[5],
eth->h_dest[0],
eth->h_dest[1],
eth->h_dest[2],
eth->h_dest[3],
eth->h_dest[4],
eth->h_dest[5]);
return(br_forward(skb, port));
}
static void br_add_local_mac(unsigned char *mac)
{
struct fdb *f;
f = (struct fdb *)kmalloc(sizeof(struct fdb), GFP_ATOMIC);
if (!f)
{
printk(KERN_CRIT "br_add_local_mac: unable to malloc fdb\n");
return;
}
f->port = 0; /* dest port == 0 =>local */
memcpy(f->ula, mac, 6);
f->timer = 0; /* will not aged anyway */
f->flags = 0; /* not valid => br_forward special route */
/*
* add entity to AVL tree. If entity already
* exists in the tree, update the fields with
* what we have here.
*/
if (br_avl_insert(f) != NULL)
{
/* Already in */
kfree(f);
}
}
/* Avoid broadcast loop by limiting the number of broacast frames per
* period. The idea is to limit this per source
* returns: 0 if limit is not reached
* 1 if frame should be dropped
*/
static inline int mcast_quench(struct fdb *f)
{
if(f->mcast_count++ == 0) /* first time */
f->mcast_timer = jiffies;
else {
if(f->mcast_count > max_mcast_per_period) {
if(time_after(jiffies, f->mcast_timer + mcast_hold_time))
f->mcast_count = 0;
else return 1;
}
}
return 0;
}
/*
* this routine returns 0 when it learns (or updates) from the
* frame, and 1 if we must dropped the frame.
*/
static int br_learn(struct sk_buff *skb, int port) /* 3.8 */
{
struct fdb *f, *oldfdb;
Port_data *p = &port_info[port];
struct ethhdr *eth = skb->mac.ethernet;
/* JRP: no reason to check port state again. We are called by
* br_receive_frame() only when in Learning or Forwarding
* Remark: code not realigned yet to keep diffs smaller
*/
/* don't keep group addresses in the tree */
if (eth->h_source[0] & 0x01)
return 0;
if((f= newfdb[port]) == NULL)
{
newfdb[port] = f = (struct fdb *)kmalloc(sizeof(struct fdb), GFP_ATOMIC);
if (!f)
{
printk(KERN_DEBUG "br_learn: unable to malloc fdb\n");
return(-1); /* this drop the frame */
}
}
f->port = port; /* source port */
memcpy(f->ula, eth->h_source, 6);
f->timer = CURRENT_TIME;
f->flags = FDB_ENT_VALID;
/*
* add entity to AVL tree. If entity already
* exists in the tree, update the fields with
* what we have here.
*/
if ((oldfdb = br_avl_insert(f)))
{
/* update if !NULL */
if((eth->h_dest[0] & 0x01) && /* multicast */ mcast_quench(oldfdb))
return 1;
return 0;
}
newfdb[port] = NULL; /* force kmalloc next time */
f->mcast_count = 0;
/* add to head of port chain */
f->fdb_next = p->fdb;
p->fdb = f;
allocated_fdb_cnt++;
return 0;
}
/* JRP: always called under br_receive_frame(). No need for Q protection. */
void requeue_fdb(struct fdb *node, int new_port)
{
Port_data *p = &port_info[node->port];
/* dequeue */
if(p->fdb == node)
p->fdb = node->fdb_next;
else
{
struct fdb *prev;
for(prev = p->fdb; prev; prev = prev->fdb_next)
if (prev->fdb_next == node)
break;
if(prev != NULL)
prev->fdb_next = node->fdb_next;
else
{
/* Forget about this update. */
printk(KERN_ERR "br:requeue_fdb\n");
return;
}
}
/* enqueue */
node->port = new_port;
node->fdb_next = port_info[new_port].fdb;
port_info[new_port].fdb = node;
}
/*
* this routine always consumes the frame
*/
static int br_drop(struct sk_buff *skb)
{
kfree_skb(skb);
return(1);
}
/*
* this routine always consumes the frame
*/
static int br_dev_drop(struct sk_buff *skb)
{
dev_kfree_skb(skb);
return(1);
}
/*
* Forward the frame SKB to proper port[s]. PORT is the port that the
* frame has come from; we will not send the frame back there. PORT == 0
* means we have been called from br_tx_fr(), not from br_receive_frame().
*
* this routine returns 1 if it consumes the frame, 0
* if not...
*/
static int br_forward(struct sk_buff *skb, int port) /* 3.7 */
{
struct fdb *f;
/*
* flood all ports with frames destined for a group
* address. If frame came from above, drop it,
* otherwise it will be handled in br_receive_frame()
* Multicast frames will also need to be seen
* by our upper layers.
*/
if (skb->mac.ethernet->h_dest[0] & 0x01)
{
/* group address */
br_flood(skb, port);
/*
* External groups are fed out via the normal source
* This probably should be dropped since the flood will
* have sent it anyway.
*/
if (port == 0)
{
/* Locally generated */
++br_stats_cnt.local_multicast;
return(br_dev_drop(skb));
}
++br_stats_cnt.forwarded_multicast;
return(0);
}
else
{
/* unicast frame, locate port to forward to */
f = br_avl_find_addr(skb->mac.ethernet->h_dest);
/*
* Send flood and drop.
*/
if (!f || !(f->flags & FDB_ENT_VALID))
{
if(f && (f->port == 0))
{
skb->pkt_type = PACKET_HOST;
++br_stats_cnt.forwarded_unicast_up_stack;
return(0);
}
/* not found or too old; flood all ports */
++br_stats_cnt.flood_unicast;
br_flood(skb, port);
return(br_dev_drop(skb));
}
/*
* Sending
*/
if (f->port!=port && port_info[f->port].state == Forwarding)
{
/* Has entry expired? */
if (f->timer + fdb_aging_time < CURRENT_TIME)
{
/* timer expired, invalidate entry */
f->flags &= ~FDB_ENT_VALID;
if (br_stats.flags & BR_DEBUG)
printk("fdb entry expired...\n");
/*
* Send flood and drop original
*/
++br_stats_cnt.aged_flood_unicast;
br_flood(skb, port);
return(br_dev_drop(skb));
}
++br_stats_cnt.forwarded_unicast;
/* mark that's we've been here... */
skb->pkt_bridged = IS_BRIDGED;
/* reset the skb->ip pointer */
skb->nh.raw = skb->data + ETH_HLEN;
/*
* Send the buffer out.
*/
skb->dev=port_info[f->port].dev;
/*
* We send this still locked
*/
skb->priority = 1;
dev_queue_xmit(skb);
return(1); /* skb has been consumed */
}
else
{
/* JRP: Needs to aged entry as well, if topology changes
* the entry would not age. Got this while swapping
* two cables !
*
* Has entry expired?
*/
if (f->timer + fdb_aging_time < CURRENT_TIME)
{
/* timer expired, invalidate entry */
f->flags &= ~FDB_ENT_VALID;
if (br_stats.flags & BR_DEBUG)
printk("fdb entry expired...\n");
++br_stats_cnt.drop_same_port_aged;
}
else ++br_stats_cnt.drop_same_port;
/*
* Arrived on the right port, we discard
*/
return(br_dev_drop(skb));
}
}
}
/*
* this routine sends a copy of the frame to all forwarding ports
* with the exception of the port given. This routine never
* consumes the original frame.
*/
static int br_flood(struct sk_buff *skb, int port)
{
int i;
struct sk_buff *nskb;
for (i = One; i <= No_of_ports; i++)
{
if (i == port) /* don't send back where we got it */
continue;
if (port_info[i].state == Forwarding)
{
nskb = skb_clone(skb, GFP_ATOMIC);
if(nskb==NULL)
continue;
/* mark that's we've been here... */
nskb->pkt_bridged = IS_BRIDGED;
/* Send to each port in turn */
nskb->dev= port_info[i].dev;
/* To get here we must have done ARP already,
or have a received valid MAC header */
/* printk("Flood to port %d\n",i);*/
nskb->nh.raw = nskb->data + ETH_HLEN;
nskb->priority = 1;
dev_queue_xmit(nskb);
}
}
return(0);
}
static int find_port(struct net_device *dev)
{
int i;
for (i = One; i <= No_of_ports; i++)
if (port_info[i].dev == dev)
return(i);
return(0);
}
/*
* FIXME: This needs to come from the device structs, eg for
* 10,100,1Gbit ethernet.
*/
static int br_port_cost(struct net_device *dev) /* 4.10.2 */
{
if (strncmp(dev->name, "lec", 3) == 0) /* ATM Lan Emulation (LANE) */
return(7); /* 155 Mbs */
if (strncmp(dev->name, "eth", 3) == 0) /* ethernet */
return(100);
if (strncmp(dev->name, "plip",4) == 0) /* plip */
return (1600);
return(100); /* default */
}
/*
* this routine always consumes the skb
*/
static void br_bpdu(struct sk_buff *skb, int port) /* consumes skb */
{
char *bufp = skb->data + ETH_HLEN;
Tcn_bpdu *bpdu = (Tcn_bpdu *) (bufp + BRIDGE_LLC1_HS);
Config_bpdu rcv_bpdu;
if(!(br_stats.flags & BR_STP_DISABLED) &&
(*bufp++ == BRIDGE_LLC1_DSAP) && (*bufp++ == BRIDGE_LLC1_SSAP) &&
(*bufp++ == BRIDGE_LLC1_CTRL) &&
(bpdu->protocol_id == BRIDGE_BPDU_8021_PROTOCOL_ID) &&
(bpdu->protocol_version_id == BRIDGE_BPDU_8021_PROTOCOL_VERSION_ID))
{
switch (bpdu->type)
{
case BPDU_TYPE_CONFIG:
/* realign for portability to RISC */
memcpy((char*)&rcv_bpdu, bufp,
BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET);
bufp+= BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET;
rcv_bpdu.top_change_ack =
(*bufp & TOPOLOGY_CHANGE_ACK) != 0;
rcv_bpdu.top_change =
(*bufp & TOPOLOGY_CHANGE) != 0;
bufp++;
memcpy((char*)&rcv_bpdu.root_id, bufp,
BRIDGE_BPDU_8021_CONFIG_SIZE-1
-BRIDGE_BPDU_8021_CONFIG_FLAG_OFFSET);
config_bpdu_ntoh(&rcv_bpdu);
received_config_bpdu(port, &rcv_bpdu);
break;
case BPDU_TYPE_TOPO_CHANGE:
received_tcn_bpdu(port, bpdu);
break;
default:
printk(KERN_DEBUG "br_bpdu: received unknown bpdu, type = %i\n", bpdu->type);
/* break; */
}
}
br_drop(skb);
}
struct fdb_info *get_fdb_info(int user_buf_size, int *copied,int *notcopied)
{
int fdb_size, i, built = 0;
struct fdb_info *fdbi, *fdbis;
*copied = user_buf_size - sizeof(struct fdb_info_hdr);
*copied /= sizeof(struct fdb_info);
*copied = min(*copied, allocated_fdb_cnt);
*notcopied = allocated_fdb_cnt - *copied;
if(*copied == 0)
return NULL;
fdb_size = *copied * sizeof(struct fdb_info);
fdbis = kmalloc(fdb_size, GFP_KERNEL);
if(fdbis == NULL)
return NULL;
fdbi = fdbis;
for(i=One; i<=No_of_ports;i++)
{
struct fdb *fdb;
cli();
fdb = port_info[i].fdb;
while(fdb)
{
memcpy(fdbi->ula, fdb->ula, ETH_ALEN);
fdbi->port = fdb->port;
fdbi->flags = fdb->flags;
fdbi->timer = fdb->timer;
fdbi++;
if(++built == *copied)
{
sti();
return fdbis;
}
fdb = fdb->fdb_next;
}
sti();
}
printk(KERN_DEBUG "get_fdb_info: built=%d\n", built);
return fdbis;
}
int br_ioctl(unsigned int cmd, void *arg)
{
int err, i;
struct br_cf bcf;
bridge_id_t new_id;
switch(cmd)
{
case SIOCGIFBR: /* get bridging control blocks */
memcpy(&br_stats.bridge_data, &bridge_info, sizeof(Bridge_data));
memcpy(&br_stats.port_data, &port_info, sizeof(Port_data)*No_of_ports);
err = copy_to_user(arg, &br_stats, sizeof(struct br_stat));
if (err)
{
err = -EFAULT;
}
return err;
case SIOCSIFBR:
err = copy_from_user(&bcf, arg, sizeof(struct br_cf));
if (err)
return -EFAULT;
if (bcf.cmd != BRCMD_DISPLAY_FDB && !suser())
return -EPERM;
switch (bcf.cmd)
{
case BRCMD_BRIDGE_ENABLE:
if (br_stats.flags & BR_UP)
return(-EALREADY);
printk(KERN_DEBUG "br: enabling bridging function\n");
br_stats.flags |= BR_UP; /* enable bridge */
for(i=One;i<=No_of_ports; i++)
{
/* don't start if user said so */
if((user_port_state[i] != Disabled)
&& port_info[i].dev)
{
enable_port(i);
}
}
port_state_selection(); /* (4.8.1.5) */
if (br_stats.flags & BR_STP_DISABLED)
for(i=One;i<=No_of_ports; i++)
if((user_port_state[i] != Disabled) && port_info[i].dev)
port_info[i].state = Forwarding;
config_bpdu_generation(); /* (4.8.1.6) */
/* initialize system timer */
tl.expires = jiffies+HZ; /* 1 second */
tl.function = br_tick;
add_timer(&tl);
start_hello_timer();
break;
case BRCMD_BRIDGE_DISABLE:
if (!(br_stats.flags & BR_UP))
return(-EALREADY);
printk(KERN_DEBUG "br: disabling bridging function\n");
br_stats.flags &= ~BR_UP; /* disable bridge */
stop_hello_timer();
for (i = One; i <= No_of_ports; i++)
if (port_info[i].state != Disabled)
disable_port(i);
break;
case BRCMD_TOGGLE_STP:
printk(KERN_DEBUG "br: %s spanning tree protcol\n",
(br_stats.flags & BR_STP_DISABLED) ? "enabling" : "disabling");
if (br_stats.flags & BR_STP_DISABLED) { /* enable STP */
for(i=One;i<=No_of_ports; i++)
if((user_port_state[i] != Disabled) && port_info[i].dev)
enable_port(i);
} else { /* STP was enabled, now disable it */
for (i = One; i <= No_of_ports; i++)
if (port_info[i].state != Disabled && port_info[i].dev)
port_info[i].state = Forwarding;
}
br_stats.flags ^= BR_STP_DISABLED;
break;
case BRCMD_PORT_ENABLE:
if (port_info[bcf.arg1].dev == 0)
return(-EINVAL);
if (user_port_state[bcf.arg1] != Disabled)
return(-EALREADY);
printk(KERN_DEBUG "br: enabling port %i\n",bcf.arg1);
user_port_state[bcf.arg1] = ~Disabled;
if(br_stats.flags & BR_UP)
enable_port(bcf.arg1);
break;
case BRCMD_PORT_DISABLE:
if (port_info[bcf.arg1].dev == 0)
return(-EINVAL);
if (user_port_state[bcf.arg1] == Disabled)
return(-EALREADY);
printk(KERN_DEBUG "br: disabling port %i\n",bcf.arg1);
user_port_state[bcf.arg1] = Disabled;
if(br_stats.flags & BR_UP)
disable_port(bcf.arg1);
break;
case BRCMD_SET_BRIDGE_PRIORITY:
new_id = bridge_info.bridge_id;
new_id.BRIDGE_PRIORITY = htons(bcf.arg1);
set_bridge_priority(&new_id);
break;
case BRCMD_SET_PORT_PRIORITY:
if((port_info[bcf.arg1].dev == 0)
|| (bcf.arg2 & ~0xff))
return(-EINVAL);
port_priority[bcf.arg1] = bcf.arg2;
set_port_priority(bcf.arg1);
break;
case BRCMD_SET_PATH_COST:
if (port_info[bcf.arg1].dev == 0)
return(-EINVAL);
set_path_cost(bcf.arg1, bcf.arg2);
break;
case BRCMD_ENABLE_DEBUG:
br_stats.flags |= BR_DEBUG;
break;
case BRCMD_DISABLE_DEBUG:
br_stats.flags &= ~BR_DEBUG;
break;
case BRCMD_SET_POLICY:
return br_set_policy(bcf.arg1);
case BRCMD_EXEMPT_PROTOCOL:
return br_add_exempt_protocol(bcf.arg1);
case BRCMD_ENABLE_PROT_STATS:
br_stats.flags |= BR_PROT_STATS;
break;
case BRCMD_DISABLE_PROT_STATS:
br_stats.flags &= ~BR_PROT_STATS;
break;
case BRCMD_ZERO_PROT_STATS:
memset(&br_stats.prot_id,0,sizeof(br_stats.prot_id));
memset(&br_stats.prot_counter,0,sizeof(br_stats.prot_counter));
break;
case BRCMD_DISPLAY_FDB:
{
struct fdb_info_hdr *user_buf = (void*) bcf.arg1;
struct fdb_info *u_fdbs, *fdbis;
int copied, notcopied;
u32 j = CURRENT_TIME;
if(bcf.arg2<sizeof(struct fdb_info_hdr))
return -EINVAL;
put_user(j, &user_buf->cmd_time);
if(allocated_fdb_cnt == 0)
{
put_user(0, &user_buf->copied);
put_user(0, &user_buf->not_copied);
return 0;
}
fdbis = get_fdb_info(bcf.arg2, &copied, ¬copied);
put_user(copied, &user_buf->copied);
put_user(notcopied, &user_buf->not_copied);
if(!fdbis)
return -ENOMEM;
u_fdbs = (struct fdb_info *) (user_buf+1);
err = copy_to_user(u_fdbs, fdbis, copied*sizeof(struct fdb_info));
kfree(fdbis);
if (err)
{
err = -EFAULT;
}
return err;
}
default:
return -EINVAL;
}
return(0);
default:
return -EINVAL;
}
/*NOTREACHED*/
return 0;
}
static int br_cmp(unsigned int *a, unsigned int *b)
{
int i;
for (i=0; i<2; i++)
{
/* JRP: compares prty then MAC address in memory byte order
* OK optimizer does htonl() only once per long !
*/
if (htonl(a[i]) < htonl(b[i]))
return(-1);
if (htonl(a[i]) > htonl(b[i]))
return(1);
}
return(0);
}
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