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/*
* Ouroboros - Copyright (C) 2016 - 2018
*
* Data Transfer Component
*
* Dimitri Staessens <dimitri.staessens@ugent.be>
* Sander Vrijders <sander.vrijders@ugent.be>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* 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., http://www.fsf.org/about/contact/.
*/
#if defined(__linux__) || defined(__CYGWIN__)
#define _DEFAULT_SOURCE
#else
#define _POSIX_C_SOURCE 200112L
#endif
#include "config.h"
#define DT "dt"
#define OUROBOROS_PREFIX DT
#include <ouroboros/bitmap.h>
#include <ouroboros/errno.h>
#include <ouroboros/logs.h>
#include <ouroboros/dev.h>
#include <ouroboros/notifier.h>
#include <ouroboros/rib.h>
#ifdef IPCP_FLOW_STATS
#include <ouroboros/fccntl.h>
#endif
#include "connmgr.h"
#include "ipcp.h"
#include "dt.h"
#include "pff.h"
#include "routing.h"
#include "psched.h"
#include "comp.h"
#include "fa.h"
#include <stdlib.h>
#include <stdbool.h>
#include <pthread.h>
#include <string.h>
#include <inttypes.h>
#include <assert.h>
#define QOS_BLOCK_LEN 672
#define STAT_FILE_LEN (189 + QOS_BLOCK_LEN * QOS_CUBE_MAX)
#ifndef CLOCK_REALTIME_COARSE
#define CLOCK_REALTIME_COARSE CLOCK_REALTIME
#endif
struct comp_info {
void (* post_packet)(void * comp, struct shm_du_buff * sdb);
void * comp;
char * name;
};
/* Abstract syntax */
enum dtp_fields {
DTP_DST = 0, /* DST ADDRESS */
DTP_QOS, /* QOS ID */
DTP_DEID, /* DST Endpoint ID */
DTP_TTL, /* TTL FIELD */
DTP_NUM_FIELDS /* Number of fields */
};
/* Fixed field lengths */
#define TTL_LEN 1
#define QOS_LEN 1
struct dt_pci {
uint64_t dst_addr;
qoscube_t qc;
uint8_t ttl;
uint32_t eid;
};
struct {
uint8_t addr_size;
uint8_t eid_size;
size_t head_size;
/* Offsets */
size_t qc_o;
size_t ttl_o;
size_t eid_o;
/* Initial TTL value */
uint8_t max_ttl;
} dt_pci_info;
static int dt_pci_ser(struct shm_du_buff * sdb,
struct dt_pci * dt_pci)
{
uint8_t * head;
uint8_t ttl = dt_pci_info.max_ttl;
assert(sdb);
assert(dt_pci);
head = shm_du_buff_head_alloc(sdb, dt_pci_info.head_size);
if (head == NULL)
return -EPERM;
/* FIXME: Add check and operations for Big Endian machines. */
memcpy(head, &dt_pci->dst_addr, dt_pci_info.addr_size);
memcpy(head + dt_pci_info.qc_o, &dt_pci->qc, QOS_LEN);
memcpy(head + dt_pci_info.ttl_o, &ttl, TTL_LEN);
memcpy(head + dt_pci_info.eid_o, &dt_pci->eid, dt_pci_info.eid_size);
return 0;
}
static void dt_pci_des(struct shm_du_buff * sdb,
struct dt_pci * dt_pci)
{
uint8_t * head;
assert(sdb);
assert(dt_pci);
head = shm_du_buff_head(sdb);
/* Decrease TTL */
--*(head + dt_pci_info.ttl_o);
/* FIXME: Add check and operations for Big Endian machines. */
memcpy(&dt_pci->dst_addr, head, dt_pci_info.addr_size);
memcpy(&dt_pci->qc, head + dt_pci_info.qc_o, QOS_LEN);
memcpy(&dt_pci->ttl, head + dt_pci_info.ttl_o, TTL_LEN);
memcpy(&dt_pci->eid, head + dt_pci_info.eid_o, dt_pci_info.eid_size);
}
static void dt_pci_shrink(struct shm_du_buff * sdb)
{
assert(sdb);
shm_du_buff_head_release(sdb, dt_pci_info.head_size);
}
struct {
struct psched * psched;
struct pff * pff[QOS_CUBE_MAX];
struct routing_i * routing[QOS_CUBE_MAX];
#ifdef IPCP_FLOW_STATS
struct {
time_t stamp;
uint64_t addr;
size_t snd_pkt[QOS_CUBE_MAX];
size_t rcv_pkt[QOS_CUBE_MAX];
size_t snd_bytes[QOS_CUBE_MAX];
size_t rcv_bytes[QOS_CUBE_MAX];
size_t lcl_r_pkt[QOS_CUBE_MAX];
size_t lcl_r_bytes[QOS_CUBE_MAX];
size_t lcl_w_pkt[QOS_CUBE_MAX];
size_t lcl_w_bytes[QOS_CUBE_MAX];
size_t r_drp_pkt[QOS_CUBE_MAX];
size_t r_drp_bytes[QOS_CUBE_MAX];
size_t w_drp_pkt[QOS_CUBE_MAX];
size_t w_drp_bytes[QOS_CUBE_MAX];
size_t f_nhp_pkt[QOS_CUBE_MAX];
size_t f_nhp_bytes[QOS_CUBE_MAX];
pthread_mutex_t lock;
} stat[PROG_MAX_FLOWS];
size_t n_flows;
#endif
struct bmp * res_fds;
struct comp_info comps[PROG_RES_FDS];
pthread_rwlock_t lock;
pthread_t listener;
} dt;
static int dt_stat_read(const char * path,
char * buf,
size_t len)
{
#ifdef IPCP_FLOW_STATS
int fd;
int i;
char str[QOS_BLOCK_LEN + 1];
char addrstr[20];
char tmstr[20];
size_t rxqlen = 0;
size_t txqlen = 0;
struct tm * tm;
/* NOTE: we may need stronger checks. */
fd = atoi(path);
if (len < STAT_FILE_LEN)
return 0;
buf[0] = '\0';
pthread_mutex_lock(&dt.stat[fd].lock);
if (dt.stat[fd].stamp == 0) {
pthread_mutex_unlock(&dt.stat[fd].lock);
return 0;
}
if (dt.stat[fd].addr == ipcpi.dt_addr)
sprintf(addrstr, "%s", dt.comps[fd].name);
else
sprintf(addrstr, "%" PRIu64, dt.stat[fd].addr);
tm = localtime(&dt.stat[fd].stamp);
strftime(tmstr, sizeof(tmstr), "%F %T", tm);
if (fd >= PROG_RES_FDS) {
fccntl(fd, FLOWGRXQLEN, &rxqlen);
fccntl(fd, FLOWGTXQLEN, &txqlen);
}
sprintf(buf,
"Flow established at: %20s\n"
"Endpoint address: %20s\n"
"Queued packets (rx): %20zu\n"
"Queued packets (tx): %20zu\n\n",
tmstr, addrstr, rxqlen, txqlen);
for (i = 0; i < QOS_CUBE_MAX; ++i) {
sprintf(str,
"Qos cube %3d:\n"
" sent (packets): %20zu\n"
" sent (bytes): %20zu\n"
" rcvd (packets): %20zu\n"
" rcvd (bytes): %20zu\n"
" local sent (packets): %20zu\n"
" local sent (bytes): %20zu\n"
" local rcvd (packets): %20zu\n"
" local rcvd (bytes): %20zu\n"
" dropped ttl (packets): %20zu\n"
" dropped ttl (bytes): %20zu\n"
" failed writes (packets): %20zu\n"
" failed writes (bytes): %20zu\n"
" failed nhop (packets): %20zu\n"
" failed nhop (bytes): %20zu\n",
i,
dt.stat[fd].snd_pkt[i],
dt.stat[fd].snd_bytes[i],
dt.stat[fd].rcv_pkt[i],
dt.stat[fd].rcv_bytes[i],
dt.stat[fd].lcl_w_pkt[i],
dt.stat[fd].lcl_w_bytes[i],
dt.stat[fd].lcl_r_pkt[i],
dt.stat[fd].lcl_r_bytes[i],
dt.stat[fd].r_drp_pkt[i],
dt.stat[fd].r_drp_bytes[i],
dt.stat[fd].w_drp_pkt[i],
dt.stat[fd].w_drp_bytes[i],
dt.stat[fd].f_nhp_pkt[i],
dt.stat[fd].f_nhp_bytes[i]
);
strcat(buf, str);
}
pthread_mutex_unlock(&dt.stat[fd].lock);
return STAT_FILE_LEN;
#else
(void) path;
(void) buf;
(void) len;
return 0;
#endif
}
static int dt_stat_readdir(char *** buf)
{
#ifdef IPCP_FLOW_STATS
char entry[RIB_PATH_LEN + 1];
size_t i;
int idx = 0;
pthread_rwlock_rdlock(&dt.lock);
if (dt.n_flows < 1) {
pthread_rwlock_unlock(&dt.lock);
return 0;
}
*buf = malloc(sizeof(**buf) * dt.n_flows);
if (*buf == NULL) {
pthread_rwlock_unlock(&dt.lock);
return -ENOMEM;
}
for (i = 0; i < PROG_MAX_FLOWS; ++i) {
pthread_mutex_lock(&dt.stat[i].lock);
if (dt.stat[i].stamp == 0) {
pthread_mutex_unlock(&dt.stat[i].lock);
/* Optimization: skip unused res_fds. */
if (i < PROG_RES_FDS)
i = PROG_RES_FDS;
continue;
}
sprintf(entry, "%zu", i);
(*buf)[idx] = malloc(strlen(entry) + 1);
if ((*buf)[idx] == NULL) {
while (idx-- > 0)
free((*buf)[idx]);
free(buf);
pthread_mutex_unlock(&dt.stat[i].lock);
pthread_rwlock_unlock(&dt.lock);
return -ENOMEM;
}
strcpy((*buf)[idx++], entry);
pthread_mutex_unlock(&dt.stat[i].lock);
}
pthread_rwlock_unlock(&dt.lock);
assert((size_t) idx == dt.n_flows);
return idx;
#else
(void) buf;
return 0;
#endif
}
static int dt_stat_getattr(const char * path,
struct stat * st)
{
#ifdef IPCP_FLOW_STATS
int fd;
fd = atoi(path);
st->st_mode = S_IFREG | 0755;
st->st_nlink = 1;
st->st_uid = getuid();
st->st_gid = getgid();
pthread_mutex_lock(&dt.stat[fd].lock);
if (dt.stat[fd].stamp != -1) {
st->st_size = STAT_FILE_LEN;
st->st_mtime = dt.stat[fd].stamp;
} else {
st->st_size = 0;
st->st_mtime = 0;
}
pthread_mutex_unlock(&dt.stat[fd].lock);
#else
(void) path;
(void) st;
#endif
return 0;
}
static struct rib_ops r_ops = {
.read = dt_stat_read,
.readdir = dt_stat_readdir,
.getattr = dt_stat_getattr
};
#ifdef IPCP_FLOW_STATS
static void stat_used(int fd,
uint64_t addr)
{
struct timespec now;
clock_gettime(CLOCK_REALTIME_COARSE, &now);
pthread_mutex_lock(&dt.stat[fd].lock);
memset(&dt.stat[fd], 0, sizeof(dt.stat[fd]));
dt.stat[fd].stamp = (addr != INVALID_ADDR) ? now.tv_sec : 0;
dt.stat[fd].addr = addr;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_rwlock_wrlock(&dt.lock);
(addr != INVALID_ADDR) ? ++dt.n_flows : --dt.n_flows;
pthread_rwlock_unlock(&dt.lock);
}
#endif
static void handle_event(void * self,
int event,
const void * o)
{
struct conn * c;
(void) self;
c = (struct conn *) o;
switch (event) {
case NOTIFY_DT_CONN_ADD:
#ifdef IPCP_FLOW_STATS
stat_used(c->flow_info.fd, c->conn_info.addr);
#endif
psched_add(dt.psched, c->flow_info.fd);
log_dbg("Added fd %d to packet scheduler.", c->flow_info.fd);
break;
case NOTIFY_DT_CONN_DEL:
#ifdef IPCP_FLOW_STATS
stat_used(c->flow_info.fd, INVALID_ADDR);
#endif
psched_del(dt.psched, c->flow_info.fd);
log_dbg("Removed fd %d from "
"packet scheduler.", c->flow_info.fd);
break;
default:
break;
}
}
static void packet_handler(int fd,
qoscube_t qc,
struct shm_du_buff * sdb)
{
struct dt_pci dt_pci;
int ret;
int ofd;
#ifdef IPCP_FLOW_STATS
size_t len;
#else
(void) fd;
#endif
#ifdef IPCP_FLOW_STATS
len = shm_du_buff_tail(sdb) - shm_du_buff_head(sdb);
#endif
memset(&dt_pci, 0, sizeof(dt_pci));
dt_pci_des(sdb, &dt_pci);
if (dt_pci.dst_addr != ipcpi.dt_addr) {
if (dt_pci.ttl == 0) {
log_dbg("TTL was zero.");
ipcp_sdb_release(sdb);
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
++dt.stat[fd].r_drp_pkt[qc];
dt.stat[fd].r_drp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
#endif
return;
}
/* FIXME: Use qoscube from PCI instead of incoming flow. */
ofd = pff_nhop(dt.pff[qc], dt_pci.dst_addr);
if (ofd < 0) {
log_dbg("No next hop for %" PRIu64, dt_pci.dst_addr);
ipcp_sdb_release(sdb);
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
++dt.stat[fd].f_nhp_pkt[qc];
dt.stat[fd].f_nhp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
#endif
return;
}
ret = ipcp_flow_write(ofd, sdb);
if (ret < 0) {
log_dbg("Failed to write packet to fd %d.", ofd);
if (ret == -EFLOWDOWN)
notifier_event(NOTIFY_DT_FLOW_DOWN, &ofd);
ipcp_sdb_release(sdb);
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_mutex_lock(&dt.stat[ofd].lock);
++dt.stat[ofd].w_drp_pkt[qc];
dt.stat[ofd].w_drp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[ofd].lock);
#endif
return;
}
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_mutex_lock(&dt.stat[ofd].lock);
++dt.stat[ofd].snd_pkt[qc];
dt.stat[ofd].snd_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[ofd].lock);
#endif
} else {
dt_pci_shrink(sdb);
if (dt_pci.eid >= PROG_RES_FDS) {
if (ipcp_flow_write(dt_pci.eid, sdb)) {
ipcp_sdb_release(sdb);
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[dt_pci.eid].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
++dt.stat[dt_pci.eid].w_drp_pkt[qc];
dt.stat[dt_pci.eid].w_drp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[dt_pci.eid].lock);
#endif
}
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_mutex_lock(&dt.stat[dt_pci.eid].lock);
++dt.stat[dt_pci.eid].rcv_pkt[qc];
dt.stat[dt_pci.eid].rcv_bytes[qc] += len;
++dt.stat[dt_pci.eid].lcl_r_pkt[qc];
dt.stat[dt_pci.eid].lcl_r_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[dt_pci.eid].lock);
#endif
return;
}
if (dt.comps[dt_pci.eid].post_packet == NULL) {
log_err("No registered component on eid %d.",
dt_pci.eid);
ipcp_sdb_release(sdb);
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_mutex_lock(&dt.stat[dt_pci.eid].lock);
++dt.stat[dt_pci.eid].w_drp_pkt[qc];
dt.stat[dt_pci.eid].w_drp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[dt_pci.eid].lock);
#endif
return;
}
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[fd].lock);
++dt.stat[fd].rcv_pkt[qc];
dt.stat[fd].rcv_bytes[qc] += len;
++dt.stat[fd].lcl_r_pkt[qc];
dt.stat[fd].lcl_r_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
pthread_mutex_lock(&dt.stat[dt_pci.eid].lock);
++dt.stat[dt_pci.eid].snd_pkt[qc];
dt.stat[dt_pci.eid].snd_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[dt_pci.eid].lock);
#endif
dt.comps[dt_pci.eid].post_packet(dt.comps[dt_pci.eid].comp,
sdb);
}
}
static void * dt_conn_handle(void * o)
{
struct conn conn;
(void) o;
while (true) {
if (connmgr_wait(COMPID_DT, &conn)) {
log_err("Failed to get next DT connection.");
continue;
}
/* NOTE: connection acceptance policy could be here. */
notifier_event(NOTIFY_DT_CONN_ADD, &conn);
}
return 0;
}
int dt_init(enum pol_routing pr,
enum pol_pff pp,
uint8_t addr_size,
uint8_t eid_size,
uint8_t max_ttl)
{
int i;
int j;
char dtstr[256];
struct conn_info info;
memset(&info, 0, sizeof(info));
strcpy(info.comp_name, DT_COMP);
strcpy(info.protocol, DT_PROTO);
info.pref_version = 1;
info.pref_syntax = PROTO_FIXED;
info.addr = ipcpi.dt_addr;
dt_pci_info.addr_size = addr_size;
dt_pci_info.eid_size = eid_size;
dt_pci_info.max_ttl = max_ttl;
dt_pci_info.qc_o = dt_pci_info.addr_size;
dt_pci_info.ttl_o = dt_pci_info.qc_o + QOS_LEN;
dt_pci_info.eid_o = dt_pci_info.ttl_o + TTL_LEN;
dt_pci_info.head_size = dt_pci_info.eid_o + dt_pci_info.eid_size;
if (notifier_reg(handle_event, NULL)) {
log_err("Failed to register with notifier.");
goto fail_notifier_reg;
}
if (connmgr_comp_init(COMPID_DT, &info)) {
log_err("Failed to register with connmgr.");
goto fail_connmgr_comp_init;
}
if (routing_init(pr)) {
log_err("Failed to init routing.");
goto fail_routing;
}
for (i = 0; i < QOS_CUBE_MAX; ++i) {
dt.pff[i] = pff_create(pp);
if (dt.pff[i] == NULL) {
log_err("Failed to create a PFF.");
for (j = 0; j < i; ++j)
pff_destroy(dt.pff[j]);
goto fail_pff;
}
}
for (i = 0; i < QOS_CUBE_MAX; ++i) {
dt.routing[i] = routing_i_create(dt.pff[i]);
if (dt.routing[i] == NULL) {
for (j = 0; j < i; ++j)
routing_i_destroy(dt.routing[j]);
goto fail_routing_i;
}
}
if (pthread_rwlock_init(&dt.lock, NULL)) {
log_err("Failed to init rwlock.");
goto fail_rwlock_init;
}
dt.res_fds = bmp_create(PROG_RES_FDS, 0);
if (dt.res_fds == NULL)
goto fail_res_fds;
#ifdef IPCP_FLOW_STATS
memset(dt.stat, 0, sizeof(dt.stat));
for (i = 0; i < PROG_MAX_FLOWS; ++i)
if (pthread_mutex_init(&dt.stat[i].lock, NULL)) {
for (j = 0; j < i; ++j)
pthread_mutex_destroy(&dt.stat[j].lock);
goto fail_stat_lock;
}
dt.n_flows = 0;
#endif
sprintf(dtstr, "%s.%" PRIu64, DT, ipcpi.dt_addr);
if (rib_reg(dtstr, &r_ops))
goto fail_rib_reg;
return 0;
fail_rib_reg:
#ifdef IPCP_FLOW_STATS
for (i = 0; i < PROG_MAX_FLOWS; ++i)
pthread_mutex_destroy(&dt.stat[i].lock);
fail_stat_lock:
#endif
bmp_destroy(dt.res_fds);
fail_res_fds:
pthread_rwlock_destroy(&dt.lock);
fail_rwlock_init:
for (j = 0; j < QOS_CUBE_MAX; ++j)
routing_i_destroy(dt.routing[j]);
fail_routing_i:
for (i = 0; i < QOS_CUBE_MAX; ++i)
pff_destroy(dt.pff[i]);
fail_pff:
routing_fini();
fail_routing:
connmgr_comp_fini(COMPID_DT);
fail_connmgr_comp_init:
notifier_unreg(&handle_event);
fail_notifier_reg:
return -1;
}
void dt_fini(void)
{
int i;
rib_unreg(DT);
#ifdef IPCP_FLOW_STATS
for (i = 0; i < PROG_MAX_FLOWS; ++i)
pthread_mutex_destroy(&dt.stat[i].lock);
#endif
bmp_destroy(dt.res_fds);
pthread_rwlock_destroy(&dt.lock);
for (i = 0; i < QOS_CUBE_MAX; ++i)
routing_i_destroy(dt.routing[i]);
for (i = 0; i < QOS_CUBE_MAX; ++i)
pff_destroy(dt.pff[i]);
routing_fini();
connmgr_comp_fini(COMPID_DT);
notifier_unreg(&handle_event);
}
int dt_start(void)
{
dt.psched = psched_create(packet_handler);
if (dt.psched == NULL) {
log_err("Failed to create N-1 packet scheduler.");
return -1;
}
if (pthread_create(&dt.listener, NULL, dt_conn_handle, NULL)) {
log_err("Failed to create listener thread.");
psched_destroy(dt.psched);
return -1;
}
return 0;
}
void dt_stop(void)
{
pthread_cancel(dt.listener);
pthread_join(dt.listener, NULL);
psched_destroy(dt.psched);
}
int dt_reg_comp(void * comp,
void (* func)(void * func, struct shm_du_buff *),
char * name)
{
int res_fd;
assert(func);
pthread_rwlock_wrlock(&dt.lock);
res_fd = bmp_allocate(dt.res_fds);
if (!bmp_is_id_valid(dt.res_fds, res_fd)) {
log_warn("Reserved fds depleted.");
pthread_rwlock_unlock(&dt.lock);
return -EBADF;
}
assert(dt.comps[res_fd].post_packet == NULL);
assert(dt.comps[res_fd].comp == NULL);
assert(dt.comps[res_fd].name == NULL);
dt.comps[res_fd].post_packet = func;
dt.comps[res_fd].comp = comp;
dt.comps[res_fd].name = name;
pthread_rwlock_unlock(&dt.lock);
#ifdef IPCP_FLOW_STATS
stat_used(res_fd, ipcpi.dt_addr);
#endif
return res_fd;
}
int dt_write_packet(uint64_t dst_addr,
qoscube_t qc,
int np1_fd,
struct shm_du_buff * sdb)
{
int fd;
struct dt_pci dt_pci;
int ret;
#ifdef IPCP_FLOW_STATS
size_t len;
#endif
assert(sdb);
assert(dst_addr != ipcpi.dt_addr);
fd = pff_nhop(dt.pff[qc], dst_addr);
if (fd < 0) {
log_dbg("Could not get nhop for addr %" PRIu64 ".", dst_addr);
#ifdef IPCP_FLOW_STATS
len = shm_du_buff_tail(sdb) - shm_du_buff_head(sdb);
pthread_mutex_lock(&dt.stat[np1_fd].lock);
++dt.stat[np1_fd].lcl_r_pkt[qc];
dt.stat[np1_fd].lcl_r_bytes[qc] += len;
++dt.stat[np1_fd].f_nhp_pkt[qc];
dt.stat[np1_fd].f_nhp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[np1_fd].lock);
#endif
return -1;
}
dt_pci.dst_addr = dst_addr;
dt_pci.qc = qc;
dt_pci.eid = np1_fd;
if (dt_pci_ser(sdb, &dt_pci)) {
log_dbg("Failed to serialize PDU.");
#ifdef IPCP_FLOW_STATS
len = shm_du_buff_tail(sdb) - shm_du_buff_head(sdb);
#endif
goto fail_write;
}
#ifdef IPCP_FLOW_STATS
len = shm_du_buff_tail(sdb) - shm_du_buff_head(sdb);
#endif
ret = ipcp_flow_write(fd, sdb);
if (ret < 0) {
log_dbg("Failed to write packet to fd %d.", fd);
if (ret == -EFLOWDOWN)
notifier_event(NOTIFY_DT_FLOW_DOWN, &fd);
goto fail_write;
}
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[np1_fd].lock);
++dt.stat[np1_fd].lcl_r_pkt[qc];
dt.stat[np1_fd].lcl_r_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[np1_fd].lock);
pthread_mutex_lock(&dt.stat[fd].lock);
if (dt_pci.eid < PROG_RES_FDS) {
++dt.stat[fd].lcl_w_pkt[qc];
dt.stat[fd].lcl_w_bytes[qc] += len;
}
++dt.stat[fd].snd_pkt[qc];
dt.stat[fd].snd_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
#endif
return 0;
fail_write:
#ifdef IPCP_FLOW_STATS
pthread_mutex_lock(&dt.stat[np1_fd].lock);
++dt.stat[np1_fd].lcl_w_pkt[qc];
dt.stat[np1_fd].lcl_w_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[np1_fd].lock);
pthread_mutex_lock(&dt.stat[fd].lock);
if (dt_pci.eid < PROG_RES_FDS) {
++dt.stat[fd].lcl_w_pkt[qc];
dt.stat[fd].lcl_w_bytes[qc] += len;
}
++dt.stat[fd].w_drp_pkt[qc];
dt.stat[fd].w_drp_bytes[qc] += len;
pthread_mutex_unlock(&dt.stat[fd].lock);
#endif
return -1;
}
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