source: lib/libtrace_int.h @ d7fd648

4.0.1-hotfixescachetimestampsdevelopdpdk-ndagetsilivelibtrace4ndag_formatpfringrc-4.0.1rc-4.0.2rc-4.0.3rc-4.0.4ringdecrementfixringperformanceringtimestampfixes
Last change on this file since d7fd648 was d7fd648, checked in by Richard Sanger <rsangerarj@…>, 6 years ago

Improves speed of the DPDK format(and parallel libtrace) and fixes some DPDK bugs

Fixes bug with PCI address being parsed as a decimal instead of hex.
Fixes bug so DPDK Breaks out of loop when libtrace_halt is called

For performance

  • Rearranges the header format used to simplify code which might show a small speed up
  • Batching packets is now supported thoughout the parallel framework
  • DPDK now always reads packets in bursts if possible, including in single threaded mode
  • Calls to retrive system time only needs to occur once for a batch of packets
  • The CPU core used to run DPDK is/are now picked based upon the NUMA node the NIC is attached to
  • A delay has been added to reduce the memory load of polling after unsuccessful attempts this tends to improve performance
  • Property mode set to 100644
File size: 40.8 KB
Line 
1/*
2 * This file is part of libtrace
3 *
4 * Copyright (c) 2007,2008,2009,2010 The University of Waikato, Hamilton,
5 * New Zealand.
6 *
7 * Authors: Daniel Lawson
8 *          Perry Lorier
9 *          Shane Alcock
10 *         
11 * All rights reserved.
12 *
13 * This code has been developed by the University of Waikato WAND
14 * research group. For further information please see http://www.wand.net.nz/
15 *
16 * libtrace is free software; you can redistribute it and/or modify
17 * it under the terms of the GNU General Public License as published by
18 * the Free Software Foundation; either version 2 of the License, or
19 * (at your option) any later version.
20 *
21 * libtrace is distributed in the hope that it will be useful,
22 * but WITHOUT ANY WARRANTY; without even the implied warranty of
23 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
24 * GNU General Public License for more details.
25 *
26 * You should have received a copy of the GNU General Public License
27 * along with libtrace; if not, write to the Free Software
28 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
29 *
30 * $Id$
31 *
32 */
33
34/** @file
35 *
36 * @brief Header file containing definitions for structures and functions that
37 * are internal
38 *
39 * @author Daniel Lawson
40 * @author Perry Lorier
41 * @author Shane Alcock
42 *
43 * @version $Id$
44 *
45 * All of the structures and functions defined in this header file are intended
46 * for internal use within Libtrace only. They should not be exported as part
47 * of the library API as we don't want users accessing things like the
48 * contents of the libtrace packet structure directly!
49 */
50#ifndef LIBTRACE_INT_H
51#define LIBTRACE_INT_H
52
53#ifdef __cplusplus
54extern "C" {
55#endif
56
57#include "config.h"
58#include "common.h"
59#include "libtrace.h"
60#include "wandio.h"
61#include "lt_bswap.h"
62
63#ifdef _MSC_VER
64// warning: deprecated function
65#pragma warning(disable:4996)
66// warning: benign redefinitions of types
67#pragma warning(disable:4142)
68#endif
69
70#ifdef HAVE_INTTYPES_H
71# include <inttypes.h>
72#else
73# include "lt_inttypes.h"
74#endif
75
76#ifdef HAVE_STDDEF_H
77# include <stddef.h>
78#else
79#ifndef WIN32
80# error "Can't find stddev.h -- do you define ptrdiff_t elsewhere?"
81#endif
82#endif
83
84
85#include "rt_protocol.h"
86       
87/* Prefer net/bpf.h over pcap-bpf.h for format_bpf.c on MacOS */
88#ifdef HAVE_NET_BPF_H
89#    include <net/bpf.h>
90#    define HAVE_BPF 1
91#else
92#ifdef HAVE_PCAP_BPF_H
93#  include <pcap-bpf.h>
94#  define HAVE_BPF 1
95#endif
96#endif
97
98#ifdef HAVE_PCAP_H
99#  include <pcap.h>
100#  ifdef HAVE_PCAP_INT_H
101#    include <pcap-int.h>
102#  endif
103#endif
104
105#ifdef HAVE_ZLIB_H
106#  include <zlib.h>
107#endif
108
109#ifndef HAVE_STRNDUP
110char *strndup(const char *s, size_t size);
111#endif
112
113#ifndef HAVE_STRNCASECMP
114# ifndef HAVE__STRNICMP
115/** A local implementation of strncasecmp (as some systems do not have it) */
116int strncasecmp(const char *str1, const char *str2, size_t n);
117# else
118# define strncasecmp _strnicmp
119# endif
120#endif
121
122#ifndef HAVE_SNPRINTF
123# ifndef HAVE_SPRINTF_S
124/** A local implementation of snprintf (as some systems do not have it) */
125int snprintf(char *str, size_t size, const char *format, ...);
126# else
127# define snprintf sprintf_s
128# endif
129#endif
130
131#include "daglegacy.h"
132       
133#ifdef HAVE_DAG_API
134#  include "dagnew.h"
135#  include "dagapi.h"
136#       if DAG_VERSION == 24
137#               include <erftypes.h>
138#       else
139#               include <daginf.h>
140#       endif
141#  include "erftypes.h"
142#else
143#  include "dagformat.h"
144#endif
145
146#ifdef HAVE_LLVM
147#include "bpf-jit/bpf-jit.h"
148#endif
149
150#include "data-struct/ring_buffer.h"
151#include "data-struct/object_cache.h"
152#include "data-struct/vector.h"
153#include "data-struct/message_queue.h"
154#include "data-struct/deque.h"
155#include "data-struct/sliding_window.h"
156
157//#define RP_BUFSIZE 65536U
158
159/** Data about the most recent event from a trace file */
160struct libtrace_event_status_t {
161        /** A libtrace packet to store the packet when a PACKET event occurs */
162        libtrace_packet_t *packet;
163        /** Time between the timestamp for the current packet and the current
164         * walltime */
165        double tdelta;
166        /** The timestamp of the previous PACKET event */
167        double trace_last_ts;
168        /** The size of the current PACKET event */
169        int psize;
170        /** Whether there is a packet stored in *packet above waiting for an
171         * event to occur */
172        bool waiting;
173};
174
175enum thread_types {
176        THREAD_EMPTY,
177        THREAD_HASHER,
178        THREAD_PERPKT,
179        THREAD_REPORTER,
180        THREAD_KEEPALIVE
181};
182
183enum thread_states {
184        THREAD_RUNNING,
185        THREAD_FINISHING,
186        THREAD_FINISHED,
187        THREAD_PAUSED,
188        THREAD_STATE_MAX
189};
190
191/**
192 * Information of this thread
193 */
194struct libtrace_thread_t {
195        int accepted_packets; // The number of packets accepted only used if pread
196        // is retreving packets
197        // Set to true once the first packet has been stored
198        bool recorded_first;
199        // For thread safety reason we actually must store this here
200        int64_t tracetime_offset_usec;
201        void* user_data; // TLS for the user to use
202        void* format_data; // TLS for the format to use
203        libtrace_message_queue_t messages; // Message handling
204        libtrace_ringbuffer_t rbuffer; // Input
205        libtrace_t * trace;
206        void* ret;
207        enum thread_types type;
208        enum thread_states state;
209        pthread_t tid;
210        int perpkt_num; // A number from 0-X that represents this perpkt threads number
211                                // in the table, intended to quickly identify this thread
212                                // -1 represents NA (such as the case this is not a perpkt thread)
213};
214
215/**
216 * Storage to note time value against each.
217 * Used both internally to do trace time playback
218 * and can be used externally to assist applications which need
219 * a trace starting time such as tracertstats.
220 */
221struct first_packets {
222        pthread_spinlock_t lock;
223        size_t count; // If == perpkt_thread_count threads we have all
224        size_t first; // Valid if count != 0
225        struct __packet_storage_magic_type {
226                libtrace_packet_t * packet;
227                struct timeval tv;
228        } * packets;
229};
230
231#define TRACE_STATES \
232        X(STATE_NEW) \
233        X(STATE_RUNNING) \
234        X(STATE_PAUSING) \
235        X(STATE_PAUSED) \
236        X(STATE_FINSHED) \
237        X(STATE_DESTROYED) \
238        X(STATE_JOINED) \
239        X(STATE_ERROR)
240
241#define X(a) a,
242enum trace_state {
243        TRACE_STATES
244};
245#undef X
246
247#define X(a) case a: return #a;
248static inline char *get_trace_state_name(enum trace_state ts){
249        switch(ts) {
250                TRACE_STATES
251                default:
252                        return "UNKNOWN";
253        }
254}
255#undef X
256
257/** A libtrace input trace
258 * @internal
259 */
260struct libtrace_t {
261        /** The capture format for the input trace */
262        struct libtrace_format_t *format; 
263        /** Details of the most recent PACKET event reported by the trace */
264        struct libtrace_event_status_t event;
265        /** Pointer to the "global" data for the capture format module */       
266        void *format_data;             
267        /** A BPF filter to be applied to all packets read by the trace -
268         * used only if the capture format does not support filters natively */
269        struct libtrace_filter_t *filter; 
270        /** The snap length to be applied to all packets read by the trace -
271         * used only if the capture format does not support snapping natively */
272        size_t snaplen;                 
273        /** Count of the number of packets returned to the libtrace user */
274        uint64_t accepted_packets;     
275        /** Count of the number of packets filtered by libtrace */
276        uint64_t filtered_packets;     
277        /** The filename from the uri for the trace */
278        char *uridata;
279        /** The libtrace IO reader for this trace (if applicable) */
280        io_t *io;
281        /** Error information for the trace */
282        libtrace_err_t err;
283        /** Boolean flag indicating whether the trace has been started */
284        bool started;
285        /** Synchronise writes/reads across this format object and attached threads etc */
286        pthread_mutex_t libtrace_lock;
287        /** State */
288        enum trace_state state;
289        /** Use to control pausing threads and finishing threads etc always used with libtrace_lock */
290        pthread_cond_t perpkt_cond;
291        /* Keep track of counts of threads in any given state */
292        int perpkt_thread_states[THREAD_STATE_MAX]; 
293
294        /** For the sliding window hasher implementation */
295        pthread_rwlock_t window_lock;
296        /** Set to indicate a perpkt's queue is full as such the writing perpkt cannot proceed */
297        bool perpkt_queue_full;
298        /** Global storage for this trace, shared among all the threads  */
299        void* global_blob;
300        /** The actual freelist */
301        libtrace_ocache_t packet_freelist;
302        /** User defined per_pkt function called when a pkt is ready */
303        fn_per_pkt per_pkt;
304        /** User defined reporter function entry point XXX not hooked up */
305        fn_reporter reporter;
306        /** The hasher function */
307        enum hasher_types hasher_type;
308        /** The hasher function - NULL implies they don't care or balance */
309        fn_hasher hasher; // If valid using a separate thread
310        void *hasher_data;
311       
312        libtrace_thread_t hasher_thread;
313        libtrace_thread_t reporter_thread;
314        libtrace_thread_t keepalive_thread;
315        int perpkt_thread_count;
316        libtrace_thread_t * perpkt_threads; // All our perpkt threads
317        libtrace_slidingwindow_t sliding_window;
318        sem_t sem;
319        // Used to keep track of the first packet seen on each thread
320        struct first_packets first_packets;
321        int tracetime;
322
323        /*
324         * Caches statistic counters in the case that our trace is
325         * paused or stopped before this counter is taken
326         */
327        uint64_t dropped_packets;
328        uint64_t received_packets;
329        struct user_configuration config;
330        libtrace_combine_t combiner;
331};
332
333void trace_fin_packet(libtrace_packet_t *packet);
334void libtrace_zero_thread(libtrace_thread_t * t);
335void store_first_packet(libtrace_t *libtrace, libtrace_packet_t *packet, libtrace_thread_t *t);
336libtrace_thread_t * get_thread_table(libtrace_t *libtrace);
337int get_thread_table_num(libtrace_t *libtrace);
338
339
340/** A libtrace output trace
341 * @internal
342 */
343struct libtrace_out_t {
344        /** The capture format for the output trace */
345        struct libtrace_format_t *format;
346        /** Pointer to the "global" data for the capture format module */
347        void *format_data;             
348        /** The filename for the uri for the output trace */
349        char *uridata;                 
350        /** Error information for the output trace */
351        libtrace_err_t err;
352        /** Boolean flag indicating whether the trace has been started */
353        bool started;
354};
355
356/** Sets the error status on an input trace
357 *
358 * @param trace         The input trace to set the error status for
359 * @param errcode       The code for the error - can be a libtrace error code or a regular errno value
360 * @param msg           A message to print when reporting the error
361 */
362void trace_set_err(libtrace_t *trace, int errcode,const char *msg,...) 
363
364                                                                PRINTF(3,4);
365/** Sets the error status on an output trace
366 *
367 * @param trace         The output trace to set the error status for
368 * @param errcode       The code for the error - can be a libtrace error code or a regular errno value
369 * @param msg           A message to print when reporting the error
370 */
371void trace_set_err_out(libtrace_out_t *trace, int errcode, const char *msg,...)
372                                                                PRINTF(3,4);
373
374/** Clears the cached values for a libtrace packet
375 *
376 * @param packet        The libtrace packet that requires a cache reset
377 */
378void trace_clear_cache(libtrace_packet_t *packet);
379
380/** Converts the data provided in buffer into a valid libtrace packet
381 *
382 * @param trace         An input trace of the same format as the "packet"
383 *                      contained in the buffer
384 * @param packet        The libtrace packet to prepare
385 * @param buffer        A buffer containing the packet data, including the
386 *                      capture format header
387 * @param rt_type       The RT type for the packet that is being prepared
388 * @param flags         Used to specify options for the preparation function,
389 *                      e.g. who owns the packet buffer
390 *
391 * @return -1 if an error occurs, 0 otherwise
392 *
393 * Packet preparation is a tricky concept - the idea is to take the data
394 * pointed to by 'buffer' and treat it as a packet record of the same capture
395 * format as that used by the input trace. The provided libtrace packet then
396 * has its internal pointers and values set to describe the packet record in
397 * the buffer.
398 *
399 * The primary use of this function is to allow the RT packet reader to
400 * easily and safely convert packets from the RT format back into the format
401 * that they were originally captured with., essentially removing the RT
402 * encapsulation.
403 *
404 * We've decided not to make this function available via the exported API
405 * because there are several issues that can arise if it is not used very
406 * carefully and it is not very useful outside of internal contexts anyway.
407 */
408int trace_prepare_packet(libtrace_t *trace, libtrace_packet_t *packet,
409                void *buffer, libtrace_rt_types_t rt_type, uint32_t flags);
410
411/** Flags for prepare_packet functions */
412enum {
413        /** The buffer memory has been allocated by libtrace and should be
414         * freed when the packet is destroyed. */
415        TRACE_PREP_OWN_BUFFER           =1,
416       
417        /** The buffer memory is externally-owned and must not be freed by
418         * libtrace when the packet is destroyed. */
419        TRACE_PREP_DO_NOT_OWN_BUFFER    =0
420};
421
422
423#ifndef PF_RULESET_NAME_SIZE
424#define PF_RULESET_NAME_SIZE 16
425#endif
426
427#ifndef IFNAMSIZ
428#define IFNAMSIZ 16
429#endif
430
431
432/** A local definition of a PFLOG header */
433typedef struct libtrace_pflog_header_t {
434        uint8_t    length;     
435        sa_family_t   af;
436        uint8_t    action;
437        uint8_t    reason;
438        char       ifname[IFNAMSIZ];
439        char       ruleset[PF_RULESET_NAME_SIZE];
440        uint32_t   rulenr;
441        uint32_t   subrulenr;
442        uint8_t    dir;
443        uint8_t    pad[3];
444} PACKED libtrace_pflog_header_t;
445
446/** A libtrace capture format module */
447/* All functions should return -1, or NULL on failure */
448struct libtrace_format_t {
449        /** The name of this module, used in the libtrace URI to identify the
450         * capture format */
451        const char *name;
452        /** The version of this module */
453        const char *version;
454        /** The RT protocol type of this module */
455        enum base_format_t type;
456
457
458        /** Given a filename, return if this is the most likely capture format
459         * (used for devices). Used to "guess" the capture format when the
460         * URI is not fully specified.
461         *
462         * @param fname         The name of the device or file to examine
463         * @return 1 if the name matches the capture format, 0 otherwise
464         */
465        int (*probe_filename)(const char *fname);
466       
467        /** Given a file, looks at the start of the file to determine if this
468         * is the capture format. Used to "guess" the capture format when the
469         * URI is not fully specified.
470         *
471         * @param io            An open libtrace IO reader for the file to check
472         * @return 1 if the file matches the capture format, 0 otherwise
473         */
474        int (*probe_magic)(io_t *io);
475
476        /** Initialises an input trace using the capture format.
477         *
478         * @param libtrace      The input trace to be initialised
479         * @return 0 if successful, -1 in the event of error
480         */
481        int (*init_input)(libtrace_t *libtrace);
482       
483        /** Applies a configuration option to an input trace.
484         *
485         * @param libtrace      The input trace to apply the option to
486         * @param option        The option that is being configured
487         * @param value         A pointer to the value that the option is to be
488         *                      set to
489         * @return 0 if successful, -1 if the option is unsupported or an error
490         * occurs
491         */
492        int (*config_input)(libtrace_t *libtrace,trace_option_t option,void *value);
493        /** Starts or unpauses an input trace - note that this function is
494         * often the one that opens the file or device for reading.
495         *
496         * @param libtrace      The input trace to be started or unpaused
497         * @return 0 if successful, -1 in the event of error */
498        int (*start_input)(libtrace_t *libtrace);
499
500        /** Pauses an input trace - this function should close or detach the
501         * file or device that is being read from.
502         *
503         * @param libtrace      The input trace to be paused
504         * @return 0 if successful, -1 in the event of error
505         */
506        int (*pause_input)(libtrace_t *libtrace);
507
508        /** Initialises an output trace using the capture format.
509         *
510         * @param libtrace      The output trace to be initialised
511         * @return 0 if successful, -1 in the event of error
512         */
513        int (*init_output)(libtrace_out_t *libtrace);
514       
515        /** Applies a configuration option to an output trace.
516         *
517         * @param libtrace      The output trace to apply the option to
518         * @param option        The option that is being configured
519         * @param value         A pointer to the value that the option is to be
520         *                      set to
521         * @return 0 if successful, -1 if the option is unsupported or an error
522         * occurs
523         * */
524        int (*config_output)(libtrace_out_t *libtrace, trace_option_output_t option, void *value);
525
526        /** Starts an output trace - note that this function is often the one
527         * that opens the file or device for writing.
528         *
529         * @param libtrace      The output trace to be started
530         * @return 0 if successful, -1 if an error occurs
531         *
532         * There is no pause for output traces, as writing is not performed
533         * asynchronously.
534         */
535        int (*start_output)(libtrace_out_t *libtrace);
536
537        /** Concludes an input trace and cleans up the capture format data.
538         *
539         * @param libtrace      The input trace to be concluded
540         * @return 0 if successful, -1 if an error occurs
541         *
542         * Libtrace will call the pause_input function if the input trace is
543         * currently active prior to calling this function.
544         */
545        int (*fin_input)(libtrace_t *libtrace);
546
547        /** Concludes an output trace and cleans up the capture format data.
548         *
549         * @param libtrace      The output trace to be concluded
550         * @return 0 if successful, -1 if an error occurs
551         */
552        int (*fin_output)(libtrace_out_t *libtrace);
553
554        /** Reads the next packet from an input trace into the provided packet
555         * structure.
556         *
557         * @param libtrace      The input trace to read from
558         * @param packet        The libtrace packet to read into
559         * @return The size of the packet read (in bytes) including the capture
560         * framing header, or -1 if an error occurs. 0 is returned in the
561         * event of an EOF.
562         *
563         * If no packets are available for reading, this function should block
564         * until one appears or return 0 if the end of a trace file has been
565         * reached.
566         */
567        int (*read_packet)(libtrace_t *libtrace, libtrace_packet_t *packet);
568       
569        /** Converts a buffer containing a packet record into a libtrace packet
570         *
571         * @param libtrace      An input trace in the capture format for the
572         *                      packet
573         * @param packet        A libtrace packet to put the prepared packet
574         *                      into
575         * @param buffer        The buffer containing the packet record
576         *                      (including the capture format header)
577         * @param rt_type       The RT type for the packet
578         * @param flags         Flags describing properties that should be
579         *                      applied to the new packet
580         * @return 0 if successful, -1 if an error occurs.
581         *
582         * Updates internal trace and packet details, such as payload pointers,
583         * loss counters and packet types to match the packet record provided
584         * in the buffer. This is a zero-copy function.
585         *
586         * Intended (at this stage) only for internal use, particularly by
587         * RT which needs to decapsulate RT packets */
588        int (*prepare_packet)(libtrace_t *libtrace, libtrace_packet_t *packet,
589                        void *buffer, libtrace_rt_types_t rt_type, 
590                        uint32_t flags);
591       
592        /** Frees any resources allocated by the capture format module for a
593         * libtrace packet.
594         *
595         * @param The packet to be finalised
596         *       */
597        void (*fin_packet)(libtrace_packet_t *packet);
598
599        /** Write a libtrace packet to an output trace.
600         *
601         * @param libtrace      The output trace to write the packet to
602         * @param packet        The packet to be written out
603         * @return The number of bytes written, or -1 if an error occurs
604         */
605        int (*write_packet)(libtrace_out_t *libtrace, libtrace_packet_t *packet);
606        /** Returns the libtrace link type for a packet.
607         *
608         * @param packet        The packet to get the link type for
609         * @return The libtrace link type, or -1 if this link type is unknown
610         */ 
611        libtrace_linktype_t (*get_link_type)(const libtrace_packet_t *packet);
612
613        /** Returns the direction of a packet.
614         *
615         * @param packet        The packet to get the direction for
616         * @return The direction of the packet, or -1 if no direction tag is
617         * present or an error occurs
618         */ 
619        libtrace_direction_t (*get_direction)(const libtrace_packet_t *packet);
620       
621        /** Sets the direction of a packet.
622         *
623         * @param packet        The packet to set the direction for
624         * @param direction     The direction to assign to the packet
625         * @return The updated direction for the packet, or -1 if an error
626         * occurs
627         *
628         * @note Some capture formats do not feature direction tagging, so it
629         * will not make sense to implement a set_direction function for them.
630         */ 
631        libtrace_direction_t (*set_direction)(libtrace_packet_t *packet, libtrace_direction_t direction);
632       
633        /** Returns the timestamp for a packet in the ERF timestamp format.
634         *
635         * @param packet        The packet to get the timestamp from
636         * @return The 64-bit ERF timestamp
637         *
638         * @note Each format must implement at least one of the four "get
639         * timestamp" functions.
640         *
641         * If not implemented, libtrace will convert the result of one of the
642         * other timestamp functions into the appropriate format instead.
643         * This means each capture format only needs to implement the most
644         * sensible of the four and let libtrace handle any conversions.
645         *
646         */
647        uint64_t (*get_erf_timestamp)(const libtrace_packet_t *packet);
648
649        /** Returns the timestamp for a packet in the timeval format
650         *
651         * @param packet        The packet to get the timestamp from
652         * @return The timestamp from the packet as a timeval
653         *
654         * @note Each format must implement at least one of the four "get
655         * timestamp" functions.
656         *
657         * If not implemented, libtrace will convert the result of one of the
658         * other timestamp functions into the appropriate format instead.
659         * This means each capture format only needs to implement the most
660         * sensible of the four and let libtrace handle any conversions.
661         */
662        struct timeval (*get_timeval)(const libtrace_packet_t *packet);
663       
664        /** Returns the timestamp for a packet in the timespec format.
665         *
666         * @param packet        The packet to get the timestamp from
667         * @return The timestamp from the packet as a timespec
668         *
669         * @note Each format must implement at least one of the four "get
670         * timestamp" functions.
671         *
672         * If not implemented, libtrace will convert the result of one of the
673         * other timestamp functions into the appropriate format instead.
674         * This means each capture format only needs to implement the most
675         * sensible of the four and let libtrace handle any conversions.
676         */
677        struct timespec (*get_timespec)(const libtrace_packet_t *packet);
678       
679        /** Returns the timestamp for a packet in floating point seconds.
680         *
681         * @param packet        The packet to get the timestamp from
682         * @return The timestamp from the packet as a floating point number of
683         * seconds since 1970-01-01 00:00:00 UTC
684         *
685         * @note Each format must implement at least one of the four "get
686         * timestamp" functions.
687         *
688         * If not implemented, libtrace will convert the result of one of the
689         * other timestamp functions into the appropriate format instead.
690         * This means each capture format only needs to implement the most
691         * sensible of the four and let libtrace handle any conversions.
692         */
693        double (*get_seconds)(const libtrace_packet_t *packet);
694       
695        /** Moves the read pointer to a certain ERF timestamp within an input
696         * trace file.
697         *
698         * @param trace         The input trace to seek within
699         * @param timestamp     The timestamp to seek to, as an ERF timestamp
700         *
701         * @return 0 on success, -1 on failure.
702         *
703         * The next packet read from this trace will now be the first packet
704         * to have a timestamp equal to or greater than the provided timestamp.
705         *
706         * @note Each format that supports seeking must implement at least one
707         * of the seek functions.
708         *
709         * If not implemented, libtrace will convert the timestamp into the
710         * appropriate format to use a seek function that has been implemented.
711         * This means each capture format only needs to implement the seek
712         * function that matches the native timestamp format for that capture.
713         *
714         */
715        int (*seek_erf)(libtrace_t *trace, uint64_t timestamp);
716        /** Moves the read pointer to a certain timestamp represented using a
717         * timeval within an input trace file.
718         *
719         * @param trace         The input trace to seek within
720         * @param timestamp     The timestamp to seek to, as a timeval
721         *
722         * @return 0 on success, -1 on failure.
723         *
724         * The next packet read from this trace will now be the first packet
725         * to have a timestamp equal to or greater than the provided timestamp.
726         *
727         * @note Each format that supports seeking must implement at least one
728         * of the seek functions.
729         *
730         * If not implemented, libtrace will convert the timestamp into the
731         * appropriate format to use a seek function that has been implemented.
732         * This means each capture format only needs to implement the seek
733         * function that matches the native timestamp format for that capture.
734         *
735         */
736        int (*seek_timeval)(libtrace_t *trace, struct timeval tv);
737       
738        /** Moves the read pointer to a certain timestamp represented using
739         * floating point seconds within an input trace file.
740         *
741         * @param trace         The input trace to seek within
742         * @param timestamp     The timestamp to seek to, as floating point
743         *                      seconds since 1970-01-01 00:00:00 UTC
744         *
745         * @return 0 on success, -1 on failure.
746         *
747         * The next packet read from this trace will now be the first packet
748         * to have a timestamp equal to or greater than the provided timestamp.
749         *
750         * @note Each format that supports seeking must implement at least one
751         * of the seek functions.
752         *
753         * If not implemented, libtrace will convert the timestamp into the
754         * appropriate format to use a seek function that has been implemented.
755         * This means each capture format only needs to implement the seek
756         * function that matches the native timestamp format for that capture.
757         *
758         */
759        int (*seek_seconds)(libtrace_t *trace, double seconds);
760       
761        /** Returns the payload length of the captured packet record.
762         *
763         * @param packet        The packet to get the capture length from
764         * @return The capture length for the packet, or -1 if an error occurs
765         *
766         * Capture length is the current size of the packet record itself,
767         * following any truncation that may have occurred during the capture
768         * process. This length does not include the capture format framing
769         * header.
770         */
771        int (*get_capture_length)(const libtrace_packet_t *packet);
772
773        /** Returns the original length of the packet as it was on the wire.
774         *
775         * @param packet        The packet to get the wire length from
776         * @return The length of the packet on the wire at the time of capture,
777         * or -1 if an error occurs
778         *
779         * Wire length is the original size of the packet prior to any
780         * truncation that may have occurred as part of the capture process.
781         * This length does not include the capture format framing header.
782         */
783        int (*get_wire_length)(const libtrace_packet_t *packet);
784       
785        /** Returns the length of the capture format framing header
786         *
787         * @param packet        The packet to get the framing length from
788         * @return The length of the framing header, or -1 if an error occurs
789         *
790         * The framing header is the extra metadata that the capture process
791         * records about a packet.  The framing length does not include any
792         * of the packet payload itself. The total size of the packet record
793         * can be calculated be adding this value with the capture length.
794         */
795        int (*get_framing_length)(const libtrace_packet_t *packet);
796
797        /** Sets the capture length for a packet.
798         *
799         * @param packet        The packet to adjust the capture length for.
800         * @param size          The new capture length
801         * @return The new capture length of the packet, or -1 if an error
802         * occurs
803         *
804         * @note This function should only reduce the capture length. If the
805         * provided length is larger than the current capture length, -1 should
806         * be returned.
807         */
808        size_t (*set_capture_length)(struct libtrace_packet_t *packet,size_t size);
809        /** Returns the number of packets observed by an input trace.
810         *
811         * @param trace         The input trace to get the packet count for
812         * @return The number of packets observed by an input trace, or
813         * UINT64_MAX if the number is unknown
814         *
815         * This count includes packets that have been filtered and dropped.
816         */
817        uint64_t (*get_received_packets)(libtrace_t *trace);
818
819        /** Returns the number of packets filtered by an input trace.
820         *
821         * @param trace         The input trace to get the filtered count for
822         * @return The number of packets filtered by the input trace, or
823         * UINT64_MAX if the number is unknown
824         *
825         */
826        uint64_t (*get_filtered_packets)(libtrace_t *trace);
827       
828        /** Returns the number of packets dropped by an input trace.
829         *
830         * @param trace         The input trace to get the dropped count for
831         * @return The number of packets dropped by the input trace, or
832         * UINT64_MAX if the number is unknown
833         *
834         */
835        uint64_t (*get_dropped_packets)(libtrace_t *trace);
836       
837        /** Returns the number of packets captured and returned by an input
838         * trace.
839         *
840         * @param trace         The input trace to get the capture count for
841         * @return The number of packets returned to the libtrace user, or
842         * UINT64_MAX if the number is unknown
843         *
844         * This is the number of packets that have been successfully returned
845         * to the libtrace user via the read_packet() function.
846         *
847         */
848        uint64_t (*get_captured_packets)(libtrace_t *trace);
849       
850        /** Returns the file descriptor used by the input trace.
851         *
852         * @param trace         The input trace to get the file descriptor for
853         * @return The file descriptor used by the input trace to read packets
854         *
855         */
856        int (*get_fd)(const libtrace_t *trace);
857       
858        /** Returns the next libtrace event for the input trace.
859         *
860         * @param trace         The input trace to get the next event from
861         * @param packet        A libtrace packet to read a packet into
862         * @return A libtrace event describing the event that occured
863         *
864         * The event API allows for non-blocking reading of packets from an
865         * input trace. If a packet is available and ready to be read, a packet
866         * event should be returned. Otherwise a sleep or fd event should be
867         * returned to indicate that the caller needs to wait. If the input
868         * trace has an error or reaches EOF, a terminate event should be
869         * returned.
870         */
871        struct libtrace_eventobj_t (*trace_event)(libtrace_t *trace, libtrace_packet_t *packet);       
872
873        /** Prints some useful help information to standard output. */
874        void (*help)(void);
875       
876        /** Next pointer, should always be NULL - used by the format module
877         * manager. */
878        struct libtrace_format_t *next;
879
880        /** Holds information about the trace format */
881        struct libtrace_info_t info;
882
883        /** Starts or unpauses an input trace in parallel mode - note that
884         * this function is often the one that opens the file or device for
885         * reading.
886         *
887         * @param libtrace      The input trace to be started or unpaused
888         * @return If successful the number of threads started, 0 indicates
889         *                 no threads started and this should be done automatically.
890         *                 Otherwise in event of an error -1 is returned.
891         *
892         */
893        int (*pstart_input)(libtrace_t *trace);
894       
895        /**
896         * Read a batch of packets from the input stream related to thread.
897         * At most read nb_packets, however should return with less if packets
898         * are not waiting. However still must return at least 1, 0 still indicates
899         * EOF.
900         *
901         * @param libtrace      The input trace
902         * @param t     The thread
903         * @param packets       An array of packets
904         * @param nb_packets    The number of packets in the array (the maximum to read)
905         * @return The number of packets read, or 0 in the case of EOF or -1 in error or -2 to represent
906         * interrupted due to message waiting before packets had been read.
907         */
908        int (*pread_packets)(libtrace_t *trace, libtrace_thread_t *t, libtrace_packet_t **packets, size_t nb_packets);
909       
910        /** Pause a parallel trace
911         *
912         * @param libtrace      The input trace to be paused
913         */
914        int (*ppause_input)(libtrace_t *trace);
915       
916        /** Called after all threads have been paused, Finish (close) a parallel trace
917         *
918         * @param libtrace      The input trace to be stopped
919         */
920        int (*pfin_input)(libtrace_t *trace);
921       
922        /** Applies a configuration option to an input trace.
923         *
924         * @param libtrace      The input trace to apply the option to
925         * @param option        The option that is being configured
926         * @param value         A pointer to the value that the option is to be
927         *                      set to
928         * @return 0 if successful, -1 if the option is unsupported or an error
929         * occurs
930         */
931        int (*pconfig_input)(libtrace_t *libtrace,trace_parallel_option_t option,void *value);
932
933        /**
934         * Register a thread for use with the format or using the packets produced
935         * by it. This is NOT only used for threads reading packets infact all
936         * threads use this.
937         *
938         * Some use cases include setting up any thread local storage required for
939         * to read packets and free packets. For DPDK we require any thread that
940         * may release or read a packet to have have an internal number associated
941         * with it.
942         *
943         * The thread type can be used to see if this thread is going to be used
944         * to read packets or otherwise.
945         *
946         * @return 0 if successful, -1 if the option is unsupported or an error
947         * occurs (such as a maximum of threads being reached)
948         */
949        int (*pregister_thread)(libtrace_t *libtrace, libtrace_thread_t *t, bool reader);
950
951        /**
952         * If needed any memory allocated with pregister_thread can be released
953         * in this function. The thread will be destroyed directly after this
954         * function is called.
955         */
956        void (*punregister_thread)(libtrace_t *libtrace, libtrace_thread_t *t);
957};
958
959/** Macro to zero out a single thread format */
960#define NON_PARALLEL(live) \
961{live, 1},              /* trace info */ \
962NULL,                   /* pstart_input */ \
963NULL,                   /* pread_packet */ \
964NULL,                   /* ppause_input */ \
965NULL,                   /* pfin_input */ \
966NULL,                   /* pconfig_input */ \
967NULL,                   /* pregister_thread */ \
968NULL                    /* punregister_thread */
969
970/** The list of registered capture formats */
971//extern struct libtrace_format_t *form;
972
973/** Specifies whether any blocking packet readers should cease reading
974 * immediately
975 */
976extern volatile int libtrace_halt;
977
978/** Registers a new capture format module.
979 *
980 * @param format        The format module to be registered
981 */
982void register_format(struct libtrace_format_t *format);
983
984/** Converts a PCAP DLT into a libtrace link type.
985 *
986 * @param linktype      The PCAP DLT to be converted
987 * @return The libtrace link type that is equivalent to the provided DLT, or
988 * -1 if the DLT is unknown
989 */
990libtrace_linktype_t pcap_linktype_to_libtrace(libtrace_dlt_t linktype);
991
992/** Converts a PCAP DLT into an RT protocol type.
993 *
994 * @param linktype      The PCAP DLT to be converted
995 * @return The RT type that is equivalent to the provided DLT
996 */
997libtrace_rt_types_t pcap_linktype_to_rt(libtrace_dlt_t linktype);
998
999/** Converts a libtrace link type into a PCAP linktype.
1000 *
1001 * @param type          The libtrace link type to be converted
1002 * @return The PCAP linktype that is equivalent to the provided libtrace link
1003 * type, or -1 if the link type is unknown
1004 */
1005libtrace_dlt_t libtrace_to_pcap_linktype(libtrace_linktype_t type);
1006
1007/** Converts a libtrace link type into a PCAP DLT.
1008 *
1009 * @param type          The libtrace link type to be converted
1010 * @return The PCAP DLT that is equivalent to the provided libtrace link
1011 * type, or -1 if the link type is unknown
1012 */
1013libtrace_dlt_t libtrace_to_pcap_dlt(libtrace_linktype_t type);
1014
1015/** Converts an RT protocol type into a PCAP DLT.
1016 *
1017 * @param rt_type       The RT type to be converted
1018 * @return The PCAP DLT that is equivalent to the provided RT protocol
1019 */
1020libtrace_dlt_t rt_to_pcap_linktype(libtrace_rt_types_t rt_type);
1021
1022/** Converts a PCAP DLT into an RT protocol type for the BPF format.
1023 *
1024 * @param linktype      The PCAP DLT to be converted
1025 * @return The RT type that is equivalent to the provided DLT for BPF
1026 */
1027libtrace_rt_types_t bpf_linktype_to_rt(libtrace_dlt_t linktype);
1028
1029/** Converts an ERF type into a libtrace link type.
1030 *
1031 * @param erf           The ERF type to be converted
1032 * @return The libtrace link type that is equivalent to the provided ERF type,
1033 * or -1 if the ERF type is unknown
1034 */
1035libtrace_linktype_t erf_type_to_libtrace(uint8_t erf);
1036
1037/** Converts a libtrace link type into an ERF type.
1038 *
1039 * @param linktype      The libtrace link type to be converted
1040 * @return The ERF type that is equivalent to the provided libtrace link type,
1041 * or -1 if the link type cannot be matched to an ERF type.
1042 */
1043uint8_t libtrace_to_erf_type(libtrace_linktype_t linktype);
1044
1045/** Converts an ARPHRD type into a libtrace link type.
1046 *
1047 * @param arphrd        The ARPHRD type to be converted
1048 * @return The libtrace link type that is equivalent to the provided ARPHRD
1049 * type, or -1 if the ARPHRD type is unknown
1050 */
1051libtrace_linktype_t arphrd_type_to_libtrace(unsigned int arphrd);
1052
1053/** Converts a libtrace link type into an ARPHRD type.
1054 *
1055 * @param type          The libtrace link type to be converted
1056 * @return The ARPHRD type that is equivalent to the provided libtrace link
1057 * type, or -1 if the link type cannot be matched to an ARPHRD type
1058 */
1059unsigned int libtrace_to_arphrd_type(libtrace_linktype_t type);
1060
1061/** Converts a libtrace packet to the Linux SLL type.
1062 *
1063 * @param packet        The packet to be promoted
1064 *
1065 * @note This will involve memcpy() so use sparingly.
1066 *
1067 * This function prepends a Linux SLL header to a packet so that we can store
1068 * direction tagging information.
1069 */
1070void promote_packet(libtrace_packet_t *packet);
1071
1072/** Attempts to demote a packet by removing the first header.
1073 *
1074 * @param packet        The packet to be demoted
1075 * @return True if the packet was demoted, false otherwise.
1076 *
1077 * Essentially the opposite of promote_packet, except that it will also remove
1078 * an ATM header as well as Linux SLL.
1079 *
1080 */
1081bool demote_packet(libtrace_packet_t *packet);
1082
1083/** Returns a pointer to the header following a Linux SLL header.
1084 *
1085 * @param link          A pointer to the Linux SLL header to be skipped
1086 * @param[out] arphrd_type      The arp hardware type of the packet
1087 * @param[out] next_header      The ethertype of the next header
1088 * @param[in,out] remaining     Updated with the number of captured bytes
1089 *                              remaining
1090 * @return A pointer to the header following the Linux SLL header, or NULL if
1091 * no subsequent header is present.
1092 *
1093 * Remaining must point to the number of bytes captured from the Linux SLL
1094 * header and beyond.  It will be decremented by the number of bytes skipped
1095 * to find the payload.
1096 *
1097 * If the Linux SLL header is complete but there are zero bytes of payload
1098 * after the end of the header, a pointer to where the payload would be is
1099 * returned and remaining will be set to zero. If the Linux SLL header is
1100 * incomplete (truncated), then NULL is returned and remaining will be set to
1101 * 0. Therefore, it is very important to check the value of remaining after
1102 * calling this function.
1103 */     
1104void *trace_get_payload_from_linux_sll(const void *link,
1105                uint16_t *arphrd_type, 
1106                uint16_t *next_header, 
1107                uint32_t *remaining);
1108
1109/** Returns a pointer to the header following an ATM header.
1110 *
1111 * @param link          A pointer to the ATM header to be skipped
1112 * @param[out] type     The ethertype of the next header
1113 * @param[in,out] remaining     Updated with the number of captured bytes
1114 *                              remaining
1115 * @return A pointer to the header following the ATM header, or NULL if
1116 * no subsequent header is present.
1117 *
1118 * Remaining must point to the number of bytes captured from the ATM header
1119 * and beyond.  It will be decremented by the number of bytes skipped to find
1120 * the payload.
1121 *
1122 * If the ATM header is complete but there are zero bytes of payload
1123 * after the end of the header, a pointer to where the payload would be is
1124 * returned and remaining will be set to zero. If the ATM header is
1125 * incomplete (truncated), then NULL is returned and remaining will be set to
1126 * 0. Therefore, it is very important to check the value of remaining after
1127 * calling this function.
1128 */     
1129DLLEXPORT void *trace_get_payload_from_atm(void *link, uint8_t *type, 
1130                uint32_t *remaining);
1131
1132
1133#ifdef HAVE_BPF
1134/* A type encapsulating a bpf filter
1135 * This type covers the compiled bpf filter, as well as the original filter
1136 * string
1137 *
1138 */
1139
1140/** Internal representation of a BPF filter */
1141struct libtrace_filter_t {
1142        struct bpf_program filter;      /**< The BPF program itself */
1143        char * filterstring;            /**< The filter string */
1144        int flag;                       /**< Indicates if the filter is valid */
1145        struct bpf_jit_t *jitfilter;
1146};
1147#else
1148/** BPF not supported by this system, but we still need to define a structure
1149 * for the filter */
1150struct libtrace_filter_t {};
1151#endif
1152
1153/** Local definition of a PCAP header */
1154typedef struct libtrace_pcapfile_pkt_hdr_t {
1155        uint32_t ts_sec;        /* Seconds portion of the timestamp */
1156        uint32_t ts_usec;       /* Microseconds portion of the timestamp */
1157        uint32_t caplen;        /* Capture length of the packet */
1158        uint32_t wirelen;       /* The wire length of the packet */
1159} libtrace_pcapfile_pkt_hdr_t;
1160
1161#ifdef HAVE_DAG
1162/** Constructor for the DAG format module */
1163void dag_constructor(void);
1164#endif
1165/** Constructor for the ERF format module */
1166void erf_constructor(void);
1167/** Constructor for the TSH format module */
1168void tsh_constructor(void);
1169/** Constructor for the Legacy DAG format module */
1170void legacy_constructor(void);
1171/** Constructor for the Linux Native format module */
1172void linuxnative_constructor(void);
1173/** Constructor for the PCAP format module */
1174void pcap_constructor(void);
1175/** Constructor for the PCAP File format module */
1176void pcapfile_constructor(void);
1177/** Constructor for the RT format module */
1178void rt_constructor(void);
1179/** Constructor for the DUCK format module */
1180void duck_constructor(void);
1181/** Constructor for the ATM Header format module */
1182void atmhdr_constructor(void);
1183#ifdef HAVE_BPF
1184/** Constructor for the BPF format module */
1185void bpf_constructor(void);
1186#endif
1187#if HAVE_DPDK
1188/** Constructor for Intels DPDK format module */
1189void dpdk_constructor(void);
1190#endif
1191
1192/** Extracts the RadioTap flags from a wireless link header
1193 *
1194 * @param link          A pointer to the wireless link header
1195 * @param linktype      The link type of the wireless header
1196 * @param[out] flags    Space to store the extracted flags
1197 * @return True if libtrace was able to extract flags from the link header,
1198 * false otherwise.
1199 *
1200 * This function has been left internal because it is not portable across
1201 * drivers.
1202 */
1203bool trace_get_wireless_flags(void *link, libtrace_linktype_t linktype, uint8_t *flags);
1204#define TRACE_RADIOTAP_F_FCS 0x10
1205       
1206#ifdef __cplusplus
1207}
1208#endif
1209
1210#endif /* LIBTRACE_INT_H */
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