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port.c
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port.c
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/**
* @file port.c
* @note Copyright (C) 2011 Richard Cochran <[email protected]>
*
* 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.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <arpa/inet.h>
#include <errno.h>
#include <malloc.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/queue.h>
#include <net/if.h>
#include "bmc.h"
#include "clock.h"
#include "filter.h"
#include "missing.h"
#include "msg.h"
#include "phc.h"
#include "port.h"
#include "port_private.h"
#include "print.h"
#include "rtnl.h"
#include "sk.h"
#include "tc.h"
#include "tlv.h"
#include "tmv.h"
#include "tsproc.h"
#include "util.h"
#define ALLOWED_LOST_RESPONSES 3
#define ANNOUNCE_SPAN 1
enum syfu_event {
SYNC_MISMATCH,
SYNC_MATCH,
FUP_MISMATCH,
FUP_MATCH,
};
static int port_capable(struct port *p);
static int port_is_ieee8021as(struct port *p);
static void port_nrate_initialize(struct port *p);
static int announce_compare(struct ptp_message *m1, struct ptp_message *m2)
{
struct announce_msg *a = &m1->announce, *b = &m2->announce;
int len =
sizeof(a->grandmasterPriority1) +
sizeof(a->grandmasterClockQuality) +
sizeof(a->grandmasterPriority2) +
sizeof(a->grandmasterIdentity) +
sizeof(a->stepsRemoved);
return memcmp(&a->grandmasterPriority1, &b->grandmasterPriority1, len);
}
static void announce_to_dataset(struct ptp_message *m, struct port *p,
struct dataset *out)
{
struct announce_msg *a = &m->announce;
out->priority1 = a->grandmasterPriority1;
out->identity = a->grandmasterIdentity;
out->quality = a->grandmasterClockQuality;
out->priority2 = a->grandmasterPriority2;
out->localPriority = p->localPriority;
out->stepsRemoved = a->stepsRemoved;
out->sender = m->header.sourcePortIdentity;
out->receiver = p->portIdentity;
}
int clear_fault_asap(struct fault_interval *faint)
{
switch (faint->type) {
case FTMO_LINEAR_SECONDS:
return faint->val == 0 ? 1 : 0;
case FTMO_LOG2_SECONDS:
return faint->val == FRI_ASAP ? 1 : 0;
case FTMO_CNT:
return 0;
}
return 0;
}
static void extract_address(struct ptp_message *m, struct PortAddress *paddr)
{
int len = 0;
switch (paddr->networkProtocol) {
case TRANS_UDP_IPV4:
len = sizeof(m->address.sin.sin_addr.s_addr);
memcpy(paddr->address, &m->address.sin.sin_addr.s_addr, len);
break;
case TRANS_UDP_IPV6:
len = sizeof(m->address.sin6.sin6_addr.s6_addr);
memcpy(paddr->address, &m->address.sin6.sin6_addr.s6_addr, len);
break;
case TRANS_IEEE_802_3:
len = MAC_LEN;
memcpy(paddr->address, &m->address.sll.sll_addr, len);
break;
default:
return;
}
paddr->addressLength = len;
}
static int msg_current(struct ptp_message *m, struct timespec now)
{
int64_t t1, t2, tmo;
t1 = m->ts.host.tv_sec * NSEC2SEC + m->ts.host.tv_nsec;
t2 = now.tv_sec * NSEC2SEC + now.tv_nsec;
if (m->header.logMessageInterval < -63) {
tmo = 0;
} else if (m->header.logMessageInterval > 31) {
tmo = INT64_MAX;
} else if (m->header.logMessageInterval < 0) {
tmo = 4LL * NSEC2SEC / (1 << -m->header.logMessageInterval);
} else {
tmo = 4LL * (1 << m->header.logMessageInterval) * NSEC2SEC;
}
return t2 - t1 < tmo;
}
static int msg_source_equal(struct ptp_message *m1, struct foreign_clock *fc)
{
struct PortIdentity *id1, *id2;
id1 = &m1->header.sourcePortIdentity;
id2 = &fc->dataset.sender;
return 0 == memcmp(id1, id2, sizeof(*id1));
}
int source_pid_eq(struct ptp_message *m1, struct ptp_message *m2)
{
return pid_eq(&m1->header.sourcePortIdentity,
&m2->header.sourcePortIdentity);
}
enum fault_type last_fault_type(struct port *port)
{
return port->last_fault_type;
}
void fault_interval(struct port *port, enum fault_type ft,
struct fault_interval *i)
{
i->type = port->flt_interval_pertype[ft].type;
i->val = port->flt_interval_pertype[ft].val;
}
int port_fault_fd(struct port *port)
{
return port->fault_fd;
}
struct fdarray *port_fda(struct port *port)
{
return &port->fda;
}
int set_tmo_log(int fd, unsigned int scale, int log_seconds)
{
struct itimerspec tmo = {
{0, 0}, {0, 0}
};
uint64_t ns;
int i;
if (log_seconds < 0) {
log_seconds *= -1;
for (i = 1, ns = scale * 500000000ULL; i < log_seconds; i++) {
ns >>= 1;
}
tmo.it_value.tv_nsec = ns;
while (tmo.it_value.tv_nsec >= NS_PER_SEC) {
tmo.it_value.tv_nsec -= NS_PER_SEC;
tmo.it_value.tv_sec++;
}
} else
tmo.it_value.tv_sec = scale * (1 << log_seconds);
return timerfd_settime(fd, 0, &tmo, NULL);
}
int set_tmo_lin(int fd, int seconds)
{
struct itimerspec tmo = {
{0, 0}, {0, 0}
};
tmo.it_value.tv_sec = seconds;
return timerfd_settime(fd, 0, &tmo, NULL);
}
int set_tmo_random(int fd, int min, int span, int log_seconds)
{
uint64_t value_ns, min_ns, span_ns;
struct itimerspec tmo = {
{0, 0}, {0, 0}
};
if (log_seconds >= 0) {
min_ns = min * NS_PER_SEC << log_seconds;
span_ns = span * NS_PER_SEC << log_seconds;
} else {
min_ns = min * NS_PER_SEC >> -log_seconds;
span_ns = span * NS_PER_SEC >> -log_seconds;
}
value_ns = min_ns + (span_ns * (random() % (1 << 15) + 1) >> 15);
tmo.it_value.tv_sec = value_ns / NS_PER_SEC;
tmo.it_value.tv_nsec = value_ns % NS_PER_SEC;
return timerfd_settime(fd, 0, &tmo, NULL);
}
int port_set_fault_timer_log(struct port *port,
unsigned int scale, int log_seconds)
{
return set_tmo_log(port->fault_fd, scale, log_seconds);
}
int port_set_fault_timer_lin(struct port *port, int seconds)
{
return set_tmo_lin(port->fault_fd, seconds);
}
void fc_clear(struct foreign_clock *fc)
{
struct ptp_message *m;
while (fc->n_messages) {
m = TAILQ_LAST(&fc->messages, messages);
TAILQ_REMOVE(&fc->messages, m, list);
fc->n_messages--;
msg_put(m);
}
}
static void fc_prune(struct foreign_clock *fc)
{
struct timespec now;
struct ptp_message *m;
clock_gettime(CLOCK_MONOTONIC, &now);
while (fc->n_messages > FOREIGN_MASTER_THRESHOLD) {
m = TAILQ_LAST(&fc->messages, messages);
TAILQ_REMOVE(&fc->messages, m, list);
fc->n_messages--;
msg_put(m);
}
while (!TAILQ_EMPTY(&fc->messages)) {
m = TAILQ_LAST(&fc->messages, messages);
if (msg_current(m, now))
break;
TAILQ_REMOVE(&fc->messages, m, list);
fc->n_messages--;
msg_put(m);
}
}
static int delay_req_current(struct ptp_message *m, struct timespec now)
{
int64_t t1, t2, tmo = 5 * NSEC2SEC;
t1 = m->ts.host.tv_sec * NSEC2SEC + m->ts.host.tv_nsec;
t2 = now.tv_sec * NSEC2SEC + now.tv_nsec;
return t2 - t1 < tmo;
}
void delay_req_prune(struct port *p)
{
struct timespec now;
struct ptp_message *m;
clock_gettime(CLOCK_MONOTONIC, &now);
while (!TAILQ_EMPTY(&p->delay_req)) {
m = TAILQ_LAST(&p->delay_req, delay_req);
if (delay_req_current(m, now)) {
break;
}
TAILQ_REMOVE(&p->delay_req, m, list);
msg_put(m);
}
}
void ts_add(tmv_t *ts, Integer64 correction)
{
if (!correction) {
return;
}
*ts = tmv_add(*ts, correction_to_tmv(correction));
}
/*
* Returns non-zero if the announce message is different than last.
*/
static int add_foreign_master(struct port *p, struct ptp_message *m)
{
struct foreign_clock *fc;
struct ptp_message *tmp;
int broke_threshold = 0, diff = 0;
LIST_FOREACH(fc, &p->foreign_masters, list) {
if (msg_source_equal(m, fc)) {
break;
}
}
if (!fc) {
pr_notice("port %hu: new foreign master %s", portnum(p),
pid2str(&m->header.sourcePortIdentity));
fc = malloc(sizeof(*fc));
if (!fc) {
pr_err("low memory, failed to add foreign master");
return 0;
}
memset(fc, 0, sizeof(*fc));
TAILQ_INIT(&fc->messages);
LIST_INSERT_HEAD(&p->foreign_masters, fc, list);
fc->port = p;
fc->dataset.sender = m->header.sourcePortIdentity;
/* We do not count this first message, see 9.5.3(b) */
return 0;
}
/*
* If this message breaks the threshold, that is an important change.
*/
fc_prune(fc);
if (FOREIGN_MASTER_THRESHOLD - 1 == fc->n_messages) {
broke_threshold = 1;
}
/*
* Okay, go ahead and add this announcement.
*/
msg_get(m);
fc->n_messages++;
TAILQ_INSERT_HEAD(&fc->messages, m, list);
/*
* Test if this announcement contains changed information.
*/
if (fc->n_messages > 1) {
tmp = TAILQ_NEXT(m, list);
diff = announce_compare(m, tmp);
}
return broke_threshold || diff;
}
static int follow_up_info_append(struct ptp_message *m)
{
struct follow_up_info_tlv *fui;
struct tlv_extra *extra;
extra = msg_tlv_append(m, sizeof(*fui));
if (!extra) {
return -1;
}
fui = (struct follow_up_info_tlv *) extra->tlv;
fui->type = TLV_ORGANIZATION_EXTENSION;
fui->length = sizeof(*fui) - sizeof(fui->type) - sizeof(fui->length);
memcpy(fui->id, ieee8021_id, sizeof(ieee8021_id));
fui->subtype[2] = 1;
return 0;
}
static int net_sync_resp_append(struct port *p, struct ptp_message *m)
{
struct timePropertiesDS *tp = clock_time_properties(p->clock);
struct ClockIdentity cid = clock_identity(p->clock), pid;
struct currentDS *cds = clock_current_dataset(p->clock);
struct parent_ds *dad = clock_parent_ds(p->clock);
struct port *best = clock_best_port(p->clock);
struct nsm_resp_tlv_head *head;
struct Timestamp last_sync;
struct PortAddress *paddr;
struct ptp_message *tmp;
struct tlv_extra *extra;
unsigned char *ptr;
int tlv_len;
uint8_t buf[sizeof(*paddr) + sizeof(struct sockaddr_storage)];
last_sync = tmv_to_Timestamp(clock_ingress_time(p->clock));
pid = dad->pds.parentPortIdentity.clockIdentity;
paddr = (struct PortAddress *)buf;
if (best && !cid_eq(&cid, &pid)) {
/* Extract the parent's protocol address. */
paddr->networkProtocol = transport_type(best->trp);
paddr->addressLength =
transport_protocol_addr(best->trp, paddr->address);
if (best->best) {
tmp = TAILQ_FIRST(&best->best->messages);
extract_address(tmp, paddr);
}
} else {
/* We are our own parent. */
paddr->networkProtocol = transport_type(p->trp);
paddr->addressLength =
transport_protocol_addr(p->trp, paddr->address);
}
tlv_len = sizeof(*head) + sizeof(*extra->foot) + paddr->addressLength;
extra = msg_tlv_append(m, tlv_len);
if (!extra) {
return -1;
}
head = (struct nsm_resp_tlv_head *) extra->tlv;
head->type = TLV_PTPMON_RESP;
head->length = tlv_len - sizeof(head->type) - sizeof(head->length);
head->port_state = p->state == PS_GRAND_MASTER ? PS_MASTER : p->state;
head->parent_addr.networkProtocol = paddr->networkProtocol;
head->parent_addr.addressLength = paddr->addressLength;
memcpy(head->parent_addr.address, paddr->address, paddr->addressLength);
ptr = (unsigned char *) head;
ptr += sizeof(*head) + paddr->addressLength;
extra->foot = (struct nsm_resp_tlv_foot *) ptr;
memcpy(&extra->foot->parent, &dad->pds, sizeof(extra->foot->parent));
memcpy(&extra->foot->current, cds, sizeof(extra->foot->current));
memcpy(&extra->foot->timeprop, tp, sizeof(extra->foot->timeprop));
memcpy(&extra->foot->lastsync, &last_sync, sizeof(extra->foot->lastsync));
return 0;
}
static struct follow_up_info_tlv *follow_up_info_extract(struct ptp_message *m)
{
struct follow_up_info_tlv *f;
struct tlv_extra *extra;
TAILQ_FOREACH(extra, &m->tlv_list, list) {
f = (struct follow_up_info_tlv *) extra->tlv;
if (f->type == TLV_ORGANIZATION_EXTENSION &&
f->length == sizeof(*f) - sizeof(f->type) - sizeof(f->length) &&
// memcmp(f->id, ieee8021_id, sizeof(ieee8021_id)) &&
!f->subtype[0] && !f->subtype[1] && f->subtype[2] == 1) {
return f;
}
}
return NULL;
}
static void free_foreign_masters(struct port *p)
{
struct foreign_clock *fc;
while ((fc = LIST_FIRST(&p->foreign_masters)) != NULL) {
LIST_REMOVE(fc, list);
fc_clear(fc);
free(fc);
}
}
static int fup_sync_ok(struct ptp_message *fup, struct ptp_message *sync)
{
/*
* NB - If the sk_check_fupsync option is not enabled, then
* both of these time stamps will be zero.
*/
if (tmv_cmp(fup->hwts.sw, sync->hwts.sw) < 0) {
return 0;
}
return 1;
}
static int incapable_ignore(struct port *p, struct ptp_message *m)
{
if (port_capable(p)) {
return 0;
}
if (msg_type(m) == ANNOUNCE || msg_type(m) == SYNC) {
return 1;
}
return 0;
}
static int path_trace_append(struct port *p, struct ptp_message *m,
struct parent_ds *dad)
{
int length = 1 + dad->path_length, ptt_len, tlv_len;
struct path_trace_tlv *ptt;
struct tlv_extra *extra;
if (length > PATH_TRACE_MAX) {
return -1;
}
ptt_len = length * sizeof(struct ClockIdentity);
tlv_len = ptt_len + sizeof(ptt->type) + sizeof(ptt->length);
extra = msg_tlv_append(m, tlv_len);
if (!extra) {
return -1;
}
ptt = (struct path_trace_tlv *) extra->tlv;
ptt->type = TLV_PATH_TRACE;
ptt->length = ptt_len;
memcpy(ptt->cid, dad->ptl, ptt->length);
ptt->cid[length - 1] = clock_identity(p->clock);
return 0;
}
static int path_trace_ignore(struct port *p, struct ptp_message *m)
{
struct path_trace_tlv *ptt;
struct ClockIdentity cid;
struct tlv_extra *extra;
int i, cnt;
if (!p->path_trace_enabled) {
return 0;
}
if (msg_type(m) != ANNOUNCE) {
return 0;
}
TAILQ_FOREACH(extra, &m->tlv_list, list) {
ptt = (struct path_trace_tlv *) extra->tlv;
if (ptt->type != TLV_PATH_TRACE) {
continue;
}
cnt = path_length(ptt);
cid = clock_identity(p->clock);
for (i = 0; i < cnt; i++) {
if (cid_eq(&ptt->cid[i], &cid)) {
return 1;
}
}
}
return 0;
}
static int peer_prepare_and_send(struct port *p, struct ptp_message *msg,
enum transport_event event)
{
int cnt;
if (msg_pre_send(msg)) {
return -1;
}
cnt = transport_peer(p->trp, &p->fda, event, msg);
if (cnt <= 0) {
return -1;
}
if (msg_sots_valid(msg)) {
ts_add(&msg->hwts.ts, p->tx_timestamp_offset);
}
return 0;
}
static int port_capable(struct port *p)
{
if (!port_is_ieee8021as(p)) {
/* Normal 1588 ports are always capable. */
goto capable;
}
if (tmv_to_nanoseconds(p->peer_delay) > p->neighborPropDelayThresh) {
if (p->asCapable)
pr_debug("port %hu: peer_delay (%" PRId64 ") > neighborPropDelayThresh "
"(%" PRId32 "), resetting asCapable", portnum(p),
tmv_to_nanoseconds(p->peer_delay),
p->neighborPropDelayThresh);
goto not_capable;
}
if (tmv_to_nanoseconds(p->peer_delay) < p->min_neighbor_prop_delay) {
if (p->asCapable)
pr_debug("port %hu: peer_delay (%" PRId64 ") < min_neighbor_prop_delay "
"(%" PRId32 "), resetting asCapable", portnum(p),
tmv_to_nanoseconds(p->peer_delay),
p->min_neighbor_prop_delay);
goto not_capable;
}
if (p->pdr_missing > ALLOWED_LOST_RESPONSES) {
if (p->asCapable)
pr_debug("port %hu: missed %d peer delay resp, "
"resetting asCapable", portnum(p), p->pdr_missing);
goto not_capable;
}
if (p->multiple_seq_pdr_count) {
if (p->asCapable)
pr_debug("port %hu: multiple sequential peer delay resp, "
"resetting asCapable", portnum(p));
goto not_capable;
}
if (!p->peer_portid_valid) {
if (p->asCapable)
pr_debug("port %hu: invalid peer port id, "
"resetting asCapable", portnum(p));
goto not_capable;
}
if (!p->nrate.ratio_valid) {
if (p->asCapable)
pr_debug("port %hu: invalid nrate, "
"resetting asCapable", portnum(p));
goto not_capable;
}
capable:
if (!p->asCapable)
pr_debug("port %hu: setting asCapable", portnum(p));
p->asCapable = 1;
return 1;
not_capable:
if (p->asCapable)
port_nrate_initialize(p);
p->asCapable = 0;
return 0;
}
int port_clr_tmo(int fd)
{
struct itimerspec tmo = {
{0, 0}, {0, 0}
};
return timerfd_settime(fd, 0, &tmo, NULL);
}
static int port_ignore(struct port *p, struct ptp_message *m)
{
struct ClockIdentity c1, c2;
if (incapable_ignore(p, m)) {
return 1;
}
if (path_trace_ignore(p, m)) {
return 1;
}
if (p->match_transport_specific &&
msg_transport_specific(m) != p->transportSpecific) {
return 1;
}
if (pid_eq(&m->header.sourcePortIdentity, &p->portIdentity)) {
return 1;
}
if (m->header.domainNumber != clock_domain_number(p->clock)) {
return 1;
}
c1 = clock_identity(p->clock);
c2 = m->header.sourcePortIdentity.clockIdentity;
if (cid_eq(&c1, &c2)) {
return 1;
}
return 0;
}
static int port_nsm_reply(struct port *p, struct ptp_message *m)
{
struct tlv_extra *extra;
if (!p->net_sync_monitor) {
return 0;
}
if (!p->hybrid_e2e) {
return 0;
}
if (!msg_unicast(m)) {
return 0;
}
TAILQ_FOREACH(extra, &m->tlv_list, list) {
if (extra->tlv->type == TLV_PTPMON_REQ) {
return 1;
}
}
return 0;
}
/*
* Test whether a 802.1AS port may transmit a sync message.
*/
static int port_sync_incapable(struct port *p)
{
struct ClockIdentity cid;
struct PortIdentity pid;
if (!port_is_ieee8021as(p)) {
return 0;
}
if (clock_gm_capable(p->clock)) {
return 0;
}
cid = clock_identity(p->clock);
pid = clock_parent_identity(p->clock);
if (cid_eq(&cid, &pid.clockIdentity)) {
/*
* We are the GM, but without gmCapable set.
*/
return 1;
}
return 0;
}
static int port_is_ieee8021as(struct port *p)
{
return p->follow_up_info ? 1 : 0;
}
static void port_management_send_error(struct port *p, struct port *ingress,
struct ptp_message *msg, int error_id)
{
if (port_management_error(p->portIdentity, ingress, msg, error_id))
pr_err("port %hu: management error failed", portnum(p));
}
static const Octet profile_id_drr[] = {0x00, 0x1B, 0x19, 0x00, 0x01, 0x00};
static const Octet profile_id_p2p[] = {0x00, 0x1B, 0x19, 0x00, 0x02, 0x00};
static int port_management_fill_response(struct port *target,
struct ptp_message *rsp, int id)
{
struct mgmt_clock_description *cd;
struct management_tlv_datum *mtd;
struct clock_description *desc;
struct port_properties_np *ppn;
struct management_tlv *tlv;
struct port_ds_np *pdsnp;
struct tlv_extra *extra;
struct portDS *pds;
uint16_t u16;
uint8_t *buf;
int datalen;
extra = tlv_extra_alloc();
if (!extra) {
pr_err("failed to allocate TLV descriptor");
return 0;
}
extra->tlv = (struct TLV *) rsp->management.suffix;
tlv = (struct management_tlv *) rsp->management.suffix;
tlv->type = TLV_MANAGEMENT;
tlv->id = id;
switch (id) {
case TLV_NULL_MANAGEMENT:
datalen = 0;
break;
case TLV_CLOCK_DESCRIPTION:
cd = &extra->cd;
buf = tlv->data;
cd->clockType = (UInteger16 *) buf;
buf += sizeof(*cd->clockType);
*cd->clockType = clock_type(target->clock);
cd->physicalLayerProtocol = (struct PTPText *) buf;
switch(transport_type(target->trp)) {
case TRANS_UDP_IPV4:
case TRANS_UDP_IPV6:
case TRANS_IEEE_802_3:
ptp_text_set(cd->physicalLayerProtocol, "IEEE 802.3");
break;
default:
ptp_text_set(cd->physicalLayerProtocol, NULL);
break;
}
buf += sizeof(struct PTPText) + cd->physicalLayerProtocol->length;
cd->physicalAddress = (struct PhysicalAddress *) buf;
u16 = transport_physical_addr(target->trp,
cd->physicalAddress->address);
memcpy(&cd->physicalAddress->length, &u16, 2);
buf += sizeof(struct PhysicalAddress) + u16;
cd->protocolAddress = (struct PortAddress *) buf;
u16 = transport_type(target->trp);
memcpy(&cd->protocolAddress->networkProtocol, &u16, 2);
u16 = transport_protocol_addr(target->trp,
cd->protocolAddress->address);
memcpy(&cd->protocolAddress->addressLength, &u16, 2);
buf += sizeof(struct PortAddress) + u16;
desc = clock_description(target->clock);
cd->manufacturerIdentity = buf;
memcpy(cd->manufacturerIdentity,
desc->manufacturerIdentity, OUI_LEN);
buf += OUI_LEN;
*(buf++) = 0; /* reserved */
cd->productDescription = (struct PTPText *) buf;
ptp_text_copy(cd->productDescription, &desc->productDescription);
buf += sizeof(struct PTPText) + cd->productDescription->length;
cd->revisionData = (struct PTPText *) buf;
ptp_text_copy(cd->revisionData, &desc->revisionData);
buf += sizeof(struct PTPText) + cd->revisionData->length;
cd->userDescription = (struct PTPText *) buf;
ptp_text_copy(cd->userDescription, &desc->userDescription);
buf += sizeof(struct PTPText) + cd->userDescription->length;
if (target->delayMechanism == DM_P2P) {
memcpy(buf, profile_id_p2p, PROFILE_ID_LEN);
} else {
memcpy(buf, profile_id_drr, PROFILE_ID_LEN);
}
buf += PROFILE_ID_LEN;
datalen = buf - tlv->data;
break;
case TLV_PORT_DATA_SET:
pds = (struct portDS *) tlv->data;
pds->portIdentity = target->portIdentity;
if (target->state == PS_GRAND_MASTER) {
pds->portState = PS_MASTER;
} else {
pds->portState = target->state;
}
pds->logMinDelayReqInterval = target->logMinDelayReqInterval;
pds->peerMeanPathDelay = target->peerMeanPathDelay;
pds->logAnnounceInterval = target->logAnnounceInterval;
pds->announceReceiptTimeout = target->announceReceiptTimeout;
pds->logSyncInterval = target->logSyncInterval;
if (target->delayMechanism) {
pds->delayMechanism = target->delayMechanism;
} else {
pds->delayMechanism = DM_E2E;
}
pds->logMinPdelayReqInterval = target->logMinPdelayReqInterval;
pds->versionNumber = target->versionNumber;
datalen = sizeof(*pds);
break;
case TLV_LOG_ANNOUNCE_INTERVAL:
mtd = (struct management_tlv_datum *) tlv->data;
mtd->val = target->logAnnounceInterval;
datalen = sizeof(*mtd);
break;
case TLV_ANNOUNCE_RECEIPT_TIMEOUT:
mtd = (struct management_tlv_datum *) tlv->data;
mtd->val = target->announceReceiptTimeout;
datalen = sizeof(*mtd);
break;
case TLV_LOG_SYNC_INTERVAL:
mtd = (struct management_tlv_datum *) tlv->data;
mtd->val = target->logSyncInterval;
datalen = sizeof(*mtd);
break;
case TLV_VERSION_NUMBER:
mtd = (struct management_tlv_datum *) tlv->data;
mtd->val = target->versionNumber;
datalen = sizeof(*mtd);
break;
case TLV_DELAY_MECHANISM:
mtd = (struct management_tlv_datum *) tlv->data;
if (target->delayMechanism)
mtd->val = target->delayMechanism;
else
mtd->val = DM_E2E;
datalen = sizeof(*mtd);
break;
case TLV_LOG_MIN_PDELAY_REQ_INTERVAL:
mtd = (struct management_tlv_datum *) tlv->data;
mtd->val = target->logMinPdelayReqInterval;
datalen = sizeof(*mtd);
break;
case TLV_PORT_DATA_SET_NP:
pdsnp = (struct port_ds_np *) tlv->data;
pdsnp->neighborPropDelayThresh = target->neighborPropDelayThresh;
pdsnp->asCapable = target->asCapable;
datalen = sizeof(*pdsnp);
break;
case TLV_PORT_PROPERTIES_NP:
ppn = (struct port_properties_np *)tlv->data;
ppn->portIdentity = target->portIdentity;
if (target->state == PS_GRAND_MASTER)
ppn->port_state = PS_MASTER;
else
ppn->port_state = target->state;
ppn->timestamping = target->timestamping;
ptp_text_set(&ppn->interface, target->iface->ts_label);
datalen = sizeof(*ppn) + ppn->interface.length;
break;
default:
/* The caller should *not* respond to this message. */
return 0;
}
if (datalen % 2) {
tlv->data[datalen] = 0;
datalen++;
}
tlv->length = sizeof(tlv->id) + datalen;
rsp->header.messageLength += sizeof(*tlv) + datalen;
msg_tlv_attach(rsp, extra);
/* The caller can respond to this message. */
return 1;
}
static int port_management_get_response(struct port *target,
struct port *ingress, int id,
struct ptp_message *req)
{
struct PortIdentity pid = port_identity(target);
struct ptp_message *rsp;
int respond;
rsp = port_management_reply(pid, ingress, req);
if (!rsp) {
return 0;
}
respond = port_management_fill_response(target, rsp, id);
if (respond)
port_prepare_and_send(ingress, rsp, TRANS_GENERAL);
msg_put(rsp);
return respond;
}
static int port_management_set(struct port *target,
struct port *ingress, int id,
struct ptp_message *req)
{
int respond = 0;
struct management_tlv *tlv;
struct port_ds_np *pdsnp;
tlv = (struct management_tlv *) req->management.suffix;
switch (id) {
case TLV_PORT_DATA_SET_NP:
pdsnp = (struct port_ds_np *) tlv->data;
target->neighborPropDelayThresh = pdsnp->neighborPropDelayThresh;
respond = 1;
break;
}
if (respond && !port_management_get_response(target, ingress, id, req))
pr_err("port %hu: failed to send management set response", portnum(target));
return respond ? 1 : 0;
}
static void port_nrate_calculate(struct port *p, tmv_t origin, tmv_t ingress)
{
struct nrate_estimator *n = &p->nrate;
/*
* We experienced a successful exchanges of peer delay request
* and response, reset pdr_missing for this port.
*/
p->pdr_missing = 0;
if (tmv_is_zero(n->ingress1)) {
n->ingress1 = ingress;
n->origin1 = origin;
return;
}
n->count++;
if (n->count < n->max_count) {
return;
}
if (tmv_cmp(ingress, n->ingress1) == 0) {
pr_warning("bad timestamps in nrate calculation");
return;
}
n->ratio =
tmv_dbl(tmv_sub(origin, n->origin1)) /
tmv_dbl(tmv_sub(ingress, n->ingress1));
n->ingress1 = ingress;
n->origin1 = origin;
n->count = 0;
n->ratio_valid = 1;
}
static void port_nrate_initialize(struct port *p)
{