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|
/* -*- mode: c; c-file-style: "openbsd" -*- */
/*
* Copyright (c) 2008 Vincent Bernat <bernat@luffy.cx>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
/* We also supports FDP which is very similar to CDPv1 */
#include "../lldpd.h"
#include "../frame.h"
/*
* CDP Requests Power at the switch output and therefore has to take into
* account the loss in the PoE cable. This is done by the switch automatically
* if lldp is used as the protocol.
*/
#define CDP_CLASS_3_MAX_PSE_POE 154 /* 15.4W Max PoE at PSE class 3 */
#define CDP_SWTICH_DEFAULT_POE_PD 130 /* 13.W default PoE at PD */
#define CDP_SWTICH_DEFAULT_POE_PSE 154 /* 15.4W default PoE at PSE */
#define CDP_SWITCH_POE_CLASS_4_OFFSET 45 /* 4.5W max loss from cable */
#define CDP_SWITCH_POE_CLASS_3_OFFSET 24 /* 2.4W max loss from cable */
#if defined ENABLE_CDP || defined ENABLE_FDP
# include <stdio.h>
# include <unistd.h>
# include <errno.h>
# include <arpa/inet.h>
static int
cdp_send(struct lldpd *global, struct lldpd_hardware *hardware, int version)
{
const char *platform = "Unknown";
struct lldpd_chassis *chassis;
struct lldpd_mgmt *mgmt;
struct lldpd_port *port;
u_int8_t mcastaddr[] = CDP_MULTICAST_ADDR;
u_int8_t llcorg[] = LLC_ORG_CISCO;
# ifdef ENABLE_FDP
const char *capstr;
# endif
u_int16_t checksum;
int length, i;
u_int32_t cap;
u_int8_t *packet;
u_int8_t *pos, *pos_len_eh, *pos_llc, *pos_cdp, *pos_checksum, *tlv, *end;
log_debug("cdp", "send CDP frame on %s", hardware->h_ifname);
port = &(hardware->h_lport);
chassis = port->p_chassis;
# ifdef ENABLE_FDP
if (version == 0) {
/* With FDP, change multicast address and LLC PID */
const u_int8_t fdpmcastaddr[] = FDP_MULTICAST_ADDR;
const u_int8_t fdpllcorg[] = LLC_ORG_FOUNDRY;
memcpy(mcastaddr, fdpmcastaddr, sizeof(mcastaddr));
memcpy(llcorg, fdpllcorg, sizeof(llcorg));
}
# endif
length = hardware->h_mtu;
if ((packet = (u_int8_t *)calloc(1, length)) == NULL) return ENOMEM;
pos = packet;
/* Ethernet header */
if (!(POKE_BYTES(mcastaddr, sizeof(mcastaddr)) &&
POKE_BYTES(&hardware->h_lladdr, ETHER_ADDR_LEN) &&
POKE_SAVE(pos_len_eh) && /* We compute the len later */
POKE_UINT16(0)))
goto toobig;
/* LLC */
if (!(POKE_SAVE(pos_llc) && POKE_UINT8(0xaa) && /* SSAP */
POKE_UINT8(0xaa) && /* DSAP */
POKE_UINT8(0x03) && /* Control field */
POKE_BYTES(llcorg, sizeof(llcorg)) && POKE_UINT16(LLC_PID_CDP)))
goto toobig;
/* CDP header */
if (!(POKE_SAVE(pos_cdp) && POKE_UINT8((version == 0) ? 1 : version) &&
POKE_UINT8(global ? global->g_config.c_ttl : 180) &&
POKE_SAVE(pos_checksum) && /* Save checksum position */
POKE_UINT16(0)))
goto toobig;
/* Chassis ID */
const char *chassis_name = chassis->c_name ? chassis->c_name : "";
if (!(POKE_START_CDP_TLV(CDP_TLV_CHASSIS) &&
POKE_BYTES(chassis_name, strlen(chassis_name)) && POKE_END_CDP_TLV))
goto toobig;
/* Adresses */
/* See:
* http://www.cisco.com/univercd/cc/td/doc/product/lan/trsrb/frames.htm#xtocid12
*
* It seems that Cisco implies that CDP supports IPv6 using
* 802.2 address format with 0xAAAA03 0x000000 0x0800, but
* 0x0800 is the Ethernet protocol type for IPv4. Therefore,
* we support only IPv4. */
i = 0;
TAILQ_FOREACH (mgmt, &chassis->c_mgmt, m_entries)
if (mgmt->m_family == LLDPD_AF_IPV4) i++;
if (i > 0) {
if (!(POKE_START_CDP_TLV(CDP_TLV_ADDRESSES) && POKE_UINT32(i)))
goto toobig;
TAILQ_FOREACH (mgmt, &chassis->c_mgmt, m_entries) {
switch (mgmt->m_family) {
case LLDPD_AF_IPV4:
if (!(POKE_UINT8(1) && /* Type: NLPID */
POKE_UINT8(1) && /* Length: 1 */
POKE_UINT8(CDP_ADDRESS_PROTO_IP) && /* IP */
POKE_UINT16(sizeof(
struct in_addr)) && /* Address length */
POKE_BYTES(&mgmt->m_addr,
sizeof(struct in_addr))))
goto toobig;
break;
}
}
if (!(POKE_END_CDP_TLV)) goto toobig;
}
/* Port ID */
const char *port_descr =
hardware->h_lport.p_descr ? hardware->h_lport.p_descr : "";
if (!(POKE_START_CDP_TLV(CDP_TLV_PORT) &&
POKE_BYTES(port_descr, strlen(port_descr)) && POKE_END_CDP_TLV))
goto toobig;
/* Capabilities */
if (version != 0) {
cap = 0;
if (chassis->c_cap_enabled & LLDP_CAP_ROUTER) cap |= CDP_CAP_ROUTER;
if (chassis->c_cap_enabled & LLDP_CAP_BRIDGE) cap |= CDP_CAP_SWITCH;
cap |= CDP_CAP_HOST;
if (!(POKE_START_CDP_TLV(CDP_TLV_CAPABILITIES) && POKE_UINT32(cap) &&
POKE_END_CDP_TLV))
goto toobig;
# ifdef ENABLE_FDP
} else {
/* With FDP, it seems that a string is used in place of an int */
if (chassis->c_cap_enabled & LLDP_CAP_ROUTER)
capstr = "Router";
else if (chassis->c_cap_enabled & LLDP_CAP_BRIDGE)
capstr = "Switch";
else if (chassis->c_cap_enabled & LLDP_CAP_REPEATER)
capstr = "Bridge";
else
capstr = "Host";
if (!(POKE_START_CDP_TLV(CDP_TLV_CAPABILITIES) &&
POKE_BYTES(capstr, strlen(capstr)) && POKE_END_CDP_TLV))
goto toobig;
# endif
}
/* Native VLAN */
# ifdef ENABLE_DOT1
if (version >= 2 && hardware->h_lport.p_pvid != 0) {
if (!(POKE_START_CDP_TLV(CDP_TLV_NATIVEVLAN) &&
POKE_UINT16(hardware->h_lport.p_pvid) && POKE_END_CDP_TLV))
goto toobig;
}
# endif
/* Software version */
const char *chassis_descr = chassis->c_descr ? chassis->c_descr : "";
if (!(POKE_START_CDP_TLV(CDP_TLV_SOFTWARE) &&
POKE_BYTES(chassis_descr, strlen(chassis_descr)) && POKE_END_CDP_TLV))
goto toobig;
/* Platform */
if (global && global->g_config.c_platform)
platform = global->g_config.c_platform;
if (!(POKE_START_CDP_TLV(CDP_TLV_PLATFORM) &&
POKE_BYTES(platform, strlen(platform)) && POKE_END_CDP_TLV))
goto toobig;
# ifdef ENABLE_DOT3
if ((version >= 2) && (port->p_power.powertype != LLDP_DOT3_POWER_8023AT_OFF) &&
(port->p_power.devicetype == LLDP_DOT3_POWER_PD) &&
(port->p_power.requested > 0) && (port->p_power.requested <= 655)) {
u_int16_t requested;
u_int16_t consumption;
if (port->p_power.requested != port->p_power.allocated) {
port->p_cdp_power.request_id++;
log_debug("cdp", "requested: %d, allocated:%d",
port->p_power.requested, port->p_power.allocated);
}
consumption = port->p_power.allocated ? port->p_power.allocated :
CDP_SWTICH_DEFAULT_POE_PD;
if (consumption > 130) {
consumption += CDP_SWITCH_POE_CLASS_4_OFFSET;
} else {
consumption += CDP_SWITCH_POE_CLASS_3_OFFSET;
}
if (port->p_power.requested > 130) { /* Class 4 */
requested =
port->p_power.requested + CDP_SWITCH_POE_CLASS_4_OFFSET;
} else { /* Class 3 */
requested =
port->p_power.requested + CDP_SWITCH_POE_CLASS_3_OFFSET;
}
if (!(POKE_START_CDP_TLV(CDP_TLV_POWER_CONSUMPTION) &&
POKE_UINT16(consumption * 100) && POKE_END_CDP_TLV))
goto toobig;
/* Avoid request id 0 from overflow */
if (!port->p_cdp_power.request_id) {
port->p_cdp_power.request_id = 1;
}
if (!port->p_cdp_power.management_id) {
port->p_cdp_power.management_id = 1;
}
if (!(POKE_START_CDP_TLV(CDP_TLV_POWER_REQUESTED) &&
POKE_UINT16(port->p_cdp_power.request_id) &&
POKE_UINT16(port->p_cdp_power.management_id) &&
POKE_UINT32(requested * 100) && POKE_END_CDP_TLV))
goto toobig;
}
# elif defined ENABLE_LLDPMED
/* Power use */
if ((version >= 2) && port->p_med_cap_enabled &&
(port->p_med_power.source != LLDP_MED_POW_SOURCE_LOCAL) &&
(port->p_med_power.val > 0) && (port->p_med_power.val <= 655)) {
if (!(POKE_START_CDP_TLV(CDP_TLV_POWER_CONSUMPTION) &&
POKE_UINT16(port->p_med_power.val * 100) && POKE_END_CDP_TLV))
goto toobig;
}
# endif
(void)POKE_SAVE(end);
/* Compute len and checksum */
POKE_RESTORE(pos_len_eh);
if (!(POKE_UINT16(end - pos_llc))) goto toobig;
checksum = frame_checksum(pos_cdp, end - pos_cdp, (version != 0) ? 1 : 0);
POKE_RESTORE(pos_checksum);
if (!(POKE_UINT16(checksum))) goto toobig;
if (interfaces_send_helper(global, hardware, (char *)packet, end - packet) ==
-1) {
log_warn("cdp", "unable to send packet on real device for %s",
hardware->h_ifname);
free(packet);
return ENETDOWN;
}
hardware->h_tx_cnt++;
free(packet);
return 0;
toobig:
free(packet);
return -1;
}
# define CHECK_TLV_SIZE(x, name) \
do { \
if (tlv_len < (x)) { \
log_warnx("cdp", name " CDP/FDP TLV too short received on %s", \
hardware->h_ifname); \
goto malformed; \
} \
} while (0)
/* cdp_decode also decodes FDP */
int
cdp_decode(struct lldpd *cfg, char *frame, int s, struct lldpd_hardware *hardware,
struct lldpd_chassis **newchassis, struct lldpd_port **newport)
{
struct lldpd_chassis *chassis;
struct lldpd_port *port;
struct lldpd_mgmt *mgmt;
struct in_addr addr;
# if 0
u_int16_t cksum;
# endif
u_int8_t *software = NULL, *platform = NULL;
int software_len = 0, platform_len = 0, proto, version, nb, caps;
const unsigned char cdpaddr[] = CDP_MULTICAST_ADDR;
# ifdef ENABLE_FDP
const unsigned char fdpaddr[] = CDP_MULTICAST_ADDR;
int fdp = 0;
# endif
u_int8_t *pos, *tlv, *pos_address, *pos_next_address;
int length, len_eth, tlv_type, tlv_len, addresses_len, address_len;
# ifdef ENABLE_DOT1
struct lldpd_vlan *vlan;
# endif
log_debug("cdp", "decode CDP frame received on %s", hardware->h_ifname);
if ((chassis = calloc(1, sizeof(struct lldpd_chassis))) == NULL) {
log_warn("cdp", "failed to allocate remote chassis");
return -1;
}
TAILQ_INIT(&chassis->c_mgmt);
if ((port = calloc(1, sizeof(struct lldpd_port))) == NULL) {
log_warn("cdp", "failed to allocate remote port");
free(chassis);
return -1;
}
# ifdef ENABLE_DOT1
TAILQ_INIT(&port->p_vlans);
# endif
length = s;
pos = (u_int8_t *)frame;
if (length < 2 * ETHER_ADDR_LEN + sizeof(u_int16_t) /* Ethernet */ +
8 /* LLC */ + 4 /* CDP header */) {
log_warn("cdp", "too short CDP/FDP frame received on %s",
hardware->h_ifname);
goto malformed;
}
if (PEEK_CMP(cdpaddr, sizeof(cdpaddr)) != 0) {
# ifdef ENABLE_FDP
PEEK_RESTORE((u_int8_t *)frame);
if (PEEK_CMP(fdpaddr, sizeof(fdpaddr)) != 0)
fdp = 1;
else {
# endif
log_info("cdp",
"frame not targeted at CDP/FDP multicast address received on %s",
hardware->h_ifname);
goto malformed;
# ifdef ENABLE_FDP
}
# endif
}
PEEK_DISCARD(ETHER_ADDR_LEN); /* Don't care of source address */
len_eth = PEEK_UINT16;
if (len_eth > length) {
log_warnx("cdp", "incorrect 802.3 frame size reported on %s",
hardware->h_ifname);
goto malformed;
}
/* This is the correct length of the CDP + LLC packets */
length = len_eth;
PEEK_DISCARD(6); /* Skip beginning of LLC */
proto = PEEK_UINT16;
if (proto != LLC_PID_CDP) {
if ((proto != LLC_PID_DRIP) && (proto != LLC_PID_PAGP) &&
(proto != LLC_PID_PVSTP) && (proto != LLC_PID_UDLD) &&
(proto != LLC_PID_VTP) && (proto != LLC_PID_DTP) &&
(proto != LLC_PID_STP))
log_debug("cdp", "incorrect LLC protocol ID received on %s",
hardware->h_ifname);
goto malformed;
}
# if 0
/* Check checksum */
cksum = frame_checksum(pos, len_eth - 8,
# ifdef ENABLE_FDP
!fdp /* fdp = 0 -> cisco checksum */
# else
1 /* cisco checksum */
# endif
);
if (cksum != 0) {
log_info("cdp", "incorrect CDP/FDP checksum for frame received on %s (%d)",
hardware->h_ifname, cksum);
goto malformed;
}
# endif
/* Check version */
version = PEEK_UINT8;
if ((version != 1) && (version != 2)) {
log_warnx("cdp",
"incorrect CDP/FDP version (%d) for frame received on %s", version,
hardware->h_ifname);
goto malformed;
}
port->p_ttl = PEEK_UINT8; /* TTL */
PEEK_DISCARD_UINT16; /* Checksum, already checked */
while (length) {
if (length < 4) {
log_warnx("cdp",
"CDP/FDP TLV header is too large for "
"frame received on %s",
hardware->h_ifname);
goto malformed;
}
tlv_type = PEEK_UINT16;
tlv_len = PEEK_UINT16 - 4;
(void)PEEK_SAVE(tlv);
if ((tlv_len < 0) || (length < tlv_len)) {
log_warnx("cdp",
"incorrect size in CDP/FDP TLV header for frame "
"received on %s",
hardware->h_ifname);
goto malformed;
}
switch (tlv_type) {
case CDP_TLV_CHASSIS:
free(chassis->c_name);
if ((chassis->c_name = (char *)calloc(1, tlv_len + 1)) ==
NULL) {
log_warn("cdp",
"unable to allocate memory for chassis name");
goto malformed;
}
PEEK_BYTES(chassis->c_name, tlv_len);
chassis->c_id_subtype = LLDP_CHASSISID_SUBTYPE_LOCAL;
free(chassis->c_id);
if ((chassis->c_id = (char *)malloc(tlv_len)) == NULL) {
log_warn("cdp",
"unable to allocate memory for chassis ID");
goto malformed;
}
memcpy(chassis->c_id, chassis->c_name, tlv_len);
chassis->c_id_len = tlv_len;
break;
case CDP_TLV_ADDRESSES:
CHECK_TLV_SIZE(4, "Address");
addresses_len = tlv_len - 4;
for (nb = PEEK_UINT32; nb > 0; nb--) {
(void)PEEK_SAVE(pos_address);
/* We first try to get the real length of the packet */
if (addresses_len < 2) {
log_warn("cdp",
"too short address subframe "
"received on %s",
hardware->h_ifname);
goto malformed;
}
PEEK_DISCARD_UINT8;
addresses_len--;
address_len = PEEK_UINT8;
addresses_len--;
if (addresses_len < address_len + 2) {
log_warn("cdp",
"too short address subframe "
"received on %s",
hardware->h_ifname);
goto malformed;
}
PEEK_DISCARD(address_len);
addresses_len -= address_len;
address_len = PEEK_UINT16;
addresses_len -= 2;
if (addresses_len < address_len) {
log_warn("cdp",
"too short address subframe "
"received on %s",
hardware->h_ifname);
goto malformed;
}
PEEK_DISCARD(address_len);
addresses_len -= address_len;
(void)PEEK_SAVE(pos_next_address);
/* Next, we go back and try to extract
IPv4 address */
PEEK_RESTORE(pos_address);
if ((PEEK_UINT8 == 1) && (PEEK_UINT8 == 1) &&
(PEEK_UINT8 == CDP_ADDRESS_PROTO_IP) &&
(PEEK_UINT16 == sizeof(struct in_addr))) {
PEEK_BYTES(&addr, sizeof(struct in_addr));
mgmt = lldpd_alloc_mgmt(LLDPD_AF_IPV4, &addr,
sizeof(struct in_addr), 0);
if (mgmt == NULL) {
if (errno == ENOMEM)
log_warn("cdp",
"unable to allocate memory for management address");
else
log_warn("cdp",
"too large management address received on %s",
hardware->h_ifname);
goto malformed;
}
TAILQ_INSERT_TAIL(&chassis->c_mgmt, mgmt,
m_entries);
}
/* Go to the end of the address */
PEEK_RESTORE(pos_next_address);
}
break;
case CDP_TLV_PORT:
if (tlv_len == 0) {
log_warn("cdp", "too short port description received");
goto malformed;
}
free(port->p_descr);
if ((port->p_descr = (char *)calloc(1, tlv_len + 1)) == NULL) {
log_warn("cdp",
"unable to allocate memory for port description");
goto malformed;
}
PEEK_BYTES(port->p_descr, tlv_len);
port->p_id_subtype = LLDP_PORTID_SUBTYPE_IFNAME;
free(port->p_id);
if ((port->p_id = (char *)calloc(1, tlv_len)) == NULL) {
log_warn("cdp",
"unable to allocate memory for port ID");
goto malformed;
}
memcpy(port->p_id, port->p_descr, tlv_len);
port->p_id_len = tlv_len;
break;
case CDP_TLV_CAPABILITIES:
# ifdef ENABLE_FDP
if (fdp) {
/* Capabilities are string with FDP */
if (!strncmp("Router", (char *)pos, tlv_len))
chassis->c_cap_enabled = LLDP_CAP_ROUTER;
else if (!strncmp("Switch", (char *)pos, tlv_len))
chassis->c_cap_enabled = LLDP_CAP_BRIDGE;
else if (!strncmp("Bridge", (char *)pos, tlv_len))
chassis->c_cap_enabled = LLDP_CAP_REPEATER;
else
chassis->c_cap_enabled = LLDP_CAP_STATION;
chassis->c_cap_available = chassis->c_cap_enabled;
break;
}
# endif
CHECK_TLV_SIZE(4, "Capabilities");
caps = PEEK_UINT32;
if (caps & CDP_CAP_ROUTER)
chassis->c_cap_enabled |= LLDP_CAP_ROUTER;
if (caps & 0x0e) chassis->c_cap_enabled |= LLDP_CAP_BRIDGE;
if (chassis->c_cap_enabled == 0)
chassis->c_cap_enabled = LLDP_CAP_STATION;
chassis->c_cap_available = chassis->c_cap_enabled;
break;
case CDP_TLV_SOFTWARE:
software_len = tlv_len;
(void)PEEK_SAVE(software);
break;
case CDP_TLV_PLATFORM:
platform_len = tlv_len;
(void)PEEK_SAVE(platform);
break;
# ifdef ENABLE_DOT1
case CDP_TLV_NATIVEVLAN:
CHECK_TLV_SIZE(2, "Native VLAN");
if ((vlan = (struct lldpd_vlan *)calloc(1,
sizeof(struct lldpd_vlan))) == NULL) {
log_warn("cdp",
"unable to alloc vlan "
"structure for "
"tlv received on %s",
hardware->h_ifname);
goto malformed;
}
vlan->v_vid = port->p_pvid = PEEK_UINT16;
if (asprintf(&vlan->v_name, "VLAN #%d", vlan->v_vid) == -1) {
log_warn("cdp",
"unable to alloc VLAN name for "
"TLV received on %s",
hardware->h_ifname);
free(vlan);
goto malformed;
}
TAILQ_INSERT_TAIL(&port->p_vlans, vlan, v_entries);
break;
# endif
# ifdef ENABLE_DOT3
case CDP_TLV_POWER_AVAILABLE:
CHECK_TLV_SIZE(12, "Power Available");
/* check if it is a respone to a request id */
if (PEEK_UINT16 > 0) {
port->p_cdp_power.management_id = PEEK_UINT16;
port->p_power.allocated = PEEK_UINT32;
port->p_power.allocated /= 100;
port->p_power.supported = 1;
port->p_power.enabled = 1;
port->p_power.devicetype = LLDP_DOT3_POWER_PSE;
port->p_power.powertype = LLDP_DOT3_POWER_8023AT_TYPE2;
log_debug("cdp", "Allocated power %d00",
port->p_power.allocated);
if (port->p_power.allocated > CDP_CLASS_3_MAX_PSE_POE) {
port->p_power.allocated -=
CDP_SWITCH_POE_CLASS_4_OFFSET;
} else if (port->p_power.allocated >
CDP_SWITCH_POE_CLASS_3_OFFSET) {
port->p_power.allocated -=
CDP_SWITCH_POE_CLASS_3_OFFSET;
} else {
port->p_power.allocated = 0;
}
port->p_power.requested =
hardware->h_lport.p_power.requested;
}
break;
# endif
default:
log_debug("cdp", "unknown CDP/FDP TLV type (%d) received on %s",
ntohs(tlv_type), hardware->h_ifname);
hardware->h_rx_unrecognized_cnt++;
}
PEEK_DISCARD(tlv + tlv_len - pos);
}
if (!software && platform) {
if ((chassis->c_descr = (char *)calloc(1, platform_len + 1)) == NULL) {
log_warn("cdp",
"unable to allocate memory for chassis description");
goto malformed;
}
memcpy(chassis->c_descr, platform, platform_len);
} else if (software && !platform) {
if ((chassis->c_descr = (char *)calloc(1, software_len + 1)) == NULL) {
log_warn("cdp",
"unable to allocate memory for chassis description");
goto malformed;
}
memcpy(chassis->c_descr, software, software_len);
} else if (software && platform) {
# define CONCAT_PLATFORM " running on\n"
if ((chassis->c_descr = (char *)calloc(1,
software_len + platform_len + strlen(CONCAT_PLATFORM) + 1)) ==
NULL) {
log_warn("cdp",
"unable to allocate memory for chassis description");
goto malformed;
}
memcpy(chassis->c_descr, platform, platform_len);
memcpy(chassis->c_descr + platform_len, CONCAT_PLATFORM,
strlen(CONCAT_PLATFORM));
memcpy(chassis->c_descr + platform_len + strlen(CONCAT_PLATFORM),
software, software_len);
}
if ((chassis->c_id == NULL) || (port->p_id == NULL) ||
(chassis->c_name == NULL) || (chassis->c_descr == NULL) ||
(port->p_descr == NULL) || (port->p_ttl == 0) ||
(chassis->c_cap_enabled == 0)) {
log_warnx("cdp",
"some mandatory CDP/FDP tlv are missing for frame received on %s",
hardware->h_ifname);
goto malformed;
}
*newchassis = chassis;
*newport = port;
return 1;
malformed:
lldpd_chassis_cleanup(chassis, 1);
lldpd_port_cleanup(port, 1);
free(port);
return -1;
}
# ifdef ENABLE_CDP
int
cdpv1_send(struct lldpd *global, struct lldpd_hardware *hardware)
{
return cdp_send(global, hardware, 1);
}
int
cdpv2_send(struct lldpd *global, struct lldpd_hardware *hardware)
{
return cdp_send(global, hardware, 2);
}
# endif
# ifdef ENABLE_FDP
int
fdp_send(struct lldpd *global, struct lldpd_hardware *hardware)
{
return cdp_send(global, hardware, 0);
}
# endif
# ifdef ENABLE_CDP
static int
cdp_guess(char *pos, int length, int version)
{
const u_int8_t mcastaddr[] = CDP_MULTICAST_ADDR;
if (length < 2 * ETHER_ADDR_LEN + sizeof(u_int16_t) /* Ethernet */ +
8 /* LLC */ + 4 /* CDP header */)
return 0;
if (PEEK_CMP(mcastaddr, ETHER_ADDR_LEN) != 0) return 0;
PEEK_DISCARD(ETHER_ADDR_LEN);
PEEK_DISCARD_UINT16; /* Ethernet */
PEEK_DISCARD(8); /* LLC */
return (PEEK_UINT8 == version);
}
int
cdpv1_guess(char *frame, int len)
{
return cdp_guess(frame, len, 1);
}
int
cdpv2_guess(char *frame, int len)
{
return cdp_guess(frame, len, 2);
}
# endif
#endif /* defined (ENABLE_CDP) || defined (ENABLE_FDP) */
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