/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2016-2020 Netflix, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef __tcp_log_buf_h__ #define __tcp_log_buf_h__ #define TCP_LOG_REASON_LEN 32 #define TCP_LOG_TAG_LEN 32 #define TCP_LOG_BUF_VER (9) /* * Because the (struct tcp_log_buffer) includes 8-byte uint64_t's, it requires * 8-byte alignment to work properly on all platforms. Therefore, we will * enforce 8-byte alignment for all the structures that may appear by * themselves (instead of being embedded in another structure) in a data * stream. */ #define ALIGN_TCP_LOG __aligned(8) /* Information about the socketbuffer state. */ struct tcp_log_sockbuf { uint32_t tls_sb_acc; /* available chars (sb->sb_acc) */ uint32_t tls_sb_ccc; /* claimed chars (sb->sb_ccc) */ uint32_t tls_sb_spare; /* spare */ }; /* Optional, verbose information that may be appended to an event log. */ struct tcp_log_verbose { #define TCP_FUNC_LEN 32 char tlv_snd_frm[TCP_FUNC_LEN]; /* tcp_output() caller */ char tlv_trace_func[TCP_FUNC_LEN]; /* Function that generated trace */ uint32_t tlv_trace_line; /* Line number that generated trace */ uint8_t _pad[4]; } ALIGN_TCP_LOG; /* Internal RACK state variables. */ struct tcp_log_rack { uint32_t tlr_rack_rtt; /* rc_rack_rtt */ uint8_t tlr_state; /* Internal RACK state */ uint8_t _pad[3]; /* Padding */ }; struct tcp_log_bbr { uint64_t cur_del_rate; uint64_t delRate; uint64_t rttProp; uint64_t bw_inuse; uint32_t inflight; uint32_t applimited; uint32_t delivered; uint32_t timeStamp; uint32_t epoch; uint32_t lt_epoch; uint32_t pkts_out; uint32_t flex1; uint32_t flex2; uint32_t flex3; uint32_t flex4; uint32_t flex5; uint32_t flex6; uint32_t lost; uint16_t pacing_gain; uint16_t cwnd_gain; uint16_t flex7; uint8_t bbr_state; uint8_t bbr_substate; uint8_t inhpts; uint8_t __spare; uint8_t use_lt_bw; uint8_t flex8; uint32_t pkt_epoch; }; /* shadows tcp_log_bbr struct element sizes */ struct tcp_log_raw { uint64_t u64_flex[4]; uint32_t u32_flex[14]; uint16_t u16_flex[3]; uint8_t u8_flex[6]; uint32_t u32_flex2[1]; }; struct tcp_log_uint64 { uint64_t u64_flex[13]; }; struct tcp_log_sendfile { uint64_t offset; uint64_t length; uint32_t flags; }; /* * tcp_log_stackspecific is currently being used as "event specific" log * info by all stacks (i.e. struct tcp_log_bbr is used for generic event * logging). Until this is cleaned up more generically and throughout, * allow events to use the same space in the union. */ union tcp_log_stackspecific { struct tcp_log_rack u_rack; struct tcp_log_bbr u_bbr; struct tcp_log_sendfile u_sf; struct tcp_log_raw u_raw; /* "raw" log access */ struct tcp_log_uint64 u64_raw; /* just u64's - used by process info */ }; typedef union tcp_log_stackspecific tcp_log_eventspecific_t; struct tcp_log_buffer { /* Event basics */ struct timeval tlb_tv; /* Timestamp of trace */ uint32_t tlb_ticks; /* Timestamp of trace */ uint32_t tlb_sn; /* Serial number */ uint8_t tlb_stackid; /* Stack ID */ uint8_t tlb_eventid; /* Event ID */ uint16_t tlb_eventflags; /* Flags for the record */ #define TLB_FLAG_RXBUF 0x0001 /* Includes receive buffer info */ #define TLB_FLAG_TXBUF 0x0002 /* Includes send buffer info */ #define TLB_FLAG_HDR 0x0004 /* Includes a TCP header */ #define TLB_FLAG_VERBOSE 0x0008 /* Includes function/line numbers */ #define TLB_FLAG_STACKINFO 0x0010 /* Includes stack-specific info */ int tlb_errno; /* Event error (if any) */ /* Internal session state */ struct tcp_log_sockbuf tlb_rxbuf; /* Receive buffer */ struct tcp_log_sockbuf tlb_txbuf; /* Send buffer */ int tlb_state; /* TCPCB t_state */ uint32_t tlb_starttime; /* TCPCB t_starttime */ uint32_t tlb_iss; /* TCPCB iss */ uint32_t tlb_flags; /* TCPCB flags */ uint32_t tlb_snd_una; /* TCPCB snd_una */ uint32_t tlb_snd_max; /* TCPCB snd_max */ uint32_t tlb_snd_cwnd; /* TCPCB snd_cwnd */ uint32_t tlb_snd_nxt; /* TCPCB snd_nxt */ uint32_t tlb_snd_recover;/* TCPCB snd_recover */ uint32_t tlb_snd_wnd; /* TCPCB snd_wnd */ uint32_t tlb_snd_ssthresh; /* TCPCB snd_ssthresh */ uint32_t tlb_srtt; /* TCPCB t_srtt */ uint32_t tlb_rttvar; /* TCPCB t_rttvar */ uint32_t tlb_rcv_up; /* TCPCB rcv_up */ uint32_t tlb_rcv_adv; /* TCPCB rcv_adv */ uint32_t tlb_flags2; /* TCPCB t_flags2 */ uint32_t tlb_rcv_nxt; /* TCPCB rcv_nxt */ uint32_t tlb_rcv_wnd; /* TCPCB rcv_wnd */ uint32_t tlb_dupacks; /* TCPCB t_dupacks */ int tlb_segqlen; /* TCPCB segqlen */ int tlb_snd_numholes; /* TCPCB snd_numholes */ uint32_t tlb_flex1; /* Event specific information */ uint32_t tlb_flex2; /* Event specific information */ uint32_t tlb_fbyte_in; /* TCPCB first byte in time */ uint32_t tlb_fbyte_out; /* TCPCB first byte out time */ uint8_t tlb_snd_scale:4, /* TCPCB snd_scale */ tlb_rcv_scale:4; /* TCPCB rcv_scale */ uint8_t _pad[3]; /* Padding */ /* Per-stack info */ union tcp_log_stackspecific tlb_stackinfo; #define tlb_rack tlb_stackinfo.u_rack /* The packet */ uint32_t tlb_len; /* The packet's data length */ struct tcphdr tlb_th; /* The TCP header */ uint8_t tlb_opts[TCP_MAXOLEN]; /* The TCP options */ /* Verbose information (optional) */ struct tcp_log_verbose tlb_verbose[0]; } ALIGN_TCP_LOG; enum tcp_log_events { TCP_LOG_IN = 1, /* Incoming packet 1 */ TCP_LOG_OUT, /* Transmit (without other event) 2 */ TCP_LOG_RTO, /* Retransmit timeout 3 */ TCP_LOG_SB_WAKE, /* Awaken socket buffer 4 */ TCP_LOG_BAD_RETRAN, /* Detected bad retransmission 5 */ TCP_LOG_PRR, /* Doing PRR 6 */ TCP_LOG_REORDER, /* Detected reorder 7 */ TCP_LOG_HPTS, /* Hpts sending a packet 8 */ BBR_LOG_BBRUPD, /* We updated BBR info 9 */ BBR_LOG_BBRSND, /* We did a slot calculation and sending is done 10 */ BBR_LOG_ACKCLEAR, /* A ack clears all outstanding 11 */ BBR_LOG_INQUEUE, /* The tcb had a packet input to it 12 */ BBR_LOG_TIMERSTAR, /* Start a timer 13 */ BBR_LOG_TIMERCANC, /* Cancel a timer 14 */ BBR_LOG_ENTREC, /* Entered recovery 15 */ BBR_LOG_EXITREC, /* Exited recovery 16 */ BBR_LOG_CWND, /* Cwnd change 17 */ BBR_LOG_BWSAMP, /* LT B/W sample has been made 18 */ BBR_LOG_MSGSIZE, /* We received a EMSGSIZE error 19 */ BBR_LOG_BBRRTT, /* BBR RTT is updated 20 */ BBR_LOG_JUSTRET, /* We just returned out of output 21 */ BBR_LOG_STATE, /* A BBR state change occurred 22 */ BBR_LOG_PKT_EPOCH, /* A BBR packet epoch occurred 23 */ BBR_LOG_PERSIST, /* BBR changed to/from a persists 24 */ TCP_LOG_FLOWEND, /* End of a flow 25 */ BBR_LOG_RTO, /* BBR's timeout includes BBR info 26 */ BBR_LOG_DOSEG_DONE, /* hpts do_segment completes 27 */ BBR_LOG_EXIT_GAIN, /* hpts do_segment completes 28 */ BBR_LOG_THRESH_CALC, /* Doing threshold calculation 29 */ TCP_LOG_MAPCHG, /* Map Changes to the sendmap 30 */ TCP_LOG_USERSEND, /* User level sends data 31 */ BBR_RSM_CLEARED, /* RSM cleared of ACK flags 32 */ BBR_LOG_STATE_TARGET, /* Log of target at state 33 */ BBR_LOG_TIME_EPOCH, /* A timed based Epoch occurred 34 */ BBR_LOG_TO_PROCESS, /* A to was processed 35 */ BBR_LOG_BBRTSO, /* TSO update 36 */ BBR_LOG_HPTSDIAG, /* Hpts diag insert 37 */ BBR_LOG_LOWGAIN, /* Low gain accounting 38 */ BBR_LOG_PROGRESS, /* Progress timer event 39 */ TCP_LOG_SOCKET_OPT, /* A socket option is set 40 */ BBR_LOG_TIMERPREP, /* A BBR var to debug out TLP issues 41 */ BBR_LOG_ENOBUF_JMP, /* We had a enobuf jump 42 */ BBR_LOG_HPTSI_CALC, /* calc the hptsi time 43 */ BBR_LOG_RTT_SHRINKS, /* We had a log reduction of rttProp 44 */ BBR_LOG_BW_RED_EV, /* B/W reduction events 45 */ BBR_LOG_REDUCE, /* old bbr log reduce for 4.1 and earlier 46*/ TCP_LOG_RTT, /* A rtt (in useconds) is being sampled and applied to the srtt algo 47 */ BBR_LOG_SETTINGS_CHG, /* Settings changed for loss response 48 */ BBR_LOG_SRTT_GAIN_EVENT, /* SRTT gaining -- now not used 49 */ TCP_LOG_REASS, /* Reassembly buffer logging 50 */ TCP_HDWR_PACE_SIZE, /* TCP pacing size set (rl and rack uses this) 51 */ BBR_LOG_HDWR_PACE, /* TCP Hardware pacing log 52 */ BBR_LOG_TSTMP_VAL, /* Temp debug timestamp validation 53 */ TCP_LOG_CONNEND, /* End of connection 54 */ TCP_LOG_LRO, /* LRO entry 55 */ TCP_SACK_FILTER_RES, /* Results of SACK Filter 56 */ TCP_SAD_DETECT, /* Sack Attack Detection 57 */ TCP_TIMELY_WORK, /* Logs regarding Timely CC tweaks 58 */ TCP_LOG_USER_EVENT, /* User space event data 59 */ TCP_LOG_SENDFILE, /* sendfile() logging for TCP connections 60 */ TCP_LOG_REQ_T, /* logging of request tracking 61 */ TCP_LOG_ACCOUNTING, /* Log of TCP Accounting data 62 */ TCP_LOG_FSB, /* FSB information 63 */ RACK_DSACK_HANDLING, /* Handling of DSACK in rack for reordering window 64 */ TCP_HYSTART, /* TCP Hystart logging 65 */ TCP_CHG_QUERY, /* Change query during fnc_init() 66 */ TCP_RACK_LOG_COLLAPSE, /* Window collapse by peer 67 */ TCP_RACK_TP_TRIGGERED, /* A rack tracepoint is triggered 68 */ TCP_HYBRID_PACING_LOG, /* Hybrid pacing log 69 */ TCP_LOG_PRU, /* TCP protocol user request 70 */ TCP_POLICER_DET, /* TCP Policer detectionn 71 */ TCP_PCM_MEASURE, /* TCP Path Capacity Measurement 72 */ TCP_LOG_END /* End (keep at end) 72 */ }; enum tcp_log_states { TCP_LOG_STATE_RATIO_OFF = -2, /* Log ratio evaluation yielded an OFF result. Only used for tlb_logstate */ TCP_LOG_STATE_CLEAR = -1, /* Deactivate and clear tracing. Passed to tcp_log_state_change() but never stored in any logstate variable */ TCP_LOG_STATE_OFF = 0, /* Pause */ /* Positively numbered states represent active logging modes */ TCP_LOG_STATE_TAIL=1, /* Keep the trailing events */ TCP_LOG_STATE_HEAD=2, /* Keep the leading events */ TCP_LOG_STATE_HEAD_AUTO=3, /* Keep the leading events, and automatically dump them to the device */ TCP_LOG_STATE_CONTINUAL=4, /* Continually dump the data when full */ TCP_LOG_STATE_TAIL_AUTO=5, /* Keep the trailing events, and automatically dump them when the session ends */ TCP_LOG_VIA_BBPOINTS=6 /* Log only if the BB point has been configured */ }; /* Use this if we don't know whether the operation succeeded. */ #define ERRNO_UNK (-1) /* * If the user included dev/tcp_log/tcp_log_dev.h, then include our private * headers. Otherwise, there is no reason to pollute all the files with an * additional include. * * This structure is aligned to an 8-byte boundary to match the alignment * requirements of (struct tcp_log_buffer). */ #ifdef __tcp_log_dev_h__ struct tcp_log_header { struct tcp_log_common_header tlh_common; #define tlh_version tlh_common.tlch_version #define tlh_type tlh_common.tlch_type #define tlh_length tlh_common.tlch_length struct in_endpoints tlh_ie; struct timeval tlh_offset; /* Uptime -> UTC offset */ char tlh_id[TCP_LOG_ID_LEN]; char tlh_reason[TCP_LOG_REASON_LEN]; char tlh_tag[TCP_LOG_TAG_LEN]; uint8_t tlh_af; uint8_t _pad[7]; } ALIGN_TCP_LOG; #ifdef _KERNEL struct tcp_log_dev_log_queue { struct tcp_log_dev_queue tldl_common; char tldl_id[TCP_LOG_ID_LEN]; char tldl_reason[TCP_LOG_REASON_LEN]; char tldl_tag[TCP_LOG_TAG_LEN]; struct in_endpoints tldl_ie; struct tcp_log_stailq tldl_entries; int tldl_count; uint8_t tldl_af; }; #endif /* _KERNEL */ #endif /* __tcp_log_dev_h__ */ /* * Defined BBPOINTS that can be used * with TCP_LOG_VIA_BBPOINTS. */ #define TCP_BBPOINT_NONE 0 #define TCP_BBPOINT_REQ_LEVEL_LOGGING 1 /*********************/ /* TCP Trace points */ /*********************/ /* * TCP trace points are interesting points within * the TCP code that the author/debugger may want * to have BB logging enabled if we hit that point. * In order to enable a trace point you set the * sysctl var net.inet.tcp.bb.tp.number to * one of the numbers listed below. You also * must make sure net.inet.tcp.bb.tp.bbmode is * non-zero, the default is 4 for continuous tracing. * You also set in the number of connections you want * have get BB logs in net.inet.tcp.bb.tp.count. * * Count will decrement every time BB logging is assigned * to a connection that hit your tracepoint. * * You can enable all trace points by setting the number * to 0xffffffff. You can disable all trace points by * setting number to zero (or count to 0). * * Below are the enumerated list of tracepoints that * have currently been defined in the code. Add more * as you add a call to rack_trace_point(rack, ); * where is defined below. */ #define TCP_TP_HWENOBUF 0x00000001 /* When we are doing hardware pacing and hit enobufs */ #define TCP_TP_ENOBUF 0x00000002 /* When we hit enobufs with software pacing */ #define TCP_TP_COLLAPSED_WND 0x00000003 /* When a peer to collapses its rwnd on us */ #define TCP_TP_COLLAPSED_RXT 0x00000004 /* When we actually retransmit a collapsed window rsm */ #define TCP_TP_REQ_LOG_FAIL 0x00000005 /* We tried to allocate a Request log but had no space */ #define TCP_TP_RESET_RCV 0x00000006 /* Triggers when we receive a RST */ #define TCP_TP_POLICER_DET 0x00000007 /* When we detect a policer */ #define TCP_TP_EXCESS_RXT TCP_TP_POLICER_DET /* alias */ #define TCP_TP_SAD_TRIGGERED 0x00000008 /* Sack Attack Detection triggers */ #define TCP_TP_SAD_SUSPECT 0x0000000a /* A sack has supicious information in it */ #define TCP_TP_PACED_BOTTOM 0x0000000b /* We have paced at the bottom */ #ifdef _KERNEL extern uint32_t tcp_trace_point_config; extern uint32_t tcp_trace_point_bb_mode; extern int32_t tcp_trace_point_count; /* * Returns true if any sort of BB logging is enabled, * commonly used throughout the codebase. */ static inline int tcp_bblogging_on(struct tcpcb *tp) { if (tp->_t_logstate <= TCP_LOG_STATE_OFF) return (0); if (tp->_t_logstate == TCP_LOG_VIA_BBPOINTS) return (0); return (1); } /* * Returns true if we match a specific bbpoint when * in TCP_LOG_VIA_BBPOINTS, but also returns true * for all the other logging states. */ static inline int tcp_bblogging_point_on(struct tcpcb *tp, uint8_t bbpoint) { if (tp->_t_logstate <= TCP_LOG_STATE_OFF) return (0); if ((tp->_t_logstate == TCP_LOG_VIA_BBPOINTS) && (tp->_t_logpoint == bbpoint)) return (1); else if (tp->_t_logstate == TCP_LOG_VIA_BBPOINTS) return (0); return (1); } static inline void tcp_set_bblog_state(struct tcpcb *tp, uint8_t ls, uint8_t bbpoint) { if ((ls == TCP_LOG_VIA_BBPOINTS) && (tp->_t_logstate <= TCP_LOG_STATE_OFF)){ /* * We don't allow a BBPOINTS set to override * other types of BB logging set by other means such * as the bb_ratio/bb_state URL parameters. In other * words BBlogging must be *off* in order to turn on * a BBpoint. */ tp->_t_logpoint = bbpoint; tp->_t_logstate = ls; } else if (ls != TCP_LOG_VIA_BBPOINTS) { tp->_t_logpoint = 0; if ((ls >= TCP_LOG_STATE_OFF) && (ls < TCP_LOG_VIA_BBPOINTS)) tp->_t_logstate = ls; } } static inline uint32_t tcp_get_bblog_state(struct tcpcb *tp) { return (tp->_t_logstate); } static inline void tcp_trace_point(struct tcpcb *tp, int num) { #ifdef TCP_BLACKBOX if (((tcp_trace_point_config == num) || (tcp_trace_point_config == 0xffffffff)) && (tcp_trace_point_bb_mode != 0) && (tcp_trace_point_count > 0) && (tcp_bblogging_on(tp) == 0)) { int res; res = atomic_fetchadd_int(&tcp_trace_point_count, -1); if (res > 0) { tcp_set_bblog_state(tp, tcp_trace_point_bb_mode, TCP_BBPOINT_NONE); } else { /* Loss a race assure its zero now */ tcp_trace_point_count = 0; } } #endif } #define TCP_LOG_BUF_DEFAULT_SESSION_LIMIT 5000 #define TCP_LOG_BUF_DEFAULT_GLOBAL_LIMIT 5000000 /* * TCP_LOG_EVENT_VERBOSE: The same as TCP_LOG_EVENT, except it always * tries to record verbose information. */ #define TCP_LOG_EVENT_VERBOSE(tp, th, rxbuf, txbuf, eventid, errornum, len, stackinfo, th_hostorder, tv) \ do { \ if (tcp_bblogging_on(tp)) \ tcp_log_event(tp, th, rxbuf, txbuf, eventid, \ errornum, len, stackinfo, th_hostorder, \ tp->t_output_caller, __func__, __LINE__, tv);\ } while (0) /* * TCP_LOG_EVENT: This is a macro so we can capture function/line * information when needed. You can use the macro when you are not * doing a lot of prep in the stack specific information i.e. you * don't add extras (stackinfo). If you are adding extras which * means filling out a stack variable instead use the tcp_log_event() * function but enclose the call to the log (and all the setup) in a * if (tcp_bblogging_on(tp)) { * ... setup and logging call ... * } * * Always use the macro tcp_bblogging_on() since sometimes the defintions * do change. * * BBlogging also supports the concept of a BBpoint. The idea behind this * is that when you set a specific BBpoint on and turn the logging into * the BBpoint mode (TCP_LOG_VIA_BBPOINTS) you will be defining very very * few of these points to come out. The point is specific to a code you * want tied to that one BB logging. This allows you to turn on a much broader * scale set of limited logging on more connections without overwhelming the * I/O system with too much BBlogs. This of course means you need to be quite * careful on how many BBlogs go with each point, but you can have multiple points * only one of which is active at a time. * * To define a point you add it above under the define for TCP_BBPOINT_NONE (which * is the default i.e. no point is defined. You then, for your point use the * tcp_bblogging_point_on(struct tcpcb *tp, uint8_t bbpoint) inline to enclose * your call to tcp_log_event. Do not use one of the TCP_LOGGING macros else * your point will never come out. You specify your defined point in the bbpoint * side of the inline. An example of this you can find in rack where the * TCP_BBPOINT_REQ_LEVEL_LOGGING is used. There a specific set of logs are generated * for each request that tcp is tracking. * * When turning on BB logging use the inline: * tcp_set_bblog_state(struct tcpcb *tp, uint8_t ls, uint8_t bbpoint) * the ls field is the logging state TCP_LOG_STATE_CONTINUAL etc. The * bbpoint field is ignored unless the ls field is set to TCP_LOG_VIA_BBPOINTS. * Currently there is only a socket option that turns on the non-BBPOINT * logging. * * Prototype: * TCP_LOG_EVENT(struct tcpcb *tp, struct tcphdr *th, struct sockbuf *rxbuf, * struct sockbuf *txbuf, uint8_t eventid, int errornum, * union tcp_log_stackspecific *stackinfo) * * tp is mandatory and must be write locked. * th is optional; if present, it will appear in the record. * rxbuf and txbuf are optional; if present, they will appear in the record. * eventid is mandatory. * errornum is mandatory (it indicates the success or failure of the * operation associated with the event). * len indicates the length of the packet. If no packet, use 0. * stackinfo is optional; if present, it will appear in the record. */ struct tcpcb; #ifdef TCP_LOG_FORCEVERBOSE #define TCP_LOG_EVENT TCP_LOG_EVENT_VERBOSE #else #define TCP_LOG_EVENT(tp, th, rxbuf, txbuf, eventid, errornum, len, stackinfo, th_hostorder) \ do { \ if (tcp_log_verbose) \ TCP_LOG_EVENT_VERBOSE(tp, th, rxbuf, txbuf, \ eventid, errornum, len, stackinfo, \ th_hostorder, NULL); \ else if (tcp_bblogging_on(tp)) \ tcp_log_event(tp, th, rxbuf, txbuf, eventid, \ errornum, len, stackinfo, th_hostorder, \ NULL, NULL, 0, NULL); \ } while (0) #endif /* TCP_LOG_FORCEVERBOSE */ #define TCP_LOG_EVENTP(tp, th, rxbuf, txbuf, eventid, errornum, len, stackinfo, th_hostorder, tv) \ do { \ if (tcp_bblogging_on(tp)) \ tcp_log_event(tp, th, rxbuf, txbuf, eventid, \ errornum, len, stackinfo, th_hostorder, \ NULL, NULL, 0, tv); \ } while (0) #ifdef TCP_BLACKBOX extern bool tcp_log_verbose; void tcp_log_drain(struct tcpcb *tp); int tcp_log_dump_tp_logbuf(struct tcpcb *tp, char *reason, int how, bool force); void tcp_log_dump_tp_bucket_logbufs(struct tcpcb *tp, char *reason); struct tcp_log_buffer *tcp_log_event(struct tcpcb *tp, struct tcphdr *th, struct sockbuf *rxbuf, struct sockbuf *txbuf, uint8_t eventid, int errornum, uint32_t len, union tcp_log_stackspecific *stackinfo, int th_hostorder, const char *output_caller, const char *func, int line, const struct timeval *tv); size_t tcp_log_get_id(struct tcpcb *tp, char *buf); size_t tcp_log_get_tag(struct tcpcb *tp, char *buf); u_int tcp_log_get_id_cnt(struct tcpcb *tp); int tcp_log_getlogbuf(struct sockopt *sopt, struct tcpcb *tp); void tcp_log_init(void); int tcp_log_set_id(struct tcpcb *tp, char *id); int tcp_log_set_tag(struct tcpcb *tp, char *tag); int tcp_log_state_change(struct tcpcb *tp, int state); void tcp_log_tcpcbinit(struct tcpcb *tp); void tcp_log_tcpcbfini(struct tcpcb *tp); void tcp_log_flowend(struct tcpcb *tp); void tcp_log_sendfile(struct socket *so, off_t offset, size_t nbytes, int flags); int tcp_log_apply_ratio(struct tcpcb *tp, int ratio); #else /* !TCP_BLACKBOX */ #define tcp_log_verbose (false) static inline struct tcp_log_buffer * tcp_log_event(struct tcpcb *tp, struct tcphdr *th, struct sockbuf *rxbuf, struct sockbuf *txbuf, uint8_t eventid, int errornum, uint32_t len, union tcp_log_stackspecific *stackinfo, int th_hostorder, const char *output_caller, const char *func, int line, const struct timeval *tv) { return (NULL); } #endif /* TCP_BLACKBOX */ #endif /* _KERNEL */ #endif /* __tcp_log_buf_h__ */