1bb4141dbSKevin Laatz /* SPDX-License-Identifier: BSD-3-Clause
2bb4141dbSKevin Laatz * Copyright(c) 2019-2021 Intel Corporation
3bb4141dbSKevin Laatz */
4bb4141dbSKevin Laatz
5bb4141dbSKevin Laatz #include <stdint.h>
672b452c5SDmitry Kozlyuk #include <stdlib.h>
7bb4141dbSKevin Laatz #include <signal.h>
8bb4141dbSKevin Laatz #include <stdbool.h>
9bb4141dbSKevin Laatz #include <unistd.h>
10bb4141dbSKevin Laatz
118d85afb1SChengwen Feng #include <rte_argparse.h>
12bb4141dbSKevin Laatz #include <rte_malloc.h>
13bb4141dbSKevin Laatz #include <rte_ethdev.h>
14bb4141dbSKevin Laatz #include <rte_dmadev.h>
15bb4141dbSKevin Laatz
16bb4141dbSKevin Laatz /* size of ring used for software copying between rx and tx. */
17bb4141dbSKevin Laatz #define RTE_LOGTYPE_DMA RTE_LOGTYPE_USER1
18bb4141dbSKevin Laatz #define MAX_PKT_BURST 32
19bb4141dbSKevin Laatz #define MEMPOOL_CACHE_SIZE 512
20bb4141dbSKevin Laatz #define MIN_POOL_SIZE 65536U
218d85afb1SChengwen Feng #define CMD_LINE_OPT_PORTMASK_INDEX 1
228d85afb1SChengwen Feng #define CMD_LINE_OPT_COPY_TYPE_INDEX 2
23bb4141dbSKevin Laatz
24bb4141dbSKevin Laatz /* configurable number of RX/TX ring descriptors */
25bb4141dbSKevin Laatz #define RX_DEFAULT_RINGSIZE 1024
26bb4141dbSKevin Laatz #define TX_DEFAULT_RINGSIZE 1024
27bb4141dbSKevin Laatz
28bb4141dbSKevin Laatz /* max number of RX queues per port */
29bb4141dbSKevin Laatz #define MAX_RX_QUEUES_COUNT 8
30bb4141dbSKevin Laatz
31bb4141dbSKevin Laatz struct rxtx_port_config {
32bb4141dbSKevin Laatz /* common config */
33bb4141dbSKevin Laatz uint16_t rxtx_port;
34bb4141dbSKevin Laatz uint16_t nb_queues;
35bb4141dbSKevin Laatz /* for software copy mode */
36bb4141dbSKevin Laatz struct rte_ring *rx_to_tx_ring;
37bb4141dbSKevin Laatz /* for dmadev HW copy mode */
38bb4141dbSKevin Laatz uint16_t dmadev_ids[MAX_RX_QUEUES_COUNT];
39bb4141dbSKevin Laatz };
40bb4141dbSKevin Laatz
41bb4141dbSKevin Laatz /* Configuring ports and number of assigned lcores in struct. 8< */
42bb4141dbSKevin Laatz struct rxtx_transmission_config {
43bb4141dbSKevin Laatz struct rxtx_port_config ports[RTE_MAX_ETHPORTS];
44bb4141dbSKevin Laatz uint16_t nb_ports;
45bb4141dbSKevin Laatz uint16_t nb_lcores;
46bb4141dbSKevin Laatz };
47bb4141dbSKevin Laatz /* >8 End of configuration of ports and number of assigned lcores. */
48bb4141dbSKevin Laatz
49bb4141dbSKevin Laatz /* per-port statistics struct */
50bb4141dbSKevin Laatz struct dma_port_statistics {
51bb4141dbSKevin Laatz uint64_t rx[RTE_MAX_ETHPORTS];
52bb4141dbSKevin Laatz uint64_t tx[RTE_MAX_ETHPORTS];
53bb4141dbSKevin Laatz uint64_t tx_dropped[RTE_MAX_ETHPORTS];
54bb4141dbSKevin Laatz uint64_t copy_dropped[RTE_MAX_ETHPORTS];
55bb4141dbSKevin Laatz };
56bb4141dbSKevin Laatz struct dma_port_statistics port_statistics;
57bb4141dbSKevin Laatz struct total_statistics {
58bb4141dbSKevin Laatz uint64_t total_packets_dropped;
59bb4141dbSKevin Laatz uint64_t total_packets_tx;
60bb4141dbSKevin Laatz uint64_t total_packets_rx;
61bb4141dbSKevin Laatz uint64_t total_submitted;
62bb4141dbSKevin Laatz uint64_t total_completed;
63bb4141dbSKevin Laatz uint64_t total_failed;
64bb4141dbSKevin Laatz };
65bb4141dbSKevin Laatz
66bb4141dbSKevin Laatz typedef enum copy_mode_t {
67bb4141dbSKevin Laatz #define COPY_MODE_SW "sw"
68bb4141dbSKevin Laatz COPY_MODE_SW_NUM,
69bb4141dbSKevin Laatz #define COPY_MODE_DMA "hw"
70bb4141dbSKevin Laatz COPY_MODE_DMA_NUM,
71bb4141dbSKevin Laatz COPY_MODE_INVALID_NUM,
72bb4141dbSKevin Laatz COPY_MODE_SIZE_NUM = COPY_MODE_INVALID_NUM
73bb4141dbSKevin Laatz } copy_mode_t;
74bb4141dbSKevin Laatz
75bb4141dbSKevin Laatz /* mask of enabled ports */
76bb4141dbSKevin Laatz static uint32_t dma_enabled_port_mask;
77bb4141dbSKevin Laatz
78bb4141dbSKevin Laatz /* number of RX queues per port */
79bb4141dbSKevin Laatz static uint16_t nb_queues = 1;
80bb4141dbSKevin Laatz
81bb4141dbSKevin Laatz /* MAC updating enabled by default. */
82bb4141dbSKevin Laatz static int mac_updating = 1;
83bb4141dbSKevin Laatz
847be78d02SJosh Soref /* hardware copy mode enabled by default. */
85bb4141dbSKevin Laatz static copy_mode_t copy_mode = COPY_MODE_DMA_NUM;
86bb4141dbSKevin Laatz
87bb4141dbSKevin Laatz /* size of descriptor ring for hardware copy mode or
88bb4141dbSKevin Laatz * rte_ring for software copy mode
89bb4141dbSKevin Laatz */
908d85afb1SChengwen Feng static uint16_t ring_size = 2048;
91bb4141dbSKevin Laatz
92bb4141dbSKevin Laatz /* interval, in seconds, between stats prints */
938d85afb1SChengwen Feng static uint16_t stats_interval = 1;
94bb4141dbSKevin Laatz /* global mbuf arrays for tracking DMA bufs */
95bb4141dbSKevin Laatz #define MBUF_RING_SIZE 2048
96bb4141dbSKevin Laatz #define MBUF_RING_MASK (MBUF_RING_SIZE - 1)
97bb4141dbSKevin Laatz struct dma_bufs {
98bb4141dbSKevin Laatz struct rte_mbuf *bufs[MBUF_RING_SIZE];
99bb4141dbSKevin Laatz struct rte_mbuf *copies[MBUF_RING_SIZE];
100bb4141dbSKevin Laatz uint16_t sent;
101bb4141dbSKevin Laatz };
102bb4141dbSKevin Laatz static struct dma_bufs dma_bufs[RTE_DMADEV_DEFAULT_MAX];
103bb4141dbSKevin Laatz
104bb4141dbSKevin Laatz /* global transmission config */
105bb4141dbSKevin Laatz struct rxtx_transmission_config cfg;
106bb4141dbSKevin Laatz
107bb4141dbSKevin Laatz /* configurable number of RX/TX ring descriptors */
108bb4141dbSKevin Laatz static uint16_t nb_rxd = RX_DEFAULT_RINGSIZE;
109bb4141dbSKevin Laatz static uint16_t nb_txd = TX_DEFAULT_RINGSIZE;
110bb4141dbSKevin Laatz
111bb4141dbSKevin Laatz static volatile bool force_quit;
112bb4141dbSKevin Laatz
113bb4141dbSKevin Laatz static uint32_t dma_batch_sz = MAX_PKT_BURST;
114e0e95de2SHuisong Li static uint32_t max_frame_size;
115bebbf072SChengwen Feng static uint32_t force_min_copy_size;
116bb4141dbSKevin Laatz
117bb4141dbSKevin Laatz /* ethernet addresses of ports */
118bb4141dbSKevin Laatz static struct rte_ether_addr dma_ports_eth_addr[RTE_MAX_ETHPORTS];
119bb4141dbSKevin Laatz
120bb4141dbSKevin Laatz struct rte_mempool *dma_pktmbuf_pool;
121bb4141dbSKevin Laatz
122bb4141dbSKevin Laatz /* Print out statistics for one port. */
123bb4141dbSKevin Laatz static void
print_port_stats(uint16_t port_id)124bb4141dbSKevin Laatz print_port_stats(uint16_t port_id)
125bb4141dbSKevin Laatz {
126bb4141dbSKevin Laatz printf("\nStatistics for port %u ------------------------------"
127bb4141dbSKevin Laatz "\nPackets sent: %34"PRIu64
128bb4141dbSKevin Laatz "\nPackets received: %30"PRIu64
129bb4141dbSKevin Laatz "\nPackets dropped on tx: %25"PRIu64
130bb4141dbSKevin Laatz "\nPackets dropped on copy: %23"PRIu64,
131bb4141dbSKevin Laatz port_id,
132bb4141dbSKevin Laatz port_statistics.tx[port_id],
133bb4141dbSKevin Laatz port_statistics.rx[port_id],
134bb4141dbSKevin Laatz port_statistics.tx_dropped[port_id],
135bb4141dbSKevin Laatz port_statistics.copy_dropped[port_id]);
136bb4141dbSKevin Laatz }
137bb4141dbSKevin Laatz
138bb4141dbSKevin Laatz /* Print out statistics for one dmadev device. */
139bb4141dbSKevin Laatz static void
print_dmadev_stats(uint32_t dev_id,struct rte_dma_stats stats)140bb4141dbSKevin Laatz print_dmadev_stats(uint32_t dev_id, struct rte_dma_stats stats)
141bb4141dbSKevin Laatz {
142bb4141dbSKevin Laatz printf("\nDMA channel %u", dev_id);
143bb4141dbSKevin Laatz printf("\n\t Total submitted ops: %"PRIu64"", stats.submitted);
144bb4141dbSKevin Laatz printf("\n\t Total completed ops: %"PRIu64"", stats.completed);
145bb4141dbSKevin Laatz printf("\n\t Total failed ops: %"PRIu64"", stats.errors);
146bb4141dbSKevin Laatz }
147bb4141dbSKevin Laatz
148bb4141dbSKevin Laatz static void
print_total_stats(struct total_statistics * ts)149bb4141dbSKevin Laatz print_total_stats(struct total_statistics *ts)
150bb4141dbSKevin Laatz {
151bb4141dbSKevin Laatz printf("\nAggregate statistics ==============================="
152bb4141dbSKevin Laatz "\nTotal packets Tx: %22"PRIu64" [pkt/s]"
153bb4141dbSKevin Laatz "\nTotal packets Rx: %22"PRIu64" [pkt/s]"
154bb4141dbSKevin Laatz "\nTotal packets dropped: %17"PRIu64" [pkt/s]",
155bb4141dbSKevin Laatz ts->total_packets_tx / stats_interval,
156bb4141dbSKevin Laatz ts->total_packets_rx / stats_interval,
157bb4141dbSKevin Laatz ts->total_packets_dropped / stats_interval);
158bb4141dbSKevin Laatz
159bb4141dbSKevin Laatz if (copy_mode == COPY_MODE_DMA_NUM) {
160bb4141dbSKevin Laatz printf("\nTotal submitted ops: %19"PRIu64" [ops/s]"
161bb4141dbSKevin Laatz "\nTotal completed ops: %19"PRIu64" [ops/s]"
162bb4141dbSKevin Laatz "\nTotal failed ops: %22"PRIu64" [ops/s]",
163bb4141dbSKevin Laatz ts->total_submitted / stats_interval,
164bb4141dbSKevin Laatz ts->total_completed / stats_interval,
165bb4141dbSKevin Laatz ts->total_failed / stats_interval);
166bb4141dbSKevin Laatz }
167bb4141dbSKevin Laatz
168bb4141dbSKevin Laatz printf("\n====================================================\n");
169bb4141dbSKevin Laatz }
170bb4141dbSKevin Laatz
171bb4141dbSKevin Laatz /* Print out statistics on packets dropped. */
172bb4141dbSKevin Laatz static void
print_stats(char * prgname)173bb4141dbSKevin Laatz print_stats(char *prgname)
174bb4141dbSKevin Laatz {
175bb4141dbSKevin Laatz struct total_statistics ts, delta_ts;
176bb4141dbSKevin Laatz struct rte_dma_stats stats = {0};
177bb4141dbSKevin Laatz uint32_t i, port_id, dev_id;
178bb4141dbSKevin Laatz char status_string[255]; /* to print at the top of the output */
179bb4141dbSKevin Laatz int status_strlen;
180bb4141dbSKevin Laatz
181bb4141dbSKevin Laatz const char clr[] = { 27, '[', '2', 'J', '\0' };
182bb4141dbSKevin Laatz const char topLeft[] = { 27, '[', '1', ';', '1', 'H', '\0' };
183bb4141dbSKevin Laatz
184bb4141dbSKevin Laatz status_strlen = snprintf(status_string, sizeof(status_string),
185bb4141dbSKevin Laatz "%s, ", prgname);
186bb4141dbSKevin Laatz status_strlen += snprintf(status_string + status_strlen,
187bb4141dbSKevin Laatz sizeof(status_string) - status_strlen,
188bb4141dbSKevin Laatz "Worker Threads = %d, ",
189bb4141dbSKevin Laatz rte_lcore_count() > 2 ? 2 : 1);
190bb4141dbSKevin Laatz status_strlen += snprintf(status_string + status_strlen,
191bb4141dbSKevin Laatz sizeof(status_string) - status_strlen,
192bb4141dbSKevin Laatz "Copy Mode = %s,\n", copy_mode == COPY_MODE_SW_NUM ?
193bb4141dbSKevin Laatz COPY_MODE_SW : COPY_MODE_DMA);
194bb4141dbSKevin Laatz status_strlen += snprintf(status_string + status_strlen,
195bb4141dbSKevin Laatz sizeof(status_string) - status_strlen,
196bb4141dbSKevin Laatz "Updating MAC = %s, ", mac_updating ?
197bb4141dbSKevin Laatz "enabled" : "disabled");
198bb4141dbSKevin Laatz status_strlen += snprintf(status_string + status_strlen,
199bb4141dbSKevin Laatz sizeof(status_string) - status_strlen,
200bb4141dbSKevin Laatz "Rx Queues = %d, ", nb_queues);
201bb4141dbSKevin Laatz status_strlen += snprintf(status_string + status_strlen,
202bb4141dbSKevin Laatz sizeof(status_string) - status_strlen,
203bebbf072SChengwen Feng "Ring Size = %d\n", ring_size);
204bebbf072SChengwen Feng status_strlen += snprintf(status_string + status_strlen,
205bebbf072SChengwen Feng sizeof(status_string) - status_strlen,
206bebbf072SChengwen Feng "Force Min Copy Size = %u Packet Data Room Size = %u",
207bebbf072SChengwen Feng force_min_copy_size,
208bebbf072SChengwen Feng rte_pktmbuf_data_room_size(dma_pktmbuf_pool) -
209bebbf072SChengwen Feng RTE_PKTMBUF_HEADROOM);
210bb4141dbSKevin Laatz
211bb4141dbSKevin Laatz memset(&ts, 0, sizeof(struct total_statistics));
212bb4141dbSKevin Laatz
213bb4141dbSKevin Laatz while (!force_quit) {
214bb4141dbSKevin Laatz /* Sleep for "stats_interval" seconds each round - init sleep allows reading
215bb4141dbSKevin Laatz * messages from app startup.
216bb4141dbSKevin Laatz */
217bb4141dbSKevin Laatz sleep(stats_interval);
218bb4141dbSKevin Laatz
219bb4141dbSKevin Laatz /* Clear screen and move to top left */
220bb4141dbSKevin Laatz printf("%s%s", clr, topLeft);
221bb4141dbSKevin Laatz
222bb4141dbSKevin Laatz memset(&delta_ts, 0, sizeof(struct total_statistics));
223bb4141dbSKevin Laatz
224bb4141dbSKevin Laatz printf("%s\n", status_string);
225bb4141dbSKevin Laatz
226bb4141dbSKevin Laatz for (i = 0; i < cfg.nb_ports; i++) {
227bb4141dbSKevin Laatz port_id = cfg.ports[i].rxtx_port;
228bb4141dbSKevin Laatz print_port_stats(port_id);
229bb4141dbSKevin Laatz
230bb4141dbSKevin Laatz delta_ts.total_packets_dropped +=
231bb4141dbSKevin Laatz port_statistics.tx_dropped[port_id]
232bb4141dbSKevin Laatz + port_statistics.copy_dropped[port_id];
233bb4141dbSKevin Laatz delta_ts.total_packets_tx +=
234bb4141dbSKevin Laatz port_statistics.tx[port_id];
235bb4141dbSKevin Laatz delta_ts.total_packets_rx +=
236bb4141dbSKevin Laatz port_statistics.rx[port_id];
237bb4141dbSKevin Laatz
238bb4141dbSKevin Laatz if (copy_mode == COPY_MODE_DMA_NUM) {
239bb4141dbSKevin Laatz uint32_t j;
240bb4141dbSKevin Laatz
241bb4141dbSKevin Laatz for (j = 0; j < cfg.ports[i].nb_queues; j++) {
242bb4141dbSKevin Laatz dev_id = cfg.ports[i].dmadev_ids[j];
243bb4141dbSKevin Laatz rte_dma_stats_get(dev_id, 0, &stats);
244bb4141dbSKevin Laatz print_dmadev_stats(dev_id, stats);
245bb4141dbSKevin Laatz
246bb4141dbSKevin Laatz delta_ts.total_submitted += stats.submitted;
247bb4141dbSKevin Laatz delta_ts.total_completed += stats.completed;
248bb4141dbSKevin Laatz delta_ts.total_failed += stats.errors;
249bb4141dbSKevin Laatz }
250bb4141dbSKevin Laatz }
251bb4141dbSKevin Laatz }
252bb4141dbSKevin Laatz
253bb4141dbSKevin Laatz delta_ts.total_packets_tx -= ts.total_packets_tx;
254bb4141dbSKevin Laatz delta_ts.total_packets_rx -= ts.total_packets_rx;
255bb4141dbSKevin Laatz delta_ts.total_packets_dropped -= ts.total_packets_dropped;
256bb4141dbSKevin Laatz delta_ts.total_submitted -= ts.total_submitted;
257bb4141dbSKevin Laatz delta_ts.total_completed -= ts.total_completed;
258bb4141dbSKevin Laatz delta_ts.total_failed -= ts.total_failed;
259bb4141dbSKevin Laatz
260bb4141dbSKevin Laatz printf("\n");
261bb4141dbSKevin Laatz print_total_stats(&delta_ts);
262bb4141dbSKevin Laatz
263bb4141dbSKevin Laatz fflush(stdout);
264bb4141dbSKevin Laatz
265bb4141dbSKevin Laatz ts.total_packets_tx += delta_ts.total_packets_tx;
266bb4141dbSKevin Laatz ts.total_packets_rx += delta_ts.total_packets_rx;
267bb4141dbSKevin Laatz ts.total_packets_dropped += delta_ts.total_packets_dropped;
268bb4141dbSKevin Laatz ts.total_submitted += delta_ts.total_submitted;
269bb4141dbSKevin Laatz ts.total_completed += delta_ts.total_completed;
270bb4141dbSKevin Laatz ts.total_failed += delta_ts.total_failed;
271bb4141dbSKevin Laatz }
272bb4141dbSKevin Laatz }
273bb4141dbSKevin Laatz
274bb4141dbSKevin Laatz static void
update_mac_addrs(struct rte_mbuf * m,uint32_t dest_portid)275bb4141dbSKevin Laatz update_mac_addrs(struct rte_mbuf *m, uint32_t dest_portid)
276bb4141dbSKevin Laatz {
277bb4141dbSKevin Laatz struct rte_ether_hdr *eth;
278bb4141dbSKevin Laatz void *tmp;
279bb4141dbSKevin Laatz
280bb4141dbSKevin Laatz eth = rte_pktmbuf_mtod(m, struct rte_ether_hdr *);
281bb4141dbSKevin Laatz
282bb4141dbSKevin Laatz /* 02:00:00:00:00:xx - overwriting 2 bytes of source address but
283bb4141dbSKevin Laatz * it's acceptable cause it gets overwritten by rte_ether_addr_copy
284bb4141dbSKevin Laatz */
285bb4141dbSKevin Laatz tmp = ð->dst_addr.addr_bytes[0];
286bb4141dbSKevin Laatz *((uint64_t *)tmp) = 0x000000000002 + ((uint64_t)dest_portid << 40);
287bb4141dbSKevin Laatz
288bb4141dbSKevin Laatz /* src addr */
289bb4141dbSKevin Laatz rte_ether_addr_copy(&dma_ports_eth_addr[dest_portid], ð->src_addr);
290bb4141dbSKevin Laatz }
291bb4141dbSKevin Laatz
292bb4141dbSKevin Laatz /* Perform packet copy there is a user-defined function. 8< */
293bb4141dbSKevin Laatz static inline void
pktmbuf_metadata_copy(const struct rte_mbuf * src,struct rte_mbuf * dst)294bb4141dbSKevin Laatz pktmbuf_metadata_copy(const struct rte_mbuf *src, struct rte_mbuf *dst)
295bb4141dbSKevin Laatz {
296bb4141dbSKevin Laatz dst->data_off = src->data_off;
297bb4141dbSKevin Laatz memcpy(&dst->rx_descriptor_fields1, &src->rx_descriptor_fields1,
298bb4141dbSKevin Laatz offsetof(struct rte_mbuf, buf_len) -
299bb4141dbSKevin Laatz offsetof(struct rte_mbuf, rx_descriptor_fields1));
300bb4141dbSKevin Laatz }
301bb4141dbSKevin Laatz
302bb4141dbSKevin Laatz /* Copy packet data */
303bb4141dbSKevin Laatz static inline void
pktmbuf_sw_copy(struct rte_mbuf * src,struct rte_mbuf * dst)304bb4141dbSKevin Laatz pktmbuf_sw_copy(struct rte_mbuf *src, struct rte_mbuf *dst)
305bb4141dbSKevin Laatz {
306bb4141dbSKevin Laatz rte_memcpy(rte_pktmbuf_mtod(dst, char *),
307bebbf072SChengwen Feng rte_pktmbuf_mtod(src, char *),
308bebbf072SChengwen Feng RTE_MAX(src->data_len, force_min_copy_size));
309bb4141dbSKevin Laatz }
310bb4141dbSKevin Laatz /* >8 End of perform packet copy there is a user-defined function. */
311bb4141dbSKevin Laatz
312bb4141dbSKevin Laatz static uint32_t
dma_enqueue_packets(struct rte_mbuf * pkts[],struct rte_mbuf * pkts_copy[],uint32_t nb_rx,uint16_t dev_id)313bb4141dbSKevin Laatz dma_enqueue_packets(struct rte_mbuf *pkts[], struct rte_mbuf *pkts_copy[],
314bb4141dbSKevin Laatz uint32_t nb_rx, uint16_t dev_id)
315bb4141dbSKevin Laatz {
316bb4141dbSKevin Laatz struct dma_bufs *dma = &dma_bufs[dev_id];
317bb4141dbSKevin Laatz int ret;
318bb4141dbSKevin Laatz uint32_t i;
319bb4141dbSKevin Laatz
320bb4141dbSKevin Laatz for (i = 0; i < nb_rx; i++) {
321bb4141dbSKevin Laatz /* Perform data copy */
322bb4141dbSKevin Laatz ret = rte_dma_copy(dev_id, 0,
323bb4141dbSKevin Laatz rte_pktmbuf_iova(pkts[i]),
324bb4141dbSKevin Laatz rte_pktmbuf_iova(pkts_copy[i]),
325bebbf072SChengwen Feng RTE_MAX(rte_pktmbuf_data_len(pkts[i]),
326bebbf072SChengwen Feng force_min_copy_size),
327bebbf072SChengwen Feng 0);
328bb4141dbSKevin Laatz
329bb4141dbSKevin Laatz if (ret < 0)
330bb4141dbSKevin Laatz break;
331bb4141dbSKevin Laatz
332bb4141dbSKevin Laatz dma->bufs[ret & MBUF_RING_MASK] = pkts[i];
333bb4141dbSKevin Laatz dma->copies[ret & MBUF_RING_MASK] = pkts_copy[i];
334bb4141dbSKevin Laatz }
335bb4141dbSKevin Laatz
336bb4141dbSKevin Laatz ret = i;
337bb4141dbSKevin Laatz return ret;
338bb4141dbSKevin Laatz }
339bb4141dbSKevin Laatz
340bb4141dbSKevin Laatz static inline uint32_t
dma_enqueue(struct rte_mbuf * pkts[],struct rte_mbuf * pkts_copy[],uint32_t num,uint32_t step,uint16_t dev_id)341bb4141dbSKevin Laatz dma_enqueue(struct rte_mbuf *pkts[], struct rte_mbuf *pkts_copy[],
342bb4141dbSKevin Laatz uint32_t num, uint32_t step, uint16_t dev_id)
343bb4141dbSKevin Laatz {
344bb4141dbSKevin Laatz uint32_t i, k, m, n;
345bb4141dbSKevin Laatz
346bb4141dbSKevin Laatz k = 0;
347bb4141dbSKevin Laatz for (i = 0; i < num; i += m) {
348bb4141dbSKevin Laatz
349bb4141dbSKevin Laatz m = RTE_MIN(step, num - i);
350bb4141dbSKevin Laatz n = dma_enqueue_packets(pkts + i, pkts_copy + i, m, dev_id);
351bb4141dbSKevin Laatz k += n;
352bb4141dbSKevin Laatz if (n > 0)
353bb4141dbSKevin Laatz rte_dma_submit(dev_id, 0);
354bb4141dbSKevin Laatz
355bb4141dbSKevin Laatz /* don't try to enqueue more if HW queue is full */
356bb4141dbSKevin Laatz if (n != m)
357bb4141dbSKevin Laatz break;
358bb4141dbSKevin Laatz }
359bb4141dbSKevin Laatz
360bb4141dbSKevin Laatz return k;
361bb4141dbSKevin Laatz }
362bb4141dbSKevin Laatz
363bb4141dbSKevin Laatz static inline uint32_t
dma_dequeue(struct rte_mbuf * src[],struct rte_mbuf * dst[],uint32_t num,uint16_t dev_id)364bb4141dbSKevin Laatz dma_dequeue(struct rte_mbuf *src[], struct rte_mbuf *dst[], uint32_t num,
365bb4141dbSKevin Laatz uint16_t dev_id)
366bb4141dbSKevin Laatz {
367bb4141dbSKevin Laatz struct dma_bufs *dma = &dma_bufs[dev_id];
368bb4141dbSKevin Laatz uint16_t nb_dq, filled;
369bb4141dbSKevin Laatz /* Dequeue the mbufs from DMA device. Since all memory
370bb4141dbSKevin Laatz * is DPDK pinned memory and therefore all addresses should
371bb4141dbSKevin Laatz * be valid, we don't check for copy errors
372bb4141dbSKevin Laatz */
373bb4141dbSKevin Laatz nb_dq = rte_dma_completed(dev_id, 0, num, NULL, NULL);
374bb4141dbSKevin Laatz
375bb4141dbSKevin Laatz /* Return early if no work to do */
376bb4141dbSKevin Laatz if (unlikely(nb_dq == 0))
377bb4141dbSKevin Laatz return nb_dq;
378bb4141dbSKevin Laatz
379bb4141dbSKevin Laatz /* Populate pkts_copy with the copies bufs from dma->copies for tx */
380bb4141dbSKevin Laatz for (filled = 0; filled < nb_dq; filled++) {
381bb4141dbSKevin Laatz src[filled] = dma->bufs[(dma->sent + filled) & MBUF_RING_MASK];
382bb4141dbSKevin Laatz dst[filled] = dma->copies[(dma->sent + filled) & MBUF_RING_MASK];
383bb4141dbSKevin Laatz }
384bb4141dbSKevin Laatz dma->sent += nb_dq;
385bb4141dbSKevin Laatz
386bb4141dbSKevin Laatz return filled;
387bb4141dbSKevin Laatz
388bb4141dbSKevin Laatz }
389bb4141dbSKevin Laatz
390bb4141dbSKevin Laatz /* Receive packets on one port and enqueue to dmadev or rte_ring. 8< */
391bb4141dbSKevin Laatz static void
dma_rx_port(struct rxtx_port_config * rx_config)392bb4141dbSKevin Laatz dma_rx_port(struct rxtx_port_config *rx_config)
393bb4141dbSKevin Laatz {
394bb4141dbSKevin Laatz int32_t ret;
395bb4141dbSKevin Laatz uint32_t nb_rx, nb_enq, i, j;
396bb4141dbSKevin Laatz struct rte_mbuf *pkts_burst[MAX_PKT_BURST];
397bb4141dbSKevin Laatz struct rte_mbuf *pkts_burst_copy[MAX_PKT_BURST];
398bb4141dbSKevin Laatz
399bb4141dbSKevin Laatz for (i = 0; i < rx_config->nb_queues; i++) {
400bb4141dbSKevin Laatz
401bb4141dbSKevin Laatz nb_rx = rte_eth_rx_burst(rx_config->rxtx_port, i,
402bb4141dbSKevin Laatz pkts_burst, MAX_PKT_BURST);
403bb4141dbSKevin Laatz
404fbf006f7SChengwen Feng if (nb_rx == 0) {
405fbf006f7SChengwen Feng if (copy_mode == COPY_MODE_DMA_NUM &&
406fbf006f7SChengwen Feng (nb_rx = dma_dequeue(pkts_burst, pkts_burst_copy,
407fbf006f7SChengwen Feng MAX_PKT_BURST, rx_config->dmadev_ids[i])) > 0)
408fbf006f7SChengwen Feng goto handle_tx;
409bb4141dbSKevin Laatz continue;
410fbf006f7SChengwen Feng }
411bb4141dbSKevin Laatz
412bb4141dbSKevin Laatz port_statistics.rx[rx_config->rxtx_port] += nb_rx;
413bb4141dbSKevin Laatz
414bb4141dbSKevin Laatz ret = rte_mempool_get_bulk(dma_pktmbuf_pool,
415bb4141dbSKevin Laatz (void *)pkts_burst_copy, nb_rx);
416bb4141dbSKevin Laatz
417bb4141dbSKevin Laatz if (unlikely(ret < 0))
418bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
419bb4141dbSKevin Laatz "Unable to allocate memory.\n");
420bb4141dbSKevin Laatz
421bb4141dbSKevin Laatz for (j = 0; j < nb_rx; j++)
422bb4141dbSKevin Laatz pktmbuf_metadata_copy(pkts_burst[j],
423bb4141dbSKevin Laatz pkts_burst_copy[j]);
424bb4141dbSKevin Laatz
425bb4141dbSKevin Laatz if (copy_mode == COPY_MODE_DMA_NUM) {
426bb4141dbSKevin Laatz /* enqueue packets for hardware copy */
427bb4141dbSKevin Laatz nb_enq = dma_enqueue(pkts_burst, pkts_burst_copy,
428bb4141dbSKevin Laatz nb_rx, dma_batch_sz, rx_config->dmadev_ids[i]);
429bb4141dbSKevin Laatz
430bb4141dbSKevin Laatz /* free any not enqueued packets. */
431bb4141dbSKevin Laatz rte_mempool_put_bulk(dma_pktmbuf_pool,
432bb4141dbSKevin Laatz (void *)&pkts_burst[nb_enq],
433bb4141dbSKevin Laatz nb_rx - nb_enq);
434bb4141dbSKevin Laatz rte_mempool_put_bulk(dma_pktmbuf_pool,
435bb4141dbSKevin Laatz (void *)&pkts_burst_copy[nb_enq],
436bb4141dbSKevin Laatz nb_rx - nb_enq);
437bb4141dbSKevin Laatz
438bb4141dbSKevin Laatz port_statistics.copy_dropped[rx_config->rxtx_port] +=
439bb4141dbSKevin Laatz (nb_rx - nb_enq);
440bb4141dbSKevin Laatz
441bb4141dbSKevin Laatz /* get completed copies */
442bb4141dbSKevin Laatz nb_rx = dma_dequeue(pkts_burst, pkts_burst_copy,
443bb4141dbSKevin Laatz MAX_PKT_BURST, rx_config->dmadev_ids[i]);
444bb4141dbSKevin Laatz } else {
445bb4141dbSKevin Laatz /* Perform packet software copy, free source packets */
446bb4141dbSKevin Laatz for (j = 0; j < nb_rx; j++)
447bb4141dbSKevin Laatz pktmbuf_sw_copy(pkts_burst[j],
448bb4141dbSKevin Laatz pkts_burst_copy[j]);
449bb4141dbSKevin Laatz }
450bb4141dbSKevin Laatz
451fbf006f7SChengwen Feng handle_tx:
452bb4141dbSKevin Laatz rte_mempool_put_bulk(dma_pktmbuf_pool,
453bb4141dbSKevin Laatz (void *)pkts_burst, nb_rx);
454bb4141dbSKevin Laatz
455bb4141dbSKevin Laatz nb_enq = rte_ring_enqueue_burst(rx_config->rx_to_tx_ring,
456bb4141dbSKevin Laatz (void *)pkts_burst_copy, nb_rx, NULL);
457bb4141dbSKevin Laatz
458bb4141dbSKevin Laatz /* Free any not enqueued packets. */
459bb4141dbSKevin Laatz rte_mempool_put_bulk(dma_pktmbuf_pool,
460bb4141dbSKevin Laatz (void *)&pkts_burst_copy[nb_enq],
461bb4141dbSKevin Laatz nb_rx - nb_enq);
462bb4141dbSKevin Laatz
463bb4141dbSKevin Laatz port_statistics.copy_dropped[rx_config->rxtx_port] +=
464bb4141dbSKevin Laatz (nb_rx - nb_enq);
465bb4141dbSKevin Laatz }
466bb4141dbSKevin Laatz }
467bb4141dbSKevin Laatz /* >8 End of receive packets on one port and enqueue to dmadev or rte_ring. */
468bb4141dbSKevin Laatz
469bb4141dbSKevin Laatz /* Transmit packets from dmadev/rte_ring for one port. 8< */
470bb4141dbSKevin Laatz static void
dma_tx_port(struct rxtx_port_config * tx_config)471bb4141dbSKevin Laatz dma_tx_port(struct rxtx_port_config *tx_config)
472bb4141dbSKevin Laatz {
473bb4141dbSKevin Laatz uint32_t i, j, nb_dq, nb_tx;
474bb4141dbSKevin Laatz struct rte_mbuf *mbufs[MAX_PKT_BURST];
475bb4141dbSKevin Laatz
476bb4141dbSKevin Laatz for (i = 0; i < tx_config->nb_queues; i++) {
477bb4141dbSKevin Laatz
478bb4141dbSKevin Laatz /* Dequeue the mbufs from rx_to_tx_ring. */
479bb4141dbSKevin Laatz nb_dq = rte_ring_dequeue_burst(tx_config->rx_to_tx_ring,
480bb4141dbSKevin Laatz (void *)mbufs, MAX_PKT_BURST, NULL);
481bb4141dbSKevin Laatz if (nb_dq == 0)
482bb4141dbSKevin Laatz continue;
483bb4141dbSKevin Laatz
484bb4141dbSKevin Laatz /* Update macs if enabled */
485bb4141dbSKevin Laatz if (mac_updating) {
486bb4141dbSKevin Laatz for (j = 0; j < nb_dq; j++)
487bb4141dbSKevin Laatz update_mac_addrs(mbufs[j],
488bb4141dbSKevin Laatz tx_config->rxtx_port);
489bb4141dbSKevin Laatz }
490bb4141dbSKevin Laatz
491bb4141dbSKevin Laatz nb_tx = rte_eth_tx_burst(tx_config->rxtx_port, 0,
492bb4141dbSKevin Laatz (void *)mbufs, nb_dq);
493bb4141dbSKevin Laatz
494bb4141dbSKevin Laatz port_statistics.tx[tx_config->rxtx_port] += nb_tx;
495bb4141dbSKevin Laatz
4967d3cb76fSChengwen Feng if (unlikely(nb_tx < nb_dq)) {
4977d3cb76fSChengwen Feng port_statistics.tx_dropped[tx_config->rxtx_port] +=
4987d3cb76fSChengwen Feng (nb_dq - nb_tx);
499bb4141dbSKevin Laatz /* Free any unsent packets. */
500bb4141dbSKevin Laatz rte_mempool_put_bulk(dma_pktmbuf_pool,
501bb4141dbSKevin Laatz (void *)&mbufs[nb_tx], nb_dq - nb_tx);
502bb4141dbSKevin Laatz }
503bb4141dbSKevin Laatz }
5047d3cb76fSChengwen Feng }
505bb4141dbSKevin Laatz /* >8 End of transmitting packets from dmadev. */
506bb4141dbSKevin Laatz
507bb4141dbSKevin Laatz /* Main rx processing loop for dmadev. */
508bb4141dbSKevin Laatz static void
rx_main_loop(void)509bb4141dbSKevin Laatz rx_main_loop(void)
510bb4141dbSKevin Laatz {
511bb4141dbSKevin Laatz uint16_t i;
512bb4141dbSKevin Laatz uint16_t nb_ports = cfg.nb_ports;
513bb4141dbSKevin Laatz
514bb4141dbSKevin Laatz RTE_LOG(INFO, DMA, "Entering main rx loop for copy on lcore %u\n",
515bb4141dbSKevin Laatz rte_lcore_id());
516bb4141dbSKevin Laatz
517bb4141dbSKevin Laatz while (!force_quit)
518bb4141dbSKevin Laatz for (i = 0; i < nb_ports; i++)
519bb4141dbSKevin Laatz dma_rx_port(&cfg.ports[i]);
520bb4141dbSKevin Laatz }
521bb4141dbSKevin Laatz
522bb4141dbSKevin Laatz /* Main tx processing loop for hardware copy. */
523bb4141dbSKevin Laatz static void
tx_main_loop(void)524bb4141dbSKevin Laatz tx_main_loop(void)
525bb4141dbSKevin Laatz {
526bb4141dbSKevin Laatz uint16_t i;
527bb4141dbSKevin Laatz uint16_t nb_ports = cfg.nb_ports;
528bb4141dbSKevin Laatz
529bb4141dbSKevin Laatz RTE_LOG(INFO, DMA, "Entering main tx loop for copy on lcore %u\n",
530bb4141dbSKevin Laatz rte_lcore_id());
531bb4141dbSKevin Laatz
532bb4141dbSKevin Laatz while (!force_quit)
533bb4141dbSKevin Laatz for (i = 0; i < nb_ports; i++)
534bb4141dbSKevin Laatz dma_tx_port(&cfg.ports[i]);
535bb4141dbSKevin Laatz }
536bb4141dbSKevin Laatz
537bb4141dbSKevin Laatz /* Main rx and tx loop if only one worker lcore available */
538bb4141dbSKevin Laatz static void
rxtx_main_loop(void)539bb4141dbSKevin Laatz rxtx_main_loop(void)
540bb4141dbSKevin Laatz {
541bb4141dbSKevin Laatz uint16_t i;
542bb4141dbSKevin Laatz uint16_t nb_ports = cfg.nb_ports;
543bb4141dbSKevin Laatz
544bb4141dbSKevin Laatz RTE_LOG(INFO, DMA, "Entering main rx and tx loop for copy on"
545bb4141dbSKevin Laatz " lcore %u\n", rte_lcore_id());
546bb4141dbSKevin Laatz
547bb4141dbSKevin Laatz while (!force_quit)
548bb4141dbSKevin Laatz for (i = 0; i < nb_ports; i++) {
549bb4141dbSKevin Laatz dma_rx_port(&cfg.ports[i]);
550bb4141dbSKevin Laatz dma_tx_port(&cfg.ports[i]);
551bb4141dbSKevin Laatz }
552bb4141dbSKevin Laatz }
553bb4141dbSKevin Laatz
554bb4141dbSKevin Laatz /* Start processing for each lcore. 8< */
start_forwarding_cores(void)555bb4141dbSKevin Laatz static void start_forwarding_cores(void)
556bb4141dbSKevin Laatz {
557bb4141dbSKevin Laatz uint32_t lcore_id = rte_lcore_id();
558bb4141dbSKevin Laatz
559bb4141dbSKevin Laatz RTE_LOG(INFO, DMA, "Entering %s on lcore %u\n",
560bb4141dbSKevin Laatz __func__, rte_lcore_id());
561bb4141dbSKevin Laatz
562bb4141dbSKevin Laatz if (cfg.nb_lcores == 1) {
563bb4141dbSKevin Laatz lcore_id = rte_get_next_lcore(lcore_id, true, true);
564bb4141dbSKevin Laatz rte_eal_remote_launch((lcore_function_t *)rxtx_main_loop,
565bb4141dbSKevin Laatz NULL, lcore_id);
566bb4141dbSKevin Laatz } else if (cfg.nb_lcores > 1) {
567bb4141dbSKevin Laatz lcore_id = rte_get_next_lcore(lcore_id, true, true);
568bb4141dbSKevin Laatz rte_eal_remote_launch((lcore_function_t *)rx_main_loop,
569bb4141dbSKevin Laatz NULL, lcore_id);
570bb4141dbSKevin Laatz
571bb4141dbSKevin Laatz lcore_id = rte_get_next_lcore(lcore_id, true, true);
572bb4141dbSKevin Laatz rte_eal_remote_launch((lcore_function_t *)tx_main_loop, NULL,
573bb4141dbSKevin Laatz lcore_id);
574bb4141dbSKevin Laatz }
575bb4141dbSKevin Laatz }
576bb4141dbSKevin Laatz /* >8 End of starting to process for each lcore. */
577bb4141dbSKevin Laatz
578bb4141dbSKevin Laatz static int
dma_parse_portmask(const char * portmask)579bb4141dbSKevin Laatz dma_parse_portmask(const char *portmask)
580bb4141dbSKevin Laatz {
581bb4141dbSKevin Laatz char *end = NULL;
582bb4141dbSKevin Laatz unsigned long pm;
583bb4141dbSKevin Laatz
584bb4141dbSKevin Laatz /* Parse hexadecimal string */
585bb4141dbSKevin Laatz pm = strtoul(portmask, &end, 16);
586bb4141dbSKevin Laatz if ((portmask[0] == '\0') || (end == NULL) || (*end != '\0'))
587bb4141dbSKevin Laatz return 0;
588bb4141dbSKevin Laatz
589bb4141dbSKevin Laatz return pm;
590bb4141dbSKevin Laatz }
591bb4141dbSKevin Laatz
592bb4141dbSKevin Laatz static copy_mode_t
dma_parse_copy_mode(const char * copy_mode)593bb4141dbSKevin Laatz dma_parse_copy_mode(const char *copy_mode)
594bb4141dbSKevin Laatz {
595bb4141dbSKevin Laatz if (strcmp(copy_mode, COPY_MODE_SW) == 0)
596bb4141dbSKevin Laatz return COPY_MODE_SW_NUM;
597bb4141dbSKevin Laatz else if (strcmp(copy_mode, COPY_MODE_DMA) == 0)
598bb4141dbSKevin Laatz return COPY_MODE_DMA_NUM;
599bb4141dbSKevin Laatz
600bb4141dbSKevin Laatz return COPY_MODE_INVALID_NUM;
601bb4141dbSKevin Laatz }
602bb4141dbSKevin Laatz
6038d85afb1SChengwen Feng static int
dma_parse_args_cb(uint32_t index,const char * value,void * opaque)6048d85afb1SChengwen Feng dma_parse_args_cb(uint32_t index, const char *value, void *opaque)
6058d85afb1SChengwen Feng {
6068d85afb1SChengwen Feng int port_mask;
6078d85afb1SChengwen Feng
6088d85afb1SChengwen Feng RTE_SET_USED(opaque);
6098d85afb1SChengwen Feng
6108d85afb1SChengwen Feng if (index == CMD_LINE_OPT_PORTMASK_INDEX) {
6118d85afb1SChengwen Feng port_mask = dma_parse_portmask(value);
6128d85afb1SChengwen Feng if (port_mask & ~dma_enabled_port_mask || port_mask <= 0) {
6138d85afb1SChengwen Feng printf("Invalid portmask, %s, suggest 0x%x\n",
6148d85afb1SChengwen Feng value, dma_enabled_port_mask);
6158d85afb1SChengwen Feng return -1;
6168d85afb1SChengwen Feng }
6178d85afb1SChengwen Feng dma_enabled_port_mask = port_mask;
6188d85afb1SChengwen Feng } else if (index == CMD_LINE_OPT_COPY_TYPE_INDEX) {
6198d85afb1SChengwen Feng copy_mode = dma_parse_copy_mode(value);
6208d85afb1SChengwen Feng if (copy_mode == COPY_MODE_INVALID_NUM) {
6218d85afb1SChengwen Feng printf("Invalid copy type. Use: sw, hw\n");
6228d85afb1SChengwen Feng return -1;
6238d85afb1SChengwen Feng }
6248d85afb1SChengwen Feng } else {
6258d85afb1SChengwen Feng printf("Invalid index %u\n", index);
6268d85afb1SChengwen Feng return -1;
6278d85afb1SChengwen Feng }
6288d85afb1SChengwen Feng
6298d85afb1SChengwen Feng return 0;
6308d85afb1SChengwen Feng }
6318d85afb1SChengwen Feng
632bb4141dbSKevin Laatz /* Parse the argument given in the command line of the application */
633bb4141dbSKevin Laatz static int
dma_parse_args(int argc,char ** argv,unsigned int nb_ports)634bb4141dbSKevin Laatz dma_parse_args(int argc, char **argv, unsigned int nb_ports)
635bb4141dbSKevin Laatz {
6368d85afb1SChengwen Feng static struct rte_argparse obj = {
6378d85afb1SChengwen Feng .prog_name = "dma",
6388d85afb1SChengwen Feng .usage = "[EAL options] -- [optional parameters]",
6398d85afb1SChengwen Feng .descriptor = NULL,
6408d85afb1SChengwen Feng .epilog = NULL,
6418d85afb1SChengwen Feng .exit_on_error = false,
6428d85afb1SChengwen Feng .callback = dma_parse_args_cb,
6438d85afb1SChengwen Feng .opaque = NULL,
6448d85afb1SChengwen Feng .args = {
6458d85afb1SChengwen Feng { "--mac-updating", NULL, "Enable MAC addresses updating",
6468d85afb1SChengwen Feng &mac_updating, (void *)1,
6478d85afb1SChengwen Feng RTE_ARGPARSE_ARG_NO_VALUE | RTE_ARGPARSE_ARG_VALUE_INT,
6488d85afb1SChengwen Feng },
6498d85afb1SChengwen Feng { "--no-mac-updating", NULL, "Disable MAC addresses updating",
6508d85afb1SChengwen Feng &mac_updating, (void *)0,
6518d85afb1SChengwen Feng RTE_ARGPARSE_ARG_NO_VALUE | RTE_ARGPARSE_ARG_VALUE_INT,
6528d85afb1SChengwen Feng },
6538d85afb1SChengwen Feng { "--portmask", "-p", "hexadecimal bitmask of ports to configure",
6548d85afb1SChengwen Feng NULL, (void *)CMD_LINE_OPT_PORTMASK_INDEX,
6558d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE,
6568d85afb1SChengwen Feng },
6578d85afb1SChengwen Feng { "--nb-queue", "-q", "number of RX queues per port (default is 1)",
6588d85afb1SChengwen Feng &nb_queues, NULL,
6598d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U16,
6608d85afb1SChengwen Feng },
6618d85afb1SChengwen Feng { "--copy-type", "-c", "type of copy: sw|hw",
6628d85afb1SChengwen Feng NULL, (void *)CMD_LINE_OPT_COPY_TYPE_INDEX,
6638d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE,
6648d85afb1SChengwen Feng },
6658d85afb1SChengwen Feng { "--ring-size", "-s", "size of dmadev descriptor ring for hardware copy mode or rte_ring for software copy mode",
6668d85afb1SChengwen Feng &ring_size, NULL,
6678d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U16,
6688d85afb1SChengwen Feng },
6698d85afb1SChengwen Feng { "--dma-batch-size", "-b", "number of requests per DMA batch",
6708d85afb1SChengwen Feng &dma_batch_sz, NULL,
6718d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U32,
6728d85afb1SChengwen Feng },
6738d85afb1SChengwen Feng { "--max-frame-size", "-f", "max frame size",
6748d85afb1SChengwen Feng &max_frame_size, NULL,
6758d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U32,
6768d85afb1SChengwen Feng },
6778d85afb1SChengwen Feng { "--force-min-copy-size", "-m", "force a minimum copy length, even for smaller packets",
6788d85afb1SChengwen Feng &force_min_copy_size, NULL,
6798d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U32,
6808d85afb1SChengwen Feng },
6818d85afb1SChengwen Feng { "--stats-interval", "-i", "interval, in seconds, between stats prints (default is 1)",
6828d85afb1SChengwen Feng &stats_interval, NULL,
6838d85afb1SChengwen Feng RTE_ARGPARSE_ARG_REQUIRED_VALUE | RTE_ARGPARSE_ARG_VALUE_U16,
6848d85afb1SChengwen Feng },
6858d85afb1SChengwen Feng ARGPARSE_ARG_END(),
6868d85afb1SChengwen Feng },
687bb4141dbSKevin Laatz };
688bb4141dbSKevin Laatz
689bb4141dbSKevin Laatz const unsigned int default_port_mask = (1 << nb_ports) - 1;
6908d85afb1SChengwen Feng int ret;
691bb4141dbSKevin Laatz
692bb4141dbSKevin Laatz dma_enabled_port_mask = default_port_mask;
6938d85afb1SChengwen Feng ret = rte_argparse_parse(&obj, argc, argv);
6948d85afb1SChengwen Feng if (ret != 0)
6958d85afb1SChengwen Feng return ret;
696bb4141dbSKevin Laatz
6978d85afb1SChengwen Feng /* check argument's value which parsing by autosave. */
698*9ae55d13SChengwen Feng if (dma_batch_sz == 0 || dma_batch_sz > MAX_PKT_BURST) {
6998d85afb1SChengwen Feng printf("Invalid dma batch size, %d.\n", dma_batch_sz);
700bb4141dbSKevin Laatz return -1;
701bb4141dbSKevin Laatz }
7028d85afb1SChengwen Feng
703*9ae55d13SChengwen Feng if (max_frame_size > RTE_ETHER_MAX_JUMBO_FRAME_LEN) {
7048d85afb1SChengwen Feng printf("Invalid max frame size, %d.\n", max_frame_size);
705bb4141dbSKevin Laatz return -1;
706bb4141dbSKevin Laatz }
707bb4141dbSKevin Laatz
708*9ae55d13SChengwen Feng if (nb_queues == 0 || nb_queues > MAX_RX_QUEUES_COUNT) {
7098d85afb1SChengwen Feng printf("Invalid RX queues number %d. Max %u\n",
7108d85afb1SChengwen Feng nb_queues, MAX_RX_QUEUES_COUNT);
711bb4141dbSKevin Laatz return -1;
712bb4141dbSKevin Laatz }
713bb4141dbSKevin Laatz
714*9ae55d13SChengwen Feng if (ring_size == 0) {
7158d85afb1SChengwen Feng printf("Invalid ring size, %d.\n", ring_size);
716bb4141dbSKevin Laatz return -1;
717bb4141dbSKevin Laatz }
718bb4141dbSKevin Laatz if (ring_size > MBUF_RING_SIZE) {
719bb4141dbSKevin Laatz printf("Max ring_size is %d, setting ring_size to max",
720bb4141dbSKevin Laatz MBUF_RING_SIZE);
721bb4141dbSKevin Laatz ring_size = MBUF_RING_SIZE;
722bb4141dbSKevin Laatz }
723bb4141dbSKevin Laatz
724*9ae55d13SChengwen Feng if (stats_interval == 0) {
725bb4141dbSKevin Laatz printf("Invalid stats interval, setting to 1\n");
726bb4141dbSKevin Laatz stats_interval = 1; /* set to default */
727bb4141dbSKevin Laatz }
728bb4141dbSKevin Laatz
7298d85afb1SChengwen Feng return 0;
730bb4141dbSKevin Laatz }
731bb4141dbSKevin Laatz
732bb4141dbSKevin Laatz /* check link status, return true if at least one port is up */
733bb4141dbSKevin Laatz static int
check_link_status(uint32_t port_mask)734bb4141dbSKevin Laatz check_link_status(uint32_t port_mask)
735bb4141dbSKevin Laatz {
736bb4141dbSKevin Laatz uint16_t portid;
737bb4141dbSKevin Laatz struct rte_eth_link link;
738bb4141dbSKevin Laatz int ret, link_status = 0;
739bb4141dbSKevin Laatz char link_status_text[RTE_ETH_LINK_MAX_STR_LEN];
740bb4141dbSKevin Laatz
741bb4141dbSKevin Laatz printf("\nChecking link status\n");
742bb4141dbSKevin Laatz RTE_ETH_FOREACH_DEV(portid) {
743bb4141dbSKevin Laatz if ((port_mask & (1 << portid)) == 0)
744bb4141dbSKevin Laatz continue;
745bb4141dbSKevin Laatz
746bb4141dbSKevin Laatz memset(&link, 0, sizeof(link));
747bb4141dbSKevin Laatz ret = rte_eth_link_get(portid, &link);
748bb4141dbSKevin Laatz if (ret < 0) {
749bb4141dbSKevin Laatz printf("Port %u link get failed: err=%d\n",
750bb4141dbSKevin Laatz portid, ret);
751bb4141dbSKevin Laatz continue;
752bb4141dbSKevin Laatz }
753bb4141dbSKevin Laatz
754bb4141dbSKevin Laatz /* Print link status */
755bb4141dbSKevin Laatz rte_eth_link_to_str(link_status_text,
756bb4141dbSKevin Laatz sizeof(link_status_text), &link);
757bb4141dbSKevin Laatz printf("Port %d %s\n", portid, link_status_text);
758bb4141dbSKevin Laatz
759bb4141dbSKevin Laatz if (link.link_status)
760bb4141dbSKevin Laatz link_status = 1;
761bb4141dbSKevin Laatz }
762bb4141dbSKevin Laatz return link_status;
763bb4141dbSKevin Laatz }
764bb4141dbSKevin Laatz
765bb4141dbSKevin Laatz /* Configuration of device. 8< */
766bb4141dbSKevin Laatz static void
configure_dmadev_queue(uint32_t dev_id)767bb4141dbSKevin Laatz configure_dmadev_queue(uint32_t dev_id)
768bb4141dbSKevin Laatz {
769bb4141dbSKevin Laatz struct rte_dma_info info;
770bb4141dbSKevin Laatz struct rte_dma_conf dev_config = { .nb_vchans = 1 };
771bb4141dbSKevin Laatz struct rte_dma_vchan_conf qconf = {
772bb4141dbSKevin Laatz .direction = RTE_DMA_DIR_MEM_TO_MEM,
773bb4141dbSKevin Laatz .nb_desc = ring_size
774bb4141dbSKevin Laatz };
775bb4141dbSKevin Laatz uint16_t vchan = 0;
776bb4141dbSKevin Laatz
777bb4141dbSKevin Laatz if (rte_dma_configure(dev_id, &dev_config) != 0)
778bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Error with rte_dma_configure()\n");
779bb4141dbSKevin Laatz
780bb4141dbSKevin Laatz if (rte_dma_vchan_setup(dev_id, vchan, &qconf) != 0) {
781bb4141dbSKevin Laatz printf("Error with queue configuration\n");
782bb4141dbSKevin Laatz rte_panic();
783bb4141dbSKevin Laatz }
784bb4141dbSKevin Laatz rte_dma_info_get(dev_id, &info);
785bb4141dbSKevin Laatz if (info.nb_vchans != 1) {
786bb4141dbSKevin Laatz printf("Error, no configured queues reported on device id %u\n", dev_id);
787bb4141dbSKevin Laatz rte_panic();
788bb4141dbSKevin Laatz }
789bb4141dbSKevin Laatz if (rte_dma_start(dev_id) != 0)
790bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Error with rte_dma_start()\n");
791bb4141dbSKevin Laatz }
792bb4141dbSKevin Laatz /* >8 End of configuration of device. */
793bb4141dbSKevin Laatz
794bb4141dbSKevin Laatz /* Using dmadev API functions. 8< */
795bb4141dbSKevin Laatz static void
assign_dmadevs(void)796bb4141dbSKevin Laatz assign_dmadevs(void)
797bb4141dbSKevin Laatz {
798bb4141dbSKevin Laatz uint16_t nb_dmadev = 0;
799bb4141dbSKevin Laatz int16_t dev_id = rte_dma_next_dev(0);
800bb4141dbSKevin Laatz uint32_t i, j;
801bb4141dbSKevin Laatz
802bb4141dbSKevin Laatz for (i = 0; i < cfg.nb_ports; i++) {
803bb4141dbSKevin Laatz for (j = 0; j < cfg.ports[i].nb_queues; j++) {
804bb4141dbSKevin Laatz if (dev_id == -1)
805bb4141dbSKevin Laatz goto end;
806bb4141dbSKevin Laatz
807bb4141dbSKevin Laatz cfg.ports[i].dmadev_ids[j] = dev_id;
808bb4141dbSKevin Laatz configure_dmadev_queue(cfg.ports[i].dmadev_ids[j]);
809bb4141dbSKevin Laatz dev_id = rte_dma_next_dev(dev_id + 1);
810bb4141dbSKevin Laatz ++nb_dmadev;
811bb4141dbSKevin Laatz }
812bb4141dbSKevin Laatz }
813bb4141dbSKevin Laatz end:
814bb4141dbSKevin Laatz if (nb_dmadev < cfg.nb_ports * cfg.ports[0].nb_queues)
815bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
816bb4141dbSKevin Laatz "Not enough dmadevs (%u) for all queues (%u).\n",
817bb4141dbSKevin Laatz nb_dmadev, cfg.nb_ports * cfg.ports[0].nb_queues);
818bb4141dbSKevin Laatz RTE_LOG(INFO, DMA, "Number of used dmadevs: %u.\n", nb_dmadev);
819bb4141dbSKevin Laatz }
820bb4141dbSKevin Laatz /* >8 End of using dmadev API functions. */
821bb4141dbSKevin Laatz
822bb4141dbSKevin Laatz /* Assign ring structures for packet exchanging. 8< */
823bb4141dbSKevin Laatz static void
assign_rings(void)824bb4141dbSKevin Laatz assign_rings(void)
825bb4141dbSKevin Laatz {
826bb4141dbSKevin Laatz uint32_t i;
827bb4141dbSKevin Laatz
828bb4141dbSKevin Laatz for (i = 0; i < cfg.nb_ports; i++) {
829bb4141dbSKevin Laatz char ring_name[RTE_RING_NAMESIZE];
830bb4141dbSKevin Laatz
831bb4141dbSKevin Laatz snprintf(ring_name, sizeof(ring_name), "rx_to_tx_ring_%u", i);
832bb4141dbSKevin Laatz /* Create ring for inter core communication */
833bb4141dbSKevin Laatz cfg.ports[i].rx_to_tx_ring = rte_ring_create(
834bb4141dbSKevin Laatz ring_name, ring_size,
835bb4141dbSKevin Laatz rte_socket_id(), RING_F_SP_ENQ | RING_F_SC_DEQ);
836bb4141dbSKevin Laatz
837bb4141dbSKevin Laatz if (cfg.ports[i].rx_to_tx_ring == NULL)
838bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Ring create failed: %s\n",
839bb4141dbSKevin Laatz rte_strerror(rte_errno));
840bb4141dbSKevin Laatz }
841bb4141dbSKevin Laatz }
842bb4141dbSKevin Laatz /* >8 End of assigning ring structures for packet exchanging. */
843bb4141dbSKevin Laatz
844e0e95de2SHuisong Li static uint32_t
eth_dev_get_overhead_len(uint32_t max_rx_pktlen,uint16_t max_mtu)845e0e95de2SHuisong Li eth_dev_get_overhead_len(uint32_t max_rx_pktlen, uint16_t max_mtu)
846e0e95de2SHuisong Li {
847e0e95de2SHuisong Li uint32_t overhead_len;
848e0e95de2SHuisong Li
849e0e95de2SHuisong Li if (max_mtu != UINT16_MAX && max_rx_pktlen > max_mtu)
850e0e95de2SHuisong Li overhead_len = max_rx_pktlen - max_mtu;
851e0e95de2SHuisong Li else
852e0e95de2SHuisong Li overhead_len = RTE_ETHER_HDR_LEN + RTE_ETHER_CRC_LEN;
853e0e95de2SHuisong Li
854e0e95de2SHuisong Li return overhead_len;
855e0e95de2SHuisong Li }
856e0e95de2SHuisong Li
857e0e95de2SHuisong Li static int
config_port_max_pkt_len(struct rte_eth_conf * conf,struct rte_eth_dev_info * dev_info)858e0e95de2SHuisong Li config_port_max_pkt_len(struct rte_eth_conf *conf,
859e0e95de2SHuisong Li struct rte_eth_dev_info *dev_info)
860e0e95de2SHuisong Li {
861e0e95de2SHuisong Li uint32_t overhead_len;
862e0e95de2SHuisong Li
863e0e95de2SHuisong Li if (max_frame_size == 0)
864e0e95de2SHuisong Li return 0;
865e0e95de2SHuisong Li
866e0e95de2SHuisong Li if (max_frame_size < RTE_ETHER_MIN_LEN)
867e0e95de2SHuisong Li return -1;
868e0e95de2SHuisong Li
869e0e95de2SHuisong Li overhead_len = eth_dev_get_overhead_len(dev_info->max_rx_pktlen,
870e0e95de2SHuisong Li dev_info->max_mtu);
871e0e95de2SHuisong Li conf->rxmode.mtu = max_frame_size - overhead_len;
872e0e95de2SHuisong Li
873e0e95de2SHuisong Li return 0;
874e0e95de2SHuisong Li }
875e0e95de2SHuisong Li
876bb4141dbSKevin Laatz /*
877bb4141dbSKevin Laatz * Initializes a given port using global settings and with the RX buffers
878bb4141dbSKevin Laatz * coming from the mbuf_pool passed as a parameter.
879bb4141dbSKevin Laatz */
880bb4141dbSKevin Laatz static inline void
port_init(uint16_t portid,struct rte_mempool * mbuf_pool,uint16_t nb_queues)881bb4141dbSKevin Laatz port_init(uint16_t portid, struct rte_mempool *mbuf_pool, uint16_t nb_queues)
882bb4141dbSKevin Laatz {
883bb4141dbSKevin Laatz /* Configuring port to use RSS for multiple RX queues. 8< */
884bb4141dbSKevin Laatz static const struct rte_eth_conf port_conf = {
885bb4141dbSKevin Laatz .rxmode = {
886bb4141dbSKevin Laatz .mq_mode = RTE_ETH_MQ_RX_RSS,
887bb4141dbSKevin Laatz },
888bb4141dbSKevin Laatz .rx_adv_conf = {
889bb4141dbSKevin Laatz .rss_conf = {
890bb4141dbSKevin Laatz .rss_key = NULL,
891bb4141dbSKevin Laatz .rss_hf = RTE_ETH_RSS_PROTO_MASK,
892bb4141dbSKevin Laatz }
893bb4141dbSKevin Laatz }
894bb4141dbSKevin Laatz };
895bb4141dbSKevin Laatz /* >8 End of configuring port to use RSS for multiple RX queues. */
896bb4141dbSKevin Laatz
897bb4141dbSKevin Laatz struct rte_eth_rxconf rxq_conf;
898bb4141dbSKevin Laatz struct rte_eth_txconf txq_conf;
899bb4141dbSKevin Laatz struct rte_eth_conf local_port_conf = port_conf;
900bb4141dbSKevin Laatz struct rte_eth_dev_info dev_info;
901bb4141dbSKevin Laatz int ret, i;
902bb4141dbSKevin Laatz
903bb4141dbSKevin Laatz /* Skip ports that are not enabled */
904bb4141dbSKevin Laatz if ((dma_enabled_port_mask & (1 << portid)) == 0) {
905bb4141dbSKevin Laatz printf("Skipping disabled port %u\n", portid);
906bb4141dbSKevin Laatz return;
907bb4141dbSKevin Laatz }
908bb4141dbSKevin Laatz
909bb4141dbSKevin Laatz /* Init port */
910bb4141dbSKevin Laatz printf("Initializing port %u... ", portid);
911bb4141dbSKevin Laatz fflush(stdout);
912bb4141dbSKevin Laatz ret = rte_eth_dev_info_get(portid, &dev_info);
913bb4141dbSKevin Laatz if (ret < 0)
914bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Cannot get device info: %s, port=%u\n",
915bb4141dbSKevin Laatz rte_strerror(-ret), portid);
916bb4141dbSKevin Laatz
917e0e95de2SHuisong Li ret = config_port_max_pkt_len(&local_port_conf, &dev_info);
918e0e95de2SHuisong Li if (ret != 0)
919e0e95de2SHuisong Li rte_exit(EXIT_FAILURE,
920e0e95de2SHuisong Li "Invalid max frame size: %u (port %u)\n",
921e0e95de2SHuisong Li max_frame_size, portid);
922e0e95de2SHuisong Li
923bb4141dbSKevin Laatz local_port_conf.rx_adv_conf.rss_conf.rss_hf &=
924bb4141dbSKevin Laatz dev_info.flow_type_rss_offloads;
925bb4141dbSKevin Laatz ret = rte_eth_dev_configure(portid, nb_queues, 1, &local_port_conf);
926bb4141dbSKevin Laatz if (ret < 0)
927bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Cannot configure device:"
928bb4141dbSKevin Laatz " err=%d, port=%u\n", ret, portid);
929bb4141dbSKevin Laatz
930bb4141dbSKevin Laatz ret = rte_eth_dev_adjust_nb_rx_tx_desc(portid, &nb_rxd,
931bb4141dbSKevin Laatz &nb_txd);
932bb4141dbSKevin Laatz if (ret < 0)
933bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
934bb4141dbSKevin Laatz "Cannot adjust number of descriptors: err=%d, port=%u\n",
935bb4141dbSKevin Laatz ret, portid);
936bb4141dbSKevin Laatz
937bb4141dbSKevin Laatz rte_eth_macaddr_get(portid, &dma_ports_eth_addr[portid]);
938bb4141dbSKevin Laatz
939bb4141dbSKevin Laatz /* Init RX queues */
940bb4141dbSKevin Laatz rxq_conf = dev_info.default_rxconf;
941bb4141dbSKevin Laatz rxq_conf.offloads = local_port_conf.rxmode.offloads;
942bb4141dbSKevin Laatz for (i = 0; i < nb_queues; i++) {
943bb4141dbSKevin Laatz ret = rte_eth_rx_queue_setup(portid, i, nb_rxd,
944bb4141dbSKevin Laatz rte_eth_dev_socket_id(portid), &rxq_conf,
945bb4141dbSKevin Laatz mbuf_pool);
946bb4141dbSKevin Laatz if (ret < 0)
947bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
948bb4141dbSKevin Laatz "rte_eth_rx_queue_setup:err=%d,port=%u, queue_id=%u\n",
949bb4141dbSKevin Laatz ret, portid, i);
950bb4141dbSKevin Laatz }
951bb4141dbSKevin Laatz
952bb4141dbSKevin Laatz /* Init one TX queue on each port */
953bb4141dbSKevin Laatz txq_conf = dev_info.default_txconf;
954bb4141dbSKevin Laatz txq_conf.offloads = local_port_conf.txmode.offloads;
955bb4141dbSKevin Laatz ret = rte_eth_tx_queue_setup(portid, 0, nb_txd,
956bb4141dbSKevin Laatz rte_eth_dev_socket_id(portid),
957bb4141dbSKevin Laatz &txq_conf);
958bb4141dbSKevin Laatz if (ret < 0)
959bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
960bb4141dbSKevin Laatz "rte_eth_tx_queue_setup:err=%d,port=%u\n",
961bb4141dbSKevin Laatz ret, portid);
962bb4141dbSKevin Laatz
963bb4141dbSKevin Laatz /* Start device. 8< */
964bb4141dbSKevin Laatz ret = rte_eth_dev_start(portid);
965bb4141dbSKevin Laatz if (ret < 0)
966bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
967bb4141dbSKevin Laatz "rte_eth_dev_start:err=%d, port=%u\n",
968bb4141dbSKevin Laatz ret, portid);
969bb4141dbSKevin Laatz /* >8 End of starting device. */
970bb4141dbSKevin Laatz
971bb4141dbSKevin Laatz /* RX port is set in promiscuous mode. 8< */
972bb4141dbSKevin Laatz rte_eth_promiscuous_enable(portid);
973bb4141dbSKevin Laatz /* >8 End of RX port is set in promiscuous mode. */
974bb4141dbSKevin Laatz
975bb4141dbSKevin Laatz printf("Port %u, MAC address: " RTE_ETHER_ADDR_PRT_FMT "\n\n",
976bb4141dbSKevin Laatz portid,
977bb4141dbSKevin Laatz RTE_ETHER_ADDR_BYTES(&dma_ports_eth_addr[portid]));
978bb4141dbSKevin Laatz
979bb4141dbSKevin Laatz cfg.ports[cfg.nb_ports].rxtx_port = portid;
980bb4141dbSKevin Laatz cfg.ports[cfg.nb_ports++].nb_queues = nb_queues;
981bb4141dbSKevin Laatz }
982bb4141dbSKevin Laatz
983bb4141dbSKevin Laatz /* Get a device dump for each device being used by the application */
984bb4141dbSKevin Laatz static void
dmadev_dump(void)985bb4141dbSKevin Laatz dmadev_dump(void)
986bb4141dbSKevin Laatz {
987bb4141dbSKevin Laatz uint32_t i, j;
988bb4141dbSKevin Laatz
989bb4141dbSKevin Laatz if (copy_mode != COPY_MODE_DMA_NUM)
990bb4141dbSKevin Laatz return;
991bb4141dbSKevin Laatz
992bb4141dbSKevin Laatz for (i = 0; i < cfg.nb_ports; i++)
993bb4141dbSKevin Laatz for (j = 0; j < cfg.ports[i].nb_queues; j++)
994bb4141dbSKevin Laatz rte_dma_dump(cfg.ports[i].dmadev_ids[j], stdout);
995bb4141dbSKevin Laatz }
996bb4141dbSKevin Laatz
997bb4141dbSKevin Laatz static void
signal_handler(int signum)998bb4141dbSKevin Laatz signal_handler(int signum)
999bb4141dbSKevin Laatz {
1000bb4141dbSKevin Laatz if (signum == SIGINT || signum == SIGTERM) {
1001bb4141dbSKevin Laatz printf("\n\nSignal %d received, preparing to exit...\n",
1002bb4141dbSKevin Laatz signum);
1003bb4141dbSKevin Laatz force_quit = true;
1004bb4141dbSKevin Laatz } else if (signum == SIGUSR1) {
1005bb4141dbSKevin Laatz dmadev_dump();
1006bb4141dbSKevin Laatz }
1007bb4141dbSKevin Laatz }
1008bb4141dbSKevin Laatz
1009bb4141dbSKevin Laatz int
main(int argc,char ** argv)1010bb4141dbSKevin Laatz main(int argc, char **argv)
1011bb4141dbSKevin Laatz {
1012bb4141dbSKevin Laatz int ret;
1013bb4141dbSKevin Laatz uint16_t nb_ports, portid;
1014bb4141dbSKevin Laatz uint32_t i;
1015bb4141dbSKevin Laatz unsigned int nb_mbufs;
1016bb4141dbSKevin Laatz size_t sz;
1017bb4141dbSKevin Laatz
1018bb4141dbSKevin Laatz /* Init EAL. 8< */
1019bb4141dbSKevin Laatz ret = rte_eal_init(argc, argv);
1020bb4141dbSKevin Laatz if (ret < 0)
1021bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Invalid EAL arguments\n");
1022bb4141dbSKevin Laatz /* >8 End of init EAL. */
1023bb4141dbSKevin Laatz argc -= ret;
1024bb4141dbSKevin Laatz argv += ret;
1025bb4141dbSKevin Laatz
1026bb4141dbSKevin Laatz force_quit = false;
1027bb4141dbSKevin Laatz signal(SIGINT, signal_handler);
1028bb4141dbSKevin Laatz signal(SIGTERM, signal_handler);
1029bb4141dbSKevin Laatz signal(SIGUSR1, signal_handler);
1030bb4141dbSKevin Laatz
1031bb4141dbSKevin Laatz nb_ports = rte_eth_dev_count_avail();
1032bb4141dbSKevin Laatz if (nb_ports == 0)
1033bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "No Ethernet ports - bye\n");
1034bb4141dbSKevin Laatz
1035bb4141dbSKevin Laatz /* Parse application arguments (after the EAL ones) */
1036bb4141dbSKevin Laatz ret = dma_parse_args(argc, argv, nb_ports);
1037bb4141dbSKevin Laatz if (ret < 0)
1038bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Invalid DMA arguments\n");
1039bb4141dbSKevin Laatz
1040bb4141dbSKevin Laatz /* Allocates mempool to hold the mbufs. 8< */
1041bb4141dbSKevin Laatz nb_mbufs = RTE_MAX(nb_ports * (nb_queues * (nb_rxd + nb_txd +
1042bb4141dbSKevin Laatz 4 * MAX_PKT_BURST + ring_size) + ring_size +
1043bb4141dbSKevin Laatz rte_lcore_count() * MEMPOOL_CACHE_SIZE),
1044bb4141dbSKevin Laatz MIN_POOL_SIZE);
1045bb4141dbSKevin Laatz
1046bb4141dbSKevin Laatz /* Create the mbuf pool */
1047bb4141dbSKevin Laatz sz = max_frame_size + RTE_PKTMBUF_HEADROOM;
1048bb4141dbSKevin Laatz sz = RTE_MAX(sz, (size_t)RTE_MBUF_DEFAULT_BUF_SIZE);
1049bb4141dbSKevin Laatz dma_pktmbuf_pool = rte_pktmbuf_pool_create("mbuf_pool", nb_mbufs,
1050bb4141dbSKevin Laatz MEMPOOL_CACHE_SIZE, 0, sz, rte_socket_id());
1051bb4141dbSKevin Laatz if (dma_pktmbuf_pool == NULL)
1052bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE, "Cannot init mbuf pool\n");
1053bb4141dbSKevin Laatz /* >8 End of allocates mempool to hold the mbufs. */
1054bb4141dbSKevin Laatz
1055bebbf072SChengwen Feng if (force_min_copy_size >
1056bebbf072SChengwen Feng (uint32_t)(rte_pktmbuf_data_room_size(dma_pktmbuf_pool) -
1057bebbf072SChengwen Feng RTE_PKTMBUF_HEADROOM))
1058bebbf072SChengwen Feng rte_exit(EXIT_FAILURE,
1059bebbf072SChengwen Feng "Force min copy size > packet mbuf size\n");
1060bebbf072SChengwen Feng
1061bb4141dbSKevin Laatz /* Initialize each port. 8< */
1062bb4141dbSKevin Laatz cfg.nb_ports = 0;
1063bb4141dbSKevin Laatz RTE_ETH_FOREACH_DEV(portid)
1064bb4141dbSKevin Laatz port_init(portid, dma_pktmbuf_pool, nb_queues);
1065bb4141dbSKevin Laatz /* >8 End of initializing each port. */
1066bb4141dbSKevin Laatz
1067bb4141dbSKevin Laatz /* Initialize port xstats */
1068bb4141dbSKevin Laatz memset(&port_statistics, 0, sizeof(port_statistics));
1069bb4141dbSKevin Laatz
1070bb4141dbSKevin Laatz /* Assigning each port resources. 8< */
1071bb4141dbSKevin Laatz while (!check_link_status(dma_enabled_port_mask) && !force_quit)
1072bb4141dbSKevin Laatz sleep(1);
1073bb4141dbSKevin Laatz
1074bb4141dbSKevin Laatz /* Check if there is enough lcores for all ports. */
1075bb4141dbSKevin Laatz cfg.nb_lcores = rte_lcore_count() - 1;
1076bb4141dbSKevin Laatz if (cfg.nb_lcores < 1)
1077bb4141dbSKevin Laatz rte_exit(EXIT_FAILURE,
1078bb4141dbSKevin Laatz "There should be at least one worker lcore.\n");
1079bb4141dbSKevin Laatz
1080bb4141dbSKevin Laatz if (copy_mode == COPY_MODE_DMA_NUM)
1081bb4141dbSKevin Laatz assign_dmadevs();
1082bb4141dbSKevin Laatz
1083bb4141dbSKevin Laatz assign_rings();
1084bb4141dbSKevin Laatz /* >8 End of assigning each port resources. */
1085bb4141dbSKevin Laatz
1086bb4141dbSKevin Laatz start_forwarding_cores();
1087bb4141dbSKevin Laatz /* main core prints stats while other cores forward */
1088bb4141dbSKevin Laatz print_stats(argv[0]);
1089bb4141dbSKevin Laatz
1090bb4141dbSKevin Laatz /* force_quit is true when we get here */
1091bb4141dbSKevin Laatz rte_eal_mp_wait_lcore();
1092bb4141dbSKevin Laatz
1093bb4141dbSKevin Laatz uint32_t j;
1094bb4141dbSKevin Laatz for (i = 0; i < cfg.nb_ports; i++) {
1095bb4141dbSKevin Laatz printf("Closing port %d\n", cfg.ports[i].rxtx_port);
1096bb4141dbSKevin Laatz ret = rte_eth_dev_stop(cfg.ports[i].rxtx_port);
1097bb4141dbSKevin Laatz if (ret != 0)
1098bb4141dbSKevin Laatz RTE_LOG(ERR, DMA, "rte_eth_dev_stop: err=%s, port=%u\n",
1099bb4141dbSKevin Laatz rte_strerror(-ret), cfg.ports[i].rxtx_port);
1100bb4141dbSKevin Laatz
1101bb4141dbSKevin Laatz rte_eth_dev_close(cfg.ports[i].rxtx_port);
1102bb4141dbSKevin Laatz if (copy_mode == COPY_MODE_DMA_NUM) {
1103bb4141dbSKevin Laatz for (j = 0; j < cfg.ports[i].nb_queues; j++) {
1104bb4141dbSKevin Laatz printf("Stopping dmadev %d\n",
1105bb4141dbSKevin Laatz cfg.ports[i].dmadev_ids[j]);
1106bb4141dbSKevin Laatz rte_dma_stop(cfg.ports[i].dmadev_ids[j]);
1107bb4141dbSKevin Laatz }
1108bb4141dbSKevin Laatz } else /* copy_mode == COPY_MODE_SW_NUM */
1109bb4141dbSKevin Laatz rte_ring_free(cfg.ports[i].rx_to_tx_ring);
1110bb4141dbSKevin Laatz }
1111bb4141dbSKevin Laatz
1112bb4141dbSKevin Laatz /* clean up the EAL */
1113bb4141dbSKevin Laatz rte_eal_cleanup();
1114bb4141dbSKevin Laatz
1115bb4141dbSKevin Laatz printf("Bye...\n");
1116bb4141dbSKevin Laatz return 0;
1117bb4141dbSKevin Laatz }
1118