/*- * Copyright (c) 1996 Berkeley Software Design, Inc. All rights reserved. * * 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. * 3. Berkeley Software Design Inc's name may not be used to endorse or * promote products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY BERKELEY SOFTWARE DESIGN INC ``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 BERKELEY SOFTWARE DESIGN INC 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. * * from BSDI $Id: ktr.h,v 1.10.2.7 2000/03/16 21:44:42 cp Exp $ * $FreeBSD$ */ /* * Wraparound kernel trace buffer support. */ #ifndef _SYS_KTR_H_ #define _SYS_KTR_H_ /* * Trace classes * * Two of the trace classes (KTR_DEV and KTR_SUBSYS) are special in that * they are really placeholders so that indvidual drivers and subsystems * can map their internal tracing to the general class when they wish to * have tracing enabled and map it to 0 when they don't. */ #define KTR_GEN 0x00000001 /* General (TR) */ #define KTR_NET 0x00000002 /* Network */ #define KTR_DEV 0x00000004 /* Device driver */ #define KTR_LOCK 0x00000008 /* MP locking */ #define KTR_SMP 0x00000010 /* MP general */ #define KTR_SUBSYS 0x00000020 /* Subsystem. */ #define KTR_PMAP 0x00000040 /* Pmap tracing */ #define KTR_MALLOC 0x00000080 /* Malloc tracing */ #define KTR_TRAP 0x00000100 /* Trap processing */ #define KTR_INTR 0x00000200 /* Interrupt tracing */ #define KTR_SIG 0x00000400 /* Signal processing */ #define KTR_SPARE2 0x00000800 /* XXX Used by cxgb */ #define KTR_PROC 0x00001000 /* Process scheduling */ #define KTR_SYSC 0x00002000 /* System call */ #define KTR_INIT 0x00004000 /* System initialization */ #define KTR_SPARE3 0x00008000 /* XXX Used by cxgb */ #define KTR_SPARE4 0x00010000 /* XXX Used by cxgb */ #define KTR_EVH 0x00020000 /* Eventhandler */ #define KTR_VFS 0x00040000 /* VFS events */ #define KTR_VOP 0x00080000 /* Auto-generated vop events */ #define KTR_VM 0x00100000 /* The virtual memory system */ #define KTR_INET 0x00200000 /* IPv4 stack */ #define KTR_RUNQ 0x00400000 /* Run queue */ #define KTR_CONTENTION 0x00800000 /* Lock contention */ #define KTR_UMA 0x01000000 /* UMA slab allocator */ #define KTR_CALLOUT 0x02000000 /* Callouts and timeouts */ #define KTR_GEOM 0x04000000 /* GEOM I/O events */ #define KTR_BUSDMA 0x08000000 /* busdma(9) events */ #define KTR_INET6 0x10000000 /* IPv6 stack */ #define KTR_SCHED 0x20000000 /* Machine parsed sched info. */ #define KTR_BUF 0x40000000 /* Buffer cache */ #define KTR_PTRACE 0x80000000 /* Process debugging. */ #define KTR_ALL 0xffffffff /* Trace classes to compile in */ #ifdef KTR #ifndef KTR_COMPILE #define KTR_COMPILE (KTR_ALL) #endif #else /* !KTR */ #undef KTR_COMPILE #define KTR_COMPILE 0 #endif /* KTR */ /* * Version number for ktr_entry struct. Increment this when you break binary * compatibility. */ #define KTR_VERSION 2 #define KTR_PARMS 6 #ifndef LOCORE #include #include struct ktr_entry { u_int64_t ktr_timestamp; int ktr_cpu; int ktr_line; const char *ktr_file; const char *ktr_desc; struct thread *ktr_thread; u_long ktr_parms[KTR_PARMS]; }; extern cpuset_t ktr_cpumask; extern int ktr_mask; extern int ktr_entries; extern int ktr_verbose; extern volatile int ktr_idx; extern struct ktr_entry *ktr_buf; #ifdef KTR void ktr_tracepoint(u_int mask, const char *file, int line, const char *format, u_long arg1, u_long arg2, u_long arg3, u_long arg4, u_long arg5, u_long arg6); #define CTR6(m, format, p1, p2, p3, p4, p5, p6) do { \ if (KTR_COMPILE & (m)) \ ktr_tracepoint((m), __FILE__, __LINE__, format, \ (u_long)(p1), (u_long)(p2), (u_long)(p3), \ (u_long)(p4), (u_long)(p5), (u_long)(p6)); \ } while(0) #define CTR0(m, format) CTR6(m, format, 0, 0, 0, 0, 0, 0) #define CTR1(m, format, p1) CTR6(m, format, p1, 0, 0, 0, 0, 0) #define CTR2(m, format, p1, p2) CTR6(m, format, p1, p2, 0, 0, 0, 0) #define CTR3(m, format, p1, p2, p3) CTR6(m, format, p1, p2, p3, 0, 0, 0) #define CTR4(m, format, p1, p2, p3, p4) CTR6(m, format, p1, p2, p3, p4, 0, 0) #define CTR5(m, format, p1, p2, p3, p4, p5) CTR6(m, format, p1, p2, p3, p4, p5, 0) #else /* KTR */ #define CTR0(m, d) (void)0 #define CTR1(m, d, p1) (void)0 #define CTR2(m, d, p1, p2) (void)0 #define CTR3(m, d, p1, p2, p3) (void)0 #define CTR4(m, d, p1, p2, p3, p4) (void)0 #define CTR5(m, d, p1, p2, p3, p4, p5) (void)0 #define CTR6(m, d, p1, p2, p3, p4, p5, p6) (void)0 #endif /* KTR */ #define TR0(d) CTR0(KTR_GEN, d) #define TR1(d, p1) CTR1(KTR_GEN, d, p1) #define TR2(d, p1, p2) CTR2(KTR_GEN, d, p1, p2) #define TR3(d, p1, p2, p3) CTR3(KTR_GEN, d, p1, p2, p3) #define TR4(d, p1, p2, p3, p4) CTR4(KTR_GEN, d, p1, p2, p3, p4) #define TR5(d, p1, p2, p3, p4, p5) CTR5(KTR_GEN, d, p1, p2, p3, p4, p5) #define TR6(d, p1, p2, p3, p4, p5, p6) CTR6(KTR_GEN, d, p1, p2, p3, p4, p5, p6) /* * The event macros implement KTR graphic plotting facilities provided * by src/tools/sched/schedgraph.py. Three generic types of events are * supported: states, counters, and points. * * m is the ktr class for ktr_mask. * ident is the string identifier that owns the event (ie: "thread 10001") * etype is the type of event to plot (state, counter, point) * edat is the event specific data (state name, counter value, point name) * up to four attributes may be supplied as a name, value pair of arguments. * * etype and attribute names must be string constants. This minimizes the * number of ktr slots required by construction the final format strings * at compile time. Both must also include a colon and format specifier * (ie. "prio:%d", prio). It is recommended that string arguments be * contained within escaped quotes if they may contain ',' or ':' characters. * * The special attribute (KTR_ATTR_LINKED, ident) creates a reference to another * id on the graph for easy traversal of related graph elements. */ #define KTR_ATTR_LINKED "linkedto:\"%s\"" #define KTR_EFMT(egroup, ident, etype) \ "KTRGRAPH group:\"" egroup "\", id:\"%s\", " etype ", attributes: " #define KTR_EVENT0(m, egroup, ident, etype, edat) \ CTR2(m, KTR_EFMT(egroup, ident, etype) "none", ident, edat) #define KTR_EVENT1(m, egroup, ident, etype, edat, a0, v0) \ CTR3(m, KTR_EFMT(egroup, ident, etype) a0, ident, edat, (v0)) #define KTR_EVENT2(m, egroup, ident, etype, edat, a0, v0, a1, v1) \ CTR4(m, KTR_EFMT(egroup, ident, etype) a0 ", " a1, \ ident, edat, (v0), (v1)) #define KTR_EVENT3(m, egroup, ident, etype, edat, a0, v0, a1, v1, a2, v2)\ CTR5(m,KTR_EFMT(egroup, ident, etype) a0 ", " a1 ", " a2, \ ident, edat, (v0), (v1), (v2)) #define KTR_EVENT4(m, egroup, ident, etype, edat, \ a0, v0, a1, v1, a2, v2, a3, v3) \ CTR6(m,KTR_EFMT(egroup, ident, etype) a0 ", " a1 ", " a2 ", " a3,\ ident, edat, (v0), (v1), (v2), (v3)) /* * State functions graph state changes on an ident. */ #define KTR_STATE0(m, egroup, ident, state) \ KTR_EVENT0(m, egroup, ident, "state:\"%s\"", state) #define KTR_STATE1(m, egroup, ident, state, a0, v0) \ KTR_EVENT1(m, egroup, ident, "state:\"%s\"", state, a0, (v0)) #define KTR_STATE2(m, egroup, ident, state, a0, v0, a1, v1) \ KTR_EVENT2(m, egroup, ident, "state:\"%s\"", state, a0, (v0), a1, (v1)) #define KTR_STATE3(m, egroup, ident, state, a0, v0, a1, v1, a2, v2) \ KTR_EVENT3(m, egroup, ident, "state:\"%s\"", \ state, a0, (v0), a1, (v1), a2, (v2)) #define KTR_STATE4(m, egroup, ident, state, a0, v0, a1, v1, a2, v2, a3, v3)\ KTR_EVENT4(m, egroup, ident, "state:\"%s\"", \ state, a0, (v0), a1, (v1), a2, (v2), a3, (v3)) /* * Counter functions graph counter values. The counter id * must not be intermixed with a state id. */ #define KTR_COUNTER0(m, egroup, ident, counter) \ KTR_EVENT0(m, egroup, ident, "counter:%d", counter) #define KTR_COUNTER1(m, egroup, ident, edat, a0, v0) \ KTR_EVENT1(m, egroup, ident, "counter:%d", counter, a0, (v0)) #define KTR_COUNTER2(m, egroup, ident, counter, a0, v0, a1, v1) \ KTR_EVENT2(m, egroup, ident, "counter:%d", counter, a0, (v0), a1, (v1)) #define KTR_COUNTER3(m, egroup, ident, counter, a0, v0, a1, v1, a2, v2) \ KTR_EVENT3(m, egroup, ident, "counter:%d", \ counter, a0, (v0), a1, (v1), a2, (v2)) #define KTR_COUNTER4(m, egroup, ident, counter, a0, v0, a1, v1, a2, v2, a3, v3)\ KTR_EVENT4(m, egroup, ident, "counter:%d", \ counter, a0, (v0), a1, (v1), a2, (v2), a3, (v3)) /* * Point functions plot points of interest on counter or state graphs. */ #define KTR_POINT0(m, egroup, ident, point) \ KTR_EVENT0(m, egroup, ident, "point:\"%s\"", point) #define KTR_POINT1(m, egroup, ident, point, a0, v0) \ KTR_EVENT1(m, egroup, ident, "point:\"%s\"", point, a0, (v0)) #define KTR_POINT2(m, egroup, ident, point, a0, v0, a1, v1) \ KTR_EVENT2(m, egroup, ident, "point:\"%s\"", point, a0, (v0), a1, (v1)) #define KTR_POINT3(m, egroup, ident, point, a0, v0, a1, v1, a2, v2) \ KTR_EVENT3(m, egroup, ident, "point:\"%s\"", point, \ a0, (v0), a1, (v1), a2, (v2)) #define KTR_POINT4(m, egroup, ident, point, a0, v0, a1, v1, a2, v2, a3, v3)\ KTR_EVENT4(m, egroup, ident, "point:\"%s\"", \ point, a0, (v0), a1, (v1), a2, (v2), a3, (v3)) /* * Start functions denote the start of a region of code or operation * and should be paired with stop functions for timing of nested * sequences. * * Specifying extra attributes with the name "key" will result in * multi-part keys. For example a block device and offset pair * might be used to describe a buf undergoing I/O. */ #define KTR_START0(m, egroup, ident, key) \ KTR_EVENT0(m, egroup, ident, "start:0x%jX", (uintmax_t)key) #define KTR_START1(m, egroup, ident, key, a0, v0) \ KTR_EVENT1(m, egroup, ident, "start:0x%jX", (uintmax_t)key, a0, (v0)) #define KTR_START2(m, egroup, ident, key, a0, v0, a1, v1) \ KTR_EVENT2(m, egroup, ident, "start:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1)) #define KTR_START3(m, egroup, ident, key, a0, v0, a1, v1, a2, v2)\ KTR_EVENT3(m, egroup, ident, "start:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1), a2, (v2)) #define KTR_START4(m, egroup, ident, key, \ a0, v0, a1, v1, a2, v2, a3, v3) \ KTR_EVENT4(m, egroup, ident, "start:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1), a2, (v2), a3, (v3)) /* * Stop functions denote the end of a region of code or operation * and should be paired with start functions for timing of nested * sequences. */ #define KTR_STOP0(m, egroup, ident, key) \ KTR_EVENT0(m, egroup, ident, "stop:0x%jX", (uintmax_t)key) #define KTR_STOP1(m, egroup, ident, key, a0, v0) \ KTR_EVENT1(m, egroup, ident, "stop:0x%jX", (uintmax_t)key, a0, (v0)) #define KTR_STOP2(m, egroup, ident, key, a0, v0, a1, v1) \ KTR_EVENT2(m, egroup, ident, "stop:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1)) #define KTR_STOP3(m, egroup, ident, key, a0, v0, a1, v1, a2, v2)\ KTR_EVENT3(m, egroup, ident, "stop:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1), a2, (v2)) #define KTR_STOP4(m, egroup, ident, \ key, a0, v0, a1, v1, a2, v2, a3, v3) \ KTR_EVENT4(m, egroup, ident, "stop:0x%jX", (uintmax_t)key, \ a0, (v0), a1, (v1), a2, (v2), a3, (v3)) /* * Trace initialization events, similar to CTR with KTR_INIT, but * completely ifdef'ed out if KTR_INIT isn't in KTR_COMPILE (to * save string space, the compiler doesn't optimize out strings * for the conditional ones above). */ #if (KTR_COMPILE & KTR_INIT) != 0 #define ITR0(d) CTR0(KTR_INIT, d) #define ITR1(d, p1) CTR1(KTR_INIT, d, p1) #define ITR2(d, p1, p2) CTR2(KTR_INIT, d, p1, p2) #define ITR3(d, p1, p2, p3) CTR3(KTR_INIT, d, p1, p2, p3) #define ITR4(d, p1, p2, p3, p4) CTR4(KTR_INIT, d, p1, p2, p3, p4) #define ITR5(d, p1, p2, p3, p4, p5) CTR5(KTR_INIT, d, p1, p2, p3, p4, p5) #define ITR6(d, p1, p2, p3, p4, p5, p6) CTR6(KTR_INIT, d, p1, p2, p3, p4, p5, p6) #else #define ITR0(d) #define ITR1(d, p1) #define ITR2(d, p1, p2) #define ITR3(d, p1, p2, p3) #define ITR4(d, p1, p2, p3, p4) #define ITR5(d, p1, p2, p3, p4, p5) #define ITR6(d, p1, p2, p3, p4, p5, p6) #endif #endif /* !LOCORE */ #endif /* !_SYS_KTR_H_ */