先启动primary进程,-l参数指定使用的逻辑核为core0和core1,–proc-type参数可以省略,默认第一个进程是primary进程,也可以指定值auto,表示自动检测进程的类型
simple_mp -l 0,1 --proc-type primary
程序启动会有大量的日志,初始化结束后,将进入程序命令行界面:
EAL: Detected lcore 0 as core 0 on socket 0
EAL: Detected lcore 1 as core 1 on socket 0
EAL: Detected lcore 2 as core 2 on socket 0
...
EAL: Master lcore 0 is ready (tid=c1f1e900;cpuset=[0])
...
Starting core 1
simple_mp >
secondary进程需要在primary进程之后启动,–proc-type参数必须指定(因为不指定该参数,将默认为primary进程,程序将初始化失败,因为已经存在了primary进程),值可以为secondary或auto:
simple_mp -l 0,1 --proc-type secondary
secondary进程启动后,同样进入simple_mp命令行。
simple_mp使用dpdk cmd_line完成命令行功能,启动simple_mp程序后,输入?
可以查看支持的命令:
simple_mp >
send [Fixed STRING]: send a string to another process
quit [Fixed STRING]: close the application
help [Fixed STRING]: show help
help
查看帮助:
simple_mp > help
Simple demo example of multi-process in RTE
This is a readline-like interface that can be used to
send commands to the simple app. Commands supported are:
- send [string]
- help
- quit
在primary进程的命令行中,输入:
simple_mp > send hello1
simple_mp > core 1: Received 'hello1'
send hello2
,primary进程也将打印
core 1: Received 'hello2'
main函数,将在primary进程创建两个ring队列
- 发送队列 PRI_2_SEC
- 接受队列 SEC_2_PRI
if (rte_eal_process_type() == RTE_PROC_PRIMARY){
send_ring = rte_ring_create(_PRI_2_SEC, ring_size, rte_socket_id(), flags);
recv_ring = rte_ring_create(_SEC_2_PRI, ring_size, rte_socket_id(), flags);
message_pool = rte_mempool_create(_MSG_POOL, pool_size,
string_size, pool_cache, priv_data_sz,
NULL, NULL, NULL, NULL,
rte_socket_id(), flags);
} else {
recv_ring = rte_ring_lookup(_PRI_2_SEC);
send_ring = rte_ring_lookup(_SEC_2_PRI);
message_pool = rte_mempool_lookup(_MSG_POOL);
}
- 发送队列 SEC_2_PRI
- 接受队列 PRI_2_SEC
当在primary进程执行send hello1
时,cmd_send_parsed函数执行入队PRI_2_SEC逻辑:
/* simple_mp/mp_commands.c */
static void cmd_send_parsed(void *parsed_result,
__attribute__((unused)) struct cmdline *cl,
__attribute__((unused)) void *data)
{
void *msg = NULL;
struct cmd_send_result *res = parsed_result;
if (rte_mempool_get(message_pool, &msg) < 0)
rte_panic("Failed to get message buffer\n");
snprintf((char *)msg, string_size, "%s", res->message);
if (rte_ring_enqueue(send_ring, msg) < 0) {
printf("Failed to send message - message discarded\n");
rte_mempool_put(message_pool, msg);
}
}
static int
lcore_recv(__attribute__((unused)) void *arg)
{
unsigned lcore_id = rte_lcore_id();
printf("Starting core %u\n", lcore_id);
while (!quit){
void *msg;
if (rte_ring_dequeue(recv_ring, &msg) < 0){
usleep(5);
continue;
}
printf("core %u: Received '%s'\n", lcore_id, (char *)msg);
rte_mempool_put(message_pool, msg);
}
return 0;
}
ring队列存储的是指针,所以内存需要自己申请。
primary进程创建名为MSG_POOL
的内存池,可以存放1024个元素,每个元素的大小是64字节,逻辑核缓存32个元素。
secondary进程使用primary创建的内存池:
if (rte_eal_process_type() == RTE_PROC_PRIMARY){
message_pool = rte_mempool_create(_MSG_POOL, pool_size,
string_size, pool_cache, priv_data_sz,
NULL, NULL, NULL, NULL,
rte_socket_id(), flags);
} else {
message_pool = rte_mempool_lookup(_MSG_POOL);
}
if (rte_mempool_get(message_pool, &msg) < 0)
rte_panic("Failed to get message buffer\n");
snprintf((char *)msg, string_size, "%s", res->message);
if (rte_ring_enqueue(send_ring, msg) < 0) {
printf("Failed to send message - message discarded\n");
rte_mempool_put(message_pool, msg);
}
if (rte_ring_dequeue(recv_ring, &msg) < 0){
usleep(5);
continue;
}
printf("core %u: Received '%s'\n", lcore_id, (char *)msg);
rte_mempool_put(message_pool, msg);
http://dpdk.org/browse/dpdk/tree/examples/multi_process/simple_mp