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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 | /* * This code is heavily based on the code on the old ip_fw.c code; see below for * copyrights and attributions of the old code. This code is basically GPL. * * 15-Aug-1997: Major changes to allow graphs for firewall rules. * Paul Russell <Paul.Russell@rustcorp.com.au> and * Michael Neuling <Michael.Neuling@rustcorp.com.au> * 24-Aug-1997: Generalised protocol handling (not just TCP/UDP/ICMP). * Added explicit RETURN from chains. * Removed TOS mangling (done in ipchains 1.0.1). * Fixed read & reset bug by reworking proc handling. * Paul Russell <Paul.Russell@rustcorp.com.au> * 28-Sep-1997: Added packet marking for net sched code. * Removed fw_via comparisons: all done on device name now, * similar to changes in ip_fw.c in DaveM's CVS970924 tree. * Paul Russell <Paul.Russell@rustcorp.com.au> * 2-Nov-1997: Moved types across to __u16, etc. * Added inverse flags. * Fixed fragment bug (in args to port_match). * Changed mark to only one flag (MARKABS). * 21-Nov-1997: Added ability to test ICMP code. * 19-Jan-1998: Added wildcard interfaces. * 6-Feb-1998: Merged 2.0 and 2.1 versions. * Initialised ip_masq for 2.0.x version. * Added explicit NETLINK option for 2.1.x version. * Added packet and byte counters for policy matches. * 26-Feb-1998: Fixed race conditions, added SMP support. * 18-Mar-1998: Fix SMP, fix race condition fix. * 1-May-1998: Remove caching of device pointer. * 12-May-1998: Allow tiny fragment case for TCP/UDP. * 15-May-1998: Treat short packets as fragments, don't just block. * 3-Jan-1999: Fixed serious procfs security hole -- users should never * be allowed to view the chains! * Marc Santoro <ultima@snicker.emoti.com> * 29-Jan-1999: Locally generated bogus IPs dealt with, rather than crash * during dump_packet. --RR. * 19-May-1999: Star Wars: The Phantom Menace opened. Rule num * printed in log (modified from Michael Hasenstein's patch). * Added SYN in log message. --RR * 23-Jul-1999: Fixed small fragment security exposure opened on 15-May-1998. * John McDonald <jm@dataprotect.com> * Thomas Lopatic <tl@dataprotect.com> * 21-Oct-1999: Applied count fix by Emanuele Caratti <wiz@iol.it> --RR */ /* * * The original Linux port was done Alan Cox, with changes/fixes from * Pauline Middlelink, Jos Vos, Thomas Quinot, Wouter Gadeyne, Juan * Jose Ciarlante, Bernd Eckenfels, Keith Owens and others. * * Copyright from the original FreeBSD version follows: * * Copyright (c) 1993 Daniel Boulet * Copyright (c) 1994 Ugen J.S.Antsilevich * * Redistribution and use in source forms, with and without modification, * are permitted provided that this entire comment appears intact. * * Redistribution in binary form may occur without any restrictions. * Obviously, it would be nice if you gave credit where credit is due * but requiring it would be too onerous. * * This software is provided ``AS IS'' without any warranties of any kind. */ #include <linux/config.h> #include <asm/uaccess.h> #include <asm/system.h> #include <linux/types.h> #include <linux/sched.h> #include <linux/string.h> #include <linux/errno.h> #include <linux/socket.h> #include <linux/sockios.h> #include <linux/in.h> #include <linux/inet.h> #include <linux/netdevice.h> #include <linux/icmp.h> #include <linux/udp.h> #include <net/ip.h> #include <net/protocol.h> #include <net/route.h> #include <net/tcp.h> #include <net/udp.h> #include <net/sock.h> #include <net/icmp.h> #include <net/ip_masq.h> #include <linux/netlink.h> #include <linux/init.h> #include <linux/firewall.h> #include <linux/ip_fw.h> #ifdef CONFIG_IP_MASQUERADE #include <net/ip_masq.h> #endif #include <net/checksum.h> #include <linux/proc_fs.h> #include <linux/stat.h> /* Understanding locking in this code: (thanks to Alan Cox for using * little words to explain this to me). -- PR * * In UP, there can be two packets traversing the chains: * 1) A packet from the current userspace context * 2) A packet off the bh handlers (timer or net). * * For SMP (kernel v2.1+), multiply this by # CPUs. * * [Note that this in not correct for 2.2 - because the socket code always * uses lock_kernel() to serialize, and bottom halves (timers and net_bhs) * only run on one CPU at a time. This will probably change for 2.3. * It is still good to use spinlocks because that avoids the global cli() * for updating the tables, which is rather costly in SMP kernels -AK] * * This means counters and backchains can get corrupted if no precautions * are taken. * * To actually alter a chain on UP, we need only do a cli(), as this will * stop a bh handler firing, as we are in the current userspace context * (coming from a setsockopt()). * * On SMP, we need a write_lock_irqsave(), which is a simple cli() in * UP. * * For backchains and counters, we use an array, indexed by * [cpu_number_map[smp_processor_id()]*2 + !in_interrupt()]; the array is of * size [smp_num_cpus*2]. For v2.0, smp_num_cpus is effectively 1. So, * confident of uniqueness, we modify counters even though we only * have a read lock (to read the counters, you need a write lock, * though). */ /* Why I didn't use straight locking... -- PR * * The backchains can be separated out of the ip_chains structure, and * allocated as needed inside ip_fw_check(). * * The counters, however, can't. Trying to lock these means blocking * interrupts every time we want to access them. This would suck HARD * performance-wise. Not locking them leads to possible corruption, * made worse on 32-bit machines (counters are 64-bit). */ /*#define DEBUG_IP_FIREWALL*/ /*#define DEBUG_ALLOW_ALL*/ /* Useful for remote debugging */ /*#define DEBUG_IP_FIREWALL_USER*/ /*#define DEBUG_IP_FIREWALL_LOCKING*/ #ifdef CONFIG_IP_FIREWALL_NETLINK static struct sock *ipfwsk; #endif #ifdef __SMP__ #define SLOT_NUMBER() (cpu_number_map[smp_processor_id()]*2 + !in_interrupt()) #else #define SLOT_NUMBER() (!in_interrupt()) #endif #define NUM_SLOTS (smp_num_cpus*2) #define SIZEOF_STRUCT_IP_CHAIN (sizeof(struct ip_chain) \ + NUM_SLOTS*sizeof(struct ip_reent)) #define SIZEOF_STRUCT_IP_FW_KERNEL (sizeof(struct ip_fwkernel) \ + NUM_SLOTS*sizeof(struct ip_counters)) #ifdef DEBUG_IP_FIREWALL_LOCKING static unsigned int fwc_rlocks, fwc_wlocks; #define FWC_DEBUG_LOCK(d) \ do { \ FWC_DONT_HAVE_LOCK(d); \ d |= (1 << SLOT_NUMBER()); \ } while (0) #define FWC_DEBUG_UNLOCK(d) \ do { \ FWC_HAVE_LOCK(d); \ d &= ~(1 << SLOT_NUMBER()); \ } while (0) #define FWC_DONT_HAVE_LOCK(d) \ do { \ if ((d) & (1 << SLOT_NUMBER())) \ printk("%s:%i: Got lock on %i already!\n", \ __FILE__, __LINE__, SLOT_NUMBER()); \ } while(0) #define FWC_HAVE_LOCK(d) \ do { \ if (!((d) & (1 << SLOT_NUMBER()))) \ printk("%s:%i:No lock on %i!\n", \ __FILE__, __LINE__, SLOT_NUMBER()); \ } while (0) #else #define FWC_DEBUG_LOCK(d) do { } while(0) #define FWC_DEBUG_UNLOCK(d) do { } while(0) #define FWC_DONT_HAVE_LOCK(d) do { } while(0) #define FWC_HAVE_LOCK(d) do { } while(0) #endif /*DEBUG_IP_FIRWALL_LOCKING*/ #define FWC_READ_LOCK(l) do { FWC_DEBUG_LOCK(fwc_rlocks); read_lock(l); } while (0) #define FWC_WRITE_LOCK(l) do { FWC_DEBUG_LOCK(fwc_wlocks); write_lock(l); } while (0) #define FWC_READ_LOCK_IRQ(l,f) do { FWC_DEBUG_LOCK(fwc_rlocks); read_lock_irqsave(l,f); } while (0) #define FWC_WRITE_LOCK_IRQ(l,f) do { FWC_DEBUG_LOCK(fwc_wlocks); write_lock_irqsave(l,f); } while (0) #define FWC_READ_UNLOCK(l) do { FWC_DEBUG_UNLOCK(fwc_rlocks); read_unlock(l); } while (0) #define FWC_WRITE_UNLOCK(l) do { FWC_DEBUG_UNLOCK(fwc_wlocks); write_unlock(l); } while (0) #define FWC_READ_UNLOCK_IRQ(l,f) do { FWC_DEBUG_UNLOCK(fwc_rlocks); read_unlock_irqrestore(l,f); } while (0) #define FWC_WRITE_UNLOCK_IRQ(l,f) do { FWC_DEBUG_UNLOCK(fwc_wlocks); write_unlock_irqrestore(l,f); } while (0) struct ip_chain; struct ip_counters { __u64 pcnt, bcnt; /* Packet and byte counters */ }; struct ip_fwkernel { struct ip_fw ipfw; struct ip_fwkernel *next; /* where to go next if current * rule doesn't match */ struct ip_chain *branch; /* which branch to jump to if * current rule matches */ int simplebranch; /* Use this if branch == NULL */ struct ip_counters counters[0]; /* Actually several of these */ }; struct ip_reent { struct ip_chain *prevchain; /* Pointer to referencing chain */ struct ip_fwkernel *prevrule; /* Pointer to referencing rule */ unsigned int count; struct ip_counters counters; }; struct ip_chain { ip_chainlabel label; /* Defines the label for each block */ struct ip_chain *next; /* Pointer to next block */ struct ip_fwkernel *chain; /* Pointer to first rule in block */ __u32 refcount; /* Number of refernces to block */ int policy; /* Default rule for chain. Only * * used in built in chains */ struct ip_reent reent[0]; /* Actually several of these */ }; /* * Implement IP packet firewall */ #ifdef DEBUG_IP_FIREWALL #define dprintf(format, args...) printk(format , ## args) #else #define dprintf(format, args...) #endif #ifdef DEBUG_IP_FIREWALL_USER #define duprintf(format, args...) printk(format , ## args) #else #define duprintf(format, args...) #endif /* Lock around ip_fw_chains linked list structure */ rwlock_t ip_fw_lock = RW_LOCK_UNLOCKED; /* Head of linked list of fw rules */ static struct ip_chain *ip_fw_chains; #define IP_FW_INPUT_CHAIN ip_fw_chains #define IP_FW_FORWARD_CHAIN (ip_fw_chains->next) #define IP_FW_OUTPUT_CHAIN (ip_fw_chains->next->next) /* Returns 1 if the port is matched by the range, 0 otherwise */ extern inline int port_match(__u16 min, __u16 max, __u16 port, int frag, int invert) { if (frag) /* Fragments fail ANY port test. */ return (min == 0 && max == 0xFFFF); else return (port >= min && port <= max) ^ invert; } /* Returns whether matches rule or not. */ static int ip_rule_match(struct ip_fwkernel *f, const char *ifname, struct iphdr *ip, char tcpsyn, __u16 src_port, __u16 dst_port, char isfrag) { #define FWINV(bool,invflg) ((bool) ^ !!(f->ipfw.fw_invflg & invflg)) /* * This is a bit simpler as we don't have to walk * an interface chain as you do in BSD - same logic * however. */ if (FWINV((ip->saddr&f->ipfw.fw_smsk.s_addr) != f->ipfw.fw_src.s_addr, IP_FW_INV_SRCIP) || FWINV((ip->daddr&f->ipfw.fw_dmsk.s_addr)!=f->ipfw.fw_dst.s_addr, IP_FW_INV_DSTIP)) { dprintf("Source or dest mismatch.\n"); dprintf("SRC: %u. Mask: %u. Target: %u.%s\n", ip->saddr, f->ipfw.fw_smsk.s_addr, f->ipfw.fw_src.s_addr, f->ipfw.fw_invflg & IP_FW_INV_SRCIP ? " (INV)" : ""); dprintf("DST: %u. Mask: %u. Target: %u.%s\n", ip->daddr, f->ipfw.fw_dmsk.s_addr, f->ipfw.fw_dst.s_addr, f->ipfw.fw_invflg & IP_FW_INV_DSTIP ? " (INV)" : ""); return 0; } /* * Look for a VIA device match */ if (f->ipfw.fw_flg & IP_FW_F_WILDIF) { if (FWINV(strncmp(ifname, f->ipfw.fw_vianame, strlen(f->ipfw.fw_vianame)) != 0, IP_FW_INV_VIA)) { dprintf("Wildcard interface mismatch.%s\n", f->ipfw.fw_invflg & IP_FW_INV_VIA ? " (INV)" : ""); return 0; /* Mismatch */ } } else if (FWINV(strcmp(ifname, f->ipfw.fw_vianame) != 0, IP_FW_INV_VIA)) { dprintf("Interface name does not match.%s\n", f->ipfw.fw_invflg & IP_FW_INV_VIA ? " (INV)" : ""); return 0; /* Mismatch */ } /* * Ok the chain addresses match. */ /* If we have a fragment rule but the packet is not a fragment * the we return zero */ if (FWINV((f->ipfw.fw_flg&IP_FW_F_FRAG) && !isfrag, IP_FW_INV_FRAG)) { dprintf("Fragment rule but not fragment.%s\n", f->ipfw.fw_invflg & IP_FW_INV_FRAG ? " (INV)" : ""); return 0; } /* Fragment NEVER passes a SYN test, even an inverted one. */ if (FWINV((f->ipfw.fw_flg&IP_FW_F_TCPSYN) && !tcpsyn, IP_FW_INV_SYN) || (isfrag && (f->ipfw.fw_flg&IP_FW_F_TCPSYN))) { dprintf("Rule requires SYN and packet has no SYN.%s\n", f->ipfw.fw_invflg & IP_FW_INV_SYN ? " (INV)" : ""); return 0; } if (f->ipfw.fw_proto) { /* * Specific firewall - packet's protocol * must match firewall's. */ if (FWINV(ip->protocol!=f->ipfw.fw_proto, IP_FW_INV_PROTO)) { dprintf("Packet protocol %hi does not match %hi.%s\n", ip->protocol, f->ipfw.fw_proto, f->ipfw.fw_invflg&IP_FW_INV_PROTO ? " (INV)":""); return 0; } /* For non TCP/UDP/ICMP, port range is max anyway. */ if (!port_match(f->ipfw.fw_spts[0], f->ipfw.fw_spts[1], src_port, isfrag, !!(f->ipfw.fw_invflg&IP_FW_INV_SRCPT)) || !port_match(f->ipfw.fw_dpts[0], f->ipfw.fw_dpts[1], dst_port, isfrag, !!(f->ipfw.fw_invflg &IP_FW_INV_DSTPT))) { dprintf("Port match failed.\n"); return 0; } } dprintf("Match succeeded.\n"); return 1; } static const char *branchname(struct ip_chain *branch,int simplebranch) { if (branch) return branch->label; switch (simplebranch) { case FW_BLOCK: return IP_FW_LABEL_BLOCK; case FW_ACCEPT: return IP_FW_LABEL_ACCEPT; case FW_REJECT: return IP_FW_LABEL_REJECT; case FW_REDIRECT: return IP_FW_LABEL_REDIRECT; case FW_MASQUERADE: return IP_FW_LABEL_MASQUERADE; case FW_SKIP: return "-"; case FW_SKIP+1: return IP_FW_LABEL_RETURN; default: return "UNKNOWN"; } } /* * VERY ugly piece of code which actually * makes kernel printf for matching packets... */ static void dump_packet(const struct iphdr *ip, const char *ifname, struct ip_fwkernel *f, const ip_chainlabel chainlabel, __u16 src_port, __u16 dst_port, unsigned int count, int syn) { __u32 *opt = (__u32 *) (ip + 1); int opti; if (f) { printk(KERN_INFO "Packet log: %s ",chainlabel); printk("%s ",branchname(f->branch,f->simplebranch)); if (f->simplebranch==FW_REDIRECT) printk("%d ",f->ipfw.fw_redirpt); } printk("%s PROTO=%d %d.%d.%d.%d:%hu %d.%d.%d.%d:%hu" " L=%hu S=0x%2.2hX I=%hu F=0x%4.4hX T=%hu", ifname, ip->protocol, (ntohl(ip->saddr)>>24)&0xFF, (ntohl(ip->saddr)>>16)&0xFF, (ntohl(ip->saddr)>>8)&0xFF, (ntohl(ip->saddr))&0xFF, src_port, (ntohl(ip->daddr)>>24)&0xFF, (ntohl(ip->daddr)>>16)&0xFF, (ntohl(ip->daddr)>>8)&0xFF, (ntohl(ip->daddr))&0xFF, dst_port, ntohs(ip->tot_len), ip->tos, ntohs(ip->id), ntohs(ip->frag_off), ip->ttl); for (opti = 0; opti < (ip->ihl - sizeof(struct iphdr) / 4); opti++) printk(" O=0x%8.8X", *opt++); printk(" %s(#%d)\n", syn ? "SYN " : /* "PENANCE" */ "", count); } /* function for checking chain labels for user space. */ static int check_label(ip_chainlabel label) { unsigned int i; /* strlen must be < IP_FW_MAX_LABEL_LENGTH. */ for (i = 0; i < IP_FW_MAX_LABEL_LENGTH + 1; i++) if (label[i] == '\0') return 1; return 0; } /* This function returns a pointer to the first chain with a label * that matches the one given. */ static struct ip_chain *find_label(ip_chainlabel label) { struct ip_chain *tmp; FWC_HAVE_LOCK(fwc_rlocks | fwc_wlocks); for (tmp = ip_fw_chains; tmp; tmp = tmp->next) if (strcmp(tmp->label,label) == 0) break; return tmp; } /* This function returns a boolean which when true sets answer to one of the FW_*. */ static int find_special(ip_chainlabel label, int *answer) { if (label[0] == '\0') { *answer = FW_SKIP; /* => pass-through rule */ return 1; } else if (strcmp(label,IP_FW_LABEL_ACCEPT) == 0) { *answer = FW_ACCEPT; return 1; } else if (strcmp(label,IP_FW_LABEL_BLOCK) == 0) { *answer = FW_BLOCK; return 1; } else if (strcmp(label,IP_FW_LABEL_REJECT) == 0) { *answer = FW_REJECT; return 1; #ifdef CONFIG_IP_TRANSPARENT_PROXY } else if (strcmp(label,IP_FW_LABEL_REDIRECT) == 0) { extern int sysctl_ip_always_defrag; static int enabled = 0; if(!enabled) { enabled=1; sysctl_ip_always_defrag++; } *answer = FW_REDIRECT; return 1; #endif #ifdef CONFIG_IP_MASQUERADE } else if (strcmp(label,IP_FW_LABEL_MASQUERADE) == 0) { *answer = FW_MASQUERADE; return 1; #endif } else if (strcmp(label, IP_FW_LABEL_RETURN) == 0) { *answer = FW_SKIP+1; return 1; } else { return 0; } } /* This function cleans up the prevchain and prevrule. If the verbose * flag is set then he names of the chains will be printed as it * cleans up. */ static void cleanup(struct ip_chain *chain, const int verbose, unsigned int slot) { struct ip_chain *tmpchain = chain->reent[slot].prevchain; if (verbose) printk(KERN_ERR "Chain backtrace: "); while (tmpchain) { if (verbose) printk("%s<-",chain->label); chain->reent[slot].prevchain = NULL; chain = tmpchain; tmpchain = chain->reent[slot].prevchain; } if (verbose) printk("%s\n",chain->label); } static inline int ip_fw_domatch(struct ip_fwkernel *f, struct iphdr *ip, const char *rif, const ip_chainlabel label, struct sk_buff *skb, unsigned int slot, __u16 src_port, __u16 dst_port, unsigned int count, int tcpsyn) { f->counters[slot].bcnt+=ntohs(ip->tot_len); f->counters[slot].pcnt++; if (f->ipfw.fw_flg & IP_FW_F_PRN) { dump_packet(ip,rif,f,label,src_port,dst_port,count,tcpsyn); } ip->tos = (ip->tos & f->ipfw.fw_tosand) ^ f->ipfw.fw_tosxor; /* This functionality is useless in stock 2.0.x series, but we don't * discard the mark thing altogether, to avoid breaking ipchains (and, * more importantly, the ipfwadm wrapper) --PR */ if (f->ipfw.fw_flg & IP_FW_F_MARKABS) skb->fwmark = f->ipfw.fw_mark; else skb->fwmark+=f->ipfw.fw_mark; #ifdef CONFIG_IP_FIREWALL_NETLINK if (f->ipfw.fw_flg & IP_FW_F_NETLINK) { size_t len = min(f->ipfw.fw_outputsize, ntohs(ip->tot_len)) + sizeof(__u32) + sizeof(skb->fwmark) + IFNAMSIZ; struct sk_buff *outskb=alloc_skb(len, GFP_ATOMIC); duprintf("Sending packet out NETLINK (length = %u).\n", (unsigned int)len); if (outskb) { /* Prepend length, mark & interface */ skb_put(outskb, len); *((__u32 *)outskb->data) = (__u32)len; *((__u32 *)(outskb->data+sizeof(__u32))) = skb->fwmark; strcpy(outskb->data+sizeof(__u32)*2, rif); memcpy(outskb->data+sizeof(__u32)*2+IFNAMSIZ, ip, len-(sizeof(__u32)*2+IFNAMSIZ)); netlink_broadcast(ipfwsk, outskb, 0, ~0, GFP_ATOMIC); } else { if (net_ratelimit()) printk(KERN_WARNING "ip_fw: packet drop due to " "netlink failure\n"); return 0; } } #endif return 1; } /* * Returns one of the generic firewall policies, like FW_ACCEPT. * * The testing is either false for normal firewall mode or true for * user checking mode (counters are not updated, TOS & mark not done). */ static int ip_fw_check(struct iphdr *ip, const char *rif, __u16 *redirport, struct ip_chain *chain, struct sk_buff *skb, unsigned int slot, int testing) { struct tcphdr *tcp=(struct tcphdr *)((__u32 *)ip+ip->ihl); struct udphdr *udp=(struct udphdr *)((__u32 *)ip+ip->ihl); struct icmphdr *icmp=(struct icmphdr *)((__u32 *)ip+ip->ihl); __u32 src, dst; __u16 src_port = 0xFFFF, dst_port = 0xFFFF; char tcpsyn=0; __u16 offset; unsigned char oldtos; struct ip_fwkernel *f; int ret = FW_SKIP+2; unsigned int count; /* We handle fragments by dealing with the first fragment as * if it was a normal packet. All other fragments are treated * normally, except that they will NEVER match rules that ask * things we don't know, ie. tcp syn flag or ports). If the * rule is also a fragment-specific rule, non-fragments won't * match it. */ offset = ntohs(ip->frag_off) & IP_OFFSET; /* * Don't allow a fragment of TCP 8 bytes in. Nobody * normal causes this. Its a cracker trying to break * in by doing a flag overwrite to pass the direction * checks. */ if (offset == 1 && ip->protocol == IPPROTO_TCP) { if (!testing && net_ratelimit()) { printk("Suspect TCP fragment.\n"); dump_packet(ip,rif,NULL,NULL,0,0,0,0); } return FW_BLOCK; } /* If we can't investigate ports, treat as fragment. It's * either a trucated whole packet, or a truncated first * fragment, or a TCP first fragment of length 8-15, in which * case the above rule stops reassembly. */ if (offset == 0) { unsigned int size_req; switch (ip->protocol) { case IPPROTO_TCP: /* Don't care about things past flags word */ size_req = 16; break; case IPPROTO_UDP: case IPPROTO_ICMP: size_req = 8; break; default: size_req = 0; } offset = (ntohs(ip->tot_len) < (ip->ihl<<2)+size_req); /* If it is a truncated first fragment then it can be * used to rewrite port information, and thus should * be blocked. */ if (offset && (ntohs(ip->frag_off) & IP_MF)) { if (!testing && net_ratelimit()) { printk("Suspect short first fragment.\n"); dump_packet(ip,rif,NULL,NULL,0,0,0,0); } return FW_BLOCK; } } src = ip->saddr; dst = ip->daddr; oldtos = ip->tos; /* * If we got interface from which packet came * we can use the address directly. Linux 2.1 now uses address * chains per device too, but unlike BSD we first check if the * incoming packet matches a device address and the routing * table before calling the firewall. */ dprintf("Packet "); switch(ip->protocol) { case IPPROTO_TCP: dprintf("TCP "); if (!offset) { src_port=ntohs(tcp->source); dst_port=ntohs(tcp->dest); /* Connection initilisation can only * be made when the syn bit is set and * neither of the ack or reset is * set. */ if(tcp->syn && !(tcp->ack || tcp->rst)) tcpsyn=1; } break; case IPPROTO_UDP: dprintf("UDP "); if (!offset) { src_port=ntohs(udp->source); dst_port=ntohs(udp->dest); } break; case IPPROTO_ICMP: if (!offset) { src_port=(__u16)icmp->type; dst_port=(__u16)icmp->code; } dprintf("ICMP "); break; default: dprintf("p=%d ",ip->protocol); break; } #ifdef DEBUG_IP_FIREWALL print_ip(ip->saddr); if (offset) dprintf(":fragment (%i) ", ((int)offset)<<2); else if (ip->protocol==IPPROTO_TCP || ip->protocol==IPPROTO_UDP || ip->protocol==IPPROTO_ICMP) dprintf(":%hu:%hu", src_port, dst_port); dprintf("\n"); #endif if (!testing) FWC_READ_LOCK(&ip_fw_lock); else FWC_HAVE_LOCK(fwc_rlocks); f = chain->chain; count = 0; do { for (; f; f = f->next) { count++; if (ip_rule_match(f,rif,ip, tcpsyn,src_port,dst_port,offset!=0)) { if (!testing && !ip_fw_domatch(f, ip, rif, chain->label, skb, slot, src_port, dst_port, count, tcpsyn)) { ret = FW_BLOCK; goto out; } break; } } if (f) { if (f->branch) { /* Do sanity check to see if we have * already set prevchain and if so we * must be in a loop */ if (f->branch->reent[slot].prevchain) { if (!testing) { printk(KERN_ERR "IP firewall: " "Loop detected " "at `%s'.\n", f->branch->label); cleanup(chain, 1, slot); ret = FW_BLOCK; } else { cleanup(chain, 0, slot); ret = FW_SKIP+1; } } else { f->branch->reent[slot].prevchain = chain; f->branch->reent[slot].count = count; f->branch->reent[slot].prevrule = f->next; chain = f->branch; f = chain->chain; count = 0; } } else if (f->simplebranch == FW_SKIP) f = f->next; else if (f->simplebranch == FW_SKIP+1) { /* Just like falling off the chain */ goto fall_off_chain; } else { cleanup(chain, 0, slot); ret = f->simplebranch; } } /* f == NULL */ else { fall_off_chain: if (chain->reent[slot].prevchain) { struct ip_chain *tmp = chain; f = chain->reent[slot].prevrule; count = chain->reent[slot].count; chain = chain->reent[slot].prevchain; tmp->reent[slot].prevchain = NULL; } else { ret = chain->policy; if (!testing) { chain->reent[slot].counters.pcnt++; chain->reent[slot].counters.bcnt += ntohs(ip->tot_len); } } } } while (ret == FW_SKIP+2); out: if (!testing) FWC_READ_UNLOCK(&ip_fw_lock); /* Recalculate checksum if not going to reject, and TOS changed. */ if (ip->tos != oldtos && ret != FW_REJECT && ret != FW_BLOCK && !testing) ip_send_check(ip); #ifdef CONFIG_IP_TRANSPARENT_PROXY if (ret == FW_REDIRECT && redirport) { if ((*redirport = htons(f->ipfw.fw_redirpt)) == 0) { /* Wildcard redirection. * Note that redirport will become * 0xFFFF for non-TCP/UDP packets. */ *redirport = htons(dst_port); } } #endif #ifdef DEBUG_ALLOW_ALL return (testing ? ret : FW_ACCEPT); #else return ret; #endif } /* Must have write lock & interrupts off for any of these */ /* This function sets all the byte counters in a chain to zero. The * input is a pointer to the chain required for zeroing */ static int zero_fw_chain(struct ip_chain *chainptr) { struct ip_fwkernel *i; FWC_HAVE_LOCK(fwc_wlocks); for (i = chainptr->chain; i; i = i->next) memset(i->counters, 0, sizeof(struct ip_counters)*NUM_SLOTS); return 0; } static int clear_fw_chain(struct ip_chain *chainptr) { struct ip_fwkernel *i= chainptr->chain; FWC_HAVE_LOCK(fwc_wlocks); chainptr->chain=NULL; while (i) { struct ip_fwkernel *tmp = i->next; if (i->branch) i->branch->refcount--; kfree(i); i = tmp; } return 0; } static int replace_in_chain(struct ip_chain *chainptr, struct ip_fwkernel *frwl, __u32 position) { struct ip_fwkernel *f = chainptr->chain; FWC_HAVE_LOCK(fwc_wlocks); while (--position && f != NULL) f = f->next; if (f == NULL) return EINVAL; if (f->branch) f->branch->refcount--; if (frwl->branch) frwl->branch->refcount++; frwl->next = f->next; memcpy(f,frwl,sizeof(struct ip_fwkernel)); kfree(frwl); return 0; } static int append_to_chain(struct ip_chain *chainptr, struct ip_fwkernel *rule) { struct ip_fwkernel *i; FWC_HAVE_LOCK(fwc_wlocks); /* Special case if no rules already present */ if (chainptr->chain == NULL) { /* If pointer writes are atomic then turning off * interupts is not necessary. */ chainptr->chain = rule; if (rule->branch) rule->branch->refcount++; return 0; } /* Find the rule before the end of the chain */ for (i = chainptr->chain; i->next; i = i->next); i->next = rule; if (rule->branch) rule->branch->refcount++; return 0; } /* This function inserts a rule at the position of position in the * chain refenced by chainptr. If position is 1 then this rule will * become the new rule one. */ static int insert_in_chain(struct ip_chain *chainptr, struct ip_fwkernel *frwl, __u32 position) { struct ip_fwkernel *f = chainptr->chain; FWC_HAVE_LOCK(fwc_wlocks); /* special case if the position is number 1 */ if (position == 1) { frwl->next = chainptr->chain; if (frwl->branch) frwl->branch->refcount++; chainptr->chain = frwl; return 0; } position--; while (--position && f != NULL) f = f->next; if (f == NULL) return EINVAL; if (frwl->branch) frwl->branch->refcount++; frwl->next = f->next; f->next = frwl; return 0; } /* This function deletes the a rule from a given rulenum and chain. * With rulenum = 1 is the first rule is deleted. */ static int del_num_from_chain(struct ip_chain *chainptr, __u32 rulenum) { struct ip_fwkernel *i=chainptr->chain,*tmp; FWC_HAVE_LOCK(fwc_wlocks); if (!chainptr->chain) return ENOENT; /* Need a special case for the first rule */ if (rulenum == 1) { /* store temp to allow for freeing up of memory */ tmp = chainptr->chain; if (chainptr->chain->branch) chainptr->chain->branch->refcount--; chainptr->chain = chainptr->chain->next; kfree(tmp); /* free memory that is now unused */ } else { rulenum--; while (--rulenum && i->next ) i = i->next; if (!i->next) return ENOENT; tmp = i->next; if (i->next->branch) i->next->branch->refcount--; i->next = i->next->next; kfree(tmp); } return 0; } /* This function deletes the a rule from a given rule and chain. * The rule that is deleted is the first occursance of that rule. */ static int del_rule_from_chain(struct ip_chain *chainptr, struct ip_fwkernel *frwl) { struct ip_fwkernel *ltmp,*ftmp = chainptr->chain ; int was_found; FWC_HAVE_LOCK(fwc_wlocks); /* Sure, we should compare marks, but since the `ipfwadm' * script uses it for an unholy hack... well, life is easier * this way. We also mask it out of the flags word. --PR */ for (ltmp=NULL, was_found=0; !was_found && ftmp != NULL; ltmp = ftmp,ftmp = ftmp->next) { if (ftmp->ipfw.fw_src.s_addr!=frwl->ipfw.fw_src.s_addr || ftmp->ipfw.fw_dst.s_addr!=frwl->ipfw.fw_dst.s_addr || ftmp->ipfw.fw_smsk.s_addr!=frwl->ipfw.fw_smsk.s_addr || ftmp->ipfw.fw_dmsk.s_addr!=frwl->ipfw.fw_dmsk.s_addr #if 0 || ftmp->ipfw.fw_flg!=frwl->ipfw.fw_flg #else || ((ftmp->ipfw.fw_flg & ~IP_FW_F_MARKABS) != (frwl->ipfw.fw_flg & ~IP_FW_F_MARKABS)) #endif || ftmp->ipfw.fw_invflg!=frwl->ipfw.fw_invflg || ftmp->ipfw.fw_proto!=frwl->ipfw.fw_proto #if 0 || ftmp->ipfw.fw_mark!=frwl->ipfw.fw_mark #endif || ftmp->ipfw.fw_redirpt!=frwl->ipfw.fw_redirpt || ftmp->ipfw.fw_spts[0]!=frwl->ipfw.fw_spts[0] || ftmp->ipfw.fw_spts[1]!=frwl->ipfw.fw_spts[1] || ftmp->ipfw.fw_dpts[0]!=frwl->ipfw.fw_dpts[0] || ftmp->ipfw.fw_dpts[1]!=frwl->ipfw.fw_dpts[1] || ftmp->ipfw.fw_outputsize!=frwl->ipfw.fw_outputsize) { duprintf("del_rule_from_chain: mismatch:" "src:%u/%u dst:%u/%u smsk:%u/%u dmsk:%u/%u " "flg:%hX/%hX invflg:%hX/%hX proto:%u/%u " "mark:%u/%u " "ports:%hu-%hu/%hu-%hu %hu-%hu/%hu-%hu " "outputsize:%hu-%hu\n", ftmp->ipfw.fw_src.s_addr, frwl->ipfw.fw_src.s_addr, ftmp->ipfw.fw_dst.s_addr, frwl->ipfw.fw_dst.s_addr, ftmp->ipfw.fw_smsk.s_addr, frwl->ipfw.fw_smsk.s_addr, ftmp->ipfw.fw_dmsk.s_addr, frwl->ipfw.fw_dmsk.s_addr, ftmp->ipfw.fw_flg, frwl->ipfw.fw_flg, ftmp->ipfw.fw_invflg, frwl->ipfw.fw_invflg, ftmp->ipfw.fw_proto, frwl->ipfw.fw_proto, ftmp->ipfw.fw_mark, frwl->ipfw.fw_mark, ftmp->ipfw.fw_spts[0], frwl->ipfw.fw_spts[0], ftmp->ipfw.fw_spts[1], frwl->ipfw.fw_spts[1], ftmp->ipfw.fw_dpts[0], frwl->ipfw.fw_dpts[0], ftmp->ipfw.fw_dpts[1], frwl->ipfw.fw_dpts[1], ftmp->ipfw.fw_outputsize, frwl->ipfw.fw_outputsize); continue; } if (strncmp(ftmp->ipfw.fw_vianame, frwl->ipfw.fw_vianame, IFNAMSIZ)) { duprintf("del_rule_from_chain: if mismatch: %s/%s\n", ftmp->ipfw.fw_vianame, frwl->ipfw.fw_vianame); continue; } if (ftmp->branch != frwl->branch) { duprintf("del_rule_from_chain: branch mismatch: " "%s/%s\n", ftmp->branch?ftmp->branch->label:"(null)", frwl->branch?frwl->branch->label:"(null)"); continue; } if (ftmp->branch == NULL && ftmp->simplebranch != frwl->simplebranch) { duprintf("del_rule_from_chain: simplebranch mismatch: " "%i/%i\n", ftmp->simplebranch, frwl->simplebranch); continue; } was_found = 1; if (ftmp->branch) ftmp->branch->refcount--; if (ltmp) ltmp->next = ftmp->next; else chainptr->chain = ftmp->next; kfree(ftmp); break; } if (was_found) return 0; else { duprintf("del_rule_from_chain: no matching rule found\n"); return EINVAL; } } /* This function takes the label of a chain and deletes the first * chain with that name. No special cases required for the built in * chains as they have their refcount initilised to 1 so that they are * never deleted. */ static int del_chain(ip_chainlabel label) { struct ip_chain *tmp,*tmp2; FWC_HAVE_LOCK(fwc_wlocks); /* Corner case: return EBUSY not ENOENT for first elem ("input") */ if (strcmp(label, ip_fw_chains->label) == 0) return EBUSY; for (tmp = ip_fw_chains; tmp->next; tmp = tmp->next) if(strcmp(tmp->next->label,label) == 0) break; tmp2 = tmp->next; if (!tmp2) return ENOENT; if (tmp2->refcount) return EBUSY; if (tmp2->chain) return ENOTEMPTY; tmp->next = tmp2->next; kfree(tmp2); return 0; } /* This is a function to initilise a chain. Built in rules start with * refcount = 1 so that they cannot be deleted. User defined rules * start with refcount = 0 so they can be deleted. */ static struct ip_chain *ip_init_chain(ip_chainlabel name, __u32 ref, int policy) { unsigned int i; struct ip_chain *label = kmalloc(SIZEOF_STRUCT_IP_CHAIN, GFP_KERNEL); if (label == NULL) panic("Can't kmalloc for firewall chains.\n"); strcpy(label->label,name); label->next = NULL; label->chain = NULL; label->refcount = ref; label->policy = policy; for (i = 0; i < smp_num_cpus*2; i++) { label->reent[i].counters.pcnt = label->reent[i].counters.bcnt = 0; label->reent[i].prevchain = NULL; label->reent[i].prevrule = NULL; } return label; } /* This is a function for reating a new chain. The chains is not * created if a chain of the same name already exists */ static int create_chain(ip_chainlabel label) { struct ip_chain *tmp; if (!check_label(label)) return EINVAL; FWC_HAVE_LOCK(fwc_wlocks); for (tmp = ip_fw_chains; tmp->next; tmp = tmp->next) if (strcmp(tmp->label,label) == 0) return EEXIST; if (strcmp(tmp->label,label) == 0) return EEXIST; tmp->next = ip_init_chain(label, 0, FW_SKIP); /* refcount is * zero since this is a * user defined chain * * and therefore can be * deleted */ return 0; } /* This function simply changes the policy on one of the built in * chains. checking must be done before this is call to ensure that * chainptr is pointing to one of the three possible chains */ static int change_policy(struct ip_chain *chainptr, int policy) { FWC_HAVE_LOCK(fwc_wlocks); chainptr->policy = policy; return 0; } /* This function takes an ip_fwuser and converts it to a ip_fwkernel. It also * performs some checks in the structure. */ static struct ip_fwkernel *convert_ipfw(struct ip_fwuser *fwuser, int *errno) { struct ip_fwkernel *fwkern; if ( (fwuser->ipfw.fw_flg & ~IP_FW_F_MASK) != 0 ) { duprintf("convert_ipfw: undefined flag bits set (flags=%x)\n", fwuser->ipfw.fw_flg); *errno = EINVAL; return NULL; } #ifdef DEBUG_IP_FIREWALL_USER /* These are sanity checks that don't really matter. * We can get rid of these once testing is complete. */ if ((fwuser->ipfw.fw_flg & IP_FW_F_TCPSYN) && ((fwuser->ipfw.fw_invflg & IP_FW_INV_PROTO) || fwuser->ipfw.fw_proto != IPPROTO_TCP)) { duprintf("convert_ipfw: TCP SYN flag set but proto != TCP!\n"); *errno = EINVAL; return NULL; } if (strcmp(fwuser->label, IP_FW_LABEL_REDIRECT) != 0 && fwuser->ipfw.fw_redirpt != 0) { duprintf("convert_ipfw: Target not REDIR but redirpt != 0!\n"); *errno = EINVAL; return NULL; } if ((!(fwuser->ipfw.fw_flg & IP_FW_F_FRAG) && (fwuser->ipfw.fw_invflg & IP_FW_INV_FRAG)) || (!(fwuser->ipfw.fw_flg & IP_FW_F_TCPSYN) && (fwuser->ipfw.fw_invflg & IP_FW_INV_SYN))) { duprintf("convert_ipfw: Can't have INV flag if flag unset!\n"); *errno = EINVAL; return NULL; } if (((fwuser->ipfw.fw_invflg & IP_FW_INV_SRCPT) && fwuser->ipfw.fw_spts[0] == 0 && fwuser->ipfw.fw_spts[1] == 0xFFFF) || ((fwuser->ipfw.fw_invflg & IP_FW_INV_DSTPT) && fwuser->ipfw.fw_dpts[0] == 0 && fwuser->ipfw.fw_dpts[1] == 0xFFFF) || ((fwuser->ipfw.fw_invflg & IP_FW_INV_VIA) && (fwuser->ipfw.fw_vianame)[0] == '\0') || ((fwuser->ipfw.fw_invflg & IP_FW_INV_SRCIP) && fwuser->ipfw.fw_smsk.s_addr == 0) || ((fwuser->ipfw.fw_invflg & IP_FW_INV_DSTIP) && fwuser->ipfw.fw_dmsk.s_addr == 0)) { duprintf("convert_ipfw: INV flag makes rule unmatchable!\n"); *errno = EINVAL; return NULL; } if ((fwuser->ipfw.fw_flg & IP_FW_F_FRAG) && !(fwuser->ipfw.fw_invflg & IP_FW_INV_FRAG) && (fwuser->ipfw.fw_spts[0] != 0 || fwuser->ipfw.fw_spts[1] != 0xFFFF || fwuser->ipfw.fw_dpts[0] != 0 || fwuser->ipfw.fw_dpts[1] != 0xFFFF || (fwuser->ipfw.fw_flg & IP_FW_F_TCPSYN))) { duprintf("convert_ipfw: Can't test ports or SYN with frag!\n"); *errno = EINVAL; return NULL; } #endif if ((fwuser->ipfw.fw_spts[0] != 0 || fwuser->ipfw.fw_spts[1] != 0xFFFF || fwuser->ipfw.fw_dpts[0] != 0 || fwuser->ipfw.fw_dpts[1] != 0xFFFF) && ((fwuser->ipfw.fw_invflg & IP_FW_INV_PROTO) || (fwuser->ipfw.fw_proto != IPPROTO_TCP && fwuser->ipfw.fw_proto != IPPROTO_UDP && fwuser->ipfw.fw_proto != IPPROTO_ICMP))) { duprintf("convert_ipfw: Can only test ports for TCP/UDP/ICMP!\n"); *errno = EINVAL; return NULL; } fwkern = kmalloc(SIZEOF_STRUCT_IP_FW_KERNEL, GFP_KERNEL); if (!fwkern) { duprintf("convert_ipfw: kmalloc failed!\n"); *errno = ENOMEM; return NULL; } memcpy(&fwkern->ipfw,&fwuser->ipfw,sizeof(struct ip_fw)); if (!find_special(fwuser->label, &fwkern->simplebranch)) { fwkern->branch = find_label(fwuser->label); if (!fwkern->branch) { duprintf("convert_ipfw: chain doesn't exist `%s'.\n", fwuser->label); kfree(fwkern); *errno = ENOENT; return NULL; } else if (fwkern->branch == IP_FW_INPUT_CHAIN || fwkern->branch == IP_FW_FORWARD_CHAIN || fwkern->branch == IP_FW_OUTPUT_CHAIN) { duprintf("convert_ipfw: Can't branch to builtin chain `%s'.\n", fwuser->label); kfree(fwkern); *errno = ENOENT; return NULL; } } else fwkern->branch = NULL; memset(fwkern->counters, 0, sizeof(struct ip_counters)*NUM_SLOTS); /* Handle empty vianame by making it a wildcard */ if ((fwkern->ipfw.fw_vianame)[0] == '\0') fwkern->ipfw.fw_flg |= IP_FW_F_WILDIF; fwkern->next = NULL; return fwkern; } int ip_fw_ctl(int cmd, void *m, int len) { int ret; struct ip_chain *chain; unsigned long flags; FWC_WRITE_LOCK_IRQ(&ip_fw_lock, flags); switch (cmd) { case IP_FW_FLUSH: if (len != sizeof(ip_chainlabel) || !check_label(m)) ret = EINVAL; else if ((chain = find_label(m)) == NULL) ret = ENOENT; else ret = clear_fw_chain(chain); break; case IP_FW_ZERO: if (len != sizeof(ip_chainlabel) || !check_label(m)) ret = EINVAL; else if ((chain = find_label(m)) == NULL) ret = ENOENT; else ret = zero_fw_chain(chain); break; case IP_FW_CHECK: { struct ip_fwtest *new = m; struct iphdr *ip; /* Don't need write lock. */ FWC_WRITE_UNLOCK_IRQ(&ip_fw_lock, flags); if (len != sizeof(struct ip_fwtest) || !check_label(m)) return EINVAL; /* Need readlock to do find_label */ FWC_READ_LOCK(&ip_fw_lock); if ((chain = find_label(new->fwt_label)) == NULL) ret = ENOENT; else { ip = &(new->fwt_packet.fwp_iph); if (ip->ihl != sizeof(struct iphdr) / sizeof(int)) { duprintf("ip_fw_ctl: ip->ihl=%d, want %d\n", ip->ihl, sizeof(struct iphdr) / sizeof(int)); ret = EINVAL; } else { ret = ip_fw_check(ip, new->fwt_packet.fwp_vianame, NULL, chain, NULL, SLOT_NUMBER(), 1); switch (ret) { case FW_ACCEPT: ret = 0; break; case FW_REDIRECT: ret = ECONNABORTED; break; case FW_MASQUERADE: ret = ECONNRESET; break; case FW_REJECT: ret = ECONNREFUSED; break; /* Hack to help diag; these only get returned when testing. */ case FW_SKIP+1: ret = ELOOP; break; case FW_SKIP: ret = ENFILE; break; default: /* FW_BLOCK */ ret = ETIMEDOUT; break; } } } FWC_READ_UNLOCK(&ip_fw_lock); return ret; } case IP_FW_MASQ_TIMEOUTS: { #ifdef CONFIG_IP_MASQUERADE ret = ip_fw_masq_timeouts(m, len); #else ret = EINVAL; #endif } break; case IP_FW_REPLACE: { struct ip_fwkernel *ip_fwkern; struct ip_fwnew *new = m; if (len != sizeof(struct ip_fwnew) || !check_label(new->fwn_label)) ret = EINVAL; else if ((chain = find_label(new->fwn_label)) == NULL) ret = ENOENT; else if ((ip_fwkern = convert_ipfw(&new->fwn_rule, &ret)) != NULL) ret = replace_in_chain(chain, ip_fwkern, new->fwn_rulenum); } break; case IP_FW_APPEND: { struct ip_fwchange *new = m; struct ip_fwkernel *ip_fwkern; if (len != sizeof(struct ip_fwchange) || !check_label(new->fwc_label)) ret = EINVAL; else if ((chain = find_label(new->fwc_label)) == NULL) ret = ENOENT; else if ((ip_fwkern = convert_ipfw(&new->fwc_rule, &ret)) != NULL) ret = append_to_chain(chain, ip_fwkern); } break; case IP_FW_INSERT: { struct ip_fwkernel *ip_fwkern; struct ip_fwnew *new = m; if (len != sizeof(struct ip_fwnew) || !check_label(new->fwn_label)) ret = EINVAL; else if ((chain = find_label(new->fwn_label)) == NULL) ret = ENOENT; else if ((ip_fwkern = convert_ipfw(&new->fwn_rule, &ret)) != NULL) ret = insert_in_chain(chain, ip_fwkern, new->fwn_rulenum); } break; case IP_FW_DELETE: { struct ip_fwchange *new = m; struct ip_fwkernel *ip_fwkern; if (len != sizeof(struct ip_fwchange) || !check_label(new->fwc_label)) ret = EINVAL; else if ((chain = find_label(new->fwc_label)) == NULL) ret = ENOENT; else if ((ip_fwkern = convert_ipfw(&new->fwc_rule, &ret)) != NULL) { ret = del_rule_from_chain(chain, ip_fwkern); kfree(ip_fwkern); } } break; case IP_FW_DELETE_NUM: { struct ip_fwdelnum *new = m; if (len != sizeof(struct ip_fwdelnum) || !check_label(new->fwd_label)) ret = EINVAL; else if ((chain = find_label(new->fwd_label)) == NULL) ret = ENOENT; else ret = del_num_from_chain(chain, new->fwd_rulenum); } break; case IP_FW_CREATECHAIN: { if (len != sizeof(ip_chainlabel)) { duprintf("create_chain: bad size %i\n", len); ret = EINVAL; } else ret = create_chain(m); } break; case IP_FW_DELETECHAIN: { if (len != sizeof(ip_chainlabel)) { duprintf("delete_chain: bad size %i\n", len); ret = EINVAL; } else ret = del_chain(m); } break; case IP_FW_POLICY: { struct ip_fwpolicy *new = m; if (len != sizeof(struct ip_fwpolicy) || !check_label(new->fwp_label)) ret = EINVAL; else if ((chain = find_label(new->fwp_label)) == NULL) ret = ENOENT; else if (chain != IP_FW_INPUT_CHAIN && chain != IP_FW_FORWARD_CHAIN && chain != IP_FW_OUTPUT_CHAIN) { duprintf("change_policy: can't change policy on user" " defined chain.\n"); ret = EINVAL; } else { int pol = FW_SKIP; find_special(new->fwp_policy, &pol); switch(pol) { case FW_MASQUERADE: if (chain != IP_FW_FORWARD_CHAIN) { ret = EINVAL; break; } /* Fall thru... */ case FW_BLOCK: case FW_ACCEPT: case FW_REJECT: ret = change_policy(chain, pol); break; default: duprintf("change_policy: bad policy `%s'\n", new->fwp_policy); ret = EINVAL; } } break; } default: duprintf("ip_fw_ctl: unknown request %d\n",cmd); ret = EINVAL; } FWC_WRITE_UNLOCK_IRQ(&ip_fw_lock, flags); return ret; } /* Returns bytes used - doesn't NUL terminate */ static int dump_rule(char *buffer, const char *chainlabel, const struct ip_fwkernel *rule) { int len; unsigned int i; __u64 packets = 0, bytes = 0; FWC_HAVE_LOCK(fwc_wlocks); for (i = 0; i < NUM_SLOTS; i++) { packets += rule->counters[i].pcnt; bytes += rule->counters[i].bcnt; } len=sprintf(buffer, "%9s " /* Chain name */ "%08X/%08X->%08X/%08X " /* Source & Destination IPs */ "%.16s " /* Interface */ "%X %X " /* fw_flg and fw_invflg fields */ "%u " /* Protocol */ "%-9u %-9u %-9u %-9u " /* Packet & byte counters */ "%u-%u %u-%u " /* Source & Dest port ranges */ "A%02X X%02X " /* TOS and and xor masks */ "%08X " /* Redirection port */ "%u " /* fw_mark field */ "%u " /* output size */ "%9s\n", /* Target */ chainlabel, ntohl(rule->ipfw.fw_src.s_addr), ntohl(rule->ipfw.fw_smsk.s_addr), ntohl(rule->ipfw.fw_dst.s_addr), ntohl(rule->ipfw.fw_dmsk.s_addr), (rule->ipfw.fw_vianame)[0] ? rule->ipfw.fw_vianame : "-", rule->ipfw.fw_flg, rule->ipfw.fw_invflg, rule->ipfw.fw_proto, (__u32)(packets >> 32), (__u32)packets, (__u32)(bytes >> 32), (__u32)bytes, rule->ipfw.fw_spts[0], rule->ipfw.fw_spts[1], rule->ipfw.fw_dpts[0], rule->ipfw.fw_dpts[1], rule->ipfw.fw_tosand, rule->ipfw.fw_tosxor, rule->ipfw.fw_redirpt, rule->ipfw.fw_mark, rule->ipfw.fw_outputsize, branchname(rule->branch,rule->simplebranch)); duprintf("dump_rule: %i bytes done.\n", len); return len; } /* File offset is actually in records, not bytes. */ static int ip_chain_procinfo(char *buffer, char **start, off_t offset, int length, int reset) { struct ip_chain *i; struct ip_fwkernel *j = ip_fw_chains->chain; unsigned long flags; int len = 0; int last_len = 0; off_t upto = 0; duprintf("Offset starts at %lu\n", offset); duprintf("ip_fw_chains is 0x%0lX\n", (unsigned long int)ip_fw_chains); /* Need a write lock to lock out ``readers'' which update counters. */ FWC_WRITE_LOCK_IRQ(&ip_fw_lock, flags); for (i = ip_fw_chains; i; i = i->next) { for (j = i->chain; j; j = j->next) { if (upto == offset) break; duprintf("Skipping rule in chain `%s'\n", i->label); upto++; } if (upto == offset) break; } /* Don't init j first time, or once i = NULL */ for (; i; (void)((i = i->next) && (j = i->chain))) { duprintf("Dumping chain `%s'\n", i->label); for (; j; j = j->next, upto++, last_len = len) { len += dump_rule(buffer+len, i->label, j); if (len > length) { duprintf("Dumped to %i (past %i). " "Moving back to %i.\n", len, length, last_len); len = last_len; goto outside; } else if (reset) memset(j->counters, 0, sizeof(struct ip_counters)*NUM_SLOTS); } } outside: FWC_WRITE_UNLOCK_IRQ(&ip_fw_lock, flags); buffer[len] = '\0'; duprintf("ip_chain_procinfo: Length = %i (of %i). Offset = %li.\n", len, length, upto); /* `start' hack - see fs/proc/generic.c line ~165 */ *start=(char *)((unsigned int)upto-offset); return len; } static int ip_chain_name_procinfo(char *buffer, char **start, off_t offset, int length, int reset) { struct ip_chain *i; int len = 0,last_len = 0; off_t pos = 0,begin = 0; unsigned long flags; /* Need a write lock to lock out ``readers'' which update counters. */ FWC_WRITE_LOCK_IRQ(&ip_fw_lock, flags); for (i = ip_fw_chains; i; i = i->next) { unsigned int j; __u32 packetsHi = 0, packetsLo = 0, bytesHi = 0, bytesLo = 0; for (j = 0; j < NUM_SLOTS; j++) { packetsLo += i->reent[j].counters.pcnt & 0xFFFFFFFF; packetsHi += ((i->reent[j].counters.pcnt >> 32) & 0xFFFFFFFF); bytesLo += i->reent[j].counters.bcnt & 0xFFFFFFFF; bytesHi += ((i->reent[j].counters.bcnt >> 32) & 0xFFFFFFFF); } /* print the label and the policy */ len+=sprintf(buffer+len,"%s %s %i %u %u %u %u\n", i->label,branchname(NULL, i->policy),i->refcount, packetsHi, packetsLo, bytesHi, bytesLo); pos=begin+len; if(pos<offset) { len=0; begin=pos; } else if(pos>offset+length) { len = last_len; break; } last_len = len; } FWC_WRITE_UNLOCK_IRQ(&ip_fw_lock, flags); *start = buffer+(offset-begin); len-=(offset-begin); if(len>length) len=length; return len; } /* * Interface to the generic firewall chains. */ int ipfw_input_check(struct firewall_ops *this, int pf, struct device *dev, void *phdr, void *arg, struct sk_buff **pskb) { return ip_fw_check(phdr, dev->name, arg, IP_FW_INPUT_CHAIN, *pskb, SLOT_NUMBER(), 0); } int ipfw_output_check(struct firewall_ops *this, int pf, struct device *dev, void *phdr, void *arg, struct sk_buff **pskb) { /* Locally generated bogus packets by root. <SIGH>. */ if (((struct iphdr *)phdr)->ihl * 4 < sizeof(struct iphdr) || (*pskb)->len < sizeof(struct iphdr)) return FW_ACCEPT; return ip_fw_check(phdr, dev->name, arg, IP_FW_OUTPUT_CHAIN, *pskb, SLOT_NUMBER(), 0); } int ipfw_forward_check(struct firewall_ops *this, int pf, struct device *dev, void *phdr, void *arg, struct sk_buff **pskb) { return ip_fw_check(phdr, dev->name, arg, IP_FW_FORWARD_CHAIN, *pskb, SLOT_NUMBER(), 0); } struct firewall_ops ipfw_ops= { NULL, ipfw_forward_check, ipfw_input_check, ipfw_output_check, PF_INET, 0 /* We don't even allow a fall through so we are last */ }; #ifdef CONFIG_PROC_FS static struct proc_dir_entry proc_net_ipfwchains_chain = { PROC_NET_IPFW_CHAINS, sizeof(IP_FW_PROC_CHAINS)-1, IP_FW_PROC_CHAINS, S_IFREG | S_IRUSR | S_IWUSR, 1, 0, 0, 0, &proc_net_inode_operations, ip_chain_procinfo }; static struct proc_dir_entry proc_net_ipfwchains_chainnames = { PROC_NET_IPFW_CHAIN_NAMES, sizeof(IP_FW_PROC_CHAIN_NAMES)-1, IP_FW_PROC_CHAIN_NAMES, S_IFREG | S_IRUSR | S_IWUSR, 1, 0, 0, 0, &proc_net_inode_operations, ip_chain_name_procinfo }; #endif __initfunc(void ip_fw_init(void)) { #ifdef DEBUG_IP_FIRWALL_LOCKING fwc_wlocks = fwc_rlocks = 0; #endif IP_FW_INPUT_CHAIN = ip_init_chain(IP_FW_LABEL_INPUT, 1, FW_ACCEPT); IP_FW_FORWARD_CHAIN = ip_init_chain(IP_FW_LABEL_FORWARD, 1, FW_ACCEPT); IP_FW_OUTPUT_CHAIN = ip_init_chain(IP_FW_LABEL_OUTPUT, 1, FW_ACCEPT); if(register_firewall(PF_INET,&ipfw_ops)<0) panic("Unable to register IP firewall.\n"); #ifdef CONFIG_PROC_FS proc_net_register(&proc_net_ipfwchains_chain); proc_net_register(&proc_net_ipfwchains_chainnames); #endif #ifdef CONFIG_IP_FIREWALL_NETLINK ipfwsk = netlink_kernel_create(NETLINK_FIREWALL, NULL); if (ipfwsk == NULL) panic("ip_fw_init: cannot initialize netlink\n"); #endif #if defined(DEBUG_IP_FIREWALL) || defined(DEBUG_IP_FIREWALL_USER) printk("Firewall graphs enabled! Untested kernel coming thru. \n"); #endif } |