示例#1
0
int memcmp(const void *m1, const void *m2, __kernel_size_t n)
{
	const u8 *s1 = (u8 *)m1;
	const u8 *s2 = (u8 *)m2;
	const u64 *a1, *a2;

	/* If the size is too small or either pointer is unaligned then we punt
	 * to the byte compare loop.  Hopefully this will not turn up in inner
	 * loops.
	 */
	CVMX_PREFETCH0(m1);
	CVMX_PREFETCH0(m2);
	if (!TOO_SMALL(n) && !UNALIGNED(s1, s2)) {
		/* Otherwise, load and compare the blocks of memory to use
		 * one word at a time.
		 */
		a1 = (u64 *)s1;
		a2 = (u64 *)s2;
		while (n >= LBLOCKSIZE) {
			if (*a1 != *a2)
				break;
			a1++;
			a2++;
			n -= LBLOCKSIZE;
		}
		/* check m mod LBLOCKSIZE remaining characters */
		s1 = (u8 *)a1;
		s2 = (u8 *)a2;
	} else if (!TOO_SMALL(n) && UNALIGNED(s1, s2)) {
		u64 t1, t2;
		while (n >= LBLOCKSIZE) {
			CVMX_LOADUNA_INT64(t1, s1, 0);
			CVMX_LOADUNA_INT64(t2, s2, 0);
			if (t1 != t2)
				break;
			s1 += LBLOCKSIZE;
			s2 += LBLOCKSIZE;
			n-= LBLOCKSIZE;
		}
	}
	/* Check m mod LBLOCKSIZE remaining characters */
	while (n--) {
		if (*s1 != *s2)
			return *s1 - *s2;
		s1++;
		s2++;
	}

	return 0;
}
示例#2
0
/**
 * Process incoming packets. 
 */
int inic_data_loop(void)
{
		cvm_common_wqe_t *swp = NULL;
		cvm_tcp_in_endpoints_t conn;
		cvm_tcp_tcphdr_t *th = NULL;
		cvm_ip_ip_t *ih = NULL;
		cvmx_sysinfo_t *sys_info_ptr = cvmx_sysinfo_get();
		uint64_t cpu_clock_hz = sys_info_ptr->cpu_clock_hz;
		uint64_t tick_cycle = cvmx_get_cycle();
		uint64_t tick_step;
		uint32_t idle_processing_interval_ticks = (CVM_COMMON_IDLE_PROCESSING_INTERVAL)*(1000*1000)/(CVM_COMMON_TICK_LEN_US);
		uint32_t idle_processing_last_ticks = 0;
#ifdef INET6
		struct cvm_ip6_ip6_hdr *ip6 = NULL;
#ifdef CVM_ENET_TUNNEL
		struct cvm_ip6_ip6_hdr *i6h = NULL;
#endif
#endif


#ifdef CVM_CLI_APP
		uint64_t idle_cycle_start_value;
#endif

		/* for the simulator */
		if (cpu_clock_hz == 0)
		{
				cpu_clock_hz = 333000000;
		}

		tick_step = (CVM_COMMON_TICK_LEN_US * cpu_clock_hz) / 1000000;
		cvm_debug_print_interval = cpu_clock_hz;

#ifndef REAL_HW
		/* for the simulator, set the debug interval to be 3M cycles */
		cvm_debug_print_interval = 3000000;
#endif

#ifdef DUTY_CYCLE
		start_cycle = cvmx_get_cycle();
		process_count = 0;
#endif

		if (cvmx_coremask_first_core(coremask_data)) 
		{
				/* Initiate a timer transaction for arp entry timeouts */
				//if(cvm_enet_arp_timeout_init() != CVMX_TIM_STATUS_SUCCESS)
				//{
				//		printf("Failed init of cvm_ip_arp_timeout_init\n");
				//}
		}

#if defined(CVM_COMBINED_APP_STACK)
		/* Flush the packets sent by main_global and main_local */
		/*
		printf("before cvm_send_packet () \n ");
		if (out_swp)
		{
				cvm_send_packet ();
		}
		printf("after cvm_send_packet () \n ");
		*/
		uint64_t app_timeout = cvmx_get_cycle ();
#endif




		/* start the main loop */
		while (1)
		{


#ifdef DUTY_CYCLE
				end_cycle = cvmx_get_cycle();

				/* check the wrap around case */
				if (end_cycle < start_cycle) end_cycle += cpu_clock_hz;

				if ((end_cycle - start_cycle) > cvm_debug_print_interval)
				{
						inic_do_per_second_duty_cycle_processing();
				}
#endif /* DUTY_CYCLE */

				cvmx_pow_work_request_async_nocheck(CVMX_SCR_WORK, 1);

				/* update the ticks variable */
				while (cvmx_get_cycle() - tick_cycle > tick_step)
				{
						tick_cycle += tick_step;
						cvm_tcp_ticks++;
						if (!(cvm_tcp_ticks & 0x1f)) CVM_COMMON_HISTORY_SET_CYCLE();
				}


				/* do common idle processing */
				if ( (cvm_tcp_ticks - idle_processing_last_ticks) > idle_processing_interval_ticks)
				{
						if (cvmx_coremask_first_core(coremask_data)) 
						{
								cvm_common_do_idle_processing();
						}

						idle_processing_last_ticks = cvm_tcp_ticks;
				}


#ifdef CVM_CLI_APP
				idle_cycle_start_value = cvmx_get_cycle();
#endif

				/* get work entry */
				swp = (cvm_common_wqe_t *)cvmx_pow_work_response_async(CVMX_SCR_WORK);
				if (swp == NULL)
				{
						idle_counter++;

						if(core_id == highest_core_id)
						{
								cvm_enet_check_link_status();
						}

#ifdef CVM_CLI_APP
						cvmx_fau_atomic_add64(core_idle_cycles[core_id], (cvmx_get_cycle()-idle_cycle_start_value) );
#endif
						continue;
				}

				CVM_COMMON_EXTRA_STATS_ADD64 (CVM_FAU_REG_WQE_RCVD, 1);

#ifdef WORK_QUEUE_ENTRY_SIZE_128 // {
				CVMX_PREFETCH0(swp);
#else
				/* Prefetch work-queue entry */
				CVMX_PREFETCH0(swp);
				CVMX_PREFETCH128(swp);
#endif // WORK_QUEUE_ENTRY_SIZE_128 }

				out_swp = 0;
				out_swp_tail = 0;


#ifdef DUTY_CYCLE
				/* we are about to start processing the packet - remember the cycle count */
				process_start_cycle = cvmx_get_cycle();
#endif


				/* Short cut the common case */
				if (cvmx_likely(swp->hw_wqe.unused == 0))
				{
						goto packet_from_the_wire;
				}
				printf("Get work with unused is %X\n", swp->hw_wqe.unused);

				{
						{

packet_from_the_wire:

#if CVM_PKO_DONTFREE
								swp->hw_wqe.packet_ptr.s.i = 0;
#endif

#ifdef SANITY_CHECKS
								/* we have a work queue entry - do input sanity checks */
								ret = cvm_common_input_sanity_and_buffer_count_update(swp);
#endif

								if (cvmx_unlikely(swp->hw_wqe.word2.s.rcv_error))
								{
										goto discard_swp; /* Receive error */
								}

#ifndef WORK_QUEUE_ENTRY_SIZE_128 // {
								{
										/* Make sure pre-fetch completed */
										uint64_t dp = *(volatile uint64_t*)&swp->next;
								}
#endif // WORK_QUEUE_ENTRY_SIZE_128 }

								{
										/* Initialize SW portion of the work-queue entry */
										uint64_t *dptr = (uint64_t*)(&swp->next);
										dptr[0] = 0;
										dptr[1] = 0;
										dptr[2] = 0;
										dptr[3] = 0;
								}

								if(cvmx_unlikely(swp->hw_wqe.word2.s.not_IP))
								{
										goto output;
								}

								/* Shortcut classification to avoid multiple lookups */
								if(
#ifndef INET6
												swp->hw_wqe.word2.s.is_v6 || 
#endif
												swp->hw_wqe.word2.s.is_bcast 
#ifndef INET6
												|| swp->hw_wqe.word2.s.is_mcast
#endif
								  )
								{
										goto discard_swp; /* Receive error */
								}


								/* Packet is unicast IPv4, without L2 errors */
								/* (All IP exceptions are dropped.  This currently includes
								 *  IPv4 options and IPv6 extension headers.)
								 */
								if(cvmx_unlikely(swp->hw_wqe.word2.s.IP_exc))
								{
										goto discard_swp;
								}

								/* Packet is Ipv4 (and no IP exceptions) */
								if (cvmx_unlikely(swp->hw_wqe.word2.s.is_frag || !swp->hw_wqe.word2.s.tcp_or_udp))
								{
										goto output;
								}

#ifdef ANVL_RFC_793_COMPLIANCE
								/* RFC 793 says that:
								   - We should send a RST out when we get a packet with FIN set 
								   without the ACK bit set in the flags field. 
								   - We should send a RST out when we get a packet with no flag set.
								   Hence, let TCP stack handle these conditions.
								 */
								if (cvmx_unlikely(swp->hw_wqe.word2.s.L4_error &&
														(cvmx_pip_l4_err_t)(swp->hw_wqe.word2.s.err_code != CVMX_PIP_TCP_FLG8_ERR) &&
														(cvmx_pip_l4_err_t)(swp->hw_wqe.word2.s.err_code != CVMX_PIP_TCP_FLG9_ERR)))
#else
										if (cvmx_unlikely(swp->hw_wqe.word2.s.L4_error))
#endif
										{
												cvm_tcp_handle_error(swp);
												goto discard_swp;
										}

								/* Packet is not fragmented, TCP/UDP, no IP exceptions/L4 errors */
								/* We can try an L4 lookup now, but we need all the information */
								ih = ((cvm_ip_ip_t *)&(swp->hw_wqe.packet_data[CVM_COMMON_PD_ALIGN]));

								if (!swp->hw_wqe.word2.s.is_v6)
								{
										/* for IPv4, we must subtract CVM_COMMON_PD_ALIGN rom tcp_offset to get the offset in the mbuf */
										swp->l4_offset = ((uint16_t)(ih->ip_hl) << 2) + CVM_COMMON_PD_ALIGN;
										swp->l4_prot = ih->ip_p;
								}
#ifdef INET6
								else
								{
										ip6 = (struct cvm_ip6_ip6_hdr *) &swp->hw_wqe.packet_data[CVM_COMMON_IP6_PD_ALIGN];

										CVM_COMMON_DBG_MSG (CVM_COMMON_DBG_LVL_5, 
														"%s: %d Packet trace Src: %s/%d Dest: %s/%d prot: %d len: %d\n", 
														__FUNCTION__, __LINE__, 
														cvm_ip6_ip6_sprintf (&ip6->ip6_dst), conn.ie_fport, 
														cvm_ip6_ip6_sprintf (&ip6->ip6_src), conn.ie_lport,
														swp->l4_prot, swp->hw_wqe.len);
										/* for IPv4, we must subtract CVM_COMMON_PD_ALIGN rom tcp_offset to get the offset in the mbuf */
										swp->l4_offset = CVM_IP6_IP6_HDRLEN;
										swp->l4_prot = ip6->ip6_ctlun.ip6_un1.ip6_un1_nxt;

								}
#endif

								th = ((cvm_tcp_tcphdr_t *)&(swp->hw_wqe.packet_data[swp->l4_offset]));

								/* check if it is a TCP packet */
								if (swp->l4_prot == CVM_IP_IPPROTO_TCP)
								{
										process_handle(swp);
#ifdef INET6
										if (!swp->hw_wqe.word2.s.is_v6)
#endif
										{
												CVM_TCP_TCP_DUMP ((void*)ih);

												/* assume IPv4 for now */
												conn.ie_laddr = ih->ip_dst.s_addr;
												conn.ie_faddr = ih->ip_src.s_addr;
												conn.ie_lport = th->th_dport;
												conn.ie_fport = th->th_sport;

										}
#ifdef INET6
										else
										{
												/* assume IPv4 for now */
												memcpy (&conn.ie6_laddr, &ip6->ip6_dst, sizeof (struct cvm_ip6_in6_addr));
												memcpy (&conn.ie6_faddr, &ip6->ip6_src, sizeof (struct cvm_ip6_in6_addr));
												conn.ie_lport = th->th_dport;
												conn.ie_fport = th->th_sport;

												/* do a TCP lookup */
												swp->tcb = cvm_tcp6_lookup (swp);

												CVM_COMMON_DBG_MSG (CVM_COMMON_DBG_LVL_5, "%s: %d TCPv6 lookup Src: %s/%d Dest: %s/%d ret_tcb: 0x%llx\n", 
																__FUNCTION__, __LINE__, 
																cvm_ip6_ip6_sprintf ((cvm_ip6_in6_addr_t *) &conn.ie6_faddr), conn.ie_fport, 
																cvm_ip6_ip6_sprintf ((cvm_ip6_in6_addr_t *) &conn.ie6_laddr), conn.ie_lport, 
																CAST64(swp->tcb));
										}
#endif // INET6
								}


								goto output;
						} /* packet from wire */
				} /* switch */


output:
				CVMX_SYNCWS;

				/* Send packet out */
				if (out_swp)
				{
						cvm_send_packet();
				}

				if(swp != NULL)
				{
						S3_send_packet((cvmx_wqe_t *)swp);
						swp = NULL;
				}
#ifdef DUTY_CYCLE
				process_end_cycle = cvmx_get_cycle();
				process_count += (process_end_cycle - process_start_cycle);
#endif
		}

		return (0);


discard_swp:
		/* Free the chained buffers */
		cvm_common_packet_free(swp);

		/* Free the work queue entry */
		cvm_common_free_fpa_buffer(swp, CVMX_FPA_WQE_POOL, CVMX_FPA_WQE_POOL_SIZE / CVMX_CACHE_LINE_SIZE);
		swp = NULL;
		goto output;

} /* inic_data_loop */