diff --git a/openwrt/target/linux/linux-2.6/config/brcm b/openwrt/target/linux/linux-2.6/config/brcm index af99c279f6..e7ec865e58 100644 --- a/openwrt/target/linux/linux-2.6/config/brcm +++ b/openwrt/target/linux/linux-2.6/config/brcm @@ -1,7 +1,7 @@ # # Automatically generated make config: don't edit -# Linux kernel version: 2.6.15-rc5 -# Thu Dec 15 08:44:06 2005 +# Linux kernel version: 2.6.15-rc6 +# Sat Dec 24 00:37:33 2005 # CONFIG_MIPS=y @@ -155,6 +155,7 @@ CONFIG_HOTPLUG=y CONFIG_KOBJECT_UEVENT=y # CONFIG_IKCONFIG is not set CONFIG_INITRAMFS_SOURCE="" +CONFIG_CC_OPTIMIZE_FOR_SIZE=y CONFIG_EMBEDDED=y # CONFIG_KALLSYMS is not set CONFIG_PRINTK=y @@ -162,7 +163,6 @@ CONFIG_BUG=y CONFIG_BASE_FULL=y CONFIG_FUTEX=y CONFIG_EPOLL=y -CONFIG_CC_OPTIMIZE_FOR_SIZE=y CONFIG_SHMEM=y CONFIG_CC_ALIGN_FUNCTIONS=0 CONFIG_CC_ALIGN_LABELS=0 @@ -252,6 +252,7 @@ CONFIG_UNIX=y CONFIG_XFRM=y # CONFIG_XFRM_USER is not set # CONFIG_NET_KEY is not set +CONFIG_RING=y CONFIG_INET=y CONFIG_IP_MULTICAST=y CONFIG_IP_ADVANCED_ROUTER=y diff --git a/openwrt/target/linux/linux-2.6/patches/generic/104-pf_ring.patch b/openwrt/target/linux/linux-2.6/patches/generic/104-pf_ring.patch new file mode 100644 index 0000000000..527e5d5337 --- /dev/null +++ b/openwrt/target/linux/linux-2.6/patches/generic/104-pf_ring.patch @@ -0,0 +1,1833 @@ +diff --unified --recursive --new-file linux-2.6.15-rc6/include/linux/ring.h linux-2.6.15-rc6-1-686-smp-ring3/include/linux/ring.h +--- linux-2.6.15-rc6/include/linux/ring.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/include/linux/ring.h 2005-12-24 00:24:01.000000000 +0100 +@@ -0,0 +1,107 @@ ++/* ++ * Definitions for packet ring ++ * ++ * 2004 - Luca Deri ++ */ ++#ifndef __RING_H ++#define __RING_H ++ ++ ++#define INCLUDE_MAC_INFO ++ ++#ifdef INCLUDE_MAC_INFO ++#define SKB_DISPLACEMENT 14 /* Include MAC address information */ ++#else ++#define SKB_DISPLACEMENT 0 /* Do NOT include MAC address information */ ++#endif ++ ++#define RING_MAGIC ++#define RING_MAGIC_VALUE 0x88 ++#define RING_FLOWSLOT_VERSION 6 ++#define RING_VERSION "3.1" ++ ++#define SO_ADD_TO_CLUSTER 99 ++#define SO_REMOVE_FROM_CLUSTER 100 ++#define SO_SET_REFLECTOR 101 ++ ++/* *********************************** */ ++ ++#ifndef HAVE_PCAP ++struct pcap_pkthdr { ++ struct timeval ts; /* time stamp */ ++ u_int32_t caplen; /* length of portion present */ ++ u_int32_t len; /* length this packet (off wire) */ ++}; ++#endif ++ ++/* *********************************** */ ++ ++enum cluster_type { ++ cluster_per_flow = 0, ++ cluster_round_robin ++}; ++ ++/* *********************************** */ ++ ++#define RING_MIN_SLOT_SIZE (60+sizeof(struct pcap_pkthdr)) ++#define RING_MAX_SLOT_SIZE (1514+sizeof(struct pcap_pkthdr)) ++ ++/* *********************************** */ ++ ++typedef struct flowSlotInfo { ++ u_int16_t version, sample_rate; ++ u_int32_t tot_slots, slot_len, data_len, tot_mem; ++ ++ u_int64_t tot_pkts, tot_lost; ++ u_int64_t tot_insert, tot_read; ++ u_int32_t insert_idx, remove_idx; ++} FlowSlotInfo; ++ ++/* *********************************** */ ++ ++typedef struct flowSlot { ++#ifdef RING_MAGIC ++ u_char magic; /* It must alwasy be zero */ ++#endif ++ u_char slot_state; /* 0=empty, 1=full */ ++ u_char bucket; /* bucket[bucketLen] */ ++} FlowSlot; ++ ++/* *********************************** */ ++ ++#ifdef __KERNEL__ ++ ++FlowSlotInfo* getRingPtr(void); ++int allocateRing(char *deviceName, u_int numSlots, ++ u_int bucketLen, u_int sampleRate); ++unsigned int pollRing(struct file *fp, struct poll_table_struct * wait); ++void deallocateRing(void); ++ ++/* ************************* */ ++ ++typedef int (*handle_ring_skb)(struct sk_buff *skb, ++ u_char recv_packet, u_char real_skb); ++extern handle_ring_skb get_skb_ring_handler(void); ++extern void set_skb_ring_handler(handle_ring_skb the_handler); ++extern void do_skb_ring_handler(struct sk_buff *skb, ++ u_char recv_packet, u_char real_skb); ++ ++typedef int (*handle_ring_buffer)(struct net_device *dev, ++ char *data, int len); ++extern handle_ring_buffer get_buffer_ring_handler(void); ++extern void set_buffer_ring_handler(handle_ring_buffer the_handler); ++extern int do_buffer_ring_handler(struct net_device *dev, ++ char *data, int len); ++#endif /* __KERNEL__ */ ++ ++/* *********************************** */ ++ ++#define PF_RING 27 /* Packet Ring */ ++#define SOCK_RING PF_RING ++ ++/* ioctl() */ ++#define SIORINGPOLL 0x8888 ++ ++/* *********************************** */ ++ ++#endif /* __RING_H */ +diff --unified --recursive --new-file linux-2.6.15-rc6/net/core/dev.c linux-2.6.15-rc6-1-686-smp-ring3/net/core/dev.c +--- linux-2.6.15-rc6/net/core/dev.c 2005-12-19 01:36:54.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/core/dev.c 2005-12-24 00:24:02.000000000 +0100 +@@ -115,6 +115,56 @@ + #endif /* CONFIG_NET_RADIO */ + #include + ++#if defined (CONFIG_RING) || defined(CONFIG_RING_MODULE) ++ ++/* #define RING_DEBUG */ ++ ++#include ++#include ++ ++static handle_ring_skb ring_handler = NULL; ++ ++handle_ring_skb get_skb_ring_handler() { return(ring_handler); } ++ ++void set_skb_ring_handler(handle_ring_skb the_handler) { ++ ring_handler = the_handler; ++} ++ ++void do_skb_ring_handler(struct sk_buff *skb, ++ u_char recv_packet, u_char real_skb) { ++ if(ring_handler) ++ ring_handler(skb, recv_packet, real_skb); ++} ++ ++/* ******************* */ ++ ++static handle_ring_buffer buffer_ring_handler = NULL; ++ ++handle_ring_buffer get_buffer_ring_handler() { return(buffer_ring_handler); } ++ ++void set_buffer_ring_handler(handle_ring_buffer the_handler) { ++ buffer_ring_handler = the_handler; ++} ++ ++int do_buffer_ring_handler(struct net_device *dev, char *data, int len) { ++ if(buffer_ring_handler) { ++ buffer_ring_handler(dev, data, len); ++ return(1); ++ } else ++ return(0); ++} ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++EXPORT_SYMBOL(get_skb_ring_handler); ++EXPORT_SYMBOL(set_skb_ring_handler); ++EXPORT_SYMBOL(do_skb_ring_handler); ++ ++EXPORT_SYMBOL(get_buffer_ring_handler); ++EXPORT_SYMBOL(set_buffer_ring_handler); ++EXPORT_SYMBOL(do_buffer_ring_handler); ++#endif ++ ++#endif + /* + * The list of packet types we will receive (as opposed to discard) + * and the routines to invoke. +@@ -1296,6 +1346,10 @@ + skb->tc_verd = SET_TC_AT(skb->tc_verd,AT_EGRESS); + #endif + if (q->enqueue) { ++#if defined (CONFIG_RING) || defined(CONFIG_RING_MODULE) ++ if(ring_handler) ring_handler(skb, 0, 1); ++#endif /* CONFIG_RING */ ++ + /* Grab device queue */ + spin_lock(&dev->queue_lock); + +@@ -1437,6 +1491,13 @@ + + preempt_disable(); + err = netif_rx(skb); ++#if defined (CONFIG_RING) || defined(CONFIG_RING_MODULE) ++ if(ring_handler && ring_handler(skb, 1, 1)) { ++ /* The packet has been copied into a ring */ ++ return(NET_RX_SUCCESS); ++ } ++#endif /* CONFIG_RING */ ++ + if (local_softirq_pending()) + do_softirq(); + preempt_enable(); +@@ -1582,6 +1643,13 @@ + struct net_device *orig_dev; + int ret = NET_RX_DROP; + unsigned short type; ++#if defined (CONFIG_RING) || defined(CONFIG_RING_MODULE) ++ if(ring_handler && ring_handler(skb, 1, 1)) { ++ /* The packet has been copied into a ring */ ++ return(NET_RX_SUCCESS); ++ } ++#endif /* CONFIG_RING */ ++ + + /* if we've gotten here through NAPI, check netpoll */ + if (skb->dev->poll && netpoll_rx(skb)) +diff --unified --recursive --new-file linux-2.6.15-rc6/net/Kconfig linux-2.6.15-rc6-1-686-smp-ring3/net/Kconfig +--- linux-2.6.15-rc6/net/Kconfig 2005-12-19 01:36:54.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/Kconfig 2005-12-24 00:24:02.000000000 +0100 +@@ -31,6 +31,7 @@ + source "net/unix/Kconfig" + source "net/xfrm/Kconfig" + ++source "net/ring/Kconfig" + config INET + bool "TCP/IP networking" + ---help--- +diff --unified --recursive --new-file linux-2.6.15-rc6/net/Makefile linux-2.6.15-rc6-1-686-smp-ring3/net/Makefile +--- linux-2.6.15-rc6/net/Makefile 2005-12-19 01:36:54.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/Makefile 2005-12-24 00:24:02.000000000 +0100 +@@ -42,6 +42,7 @@ + obj-$(CONFIG_DECNET) += decnet/ + obj-$(CONFIG_ECONET) += econet/ + obj-$(CONFIG_VLAN_8021Q) += 8021q/ ++obj-$(CONFIG_RING) += ring/ + obj-$(CONFIG_IP_DCCP) += dccp/ + obj-$(CONFIG_IP_SCTP) += sctp/ + obj-$(CONFIG_IEEE80211) += ieee80211/ +diff --unified --recursive --new-file linux-2.6.15-rc6/net/ring/Kconfig linux-2.6.15-rc6-1-686-smp-ring3/net/ring/Kconfig +--- linux-2.6.15-rc6/net/ring/Kconfig 1970-01-01 01:00:00.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/ring/Kconfig 2005-12-24 00:24:02.000000000 +0100 +@@ -0,0 +1,14 @@ ++config RING ++ tristate "PF_RING sockets (EXPERIMENTAL)" ++ depends on EXPERIMENTAL ++ ---help--- ++ PF_RING socket family, optimized for packet capture. ++ If a PF_RING socket is bound to an adapter (via the bind() system ++ call), such adapter will be used in read-only mode until the socket ++ is destroyed. Whenever an incoming packet is received from the adapter ++ it will not passed to upper layers, but instead it is copied to a ring ++ buffer, which in turn is exported to user space applications via mmap. ++ Please refer to http://luca.ntop.org/Ring.pdf for more. ++ ++ Say N unless you know what you are doing. ++ +diff --unified --recursive --new-file linux-2.6.15-rc6/net/ring/Makefile linux-2.6.15-rc6-1-686-smp-ring3/net/ring/Makefile +--- linux-2.6.15-rc6/net/ring/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/ring/Makefile 2005-12-24 00:24:02.000000000 +0100 +@@ -0,0 +1,7 @@ ++# ++# Makefile for the ring driver. ++# ++ ++obj-m += ring.o ++ ++ring-objs := ring_packet.o +diff --unified --recursive --new-file linux-2.6.15-rc6/net/ring/ring_packet.c linux-2.6.15-rc6-1-686-smp-ring3/net/ring/ring_packet.c +--- linux-2.6.15-rc6/net/ring/ring_packet.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux-2.6.15-rc6-1-686-smp-ring3/net/ring/ring_packet.c 2005-12-24 00:24:02.000000000 +0100 +@@ -0,0 +1,1568 @@ ++/* ++ * ++ * (C) 2004-05 - Luca Deri ++ * ++ * This code includes contributions courtesy of ++ * - Jeff Randall ++ * - Helmut Manck ++ * - Brad Doctor ++ * - Amit D. Chaudhary ++ * ++ */ ++ ++/* ++ TO DO: ++ add an entry inside the /proc filesystem ++*/ ++ ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#include ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++#include ++#else ++#include ++#endif ++#include ++#include /* needed for virt_to_phys() */ ++ ++/* #define RING_DEBUG */ ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,11)) ++static inline int remap_page_range(struct vm_area_struct *vma, ++ unsigned long uvaddr, ++ unsigned long paddr, ++ unsigned long size, ++ pgprot_t prot) { ++ return(remap_pfn_range(vma, uvaddr, paddr >> PAGE_SHIFT, ++ size, prot)); ++} ++#endif ++ ++/* ************************************************* */ ++ ++#define CLUSTER_LEN 8 ++ ++struct ring_cluster { ++ u_short cluster_id; /* 0 = no cluster */ ++ u_short num_cluster_elements; ++ enum cluster_type hashing_mode; ++ u_short hashing_id; ++ struct sock *sk[CLUSTER_LEN]; ++ struct ring_cluster *next; /* NULL = last element of the cluster */ ++}; ++ ++/* ************************************************* */ ++ ++struct ring_element { ++ struct list_head list; ++ struct sock *sk; ++}; ++ ++/* ************************************************* */ ++ ++struct ring_opt { ++ struct net_device *ring_netdev; ++ ++ /* Cluster */ ++ u_short cluster_id; /* 0 = no cluster */ ++ ++ /* Reflector */ ++ struct net_device *reflector_dev; ++ ++ /* Packet buffers */ ++ unsigned long order; ++ ++ /* Ring Slots */ ++ unsigned long ring_memory; ++ FlowSlotInfo *slots_info; /* Basically it points to ring_memory */ ++ char *ring_slots; /* Basically it points to ring_memory ++ +sizeof(FlowSlotInfo) */ ++ ++ /* Packet Sampling */ ++ u_int pktToSample, sample_rate; ++ ++ /* BPF Filter */ ++ struct sk_filter *bpfFilter; ++ ++ /* Locks */ ++ atomic_t num_ring_slots_waiters; ++ wait_queue_head_t ring_slots_waitqueue; ++ rwlock_t ring_index_lock; ++ ++ /* Indexes (Internal) */ ++ u_int insert_page_id, insert_slot_id; ++}; ++ ++/* ************************************************* */ ++ ++/* List of all ring sockets. */ ++static struct list_head ring_table; ++ ++/* List of all clusters */ ++static struct ring_cluster *ring_cluster_list; ++ ++static rwlock_t ring_mgmt_lock = RW_LOCK_UNLOCKED; ++ ++/* ********************************** */ ++ ++/* Forward */ ++static struct proto_ops ring_ops; ++ ++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,11)) ++static struct proto ring_proto; ++#endif ++ ++static int skb_ring_handler(struct sk_buff *skb, u_char recv_packet, ++ u_char real_skb); ++static int buffer_ring_handler(struct net_device *dev, char *data, int len); ++static int remove_from_cluster(struct sock *sock, struct ring_opt *pfr); ++ ++/* Extern */ ++ ++/* ********************************** */ ++ ++/* Defaults */ ++static u_int bucket_len = 128, num_slots = 4096, sample_rate = 1, ++ transparent_mode = 1, enable_tx_capture = 0; ++ ++MODULE_PARM(bucket_len, "i"); ++MODULE_PARM_DESC(bucket_len, "Number of ring buckets"); ++MODULE_PARM(num_slots, "i"); ++MODULE_PARM_DESC(num_slots, "Number of ring slots"); ++MODULE_PARM(sample_rate, "i"); ++MODULE_PARM_DESC(sample_rate, "Ring packet sample rate"); ++MODULE_PARM(transparent_mode, "i"); ++MODULE_PARM_DESC(transparent_mode, ++ "Set to 1 to set transparent mode " ++ "(slower but backwards compatible)"); ++MODULE_PARM(enable_tx_capture, "i"); ++MODULE_PARM_DESC(enable_tx_capture, "Set to 1 to capture outgoing packets"); ++ ++/* ********************************** */ ++ ++#define MIN_QUEUED_PKTS 64 ++#define MAX_QUEUE_LOOPS 64 ++ ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++#define ring_sk_datatype(__sk) ((struct ring_opt *)__sk) ++#define ring_sk(__sk) ((__sk)->sk_protinfo) ++#else ++#define ring_sk_datatype(a) (a) ++#define ring_sk(__sk) ((__sk)->protinfo.pf_ring) ++#endif ++ ++#define _rdtsc() ({ uint64_t x; asm volatile("rdtsc" : "=A" (x)); x; }) ++ ++/* ++ int dev_queue_xmit(struct sk_buff *skb) ++ skb->dev; ++ struct net_device *dev_get_by_name(const char *name) ++*/ ++ ++/* ********************************** */ ++ ++static void ring_sock_destruct(struct sock *sk) { ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ skb_queue_purge(&sk->sk_receive_queue); ++ ++ if (!sock_flag(sk, SOCK_DEAD)) { ++#if defined(RING_DEBUG) ++ printk("Attempt to release alive ring socket: %p\n", sk); ++#endif ++ return; ++ } ++ ++ BUG_TRAP(!atomic_read(&sk->sk_rmem_alloc)); ++ BUG_TRAP(!atomic_read(&sk->sk_wmem_alloc)); ++#else ++ ++ BUG_TRAP(atomic_read(&sk->rmem_alloc)==0); ++ BUG_TRAP(atomic_read(&sk->wmem_alloc)==0); ++ ++ if (!sk->dead) { ++#if defined(RING_DEBUG) ++ printk("Attempt to release alive ring socket: %p\n", sk); ++#endif ++ return; ++ } ++#endif ++ ++ kfree(ring_sk(sk)); ++ ++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,0)) ++ MOD_DEC_USE_COUNT; ++#endif ++} ++ ++/* ********************************** */ ++/* ++ * ring_insert() ++ * ++ * store the sk in a new element and add it ++ * to the head of the list. ++ */ ++static inline void ring_insert(struct sock *sk) { ++ struct ring_element *next; ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_insert()\n"); ++#endif ++ ++ next = kmalloc(sizeof(struct ring_element), GFP_ATOMIC); ++ if(next != NULL) { ++ next->sk = sk; ++ write_lock_irq(&ring_mgmt_lock); ++ list_add(&next->list, &ring_table); ++ write_unlock_irq(&ring_mgmt_lock); ++ } else { ++ if (net_ratelimit()) ++ printk("RING: could not kmalloc slot!!\n"); ++ } ++} ++ ++/* ********************************** */ ++/* ++ * ring_remove() ++ * ++ * For each of the elements in the list: ++ * - check if this is the element we want to delete ++ * - if it is, remove it from the list, and free it. ++ * ++ * stop when we find the one we're looking for (break), ++ * or when we reach the end of the list. ++ */ ++static inline void ring_remove(struct sock *sk) { ++ struct list_head *ptr; ++ struct ring_element *entry; ++ ++ ++ for(ptr = ring_table.next; ptr != &ring_table; ptr = ptr->next) { ++ entry = list_entry(ptr, struct ring_element, list); ++ ++ if(entry->sk == sk) { ++ write_lock_irq(&ring_mgmt_lock); ++ list_del(ptr); ++ kfree(ptr); ++ write_unlock_irq(&ring_mgmt_lock); ++ break; ++ } ++ } ++ ++} ++ ++/* ********************************** */ ++ ++static u_int32_t num_queued_pkts(struct ring_opt *pfr) { ++ ++ if(pfr->ring_slots != NULL) { ++ ++ u_int32_t tot_insert = pfr->slots_info->insert_idx, ++#if defined(RING_DEBUG) ++ tot_read = pfr->slots_info->tot_read, tot_pkts; ++#else ++ tot_read = pfr->slots_info->tot_read; ++#endif ++ ++ if(tot_insert >= tot_read) { ++#if defined(RING_DEBUG) ++ tot_pkts = tot_insert-tot_read; ++#endif ++ return(tot_insert-tot_read); ++ } else { ++#if defined(RING_DEBUG) ++ tot_pkts = ((u_int32_t)-1)+tot_insert-tot_read; ++#endif ++ return(((u_int32_t)-1)+tot_insert-tot_read); ++ } ++ ++#if defined(RING_DEBUG) ++ printk("-> num_queued_pkts=%d [tot_insert=%d][tot_read=%d]\n", ++ tot_pkts, tot_insert, tot_read); ++#endif ++ ++ } else ++ return(0); ++} ++ ++/* ********************************** */ ++ ++static inline FlowSlot* get_insert_slot(struct ring_opt *pfr) { ++#if defined(RING_DEBUG) ++ printk("get_insert_slot(%d)\n", pfr->slots_info->insert_idx); ++#endif ++ ++ if(pfr->ring_slots != NULL) { ++ FlowSlot *slot = (FlowSlot*)&(pfr->ring_slots[pfr->slots_info->insert_idx ++ *pfr->slots_info->slot_len]); ++ return(slot); ++ } else ++ return(NULL); ++} ++ ++/* ********************************** */ ++ ++static inline FlowSlot* get_remove_slot(struct ring_opt *pfr) { ++#if defined(RING_DEBUG) ++ printk("get_remove_slot(%d)\n", pfr->slots_info->remove_idx); ++#endif ++ ++ if(pfr->ring_slots != NULL) ++ return((FlowSlot*)&(pfr->ring_slots[pfr->slots_info->remove_idx* ++ pfr->slots_info->slot_len])); ++ else ++ return(NULL); ++} ++ ++/* ********************************** */ ++ ++static void add_skb_to_ring(struct sk_buff *skb, ++ struct ring_opt *pfr, ++ u_char recv_packet, ++ u_char real_skb /* 1=skb 0=faked skb */) { ++ FlowSlot *theSlot; ++ int idx, displ; ++ ++ if(recv_packet) { ++ /* Hack for identifying a packet received by the e1000 */ ++ if(real_skb) { ++ displ = SKB_DISPLACEMENT; ++ } else ++ displ = 0; /* Received by the e1000 wrapper */ ++ } else ++ displ = 0; ++ ++ write_lock(&pfr->ring_index_lock); ++ pfr->slots_info->tot_pkts++; ++ write_unlock(&pfr->ring_index_lock); ++ ++ /* BPF Filtering (from af_packet.c) */ ++ if(pfr->bpfFilter != NULL) { ++ unsigned res = 1, len; ++ ++ len = skb->len-skb->data_len; ++ ++ write_lock(&pfr->ring_index_lock); ++ skb->data -= displ; ++ res = sk_run_filter(skb, pfr->bpfFilter->insns, pfr->bpfFilter->len); ++ skb->data += displ; ++ write_unlock(&pfr->ring_index_lock); ++ ++ if(res == 0) { ++ /* Filter failed */ ++ ++#if defined(RING_DEBUG) ++ printk("add_skb_to_ring(skb): Filter failed [len=%d][tot=%llu]" ++ "[insertIdx=%d][pkt_type=%d][cloned=%d]\n", ++ (int)skb->len, pfr->slots_info->tot_pkts, ++ pfr->slots_info->insert_idx, ++ skb->pkt_type, skb->cloned); ++#endif ++ ++ return; ++ } ++ } ++ ++ /* ************************** */ ++ ++ if(pfr->sample_rate > 1) { ++ if(pfr->pktToSample == 0) { ++ write_lock(&pfr->ring_index_lock); ++ pfr->pktToSample = pfr->sample_rate; ++ write_unlock(&pfr->ring_index_lock); ++ } else { ++ write_lock(&pfr->ring_index_lock); ++ pfr->pktToSample--; ++ write_unlock(&pfr->ring_index_lock); ++ ++#if defined(RING_DEBUG) ++ printk("add_skb_to_ring(skb): sampled packet [len=%d]" ++ "[tot=%llu][insertIdx=%d][pkt_type=%d][cloned=%d]\n", ++ (int)skb->len, pfr->slots_info->tot_pkts, ++ pfr->slots_info->insert_idx, ++ skb->pkt_type, skb->cloned); ++#endif ++ return; ++ } ++ } ++ ++ /* ************************************* */ ++ ++ if((pfr->reflector_dev != NULL) ++ && (!netif_queue_stopped(pfr->reflector_dev))) { ++ int cpu = smp_processor_id(); ++ ++ /* increase reference counter so that this skb is not freed */ ++ atomic_inc(&skb->users); ++ ++ skb->data -= displ; ++ ++ /* send it */ ++ if (pfr->reflector_dev->xmit_lock_owner != cpu) { ++ spin_lock_bh(&pfr->reflector_dev->xmit_lock); ++ pfr->reflector_dev->xmit_lock_owner = cpu; ++ spin_unlock_bh(&pfr->reflector_dev->xmit_lock); ++ ++ if (pfr->reflector_dev->hard_start_xmit(skb, ++ pfr->reflector_dev) == 0) { ++ spin_lock_bh(&pfr->reflector_dev->xmit_lock); ++ pfr->reflector_dev->xmit_lock_owner = -1; ++ skb->data += displ; ++ spin_unlock_bh(&pfr->reflector_dev->xmit_lock); ++#if defined(RING_DEBUG) ++ printk("++ hard_start_xmit succeeded\n"); ++#endif ++ return; /* OK */ ++ } ++ ++ spin_lock_bh(&pfr->reflector_dev->xmit_lock); ++ pfr->reflector_dev->xmit_lock_owner = -1; ++ spin_unlock_bh(&pfr->reflector_dev->xmit_lock); ++ } ++ ++#if defined(RING_DEBUG) ++ printk("++ hard_start_xmit failed\n"); ++#endif ++ skb->data += displ; ++ return; /* -ENETDOWN */ ++ } ++ ++ /* ************************************* */ ++ ++#if defined(RING_DEBUG) ++ printk("add_skb_to_ring(skb) [len=%d][tot=%llu][insertIdx=%d]" ++ "[pkt_type=%d][cloned=%d]\n", ++ (int)skb->len, pfr->slots_info->tot_pkts, ++ pfr->slots_info->insert_idx, ++ skb->pkt_type, skb->cloned); ++#endif ++ ++ idx = pfr->slots_info->insert_idx; ++ theSlot = get_insert_slot(pfr); ++ ++ if((theSlot != NULL) && (theSlot->slot_state == 0)) { ++ struct pcap_pkthdr *hdr; ++ char *bucket; ++ ++ /* Update Index */ ++ idx++; ++ ++ if(idx == pfr->slots_info->tot_slots) { ++ write_lock(&pfr->ring_index_lock); ++ pfr->slots_info->insert_idx = 0; ++ write_unlock(&pfr->ring_index_lock); ++ } else { ++ write_lock(&pfr->ring_index_lock); ++ pfr->slots_info->insert_idx = idx; ++ write_unlock(&pfr->ring_index_lock); ++ } ++ ++ bucket = &theSlot->bucket; ++ hdr = (struct pcap_pkthdr*)bucket; ++ ++ /* BD - API changed for time keeping */ ++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,14)) ++ if(skb->stamp.tv_sec == 0) do_gettimeofday(&skb->stamp); ++ ++ hdr->ts.tv_sec = skb->stamp.tv_sec, hdr->ts.tv_usec = skb->stamp.tv_usec; ++#else ++ if(skb->tstamp.off_sec == 0) __net_timestamp(skb); ++ ++ hdr->ts.tv_sec = skb->tstamp.off_sec, hdr->ts.tv_usec = skb->tstamp.off_usec; ++#endif ++ ++ hdr->caplen = skb->len+displ; ++ ++ if(hdr->caplen > pfr->slots_info->data_len) ++ hdr->caplen = pfr->slots_info->data_len; ++ ++ hdr->len = skb->len+displ; ++ memcpy(&bucket[sizeof(struct pcap_pkthdr)], ++ skb->data-displ, hdr->caplen); ++ ++#if defined(RING_DEBUG) ++ { ++ static unsigned int lastLoss = 0; ++ ++ if(pfr->slots_info->tot_lost ++ && (lastLoss != pfr->slots_info->tot_lost)) { ++ printk("add_skb_to_ring(%d): [data_len=%d]" ++ "[hdr.caplen=%d][skb->len=%d]" ++ "[pcap_pkthdr=%d][removeIdx=%d]" ++ "[loss=%lu][page=%u][slot=%u]\n", ++ idx-1, pfr->slots_info->data_len, hdr->caplen, skb->len, ++ sizeof(struct pcap_pkthdr), ++ pfr->slots_info->remove_idx, ++ (long unsigned int)pfr->slots_info->tot_lost, ++ pfr->insert_page_id, pfr->insert_slot_id); ++ ++ lastLoss = pfr->slots_info->tot_lost; ++ } ++ } ++#endif ++ ++ write_lock(&pfr->ring_index_lock); ++ pfr->slots_info->tot_insert++; ++ theSlot->slot_state = 1; ++ write_unlock(&pfr->ring_index_lock); ++ } else { ++ write_lock(&pfr->ring_index_lock); ++ pfr->slots_info->tot_lost++; ++ write_unlock(&pfr->ring_index_lock); ++ ++#if defined(RING_DEBUG) ++ printk("add_skb_to_ring(skb): packet lost [loss=%lu]" ++ "[removeIdx=%u][insertIdx=%u]\n", ++ (long unsigned int)pfr->slots_info->tot_lost, ++ pfr->slots_info->remove_idx, pfr->slots_info->insert_idx); ++#endif ++ } ++ ++ /* wakeup in case of poll() */ ++ if(waitqueue_active(&pfr->ring_slots_waitqueue)) ++ wake_up_interruptible(&pfr->ring_slots_waitqueue); ++} ++ ++/* ********************************** */ ++ ++static u_int hash_skb(struct ring_cluster *cluster_ptr, ++ struct sk_buff *skb, u_char recv_packet) { ++ u_int idx; ++ int displ; ++ struct iphdr *ip; ++ ++ if(cluster_ptr->hashing_mode == cluster_round_robin) { ++ idx = cluster_ptr->hashing_id++; ++ } else { ++ /* Per-flow clustering */ ++ if(skb->len > sizeof(struct iphdr)+sizeof(struct tcphdr)) { ++ if(recv_packet) ++ displ = 0; ++ else ++ displ = SKB_DISPLACEMENT; ++ ++ /* ++ skb->data+displ ++ ++ Always points to to the IP part of the packet ++ */ ++ ++ ip = (struct iphdr*)(skb->data+displ); ++ ++ idx = ip->saddr+ip->daddr+ip->protocol; ++ ++ if(ip->protocol == IPPROTO_TCP) { ++ struct tcphdr *tcp = (struct tcphdr*)(skb->data+displ ++ +sizeof(struct iphdr)); ++ idx += tcp->source+tcp->dest; ++ } else if(ip->protocol == IPPROTO_UDP) { ++ struct udphdr *udp = (struct udphdr*)(skb->data+displ ++ +sizeof(struct iphdr)); ++ idx += udp->source+udp->dest; ++ } ++ } else ++ idx = skb->len; ++ } ++ ++ return(idx % cluster_ptr->num_cluster_elements); ++} ++ ++/* ********************************** */ ++ ++static int skb_ring_handler(struct sk_buff *skb, ++ u_char recv_packet, ++ u_char real_skb /* 1=skb 0=faked skb */) { ++ struct sock *skElement; ++ int rc = 0; ++ struct list_head *ptr; ++ struct ring_cluster *cluster_ptr; ++ ++#ifdef PROFILING ++ uint64_t rdt = _rdtsc(), rdt1, rdt2; ++#endif ++ ++ if((!skb) /* Invalid skb */ ++ || ((!enable_tx_capture) && (!recv_packet))) { ++ /* ++ An outgoing packet is about to be sent out ++ but we decided not to handle transmitted ++ packets. ++ */ ++ return(0); ++ } ++ ++#if defined(RING_DEBUG) ++ if(0) { ++ printk("skb_ring_handler() [len=%d][dev=%s]\n", skb->len, ++ skb->dev->name == NULL ? "" : skb->dev->name); ++ } ++#endif ++ ++#ifdef PROFILING ++ rdt1 = _rdtsc(); ++#endif ++ ++ /* [1] Check unclustered sockets */ ++ for (ptr = ring_table.next; ptr != &ring_table; ptr = ptr->next) { ++ struct ring_opt *pfr; ++ struct ring_element *entry; ++ ++ entry = list_entry(ptr, struct ring_element, list); ++ ++ read_lock(&ring_mgmt_lock); ++ skElement = entry->sk; ++ pfr = ring_sk(skElement); ++ read_unlock(&ring_mgmt_lock); ++ ++ if((pfr != NULL) ++ && (pfr->cluster_id == 0 /* No cluster */) ++ && (pfr->ring_slots != NULL) ++ && (pfr->ring_netdev == skb->dev)) { ++ /* We've found the ring where the packet can be stored */ ++ read_lock(&ring_mgmt_lock); ++ add_skb_to_ring(skb, pfr, recv_packet, real_skb); ++ read_unlock(&ring_mgmt_lock); ++ ++ rc = 1; /* Ring found: we've done our job */ ++ } ++ } ++ ++ /* [2] Check socket clusters */ ++ cluster_ptr = ring_cluster_list; ++ ++ while(cluster_ptr != NULL) { ++ struct ring_opt *pfr; ++ ++ if(cluster_ptr->num_cluster_elements > 0) { ++ u_int skb_hash = hash_skb(cluster_ptr, skb, recv_packet); ++ ++ read_lock(&ring_mgmt_lock); ++ skElement = cluster_ptr->sk[skb_hash]; ++ read_unlock(&ring_mgmt_lock); ++ ++ if(skElement != NULL) { ++ pfr = ring_sk(skElement); ++ ++ if((pfr != NULL) ++ && (pfr->ring_slots != NULL) ++ && (pfr->ring_netdev == skb->dev)) { ++ /* We've found the ring where the packet can be stored */ ++ read_lock(&ring_mgmt_lock); ++ add_skb_to_ring(skb, pfr, recv_packet, real_skb); ++ read_unlock(&ring_mgmt_lock); ++ ++ rc = 1; /* Ring found: we've done our job */ ++ } ++ } ++ } ++ ++ cluster_ptr = cluster_ptr->next; ++ } ++ ++#ifdef PROFILING ++ rdt1 = _rdtsc()-rdt1; ++#endif ++ ++#ifdef PROFILING ++ rdt2 = _rdtsc(); ++#endif ++ ++ if(transparent_mode) rc = 0; ++ ++ if((rc != 0) && real_skb) ++ dev_kfree_skb(skb); /* Free the skb */ ++ ++#ifdef PROFILING ++ rdt2 = _rdtsc()-rdt2; ++ rdt = _rdtsc()-rdt; ++ ++#if defined(RING_DEBUG) ++ printk("# cycles: %d [lock costed %d %d%%][free costed %d %d%%]\n", ++ (int)rdt, rdt-rdt1, ++ (int)((float)((rdt-rdt1)*100)/(float)rdt), ++ rdt2, ++ (int)((float)(rdt2*100)/(float)rdt)); ++#endif ++#endif ++ ++ return(rc); /* 0 = packet not handled */ ++} ++ ++/* ********************************** */ ++ ++struct sk_buff skb; ++ ++static int buffer_ring_handler(struct net_device *dev, ++ char *data, int len) { ++ ++#if defined(RING_DEBUG) ++ printk("buffer_ring_handler: [dev=%s][len=%d]\n", ++ dev->name == NULL ? "" : dev->name, len); ++#endif ++ ++ /* BD - API changed for time keeping */ ++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,14)) ++ skb.dev = dev, skb.len = len, skb.data = data, ++ skb.data_len = len, skb.stamp.tv_sec = 0; /* Calculate the time */ ++#else ++ skb.dev = dev, skb.len = len, skb.data = data, ++ skb.data_len = len, skb.tstamp.off_sec = 0; /* Calculate the time */ ++#endif ++ ++ skb_ring_handler(&skb, 1, 0 /* fake skb */); ++ ++ return(0); ++} ++ ++/* ********************************** */ ++ ++static int ring_create(struct socket *sock, int protocol) { ++ struct sock *sk; ++ struct ring_opt *pfr; ++ int err; ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_create()\n"); ++#endif ++ ++ /* Are you root, superuser or so ? */ ++ if(!capable(CAP_NET_ADMIN)) ++ return -EPERM; ++ ++ if(sock->type != SOCK_RAW) ++ return -ESOCKTNOSUPPORT; ++ ++ if(protocol != htons(ETH_P_ALL)) ++ return -EPROTONOSUPPORT; ++ ++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,0)) ++ MOD_INC_USE_COUNT; ++#endif ++ ++ err = -ENOMEM; ++ ++ // BD: -- broke this out to keep it more simple and clear as to what the ++ // options are. ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,11)) ++ sk = sk_alloc(PF_RING, GFP_KERNEL, 1, NULL); ++#else ++ // BD: API changed in 2.6.12, ref: ++ // http://svn.clkao.org/svnweb/linux/revision/?rev=28201 ++ sk = sk_alloc(PF_RING, GFP_ATOMIC, &ring_proto, 1); ++#endif ++#else ++ /* Kernel 2.4 */ ++ sk = sk_alloc(PF_RING, GFP_KERNEL, 1); ++#endif ++ ++ if (sk == NULL) ++ goto out; ++ ++ sock->ops = &ring_ops; ++ sock_init_data(sock, sk); ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++#if (LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,11)) ++ sk_set_owner(sk, THIS_MODULE); ++#endif ++#endif ++ ++ err = -ENOMEM; ++ ring_sk(sk) = ring_sk_datatype(kmalloc(sizeof(*pfr), GFP_KERNEL)); ++ ++ if (!(pfr = ring_sk(sk))) { ++ sk_free(sk); ++ goto out; ++ } ++ memset(pfr, 0, sizeof(*pfr)); ++ init_waitqueue_head(&pfr->ring_slots_waitqueue); ++ pfr->ring_index_lock = RW_LOCK_UNLOCKED; ++ atomic_set(&pfr->num_ring_slots_waiters, 0); ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ sk->sk_family = PF_RING; ++ sk->sk_destruct = ring_sock_destruct; ++#else ++ sk->family = PF_RING; ++ sk->destruct = ring_sock_destruct; ++ sk->num = protocol; ++#endif ++ ++ ring_insert(sk); ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_create() - created\n"); ++#endif ++ ++ return(0); ++ out: ++#if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,0)) ++ MOD_DEC_USE_COUNT; ++#endif ++ return err; ++} ++ ++/* *********************************************** */ ++ ++static int ring_release(struct socket *sock) ++{ ++ struct sock *sk = sock->sk; ++ struct ring_opt *pfr = ring_sk(sk); ++ ++ if(!sk) ++ return 0; ++ ++#if defined(RING_DEBUG) ++ printk("RING: called ring_release\n"); ++#endif ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_release entered\n"); ++#endif ++ ++ ring_remove(sk); ++ ++ sock_orphan(sk); ++ sock->sk = NULL; ++ ++ /* Free the ring buffer */ ++ if(pfr->ring_memory) { ++ struct page *page, *page_end; ++ ++ page_end = virt_to_page(pfr->ring_memory + (PAGE_SIZE << pfr->order) - 1); ++ for(page = virt_to_page(pfr->ring_memory); page <= page_end; page++) ++ ClearPageReserved(page); ++ ++ free_pages(pfr->ring_memory, pfr->order); ++ } ++ ++ kfree(pfr); ++ ring_sk(sk) = NULL; ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ skb_queue_purge(&sk->sk_write_queue); ++#endif ++ sock_put(sk); ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_release leaving\n"); ++#endif ++ ++ return 0; ++} ++ ++/* ********************************** */ ++/* ++ * We create a ring for this socket and bind it to the specified device ++ */ ++static int packet_ring_bind(struct sock *sk, struct net_device *dev) ++{ ++ u_int the_slot_len; ++ u_int32_t tot_mem; ++ struct ring_opt *pfr = ring_sk(sk); ++ struct page *page, *page_end; ++ ++ if(!dev) return(-1); ++ ++#if defined(RING_DEBUG) ++ printk("RING: packet_ring_bind(%s) called\n", dev->name); ++#endif ++ ++ /* ********************************************** ++ ++ ************************************* ++ * * ++ * FlowSlotInfo * ++ * * ++ ************************************* <-+ ++ * FlowSlot * | ++ ************************************* | ++ * FlowSlot * | ++ ************************************* +- num_slots ++ * FlowSlot * | ++ ************************************* | ++ * FlowSlot * | ++ ************************************* <-+ ++ ++ ********************************************** */ ++ ++ the_slot_len = sizeof(u_char) /* flowSlot.slot_state */ ++#ifdef RING_MAGIC ++ + sizeof(u_char) ++#endif ++ + sizeof(struct pcap_pkthdr) ++ + bucket_len /* flowSlot.bucket */; ++ ++ tot_mem = sizeof(FlowSlotInfo) + num_slots*the_slot_len; ++ ++ /* ++ Calculate the value of the order parameter used later. ++ See http://www.linuxjournal.com/article.php?sid=1133 ++ */ ++ for(pfr->order = 0;(PAGE_SIZE << pfr->order) < tot_mem; pfr->order++) ; ++ ++ /* ++ We now try to allocate the memory as required. If we fail ++ we try to allocate a smaller amount or memory (hence a ++ smaller ring). ++ */ ++ while((pfr->ring_memory = __get_free_pages(GFP_ATOMIC, pfr->order)) == 0) ++ if(pfr->order-- == 0) ++ break; ++ ++ if(pfr->order == 0) { ++ printk("RING: ERROR not enough memory for ring\n"); ++ return(-1); ++ } else { ++ printk("RING: succesfully allocated %lu KB [tot_mem=%d][order=%ld]\n", ++ PAGE_SIZE >> (10 - pfr->order), tot_mem, pfr->order); ++ } ++ ++ tot_mem = PAGE_SIZE << pfr->order; ++ memset((char*)pfr->ring_memory, 0, tot_mem); ++ ++ /* Now we need to reserve the pages */ ++ page_end = virt_to_page(pfr->ring_memory + (PAGE_SIZE << pfr->order) - 1); ++ for(page = virt_to_page(pfr->ring_memory); page <= page_end; page++) ++ SetPageReserved(page); ++ ++ pfr->slots_info = (FlowSlotInfo*)pfr->ring_memory; ++ pfr->ring_slots = (char*)(pfr->ring_memory+sizeof(FlowSlotInfo)); ++ ++ pfr->slots_info->version = RING_FLOWSLOT_VERSION; ++ pfr->slots_info->slot_len = the_slot_len; ++ pfr->slots_info->data_len = bucket_len; ++ pfr->slots_info->tot_slots = (tot_mem-sizeof(FlowSlotInfo))/the_slot_len; ++ pfr->slots_info->tot_mem = tot_mem; ++ pfr->slots_info->sample_rate = sample_rate; ++ ++ printk("RING: allocated %d slots [slot_len=%d][tot_mem=%u]\n", ++ pfr->slots_info->tot_slots, pfr->slots_info->slot_len, ++ pfr->slots_info->tot_mem); ++ ++#ifdef RING_MAGIC ++ { ++ int i; ++ ++ for(i=0; islots_info->tot_slots; i++) { ++ unsigned long idx = i*pfr->slots_info->slot_len; ++ FlowSlot *slot = (FlowSlot*)&pfr->ring_slots[idx]; ++ slot->magic = RING_MAGIC_VALUE; slot->slot_state = 0; ++ } ++ } ++#endif ++ ++ pfr->insert_page_id = 1, pfr->insert_slot_id = 0; ++ ++ /* ++ IMPORTANT ++ Leave this statement here as last one. In fact when ++ the ring_netdev != NULL the socket is ready to be used. ++ */ ++ pfr->ring_netdev = dev; ++ ++ return(0); ++} ++ ++/* ************************************* */ ++ ++/* Bind to a device */ ++static int ring_bind(struct socket *sock, ++ struct sockaddr *sa, int addr_len) ++{ ++ struct sock *sk=sock->sk; ++ struct net_device *dev = NULL; ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_bind() called\n"); ++#endif ++ ++ /* ++ * Check legality ++ */ ++ if (addr_len != sizeof(struct sockaddr)) ++ return -EINVAL; ++ if (sa->sa_family != PF_RING) ++ return -EINVAL; ++ ++ /* Safety check: add trailing zero if missing */ ++ sa->sa_data[sizeof(sa->sa_data)-1] = '\0'; ++ ++#if defined(RING_DEBUG) ++ printk("RING: searching device %s\n", sa->sa_data); ++#endif ++ ++ if((dev = __dev_get_by_name(sa->sa_data)) == NULL) { ++#if defined(RING_DEBUG) ++ printk("RING: search failed\n"); ++#endif ++ return(-EINVAL); ++ } else ++ return(packet_ring_bind(sk, dev)); ++} ++ ++/* ************************************* */ ++ ++static int ring_mmap(struct file *file, ++ struct socket *sock, ++ struct vm_area_struct *vma) ++{ ++ struct sock *sk = sock->sk; ++ struct ring_opt *pfr = ring_sk(sk); ++ unsigned long size, start; ++ u_int pagesToMap; ++ char *ptr; ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_mmap() called\n"); ++#endif ++ ++ if(pfr->ring_memory == 0) { ++#if defined(RING_DEBUG) ++ printk("RING: ring_mmap() failed: mapping area to an unbound socket\n"); ++#endif ++ return -EINVAL; ++ } ++ ++ size = (unsigned long)(vma->vm_end-vma->vm_start); ++ ++ if(size % PAGE_SIZE) { ++#if defined(RING_DEBUG) ++ printk("RING: ring_mmap() failed: len is not multiple of PAGE_SIZE\n"); ++#endif ++ return(-EINVAL); ++ } ++ ++ /* if userspace tries to mmap beyond end of our buffer, fail */ ++ if(size > pfr->slots_info->tot_mem) { ++#if defined(RING_DEBUG) ++ printk("proc_mmap() failed: area too large [%ld > %d]\n", size, pfr->slots_info->tot_mem); ++#endif ++ return(-EINVAL); ++ } ++ ++ pagesToMap = size/PAGE_SIZE; ++ ++#if defined(RING_DEBUG) ++ printk("RING: ring_mmap() called. %d pages to map\n", pagesToMap); ++#endif ++ ++#if defined(RING_DEBUG) ++ printk("RING: mmap [slot_len=%d][tot_slots=%d] for ring on device %s\n", ++ pfr->slots_info->slot_len, pfr->slots_info->tot_slots, ++ pfr->ring_netdev->name); ++#endif ++ ++ /* we do not want to have this area swapped out, lock it */ ++ vma->vm_flags |= VM_LOCKED; ++ start = vma->vm_start; ++ ++ /* Ring slots start from page 1 (page 0 is reserved for FlowSlotInfo) */ ++ ptr = (char*)(start+PAGE_SIZE); ++ ++ if(remap_page_range( ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ vma, ++#endif ++ start, ++ __pa(pfr->ring_memory), ++ PAGE_SIZE*pagesToMap, vma->vm_page_prot)) { ++#if defined(RING_DEBUG) ++ printk("remap_page_range() failed\n"); ++#endif ++ return(-EAGAIN); ++ } ++ ++#if defined(RING_DEBUG) ++ printk("proc_mmap(pagesToMap=%d): success.\n", pagesToMap); ++#endif ++ ++ return 0; ++} ++ ++/* ************************************* */ ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++static int ring_recvmsg(struct kiocb *iocb, struct socket *sock, ++ struct msghdr *msg, size_t len, int flags) ++#else ++ static int ring_recvmsg(struct socket *sock, struct msghdr *msg, int len, ++ int flags, struct scm_cookie *scm) ++#endif ++{ ++ FlowSlot* slot; ++ struct ring_opt *pfr = ring_sk(sock->sk); ++ u_int32_t queued_pkts, num_loops = 0; ++ ++#if defined(RING_DEBUG) ++ printk("ring_recvmsg called\n"); ++#endif ++ ++ slot = get_remove_slot(pfr); ++ ++ while((queued_pkts = num_queued_pkts(pfr)) < MIN_QUEUED_PKTS) { ++ wait_event_interruptible(pfr->ring_slots_waitqueue, 1); ++ ++#if defined(RING_DEBUG) ++ printk("-> ring_recvmsg returning %d [queued_pkts=%d][num_loops=%d]\n", ++ slot->slot_state, queued_pkts, num_loops); ++#endif ++ ++ if(queued_pkts > 0) { ++ if(num_loops++ > MAX_QUEUE_LOOPS) ++ break; ++ } ++ } ++ ++#if defined(RING_DEBUG) ++ if(slot != NULL) ++ printk("ring_recvmsg is returning [queued_pkts=%d][num_loops=%d]\n", ++ queued_pkts, num_loops); ++#endif ++ ++ return(queued_pkts); ++} ++ ++/* ************************************* */ ++ ++unsigned int ring_poll(struct file * file, ++ struct socket *sock, poll_table *wait) ++{ ++ FlowSlot* slot; ++ struct ring_opt *pfr = ring_sk(sock->sk); ++ ++#if defined(RING_DEBUG) ++ printk("poll called\n"); ++#endif ++ ++ slot = get_remove_slot(pfr); ++ ++ if((slot != NULL) && (slot->slot_state == 0)) ++ poll_wait(file, &pfr->ring_slots_waitqueue, wait); ++ ++#if defined(RING_DEBUG) ++ printk("poll returning %d\n", slot->slot_state); ++#endif ++ ++ if((slot != NULL) && (slot->slot_state == 1)) ++ return(POLLIN | POLLRDNORM); ++ else ++ return(0); ++} ++ ++/* ************************************* */ ++ ++int add_to_cluster_list(struct ring_cluster *el, ++ struct sock *sock) { ++ ++ if(el->num_cluster_elements == CLUSTER_LEN) ++ return(-1); /* Cluster full */ ++ ++ ring_sk_datatype(ring_sk(sock))->cluster_id = el->cluster_id; ++ el->sk[el->num_cluster_elements] = sock; ++ el->num_cluster_elements++; ++ return(0); ++} ++ ++/* ************************************* */ ++ ++int remove_from_cluster_list(struct ring_cluster *el, ++ struct sock *sock) { ++ int i, j; ++ ++ for(i=0; isk[i] == sock) { ++ el->num_cluster_elements--; ++ ++ if(el->num_cluster_elements > 0) { ++ /* The cluster contains other elements */ ++ for(j=i; jsk[j] = el->sk[j+1]; ++ ++ el->sk[CLUSTER_LEN-1] = NULL; ++ } else { ++ /* Empty cluster */ ++ memset(el->sk, 0, sizeof(el->sk)); ++ } ++ ++ return(0); ++ } ++ ++ return(-1); /* Not found */ ++} ++ ++/* ************************************* */ ++ ++static int remove_from_cluster(struct sock *sock, ++ struct ring_opt *pfr) ++{ ++ struct ring_cluster *el; ++ ++#if defined(RING_DEBUG) ++ printk("--> remove_from_cluster(%d)\n", pfr->cluster_id); ++#endif ++ ++ if(pfr->cluster_id == 0 /* 0 = No Cluster */) ++ return(0); /* Noting to do */ ++ ++ el = ring_cluster_list; ++ ++ while(el != NULL) { ++ if(el->cluster_id == pfr->cluster_id) { ++ return(remove_from_cluster_list(el, sock)); ++ } else ++ el = el->next; ++ } ++ ++ return(-EINVAL); /* Not found */ ++} ++ ++/* ************************************* */ ++ ++static int add_to_cluster(struct sock *sock, ++ struct ring_opt *pfr, ++ u_short cluster_id) ++{ ++ struct ring_cluster *el; ++ ++#ifndef RING_DEBUG ++ printk("--> add_to_cluster(%d)\n", cluster_id); ++#endif ++ ++ if(cluster_id == 0 /* 0 = No Cluster */) return(-EINVAL); ++ ++ if(pfr->cluster_id != 0) ++ remove_from_cluster(sock, pfr); ++ ++ el = ring_cluster_list; ++ ++ while(el != NULL) { ++ if(el->cluster_id == cluster_id) { ++ return(add_to_cluster_list(el, sock)); ++ } else ++ el = el->next; ++ } ++ ++ /* There's no existing cluster. We need to create one */ ++ if((el = kmalloc(sizeof(struct ring_cluster), GFP_KERNEL)) == NULL) ++ return(-ENOMEM); ++ ++ el->cluster_id = cluster_id; ++ el->num_cluster_elements = 1; ++ el->hashing_mode = cluster_per_flow; /* Default */ ++ el->hashing_id = 0; ++ ++ memset(el->sk, 0, sizeof(el->sk)); ++ el->sk[0] = sock; ++ el->next = ring_cluster_list; ++ ring_cluster_list = el; ++ pfr->cluster_id = cluster_id; ++ ++ return(0); /* 0 = OK */ ++} ++ ++/* ************************************* */ ++ ++/* Code taken/inspired from core/sock.c */ ++static int ring_setsockopt(struct socket *sock, ++ int level, int optname, ++ char *optval, int optlen) ++{ ++ struct ring_opt *pfr = ring_sk(sock->sk); ++ int val, found, ret = 0; ++ u_int cluster_id; ++ char devName[8]; ++ ++ if((optleninsns, fprog.filter, fsize)) ++ break; ++ ++ filter->len = fprog.len; ++ ++ if(sk_chk_filter(filter->insns, filter->len) != 0) { ++ /* Bad filter specified */ ++ kfree(filter); ++ pfr->bpfFilter = NULL; ++ break; ++ } ++ ++ /* get the lock, set the filter, release the lock */ ++ write_lock(&ring_mgmt_lock); ++ pfr->bpfFilter = filter; ++ write_unlock(&ring_mgmt_lock); ++ } ++ ret = 0; ++ break; ++ ++ case SO_DETACH_FILTER: ++ write_lock(&ring_mgmt_lock); ++ found = 1; ++ if(pfr->bpfFilter != NULL) { ++ kfree(pfr->bpfFilter); ++ pfr->bpfFilter = NULL; ++ write_unlock(&ring_mgmt_lock); ++ break; ++ } ++ ret = -ENONET; ++ break; ++ ++ case SO_ADD_TO_CLUSTER: ++ if (optlen!=sizeof(val)) ++ return -EINVAL; ++ ++ if (copy_from_user(&cluster_id, optval, sizeof(cluster_id))) ++ return -EFAULT; ++ ++ write_lock(&ring_mgmt_lock); ++ ret = add_to_cluster(sock->sk, pfr, cluster_id); ++ write_unlock(&ring_mgmt_lock); ++ break; ++ ++ case SO_REMOVE_FROM_CLUSTER: ++ write_lock(&ring_mgmt_lock); ++ ret = remove_from_cluster(sock->sk, pfr); ++ write_unlock(&ring_mgmt_lock); ++ break; ++ ++ case SO_SET_REFLECTOR: ++ if(optlen >= (sizeof(devName)-1)) ++ return -EINVAL; ++ ++ if(optlen > 0) { ++ if(copy_from_user(devName, optval, optlen)) ++ return -EFAULT; ++ } ++ ++ devName[optlen] = '\0'; ++ ++#if defined(RING_DEBUG) ++ printk("+++ SO_SET_REFLECTOR(%s)\n", devName); ++#endif ++ ++ write_lock(&ring_mgmt_lock); ++ pfr->reflector_dev = dev_get_by_name(devName); ++ write_unlock(&ring_mgmt_lock); ++ ++#if defined(RING_DEBUG) ++ if(pfr->reflector_dev != NULL) ++ printk("SO_SET_REFLECTOR(%s): succeded\n", devName); ++ else ++ printk("SO_SET_REFLECTOR(%s): device unknown\n", devName); ++#endif ++ break; ++ ++ default: ++ found = 0; ++ break; ++ } ++ ++ if(found) ++ return(ret); ++ else ++ return(sock_setsockopt(sock, level, optname, optval, optlen)); ++} ++ ++/* ************************************* */ ++ ++static int ring_ioctl(struct socket *sock, ++ unsigned int cmd, unsigned long arg) ++{ ++ switch(cmd) ++ { ++ case SIOCGIFFLAGS: ++ case SIOCSIFFLAGS: ++ case SIOCGIFCONF: ++ case SIOCGIFMETRIC: ++ case SIOCSIFMETRIC: ++ case SIOCGIFMEM: ++ case SIOCSIFMEM: ++ case SIOCGIFMTU: ++ case SIOCSIFMTU: ++ case SIOCSIFLINK: ++ case SIOCGIFHWADDR: ++ case SIOCSIFHWADDR: ++ case SIOCSIFMAP: ++ case SIOCGIFMAP: ++ case SIOCSIFSLAVE: ++ case SIOCGIFSLAVE: ++ case SIOCGIFINDEX: ++ case SIOCGIFNAME: ++ case SIOCGIFCOUNT: ++ case SIOCSIFHWBROADCAST: ++ return(dev_ioctl(cmd,(void *) arg)); ++ ++ default: ++ return -EOPNOTSUPP; ++ } ++ ++ return 0; ++} ++ ++/* ************************************* */ ++ ++static struct proto_ops ring_ops = { ++ .family = PF_RING, ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ .owner = THIS_MODULE, ++#endif ++ ++ /* Operations that make no sense on ring sockets. */ ++ .connect = sock_no_connect, ++ .socketpair = sock_no_socketpair, ++ .accept = sock_no_accept, ++ .getname = sock_no_getname, ++ .listen = sock_no_listen, ++ .shutdown = sock_no_shutdown, ++ .sendpage = sock_no_sendpage, ++ .sendmsg = sock_no_sendmsg, ++ .getsockopt = sock_no_getsockopt, ++ ++ /* Now the operations that really occur. */ ++ .release = ring_release, ++ .bind = ring_bind, ++ .mmap = ring_mmap, ++ .poll = ring_poll, ++ .setsockopt = ring_setsockopt, ++ .ioctl = ring_ioctl, ++ .recvmsg = ring_recvmsg, ++}; ++ ++/* ************************************ */ ++ ++static struct net_proto_family ring_family_ops = { ++ .family = PF_RING, ++ .create = ring_create, ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++ .owner = THIS_MODULE, ++#endif ++}; ++ ++// BD: API changed in 2.6.12, ref: ++// http://svn.clkao.org/svnweb/linux/revision/?rev=28201 ++#if (LINUX_VERSION_CODE > KERNEL_VERSION(2,6,11)) ++static struct proto ring_proto = { ++ .name = "PF_RING", ++ .owner = THIS_MODULE, ++ .obj_size = sizeof(struct sock), ++}; ++#endif ++ ++/* ************************************ */ ++ ++static void __exit ring_exit(void) ++{ ++ struct list_head *ptr; ++ struct ring_element *entry; ++ ++ for(ptr = ring_table.next; ptr != &ring_table; ptr = ptr->next) { ++ entry = list_entry(ptr, struct ring_element, list); ++ kfree(entry); ++ } ++ ++ while(ring_cluster_list != NULL) { ++ struct ring_cluster *next = ring_cluster_list->next; ++ kfree(ring_cluster_list); ++ ring_cluster_list = next; ++ } ++ ++ set_skb_ring_handler(NULL); ++ set_buffer_ring_handler(NULL); ++ sock_unregister(PF_RING); ++ ++ printk("PF_RING shut down.\n"); ++} ++ ++/* ************************************ */ ++ ++static int __init ring_init(void) ++{ ++ printk("Welcome to PF_RING %s\n(C) 2004-05 L.Deri \n", ++ RING_VERSION); ++ ++ INIT_LIST_HEAD(&ring_table); ++ ring_cluster_list = NULL; ++ ++ sock_register(&ring_family_ops); ++ ++ set_skb_ring_handler(skb_ring_handler); ++ set_buffer_ring_handler(buffer_ring_handler); ++ ++ if(get_buffer_ring_handler() != buffer_ring_handler) { ++ printk("PF_RING: set_buffer_ring_handler FAILED\n"); ++ ++ set_skb_ring_handler(NULL); ++ set_buffer_ring_handler(NULL); ++ sock_unregister(PF_RING); ++ return -1; ++ } else { ++ printk("PF_RING: bucket length %d bytes\n", bucket_len); ++ printk("PF_RING: ring slots %d\n", num_slots); ++ printk("PF_RING: sample rate %d [1=no sampling]\n", sample_rate); ++ printk("PF_RING: capture TX %s\n", ++ enable_tx_capture ? "Yes [RX+TX]" : "No [RX only]"); ++ printk("PF_RING: transparent mode %s\n", ++ transparent_mode ? "Yes" : "No"); ++ ++ printk("PF_RING initialized correctly.\n"); ++ return 0; ++ } ++} ++ ++module_init(ring_init); ++module_exit(ring_exit); ++MODULE_LICENSE("GPL"); ++ ++#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0)) ++MODULE_ALIAS_NETPROTO(PF_RING); ++#endif