/* wtap.h * * $Id$ * * Wiretap Library * Copyright (c) 1998 by Gilbert Ramirez * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef __WTAP_H__ #define __WTAP_H__ #ifdef HAVE_SYS_TIME_H #include #endif #ifdef HAVE_WINSOCK2_H # include #endif #include #include #include #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /* Encapsulation types. Choose names that truly reflect * what is contained in the packet trace file. * * WTAP_ENCAP_PER_PACKET is a value passed to "wtap_dump_open()" or * "wtap_dump_fd_open()" to indicate that there is no single encapsulation * type for all packets in the file; this may cause those routines to * fail if the capture file format being written can't support that. * It's also returned by "wtap_file_encap()" for capture files that * don't have a single encapsulation type for all packets in the file. * * WTAP_ENCAP_UNKNOWN is returned by "wtap_pcap_encap_to_wtap_encap()" * if it's handed an unknown encapsulation. * * WTAP_ENCAP_FDDI_BITSWAPPED is for FDDI captures on systems where the * MAC addresses you get from the hardware are bit-swapped. Ideally, * the driver would tell us that, but I know of none that do, so, for * now, we base it on the machine on which we're *reading* the * capture, rather than on the machine on which the capture was taken * (they're probably likely to be the same). We assume that they're * bit-swapped on everything except for systems running Ultrix, Alpha * systems, and BSD/OS systems (that's what "tcpdump" does; I guess * Digital decided to bit-swap addresses in the hardware or in the * driver, and I guess BSDI bit-swapped them in the driver, given that * BSD/OS generally runs on Boring Old PC's). If we create a wiretap * save file format, we'd use the WTAP_ENCAP values to flag the * encapsulation of a packet, so there we'd at least be able to base * it on the machine on which the capture was taken. * * WTAP_ENCAP_LINUX_ATM_CLIP is the encapsulation you get with the * ATM on Linux code from ; * that code adds a DLT_ATM_CLIP DLT_ code of 19, and that * encapsulation isn't the same as the DLT_ATM_RFC1483 encapsulation * presumably used on some BSD systems, which we turn into * WTAP_ENCAP_ATM_RFC1483. * * WTAP_ENCAP_NULL corresponds to DLT_NULL from "libpcap". This * corresponds to * * 1) PPP-over-HDLC encapsulation, at least with some versions * of ISDN4BSD (but not the current ones, it appears, unless * I've missed something); * * 2) a 4-byte header containing the AF_ address family, in * the byte order of the machine that saved the capture, * for the packet, as used on many BSD systems for the * loopback device and some other devices, or a 4-byte header * containing the AF_ address family in network byte order, * as used on recent OpenBSD systems for the loopback device; * * 3) a 4-byte header containing 2 octets of 0 and an Ethernet * type in the byte order from an Ethernet header, that being * what older versions of "libpcap" on Linux turn the Ethernet * header for loopback interfaces into (0.6.0 and later versions * leave the Ethernet header alone and make it DLT_EN10MB). */ #define WTAP_ENCAP_PER_PACKET -1 #define WTAP_ENCAP_UNKNOWN 0 #define WTAP_ENCAP_ETHERNET 1 #define WTAP_ENCAP_TOKEN_RING 2 #define WTAP_ENCAP_SLIP 3 #define WTAP_ENCAP_PPP 4 #define WTAP_ENCAP_FDDI 5 #define WTAP_ENCAP_FDDI_BITSWAPPED 6 #define WTAP_ENCAP_RAW_IP 7 #define WTAP_ENCAP_ARCNET 8 #define WTAP_ENCAP_ARCNET_LINUX 9 #define WTAP_ENCAP_ATM_RFC1483 10 #define WTAP_ENCAP_LINUX_ATM_CLIP 11 #define WTAP_ENCAP_LAPB 12 #define WTAP_ENCAP_ATM_PDUS 13 #define WTAP_ENCAP_ATM_PDUS_UNTRUNCATED 14 #define WTAP_ENCAP_NULL 15 #define WTAP_ENCAP_ASCEND 16 #define WTAP_ENCAP_ISDN 17 #define WTAP_ENCAP_IP_OVER_FC 18 #define WTAP_ENCAP_PPP_WITH_PHDR 19 #define WTAP_ENCAP_IEEE_802_11 20 #define WTAP_ENCAP_PRISM_HEADER 21 #define WTAP_ENCAP_IEEE_802_11_WITH_RADIO 22 #define WTAP_ENCAP_IEEE_802_11_WLAN_RADIOTAP 23 #define WTAP_ENCAP_IEEE_802_11_WLAN_AVS 24 #define WTAP_ENCAP_SLL 25 #define WTAP_ENCAP_FRELAY 26 #define WTAP_ENCAP_FRELAY_WITH_PHDR 27 #define WTAP_ENCAP_CHDLC 28 #define WTAP_ENCAP_CISCO_IOS 29 #define WTAP_ENCAP_LOCALTALK 30 #define WTAP_ENCAP_OLD_PFLOG 31 #define WTAP_ENCAP_HHDLC 32 #define WTAP_ENCAP_DOCSIS 33 #define WTAP_ENCAP_COSINE 34 #define WTAP_ENCAP_WFLEET_HDLC 35 #define WTAP_ENCAP_SDLC 36 #define WTAP_ENCAP_TZSP 37 #define WTAP_ENCAP_ENC 38 #define WTAP_ENCAP_PFLOG 39 #define WTAP_ENCAP_CHDLC_WITH_PHDR 40 #define WTAP_ENCAP_BLUETOOTH_H4 41 #define WTAP_ENCAP_MTP2 42 #define WTAP_ENCAP_MTP3 43 #define WTAP_ENCAP_IRDA 44 #define WTAP_ENCAP_USER0 45 #define WTAP_ENCAP_USER1 46 #define WTAP_ENCAP_USER2 47 #define WTAP_ENCAP_USER3 48 #define WTAP_ENCAP_USER4 49 #define WTAP_ENCAP_USER5 50 #define WTAP_ENCAP_USER6 51 #define WTAP_ENCAP_USER7 52 #define WTAP_ENCAP_USER8 53 #define WTAP_ENCAP_USER9 54 #define WTAP_ENCAP_USER10 55 #define WTAP_ENCAP_USER11 56 #define WTAP_ENCAP_USER12 57 #define WTAP_ENCAP_USER13 58 #define WTAP_ENCAP_USER14 59 #define WTAP_ENCAP_USER15 60 #define WTAP_ENCAP_SYMANTEC 61 #define WTAP_ENCAP_APPLE_IP_OVER_IEEE1394 62 #define WTAP_ENCAP_BACNET_MS_TP 63 #define WTAP_ENCAP_NETTL_RAW_ICMP 64 #define WTAP_ENCAP_NETTL_RAW_ICMPV6 65 #define WTAP_ENCAP_GPRS_LLC 66 #define WTAP_ENCAP_JUNIPER_ATM1 67 #define WTAP_ENCAP_JUNIPER_ATM2 68 #define WTAP_ENCAP_REDBACK 69 #define WTAP_ENCAP_NETTL_RAW_IP 70 #define WTAP_ENCAP_NETTL_ETHERNET 71 #define WTAP_ENCAP_NETTL_TOKEN_RING 72 #define WTAP_ENCAP_NETTL_FDDI 73 #define WTAP_ENCAP_NETTL_UNKNOWN 74 #define WTAP_ENCAP_MTP2_WITH_PHDR 75 #define WTAP_ENCAP_JUNIPER_PPPOE 76 #define WTAP_GCOM_TIE1 77 #define WTAP_GCOM_SERIAL 78 #define WTAP_ENCAP_NETTL_X25 79 #define WTAP_ENCAP_K12 80 #define WTAP_ENCAP_JUNIPER_MLPPP 81 #define WTAP_ENCAP_JUNIPER_MLFR 82 #define WTAP_ENCAP_JUNIPER_ETHER 83 #define WTAP_ENCAP_JUNIPER_PPP 84 #define WTAP_ENCAP_JUNIPER_FRELAY 85 #define WTAP_ENCAP_JUNIPER_CHDLC 86 #define WTAP_ENCAP_JUNIPER_GGSN 87 #define WTAP_ENCAP_LINUX_LAPD 88 #define WTAP_ENCAP_CATAPULT_DCT2000 89 #define WTAP_ENCAP_BER 90 #define WTAP_ENCAP_JUNIPER_VP 91 #define WTAP_ENCAP_USB 92 #define WTAP_ENCAP_IEEE802_16_MAC_CPS 93 #define WTAP_ENCAP_NETTL_RAW_TELNET 94 /* last WTAP_ENCAP_ value + 1 */ #define WTAP_NUM_ENCAP_TYPES 95 /* File types that can be read by wiretap. We support writing some many of these file types, too, so we distinguish between different versions of them. */ #define WTAP_FILE_UNKNOWN 0 #define WTAP_FILE_WTAP 1 #define WTAP_FILE_PCAP 2 #define WTAP_FILE_PCAP_NSEC 3 #define WTAP_FILE_PCAP_AIX 4 #define WTAP_FILE_PCAP_SS991029 5 #define WTAP_FILE_PCAP_NOKIA 6 #define WTAP_FILE_PCAP_SS990417 7 #define WTAP_FILE_PCAP_SS990915 8 #define WTAP_FILE_5VIEWS 9 #define WTAP_FILE_IPTRACE_1_0 10 #define WTAP_FILE_IPTRACE_2_0 11 #define WTAP_FILE_BER 12 #define WTAP_FILE_HCIDUMP 13 #define WTAP_FILE_CATAPULT_DCT2000 14 #define WTAP_FILE_NETXRAY_OLD 15 #define WTAP_FILE_NETXRAY_1_0 16 #define WTAP_FILE_COSINE 17 #define WTAP_FILE_CSIDS 18 #define WTAP_FILE_DBS_ETHERWATCH 19 #define WTAP_FILE_ERF 20 #define WTAP_FILE_EYESDN 21 #define WTAP_FILE_NETTL 22 #define WTAP_FILE_ISERIES 23 #define WTAP_FILE_ISERIES_UNICODE 24 #define WTAP_FILE_I4BTRACE 25 #define WTAP_FILE_ASCEND 26 #define WTAP_FILE_NETMON_1_x 27 #define WTAP_FILE_NETMON_2_x 28 #define WTAP_FILE_NGSNIFFER_UNCOMPRESSED 29 #define WTAP_FILE_NGSNIFFER_COMPRESSED 30 #define WTAP_FILE_NETXRAY_1_1 31 #define WTAP_FILE_NETXRAY_2_00x 32 #define WTAP_FILE_NETWORK_INSTRUMENTS_V9 33 #define WTAP_FILE_LANALYZER 34 #define WTAP_FILE_PPPDUMP 35 #define WTAP_FILE_RADCOM 36 #define WTAP_FILE_SNOOP 37 #define WTAP_FILE_SHOMITI 38 #define WTAP_FILE_VMS 39 #define WTAP_FILE_K12 40 #define WTAP_FILE_TOSHIBA 41 #define WTAP_FILE_VISUAL_NETWORKS 42 #define WTAP_FILE_ETHERPEEK_V56 43 #define WTAP_FILE_ETHERPEEK_V7 44 #define WTAP_FILE_AIROPEEK_V9 45 #define WTAP_NUM_FILE_TYPES 46 /* timestamp precision (currently only these values are supported) */ #define WTAP_FILE_TSPREC_SEC 0 #define WTAP_FILE_TSPREC_DSEC 1 #define WTAP_FILE_TSPREC_CSEC 2 #define WTAP_FILE_TSPREC_MSEC 3 #define WTAP_FILE_TSPREC_USEC 6 #define WTAP_FILE_TSPREC_NSEC 9 /* * Maximum packet size we'll support. * It must be at least 65535. */ #define WTAP_MAX_PACKET_SIZE 65535 /* * "Pseudo-headers" are used to supply to the clients of wiretap * per-packet information that's not part of the packet payload * proper. * * NOTE: do not use pseudo-header structures to hold information * used by the code to read a particular capture file type; to * keep that sort of state information, add a new structure for * that private information to "wtap-int.h", add a pointer to that * type of structure to the "capture" member of the "struct wtap" * structure, and allocate one of those structures and set that member * in the "open" routine for that capture file type if the open * succeeds. See various other capture file type handlers for examples * of that. */ /* Packet "pseudo-header" information for Ethernet capture files. */ struct eth_phdr { gint fcs_len; /* Number of bytes of FCS - -1 means "unknown" */ }; /* Packet "pseudo-header" information for X.25 capture files. */ #define FROM_DCE 0x80 struct x25_phdr { guint8 flags; /* ENCAP_LAPB, ENCAP_V120 : 1st bit means From DCE */ }; /* Packet "pseudo-header" information for ISDN capture files. */ /* Direction */ struct isdn_phdr { gboolean uton; guint8 channel; /* 0 = D-channel; n = B-channel n */ }; /* Packet "pseudo-header" for ATM capture files. Not all of this information is supplied by all capture types. */ /* * Status bits. */ #define ATM_RAW_CELL 0x01 /* TRUE if the packet is a single cell */ /* * AAL types. */ #define AAL_UNKNOWN 0 /* AAL unknown */ #define AAL_1 1 /* AAL1 */ #define AAL_2 2 /* AAL2 */ #define AAL_3_4 3 /* AAL3/4 */ #define AAL_5 4 /* AAL5 */ #define AAL_USER 5 /* User AAL */ #define AAL_SIGNALLING 6 /* Signaling AAL */ #define AAL_OAMCELL 7 /* OAM cell */ /* * Traffic types. */ #define TRAF_UNKNOWN 0 /* Unknown */ #define TRAF_LLCMX 1 /* LLC multiplexed (RFC 1483) */ #define TRAF_VCMX 2 /* VC multiplexed (RFC 1483) */ #define TRAF_LANE 3 /* LAN Emulation */ #define TRAF_ILMI 4 /* ILMI */ #define TRAF_FR 5 /* Frame Relay */ #define TRAF_SPANS 6 /* FORE SPANS */ #define TRAF_IPSILON 7 /* Ipsilon */ #define TRAF_UMTS_FP 8 /* UMTS Frame Protocol */ /* * Traffic subtypes. */ #define TRAF_ST_UNKNOWN 0 /* Unknown */ /* * For TRAF_VCMX: */ #define TRAF_ST_VCMX_802_3_FCS 1 /* 802.3 with an FCS */ #define TRAF_ST_VCMX_802_4_FCS 2 /* 802.4 with an FCS */ #define TRAF_ST_VCMX_802_5_FCS 3 /* 802.5 with an FCS */ #define TRAF_ST_VCMX_FDDI_FCS 4 /* FDDI with an FCS */ #define TRAF_ST_VCMX_802_6_FCS 5 /* 802.6 with an FCS */ #define TRAF_ST_VCMX_802_3 7 /* 802.3 without an FCS */ #define TRAF_ST_VCMX_802_4 8 /* 802.4 without an FCS */ #define TRAF_ST_VCMX_802_5 9 /* 802.5 without an FCS */ #define TRAF_ST_VCMX_FDDI 10 /* FDDI without an FCS */ #define TRAF_ST_VCMX_802_6 11 /* 802.6 without an FCS */ #define TRAF_ST_VCMX_FRAGMENTS 12 /* Fragments */ #define TRAF_ST_VCMX_BPDU 13 /* BPDU */ /* * For TRAF_LANE: */ #define TRAF_ST_LANE_LE_CTRL 1 /* LANE: LE Ctrl */ #define TRAF_ST_LANE_802_3 2 /* LANE: 802.3 */ #define TRAF_ST_LANE_802_5 3 /* LANE: 802.5 */ #define TRAF_ST_LANE_802_3_MC 4 /* LANE: 802.3 multicast */ #define TRAF_ST_LANE_802_5_MC 5 /* LANE: 802.5 multicast */ /* * For TRAF_IPSILON: */ #define TRAF_ST_IPSILON_FT0 1 /* Ipsilon: Flow Type 0 */ #define TRAF_ST_IPSILON_FT1 2 /* Ipsilon: Flow Type 1 */ #define TRAF_ST_IPSILON_FT2 3 /* Ipsilon: Flow Type 2 */ struct atm_phdr { guint32 flags; /* status flags */ guint8 aal; /* AAL of the traffic */ guint8 type; /* traffic type */ guint8 subtype; /* traffic subtype */ guint16 vpi; /* virtual path identifier */ guint16 vci; /* virtual circuit identifier */ guint8 aal2_cid; /* channel id */ guint16 channel; /* link: 0 for DTE->DCE, 1 for DCE->DTE */ guint16 cells; /* number of cells */ guint16 aal5t_u2u; /* user-to-user indicator */ guint16 aal5t_len; /* length of the packet */ guint32 aal5t_chksum; /* checksum for AAL5 packet */ }; /* Packet "pseudo-header" for the output from "wandsession", "wannext", "wandisplay", and similar commands on Lucent/Ascend access equipment. */ #define ASCEND_MAX_STR_LEN 64 #define ASCEND_PFX_WDS_X 1 #define ASCEND_PFX_WDS_R 2 #define ASCEND_PFX_WDD 3 #define ASCEND_PFX_ISDN_X 4 #define ASCEND_PFX_ISDN_R 5 #define ASCEND_PFX_ETHER 6 struct ascend_phdr { guint16 type; /* ASCEND_PFX_*, as defined above */ char user[ASCEND_MAX_STR_LEN]; /* Username, from wandsession header */ guint32 sess; /* Session number, from wandsession header */ char call_num[ASCEND_MAX_STR_LEN]; /* Called number, from WDD header */ guint32 chunk; /* Chunk number, from WDD header */ guint32 task; /* Task number */ }; /* Packet "pseudo-header" for point-to-point links with direction flags. */ struct p2p_phdr { gboolean sent; /* TRUE=sent, FALSE=received */ }; /* * Packet "pseudo-header" information for 802.11. * Radio information is only present for WTAP_ENCAP_IEEE_802_11_WITH_RADIO. * * Signal strength, etc. information: * * Raw signal strength can be measured in milliwatts. * It can also be represented as dBm, which is 10 times the log base 10 * of the signal strength in mW. * * The Receive Signal Strength Indicator is an integer in the range 0 to 255. * The actual RSSI value for a given signal strength is dependent on the * vendor (and perhaps on the adapter). The maximum possible RSSI value * is also dependent on the vendor and perhaps the adapter. * * The signal strength can be represented as a percentage, which is 100 * times the ratio of the RSSI and the maximum RSSI. */ struct ieee_802_11_phdr { gint fcs_len; /* Number of bytes of FCS - -1 means "unknown" */ guint8 channel; /* Channel number */ guint8 data_rate; /* in .5 Mb/s units */ guint8 signal_level; /* percentage */ }; /* Packet "pseudo-header" for the output from CoSine L2 debug output. */ #define COSINE_MAX_IF_NAME_LEN 128 #define COSINE_ENCAP_TEST 1 #define COSINE_ENCAP_PPoATM 2 #define COSINE_ENCAP_PPoFR 3 #define COSINE_ENCAP_ATM 4 #define COSINE_ENCAP_FR 5 #define COSINE_ENCAP_HDLC 6 #define COSINE_ENCAP_PPP 7 #define COSINE_ENCAP_ETH 8 #define COSINE_ENCAP_UNKNOWN 99 #define COSINE_DIR_TX 1 #define COSINE_DIR_RX 2 struct cosine_phdr { guint8 encap; /* COSINE_ENCAP_* as defined above */ guint8 direction; /* COSINE_DIR_*, as defined above */ char if_name[COSINE_MAX_IF_NAME_LEN]; /* Encap & Logical I/F name */ guint16 pro; /* Protocol */ guint16 off; /* Offset */ guint16 pri; /* Priority */ guint16 rm; /* Rate Marking */ guint16 err; /* Error Code */ }; /* Packet "pseudo-header" for IrDA capture files. */ /* * Direction of the packet */ #define IRDA_INCOMING 0x0000 #define IRDA_OUTGOING 0x0004 /* * "Inline" log messages produced by IrCOMM2k on Windows */ #define IRDA_LOG_MESSAGE 0x0100 /* log message */ #define IRDA_MISSED_MSG 0x0101 /* missed log entry or frame */ /* * Differentiate between frames and log messages */ #define IRDA_CLASS_FRAME 0x0000 #define IRDA_CLASS_LOG 0x0100 #define IRDA_CLASS_MASK 0xFF00 struct irda_phdr { guint16 pkttype; /* packet type */ }; /* Packet "pseudo-header" for nettl (HP-UX) capture files. */ struct nettl_phdr { guint16 subsys; guint32 devid; guint32 kind; gint32 pid; guint16 uid; }; /* Packet "pseudo-header" for MTP2 files. */ struct mtp2_phdr { guint8 sent; guint8 annex_a_used; guint16 link_number; }; /* Packet "pseudo-header" for K12 files. */ typedef union { struct { guint16 vp; guint16 vc; guint16 cid; } atm; guint32 ds0mask; } k12_input_info_t; struct k12_phdr { guint32 input; const gchar* input_name; const gchar* stack_file; guint32 input_type; k12_input_info_t input_info; void* stuff; }; #define K12_PORT_DS0S 0x00010008 #define K12_PORT_DS1 0x00100008 #define K12_PORT_ATMPVC 0x01020000 struct wtap; struct catapult_dct2000_phdr { union { struct isdn_phdr isdn; struct atm_phdr atm; struct p2p_phdr p2p; } inner_pseudo_header; gint64 seek_off; struct wtap *wth; }; struct lapd_phdr { guint16 pkttype; /* packet type */ guint8 we_network; }; union wtap_pseudo_header { struct eth_phdr eth; struct x25_phdr x25; struct isdn_phdr isdn; struct atm_phdr atm; struct ascend_phdr ascend; struct p2p_phdr p2p; struct ieee_802_11_phdr ieee_802_11; struct cosine_phdr cosine; struct irda_phdr irda; struct nettl_phdr nettl; struct mtp2_phdr mtp2; struct k12_phdr k12; struct lapd_phdr lapd; struct catapult_dct2000_phdr dct2000; }; struct wtap_nstime { time_t secs; int nsecs; }; struct wtap_pkthdr { struct wtap_nstime ts; guint32 caplen; guint32 len; int pkt_encap; }; struct wtap; struct Buffer; struct wtap_dumper; typedef struct wtap wtap; typedef struct wtap_dumper wtap_dumper; /* * On failure, "wtap_open_offline()" returns NULL, and puts into the * "int" pointed to by its second argument: * * a positive "errno" value if the capture file can't be opened; * * a negative number, indicating the type of error, on other failures. */ struct wtap* wtap_open_offline(const char *filename, int *err, gchar **err_info, gboolean do_random); /* Returns TRUE if read was successful. FALSE if failure. data_offset is * set the the offset in the file where the data for the read packet is * located. */ gboolean wtap_read(wtap *wth, int *err, gchar **err_info, gint64 *data_offset); /* * Return an approximation of the amount of data we've read sequentially * from the file so far. */ gint64 wtap_read_so_far(wtap *wth, int *err); struct wtap_pkthdr *wtap_phdr(wtap *wth); union wtap_pseudo_header *wtap_pseudoheader(wtap *wth); guint8 *wtap_buf_ptr(wtap *wth); gint64 wtap_file_size(wtap *wth, int *err); int wtap_snapshot_length(wtap *wth); /* per file */ int wtap_file_type(wtap *wth); int wtap_file_encap(wtap *wth); int wtap_file_tsprecision(wtap *wth); const char *wtap_file_type_string(int filetype); const char *wtap_file_type_short_string(int filetype); int wtap_short_string_to_file_type(const char *short_name); const char *wtap_file_extensions_string(int filetype); const char *wtap_file_extension_default_string(int filetype); const char *wtap_encap_string(int encap); const char *wtap_encap_short_string(int encap); int wtap_short_string_to_encap(const char *short_name); const char *wtap_strerror(int err); void wtap_sequential_close(wtap *wth); void wtap_close(wtap *wth); gboolean wtap_seek_read (wtap *wth, gint64 seek_off, union wtap_pseudo_header *pseudo_header, guint8 *pd, int len, int *err, gchar **err_info); gboolean wtap_dump_can_open(int filetype); gboolean wtap_dump_can_write_encap(int filetype, int encap); gboolean wtap_dump_can_compress(int filetype); wtap_dumper* wtap_dump_open(const char *filename, int filetype, int encap, int snaplen, gboolean compressed, int *err); wtap_dumper* wtap_dump_fdopen(int fd, int filetype, int encap, int snaplen, gboolean compressed, int *err); gboolean wtap_dump(wtap_dumper *, const struct wtap_pkthdr *, const union wtap_pseudo_header *pseudo_header, const guchar *, int *err); void wtap_dump_flush(wtap_dumper *); gboolean wtap_dump_close(wtap_dumper *, int *); gint64 wtap_get_bytes_dumped(wtap_dumper *); void wtap_set_bytes_dumped(wtap_dumper *wdh, gint64 bytes_dumped); /* * Wiretap error codes. */ #define WTAP_ERR_NOT_REGULAR_FILE -1 /* The file being opened for reading isn't a plain file (or pipe) */ #define WTAP_ERR_RANDOM_OPEN_PIPE -2 /* The file is being opened for random access and it's a pipe */ #define WTAP_ERR_FILE_UNKNOWN_FORMAT -3 /* The file being opened is not a capture file in a known format */ #define WTAP_ERR_UNSUPPORTED -4 /* Supported file type, but there's something in the file we can't support */ #define WTAP_ERR_CANT_WRITE_TO_PIPE -5 /* Wiretap can't save to a pipe in the specified format */ #define WTAP_ERR_CANT_OPEN -6 /* The file couldn't be opened, reason unknown */ #define WTAP_ERR_UNSUPPORTED_FILE_TYPE -7 /* Wiretap can't save files in the specified format */ #define WTAP_ERR_UNSUPPORTED_ENCAP -8 /* Wiretap can't read or save files in the specified format with the specified encapsulation */ #define WTAP_ERR_ENCAP_PER_PACKET_UNSUPPORTED -9 /* The specified format doesn't support per-packet encapsulations */ #define WTAP_ERR_CANT_CLOSE -10 /* The file couldn't be closed, reason unknown */ #define WTAP_ERR_CANT_READ -11 /* An attempt to read failed, reason unknown */ #define WTAP_ERR_SHORT_READ -12 /* An attempt to read read less data than it should have */ #define WTAP_ERR_BAD_RECORD -13 /* We read an invalid record */ #define WTAP_ERR_SHORT_WRITE -14 /* An attempt to write wrote less data than it should have */ #define WTAP_ERR_UNC_TRUNCATED -15 /* Sniffer compressed data was oddly truncated */ #define WTAP_ERR_UNC_OVERFLOW -16 /* Uncompressing Sniffer data would overflow buffer */ #define WTAP_ERR_UNC_BAD_OFFSET -17 /* LZ77 compressed data has bad offset to string */ #define WTAP_ERR_RANDOM_OPEN_STDIN -18 /* We're trying to open the standard input for random access */ #define WTAP_ERR_COMPRESSION_NOT_SUPPORTED -19 /* The filetype doesn't support output compression */ /* Errors from zlib; zlib error Z_xxx turns into Wiretap error WTAP_ERR_ZLIB + Z_xxx. WTAP_ERR_ZLIB_MIN and WTAP_ERR_ZLIB_MAX bound the range of zlib errors; we leave room for 100 positive and 100 negative error codes. */ #define WTAP_ERR_ZLIB -200 #define WTAP_ERR_ZLIB_MAX -100 #define WTAP_ERR_ZLIB_MIN -300 #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* __WTAP_H__ */