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testpmd.c
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testpmd.c
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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2017 Intel Corporation
*/
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <signal.h>
#include <string.h>
#include <time.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <errno.h>
#include <stdbool.h>
#include <sys/queue.h>
#include <sys/stat.h>
#include <stdint.h>
#include <unistd.h>
#include <inttypes.h>
#include <rte_common.h>
#include <rte_errno.h>
#include <rte_byteorder.h>
#include <rte_log.h>
#include <rte_debug.h>
#include <rte_cycles.h>
#include <rte_malloc_heap.h>
#include <rte_memory.h>
#include <rte_memcpy.h>
#include <rte_launch.h>
#include <rte_eal.h>
#include <rte_alarm.h>
#include <rte_per_lcore.h>
#include <rte_lcore.h>
#include <rte_atomic.h>
#include <rte_branch_prediction.h>
#include <rte_mempool.h>
#include <rte_malloc.h>
#include <rte_mbuf.h>
#include <rte_mbuf_pool_ops.h>
#include <rte_interrupts.h>
#include <rte_pci.h>
#include <rte_ether.h>
#include <rte_ethdev.h>
#include <rte_dev.h>
#include <rte_string_fns.h>
#ifdef RTE_LIBRTE_IXGBE_PMD
#include <rte_pmd_ixgbe.h>
#endif
#ifdef RTE_LIBRTE_PDUMP
#include <rte_pdump.h>
#endif
#include <rte_flow.h>
#include <rte_metrics.h>
#ifdef RTE_LIBRTE_BITRATE
#include <rte_bitrate.h>
#endif
#ifdef RTE_LIBRTE_LATENCY_STATS
#include <rte_latencystats.h>
#endif
#include "testpmd.h"
#ifndef MAP_HUGETLB
/* FreeBSD may not have MAP_HUGETLB (in fact, it probably doesn't) */
#define HUGE_FLAG (0x40000)
#else
#define HUGE_FLAG MAP_HUGETLB
#endif
#ifndef MAP_HUGE_SHIFT
/* older kernels (or FreeBSD) will not have this define */
#define HUGE_SHIFT (26)
#else
#define HUGE_SHIFT MAP_HUGE_SHIFT
#endif
#define EXTMEM_HEAP_NAME "extmem"
uint16_t verbose_level = 0; /**< Silent by default. */
int testpmd_logtype; /**< Log type for testpmd logs */
/* use master core for command line ? */
uint8_t interactive = 0;
uint8_t auto_start = 0;
uint8_t tx_first;
char cmdline_filename[PATH_MAX] = {0};
/*
* NUMA support configuration.
* When set, the NUMA support attempts to dispatch the allocation of the
* RX and TX memory rings, and of the DMA memory buffers (mbufs) for the
* probed ports among the CPU sockets 0 and 1.
* Otherwise, all memory is allocated from CPU socket 0.
*/
uint8_t numa_support = 1; /**< numa enabled by default */
/*
* In UMA mode,all memory is allocated from socket 0 if --socket-num is
* not configured.
*/
uint8_t socket_num = UMA_NO_CONFIG;
/*
* Select mempool allocation type:
* - native: use regular DPDK memory
* - anon: use regular DPDK memory to create mempool, but populate using
* anonymous memory (may not be IOVA-contiguous)
* - xmem: use externally allocated hugepage memory
*/
uint8_t mp_alloc_type = MP_ALLOC_NATIVE;
/*
* Store specified sockets on which memory pool to be used by ports
* is allocated.
*/
uint8_t port_numa[RTE_MAX_ETHPORTS];
/*
* Store specified sockets on which RX ring to be used by ports
* is allocated.
*/
uint8_t rxring_numa[RTE_MAX_ETHPORTS];
/*
* Store specified sockets on which TX ring to be used by ports
* is allocated.
*/
uint8_t txring_numa[RTE_MAX_ETHPORTS];
/*
* Record the Ethernet address of peer target ports to which packets are
* forwarded.
* Must be instantiated with the ethernet addresses of peer traffic generator
* ports.
*/
struct ether_addr peer_eth_addrs[RTE_MAX_ETHPORTS];
portid_t nb_peer_eth_addrs = 0;
/*
* Probed Target Environment.
*/
struct rte_port *ports; /**< For all probed ethernet ports. */
portid_t nb_ports; /**< Number of probed ethernet ports. */
struct fwd_lcore **fwd_lcores; /**< For all probed logical cores. */
lcoreid_t nb_lcores; /**< Number of probed logical cores. */
portid_t ports_ids[RTE_MAX_ETHPORTS]; /**< Store all port ids. */
/*
* Test Forwarding Configuration.
* nb_fwd_lcores <= nb_cfg_lcores <= nb_lcores
* nb_fwd_ports <= nb_cfg_ports <= nb_ports
*/
lcoreid_t nb_cfg_lcores; /**< Number of configured logical cores. */
lcoreid_t nb_fwd_lcores; /**< Number of forwarding logical cores. */
portid_t nb_cfg_ports; /**< Number of configured ports. */
portid_t nb_fwd_ports; /**< Number of forwarding ports. */
unsigned int fwd_lcores_cpuids[RTE_MAX_LCORE]; /**< CPU ids configuration. */
portid_t fwd_ports_ids[RTE_MAX_ETHPORTS]; /**< Port ids configuration. */
struct fwd_stream **fwd_streams; /**< For each RX queue of each port. */
streamid_t nb_fwd_streams; /**< Is equal to (nb_ports * nb_rxq). */
/*
* Forwarding engines.
*/
struct fwd_engine * fwd_engines[] = {
&io_fwd_engine,
&mac_fwd_engine,
&mac_swap_engine,
&flow_gen_engine,
&rx_only_engine,
&tx_only_engine,
&csum_fwd_engine,
&icmp_echo_engine,
&noisy_vnf_engine,
#if defined RTE_LIBRTE_PMD_SOFTNIC
&softnic_fwd_engine,
#endif
#ifdef RTE_LIBRTE_IEEE1588
&ieee1588_fwd_engine,
#endif
NULL,
};
struct rte_mempool *mempools[RTE_MAX_NUMA_NODES];
struct fwd_config cur_fwd_config;
struct fwd_engine *cur_fwd_eng = &io_fwd_engine; /**< IO mode by default. */
uint32_t retry_enabled;
uint32_t burst_tx_delay_time = BURST_TX_WAIT_US;
uint32_t burst_tx_retry_num = BURST_TX_RETRIES;
uint16_t mbuf_data_size = DEFAULT_MBUF_DATA_SIZE; /**< Mbuf data space size. */
uint32_t param_total_num_mbufs = 0; /**< number of mbufs in all pools - if
* specified on command-line. */
uint16_t stats_period; /**< Period to show statistics (disabled by default) */
/*
* In container, it cannot terminate the process which running with 'stats-period'
* option. Set flag to exit stats period loop after received SIGINT/SIGTERM.
*/
uint8_t f_quit;
/*
* Configuration of packet segments used by the "txonly" processing engine.
*/
uint16_t tx_pkt_length = TXONLY_DEF_PACKET_LEN; /**< TXONLY packet length. */
uint16_t tx_pkt_seg_lengths[RTE_MAX_SEGS_PER_PKT] = {
TXONLY_DEF_PACKET_LEN,
};
uint8_t tx_pkt_nb_segs = 1; /**< Number of segments in TXONLY packets */
enum tx_pkt_split tx_pkt_split = TX_PKT_SPLIT_OFF;
/**< Split policy for packets to TX. */
uint16_t nb_pkt_per_burst = DEF_PKT_BURST; /**< Number of packets per burst. */
uint16_t mb_mempool_cache = DEF_MBUF_CACHE; /**< Size of mbuf mempool cache. */
/* current configuration is in DCB or not,0 means it is not in DCB mode */
uint8_t dcb_config = 0;
/* Whether the dcb is in testing status */
uint8_t dcb_test = 0;
/*
* Configurable number of RX/TX queues.
*/
queueid_t nb_rxq = 1; /**< Number of RX queues per port. */
queueid_t nb_txq = 1; /**< Number of TX queues per port. */
/*
* Configurable number of RX/TX ring descriptors.
* Defaults are supplied by drivers via ethdev.
*/
#define RTE_TEST_RX_DESC_DEFAULT 0
#define RTE_TEST_TX_DESC_DEFAULT 0
uint16_t nb_rxd = RTE_TEST_RX_DESC_DEFAULT; /**< Number of RX descriptors. */
uint16_t nb_txd = RTE_TEST_TX_DESC_DEFAULT; /**< Number of TX descriptors. */
#define RTE_PMD_PARAM_UNSET -1
/*
* Configurable values of RX and TX ring threshold registers.
*/
int8_t rx_pthresh = RTE_PMD_PARAM_UNSET;
int8_t rx_hthresh = RTE_PMD_PARAM_UNSET;
int8_t rx_wthresh = RTE_PMD_PARAM_UNSET;
int8_t tx_pthresh = RTE_PMD_PARAM_UNSET;
int8_t tx_hthresh = RTE_PMD_PARAM_UNSET;
int8_t tx_wthresh = RTE_PMD_PARAM_UNSET;
/*
* Configurable value of RX free threshold.
*/
int16_t rx_free_thresh = RTE_PMD_PARAM_UNSET;
/*
* Configurable value of RX drop enable.
*/
int8_t rx_drop_en = RTE_PMD_PARAM_UNSET;
/*
* Configurable value of TX free threshold.
*/
int16_t tx_free_thresh = RTE_PMD_PARAM_UNSET;
/*
* Configurable value of TX RS bit threshold.
*/
int16_t tx_rs_thresh = RTE_PMD_PARAM_UNSET;
/*
* Configurable value of buffered packets before sending.
*/
uint16_t noisy_tx_sw_bufsz;
/*
* Configurable value of packet buffer timeout.
*/
uint16_t noisy_tx_sw_buf_flush_time;
/*
* Configurable value for size of VNF internal memory area
* used for simulating noisy neighbour behaviour
*/
uint64_t noisy_lkup_mem_sz;
/*
* Configurable value of number of random writes done in
* VNF simulation memory area.
*/
uint64_t noisy_lkup_num_writes;
/*
* Configurable value of number of random reads done in
* VNF simulation memory area.
*/
uint64_t noisy_lkup_num_reads;
/*
* Configurable value of number of random reads/writes done in
* VNF simulation memory area.
*/
uint64_t noisy_lkup_num_reads_writes;
/*
* Receive Side Scaling (RSS) configuration.
*/
uint64_t rss_hf = ETH_RSS_IP; /* RSS IP by default. */
/*
* Port topology configuration
*/
uint16_t port_topology = PORT_TOPOLOGY_PAIRED; /* Ports are paired by default */
/*
* Avoids to flush all the RX streams before starts forwarding.
*/
uint8_t no_flush_rx = 0; /* flush by default */
/*
* Flow API isolated mode.
*/
uint8_t flow_isolate_all;
/*
* Avoids to check link status when starting/stopping a port.
*/
uint8_t no_link_check = 0; /* check by default */
/*
* Enable link status change notification
*/
uint8_t lsc_interrupt = 1; /* enabled by default */
/*
* Enable device removal notification.
*/
uint8_t rmv_interrupt = 1; /* enabled by default */
uint8_t hot_plug = 0; /**< hotplug disabled by default. */
/* After attach, port setup is called on event or by iterator */
bool setup_on_probe_event = true;
/* Pretty printing of ethdev events */
static const char * const eth_event_desc[] = {
[RTE_ETH_EVENT_UNKNOWN] = "unknown",
[RTE_ETH_EVENT_INTR_LSC] = "link state change",
[RTE_ETH_EVENT_QUEUE_STATE] = "queue state",
[RTE_ETH_EVENT_INTR_RESET] = "reset",
[RTE_ETH_EVENT_VF_MBOX] = "VF mbox",
[RTE_ETH_EVENT_IPSEC] = "IPsec",
[RTE_ETH_EVENT_MACSEC] = "MACsec",
[RTE_ETH_EVENT_INTR_RMV] = "device removal",
[RTE_ETH_EVENT_NEW] = "device probed",
[RTE_ETH_EVENT_DESTROY] = "device released",
[RTE_ETH_EVENT_MAX] = NULL,
};
/*
* Display or mask ether events
* Default to all events except VF_MBOX
*/
uint32_t event_print_mask = (UINT32_C(1) << RTE_ETH_EVENT_UNKNOWN) |
(UINT32_C(1) << RTE_ETH_EVENT_INTR_LSC) |
(UINT32_C(1) << RTE_ETH_EVENT_QUEUE_STATE) |
(UINT32_C(1) << RTE_ETH_EVENT_INTR_RESET) |
(UINT32_C(1) << RTE_ETH_EVENT_IPSEC) |
(UINT32_C(1) << RTE_ETH_EVENT_MACSEC) |
(UINT32_C(1) << RTE_ETH_EVENT_INTR_RMV);
/*
* Decide if all memory are locked for performance.
*/
int do_mlockall = 0;
/*
* NIC bypass mode configuration options.
*/
#if defined RTE_LIBRTE_IXGBE_PMD && defined RTE_LIBRTE_IXGBE_BYPASS
/* The NIC bypass watchdog timeout. */
uint32_t bypass_timeout = RTE_PMD_IXGBE_BYPASS_TMT_OFF;
#endif
#ifdef RTE_LIBRTE_LATENCY_STATS
/*
* Set when latency stats is enabled in the commandline
*/
uint8_t latencystats_enabled;
/*
* Lcore ID to serive latency statistics.
*/
lcoreid_t latencystats_lcore_id = -1;
#endif
/*
* Ethernet device configuration.
*/
struct rte_eth_rxmode rx_mode = {
.max_rx_pkt_len = ETHER_MAX_LEN, /**< Default maximum frame length. */
};
struct rte_eth_txmode tx_mode = {
.offloads = DEV_TX_OFFLOAD_MBUF_FAST_FREE,
};
struct rte_fdir_conf fdir_conf = {
.mode = RTE_FDIR_MODE_NONE,
.pballoc = RTE_FDIR_PBALLOC_64K,
.status = RTE_FDIR_REPORT_STATUS,
.mask = {
.vlan_tci_mask = 0xFFEF,
.ipv4_mask = {
.src_ip = 0xFFFFFFFF,
.dst_ip = 0xFFFFFFFF,
},
.ipv6_mask = {
.src_ip = {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF},
.dst_ip = {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF},
},
.src_port_mask = 0xFFFF,
.dst_port_mask = 0xFFFF,
.mac_addr_byte_mask = 0xFF,
.tunnel_type_mask = 1,
.tunnel_id_mask = 0xFFFFFFFF,
},
.drop_queue = 127,
};
volatile int test_done = 1; /* stop packet forwarding when set to 1. */
struct queue_stats_mappings tx_queue_stats_mappings_array[MAX_TX_QUEUE_STATS_MAPPINGS];
struct queue_stats_mappings rx_queue_stats_mappings_array[MAX_RX_QUEUE_STATS_MAPPINGS];
struct queue_stats_mappings *tx_queue_stats_mappings = tx_queue_stats_mappings_array;
struct queue_stats_mappings *rx_queue_stats_mappings = rx_queue_stats_mappings_array;
uint16_t nb_tx_queue_stats_mappings = 0;
uint16_t nb_rx_queue_stats_mappings = 0;
/*
* Display zero values by default for xstats
*/
uint8_t xstats_hide_zero;
unsigned int num_sockets = 0;
unsigned int socket_ids[RTE_MAX_NUMA_NODES];
#ifdef RTE_LIBRTE_BITRATE
/* Bitrate statistics */
struct rte_stats_bitrates *bitrate_data;
lcoreid_t bitrate_lcore_id;
uint8_t bitrate_enabled;
#endif
struct gro_status gro_ports[RTE_MAX_ETHPORTS];
uint8_t gro_flush_cycles = GRO_DEFAULT_FLUSH_CYCLES;
struct vxlan_encap_conf vxlan_encap_conf = {
.select_ipv4 = 1,
.select_vlan = 0,
.vni = "\x00\x00\x00",
.udp_src = 0,
.udp_dst = RTE_BE16(4789),
.ipv4_src = IPv4(127, 0, 0, 1),
.ipv4_dst = IPv4(255, 255, 255, 255),
.ipv6_src = "\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x01",
.ipv6_dst = "\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x11\x11",
.vlan_tci = 0,
.eth_src = "\x00\x00\x00\x00\x00\x00",
.eth_dst = "\xff\xff\xff\xff\xff\xff",
};
struct nvgre_encap_conf nvgre_encap_conf = {
.select_ipv4 = 1,
.select_vlan = 0,
.tni = "\x00\x00\x00",
.ipv4_src = IPv4(127, 0, 0, 1),
.ipv4_dst = IPv4(255, 255, 255, 255),
.ipv6_src = "\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x01",
.ipv6_dst = "\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x11\x11",
.vlan_tci = 0,
.eth_src = "\x00\x00\x00\x00\x00\x00",
.eth_dst = "\xff\xff\xff\xff\xff\xff",
};
/* Forward function declarations */
static void setup_attached_port(portid_t pi);
static void map_port_queue_stats_mapping_registers(portid_t pi,
struct rte_port *port);
static void check_all_ports_link_status(uint32_t port_mask);
static int eth_event_callback(portid_t port_id,
enum rte_eth_event_type type,
void *param, void *ret_param);
static void dev_event_callback(const char *device_name,
enum rte_dev_event_type type,
void *param);
/*
* Check if all the ports are started.
* If yes, return positive value. If not, return zero.
*/
static int all_ports_started(void);
struct gso_status gso_ports[RTE_MAX_ETHPORTS];
uint16_t gso_max_segment_size = ETHER_MAX_LEN - ETHER_CRC_LEN;
/*
* Helper function to check if socket is already discovered.
* If yes, return positive value. If not, return zero.
*/
int
new_socket_id(unsigned int socket_id)
{
unsigned int i;
for (i = 0; i < num_sockets; i++) {
if (socket_ids[i] == socket_id)
return 0;
}
return 1;
}
/*
* Setup default configuration.
*/
static void
set_default_fwd_lcores_config(void)
{
unsigned int i;
unsigned int nb_lc;
unsigned int sock_num;
nb_lc = 0;
for (i = 0; i < RTE_MAX_LCORE; i++) {
if (!rte_lcore_is_enabled(i))
continue;
sock_num = rte_lcore_to_socket_id(i);
if (new_socket_id(sock_num)) {
if (num_sockets >= RTE_MAX_NUMA_NODES) {
rte_exit(EXIT_FAILURE,
"Total sockets greater than %u\n",
RTE_MAX_NUMA_NODES);
}
socket_ids[num_sockets++] = sock_num;
}
if (i == rte_get_master_lcore())
continue;
fwd_lcores_cpuids[nb_lc++] = i;
}
nb_lcores = (lcoreid_t) nb_lc;
nb_cfg_lcores = nb_lcores;
nb_fwd_lcores = 1;
}
static void
set_def_peer_eth_addrs(void)
{
portid_t i;
for (i = 0; i < RTE_MAX_ETHPORTS; i++) {
peer_eth_addrs[i].addr_bytes[0] = ETHER_LOCAL_ADMIN_ADDR;
peer_eth_addrs[i].addr_bytes[5] = i;
}
}
static void
set_default_fwd_ports_config(void)
{
portid_t pt_id;
int i = 0;
RTE_ETH_FOREACH_DEV(pt_id) {
fwd_ports_ids[i++] = pt_id;
/* Update sockets info according to the attached device */
int socket_id = rte_eth_dev_socket_id(pt_id);
if (socket_id >= 0 && new_socket_id(socket_id)) {
if (num_sockets >= RTE_MAX_NUMA_NODES) {
rte_exit(EXIT_FAILURE,
"Total sockets greater than %u\n",
RTE_MAX_NUMA_NODES);
}
socket_ids[num_sockets++] = socket_id;
}
}
nb_cfg_ports = nb_ports;
nb_fwd_ports = nb_ports;
}
void
set_def_fwd_config(void)
{
set_default_fwd_lcores_config();
set_def_peer_eth_addrs();
set_default_fwd_ports_config();
}
/* extremely pessimistic estimation of memory required to create a mempool */
static int
calc_mem_size(uint32_t nb_mbufs, uint32_t mbuf_sz, size_t pgsz, size_t *out)
{
unsigned int n_pages, mbuf_per_pg, leftover;
uint64_t total_mem, mbuf_mem, obj_sz;
/* there is no good way to predict how much space the mempool will
* occupy because it will allocate chunks on the fly, and some of those
* will come from default DPDK memory while some will come from our
* external memory, so just assume 128MB will be enough for everyone.
*/
uint64_t hdr_mem = 128 << 20;
/* account for possible non-contiguousness */
obj_sz = rte_mempool_calc_obj_size(mbuf_sz, 0, NULL);
if (obj_sz > pgsz) {
TESTPMD_LOG(ERR, "Object size is bigger than page size\n");
return -1;
}
mbuf_per_pg = pgsz / obj_sz;
leftover = (nb_mbufs % mbuf_per_pg) > 0;
n_pages = (nb_mbufs / mbuf_per_pg) + leftover;
mbuf_mem = n_pages * pgsz;
total_mem = RTE_ALIGN(hdr_mem + mbuf_mem, pgsz);
if (total_mem > SIZE_MAX) {
TESTPMD_LOG(ERR, "Memory size too big\n");
return -1;
}
*out = (size_t)total_mem;
return 0;
}
static inline uint32_t
bsf64(uint64_t v)
{
return (uint32_t)__builtin_ctzll(v);
}
static inline uint32_t
log2_u64(uint64_t v)
{
if (v == 0)
return 0;
v = rte_align64pow2(v);
return bsf64(v);
}
static int
pagesz_flags(uint64_t page_sz)
{
/* as per mmap() manpage, all page sizes are log2 of page size
* shifted by MAP_HUGE_SHIFT
*/
int log2 = log2_u64(page_sz);
return (log2 << HUGE_SHIFT);
}
static void *
alloc_mem(size_t memsz, size_t pgsz, bool huge)
{
void *addr;
int flags;
/* allocate anonymous hugepages */
flags = MAP_ANONYMOUS | MAP_PRIVATE;
if (huge)
flags |= HUGE_FLAG | pagesz_flags(pgsz);
addr = mmap(NULL, memsz, PROT_READ | PROT_WRITE, flags, -1, 0);
if (addr == MAP_FAILED)
return NULL;
return addr;
}
struct extmem_param {
void *addr;
size_t len;
size_t pgsz;
rte_iova_t *iova_table;
unsigned int iova_table_len;
};
static int
create_extmem(uint32_t nb_mbufs, uint32_t mbuf_sz, struct extmem_param *param,
bool huge)
{
uint64_t pgsizes[] = {RTE_PGSIZE_2M, RTE_PGSIZE_1G, /* x86_64, ARM */
RTE_PGSIZE_16M, RTE_PGSIZE_16G}; /* POWER */
unsigned int cur_page, n_pages, pgsz_idx;
size_t mem_sz, cur_pgsz;
rte_iova_t *iovas = NULL;
void *addr;
int ret;
for (pgsz_idx = 0; pgsz_idx < RTE_DIM(pgsizes); pgsz_idx++) {
/* skip anything that is too big */
if (pgsizes[pgsz_idx] > SIZE_MAX)
continue;
cur_pgsz = pgsizes[pgsz_idx];
/* if we were told not to allocate hugepages, override */
if (!huge)
cur_pgsz = sysconf(_SC_PAGESIZE);
ret = calc_mem_size(nb_mbufs, mbuf_sz, cur_pgsz, &mem_sz);
if (ret < 0) {
TESTPMD_LOG(ERR, "Cannot calculate memory size\n");
return -1;
}
/* allocate our memory */
addr = alloc_mem(mem_sz, cur_pgsz, huge);
/* if we couldn't allocate memory with a specified page size,
* that doesn't mean we can't do it with other page sizes, so
* try another one.
*/
if (addr == NULL)
continue;
/* store IOVA addresses for every page in this memory area */
n_pages = mem_sz / cur_pgsz;
iovas = malloc(sizeof(*iovas) * n_pages);
if (iovas == NULL) {
TESTPMD_LOG(ERR, "Cannot allocate memory for iova addresses\n");
goto fail;
}
/* lock memory if it's not huge pages */
if (!huge)
mlock(addr, mem_sz);
/* populate IOVA addresses */
for (cur_page = 0; cur_page < n_pages; cur_page++) {
rte_iova_t iova;
size_t offset;
void *cur;
offset = cur_pgsz * cur_page;
cur = RTE_PTR_ADD(addr, offset);
/* touch the page before getting its IOVA */
*(volatile char *)cur = 0;
iova = rte_mem_virt2iova(cur);
iovas[cur_page] = iova;
}
break;
}
/* if we couldn't allocate anything */
if (iovas == NULL)
return -1;
param->addr = addr;
param->len = mem_sz;
param->pgsz = cur_pgsz;
param->iova_table = iovas;
param->iova_table_len = n_pages;
return 0;
fail:
if (iovas)
free(iovas);
if (addr)
munmap(addr, mem_sz);
return -1;
}
static int
setup_extmem(uint32_t nb_mbufs, uint32_t mbuf_sz, bool huge)
{
struct extmem_param param;
int socket_id, ret;
memset(¶m, 0, sizeof(param));
/* check if our heap exists */
socket_id = rte_malloc_heap_get_socket(EXTMEM_HEAP_NAME);
if (socket_id < 0) {
/* create our heap */
ret = rte_malloc_heap_create(EXTMEM_HEAP_NAME);
if (ret < 0) {
TESTPMD_LOG(ERR, "Cannot create heap\n");
return -1;
}
}
ret = create_extmem(nb_mbufs, mbuf_sz, ¶m, huge);
if (ret < 0) {
TESTPMD_LOG(ERR, "Cannot create memory area\n");
return -1;
}
/* we now have a valid memory area, so add it to heap */
ret = rte_malloc_heap_memory_add(EXTMEM_HEAP_NAME,
param.addr, param.len, param.iova_table,
param.iova_table_len, param.pgsz);
/* when using VFIO, memory is automatically mapped for DMA by EAL */
/* not needed any more */
free(param.iova_table);
if (ret < 0) {
TESTPMD_LOG(ERR, "Cannot add memory to heap\n");
munmap(param.addr, param.len);
return -1;
}
/* success */
TESTPMD_LOG(DEBUG, "Allocated %zuMB of external memory\n",
param.len >> 20);
return 0;
}
/*
* Configuration initialisation done once at init time.
*/
static struct rte_mempool *
mbuf_pool_create(uint16_t mbuf_seg_size, unsigned nb_mbuf,
unsigned int socket_id)
{
char pool_name[RTE_MEMPOOL_NAMESIZE];
struct rte_mempool *rte_mp = NULL;
uint32_t mb_size;
mb_size = sizeof(struct rte_mbuf) + mbuf_seg_size;
mbuf_poolname_build(socket_id, pool_name, sizeof(pool_name));
TESTPMD_LOG(INFO,
"create a new mbuf pool <%s>: n=%u, size=%u, socket=%u\n",
pool_name, nb_mbuf, mbuf_seg_size, socket_id);
switch (mp_alloc_type) {
case MP_ALLOC_NATIVE:
{
/* wrapper to rte_mempool_create() */
TESTPMD_LOG(INFO, "preferred mempool ops selected: %s\n",
rte_mbuf_best_mempool_ops());
rte_mp = rte_pktmbuf_pool_create(pool_name, nb_mbuf,
mb_mempool_cache, 0, mbuf_seg_size, socket_id);
break;
}
case MP_ALLOC_ANON:
{
rte_mp = rte_mempool_create_empty(pool_name, nb_mbuf,
mb_size, (unsigned int) mb_mempool_cache,
sizeof(struct rte_pktmbuf_pool_private),
socket_id, 0);
if (rte_mp == NULL)
goto err;
if (rte_mempool_populate_anon(rte_mp) == 0) {
rte_mempool_free(rte_mp);
rte_mp = NULL;
goto err;
}
rte_pktmbuf_pool_init(rte_mp, NULL);
rte_mempool_obj_iter(rte_mp, rte_pktmbuf_init, NULL);
break;
}
case MP_ALLOC_XMEM:
case MP_ALLOC_XMEM_HUGE:
{
int heap_socket;
bool huge = mp_alloc_type == MP_ALLOC_XMEM_HUGE;
if (setup_extmem(nb_mbuf, mbuf_seg_size, huge) < 0)
rte_exit(EXIT_FAILURE, "Could not create external memory\n");
heap_socket =
rte_malloc_heap_get_socket(EXTMEM_HEAP_NAME);
if (heap_socket < 0)
rte_exit(EXIT_FAILURE, "Could not get external memory socket ID\n");
TESTPMD_LOG(INFO, "preferred mempool ops selected: %s\n",
rte_mbuf_best_mempool_ops());
rte_mp = rte_pktmbuf_pool_create(pool_name, nb_mbuf,
mb_mempool_cache, 0, mbuf_seg_size,
heap_socket);
break;
}
default:
{
rte_exit(EXIT_FAILURE, "Invalid mempool creation mode\n");
}
}
err:
if (rte_mp == NULL) {
rte_exit(EXIT_FAILURE,
"Creation of mbuf pool for socket %u failed: %s\n",
socket_id, rte_strerror(rte_errno));
} else if (verbose_level > 0) {
rte_mempool_dump(stdout, rte_mp);
}
return rte_mp;
}
/*
* Check given socket id is valid or not with NUMA mode,
* if valid, return 0, else return -1
*/
static int
check_socket_id(const unsigned int socket_id)
{
static int warning_once = 0;
if (new_socket_id(socket_id)) {
if (!warning_once && numa_support)
printf("Warning: NUMA should be configured manually by"
" using --port-numa-config and"
" --ring-numa-config parameters along with"
" --numa.\n");
warning_once = 1;
return -1;
}
return 0;
}
/*
* Get the allowed maximum number of RX queues.
* *pid return the port id which has minimal value of
* max_rx_queues in all ports.
*/
queueid_t
get_allowed_max_nb_rxq(portid_t *pid)
{
queueid_t allowed_max_rxq = MAX_QUEUE_ID;
portid_t pi;
struct rte_eth_dev_info dev_info;
RTE_ETH_FOREACH_DEV(pi) {
rte_eth_dev_info_get(pi, &dev_info);
if (dev_info.max_rx_queues < allowed_max_rxq) {
allowed_max_rxq = dev_info.max_rx_queues;
*pid = pi;
}
}
return allowed_max_rxq;
}
/*
* Check input rxq is valid or not.
* If input rxq is not greater than any of maximum number
* of RX queues of all ports, it is valid.
* if valid, return 0, else return -1
*/
int
check_nb_rxq(queueid_t rxq)
{
queueid_t allowed_max_rxq;
portid_t pid = 0;
allowed_max_rxq = get_allowed_max_nb_rxq(&pid);
if (rxq > allowed_max_rxq) {
printf("Fail: input rxq (%u) can't be greater "
"than max_rx_queues (%u) of port %u\n",
rxq,
allowed_max_rxq,
pid);
return -1;
}
return 0;
}
/*
* Get the allowed maximum number of TX queues.
* *pid return the port id which has minimal value of
* max_tx_queues in all ports.