/* wtap-int.h * * Wiretap Library * Copyright (c) 1998 by Gilbert Ramirez * * SPDX-License-Identifier: GPL-2.0-or-later */ #ifndef __WTAP_INT_H__ #define __WTAP_INT_H__ #include #include #ifdef _WIN32 #include #endif #include #include "wtap.h" #include "wtap_opttypes.h" WS_DLL_PUBLIC int wtap_fstat(wtap *wth, ws_statb64 *statb, int *err); typedef gboolean (*subtype_read_func)(struct wtap*, wtap_rec *, Buffer *, int *, char **, gint64 *); typedef gboolean (*subtype_seek_read_func)(struct wtap*, gint64, wtap_rec *, Buffer *, int *, char **); /** * Struct holding data of the currently read file. */ struct wtap { FILE_T fh; FILE_T random_fh; /**< Secondary FILE_T for random access */ gboolean ispipe; /**< TRUE if the file is a pipe */ int file_type_subtype; guint snapshot_length; GArray *shb_hdrs; GArray *interface_data; /**< An array holding the interface data from pcapng IDB:s or equivalent(?)*/ GArray *nrb_hdrs; /**< holds the Name Res Block's comment/custom_opts, or NULL */ GArray *dsbs; /**< An array of DSBs (of type wtap_block_t), or NULL if not supported. */ void *priv; /* this one holds per-file state and is free'd automatically by wtap_close() */ void *wslua_data; /* this one holds wslua state info and is not free'd */ subtype_read_func subtype_read; subtype_seek_read_func subtype_seek_read; void (*subtype_sequential_close)(struct wtap*); void (*subtype_close)(struct wtap*); int file_encap; /* per-file, for those * file formats that have * per-file encapsulation * types rather than per-packet * encapsulation types */ int file_tsprec; /* per-file timestamp precision * of the fractional part of * the time stamp, for those * file formats that have * per-file timestamp * precision rather than * per-packet timestamp * precision * e.g. WTAP_TSPREC_USEC */ wtap_new_ipv4_callback_t add_new_ipv4; wtap_new_ipv6_callback_t add_new_ipv6; wtap_new_secrets_callback_t add_new_secrets; GPtrArray *fast_seek; }; struct wtap_dumper; /* * This could either be a FILE * or a gzFile. */ typedef void *WFILE_T; typedef gboolean (*subtype_write_func)(struct wtap_dumper*, const wtap_rec *rec, const guint8*, int*, gchar**); typedef gboolean (*subtype_finish_func)(struct wtap_dumper*, int*); struct wtap_dumper { WFILE_T fh; int file_type_subtype; int snaplen; int encap; wtap_compression_type compression_type; gboolean needs_reload; /* TRUE if the file requires re-loading after saving with wtap */ gint64 bytes_dumped; void *priv; /* this one holds per-file state and is free'd automatically by wtap_dump_close() */ void *wslua_data; /* this one holds wslua state info and is not free'd */ subtype_write_func subtype_write; /* write out a record */ subtype_finish_func subtype_finish; /* write out information to finish writing file */ addrinfo_lists_t *addrinfo_lists; /**< Struct containing lists of resolved addresses */ GArray *shb_hdrs; GArray *nrb_hdrs; /**< name resolution comment/custom_opt, or NULL */ GArray *interface_data; /**< An array holding the interface data from pcapng IDB:s or equivalent(?) NULL if not present.*/ GArray *dsbs_initial; /**< An array of initial DSBs (of type wtap_block_t) */ /* * Additional blocks that might grow as data is being collected. * Subtypes should write these blocks before writing new packet blocks. */ const GArray *dsbs_growing; /**< A reference to an array of DSBs (of type wtap_block_t) */ guint dsbs_growing_written; /**< Number of already processed DSBs in dsbs_growing. */ }; WS_DLL_PUBLIC gboolean wtap_dump_file_write(wtap_dumper *wdh, const void *buf, size_t bufsize, int *err); WS_DLL_PUBLIC gint64 wtap_dump_file_seek(wtap_dumper *wdh, gint64 offset, int whence, int *err); WS_DLL_PUBLIC gint64 wtap_dump_file_tell(wtap_dumper *wdh, int *err); extern gint wtap_num_file_types; #include /* Macros to byte-swap possibly-unaligned 64-bit, 32-bit and 16-bit quantities; * they take a pointer to the quantity, and byte-swap it in place. */ #define PBSWAP64(p) \ { \ guint8 tmp; \ tmp = (p)[7]; \ (p)[7] = (p)[0]; \ (p)[0] = tmp; \ tmp = (p)[6]; \ (p)[6] = (p)[1]; \ (p)[1] = tmp; \ tmp = (p)[5]; \ (p)[5] = (p)[2]; \ (p)[2] = tmp; \ tmp = (p)[4]; \ (p)[4] = (p)[3]; \ (p)[3] = tmp; \ } #define PBSWAP32(p) \ { \ guint8 tmp; \ tmp = (p)[3]; \ (p)[3] = (p)[0]; \ (p)[0] = tmp; \ tmp = (p)[2]; \ (p)[2] = (p)[1]; \ (p)[1] = tmp; \ } #define PBSWAP16(p) \ { \ guint8 tmp; \ tmp = (p)[1]; \ (p)[1] = (p)[0]; \ (p)[0] = tmp; \ } /* Pointer routines to put items out in a particular byte order. * These will work regardless of the byte alignment of the pointer. */ #ifndef phtons #define phtons(p, v) \ { \ (p)[0] = (guint8)((v) >> 8); \ (p)[1] = (guint8)((v) >> 0); \ } #endif #ifndef phton24 #define phton24(p, v) \ { \ (p)[0] = (guint8)((v) >> 16); \ (p)[1] = (guint8)((v) >> 8); \ (p)[2] = (guint8)((v) >> 0); \ } #endif #ifndef phtonl #define phtonl(p, v) \ { \ (p)[0] = (guint8)((v) >> 24); \ (p)[1] = (guint8)((v) >> 16); \ (p)[2] = (guint8)((v) >> 8); \ (p)[3] = (guint8)((v) >> 0); \ } #endif #ifndef phtonll #define phtonll(p, v) \ { \ (p)[0] = (guint8)((v) >> 56); \ (p)[1] = (guint8)((v) >> 48); \ (p)[2] = (guint8)((v) >> 40); \ (p)[3] = (guint8)((v) >> 32); \ (p)[4] = (guint8)((v) >> 24); \ (p)[5] = (guint8)((v) >> 16); \ (p)[6] = (guint8)((v) >> 8); \ (p)[7] = (guint8)((v) >> 0); \ } #endif #ifndef phtole8 #define phtole8(p, v) \ { \ (p)[0] = (guint8)((v) >> 0); \ } #endif #ifndef phtoles #define phtoles(p, v) \ { \ (p)[0] = (guint8)((v) >> 0); \ (p)[1] = (guint8)((v) >> 8); \ } #endif #ifndef phtole24 #define phtole24(p, v) \ { \ (p)[0] = (guint8)((v) >> 0); \ (p)[1] = (guint8)((v) >> 8); \ (p)[2] = (guint8)((v) >> 16); \ } #endif #ifndef phtolel #define phtolel(p, v) \ { \ (p)[0] = (guint8)((v) >> 0); \ (p)[1] = (guint8)((v) >> 8); \ (p)[2] = (guint8)((v) >> 16); \ (p)[3] = (guint8)((v) >> 24); \ } #endif #ifndef phtolell #define phtolell(p, v) \ { \ (p)[0] = (guint8)((v) >> 0); \ (p)[1] = (guint8)((v) >> 8); \ (p)[2] = (guint8)((v) >> 16); \ (p)[3] = (guint8)((v) >> 24); \ (p)[4] = (guint8)((v) >> 32); \ (p)[5] = (guint8)((v) >> 40); \ (p)[6] = (guint8)((v) >> 48); \ (p)[7] = (guint8)((v) >> 56); \ } #endif /* glib doesn't have g_ptr_array_len of all things!*/ #ifndef g_ptr_array_len #define g_ptr_array_len(a) ((a)->len) #endif /* * Read a given number of bytes from a file into a buffer or, if * buf is NULL, just discard them. * * If we succeed, return TRUE. * * If we get an EOF, return FALSE with *err set to 0, reporting this * as an EOF. * * If we get fewer bytes than the specified number, return FALSE with * *err set to WTAP_ERR_SHORT_READ, reporting this as a short read * error. * * If we get a read error, return FALSE with *err and *err_info set * appropriately. */ WS_DLL_PUBLIC gboolean wtap_read_bytes_or_eof(FILE_T fh, void *buf, unsigned int count, int *err, gchar **err_info); /* * Read a given number of bytes from a file into a buffer or, if * buf is NULL, just discard them. * * If we succeed, return TRUE. * * If we get fewer bytes than the specified number, including getting * an EOF, return FALSE with *err set to WTAP_ERR_SHORT_READ, reporting * this as a short read error. * * If we get a read error, return FALSE with *err and *err_info set * appropriately. */ WS_DLL_PUBLIC gboolean wtap_read_bytes(FILE_T fh, void *buf, unsigned int count, int *err, gchar **err_info); /* * Read packet data into a Buffer, growing the buffer as necessary. * * This returns an error on a short read, even if the short read hit * the EOF immediately. (The assumption is that each packet has a * header followed by raw packet data, and that we've already read the * header, so if we get an EOF trying to read the packet data, the file * has been cut short, even if the read didn't read any data at all.) */ WS_DLL_PUBLIC gboolean wtap_read_packet_bytes(FILE_T fh, Buffer *buf, guint length, int *err, gchar **err_info); /* * Implementation of wth->subtype_read that reads the full file contents * as a single packet. */ gboolean wtap_full_file_read(wtap *wth, wtap_rec *rec, Buffer *buf, int *err, gchar **err_info, gint64 *data_offset); /* * Implementation of wth->subtype_seek_read that reads the full file contents * as a single packet. */ gboolean wtap_full_file_seek_read(wtap *wth, gint64 seek_off, wtap_rec *rec, Buffer *buf, int *err, gchar **err_info); /** * Invokes the callback with the given decryption secrets block. */ void wtapng_process_dsb(wtap *wth, wtap_block_t dsb); #endif /* __WTAP_INT_H__ */ /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 4 * tab-width: 8 * indent-tabs-mode: nil * End: * * vi: set shiftwidth=4 tabstop=8 expandtab: * :indentSize=4:tabSize=8:noTabs=true: */