/**
* Initialize interface
*
* Initialize ODP pktio and queues, query MAC address and update
* forwarding database.
*
* @param intf Interface name string
*/
static
void initialize_intf(char *intf)
{
odp_pktio_t pktio;
odp_pktout_queue_t pktout;
odp_queue_t inq;
int ret;
uint8_t src_mac[ODPH_ETHADDR_LEN];
char src_mac_str[MAX_STRING];
odp_pktio_param_t pktio_param;
odp_pktin_queue_param_t pktin_param;
odp_pktio_param_init(&pktio_param);
if (getenv("ODP_IPSEC_USE_POLL_QUEUES"))
pktio_param.in_mode = ODP_PKTIN_MODE_QUEUE;
else
pktio_param.in_mode = ODP_PKTIN_MODE_SCHED;
/*
* Open a packet IO instance for thread and get default output queue
*/
pktio = odp_pktio_open(intf, pkt_pool, &pktio_param);
if (ODP_PKTIO_INVALID == pktio) {
EXAMPLE_ERR("Error: pktio create failed for %s\n", intf);
exit(EXIT_FAILURE);
}
odp_pktin_queue_param_init(&pktin_param);
pktin_param.queue_param.sched.sync = ODP_SCHED_SYNC_ATOMIC;
if (odp_pktin_queue_config(pktio, &pktin_param)) {
EXAMPLE_ERR("Error: pktin config failed for %s\n", intf);
exit(EXIT_FAILURE);
}
if (odp_pktout_queue_config(pktio, NULL)) {
EXAMPLE_ERR("Error: pktout config failed for %s\n", intf);
exit(EXIT_FAILURE);
}
if (odp_pktin_event_queue(pktio, &inq, 1) != 1) {
EXAMPLE_ERR("Error: failed to get input queue for %s\n", intf);
exit(EXIT_FAILURE);
}
if (odp_pktout_queue(pktio, &pktout, 1) != 1) {
EXAMPLE_ERR("Error: failed to get pktout queue for %s\n", intf);
exit(EXIT_FAILURE);
}
ret = odp_pktio_start(pktio);
if (ret) {
EXAMPLE_ERR("Error: unable to start %s\n", intf);
exit(EXIT_FAILURE);
}
/* Read the source MAC address for this interface */
ret = odp_pktio_mac_addr(pktio, src_mac, sizeof(src_mac));
if (ret <= 0) {
EXAMPLE_ERR("Error: failed during MAC address get for %s\n",
intf);
exit(EXIT_FAILURE);
}
printf("Created pktio:%02" PRIu64 ", queue mode (ATOMIC queues)\n"
" default pktio%02" PRIu64 "-INPUT queue:%" PRIu64 "\n"
" source mac address %s\n",
odp_pktio_to_u64(pktio), odp_pktio_to_u64(pktio),
odp_queue_to_u64(inq),
mac_addr_str(src_mac_str, src_mac));
/* Resolve any routes using this interface for output */
resolve_fwd_db(intf, pktout, src_mac);
}
/**
* Create a pktio handle
*
* @param dev Name of device to open
* @param index Pktio index
* @param num_rx Number of RX queues
* @param num_tx Number of TX queues
* @param pool Pool to associate with device for packet RX/TX
*
* @retval 0 on success
* @retval -1 on failure
*/
static int create_pktio(const char *dev, int idx, int num_rx, int num_tx,
odp_pool_t pool)
{
odp_pktio_t pktio;
odp_pktio_param_t pktio_param;
odp_pktio_capability_t capa;
odp_pktin_queue_param_t pktin_param;
odp_pktout_queue_param_t pktout_param;
odp_pktio_op_mode_t mode_rx;
odp_pktio_op_mode_t mode_tx;
odp_pktio_param_init(&pktio_param);
pktio = odp_pktio_open(dev, pool, &pktio_param);
if (pktio == ODP_PKTIO_INVALID) {
printf("Error: failed to open %s\n", dev);
return -1;
}
printf("created pktio %" PRIu64 " (%s)\n", odp_pktio_to_u64(pktio),
dev);
if (odp_pktio_capability(pktio, &capa)) {
printf("Error: capability query failed %s\n", dev);
return -1;
}
odp_pktin_queue_param_init(&pktin_param);
odp_pktout_queue_param_init(&pktout_param);
mode_tx = ODP_PKTIO_OP_MT_UNSAFE;
mode_rx = ODP_PKTIO_OP_MT_UNSAFE;
if (num_rx > (int)capa.max_input_queues) {
printf("Sharing %i input queues between %i workers\n",
capa.max_input_queues, num_rx);
num_rx = capa.max_input_queues;
mode_rx = ODP_PKTIO_OP_MT;
}
if (num_tx > (int)capa.max_output_queues) {
printf("Sharing %i output queues between %i workers\n",
capa.max_output_queues, num_tx);
num_tx = capa.max_output_queues;
mode_tx = ODP_PKTIO_OP_MT;
}
pktin_param.hash_enable = 1;
pktin_param.hash_proto.proto.ipv4 = 1;
pktin_param.hash_proto.proto.ipv4_tcp = 1;
pktin_param.hash_proto.proto.ipv4_udp = 1;
pktin_param.num_queues = num_rx;
pktin_param.op_mode = mode_rx;
pktout_param.op_mode = mode_tx;
pktout_param.num_queues = num_tx;
if (odp_pktin_queue_config(pktio, &pktin_param)) {
printf("Error: input queue config failed %s\n", dev);
return -1;
}
if (odp_pktout_queue_config(pktio, &pktout_param)) {
printf("Error: output queue config failed %s\n", dev);
return -1;
}
if (odp_pktin_queue(pktio, gbl_args->pktios[idx].pktin,
num_rx) != num_rx) {
printf("Error: pktin queue query failed %s\n", dev);
return -1;
}
if (odp_pktout_queue(pktio, gbl_args->pktios[idx].pktout,
num_tx) != num_tx) {
printf("Error: pktout queue query failed %s\n", dev);
return -1;
}
printf("created %i input and %i output queues on (%s)\n", num_rx,
num_tx, dev);
gbl_args->pktios[idx].num_rx_queue = num_rx;
gbl_args->pktios[idx].num_tx_queue = num_tx;
gbl_args->pktios[idx].pktio = pktio;
return 0;
}
static int netmap_start(pktio_entry_t *pktio_entry)
{
pkt_netmap_t *pkt_nm = &pktio_entry->s.pkt_nm;
netmap_ring_t *desc_ring;
struct nm_desc base_desc;
unsigned i;
unsigned j;
unsigned num_rx_desc = 0;
uint64_t flags;
odp_pktin_mode_t in_mode = pktio_entry->s.param.in_mode;
odp_pktout_mode_t out_mode = pktio_entry->s.param.out_mode;
/* If no pktin/pktout queues have been configured. Configure one
* for each direction. */
if (!pktio_entry->s.num_in_queue &&
in_mode != ODP_PKTIN_MODE_DISABLED) {
odp_pktin_queue_param_t param;
odp_pktin_queue_param_init(¶m);
param.num_queues = 1;
if (odp_pktin_queue_config(pktio_entry->s.handle, ¶m))
return -1;
}
if (!pktio_entry->s.num_out_queue &&
out_mode == ODP_PKTOUT_MODE_DIRECT) {
odp_pktout_queue_param_t param;
odp_pktout_queue_param_init(¶m);
param.num_queues = 1;
if (odp_pktout_queue_config(pktio_entry->s.handle, ¶m))
return -1;
}
if (pkt_nm->num_rx_desc_rings == pktio_entry->s.num_in_queue &&
pkt_nm->num_tx_desc_rings == pktio_entry->s.num_out_queue)
return (netmap_wait_for_link(pktio_entry) == 1) ? 0 : -1;
netmap_close_descriptors(pktio_entry);
/* Map pktin/pktout queues to netmap rings */
if (pktio_entry->s.num_in_queue) {
/* In single queue case only one netmap descriptor is
* required. */
num_rx_desc = (pktio_entry->s.num_in_queue == 1) ? 1 :
pkt_nm->num_rx_rings;
map_netmap_rings(pkt_nm->rx_desc_ring,
pktio_entry->s.num_in_queue, num_rx_desc);
}
if (pktio_entry->s.num_out_queue)
/* Enough to map only one netmap tx ring per pktout queue */
map_netmap_rings(pkt_nm->tx_desc_ring,
pktio_entry->s.num_out_queue,
pktio_entry->s.num_out_queue);
base_desc.self = &base_desc;
base_desc.mem = NULL;
memcpy(base_desc.req.nr_name, pktio_entry->s.name,
sizeof(pktio_entry->s.name));
base_desc.req.nr_flags &= ~NR_REG_MASK;
if (num_rx_desc == 1)
base_desc.req.nr_flags |= NR_REG_ALL_NIC;
else
base_desc.req.nr_flags |= NR_REG_ONE_NIC;
base_desc.req.nr_ringid = 0;
/* Only the first rx descriptor does mmap */
desc_ring = pkt_nm->rx_desc_ring;
flags = NM_OPEN_IFNAME | NETMAP_NO_TX_POLL;
desc_ring[0].s.desc[0] = nm_open(pkt_nm->nm_name, NULL, flags,
&base_desc);
if (desc_ring[0].s.desc[0] == NULL) {
ODP_ERR("nm_start(%s) failed\n", pkt_nm->nm_name);
goto error;
}
/* Open rest of the rx descriptors (one per netmap ring) */
flags = NM_OPEN_IFNAME | NETMAP_NO_TX_POLL | NM_OPEN_NO_MMAP;
for (i = 0; i < pktio_entry->s.num_in_queue; i++)
for (j = desc_ring[i].s.first; j <= desc_ring[i].s.last; j++) {
if (i == 0 && j == 0) { /* First already opened */
if (num_rx_desc > 1)
continue;
else
break;
}
base_desc.req.nr_ringid = j;
desc_ring[i].s.desc[j] = nm_open(pkt_nm->nm_name, NULL,
flags, &base_desc);
if (desc_ring[i].s.desc[j] == NULL) {
ODP_ERR("nm_start(%s) failed\n",
pkt_nm->nm_name);
goto error;
}
}
/* Open tx descriptors */
desc_ring = pkt_nm->tx_desc_ring;
flags = NM_OPEN_IFNAME | NM_OPEN_NO_MMAP;
base_desc.req.nr_flags &= !NR_REG_ALL_NIC;
base_desc.req.nr_flags |= NR_REG_ONE_NIC;
for (i = 0; i < pktio_entry->s.num_out_queue; i++)
for (j = desc_ring[i].s.first; j <= desc_ring[i].s.last; j++) {
base_desc.req.nr_ringid = j;
desc_ring[i].s.desc[j] = nm_open(pkt_nm->nm_name, NULL,
flags, &base_desc);
if (desc_ring[i].s.desc[j] == NULL) {
ODP_ERR("nm_start(%s) failed\n",
pkt_nm->nm_name);
goto error;
}
}
pkt_nm->num_rx_desc_rings = pktio_entry->s.num_in_queue;
pkt_nm->num_tx_desc_rings = pktio_entry->s.num_out_queue;
/* Wait for the link to come up */
return (netmap_wait_for_link(pktio_entry) == 1) ? 0 : -1;
error:
netmap_close_descriptors(pktio_entry);
return -1;
}
/** main() Application entry point
*
* @param argc int
* @param argv[] char*
* @return int
*
*/
int main(int argc, char *argv[])
{
odph_linux_pthread_t thread_tbl[MAX_WORKERS], dispatcher_thread;
appl_args_t params;
int core_count, num_workers;
odp_cpumask_t cpu_mask;
int first_cpu, i;
struct pktio_thr_arg pktio_thr_args[MAX_WORKERS];
odp_pktio_param_t pktio_param;
odp_pktin_queue_param_t pktin_param;
odp_pktout_queue_param_t pktout_param;
odp_pktio_t pktio;
int port, queue_id;
odph_linux_thr_params_t thr_params;
odp_instance_t instance;
struct pktin_table_s {
int num_in_queue;
odp_pktin_queue_t in_queue[OFP_PKTIN_QUEUE_MAX];
} pktin_table[OFP_FP_INTERFACE_MAX];
/* Parse and store the application arguments */
parse_args(argc, argv, ¶ms);
if (params.if_count > OFP_FP_INTERFACE_MAX) {
printf("Error: Invalid number of interfaces: maximum %d\n",
OFP_FP_INTERFACE_MAX);
exit(EXIT_FAILURE);
}
if (odp_init_global(&instance, NULL, NULL)) {
OFP_ERR("Error: ODP global init failed.\n");
exit(EXIT_FAILURE);
}
if (odp_init_local(instance, ODP_THREAD_CONTROL)) {
OFP_ERR("Error: ODP local init failed.\n");
exit(EXIT_FAILURE);
}
/* Print both system and application information */
print_info(NO_PATH(argv[0]), ¶ms);
core_count = odp_cpu_count();
num_workers = core_count;
if (params.core_count && params.core_count < core_count)
num_workers = params.core_count;
if (num_workers > MAX_WORKERS)
num_workers = MAX_WORKERS;
/*
* By default core #0 runs Linux kernel background tasks.
* Start mapping thread from core #1
*/
if (num_workers > 1) {
num_workers--;
first_cpu = 1;
} else {
OFP_ERR("Burst mode requires multiple cores.\n");
exit(EXIT_FAILURE);
}
if (num_workers < params.if_count) {
OFP_ERR("At least %u fastpath cores required.\n",
params.if_count);
exit(EXIT_FAILURE);
}
printf("Num worker threads: %i\n", num_workers);
printf("first CPU: %i\n", first_cpu);
memset(&app_init_params, 0, sizeof(app_init_params));
app_init_params.linux_core_id = 0;
if (ofp_init_global(instance, &app_init_params)) {
OFP_ERR("Error: OFP global init failed.\n");
exit(EXIT_FAILURE);
}
if (ofp_init_local()) {
OFP_ERR("Error: OFP local init failed.\n");
exit(EXIT_FAILURE);
}
odp_pktio_param_init(&pktio_param);
pktio_param.in_mode = ODP_PKTIN_MODE_DIRECT;
pktio_param.out_mode = ODP_PKTOUT_MODE_DIRECT;
odp_pktin_queue_param_init(&pktin_param);
pktin_param.op_mode = ODP_PKTIO_OP_MT;
pktin_param.hash_enable = 0;
pktin_param.hash_proto.all_bits = 0;
pktin_param.num_queues = 1;
odp_pktout_queue_param_init(&pktout_param);
pktout_param.num_queues = 1;
pktout_param.op_mode = ODP_PKTIO_OP_MT;
for (i = 0; i < params.if_count; i++) {
if (ofp_ifnet_create(instance, params.if_names[i],
&pktio_param,
&pktin_param,
&pktout_param) < 0) {
OFP_ERR("Failed to init interface %s",
params.if_names[i]);
exit(EXIT_FAILURE);
}
pktio = odp_pktio_lookup(params.if_names[i]);
if (pktio == ODP_PKTIO_INVALID) {
OFP_ERR("Failed locate pktio %s",
params.if_names[i]);
exit(EXIT_FAILURE);
}
pktin_table[i].num_in_queue = odp_pktin_queue(pktio,
pktin_table[i].in_queue, OFP_PKTIN_QUEUE_MAX);
if (pktin_table[i].num_in_queue < 0) {
OFP_ERR("Failed get input queues for %s",
params.if_names[i]);
exit(EXIT_FAILURE);
}
}
memset(thread_tbl, 0, sizeof(thread_tbl));
memset(pktio_thr_args, 0, sizeof(pktio_thr_args));
for (i = 0; i < num_workers; ++i) {
pktio_thr_args[i].pkt_func = ofp_eth_vlan_processing;
port = i % params.if_count;
queue_id = (i / params.if_count) %
pktin_table[port].num_in_queue;
pktio_thr_args[i].pktin = pktin_table[port].in_queue[queue_id];
odp_cpumask_zero(&cpu_mask);
odp_cpumask_set(&cpu_mask, first_cpu + i);
thr_params.start = pkt_io_recv;
thr_params.arg = &pktio_thr_args[i];
thr_params.thr_type = ODP_THREAD_WORKER;
thr_params.instance = instance;
odph_linux_pthread_create(&thread_tbl[i],
&cpu_mask,
&thr_params);
}
odp_cpumask_zero(&cpu_mask);
odp_cpumask_set(&cpu_mask, app_init_params.linux_core_id);
thr_params.start = event_dispatcher;
thr_params.arg = NULL;
thr_params.thr_type = ODP_THREAD_WORKER;
thr_params.instance = instance;
odph_linux_pthread_create(&dispatcher_thread,
&cpu_mask,
&thr_params);
/* Start CLI */
ofp_start_cli_thread(instance, app_init_params.linux_core_id,
params.conf_file);
odph_linux_pthread_join(thread_tbl, num_workers);
printf("End Main()\n");
return 0;
}
