#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef CAPABILITIES #include #include #endif #ifdef USE_IDN #include #include #endif #include #include #include #include #ifdef ANDROID #include #include #endif #include "SNAPSHOT.h" #define DEFDATALEN (64 - 8) /* default data length */ #define MAXWAIT 10 /* max seconds to wait for response */ #define MININTERVAL 10 /* Minimal interpacket gap */ #define MINUSERINTERVAL 200 /* Minimal allowed interval for non-root */ #define SCHINT(a) (((a) <= MININTERVAL) ? MININTERVAL : (a)) /* various options */ extern int options; #define F_FLOOD 0x001 #define F_INTERVAL 0x002 #define F_NUMERIC 0x004 #define F_PINGFILLED 0x008 #define F_QUIET 0x010 #define F_RROUTE 0x020 #define F_SO_DEBUG 0x040 #define F_SO_DONTROUTE 0x080 #define F_VERBOSE 0x100 #define F_TIMESTAMP 0x200 #define F_FLOWINFO 0x200 #define F_SOURCEROUTE 0x400 #define F_TCLASS 0x400 #define F_FLOOD_POLL 0x800 #define F_LATENCY 0x1000 #define F_AUDIBLE 0x2000 #define F_ADAPTIVE 0x4000 #define F_STRICTSOURCE 0x8000 #define F_NOLOOP 0x10000 #define F_TTL 0x20000 #define F_MARK 0x40000 #define F_PTIMEOFDAY 0x80000 #define F_OUTSTANDING 0x100000 /* * MAX_DUP_CHK is the number of bits in received table, i.e. the maximum * number of received sequence numbers we can keep track of. */ #define MAX_DUP_CHK 0x10000 #if defined(__WORDSIZE) && __WORDSIZE == 64 # define USE_BITMAP64 #endif #ifdef USE_BITMAP64 typedef __u64 bitmap_t; # define BITMAP_SHIFT 6 #else typedef __u32 bitmap_t; # define BITMAP_SHIFT 5 #endif #if ((MAX_DUP_CHK >> (BITMAP_SHIFT + 3)) << (BITMAP_SHIFT + 3)) != MAX_DUP_CHK # error Please MAX_DUP_CHK and/or BITMAP_SHIFT #endif struct rcvd_table { bitmap_t bitmap[MAX_DUP_CHK / (sizeof(bitmap_t) * 8)]; }; extern struct rcvd_table rcvd_tbl; extern int using_ping_socket; #define A(bit) (rcvd_tbl.bitmap[(bit) >> BITMAP_SHIFT]) /* identify word in array */ #define B(bit) (((bitmap_t)1) << ((bit) & ((1 << BITMAP_SHIFT) - 1))) /* identify bit in word */ static inline void rcvd_set(__u16 seq) { unsigned bit = seq % MAX_DUP_CHK; A(bit) |= B(bit); } static inline void rcvd_clear(__u16 seq) { unsigned bit = seq % MAX_DUP_CHK; A(bit) &= ~B(bit); } static inline bitmap_t rcvd_test(__u16 seq) { unsigned bit = seq % MAX_DUP_CHK; return A(bit) & B(bit); } extern u_char outpack[]; extern int maxpacket; extern int datalen; extern char *hostname; extern int uid; extern int ident; /* process id to identify our packets */ extern int sndbuf; extern int ttl; extern long npackets; /* max packets to transmit */ extern long nreceived; /* # of packets we got back */ extern long nrepeats; /* number of duplicates */ extern long ntransmitted; /* sequence # for outbound packets = #sent */ extern long nchecksum; /* replies with bad checksum */ extern long nerrors; /* icmp errors */ extern int interval; /* interval between packets (msec) */ extern int preload; extern int deadline; /* time to die */ extern int lingertime; extern struct timeval start_time, cur_time; extern volatile int exiting; extern volatile int status_snapshot; extern int confirm; extern int confirm_flag; extern int working_recverr; extern volatile int in_pr_addr; /* pr_addr() is executing */ extern jmp_buf pr_addr_jmp; #ifndef MSG_CONFIRM #define MSG_CONFIRM 0 #endif /* timing */ extern int timing; /* flag to do timing */ extern long tmin; /* minimum round trip time */ extern long tmax; /* maximum round trip time */ extern long long tsum; /* sum of all times, for doing average */ extern long long tsum2; extern int rtt; extern __u16 acked; extern int pipesize; #define COMMON_OPTIONS \ case 'a': case 'U': case 'c': case 'd': \ case 'f': case 'i': case 'w': case 'l': \ case 'S': case 'n': case 'p': case 'q': \ case 'r': case 's': case 'v': case 'L': \ case 't': case 'A': case 'W': case 'B': case 'm': \ case 'D': case 'O': #define COMMON_OPTSTR "h?VQ:I:M:aUc:dfi:w:l:S:np:qrs:vLt:AW:Bm:DO" /* * Write to stdout */ static inline void write_stdout(const char *str, size_t len) { size_t o = 0; ssize_t cc; do { cc = write(STDOUT_FILENO, str + o, len - o); o += cc; } while (len > o || cc < 0); } /* * tvsub -- * Subtract 2 timeval structs: out = out - in. Out is assumed to * be >= in. */ static inline void tvsub(struct timeval *out, struct timeval *in) { if ((out->tv_usec -= in->tv_usec) < 0) { --out->tv_sec; out->tv_usec += 1000000; } out->tv_sec -= in->tv_sec; } static inline void set_signal(int signo, void (*handler)(int)) { struct sigaction sa; memset(&sa, 0, sizeof(sa)); sa.sa_handler = (void (*)(int))handler; #ifdef SA_INTERRUPT sa.sa_flags = SA_INTERRUPT; #endif sigaction(signo, &sa, NULL); } extern int __schedule_exit(int next); static inline int schedule_exit(int next) { if (npackets && ntransmitted >= npackets && !deadline) next = __schedule_exit(next); return next; } static inline int in_flight(void) { __u16 diff = (__u16)ntransmitted - acked; return (diff<=0x7FFF) ? diff : ntransmitted-nreceived-nerrors; } static inline void acknowledge(__u16 seq) { __u16 diff = (__u16)ntransmitted - seq; if (diff <= 0x7FFF) { if ((int)diff+1 > pipesize) pipesize = (int)diff+1; if ((__s16)(seq - acked) > 0 || (__u16)ntransmitted - acked > 0x7FFF) acked = seq; } } static inline void advance_ntransmitted(void) { ntransmitted++; /* Invalidate acked, if 16 bit seq overflows. */ if ((__u16)ntransmitted - acked > 0x7FFF) acked = (__u16)ntransmitted + 1; } extern void limit_capabilities(void); static int enable_capability_raw(void); static int disable_capability_raw(void); static int enable_capability_admin(void); static int disable_capability_admin(void); #ifdef CAPABILITIES extern int modify_capability(cap_value_t, cap_flag_value_t); static inline int enable_capability_raw(void) { return modify_capability(CAP_NET_RAW, CAP_SET); }; static inline int disable_capability_raw(void) { return modify_capability(CAP_NET_RAW, CAP_CLEAR); }; static inline int enable_capability_admin(void) { return modify_capability(CAP_NET_ADMIN, CAP_SET); }; static inline int disable_capability_admin(void) { return modify_capability(CAP_NET_ADMIN, CAP_CLEAR); }; #else extern int modify_capability(int); static inline int enable_capability_raw(void) { return modify_capability(1); }; static inline int disable_capability_raw(void) { return modify_capability(0); }; static inline int enable_capability_admin(void) { return modify_capability(1); }; static inline int disable_capability_admin(void) { return modify_capability(0); }; #endif extern void drop_capabilities(void); extern void android_check_security(void); extern int send_probe(void); extern int receive_error_msg(void); extern int parse_reply(struct msghdr *msg, int len, void *addr, struct timeval *); extern void install_filter(void); extern int is_ours(uint16_t id); extern int pinger(void); extern void sock_setbufs(int icmp_sock, int alloc); extern void sock_setmark(int icmp_sock); extern void setup(int icmp_sock); extern void main_loop(int icmp_sock, __u8 *buf, int buflen) __attribute__((noreturn)); extern void finish(void) __attribute__((noreturn)); extern void status(void); extern void common_options(int ch); extern int gather_statistics(__u8 *ptr, int icmplen, int cc, __u16 seq, int hops, int csfailed, struct timeval *tv, char *from, void (*pr_reply)(__u8 *ptr, int cc)); extern void print_timestamp(void);