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1 | /* | |
2 | * CDDL HEADER START | |
3 | * | |
4 | * The contents of this file are subject to the terms of the | |
5 | * Common Development and Distribution License (the "License"). | |
6 | * You may not use this file except in compliance with the License. | |
7 | * | |
8 | * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE | |
9 | * or http://www.opensolaris.org/os/licensing. | |
10 | * See the License for the specific language governing permissions | |
11 | * and limitations under the License. | |
12 | * | |
13 | * When distributing Covered Code, include this CDDL HEADER in each | |
14 | * file and include the License file at usr/src/OPENSOLARIS.LICENSE. | |
15 | * If applicable, add the following below this CDDL HEADER, with the | |
16 | * fields enclosed by brackets "[]" replaced with your own identifying | |
17 | * information: Portions Copyright [yyyy] [name of copyright owner] | |
18 | * | |
19 | * CDDL HEADER END | |
20 | */ | |
21 | ||
22 | /* | |
23 | * Copyright 2007 Sun Microsystems, Inc. All rights reserved. | |
24 | * Use is subject to license terms. | |
25 | */ | |
26 | ||
27 | #ifndef _SYS_DTRACE_H | |
28 | #define _SYS_DTRACE_H | |
29 | ||
30 | /* #pragma ident "@(#)dtrace.h 1.37 07/06/05 SMI" */ | |
31 | ||
32 | #ifdef __cplusplus | |
33 | extern "C" { | |
34 | #endif | |
35 | ||
36 | /* | |
37 | * DTrace Dynamic Tracing Software: Kernel Interfaces | |
38 | * | |
39 | * Note: The contents of this file are private to the implementation of the | |
40 | * Solaris system and DTrace subsystem and are subject to change at any time | |
41 | * without notice. Applications and drivers using these interfaces will fail | |
42 | * to run on future releases. These interfaces should not be used for any | |
43 | * purpose except those expressly outlined in dtrace(7D) and libdtrace(3LIB). | |
44 | * Please refer to the "Solaris Dynamic Tracing Guide" for more information. | |
45 | */ | |
46 | ||
47 | #ifndef _ASM | |
48 | ||
49 | #if !defined(__APPLE__) | |
50 | #include <sys/types.h> | |
51 | #include <sys/modctl.h> | |
52 | #include <sys/processor.h> | |
53 | #include <sys/systm.h> | |
54 | #include <sys/ctf_api.h> | |
55 | #include <sys/cyclic.h> | |
56 | #include <sys/int_limits.h> | |
57 | #else /* is Apple Mac OS X */ | |
58 | ||
59 | #if defined(__LP64__) | |
60 | #if !defined(_LP64) | |
61 | #define _LP64 /* Solaris vs. Darwin */ | |
62 | #endif | |
63 | #else | |
64 | #if !defined(_ILP32) | |
65 | #define _ILP32 /* Solaris vs. Darwin */ | |
66 | #endif | |
67 | #endif | |
68 | ||
69 | #ifdef KERNEL | |
70 | #ifndef _KERNEL | |
71 | #define _KERNEL /* Solaris vs. Darwin */ | |
72 | #endif | |
73 | #endif | |
74 | ||
75 | #if defined(__BIG_ENDIAN__) | |
76 | #if !defined(_BIG_ENDIAN) | |
77 | #define _BIG_ENDIAN /* Solaris vs. Darwin */ | |
78 | #endif | |
79 | #elif defined(__LITTLE_ENDIAN__) | |
80 | #if !defined(_LITTLE_ENDIAN) | |
81 | #define _LITTLE_ENDIAN /* Solaris vs. Darwin */ | |
82 | #endif | |
83 | #else | |
84 | #error Unknown endian-ness | |
85 | #endif | |
86 | ||
87 | #include <sys/types.h> | |
88 | #include <stdint.h> | |
89 | ||
90 | #ifndef NULL | |
91 | #define NULL ((void *)0) /* quiets many warnings */ | |
92 | #endif | |
93 | ||
94 | #define SEC 1 | |
95 | #define MILLISEC 1000 | |
96 | #define MICROSEC 1000000 | |
97 | #define NANOSEC 1000000000 | |
98 | ||
99 | #define S_ROUND(x, a) ((x) + (((a) ? (a) : 1) - 1) & ~(((a) ? (a) : 1) - 1)) | |
100 | #define P2ROUNDUP(x, align) (-(-(x) & -(align))) | |
101 | ||
102 | #define CTF_MODEL_ILP32 1 /* object data model is ILP32 */ | |
103 | #define CTF_MODEL_LP64 2 /* object data model is LP64 */ | |
104 | #ifdef __LP64__ | |
105 | #define CTF_MODEL_NATIVE CTF_MODEL_LP64 | |
106 | #else | |
107 | #define CTF_MODEL_NATIVE CTF_MODEL_ILP32 | |
108 | #endif | |
109 | ||
110 | typedef uint8_t uchar_t; | |
111 | typedef uint16_t ushort_t; | |
112 | typedef uint32_t uint_t; | |
113 | typedef unsigned long ulong_t; | |
114 | typedef uint64_t u_longlong_t; | |
115 | typedef int64_t longlong_t; | |
116 | typedef int64_t off64_t; | |
117 | typedef int processorid_t; | |
118 | typedef int64_t hrtime_t; | |
119 | ||
120 | typedef enum { B_FALSE = 0, B_TRUE = 1 } _dtrace_boolean; | |
121 | ||
122 | typedef uint8_t UUID[16]; /* For modctl use in dtrace.h */ | |
123 | ||
124 | struct modctl; /* In lieu of Solaris <sys/modctl.h> */ | |
125 | /* NOTHING */ /* In lieu of Solaris <sys/processor.h> */ | |
126 | #include <sys/ioctl.h> /* In lieu of Solaris <sys/systm.h> */ | |
127 | #ifdef KERNEL | |
128 | /* NOTHING */ /* In lieu of Solaris <sys/ctf_api.h> */ | |
129 | #else | |
130 | /* In lieu of Solaris <sys/ctf_api.h> */ | |
131 | typedef struct ctf_file ctf_file_t; | |
132 | typedef long ctf_id_t; | |
133 | #endif | |
134 | /* NOTHING */ /* In lieu of Solaris <sys/cyclic.h> */ | |
135 | /* NOTHING */ /* In lieu of Solaris <sys/int_limits.h> */ | |
136 | ||
137 | typedef uint32_t zoneid_t; | |
138 | ||
139 | #include <sys/dtrace_glue.h> | |
140 | ||
141 | #include <stdarg.h> | |
142 | typedef va_list __va_list; | |
143 | ||
144 | /* Solaris proc_t is the struct. Darwin's proc_t is a pointer to it. */ | |
145 | #define proc_t struct proc /* Steer clear of the Darwin typedef for proc_t */ | |
146 | #endif /* __APPLE__ */ | |
147 | ||
148 | /* | |
149 | * DTrace Universal Constants and Typedefs | |
150 | */ | |
151 | #define DTRACE_CPUALL -1 /* all CPUs */ | |
152 | #define DTRACE_IDNONE 0 /* invalid probe identifier */ | |
153 | #define DTRACE_EPIDNONE 0 /* invalid enabled probe identifier */ | |
154 | #define DTRACE_AGGIDNONE 0 /* invalid aggregation identifier */ | |
155 | #define DTRACE_AGGVARIDNONE 0 /* invalid aggregation variable ID */ | |
156 | #define DTRACE_CACHEIDNONE 0 /* invalid predicate cache */ | |
157 | #define DTRACE_PROVNONE 0 /* invalid provider identifier */ | |
158 | #define DTRACE_METAPROVNONE 0 /* invalid meta-provider identifier */ | |
159 | #define DTRACE_ARGNONE -1 /* invalid argument index */ | |
160 | ||
161 | #define DTRACE_PROVNAMELEN 64 | |
162 | #define DTRACE_MODNAMELEN 64 | |
163 | #define DTRACE_FUNCNAMELEN 128 | |
164 | #define DTRACE_NAMELEN 64 | |
165 | #define DTRACE_FULLNAMELEN (DTRACE_PROVNAMELEN + DTRACE_MODNAMELEN + \ | |
166 | DTRACE_FUNCNAMELEN + DTRACE_NAMELEN + 4) | |
167 | #define DTRACE_ARGTYPELEN 128 | |
168 | ||
169 | typedef uint32_t dtrace_id_t; /* probe identifier */ | |
170 | typedef uint32_t dtrace_epid_t; /* enabled probe identifier */ | |
171 | typedef uint32_t dtrace_aggid_t; /* aggregation identifier */ | |
172 | typedef int64_t dtrace_aggvarid_t; /* aggregation variable identifier */ | |
173 | typedef uint16_t dtrace_actkind_t; /* action kind */ | |
174 | typedef int64_t dtrace_optval_t; /* option value */ | |
175 | typedef uint32_t dtrace_cacheid_t; /* predicate cache identifier */ | |
176 | ||
177 | typedef enum dtrace_probespec { | |
178 | DTRACE_PROBESPEC_NONE = -1, | |
179 | DTRACE_PROBESPEC_PROVIDER = 0, | |
180 | DTRACE_PROBESPEC_MOD, | |
181 | DTRACE_PROBESPEC_FUNC, | |
182 | DTRACE_PROBESPEC_NAME | |
183 | } dtrace_probespec_t; | |
184 | ||
185 | /* | |
186 | * DTrace Intermediate Format (DIF) | |
187 | * | |
188 | * The following definitions describe the DTrace Intermediate Format (DIF), a | |
189 | * a RISC-like instruction set and program encoding used to represent | |
190 | * predicates and actions that can be bound to DTrace probes. The constants | |
191 | * below defining the number of available registers are suggested minimums; the | |
192 | * compiler should use DTRACEIOC_CONF to dynamically obtain the number of | |
193 | * registers provided by the current DTrace implementation. | |
194 | */ | |
195 | #define DIF_VERSION_1 1 /* DIF version 1: Solaris 10 Beta */ | |
196 | #define DIF_VERSION_2 2 /* DIF version 2: Solaris 10 FCS */ | |
197 | #define DIF_VERSION DIF_VERSION_2 /* latest DIF instruction set version */ | |
198 | #define DIF_DIR_NREGS 8 /* number of DIF integer registers */ | |
199 | #define DIF_DTR_NREGS 8 /* number of DIF tuple registers */ | |
200 | ||
201 | #define DIF_OP_OR 1 /* or r1, r2, rd */ | |
202 | #define DIF_OP_XOR 2 /* xor r1, r2, rd */ | |
203 | #define DIF_OP_AND 3 /* and r1, r2, rd */ | |
204 | #define DIF_OP_SLL 4 /* sll r1, r2, rd */ | |
205 | #define DIF_OP_SRL 5 /* srl r1, r2, rd */ | |
206 | #define DIF_OP_SUB 6 /* sub r1, r2, rd */ | |
207 | #define DIF_OP_ADD 7 /* add r1, r2, rd */ | |
208 | #define DIF_OP_MUL 8 /* mul r1, r2, rd */ | |
209 | #define DIF_OP_SDIV 9 /* sdiv r1, r2, rd */ | |
210 | #define DIF_OP_UDIV 10 /* udiv r1, r2, rd */ | |
211 | #define DIF_OP_SREM 11 /* srem r1, r2, rd */ | |
212 | #define DIF_OP_UREM 12 /* urem r1, r2, rd */ | |
213 | #define DIF_OP_NOT 13 /* not r1, rd */ | |
214 | #define DIF_OP_MOV 14 /* mov r1, rd */ | |
215 | #define DIF_OP_CMP 15 /* cmp r1, r2 */ | |
216 | #define DIF_OP_TST 16 /* tst r1 */ | |
217 | #define DIF_OP_BA 17 /* ba label */ | |
218 | #define DIF_OP_BE 18 /* be label */ | |
219 | #define DIF_OP_BNE 19 /* bne label */ | |
220 | #define DIF_OP_BG 20 /* bg label */ | |
221 | #define DIF_OP_BGU 21 /* bgu label */ | |
222 | #define DIF_OP_BGE 22 /* bge label */ | |
223 | #define DIF_OP_BGEU 23 /* bgeu label */ | |
224 | #define DIF_OP_BL 24 /* bl label */ | |
225 | #define DIF_OP_BLU 25 /* blu label */ | |
226 | #define DIF_OP_BLE 26 /* ble label */ | |
227 | #define DIF_OP_BLEU 27 /* bleu label */ | |
228 | #define DIF_OP_LDSB 28 /* ldsb [r1], rd */ | |
229 | #define DIF_OP_LDSH 29 /* ldsh [r1], rd */ | |
230 | #define DIF_OP_LDSW 30 /* ldsw [r1], rd */ | |
231 | #define DIF_OP_LDUB 31 /* ldub [r1], rd */ | |
232 | #define DIF_OP_LDUH 32 /* lduh [r1], rd */ | |
233 | #define DIF_OP_LDUW 33 /* lduw [r1], rd */ | |
234 | #define DIF_OP_LDX 34 /* ldx [r1], rd */ | |
235 | #define DIF_OP_RET 35 /* ret rd */ | |
236 | #define DIF_OP_NOP 36 /* nop */ | |
237 | #define DIF_OP_SETX 37 /* setx intindex, rd */ | |
238 | #define DIF_OP_SETS 38 /* sets strindex, rd */ | |
239 | #define DIF_OP_SCMP 39 /* scmp r1, r2 */ | |
240 | #define DIF_OP_LDGA 40 /* ldga var, ri, rd */ | |
241 | #define DIF_OP_LDGS 41 /* ldgs var, rd */ | |
242 | #define DIF_OP_STGS 42 /* stgs var, rs */ | |
243 | #define DIF_OP_LDTA 43 /* ldta var, ri, rd */ | |
244 | #define DIF_OP_LDTS 44 /* ldts var, rd */ | |
245 | #define DIF_OP_STTS 45 /* stts var, rs */ | |
246 | #define DIF_OP_SRA 46 /* sra r1, r2, rd */ | |
247 | #define DIF_OP_CALL 47 /* call subr, rd */ | |
248 | #define DIF_OP_PUSHTR 48 /* pushtr type, rs, rr */ | |
249 | #define DIF_OP_PUSHTV 49 /* pushtv type, rs, rv */ | |
250 | #define DIF_OP_POPTS 50 /* popts */ | |
251 | #define DIF_OP_FLUSHTS 51 /* flushts */ | |
252 | #define DIF_OP_LDGAA 52 /* ldgaa var, rd */ | |
253 | #define DIF_OP_LDTAA 53 /* ldtaa var, rd */ | |
254 | #define DIF_OP_STGAA 54 /* stgaa var, rs */ | |
255 | #define DIF_OP_STTAA 55 /* sttaa var, rs */ | |
256 | #define DIF_OP_LDLS 56 /* ldls var, rd */ | |
257 | #define DIF_OP_STLS 57 /* stls var, rs */ | |
258 | #define DIF_OP_ALLOCS 58 /* allocs r1, rd */ | |
259 | #define DIF_OP_COPYS 59 /* copys r1, r2, rd */ | |
260 | #define DIF_OP_STB 60 /* stb r1, [rd] */ | |
261 | #define DIF_OP_STH 61 /* sth r1, [rd] */ | |
262 | #define DIF_OP_STW 62 /* stw r1, [rd] */ | |
263 | #define DIF_OP_STX 63 /* stx r1, [rd] */ | |
264 | #define DIF_OP_ULDSB 64 /* uldsb [r1], rd */ | |
265 | #define DIF_OP_ULDSH 65 /* uldsh [r1], rd */ | |
266 | #define DIF_OP_ULDSW 66 /* uldsw [r1], rd */ | |
267 | #define DIF_OP_ULDUB 67 /* uldub [r1], rd */ | |
268 | #define DIF_OP_ULDUH 68 /* ulduh [r1], rd */ | |
269 | #define DIF_OP_ULDUW 69 /* ulduw [r1], rd */ | |
270 | #define DIF_OP_ULDX 70 /* uldx [r1], rd */ | |
271 | #define DIF_OP_RLDSB 71 /* rldsb [r1], rd */ | |
272 | #define DIF_OP_RLDSH 72 /* rldsh [r1], rd */ | |
273 | #define DIF_OP_RLDSW 73 /* rldsw [r1], rd */ | |
274 | #define DIF_OP_RLDUB 74 /* rldub [r1], rd */ | |
275 | #define DIF_OP_RLDUH 75 /* rlduh [r1], rd */ | |
276 | #define DIF_OP_RLDUW 76 /* rlduw [r1], rd */ | |
277 | #define DIF_OP_RLDX 77 /* rldx [r1], rd */ | |
278 | #define DIF_OP_XLATE 78 /* xlate xlrindex, rd */ | |
279 | #define DIF_OP_XLARG 79 /* xlarg xlrindex, rd */ | |
280 | ||
281 | #define DIF_INTOFF_MAX 0xffff /* highest integer table offset */ | |
282 | #define DIF_STROFF_MAX 0xffff /* highest string table offset */ | |
283 | #define DIF_REGISTER_MAX 0xff /* highest register number */ | |
284 | #define DIF_VARIABLE_MAX 0xffff /* highest variable identifier */ | |
285 | #define DIF_SUBROUTINE_MAX 0xffff /* highest subroutine code */ | |
286 | ||
287 | #define DIF_VAR_ARRAY_MIN 0x0000 /* lowest numbered array variable */ | |
288 | #define DIF_VAR_ARRAY_UBASE 0x0080 /* lowest user-defined array */ | |
289 | #define DIF_VAR_ARRAY_MAX 0x00ff /* highest numbered array variable */ | |
290 | ||
291 | #define DIF_VAR_OTHER_MIN 0x0100 /* lowest numbered scalar or assc */ | |
292 | #define DIF_VAR_OTHER_UBASE 0x0500 /* lowest user-defined scalar or assc */ | |
293 | #define DIF_VAR_OTHER_MAX 0xffff /* highest numbered scalar or assc */ | |
294 | ||
295 | #define DIF_VAR_ARGS 0x0000 /* arguments array */ | |
296 | #define DIF_VAR_REGS 0x0001 /* registers array */ | |
297 | #define DIF_VAR_UREGS 0x0002 /* user registers array */ | |
298 | #define DIF_VAR_CURTHREAD 0x0100 /* thread pointer */ | |
299 | #define DIF_VAR_TIMESTAMP 0x0101 /* timestamp */ | |
300 | #define DIF_VAR_VTIMESTAMP 0x0102 /* virtual timestamp */ | |
301 | #define DIF_VAR_IPL 0x0103 /* interrupt priority level */ | |
302 | #define DIF_VAR_EPID 0x0104 /* enabled probe ID */ | |
303 | #define DIF_VAR_ID 0x0105 /* probe ID */ | |
304 | #define DIF_VAR_ARG0 0x0106 /* first argument */ | |
305 | #define DIF_VAR_ARG1 0x0107 /* second argument */ | |
306 | #define DIF_VAR_ARG2 0x0108 /* third argument */ | |
307 | #define DIF_VAR_ARG3 0x0109 /* fourth argument */ | |
308 | #define DIF_VAR_ARG4 0x010a /* fifth argument */ | |
309 | #define DIF_VAR_ARG5 0x010b /* sixth argument */ | |
310 | #define DIF_VAR_ARG6 0x010c /* seventh argument */ | |
311 | #define DIF_VAR_ARG7 0x010d /* eighth argument */ | |
312 | #define DIF_VAR_ARG8 0x010e /* ninth argument */ | |
313 | #define DIF_VAR_ARG9 0x010f /* tenth argument */ | |
314 | #define DIF_VAR_STACKDEPTH 0x0110 /* stack depth */ | |
315 | #define DIF_VAR_CALLER 0x0111 /* caller */ | |
316 | #define DIF_VAR_PROBEPROV 0x0112 /* probe provider */ | |
317 | #define DIF_VAR_PROBEMOD 0x0113 /* probe module */ | |
318 | #define DIF_VAR_PROBEFUNC 0x0114 /* probe function */ | |
319 | #define DIF_VAR_PROBENAME 0x0115 /* probe name */ | |
320 | #define DIF_VAR_PID 0x0116 /* process ID */ | |
321 | #define DIF_VAR_TID 0x0117 /* (per-process) thread ID */ | |
322 | #define DIF_VAR_EXECNAME 0x0118 /* name of executable */ | |
323 | #define DIF_VAR_ZONENAME 0x0119 /* zone name associated with process */ | |
324 | #define DIF_VAR_WALLTIMESTAMP 0x011a /* wall-clock timestamp */ | |
325 | #define DIF_VAR_USTACKDEPTH 0x011b /* user-land stack depth */ | |
326 | #define DIF_VAR_UCALLER 0x011c /* user-level caller */ | |
327 | #define DIF_VAR_PPID 0x011d /* parent process ID */ | |
328 | #define DIF_VAR_UID 0x011e /* process user ID */ | |
329 | #define DIF_VAR_GID 0x011f /* process group ID */ | |
330 | #define DIF_VAR_ERRNO 0x0120 /* thread errno */ | |
331 | #if defined(__APPLE__) | |
332 | #define DIF_VAR_PTHREAD_SELF 0x0200 /* Apple specific PTHREAD_SELF (Not currently supported!) */ | |
333 | #define DIF_VAR_DISPATCHQADDR 0x0201 /* Apple specific dispatch queue addr */ | |
334 | #endif /* __APPLE __ */ | |
335 | ||
336 | #define DIF_SUBR_RAND 0 | |
337 | #define DIF_SUBR_MUTEX_OWNED 1 | |
338 | #define DIF_SUBR_MUTEX_OWNER 2 | |
339 | #define DIF_SUBR_MUTEX_TYPE_ADAPTIVE 3 | |
340 | #define DIF_SUBR_MUTEX_TYPE_SPIN 4 | |
341 | #define DIF_SUBR_RW_READ_HELD 5 | |
342 | #define DIF_SUBR_RW_WRITE_HELD 6 | |
343 | #define DIF_SUBR_RW_ISWRITER 7 | |
344 | #define DIF_SUBR_COPYIN 8 | |
345 | #define DIF_SUBR_COPYINSTR 9 | |
346 | #define DIF_SUBR_SPECULATION 10 | |
347 | #define DIF_SUBR_PROGENYOF 11 | |
348 | #define DIF_SUBR_STRLEN 12 | |
349 | #define DIF_SUBR_COPYOUT 13 | |
350 | #define DIF_SUBR_COPYOUTSTR 14 | |
351 | #define DIF_SUBR_ALLOCA 15 | |
352 | #define DIF_SUBR_BCOPY 16 | |
353 | #define DIF_SUBR_COPYINTO 17 | |
354 | #define DIF_SUBR_MSGDSIZE 18 | |
355 | #define DIF_SUBR_MSGSIZE 19 | |
356 | #define DIF_SUBR_GETMAJOR 20 | |
357 | #define DIF_SUBR_GETMINOR 21 | |
358 | #define DIF_SUBR_DDI_PATHNAME 22 | |
359 | #define DIF_SUBR_STRJOIN 23 | |
360 | #define DIF_SUBR_LLTOSTR 24 | |
361 | #define DIF_SUBR_BASENAME 25 | |
362 | #define DIF_SUBR_DIRNAME 26 | |
363 | #define DIF_SUBR_CLEANPATH 27 | |
364 | #define DIF_SUBR_STRCHR 28 | |
365 | #define DIF_SUBR_STRRCHR 29 | |
366 | #define DIF_SUBR_STRSTR 30 | |
367 | #define DIF_SUBR_STRTOK 31 | |
368 | #define DIF_SUBR_SUBSTR 32 | |
369 | #define DIF_SUBR_INDEX 33 | |
370 | #define DIF_SUBR_RINDEX 34 | |
371 | #define DIF_SUBR_HTONS 35 | |
372 | #define DIF_SUBR_HTONL 36 | |
373 | #define DIF_SUBR_HTONLL 37 | |
374 | #define DIF_SUBR_NTOHS 38 | |
375 | #define DIF_SUBR_NTOHL 39 | |
376 | #define DIF_SUBR_NTOHLL 40 | |
377 | #define DIF_SUBR_INET_NTOP 41 | |
378 | #define DIF_SUBR_INET_NTOA 42 | |
379 | #define DIF_SUBR_INET_NTOA6 43 | |
380 | #if !defined(__APPLE__) | |
381 | ||
382 | #define DIF_SUBR_MAX 43 /* max subroutine value */ | |
383 | #else | |
384 | #define DIF_SUBR_COREPROFILE 44 | |
385 | ||
386 | #define DIF_SUBR_MAX 44 /* max subroutine value */ | |
387 | #endif /* __APPLE__ */ | |
388 | ||
389 | typedef uint32_t dif_instr_t; | |
390 | ||
391 | #define DIF_INSTR_OP(i) (((i) >> 24) & 0xff) | |
392 | #define DIF_INSTR_R1(i) (((i) >> 16) & 0xff) | |
393 | #define DIF_INSTR_R2(i) (((i) >> 8) & 0xff) | |
394 | #define DIF_INSTR_RD(i) ((i) & 0xff) | |
395 | #define DIF_INSTR_RS(i) ((i) & 0xff) | |
396 | #define DIF_INSTR_LABEL(i) ((i) & 0xffffff) | |
397 | #define DIF_INSTR_VAR(i) (((i) >> 8) & 0xffff) | |
398 | #define DIF_INSTR_INTEGER(i) (((i) >> 8) & 0xffff) | |
399 | #define DIF_INSTR_STRING(i) (((i) >> 8) & 0xffff) | |
400 | #define DIF_INSTR_SUBR(i) (((i) >> 8) & 0xffff) | |
401 | #define DIF_INSTR_TYPE(i) (((i) >> 16) & 0xff) | |
402 | #define DIF_INSTR_XLREF(i) (((i) >> 8) & 0xffff) | |
403 | ||
404 | #define DIF_INSTR_FMT(op, r1, r2, d) \ | |
405 | (((op) << 24) | ((r1) << 16) | ((r2) << 8) | (d)) | |
406 | ||
407 | #define DIF_INSTR_NOT(r1, d) (DIF_INSTR_FMT(DIF_OP_NOT, r1, 0, d)) | |
408 | #define DIF_INSTR_MOV(r1, d) (DIF_INSTR_FMT(DIF_OP_MOV, r1, 0, d)) | |
409 | #define DIF_INSTR_CMP(op, r1, r2) (DIF_INSTR_FMT(op, r1, r2, 0)) | |
410 | #define DIF_INSTR_TST(r1) (DIF_INSTR_FMT(DIF_OP_TST, r1, 0, 0)) | |
411 | #define DIF_INSTR_BRANCH(op, label) (((op) << 24) | (label)) | |
412 | #define DIF_INSTR_LOAD(op, r1, d) (DIF_INSTR_FMT(op, r1, 0, d)) | |
413 | #define DIF_INSTR_STORE(op, r1, d) (DIF_INSTR_FMT(op, r1, 0, d)) | |
414 | #define DIF_INSTR_SETX(i, d) ((DIF_OP_SETX << 24) | ((i) << 8) | (d)) | |
415 | #define DIF_INSTR_SETS(s, d) ((DIF_OP_SETS << 24) | ((s) << 8) | (d)) | |
416 | #define DIF_INSTR_RET(d) (DIF_INSTR_FMT(DIF_OP_RET, 0, 0, d)) | |
417 | #define DIF_INSTR_NOP (DIF_OP_NOP << 24) | |
418 | #define DIF_INSTR_LDA(op, v, r, d) (DIF_INSTR_FMT(op, v, r, d)) | |
419 | #define DIF_INSTR_LDV(op, v, d) (((op) << 24) | ((v) << 8) | (d)) | |
420 | #define DIF_INSTR_STV(op, v, rs) (((op) << 24) | ((v) << 8) | (rs)) | |
421 | #define DIF_INSTR_CALL(s, d) ((DIF_OP_CALL << 24) | ((s) << 8) | (d)) | |
422 | #define DIF_INSTR_PUSHTS(op, t, r2, rs) (DIF_INSTR_FMT(op, t, r2, rs)) | |
423 | #define DIF_INSTR_POPTS (DIF_OP_POPTS << 24) | |
424 | #define DIF_INSTR_FLUSHTS (DIF_OP_FLUSHTS << 24) | |
425 | #define DIF_INSTR_ALLOCS(r1, d) (DIF_INSTR_FMT(DIF_OP_ALLOCS, r1, 0, d)) | |
426 | #define DIF_INSTR_COPYS(r1, r2, d) (DIF_INSTR_FMT(DIF_OP_COPYS, r1, r2, d)) | |
427 | #define DIF_INSTR_XLATE(op, r, d) (((op) << 24) | ((r) << 8) | (d)) | |
428 | ||
429 | #define DIF_REG_R0 0 /* %r0 is always set to zero */ | |
430 | ||
431 | /* | |
432 | * A DTrace Intermediate Format Type (DIF Type) is used to represent the types | |
433 | * of variables, function and associative array arguments, and the return type | |
434 | * for each DIF object (shown below). It contains a description of the type, | |
435 | * its size in bytes, and a module identifier. | |
436 | */ | |
437 | typedef struct dtrace_diftype { | |
438 | uint8_t dtdt_kind; /* type kind (see below) */ | |
439 | uint8_t dtdt_ckind; /* type kind in CTF */ | |
440 | uint8_t dtdt_flags; /* type flags (see below) */ | |
441 | uint8_t dtdt_pad; /* reserved for future use */ | |
442 | uint32_t dtdt_size; /* type size in bytes (unless string) */ | |
443 | } dtrace_diftype_t; | |
444 | ||
445 | #define DIF_TYPE_CTF 0 /* type is a CTF type */ | |
446 | #define DIF_TYPE_STRING 1 /* type is a D string */ | |
447 | ||
448 | #define DIF_TF_BYREF 0x1 /* type is passed by reference */ | |
449 | ||
450 | /* | |
451 | * A DTrace Intermediate Format variable record is used to describe each of the | |
452 | * variables referenced by a given DIF object. It contains an integer variable | |
453 | * identifier along with variable scope and properties, as shown below. The | |
454 | * size of this structure must be sizeof (int) aligned. | |
455 | */ | |
456 | typedef struct dtrace_difv { | |
457 | uint32_t dtdv_name; /* variable name index in dtdo_strtab */ | |
458 | uint32_t dtdv_id; /* variable reference identifier */ | |
459 | uint8_t dtdv_kind; /* variable kind (see below) */ | |
460 | uint8_t dtdv_scope; /* variable scope (see below) */ | |
461 | uint16_t dtdv_flags; /* variable flags (see below) */ | |
462 | dtrace_diftype_t dtdv_type; /* variable type (see above) */ | |
463 | } dtrace_difv_t; | |
464 | ||
465 | #define DIFV_KIND_ARRAY 0 /* variable is an array of quantities */ | |
466 | #define DIFV_KIND_SCALAR 1 /* variable is a scalar quantity */ | |
467 | ||
468 | #define DIFV_SCOPE_GLOBAL 0 /* variable has global scope */ | |
469 | #define DIFV_SCOPE_THREAD 1 /* variable has thread scope */ | |
470 | #define DIFV_SCOPE_LOCAL 2 /* variable has local scope */ | |
471 | ||
472 | #define DIFV_F_REF 0x1 /* variable is referenced by DIFO */ | |
473 | #define DIFV_F_MOD 0x2 /* variable is written by DIFO */ | |
474 | ||
475 | /* | |
476 | * DTrace Actions | |
477 | * | |
478 | * The upper byte determines the class of the action; the low bytes determines | |
479 | * the specific action within that class. The classes of actions are as | |
480 | * follows: | |
481 | * | |
482 | * [ no class ] <= May record process- or kernel-related data | |
483 | * DTRACEACT_PROC <= Only records process-related data | |
484 | * DTRACEACT_PROC_DESTRUCTIVE <= Potentially destructive to processes | |
485 | * DTRACEACT_KERNEL <= Only records kernel-related data | |
486 | * DTRACEACT_KERNEL_DESTRUCTIVE <= Potentially destructive to the kernel | |
487 | * DTRACEACT_SPECULATIVE <= Speculation-related action | |
488 | * DTRACEACT_AGGREGATION <= Aggregating action | |
489 | */ | |
490 | #define DTRACEACT_NONE 0 /* no action */ | |
491 | #define DTRACEACT_DIFEXPR 1 /* action is DIF expression */ | |
492 | #define DTRACEACT_EXIT 2 /* exit() action */ | |
493 | #define DTRACEACT_PRINTF 3 /* printf() action */ | |
494 | #define DTRACEACT_PRINTA 4 /* printa() action */ | |
495 | #define DTRACEACT_LIBACT 5 /* library-controlled action */ | |
496 | ||
497 | #if defined(__APPLE__) | |
498 | #define DTRACEACT_APPLEBINARY 50 /* Apple DT perf. tool action */ | |
499 | #endif /* __APPLE__ */ | |
500 | ||
501 | #define DTRACEACT_PROC 0x0100 | |
502 | #define DTRACEACT_USTACK (DTRACEACT_PROC + 1) | |
503 | #define DTRACEACT_JSTACK (DTRACEACT_PROC + 2) | |
504 | #define DTRACEACT_USYM (DTRACEACT_PROC + 3) | |
505 | #define DTRACEACT_UMOD (DTRACEACT_PROC + 4) | |
506 | #define DTRACEACT_UADDR (DTRACEACT_PROC + 5) | |
507 | ||
508 | #define DTRACEACT_PROC_DESTRUCTIVE 0x0200 | |
509 | #define DTRACEACT_STOP (DTRACEACT_PROC_DESTRUCTIVE + 1) | |
510 | #define DTRACEACT_RAISE (DTRACEACT_PROC_DESTRUCTIVE + 2) | |
511 | #define DTRACEACT_SYSTEM (DTRACEACT_PROC_DESTRUCTIVE + 3) | |
512 | #define DTRACEACT_FREOPEN (DTRACEACT_PROC_DESTRUCTIVE + 4) | |
513 | ||
514 | #if defined(__APPLE__) | |
515 | /* | |
516 | * Dtrace stop() will task_suspend the currently running process. | |
517 | * Dtrace pidresume(pid) will task_resume it. | |
518 | */ | |
519 | ||
520 | #define DTRACEACT_PIDRESUME (DTRACEACT_PROC_DESTRUCTIVE + 50) | |
521 | #endif /* __APPLE__ */ | |
522 | ||
523 | #define DTRACEACT_PROC_CONTROL 0x0300 | |
524 | ||
525 | #define DTRACEACT_KERNEL 0x0400 | |
526 | #define DTRACEACT_STACK (DTRACEACT_KERNEL + 1) | |
527 | #define DTRACEACT_SYM (DTRACEACT_KERNEL + 2) | |
528 | #define DTRACEACT_MOD (DTRACEACT_KERNEL + 3) | |
529 | ||
530 | #define DTRACEACT_KERNEL_DESTRUCTIVE 0x0500 | |
531 | #define DTRACEACT_BREAKPOINT (DTRACEACT_KERNEL_DESTRUCTIVE + 1) | |
532 | #define DTRACEACT_PANIC (DTRACEACT_KERNEL_DESTRUCTIVE + 2) | |
533 | #define DTRACEACT_CHILL (DTRACEACT_KERNEL_DESTRUCTIVE + 3) | |
534 | ||
535 | #define DTRACEACT_SPECULATIVE 0x0600 | |
536 | #define DTRACEACT_SPECULATE (DTRACEACT_SPECULATIVE + 1) | |
537 | #define DTRACEACT_COMMIT (DTRACEACT_SPECULATIVE + 2) | |
538 | #define DTRACEACT_DISCARD (DTRACEACT_SPECULATIVE + 3) | |
539 | ||
540 | #define DTRACEACT_CLASS(x) ((x) & 0xff00) | |
541 | ||
542 | #define DTRACEACT_ISDESTRUCTIVE(x) \ | |
543 | (DTRACEACT_CLASS(x) == DTRACEACT_PROC_DESTRUCTIVE || \ | |
544 | DTRACEACT_CLASS(x) == DTRACEACT_KERNEL_DESTRUCTIVE) | |
545 | ||
546 | #define DTRACEACT_ISSPECULATIVE(x) \ | |
547 | (DTRACEACT_CLASS(x) == DTRACEACT_SPECULATIVE) | |
548 | ||
549 | #define DTRACEACT_ISPRINTFLIKE(x) \ | |
550 | ((x) == DTRACEACT_PRINTF || (x) == DTRACEACT_PRINTA || \ | |
551 | (x) == DTRACEACT_SYSTEM || (x) == DTRACEACT_FREOPEN) | |
552 | ||
553 | /* | |
554 | * DTrace Aggregating Actions | |
555 | * | |
556 | * These are functions f(x) for which the following is true: | |
557 | * | |
558 | * f(f(x_0) U f(x_1) U ... U f(x_n)) = f(x_0 U x_1 U ... U x_n) | |
559 | * | |
560 | * where x_n is a set of arbitrary data. Aggregating actions are in their own | |
561 | * DTrace action class, DTTRACEACT_AGGREGATION. The macros provided here allow | |
562 | * for easier processing of the aggregation argument and data payload for a few | |
563 | * aggregating actions (notably: quantize(), lquantize(), and ustack()). | |
564 | */ | |
565 | #define DTRACEACT_AGGREGATION 0x0700 | |
566 | #define DTRACEAGG_COUNT (DTRACEACT_AGGREGATION + 1) | |
567 | #define DTRACEAGG_MIN (DTRACEACT_AGGREGATION + 2) | |
568 | #define DTRACEAGG_MAX (DTRACEACT_AGGREGATION + 3) | |
569 | #define DTRACEAGG_AVG (DTRACEACT_AGGREGATION + 4) | |
570 | #define DTRACEAGG_SUM (DTRACEACT_AGGREGATION + 5) | |
571 | #define DTRACEAGG_STDDEV (DTRACEACT_AGGREGATION + 6) | |
572 | #define DTRACEAGG_QUANTIZE (DTRACEACT_AGGREGATION + 7) | |
573 | #define DTRACEAGG_LQUANTIZE (DTRACEACT_AGGREGATION + 8) | |
574 | ||
575 | #define DTRACEACT_ISAGG(x) \ | |
576 | (DTRACEACT_CLASS(x) == DTRACEACT_AGGREGATION) | |
577 | ||
578 | #if !defined(__APPLE__) /* Quiet compiler warning. */ | |
579 | #define DTRACE_QUANTIZE_NBUCKETS \ | |
580 | (((sizeof (uint64_t) * NBBY) - 1) * 2 + 1) | |
581 | ||
582 | #define DTRACE_QUANTIZE_ZEROBUCKET ((sizeof (uint64_t) * NBBY) - 1) | |
583 | #else | |
584 | #define DTRACE_QUANTIZE_NBUCKETS \ | |
585 | (int)(((sizeof (uint64_t) * NBBY) - 1) * 2 + 1) | |
586 | ||
587 | #define DTRACE_QUANTIZE_ZEROBUCKET (int64_t)((sizeof (uint64_t) * NBBY) - 1) | |
588 | #endif /* __APPLE __*/ | |
589 | ||
590 | #define DTRACE_QUANTIZE_BUCKETVAL(buck) \ | |
591 | (int64_t)((buck) < DTRACE_QUANTIZE_ZEROBUCKET ? \ | |
592 | -(1LL << (DTRACE_QUANTIZE_ZEROBUCKET - 1 - (buck))) : \ | |
593 | (buck) == DTRACE_QUANTIZE_ZEROBUCKET ? 0 : \ | |
594 | 1LL << ((buck) - DTRACE_QUANTIZE_ZEROBUCKET - 1)) | |
595 | ||
596 | #define DTRACE_LQUANTIZE_STEPSHIFT 48 | |
597 | #define DTRACE_LQUANTIZE_STEPMASK ((uint64_t)UINT16_MAX << 48) | |
598 | #define DTRACE_LQUANTIZE_LEVELSHIFT 32 | |
599 | #define DTRACE_LQUANTIZE_LEVELMASK ((uint64_t)UINT16_MAX << 32) | |
600 | #define DTRACE_LQUANTIZE_BASESHIFT 0 | |
601 | #define DTRACE_LQUANTIZE_BASEMASK UINT32_MAX | |
602 | ||
603 | #define DTRACE_LQUANTIZE_STEP(x) \ | |
604 | (uint16_t)(((x) & DTRACE_LQUANTIZE_STEPMASK) >> \ | |
605 | DTRACE_LQUANTIZE_STEPSHIFT) | |
606 | ||
607 | #define DTRACE_LQUANTIZE_LEVELS(x) \ | |
608 | (uint16_t)(((x) & DTRACE_LQUANTIZE_LEVELMASK) >> \ | |
609 | DTRACE_LQUANTIZE_LEVELSHIFT) | |
610 | ||
611 | #define DTRACE_LQUANTIZE_BASE(x) \ | |
612 | (int32_t)(((x) & DTRACE_LQUANTIZE_BASEMASK) >> \ | |
613 | DTRACE_LQUANTIZE_BASESHIFT) | |
614 | ||
615 | #define DTRACE_USTACK_NFRAMES(x) (uint32_t)((x) & UINT32_MAX) | |
616 | #define DTRACE_USTACK_STRSIZE(x) (uint32_t)((x) >> 32) | |
617 | #define DTRACE_USTACK_ARG(x, y) \ | |
618 | ((((uint64_t)(y)) << 32) | ((x) & UINT32_MAX)) | |
619 | ||
620 | #if !defined(__APPLE__) | |
621 | ||
622 | #ifndef _LP64 | |
623 | #ifndef _LITTLE_ENDIAN | |
624 | #define DTRACE_PTR(type, name) uint32_t name##pad; type *name | |
625 | #else | |
626 | #define DTRACE_PTR(type, name) type *name; uint32_t name##pad | |
627 | #endif | |
628 | #else | |
629 | #define DTRACE_PTR(type, name) type *name | |
630 | #endif | |
631 | ||
632 | #else | |
633 | ||
634 | #ifndef _LP64 | |
635 | #define DTRACE_PTR(type, name) user_addr_t name | |
636 | #else | |
637 | #define DTRACE_PTR(type, name) type *name | |
638 | #endif | |
639 | ||
640 | #endif /* __APPLE__ */ | |
641 | ||
642 | /* | |
643 | * DTrace Object Format (DOF) | |
644 | * | |
645 | * DTrace programs can be persistently encoded in the DOF format so that they | |
646 | * may be embedded in other programs (for example, in an ELF file) or in the | |
647 | * dtrace driver configuration file for use in anonymous tracing. The DOF | |
648 | * format is versioned and extensible so that it can be revised and so that | |
649 | * internal data structures can be modified or extended compatibly. All DOF | |
650 | * structures use fixed-size types, so the 32-bit and 64-bit representations | |
651 | * are identical and consumers can use either data model transparently. | |
652 | * | |
653 | * The file layout is structured as follows: | |
654 | * | |
655 | * +---------------+-------------------+----- ... ----+---- ... ------+ | |
656 | * | dof_hdr_t | dof_sec_t[ ... ] | loadable | non-loadable | | |
657 | * | (file header) | (section headers) | section data | section data | | |
658 | * +---------------+-------------------+----- ... ----+---- ... ------+ | |
659 | * |<------------ dof_hdr.dofh_loadsz --------------->| | | |
660 | * |<------------ dof_hdr.dofh_filesz ------------------------------->| | |
661 | * | |
662 | * The file header stores meta-data including a magic number, data model for | |
663 | * the instrumentation, data encoding, and properties of the DIF code within. | |
664 | * The header describes its own size and the size of the section headers. By | |
665 | * convention, an array of section headers follows the file header, and then | |
666 | * the data for all loadable sections and unloadable sections. This permits | |
667 | * consumer code to easily download the headers and all loadable data into the | |
668 | * DTrace driver in one contiguous chunk, omitting other extraneous sections. | |
669 | * | |
670 | * The section headers describe the size, offset, alignment, and section type | |
671 | * for each section. Sections are described using a set of #defines that tell | |
672 | * the consumer what kind of data is expected. Sections can contain links to | |
673 | * other sections by storing a dof_secidx_t, an index into the section header | |
674 | * array, inside of the section data structures. The section header includes | |
675 | * an entry size so that sections with data arrays can grow their structures. | |
676 | * | |
677 | * The DOF data itself can contain many snippets of DIF (i.e. >1 DIFOs), which | |
678 | * are represented themselves as a collection of related DOF sections. This | |
679 | * permits us to change the set of sections associated with a DIFO over time, | |
680 | * and also permits us to encode DIFOs that contain different sets of sections. | |
681 | * When a DOF section wants to refer to a DIFO, it stores the dof_secidx_t of a | |
682 | * section of type DOF_SECT_DIFOHDR. This section's data is then an array of | |
683 | * dof_secidx_t's which in turn denote the sections associated with this DIFO. | |
684 | * | |
685 | * This loose coupling of the file structure (header and sections) to the | |
686 | * structure of the DTrace program itself (ECB descriptions, action | |
687 | * descriptions, and DIFOs) permits activities such as relocation processing | |
688 | * to occur in a single pass without having to understand D program structure. | |
689 | * | |
690 | * Finally, strings are always stored in ELF-style string tables along with a | |
691 | * string table section index and string table offset. Therefore strings in | |
692 | * DOF are always arbitrary-length and not bound to the current implementation. | |
693 | */ | |
694 | ||
695 | #define DOF_ID_SIZE 16 /* total size of dofh_ident[] in bytes */ | |
696 | ||
697 | typedef struct dof_hdr { | |
698 | uint8_t dofh_ident[DOF_ID_SIZE]; /* identification bytes (see below) */ | |
699 | uint32_t dofh_flags; /* file attribute flags (if any) */ | |
700 | uint32_t dofh_hdrsize; /* size of file header in bytes */ | |
701 | uint32_t dofh_secsize; /* size of section header in bytes */ | |
702 | uint32_t dofh_secnum; /* number of section headers */ | |
703 | uint64_t dofh_secoff; /* file offset of section headers */ | |
704 | uint64_t dofh_loadsz; /* file size of loadable portion */ | |
705 | uint64_t dofh_filesz; /* file size of entire DOF file */ | |
706 | uint64_t dofh_pad; /* reserved for future use */ | |
707 | } dof_hdr_t; | |
708 | ||
709 | #define DOF_ID_MAG0 0 /* first byte of magic number */ | |
710 | #define DOF_ID_MAG1 1 /* second byte of magic number */ | |
711 | #define DOF_ID_MAG2 2 /* third byte of magic number */ | |
712 | #define DOF_ID_MAG3 3 /* fourth byte of magic number */ | |
713 | #define DOF_ID_MODEL 4 /* DOF data model (see below) */ | |
714 | #define DOF_ID_ENCODING 5 /* DOF data encoding (see below) */ | |
715 | #define DOF_ID_VERSION 6 /* DOF file format major version (see below) */ | |
716 | #define DOF_ID_DIFVERS 7 /* DIF instruction set version */ | |
717 | #define DOF_ID_DIFIREG 8 /* DIF integer registers used by compiler */ | |
718 | #define DOF_ID_DIFTREG 9 /* DIF tuple registers used by compiler */ | |
719 | #define DOF_ID_PAD 10 /* start of padding bytes (all zeroes) */ | |
720 | ||
721 | #define DOF_MAG_MAG0 0x7F /* DOF_ID_MAG[0-3] */ | |
722 | #define DOF_MAG_MAG1 'D' | |
723 | #define DOF_MAG_MAG2 'O' | |
724 | #define DOF_MAG_MAG3 'F' | |
725 | ||
726 | #define DOF_MAG_STRING "\177DOF" | |
727 | #define DOF_MAG_STRLEN 4 | |
728 | ||
729 | #define DOF_MODEL_NONE 0 /* DOF_ID_MODEL */ | |
730 | #define DOF_MODEL_ILP32 1 | |
731 | #define DOF_MODEL_LP64 2 | |
732 | ||
733 | #ifdef _LP64 | |
734 | #define DOF_MODEL_NATIVE DOF_MODEL_LP64 | |
735 | #else | |
736 | #define DOF_MODEL_NATIVE DOF_MODEL_ILP32 | |
737 | #endif | |
738 | ||
739 | #define DOF_ENCODE_NONE 0 /* DOF_ID_ENCODING */ | |
740 | #define DOF_ENCODE_LSB 1 | |
741 | #define DOF_ENCODE_MSB 2 | |
742 | ||
743 | #ifdef _BIG_ENDIAN | |
744 | #define DOF_ENCODE_NATIVE DOF_ENCODE_MSB | |
745 | #else | |
746 | #define DOF_ENCODE_NATIVE DOF_ENCODE_LSB | |
747 | #endif | |
748 | ||
749 | #define DOF_VERSION_1 1 /* DOF version 1: Solaris 10 FCS */ | |
750 | #define DOF_VERSION_2 2 /* DOF version 2: Solaris Express 6/06 */ | |
751 | #if !defined(__APPLE__) | |
752 | #define DOF_VERSION DOF_VERSION_2 /* Latest DOF version */ | |
753 | #else | |
754 | #define DOF_VERSION_3 3 /* DOF version 3: Minimum version for Leopard */ | |
755 | #define DOF_VERSION DOF_VERSION_3 /* Latest DOF version */ | |
756 | #endif /* __APPLE__ */ | |
757 | ||
758 | #define DOF_FL_VALID 0 /* mask of all valid dofh_flags bits */ | |
759 | ||
760 | typedef uint32_t dof_secidx_t; /* section header table index type */ | |
761 | typedef uint32_t dof_stridx_t; /* string table index type */ | |
762 | ||
763 | #define DOF_SECIDX_NONE (-1U) /* null value for section indices */ | |
764 | #define DOF_STRIDX_NONE (-1U) /* null value for string indices */ | |
765 | ||
766 | typedef struct dof_sec { | |
767 | uint32_t dofs_type; /* section type (see below) */ | |
768 | uint32_t dofs_align; /* section data memory alignment */ | |
769 | uint32_t dofs_flags; /* section flags (if any) */ | |
770 | uint32_t dofs_entsize; /* size of section entry (if table) */ | |
771 | uint64_t dofs_offset; /* offset of section data within file */ | |
772 | uint64_t dofs_size; /* size of section data in bytes */ | |
773 | } dof_sec_t; | |
774 | ||
775 | #define DOF_SECT_NONE 0 /* null section */ | |
776 | #define DOF_SECT_COMMENTS 1 /* compiler comments */ | |
777 | #define DOF_SECT_SOURCE 2 /* D program source code */ | |
778 | #define DOF_SECT_ECBDESC 3 /* dof_ecbdesc_t */ | |
779 | #define DOF_SECT_PROBEDESC 4 /* dof_probedesc_t */ | |
780 | #define DOF_SECT_ACTDESC 5 /* dof_actdesc_t array */ | |
781 | #define DOF_SECT_DIFOHDR 6 /* dof_difohdr_t (variable length) */ | |
782 | #define DOF_SECT_DIF 7 /* uint32_t array of byte code */ | |
783 | #define DOF_SECT_STRTAB 8 /* string table */ | |
784 | #define DOF_SECT_VARTAB 9 /* dtrace_difv_t array */ | |
785 | #define DOF_SECT_RELTAB 10 /* dof_relodesc_t array */ | |
786 | #define DOF_SECT_TYPTAB 11 /* dtrace_diftype_t array */ | |
787 | #define DOF_SECT_URELHDR 12 /* dof_relohdr_t (user relocations) */ | |
788 | #define DOF_SECT_KRELHDR 13 /* dof_relohdr_t (kernel relocations) */ | |
789 | #define DOF_SECT_OPTDESC 14 /* dof_optdesc_t array */ | |
790 | #define DOF_SECT_PROVIDER 15 /* dof_provider_t */ | |
791 | #define DOF_SECT_PROBES 16 /* dof_probe_t array */ | |
792 | #define DOF_SECT_PRARGS 17 /* uint8_t array (probe arg mappings) */ | |
793 | #define DOF_SECT_PROFFS 18 /* uint32_t array (probe arg offsets) */ | |
794 | #define DOF_SECT_INTTAB 19 /* uint64_t array */ | |
795 | #define DOF_SECT_UTSNAME 20 /* struct utsname */ | |
796 | #define DOF_SECT_XLTAB 21 /* dof_xlref_t array */ | |
797 | #define DOF_SECT_XLMEMBERS 22 /* dof_xlmember_t array */ | |
798 | #define DOF_SECT_XLIMPORT 23 /* dof_xlator_t */ | |
799 | #define DOF_SECT_XLEXPORT 24 /* dof_xlator_t */ | |
800 | #define DOF_SECT_PREXPORT 25 /* dof_secidx_t array (exported objs) */ | |
801 | #define DOF_SECT_PRENOFFS 26 /* uint32_t array (enabled offsets) */ | |
802 | ||
803 | #define DOF_SECF_LOAD 1 /* section should be loaded */ | |
804 | ||
805 | typedef struct dof_ecbdesc { | |
806 | dof_secidx_t dofe_probes; /* link to DOF_SECT_PROBEDESC */ | |
807 | dof_secidx_t dofe_pred; /* link to DOF_SECT_DIFOHDR */ | |
808 | dof_secidx_t dofe_actions; /* link to DOF_SECT_ACTDESC */ | |
809 | uint32_t dofe_pad; /* reserved for future use */ | |
810 | uint64_t dofe_uarg; /* user-supplied library argument */ | |
811 | } dof_ecbdesc_t; | |
812 | ||
813 | typedef struct dof_probedesc { | |
814 | dof_secidx_t dofp_strtab; /* link to DOF_SECT_STRTAB section */ | |
815 | dof_stridx_t dofp_provider; /* provider string */ | |
816 | dof_stridx_t dofp_mod; /* module string */ | |
817 | dof_stridx_t dofp_func; /* function string */ | |
818 | dof_stridx_t dofp_name; /* name string */ | |
819 | uint32_t dofp_id; /* probe identifier (or zero) */ | |
820 | } dof_probedesc_t; | |
821 | ||
822 | typedef struct dof_actdesc { | |
823 | dof_secidx_t dofa_difo; /* link to DOF_SECT_DIFOHDR */ | |
824 | dof_secidx_t dofa_strtab; /* link to DOF_SECT_STRTAB section */ | |
825 | uint32_t dofa_kind; /* action kind (DTRACEACT_* constant) */ | |
826 | uint32_t dofa_ntuple; /* number of subsequent tuple actions */ | |
827 | uint64_t dofa_arg; /* kind-specific argument */ | |
828 | uint64_t dofa_uarg; /* user-supplied argument */ | |
829 | } dof_actdesc_t; | |
830 | ||
831 | typedef struct dof_difohdr { | |
832 | dtrace_diftype_t dofd_rtype; /* return type for this fragment */ | |
833 | dof_secidx_t dofd_links[1]; /* variable length array of indices */ | |
834 | } dof_difohdr_t; | |
835 | ||
836 | typedef struct dof_relohdr { | |
837 | dof_secidx_t dofr_strtab; /* link to DOF_SECT_STRTAB for names */ | |
838 | dof_secidx_t dofr_relsec; /* link to DOF_SECT_RELTAB for relos */ | |
839 | dof_secidx_t dofr_tgtsec; /* link to section we are relocating */ | |
840 | } dof_relohdr_t; | |
841 | ||
842 | typedef struct dof_relodesc { | |
843 | dof_stridx_t dofr_name; /* string name of relocation symbol */ | |
844 | uint32_t dofr_type; /* relo type (DOF_RELO_* constant) */ | |
845 | uint64_t dofr_offset; /* byte offset for relocation */ | |
846 | uint64_t dofr_data; /* additional type-specific data */ | |
847 | } dof_relodesc_t; | |
848 | ||
849 | #define DOF_RELO_NONE 0 /* empty relocation entry */ | |
850 | #define DOF_RELO_SETX 1 /* relocate setx value */ | |
851 | ||
852 | typedef struct dof_optdesc { | |
853 | uint32_t dofo_option; /* option identifier */ | |
854 | dof_secidx_t dofo_strtab; /* string table, if string option */ | |
855 | uint64_t dofo_value; /* option value or string index */ | |
856 | } dof_optdesc_t; | |
857 | ||
858 | typedef uint32_t dof_attr_t; /* encoded stability attributes */ | |
859 | ||
860 | #define DOF_ATTR(n, d, c) (((n) << 24) | ((d) << 16) | ((c) << 8)) | |
861 | #define DOF_ATTR_NAME(a) (((a) >> 24) & 0xff) | |
862 | #define DOF_ATTR_DATA(a) (((a) >> 16) & 0xff) | |
863 | #define DOF_ATTR_CLASS(a) (((a) >> 8) & 0xff) | |
864 | ||
865 | typedef struct dof_provider { | |
866 | dof_secidx_t dofpv_strtab; /* link to DOF_SECT_STRTAB section */ | |
867 | dof_secidx_t dofpv_probes; /* link to DOF_SECT_PROBES section */ | |
868 | dof_secidx_t dofpv_prargs; /* link to DOF_SECT_PRARGS section */ | |
869 | dof_secidx_t dofpv_proffs; /* link to DOF_SECT_PROFFS section */ | |
870 | dof_stridx_t dofpv_name; /* provider name string */ | |
871 | dof_attr_t dofpv_provattr; /* provider attributes */ | |
872 | dof_attr_t dofpv_modattr; /* module attributes */ | |
873 | dof_attr_t dofpv_funcattr; /* function attributes */ | |
874 | dof_attr_t dofpv_nameattr; /* name attributes */ | |
875 | dof_attr_t dofpv_argsattr; /* args attributes */ | |
876 | dof_secidx_t dofpv_prenoffs; /* link to DOF_SECT_PRENOFFS section */ | |
877 | } dof_provider_t; | |
878 | ||
879 | typedef struct dof_probe { | |
880 | uint64_t dofpr_addr; /* probe base address or offset */ | |
881 | dof_stridx_t dofpr_func; /* probe function string */ | |
882 | dof_stridx_t dofpr_name; /* probe name string */ | |
883 | dof_stridx_t dofpr_nargv; /* native argument type strings */ | |
884 | dof_stridx_t dofpr_xargv; /* translated argument type strings */ | |
885 | uint32_t dofpr_argidx; /* index of first argument mapping */ | |
886 | uint32_t dofpr_offidx; /* index of first offset entry */ | |
887 | uint8_t dofpr_nargc; /* native argument count */ | |
888 | uint8_t dofpr_xargc; /* translated argument count */ | |
889 | uint16_t dofpr_noffs; /* number of offset entries for probe */ | |
890 | uint32_t dofpr_enoffidx; /* index of first is-enabled offset */ | |
891 | uint16_t dofpr_nenoffs; /* number of is-enabled offsets */ | |
892 | uint16_t dofpr_pad1; /* reserved for future use */ | |
893 | uint32_t dofpr_pad2; /* reserved for future use */ | |
894 | } dof_probe_t; | |
895 | ||
896 | typedef struct dof_xlator { | |
897 | dof_secidx_t dofxl_members; /* link to DOF_SECT_XLMEMBERS section */ | |
898 | dof_secidx_t dofxl_strtab; /* link to DOF_SECT_STRTAB section */ | |
899 | dof_stridx_t dofxl_argv; /* input parameter type strings */ | |
900 | uint32_t dofxl_argc; /* input parameter list length */ | |
901 | dof_stridx_t dofxl_type; /* output type string name */ | |
902 | dof_attr_t dofxl_attr; /* output stability attributes */ | |
903 | } dof_xlator_t; | |
904 | ||
905 | typedef struct dof_xlmember { | |
906 | dof_secidx_t dofxm_difo; /* member link to DOF_SECT_DIFOHDR */ | |
907 | dof_stridx_t dofxm_name; /* member name */ | |
908 | dtrace_diftype_t dofxm_type; /* member type */ | |
909 | } dof_xlmember_t; | |
910 | ||
911 | typedef struct dof_xlref { | |
912 | dof_secidx_t dofxr_xlator; /* link to DOF_SECT_XLATORS section */ | |
913 | uint32_t dofxr_member; /* index of referenced dof_xlmember */ | |
914 | uint32_t dofxr_argn; /* index of argument for DIF_OP_XLARG */ | |
915 | } dof_xlref_t; | |
916 | ||
917 | /* | |
918 | * DTrace Intermediate Format Object (DIFO) | |
919 | * | |
920 | * A DIFO is used to store the compiled DIF for a D expression, its return | |
921 | * type, and its string and variable tables. The string table is a single | |
922 | * buffer of character data into which sets instructions and variable | |
923 | * references can reference strings using a byte offset. The variable table | |
924 | * is an array of dtrace_difv_t structures that describe the name and type of | |
925 | * each variable and the id used in the DIF code. This structure is described | |
926 | * above in the DIF section of this header file. The DIFO is used at both | |
927 | * user-level (in the library) and in the kernel, but the structure is never | |
928 | * passed between the two: the DOF structures form the only interface. As a | |
929 | * result, the definition can change depending on the presence of _KERNEL. | |
930 | */ | |
931 | typedef struct dtrace_difo { | |
932 | dif_instr_t *dtdo_buf; /* instruction buffer */ | |
933 | uint64_t *dtdo_inttab; /* integer table (optional) */ | |
934 | char *dtdo_strtab; /* string table (optional) */ | |
935 | dtrace_difv_t *dtdo_vartab; /* variable table (optional) */ | |
936 | uint_t dtdo_len; /* length of instruction buffer */ | |
937 | uint_t dtdo_intlen; /* length of integer table */ | |
938 | uint_t dtdo_strlen; /* length of string table */ | |
939 | uint_t dtdo_varlen; /* length of variable table */ | |
940 | dtrace_diftype_t dtdo_rtype; /* return type */ | |
941 | uint_t dtdo_refcnt; /* owner reference count */ | |
942 | uint_t dtdo_destructive; /* invokes destructive subroutines */ | |
943 | #ifndef _KERNEL | |
944 | dof_relodesc_t *dtdo_kreltab; /* kernel relocations */ | |
945 | dof_relodesc_t *dtdo_ureltab; /* user relocations */ | |
946 | struct dt_node **dtdo_xlmtab; /* translator references */ | |
947 | uint_t dtdo_krelen; /* length of krelo table */ | |
948 | uint_t dtdo_urelen; /* length of urelo table */ | |
949 | uint_t dtdo_xlmlen; /* length of translator table */ | |
950 | #endif | |
951 | } dtrace_difo_t; | |
952 | ||
953 | /* | |
954 | * DTrace Enabling Description Structures | |
955 | * | |
956 | * When DTrace is tracking the description of a DTrace enabling entity (probe, | |
957 | * predicate, action, ECB, record, etc.), it does so in a description | |
958 | * structure. These structures all end in "desc", and are used at both | |
959 | * user-level and in the kernel -- but (with the exception of | |
960 | * dtrace_probedesc_t) they are never passed between them. Typically, | |
961 | * user-level will use the description structures when assembling an enabling. | |
962 | * It will then distill those description structures into a DOF object (see | |
963 | * above), and send it into the kernel. The kernel will again use the | |
964 | * description structures to create a description of the enabling as it reads | |
965 | * the DOF. When the description is complete, the enabling will be actually | |
966 | * created -- turning it into the structures that represent the enabling | |
967 | * instead of merely describing it. Not surprisingly, the description | |
968 | * structures bear a strong resemblance to the DOF structures that act as their | |
969 | * conduit. | |
970 | */ | |
971 | struct dtrace_predicate; | |
972 | ||
973 | typedef struct dtrace_probedesc { | |
974 | dtrace_id_t dtpd_id; /* probe identifier */ | |
975 | char dtpd_provider[DTRACE_PROVNAMELEN]; /* probe provider name */ | |
976 | char dtpd_mod[DTRACE_MODNAMELEN]; /* probe module name */ | |
977 | char dtpd_func[DTRACE_FUNCNAMELEN]; /* probe function name */ | |
978 | char dtpd_name[DTRACE_NAMELEN]; /* probe name */ | |
979 | } dtrace_probedesc_t; | |
980 | ||
981 | typedef struct dtrace_repldesc { | |
982 | dtrace_probedesc_t dtrpd_match; /* probe descr. to match */ | |
983 | dtrace_probedesc_t dtrpd_create; /* probe descr. to create */ | |
984 | } dtrace_repldesc_t; | |
985 | ||
986 | typedef struct dtrace_preddesc { | |
987 | dtrace_difo_t *dtpdd_difo; /* pointer to DIF object */ | |
988 | struct dtrace_predicate *dtpdd_predicate; /* pointer to predicate */ | |
989 | } dtrace_preddesc_t; | |
990 | ||
991 | typedef struct dtrace_actdesc { | |
992 | dtrace_difo_t *dtad_difo; /* pointer to DIF object */ | |
993 | struct dtrace_actdesc *dtad_next; /* next action */ | |
994 | dtrace_actkind_t dtad_kind; /* kind of action */ | |
995 | uint32_t dtad_ntuple; /* number in tuple */ | |
996 | uint64_t dtad_arg; /* action argument */ | |
997 | uint64_t dtad_uarg; /* user argument */ | |
998 | int dtad_refcnt; /* reference count */ | |
999 | } dtrace_actdesc_t; | |
1000 | ||
1001 | typedef struct dtrace_ecbdesc { | |
1002 | dtrace_actdesc_t *dted_action; /* action description(s) */ | |
1003 | dtrace_preddesc_t dted_pred; /* predicate description */ | |
1004 | dtrace_probedesc_t dted_probe; /* probe description */ | |
1005 | uint64_t dted_uarg; /* library argument */ | |
1006 | int dted_refcnt; /* reference count */ | |
1007 | } dtrace_ecbdesc_t; | |
1008 | ||
1009 | /* | |
1010 | * DTrace Metadata Description Structures | |
1011 | * | |
1012 | * DTrace separates the trace data stream from the metadata stream. The only | |
1013 | * metadata tokens placed in the data stream are enabled probe identifiers | |
1014 | * (EPIDs) or (in the case of aggregations) aggregation identifiers. In order | |
1015 | * to determine the structure of the data, DTrace consumers pass the token to | |
1016 | * the kernel, and receive in return a corresponding description of the enabled | |
1017 | * probe (via the dtrace_eprobedesc structure) or the aggregation (via the | |
1018 | * dtrace_aggdesc structure). Both of these structures are expressed in terms | |
1019 | * of record descriptions (via the dtrace_recdesc structure) that describe the | |
1020 | * exact structure of the data. Some record descriptions may also contain a | |
1021 | * format identifier; this additional bit of metadata can be retrieved from the | |
1022 | * kernel, for which a format description is returned via the dtrace_fmtdesc | |
1023 | * structure. Note that all four of these structures must be bitness-neutral | |
1024 | * to allow for a 32-bit DTrace consumer on a 64-bit kernel. | |
1025 | */ | |
1026 | typedef struct dtrace_recdesc { | |
1027 | dtrace_actkind_t dtrd_action; /* kind of action */ | |
1028 | uint32_t dtrd_size; /* size of record */ | |
1029 | uint32_t dtrd_offset; /* offset in ECB's data */ | |
1030 | uint16_t dtrd_alignment; /* required alignment */ | |
1031 | uint16_t dtrd_format; /* format, if any */ | |
1032 | uint64_t dtrd_arg; /* action argument */ | |
1033 | uint64_t dtrd_uarg; /* user argument */ | |
1034 | } dtrace_recdesc_t; | |
1035 | ||
1036 | typedef struct dtrace_eprobedesc { | |
1037 | dtrace_epid_t dtepd_epid; /* enabled probe ID */ | |
1038 | dtrace_id_t dtepd_probeid; /* probe ID */ | |
1039 | uint64_t dtepd_uarg; /* library argument */ | |
1040 | uint32_t dtepd_size; /* total size */ | |
1041 | int dtepd_nrecs; /* number of records */ | |
1042 | dtrace_recdesc_t dtepd_rec[1]; /* records themselves */ | |
1043 | } dtrace_eprobedesc_t; | |
1044 | ||
1045 | typedef struct dtrace_aggdesc { | |
1046 | DTRACE_PTR(char, dtagd_name); /* not filled in by kernel */ | |
1047 | dtrace_aggvarid_t dtagd_varid; /* not filled in by kernel */ | |
1048 | int dtagd_flags; /* not filled in by kernel */ | |
1049 | dtrace_aggid_t dtagd_id; /* aggregation ID */ | |
1050 | dtrace_epid_t dtagd_epid; /* enabled probe ID */ | |
1051 | uint32_t dtagd_size; /* size in bytes */ | |
1052 | int dtagd_nrecs; /* number of records */ | |
1053 | uint32_t dtagd_pad; /* explicit padding */ | |
1054 | dtrace_recdesc_t dtagd_rec[1]; /* record descriptions */ | |
1055 | } dtrace_aggdesc_t; | |
1056 | ||
1057 | typedef struct dtrace_fmtdesc { | |
1058 | DTRACE_PTR(char, dtfd_string); /* format string */ | |
1059 | int dtfd_length; /* length of format string */ | |
1060 | uint16_t dtfd_format; /* format identifier */ | |
1061 | } dtrace_fmtdesc_t; | |
1062 | ||
1063 | #define DTRACE_SIZEOF_EPROBEDESC(desc) \ | |
1064 | (sizeof (dtrace_eprobedesc_t) + ((desc)->dtepd_nrecs ? \ | |
1065 | (((desc)->dtepd_nrecs - 1) * sizeof (dtrace_recdesc_t)) : 0)) | |
1066 | ||
1067 | #define DTRACE_SIZEOF_AGGDESC(desc) \ | |
1068 | (sizeof (dtrace_aggdesc_t) + ((desc)->dtagd_nrecs ? \ | |
1069 | (((desc)->dtagd_nrecs - 1) * sizeof (dtrace_recdesc_t)) : 0)) | |
1070 | ||
1071 | /* | |
1072 | * DTrace Option Interface | |
1073 | * | |
1074 | * Run-time DTrace options are set and retrieved via DOF_SECT_OPTDESC sections | |
1075 | * in a DOF image. The dof_optdesc structure contains an option identifier and | |
1076 | * an option value. The valid option identifiers are found below; the mapping | |
1077 | * between option identifiers and option identifying strings is maintained at | |
1078 | * user-level. Note that the value of DTRACEOPT_UNSET is such that all of the | |
1079 | * following are potentially valid option values: all positive integers, zero | |
1080 | * and negative one. Some options (notably "bufpolicy" and "bufresize") take | |
1081 | * predefined tokens as their values; these are defined with | |
1082 | * DTRACEOPT_{option}_{token}. | |
1083 | */ | |
1084 | #define DTRACEOPT_BUFSIZE 0 /* buffer size */ | |
1085 | #define DTRACEOPT_BUFPOLICY 1 /* buffer policy */ | |
1086 | #define DTRACEOPT_DYNVARSIZE 2 /* dynamic variable size */ | |
1087 | #define DTRACEOPT_AGGSIZE 3 /* aggregation size */ | |
1088 | #define DTRACEOPT_SPECSIZE 4 /* speculation size */ | |
1089 | #define DTRACEOPT_NSPEC 5 /* number of speculations */ | |
1090 | #define DTRACEOPT_STRSIZE 6 /* string size */ | |
1091 | #define DTRACEOPT_CLEANRATE 7 /* dynvar cleaning rate */ | |
1092 | #define DTRACEOPT_CPU 8 /* CPU to trace */ | |
1093 | #define DTRACEOPT_BUFRESIZE 9 /* buffer resizing policy */ | |
1094 | #define DTRACEOPT_GRABANON 10 /* grab anonymous state, if any */ | |
1095 | #define DTRACEOPT_FLOWINDENT 11 /* indent function entry/return */ | |
1096 | #define DTRACEOPT_QUIET 12 /* only output explicitly traced data */ | |
1097 | #define DTRACEOPT_STACKFRAMES 13 /* number of stack frames */ | |
1098 | #define DTRACEOPT_USTACKFRAMES 14 /* number of user stack frames */ | |
1099 | #define DTRACEOPT_AGGRATE 15 /* aggregation snapshot rate */ | |
1100 | #define DTRACEOPT_SWITCHRATE 16 /* buffer switching rate */ | |
1101 | #define DTRACEOPT_STATUSRATE 17 /* status rate */ | |
1102 | #define DTRACEOPT_DESTRUCTIVE 18 /* destructive actions allowed */ | |
1103 | #define DTRACEOPT_STACKINDENT 19 /* output indent for stack traces */ | |
1104 | #define DTRACEOPT_RAWBYTES 20 /* always print bytes in raw form */ | |
1105 | #define DTRACEOPT_JSTACKFRAMES 21 /* number of jstack() frames */ | |
1106 | #define DTRACEOPT_JSTACKSTRSIZE 22 /* size of jstack() string table */ | |
1107 | #define DTRACEOPT_AGGSORTKEY 23 /* sort aggregations by key */ | |
1108 | #define DTRACEOPT_AGGSORTREV 24 /* reverse-sort aggregations */ | |
1109 | #define DTRACEOPT_AGGSORTPOS 25 /* agg. position to sort on */ | |
1110 | #define DTRACEOPT_AGGSORTKEYPOS 26 /* agg. key position to sort on */ | |
1111 | #if !defined(__APPLE__) | |
1112 | #define DTRACEOPT_MAX 27 /* number of options */ | |
1113 | #else | |
1114 | #define DTRACEOPT_STACKSYMBOLS 27 /* clear to prevent stack symbolication */ | |
1115 | #define DTRACEOPT_MAX 28 /* number of options */ | |
1116 | #endif /* __APPLE__ */ | |
1117 | ||
1118 | #define DTRACEOPT_UNSET (dtrace_optval_t)-2 /* unset option */ | |
1119 | ||
1120 | #define DTRACEOPT_BUFPOLICY_RING 0 /* ring buffer */ | |
1121 | #define DTRACEOPT_BUFPOLICY_FILL 1 /* fill buffer, then stop */ | |
1122 | #define DTRACEOPT_BUFPOLICY_SWITCH 2 /* switch buffers */ | |
1123 | ||
1124 | #define DTRACEOPT_BUFRESIZE_AUTO 0 /* automatic resizing */ | |
1125 | #define DTRACEOPT_BUFRESIZE_MANUAL 1 /* manual resizing */ | |
1126 | ||
1127 | /* | |
1128 | * DTrace Buffer Interface | |
1129 | * | |
1130 | * In order to get a snapshot of the principal or aggregation buffer, | |
1131 | * user-level passes a buffer description to the kernel with the dtrace_bufdesc | |
1132 | * structure. This describes which CPU user-level is interested in, and | |
1133 | * where user-level wishes the kernel to snapshot the buffer to (the | |
1134 | * dtbd_data field). The kernel uses the same structure to pass back some | |
1135 | * information regarding the buffer: the size of data actually copied out, the | |
1136 | * number of drops, the number of errors, and the offset of the oldest record. | |
1137 | * If the buffer policy is a "switch" policy, taking a snapshot of the | |
1138 | * principal buffer has the additional effect of switching the active and | |
1139 | * inactive buffers. Taking a snapshot of the aggregation buffer _always_ has | |
1140 | * the additional effect of switching the active and inactive buffers. | |
1141 | */ | |
1142 | typedef struct dtrace_bufdesc { | |
1143 | uint64_t dtbd_size; /* size of buffer */ | |
1144 | uint32_t dtbd_cpu; /* CPU or DTRACE_CPUALL */ | |
1145 | uint32_t dtbd_errors; /* number of errors */ | |
1146 | uint64_t dtbd_drops; /* number of drops */ | |
1147 | DTRACE_PTR(char, dtbd_data); /* data */ | |
1148 | uint64_t dtbd_oldest; /* offset of oldest record */ | |
1149 | } dtrace_bufdesc_t; | |
1150 | ||
1151 | /* | |
1152 | * DTrace Status | |
1153 | * | |
1154 | * The status of DTrace is relayed via the dtrace_status structure. This | |
1155 | * structure contains members to count drops other than the capacity drops | |
1156 | * available via the buffer interface (see above). This consists of dynamic | |
1157 | * drops (including capacity dynamic drops, rinsing drops and dirty drops), and | |
1158 | * speculative drops (including capacity speculative drops, drops due to busy | |
1159 | * speculative buffers and drops due to unavailable speculative buffers). | |
1160 | * Additionally, the status structure contains a field to indicate the number | |
1161 | * of "fill"-policy buffers have been filled and a boolean field to indicate | |
1162 | * that exit() has been called. If the dtst_exiting field is non-zero, no | |
1163 | * further data will be generated until tracing is stopped (at which time any | |
1164 | * enablings of the END action will be processed); if user-level sees that | |
1165 | * this field is non-zero, tracing should be stopped as soon as possible. | |
1166 | */ | |
1167 | typedef struct dtrace_status { | |
1168 | uint64_t dtst_dyndrops; /* dynamic drops */ | |
1169 | uint64_t dtst_dyndrops_rinsing; /* dyn drops due to rinsing */ | |
1170 | uint64_t dtst_dyndrops_dirty; /* dyn drops due to dirty */ | |
1171 | uint64_t dtst_specdrops; /* speculative drops */ | |
1172 | uint64_t dtst_specdrops_busy; /* spec drops due to busy */ | |
1173 | uint64_t dtst_specdrops_unavail; /* spec drops due to unavail */ | |
1174 | uint64_t dtst_errors; /* total errors */ | |
1175 | uint64_t dtst_filled; /* number of filled bufs */ | |
1176 | uint64_t dtst_stkstroverflows; /* stack string tab overflows */ | |
1177 | uint64_t dtst_dblerrors; /* errors in ERROR probes */ | |
1178 | char dtst_killed; /* non-zero if killed */ | |
1179 | char dtst_exiting; /* non-zero if exit() called */ | |
1180 | char dtst_pad[6]; /* pad out to 64-bit align */ | |
1181 | } dtrace_status_t; | |
1182 | ||
1183 | /* | |
1184 | * DTrace Configuration | |
1185 | * | |
1186 | * User-level may need to understand some elements of the kernel DTrace | |
1187 | * configuration in order to generate correct DIF. This information is | |
1188 | * conveyed via the dtrace_conf structure. | |
1189 | */ | |
1190 | typedef struct dtrace_conf { | |
1191 | uint_t dtc_difversion; /* supported DIF version */ | |
1192 | uint_t dtc_difintregs; /* # of DIF integer registers */ | |
1193 | uint_t dtc_diftupregs; /* # of DIF tuple registers */ | |
1194 | uint_t dtc_ctfmodel; /* CTF data model */ | |
1195 | uint_t dtc_pad[8]; /* reserved for future use */ | |
1196 | } dtrace_conf_t; | |
1197 | ||
1198 | /* | |
1199 | * DTrace Faults | |
1200 | * | |
1201 | * The constants below DTRACEFLT_LIBRARY indicate probe processing faults; | |
1202 | * constants at or above DTRACEFLT_LIBRARY indicate faults in probe | |
1203 | * postprocessing at user-level. Probe processing faults induce an ERROR | |
1204 | * probe and are replicated in unistd.d to allow users' ERROR probes to decode | |
1205 | * the error condition using thse symbolic labels. | |
1206 | */ | |
1207 | #define DTRACEFLT_UNKNOWN 0 /* Unknown fault */ | |
1208 | #define DTRACEFLT_BADADDR 1 /* Bad address */ | |
1209 | #define DTRACEFLT_BADALIGN 2 /* Bad alignment */ | |
1210 | #define DTRACEFLT_ILLOP 3 /* Illegal operation */ | |
1211 | #define DTRACEFLT_DIVZERO 4 /* Divide-by-zero */ | |
1212 | #define DTRACEFLT_NOSCRATCH 5 /* Out of scratch space */ | |
1213 | #define DTRACEFLT_KPRIV 6 /* Illegal kernel access */ | |
1214 | #define DTRACEFLT_UPRIV 7 /* Illegal user access */ | |
1215 | #define DTRACEFLT_TUPOFLOW 8 /* Tuple stack overflow */ | |
1216 | #define DTRACEFLT_BADSTACK 9 /* Bad stack */ | |
1217 | ||
1218 | #define DTRACEFLT_LIBRARY 1000 /* Library-level fault */ | |
1219 | ||
1220 | /* | |
1221 | * DTrace Argument Types | |
1222 | * | |
1223 | * Because it would waste both space and time, argument types do not reside | |
1224 | * with the probe. In order to determine argument types for args[X] | |
1225 | * variables, the D compiler queries for argument types on a probe-by-probe | |
1226 | * basis. (This optimizes for the common case that arguments are either not | |
1227 | * used or used in an untyped fashion.) Typed arguments are specified with a | |
1228 | * string of the type name in the dtragd_native member of the argument | |
1229 | * description structure. Typed arguments may be further translated to types | |
1230 | * of greater stability; the provider indicates such a translated argument by | |
1231 | * filling in the dtargd_xlate member with the string of the translated type. | |
1232 | * Finally, the provider may indicate which argument value a given argument | |
1233 | * maps to by setting the dtargd_mapping member -- allowing a single argument | |
1234 | * to map to multiple args[X] variables. | |
1235 | */ | |
1236 | typedef struct dtrace_argdesc { | |
1237 | dtrace_id_t dtargd_id; /* probe identifier */ | |
1238 | int dtargd_ndx; /* arg number (-1 iff none) */ | |
1239 | int dtargd_mapping; /* value mapping */ | |
1240 | char dtargd_native[DTRACE_ARGTYPELEN]; /* native type name */ | |
1241 | char dtargd_xlate[DTRACE_ARGTYPELEN]; /* translated type name */ | |
1242 | } dtrace_argdesc_t; | |
1243 | ||
1244 | /* | |
1245 | * DTrace Stability Attributes | |
1246 | * | |
1247 | * Each DTrace provider advertises the name and data stability of each of its | |
1248 | * probe description components, as well as its architectural dependencies. | |
1249 | * The D compiler can query the provider attributes (dtrace_pattr_t below) in | |
1250 | * order to compute the properties of an input program and report them. | |
1251 | */ | |
1252 | typedef uint8_t dtrace_stability_t; /* stability code (see attributes(5)) */ | |
1253 | typedef uint8_t dtrace_class_t; /* architectural dependency class */ | |
1254 | ||
1255 | #define DTRACE_STABILITY_INTERNAL 0 /* private to DTrace itself */ | |
1256 | #define DTRACE_STABILITY_PRIVATE 1 /* private to Sun (see docs) */ | |
1257 | #define DTRACE_STABILITY_OBSOLETE 2 /* scheduled for removal */ | |
1258 | #define DTRACE_STABILITY_EXTERNAL 3 /* not controlled by Sun */ | |
1259 | #define DTRACE_STABILITY_UNSTABLE 4 /* new or rapidly changing */ | |
1260 | #define DTRACE_STABILITY_EVOLVING 5 /* less rapidly changing */ | |
1261 | #define DTRACE_STABILITY_STABLE 6 /* mature interface from Sun */ | |
1262 | #define DTRACE_STABILITY_STANDARD 7 /* industry standard */ | |
1263 | #define DTRACE_STABILITY_MAX 7 /* maximum valid stability */ | |
1264 | ||
1265 | #define DTRACE_CLASS_UNKNOWN 0 /* unknown architectural dependency */ | |
1266 | #define DTRACE_CLASS_CPU 1 /* CPU-module-specific */ | |
1267 | #define DTRACE_CLASS_PLATFORM 2 /* platform-specific (uname -i) */ | |
1268 | #define DTRACE_CLASS_GROUP 3 /* hardware-group-specific (uname -m) */ | |
1269 | #define DTRACE_CLASS_ISA 4 /* ISA-specific (uname -p) */ | |
1270 | #define DTRACE_CLASS_COMMON 5 /* common to all systems */ | |
1271 | #define DTRACE_CLASS_MAX 5 /* maximum valid class */ | |
1272 | ||
1273 | #define DTRACE_PRIV_NONE 0x0000 | |
1274 | #define DTRACE_PRIV_KERNEL 0x0001 | |
1275 | #define DTRACE_PRIV_USER 0x0002 | |
1276 | #define DTRACE_PRIV_PROC 0x0004 | |
1277 | #define DTRACE_PRIV_OWNER 0x0008 | |
1278 | #define DTRACE_PRIV_ZONEOWNER 0x0010 | |
1279 | ||
1280 | #define DTRACE_PRIV_ALL \ | |
1281 | (DTRACE_PRIV_KERNEL | DTRACE_PRIV_USER | \ | |
1282 | DTRACE_PRIV_PROC | DTRACE_PRIV_OWNER | DTRACE_PRIV_ZONEOWNER) | |
1283 | ||
1284 | typedef struct dtrace_ppriv { | |
1285 | uint32_t dtpp_flags; /* privilege flags */ | |
1286 | uid_t dtpp_uid; /* user ID */ | |
1287 | zoneid_t dtpp_zoneid; /* zone ID */ | |
1288 | } dtrace_ppriv_t; | |
1289 | ||
1290 | typedef struct dtrace_attribute { | |
1291 | dtrace_stability_t dtat_name; /* entity name stability */ | |
1292 | dtrace_stability_t dtat_data; /* entity data stability */ | |
1293 | dtrace_class_t dtat_class; /* entity data dependency */ | |
1294 | } dtrace_attribute_t; | |
1295 | ||
1296 | typedef struct dtrace_pattr { | |
1297 | dtrace_attribute_t dtpa_provider; /* provider attributes */ | |
1298 | dtrace_attribute_t dtpa_mod; /* module attributes */ | |
1299 | dtrace_attribute_t dtpa_func; /* function attributes */ | |
1300 | dtrace_attribute_t dtpa_name; /* name attributes */ | |
1301 | dtrace_attribute_t dtpa_args; /* args[] attributes */ | |
1302 | } dtrace_pattr_t; | |
1303 | ||
1304 | typedef struct dtrace_providerdesc { | |
1305 | char dtvd_name[DTRACE_PROVNAMELEN]; /* provider name */ | |
1306 | dtrace_pattr_t dtvd_attr; /* stability attributes */ | |
1307 | dtrace_ppriv_t dtvd_priv; /* privileges required */ | |
1308 | } dtrace_providerdesc_t; | |
1309 | ||
1310 | /* | |
1311 | * DTrace Pseudodevice Interface | |
1312 | * | |
1313 | * DTrace is controlled through ioctl(2)'s to the in-kernel dtrace:dtrace | |
1314 | * pseudodevice driver. These ioctls comprise the user-kernel interface to | |
1315 | * DTrace. | |
1316 | */ | |
1317 | #if !defined(__APPLE__) | |
1318 | #define DTRACEIOC (('d' << 24) | ('t' << 16) | ('r' << 8)) | |
1319 | #define DTRACEIOC_PROVIDER (DTRACEIOC | 1) /* provider query */ | |
1320 | #define DTRACEIOC_PROBES (DTRACEIOC | 2) /* probe query */ | |
1321 | #define DTRACEIOC_BUFSNAP (DTRACEIOC | 4) /* snapshot buffer */ | |
1322 | #define DTRACEIOC_PROBEMATCH (DTRACEIOC | 5) /* match probes */ | |
1323 | #define DTRACEIOC_ENABLE (DTRACEIOC | 6) /* enable probes */ | |
1324 | #define DTRACEIOC_AGGSNAP (DTRACEIOC | 7) /* snapshot agg. */ | |
1325 | #define DTRACEIOC_EPROBE (DTRACEIOC | 8) /* get eprobe desc. */ | |
1326 | #define DTRACEIOC_PROBEARG (DTRACEIOC | 9) /* get probe arg */ | |
1327 | #define DTRACEIOC_CONF (DTRACEIOC | 10) /* get config. */ | |
1328 | #define DTRACEIOC_STATUS (DTRACEIOC | 11) /* get status */ | |
1329 | #define DTRACEIOC_GO (DTRACEIOC | 12) /* start tracing */ | |
1330 | #define DTRACEIOC_STOP (DTRACEIOC | 13) /* stop tracing */ | |
1331 | #define DTRACEIOC_AGGDESC (DTRACEIOC | 15) /* get agg. desc. */ | |
1332 | #define DTRACEIOC_FORMAT (DTRACEIOC | 16) /* get format str */ | |
1333 | #define DTRACEIOC_DOFGET (DTRACEIOC | 17) /* get DOF */ | |
1334 | #define DTRACEIOC_REPLICATE (DTRACEIOC | 18) /* replicate enab */ | |
1335 | #else | |
1336 | /* coding this as IOC_VOID allows this driver to handle its own copyin/copuout */ | |
1337 | #define DTRACEIOC _IO('d',0) | |
1338 | #define DTRACEIOC_PROVIDER (DTRACEIOC | 1) /* provider query */ | |
1339 | #define DTRACEIOC_PROBES (DTRACEIOC | 2) /* probe query */ | |
1340 | #define DTRACEIOC_BUFSNAP (DTRACEIOC | 4) /* snapshot buffer */ | |
1341 | #define DTRACEIOC_PROBEMATCH (DTRACEIOC | 5) /* match probes */ | |
1342 | #define DTRACEIOC_ENABLE (DTRACEIOC | 6) /* enable probes */ | |
1343 | #define DTRACEIOC_AGGSNAP (DTRACEIOC | 7) /* snapshot agg. */ | |
1344 | #define DTRACEIOC_EPROBE (DTRACEIOC | 8) /* get eprobe desc. */ | |
1345 | #define DTRACEIOC_PROBEARG (DTRACEIOC | 9) /* get probe arg */ | |
1346 | #define DTRACEIOC_CONF (DTRACEIOC | 10) /* get config. */ | |
1347 | #define DTRACEIOC_STATUS (DTRACEIOC | 11) /* get status */ | |
1348 | #define DTRACEIOC_GO (DTRACEIOC | 12) /* start tracing */ | |
1349 | #define DTRACEIOC_STOP (DTRACEIOC | 13) /* stop tracing */ | |
1350 | #define DTRACEIOC_AGGDESC (DTRACEIOC | 15) /* get agg. desc. */ | |
1351 | #define DTRACEIOC_FORMAT (DTRACEIOC | 16) /* get format str */ | |
1352 | #define DTRACEIOC_DOFGET (DTRACEIOC | 17) /* get DOF */ | |
1353 | #define DTRACEIOC_REPLICATE (DTRACEIOC | 18) /* replicate enab */ | |
1354 | #define DTRACEIOC_MODUUIDSLIST (DTRACEIOC | 30) /* APPLE ONLY, query for modules with missing symbols */ | |
1355 | #define DTRACEIOC_PROVMODSYMS (DTRACEIOC | 31) /* APPLE ONLY, provide missing symbols for a given module */ | |
1356 | ||
1357 | /* | |
1358 | * The following structs are used to provide symbol information to the kernel from userspace. | |
1359 | */ | |
1360 | ||
1361 | typedef struct dtrace_symbol { | |
1362 | uint64_t dtsym_addr; /* address of the symbol */ | |
1363 | uint64_t dtsym_size; /* size of the symbol, must be uint64_t to maintain alignment when called by 64b uproc in i386 kernel */ | |
1364 | char dtsym_name[DTRACE_FUNCNAMELEN]; /* symbol name */ | |
1365 | } dtrace_symbol_t; | |
1366 | ||
1367 | typedef struct dtrace_module_symbols { | |
1368 | UUID dtmodsyms_uuid; | |
1369 | uint64_t dtmodsyms_count; | |
1370 | dtrace_symbol_t dtmodsyms_symbols[1]; | |
1371 | } dtrace_module_symbols_t; | |
1372 | ||
1373 | #define DTRACE_MODULE_SYMBOLS_SIZE(count) (sizeof(dtrace_module_symbols_t) + ((count - 1) * sizeof(dtrace_symbol_t))) | |
1374 | ||
1375 | typedef struct dtrace_module_uuids_list { | |
1376 | uint64_t dtmul_count; | |
1377 | UUID dtmul_uuid[1]; | |
1378 | } dtrace_module_uuids_list_t; | |
1379 | ||
1380 | #define DTRACE_MODULE_UUIDS_LIST_SIZE(count) (sizeof(dtrace_module_uuids_list_t) + ((count - 1) * sizeof(UUID))) | |
1381 | ||
1382 | #endif /* __APPLE__ */ | |
1383 | ||
1384 | /* | |
1385 | * DTrace Helpers | |
1386 | * | |
1387 | * In general, DTrace establishes probes in processes and takes actions on | |
1388 | * processes without knowing their specific user-level structures. Instead of | |
1389 | * existing in the framework, process-specific knowledge is contained by the | |
1390 | * enabling D program -- which can apply process-specific knowledge by making | |
1391 | * appropriate use of DTrace primitives like copyin() and copyinstr() to | |
1392 | * operate on user-level data. However, there may exist some specific probes | |
1393 | * of particular semantic relevance that the application developer may wish to | |
1394 | * explicitly export. For example, an application may wish to export a probe | |
1395 | * at the point that it begins and ends certain well-defined transactions. In | |
1396 | * addition to providing probes, programs may wish to offer assistance for | |
1397 | * certain actions. For example, in highly dynamic environments (e.g., Java), | |
1398 | * it may be difficult to obtain a stack trace in terms of meaningful symbol | |
1399 | * names (the translation from instruction addresses to corresponding symbol | |
1400 | * names may only be possible in situ); these environments may wish to define | |
1401 | * a series of actions to be applied in situ to obtain a meaningful stack | |
1402 | * trace. | |
1403 | * | |
1404 | * These two mechanisms -- user-level statically defined tracing and assisting | |
1405 | * DTrace actions -- are provided via DTrace _helpers_. Helpers are specified | |
1406 | * via DOF, but unlike enabling DOF, helper DOF may contain definitions of | |
1407 | * providers, probes and their arguments. If a helper wishes to provide | |
1408 | * action assistance, probe descriptions and corresponding DIF actions may be | |
1409 | * specified in the helper DOF. For such helper actions, however, the probe | |
1410 | * description describes the specific helper: all DTrace helpers have the | |
1411 | * provider name "dtrace" and the module name "helper", and the name of the | |
1412 | * helper is contained in the function name (for example, the ustack() helper | |
1413 | * is named "ustack"). Any helper-specific name may be contained in the name | |
1414 | * (for example, if a helper were to have a constructor, it might be named | |
1415 | * "dtrace:helper:<helper>:init"). Helper actions are only called when the | |
1416 | * action that they are helping is taken. Helper actions may only return DIF | |
1417 | * expressions, and may only call the following subroutines: | |
1418 | * | |
1419 | * alloca() <= Allocates memory out of the consumer's scratch space | |
1420 | * bcopy() <= Copies memory to scratch space | |
1421 | * copyin() <= Copies memory from user-level into consumer's scratch | |
1422 | * copyinto() <= Copies memory into a specific location in scratch | |
1423 | * copyinstr() <= Copies a string into a specific location in scratch | |
1424 | * | |
1425 | * Helper actions may only access the following built-in variables: | |
1426 | * | |
1427 | * curthread <= Current kthread_t pointer | |
1428 | * tid <= Current thread identifier | |
1429 | * pid <= Current process identifier | |
1430 | * ppid <= Parent process identifier | |
1431 | * uid <= Current user ID | |
1432 | * gid <= Current group ID | |
1433 | * execname <= Current executable name | |
1434 | * zonename <= Current zone name | |
1435 | * | |
1436 | * Helper actions may not manipulate or allocate dynamic variables, but they | |
1437 | * may have clause-local and statically-allocated global variables. The | |
1438 | * helper action variable state is specific to the helper action -- variables | |
1439 | * used by the helper action may not be accessed outside of the helper | |
1440 | * action, and the helper action may not access variables that like outside | |
1441 | * of it. Helper actions may not load from kernel memory at-large; they are | |
1442 | * restricting to loading current user state (via copyin() and variants) and | |
1443 | * scratch space. As with probe enablings, helper actions are executed in | |
1444 | * program order. The result of the helper action is the result of the last | |
1445 | * executing helper expression. | |
1446 | * | |
1447 | * Helpers -- composed of either providers/probes or probes/actions (or both) | |
1448 | * -- are added by opening the "helper" minor node, and issuing an ioctl(2) | |
1449 | * (DTRACEHIOC_ADDDOF) that specifies the dof_helper_t structure. This | |
1450 | * encapsulates the name and base address of the user-level library or | |
1451 | * executable publishing the helpers and probes as well as the DOF that | |
1452 | * contains the definitions of those helpers and probes. | |
1453 | * | |
1454 | * The DTRACEHIOC_ADD and DTRACEHIOC_REMOVE are left in place for legacy | |
1455 | * helpers and should no longer be used. No other ioctls are valid on the | |
1456 | * helper minor node. | |
1457 | */ | |
1458 | #if !defined(__APPLE__) | |
1459 | #define DTRACEHIOC (('d' << 24) | ('t' << 16) | ('h' << 8)) | |
1460 | #define DTRACEHIOC_ADD (DTRACEHIOC | 1) /* add helper */ | |
1461 | #define DTRACEHIOC_REMOVE (DTRACEHIOC | 2) /* remove helper */ | |
1462 | #define DTRACEHIOC_ADDDOF (DTRACEHIOC | 3) /* add helper DOF */ | |
1463 | #else | |
1464 | #define DTRACEHIOC_REMOVE _IO('h', 2) /* remove helper */ | |
1465 | #define DTRACEHIOC_ADDDOF _IOW('h', 4, user_addr_t) /* add helper DOF */ | |
1466 | #endif /* __APPLE__ */ | |
1467 | ||
1468 | typedef struct dof_helper { | |
1469 | char dofhp_mod[DTRACE_MODNAMELEN]; /* executable or library name */ | |
1470 | uint64_t dofhp_addr; /* base address of object */ | |
1471 | uint64_t dofhp_dof; /* address of helper DOF */ | |
1472 | } dof_helper_t; | |
1473 | ||
1474 | #if defined(__APPLE__) | |
1475 | /* | |
1476 | * This structure is used to register one or more dof_helper_t(s). | |
1477 | * For counts greater than one, malloc the structure as if the | |
1478 | * dofiod_helpers field was "count" sized. The kernel will copyin | |
1479 | * data of size: | |
1480 | * | |
1481 | * sizeof(dof_ioctl_data_t) + ((count - 1) * sizeof(dof_helper_t)) | |
1482 | */ | |
1483 | typedef struct dof_ioctl_data { | |
1484 | /* | |
1485 | * This field must be 64 bits to keep the alignment the same | |
1486 | * when 64 bit user procs are sending data to 32 bit xnu | |
1487 | */ | |
1488 | uint64_t dofiod_count; | |
1489 | dof_helper_t dofiod_helpers[1]; | |
1490 | } dof_ioctl_data_t; | |
1491 | ||
1492 | #define DOF_IOCTL_DATA_T_SIZE(count) (sizeof(dof_ioctl_data_t) + ((count - 1) * sizeof(dof_helper_t))) | |
1493 | ||
1494 | #endif | |
1495 | ||
1496 | #define DTRACEMNR_DTRACE "dtrace" /* node for DTrace ops */ | |
1497 | #if !defined(__APPLE__) | |
1498 | #define DTRACEMNR_HELPER "helper" /* node for helpers */ | |
1499 | #else | |
1500 | #define DTRACEMNR_HELPER "dtracehelper" /* node for helpers */ | |
1501 | #endif /* __APPLE__ */ | |
1502 | #define DTRACEMNRN_DTRACE 0 /* minor for DTrace ops */ | |
1503 | #define DTRACEMNRN_HELPER 1 /* minor for helpers */ | |
1504 | #define DTRACEMNRN_CLONE 2 /* first clone minor */ | |
1505 | ||
1506 | #ifdef _KERNEL | |
1507 | ||
1508 | /* | |
1509 | * DTrace Provider API | |
1510 | * | |
1511 | * The following functions are implemented by the DTrace framework and are | |
1512 | * used to implement separate in-kernel DTrace providers. Common functions | |
1513 | * are provided in uts/common/os/dtrace.c. ISA-dependent subroutines are | |
1514 | * defined in uts/<isa>/dtrace/dtrace_asm.s or uts/<isa>/dtrace/dtrace_isa.c. | |
1515 | * | |
1516 | * The provider API has two halves: the API that the providers consume from | |
1517 | * DTrace, and the API that providers make available to DTrace. | |
1518 | * | |
1519 | * 1 Framework-to-Provider API | |
1520 | * | |
1521 | * 1.1 Overview | |
1522 | * | |
1523 | * The Framework-to-Provider API is represented by the dtrace_pops structure | |
1524 | * that the provider passes to the framework when registering itself. This | |
1525 | * structure consists of the following members: | |
1526 | * | |
1527 | * dtps_provide() <-- Provide all probes, all modules | |
1528 | * dtps_provide_module() <-- Provide all probes in specified module | |
1529 | * dtps_enable() <-- Enable specified probe | |
1530 | * dtps_disable() <-- Disable specified probe | |
1531 | * dtps_suspend() <-- Suspend specified probe | |
1532 | * dtps_resume() <-- Resume specified probe | |
1533 | * dtps_getargdesc() <-- Get the argument description for args[X] | |
1534 | * dtps_getargval() <-- Get the value for an argX or args[X] variable | |
1535 | * dtps_usermode() <-- Find out if the probe was fired in user mode | |
1536 | * dtps_destroy() <-- Destroy all state associated with this probe | |
1537 | * | |
1538 | * 1.2 void dtps_provide(void *arg, const dtrace_probedesc_t *spec) | |
1539 | * | |
1540 | * 1.2.1 Overview | |
1541 | * | |
1542 | * Called to indicate that the provider should provide all probes. If the | |
1543 | * specified description is non-NULL, dtps_provide() is being called because | |
1544 | * no probe matched a specified probe -- if the provider has the ability to | |
1545 | * create custom probes, it may wish to create a probe that matches the | |
1546 | * specified description. | |
1547 | * | |
1548 | * 1.2.2 Arguments and notes | |
1549 | * | |
1550 | * The first argument is the cookie as passed to dtrace_register(). The | |
1551 | * second argument is a pointer to a probe description that the provider may | |
1552 | * wish to consider when creating custom probes. The provider is expected to | |
1553 | * call back into the DTrace framework via dtrace_probe_create() to create | |
1554 | * any necessary probes. dtps_provide() may be called even if the provider | |
1555 | * has made available all probes; the provider should check the return value | |
1556 | * of dtrace_probe_create() to handle this case. Note that the provider need | |
1557 | * not implement both dtps_provide() and dtps_provide_module(); see | |
1558 | * "Arguments and Notes" for dtrace_register(), below. | |
1559 | * | |
1560 | * 1.2.3 Return value | |
1561 | * | |
1562 | * None. | |
1563 | * | |
1564 | * 1.2.4 Caller's context | |
1565 | * | |
1566 | * dtps_provide() is typically called from open() or ioctl() context, but may | |
1567 | * be called from other contexts as well. The DTrace framework is locked in | |
1568 | * such a way that providers may not register or unregister. This means that | |
1569 | * the provider may not call any DTrace API that affects its registration with | |
1570 | * the framework, including dtrace_register(), dtrace_unregister(), | |
1571 | * dtrace_invalidate(), and dtrace_condense(). However, the context is such | |
1572 | * that the provider may (and indeed, is expected to) call probe-related | |
1573 | * DTrace routines, including dtrace_probe_create(), dtrace_probe_lookup(), | |
1574 | * and dtrace_probe_arg(). | |
1575 | * | |
1576 | * 1.3 void dtps_provide_module(void *arg, struct modctl *mp) | |
1577 | * | |
1578 | * 1.3.1 Overview | |
1579 | * | |
1580 | * Called to indicate that the provider should provide all probes in the | |
1581 | * specified module. | |
1582 | * | |
1583 | * 1.3.2 Arguments and notes | |
1584 | * | |
1585 | * The first argument is the cookie as passed to dtrace_register(). The | |
1586 | * second argument is a pointer to a modctl structure that indicates the | |
1587 | * module for which probes should be created. | |
1588 | * | |
1589 | * 1.3.3 Return value | |
1590 | * | |
1591 | * None. | |
1592 | * | |
1593 | * 1.3.4 Caller's context | |
1594 | * | |
1595 | * dtps_provide_module() may be called from open() or ioctl() context, but | |
1596 | * may also be called from a module loading context. mod_lock is held, and | |
1597 | * the DTrace framework is locked in such a way that providers may not | |
1598 | * register or unregister. This means that the provider may not call any | |
1599 | * DTrace API that affects its registration with the framework, including | |
1600 | * dtrace_register(), dtrace_unregister(), dtrace_invalidate(), and | |
1601 | * dtrace_condense(). However, the context is such that the provider may (and | |
1602 | * indeed, is expected to) call probe-related DTrace routines, including | |
1603 | * dtrace_probe_create(), dtrace_probe_lookup(), and dtrace_probe_arg(). Note | |
1604 | * that the provider need not implement both dtps_provide() and | |
1605 | * dtps_provide_module(); see "Arguments and Notes" for dtrace_register(), | |
1606 | * below. | |
1607 | * | |
1608 | * 1.4 int dtps_enable(void *arg, dtrace_id_t id, void *parg) | |
1609 | * | |
1610 | * 1.4.1 Overview | |
1611 | * | |
1612 | * Called to enable the specified probe. | |
1613 | * | |
1614 | * 1.4.2 Arguments and notes | |
1615 | * | |
1616 | * The first argument is the cookie as passed to dtrace_register(). The | |
1617 | * second argument is the identifier of the probe to be enabled. The third | |
1618 | * argument is the probe argument as passed to dtrace_probe_create(). | |
1619 | * dtps_enable() will be called when a probe transitions from not being | |
1620 | * enabled at all to having one or more ECB. The number of ECBs associated | |
1621 | * with the probe may change without subsequent calls into the provider. | |
1622 | * When the number of ECBs drops to zero, the provider will be explicitly | |
1623 | * told to disable the probe via dtps_disable(). dtrace_probe() should never | |
1624 | * be called for a probe identifier that hasn't been explicitly enabled via | |
1625 | * dtps_enable(). | |
1626 | * | |
1627 | * 1.4.3 Return value | |
1628 | * | |
1629 | * On success, dtps_enable() should return 0. On failure, -1 should be | |
1630 | * returned. | |
1631 | * | |
1632 | * 1.4.4 Caller's context | |
1633 | * | |
1634 | * The DTrace framework is locked in such a way that it may not be called | |
1635 | * back into at all. cpu_lock is held. mod_lock is not held and may not | |
1636 | * be acquired. | |
1637 | * | |
1638 | * 1.5 void dtps_disable(void *arg, dtrace_id_t id, void *parg) | |
1639 | * | |
1640 | * 1.5.1 Overview | |
1641 | * | |
1642 | * Called to disable the specified probe. | |
1643 | * | |
1644 | * 1.5.2 Arguments and notes | |
1645 | * | |
1646 | * The first argument is the cookie as passed to dtrace_register(). The | |
1647 | * second argument is the identifier of the probe to be disabled. The third | |
1648 | * argument is the probe argument as passed to dtrace_probe_create(). | |
1649 | * dtps_disable() will be called when a probe transitions from being enabled | |
1650 | * to having zero ECBs. dtrace_probe() should never be called for a probe | |
1651 | * identifier that has been explicitly enabled via dtps_disable(). | |
1652 | * | |
1653 | * 1.5.3 Return value | |
1654 | * | |
1655 | * None. | |
1656 | * | |
1657 | * 1.5.4 Caller's context | |
1658 | * | |
1659 | * The DTrace framework is locked in such a way that it may not be called | |
1660 | * back into at all. cpu_lock is held. mod_lock is not held and may not | |
1661 | * be acquired. | |
1662 | * | |
1663 | * 1.6 void dtps_suspend(void *arg, dtrace_id_t id, void *parg) | |
1664 | * | |
1665 | * 1.6.1 Overview | |
1666 | * | |
1667 | * Called to suspend the specified enabled probe. This entry point is for | |
1668 | * providers that may need to suspend some or all of their probes when CPUs | |
1669 | * are being powered on or when the boot monitor is being entered for a | |
1670 | * prolonged period of time. | |
1671 | * | |
1672 | * 1.6.2 Arguments and notes | |
1673 | * | |
1674 | * The first argument is the cookie as passed to dtrace_register(). The | |
1675 | * second argument is the identifier of the probe to be suspended. The | |
1676 | * third argument is the probe argument as passed to dtrace_probe_create(). | |
1677 | * dtps_suspend will only be called on an enabled probe. Providers that | |
1678 | * provide a dtps_suspend entry point will want to take roughly the action | |
1679 | * that it takes for dtps_disable. | |
1680 | * | |
1681 | * 1.6.3 Return value | |
1682 | * | |
1683 | * None. | |
1684 | * | |
1685 | * 1.6.4 Caller's context | |
1686 | * | |
1687 | * Interrupts are disabled. The DTrace framework is in a state such that the | |
1688 | * specified probe cannot be disabled or destroyed for the duration of | |
1689 | * dtps_suspend(). As interrupts are disabled, the provider is afforded | |
1690 | * little latitude; the provider is expected to do no more than a store to | |
1691 | * memory. | |
1692 | * | |
1693 | * 1.7 void dtps_resume(void *arg, dtrace_id_t id, void *parg) | |
1694 | * | |
1695 | * 1.7.1 Overview | |
1696 | * | |
1697 | * Called to resume the specified enabled probe. This entry point is for | |
1698 | * providers that may need to resume some or all of their probes after the | |
1699 | * completion of an event that induced a call to dtps_suspend(). | |
1700 | * | |
1701 | * 1.7.2 Arguments and notes | |
1702 | * | |
1703 | * The first argument is the cookie as passed to dtrace_register(). The | |
1704 | * second argument is the identifier of the probe to be resumed. The | |
1705 | * third argument is the probe argument as passed to dtrace_probe_create(). | |
1706 | * dtps_resume will only be called on an enabled probe. Providers that | |
1707 | * provide a dtps_resume entry point will want to take roughly the action | |
1708 | * that it takes for dtps_enable. | |
1709 | * | |
1710 | * 1.7.3 Return value | |
1711 | * | |
1712 | * None. | |
1713 | * | |
1714 | * 1.7.4 Caller's context | |
1715 | * | |
1716 | * Interrupts are disabled. The DTrace framework is in a state such that the | |
1717 | * specified probe cannot be disabled or destroyed for the duration of | |
1718 | * dtps_resume(). As interrupts are disabled, the provider is afforded | |
1719 | * little latitude; the provider is expected to do no more than a store to | |
1720 | * memory. | |
1721 | * | |
1722 | * 1.8 void dtps_getargdesc(void *arg, dtrace_id_t id, void *parg, | |
1723 | * dtrace_argdesc_t *desc) | |
1724 | * | |
1725 | * 1.8.1 Overview | |
1726 | * | |
1727 | * Called to retrieve the argument description for an args[X] variable. | |
1728 | * | |
1729 | * 1.8.2 Arguments and notes | |
1730 | * | |
1731 | * The first argument is the cookie as passed to dtrace_register(). The | |
1732 | * second argument is the identifier of the current probe. The third | |
1733 | * argument is the probe argument as passed to dtrace_probe_create(). The | |
1734 | * fourth argument is a pointer to the argument description. This | |
1735 | * description is both an input and output parameter: it contains the | |
1736 | * index of the desired argument in the dtargd_ndx field, and expects | |
1737 | * the other fields to be filled in upon return. If there is no argument | |
1738 | * corresponding to the specified index, the dtargd_ndx field should be set | |
1739 | * to DTRACE_ARGNONE. | |
1740 | * | |
1741 | * 1.8.3 Return value | |
1742 | * | |
1743 | * None. The dtargd_ndx, dtargd_native, dtargd_xlate and dtargd_mapping | |
1744 | * members of the dtrace_argdesc_t structure are all output values. | |
1745 | * | |
1746 | * 1.8.4 Caller's context | |
1747 | * | |
1748 | * dtps_getargdesc() is called from ioctl() context. mod_lock is held, and | |
1749 | * the DTrace framework is locked in such a way that providers may not | |
1750 | * register or unregister. This means that the provider may not call any | |
1751 | * DTrace API that affects its registration with the framework, including | |
1752 | * dtrace_register(), dtrace_unregister(), dtrace_invalidate(), and | |
1753 | * dtrace_condense(). | |
1754 | * | |
1755 | * 1.9 uint64_t dtps_getargval(void *arg, dtrace_id_t id, void *parg, | |
1756 | * int argno, int aframes) | |
1757 | * | |
1758 | * 1.9.1 Overview | |
1759 | * | |
1760 | * Called to retrieve a value for an argX or args[X] variable. | |
1761 | * | |
1762 | * 1.9.2 Arguments and notes | |
1763 | * | |
1764 | * The first argument is the cookie as passed to dtrace_register(). The | |
1765 | * second argument is the identifier of the current probe. The third | |
1766 | * argument is the probe argument as passed to dtrace_probe_create(). The | |
1767 | * fourth argument is the number of the argument (the X in the example in | |
1768 | * 1.9.1). The fifth argument is the number of stack frames that were used | |
1769 | * to get from the actual place in the code that fired the probe to | |
1770 | * dtrace_probe() itself, the so-called artificial frames. This argument may | |
1771 | * be used to descend an appropriate number of frames to find the correct | |
1772 | * values. If this entry point is left NULL, the dtrace_getarg() built-in | |
1773 | * function is used. | |
1774 | * | |
1775 | * 1.9.3 Return value | |
1776 | * | |
1777 | * The value of the argument. | |
1778 | * | |
1779 | * 1.9.4 Caller's context | |
1780 | * | |
1781 | * This is called from within dtrace_probe() meaning that interrupts | |
1782 | * are disabled. No locks should be taken within this entry point. | |
1783 | * | |
1784 | * 1.10 int dtps_usermode(void *arg, dtrace_id_t id, void *parg) | |
1785 | * | |
1786 | * 1.10.1 Overview | |
1787 | * | |
1788 | * Called to determine if the probe was fired in a user context. | |
1789 | * | |
1790 | * 1.10.2 Arguments and notes | |
1791 | * | |
1792 | * The first argument is the cookie as passed to dtrace_register(). The | |
1793 | * second argument is the identifier of the current probe. The third | |
1794 | * argument is the probe argument as passed to dtrace_probe_create(). This | |
1795 | * entry point must not be left NULL for providers whose probes allow for | |
1796 | * mixed mode tracing, that is to say those probes that can fire during | |
1797 | * kernel- _or_ user-mode execution | |
1798 | * | |
1799 | * 1.10.3 Return value | |
1800 | * | |
1801 | * A boolean value. | |
1802 | * | |
1803 | * 1.10.4 Caller's context | |
1804 | * | |
1805 | * This is called from within dtrace_probe() meaning that interrupts | |
1806 | * are disabled. No locks should be taken within this entry point. | |
1807 | * | |
1808 | * 1.11 void dtps_destroy(void *arg, dtrace_id_t id, void *parg) | |
1809 | * | |
1810 | * 1.11.1 Overview | |
1811 | * | |
1812 | * Called to destroy the specified probe. | |
1813 | * | |
1814 | * 1.11.2 Arguments and notes | |
1815 | * | |
1816 | * The first argument is the cookie as passed to dtrace_register(). The | |
1817 | * second argument is the identifier of the probe to be destroyed. The third | |
1818 | * argument is the probe argument as passed to dtrace_probe_create(). The | |
1819 | * provider should free all state associated with the probe. The framework | |
1820 | * guarantees that dtps_destroy() is only called for probes that have either | |
1821 | * been disabled via dtps_disable() or were never enabled via dtps_enable(). | |
1822 | * Once dtps_disable() has been called for a probe, no further call will be | |
1823 | * made specifying the probe. | |
1824 | * | |
1825 | * 1.11.3 Return value | |
1826 | * | |
1827 | * None. | |
1828 | * | |
1829 | * 1.11.4 Caller's context | |
1830 | * | |
1831 | * The DTrace framework is locked in such a way that it may not be called | |
1832 | * back into at all. mod_lock is held. cpu_lock is not held, and may not be | |
1833 | * acquired. | |
1834 | * | |
1835 | * | |
1836 | * 2 Provider-to-Framework API | |
1837 | * | |
1838 | * 2.1 Overview | |
1839 | * | |
1840 | * The Provider-to-Framework API provides the mechanism for the provider to | |
1841 | * register itself with the DTrace framework, to create probes, to lookup | |
1842 | * probes and (most importantly) to fire probes. The Provider-to-Framework | |
1843 | * consists of: | |
1844 | * | |
1845 | * dtrace_register() <-- Register a provider with the DTrace framework | |
1846 | * dtrace_unregister() <-- Remove a provider's DTrace registration | |
1847 | * dtrace_invalidate() <-- Invalidate the specified provider | |
1848 | * dtrace_condense() <-- Remove a provider's unenabled probes | |
1849 | * dtrace_attached() <-- Indicates whether or not DTrace has attached | |
1850 | * dtrace_probe_create() <-- Create a DTrace probe | |
1851 | * dtrace_probe_lookup() <-- Lookup a DTrace probe based on its name | |
1852 | * dtrace_probe_arg() <-- Return the probe argument for a specific probe | |
1853 | * dtrace_probe() <-- Fire the specified probe | |
1854 | * | |
1855 | * 2.2 int dtrace_register(const char *name, const dtrace_pattr_t *pap, | |
1856 | * uint32_t priv, cred_t *cr, const dtrace_pops_t *pops, void *arg, | |
1857 | * dtrace_provider_id_t *idp) | |
1858 | * | |
1859 | * 2.2.1 Overview | |
1860 | * | |
1861 | * dtrace_register() registers the calling provider with the DTrace | |
1862 | * framework. It should generally be called by DTrace providers in their | |
1863 | * attach(9E) entry point. | |
1864 | * | |
1865 | * 2.2.2 Arguments and Notes | |
1866 | * | |
1867 | * The first argument is the name of the provider. The second argument is a | |
1868 | * pointer to the stability attributes for the provider. The third argument | |
1869 | * is the privilege flags for the provider, and must be some combination of: | |
1870 | * | |
1871 | * DTRACE_PRIV_NONE <= All users may enable probes from this provider | |
1872 | * | |
1873 | * DTRACE_PRIV_PROC <= Any user with privilege of PRIV_DTRACE_PROC may | |
1874 | * enable probes from this provider | |
1875 | * | |
1876 | * DTRACE_PRIV_USER <= Any user with privilege of PRIV_DTRACE_USER may | |
1877 | * enable probes from this provider | |
1878 | * | |
1879 | * DTRACE_PRIV_KERNEL <= Any user with privilege of PRIV_DTRACE_KERNEL | |
1880 | * may enable probes from this provider | |
1881 | * | |
1882 | * DTRACE_PRIV_OWNER <= This flag places an additional constraint on | |
1883 | * the privilege requirements above. These probes | |
1884 | * require either (a) a user ID matching the user | |
1885 | * ID of the cred passed in the fourth argument | |
1886 | * or (b) the PRIV_PROC_OWNER privilege. | |
1887 | * | |
1888 | * DTRACE_PRIV_ZONEOWNER<= This flag places an additional constraint on | |
1889 | * the privilege requirements above. These probes | |
1890 | * require either (a) a zone ID matching the zone | |
1891 | * ID of the cred passed in the fourth argument | |
1892 | * or (b) the PRIV_PROC_ZONE privilege. | |
1893 | * | |
1894 | * Note that these flags designate the _visibility_ of the probes, not | |
1895 | * the conditions under which they may or may not fire. | |
1896 | * | |
1897 | * The fourth argument is the credential that is associated with the | |
1898 | * provider. This argument should be NULL if the privilege flags don't | |
1899 | * include DTRACE_PRIV_OWNER or DTRACE_PRIV_ZONEOWNER. If non-NULL, the | |
1900 | * framework stashes the uid and zoneid represented by this credential | |
1901 | * for use at probe-time, in implicit predicates. These limit visibility | |
1902 | * of the probes to users and/or zones which have sufficient privilege to | |
1903 | * access them. | |
1904 | * | |
1905 | * The fifth argument is a DTrace provider operations vector, which provides | |
1906 | * the implementation for the Framework-to-Provider API. (See Section 1, | |
1907 | * above.) This must be non-NULL, and each member must be non-NULL. The | |
1908 | * exceptions to this are (1) the dtps_provide() and dtps_provide_module() | |
1909 | * members (if the provider so desires, _one_ of these members may be left | |
1910 | * NULL -- denoting that the provider only implements the other) and (2) | |
1911 | * the dtps_suspend() and dtps_resume() members, which must either both be | |
1912 | * NULL or both be non-NULL. | |
1913 | * | |
1914 | * The sixth argument is a cookie to be specified as the first argument for | |
1915 | * each function in the Framework-to-Provider API. This argument may have | |
1916 | * any value. | |
1917 | * | |
1918 | * The final argument is a pointer to dtrace_provider_id_t. If | |
1919 | * dtrace_register() successfully completes, the provider identifier will be | |
1920 | * stored in the memory pointed to be this argument. This argument must be | |
1921 | * non-NULL. | |
1922 | * | |
1923 | * 2.2.3 Return value | |
1924 | * | |
1925 | * On success, dtrace_register() returns 0 and stores the new provider's | |
1926 | * identifier into the memory pointed to by the idp argument. On failure, | |
1927 | * dtrace_register() returns an errno: | |
1928 | * | |
1929 | * EINVAL The arguments passed to dtrace_register() were somehow invalid. | |
1930 | * This may because a parameter that must be non-NULL was NULL, | |
1931 | * because the name was invalid (either empty or an illegal | |
1932 | * provider name) or because the attributes were invalid. | |
1933 | * | |
1934 | * No other failure code is returned. | |
1935 | * | |
1936 | * 2.2.4 Caller's context | |
1937 | * | |
1938 | * dtrace_register() may induce calls to dtrace_provide(); the provider must | |
1939 | * hold no locks across dtrace_register() that may also be acquired by | |
1940 | * dtrace_provide(). cpu_lock and mod_lock must not be held. | |
1941 | * | |
1942 | * 2.3 int dtrace_unregister(dtrace_provider_t id) | |
1943 | * | |
1944 | * 2.3.1 Overview | |
1945 | * | |
1946 | * Unregisters the specified provider from the DTrace framework. It should | |
1947 | * generally be called by DTrace providers in their detach(9E) entry point. | |
1948 | * | |
1949 | * 2.3.2 Arguments and Notes | |
1950 | * | |
1951 | * The only argument is the provider identifier, as returned from a | |
1952 | * successful call to dtrace_register(). As a result of calling | |
1953 | * dtrace_unregister(), the DTrace framework will call back into the provider | |
1954 | * via the dtps_destroy() entry point. Once dtrace_unregister() successfully | |
1955 | * completes, however, the DTrace framework will no longer make calls through | |
1956 | * the Framework-to-Provider API. | |
1957 | * | |
1958 | * 2.3.3 Return value | |
1959 | * | |
1960 | * On success, dtrace_unregister returns 0. On failure, dtrace_unregister() | |
1961 | * returns an errno: | |
1962 | * | |
1963 | * EBUSY There are currently processes that have the DTrace pseudodevice | |
1964 | * open, or there exists an anonymous enabling that hasn't yet | |
1965 | * been claimed. | |
1966 | * | |
1967 | * No other failure code is returned. | |
1968 | * | |
1969 | * 2.3.4 Caller's context | |
1970 | * | |
1971 | * Because a call to dtrace_unregister() may induce calls through the | |
1972 | * Framework-to-Provider API, the caller may not hold any lock across | |
1973 | * dtrace_register() that is also acquired in any of the Framework-to- | |
1974 | * Provider API functions. Additionally, mod_lock may not be held. | |
1975 | * | |
1976 | * 2.4 void dtrace_invalidate(dtrace_provider_id_t id) | |
1977 | * | |
1978 | * 2.4.1 Overview | |
1979 | * | |
1980 | * Invalidates the specified provider. All subsequent probe lookups for the | |
1981 | * specified provider will fail, but its probes will not be removed. | |
1982 | * | |
1983 | * 2.4.2 Arguments and note | |
1984 | * | |
1985 | * The only argument is the provider identifier, as returned from a | |
1986 | * successful call to dtrace_register(). In general, a provider's probes | |
1987 | * always remain valid; dtrace_invalidate() is a mechanism for invalidating | |
1988 | * an entire provider, regardless of whether or not probes are enabled or | |
1989 | * not. Note that dtrace_invalidate() will _not_ prevent already enabled | |
1990 | * probes from firing -- it will merely prevent any new enablings of the | |
1991 | * provider's probes. | |
1992 | * | |
1993 | * 2.5 int dtrace_condense(dtrace_provider_id_t id) | |
1994 | * | |
1995 | * 2.5.1 Overview | |
1996 | * | |
1997 | * Removes all the unenabled probes for the given provider. This function is | |
1998 | * not unlike dtrace_unregister(), except that it doesn't remove the | |
1999 | * provider just as many of its associated probes as it can. | |
2000 | * | |
2001 | * 2.5.2 Arguments and Notes | |
2002 | * | |
2003 | * As with dtrace_unregister(), the sole argument is the provider identifier | |
2004 | * as returned from a successful call to dtrace_register(). As a result of | |
2005 | * calling dtrace_condense(), the DTrace framework will call back into the | |
2006 | * given provider's dtps_destroy() entry point for each of the provider's | |
2007 | * unenabled probes. | |
2008 | * | |
2009 | * 2.5.3 Return value | |
2010 | * | |
2011 | * Currently, dtrace_condense() always returns 0. However, consumers of this | |
2012 | * function should check the return value as appropriate; its behavior may | |
2013 | * change in the future. | |
2014 | * | |
2015 | * 2.5.4 Caller's context | |
2016 | * | |
2017 | * As with dtrace_unregister(), the caller may not hold any lock across | |
2018 | * dtrace_condense() that is also acquired in the provider's entry points. | |
2019 | * Also, mod_lock may not be held. | |
2020 | * | |
2021 | * 2.6 int dtrace_attached() | |
2022 | * | |
2023 | * 2.6.1 Overview | |
2024 | * | |
2025 | * Indicates whether or not DTrace has attached. | |
2026 | * | |
2027 | * 2.6.2 Arguments and Notes | |
2028 | * | |
2029 | * For most providers, DTrace makes initial contact beyond registration. | |
2030 | * That is, once a provider has registered with DTrace, it waits to hear | |
2031 | * from DTrace to create probes. However, some providers may wish to | |
2032 | * proactively create probes without first being told by DTrace to do so. | |
2033 | * If providers wish to do this, they must first call dtrace_attached() to | |
2034 | * determine if DTrace itself has attached. If dtrace_attached() returns 0, | |
2035 | * the provider must not make any other Provider-to-Framework API call. | |
2036 | * | |
2037 | * 2.6.3 Return value | |
2038 | * | |
2039 | * dtrace_attached() returns 1 if DTrace has attached, 0 otherwise. | |
2040 | * | |
2041 | * 2.7 int dtrace_probe_create(dtrace_provider_t id, const char *mod, | |
2042 | * const char *func, const char *name, int aframes, void *arg) | |
2043 | * | |
2044 | * 2.7.1 Overview | |
2045 | * | |
2046 | * Creates a probe with specified module name, function name, and name. | |
2047 | * | |
2048 | * 2.7.2 Arguments and Notes | |
2049 | * | |
2050 | * The first argument is the provider identifier, as returned from a | |
2051 | * successful call to dtrace_register(). The second, third, and fourth | |
2052 | * arguments are the module name, function name, and probe name, | |
2053 | * respectively. Of these, module name and function name may both be NULL | |
2054 | * (in which case the probe is considered to be unanchored), or they may both | |
2055 | * be non-NULL. The name must be non-NULL, and must point to a non-empty | |
2056 | * string. | |
2057 | * | |
2058 | * The fifth argument is the number of artificial stack frames that will be | |
2059 | * found on the stack when dtrace_probe() is called for the new probe. These | |
2060 | * artificial frames will be automatically be pruned should the stack() or | |
2061 | * stackdepth() functions be called as part of one of the probe's ECBs. If | |
2062 | * the parameter doesn't add an artificial frame, this parameter should be | |
2063 | * zero. | |
2064 | * | |
2065 | * The final argument is a probe argument that will be passed back to the | |
2066 | * provider when a probe-specific operation is called. (e.g., via | |
2067 | * dtps_enable(), dtps_disable(), etc.) | |
2068 | * | |
2069 | * Note that it is up to the provider to be sure that the probe that it | |
2070 | * creates does not already exist -- if the provider is unsure of the probe's | |
2071 | * existence, it should assure its absence with dtrace_probe_lookup() before | |
2072 | * calling dtrace_probe_create(). | |
2073 | * | |
2074 | * 2.7.3 Return value | |
2075 | * | |
2076 | * dtrace_probe_create() always succeeds, and always returns the identifier | |
2077 | * of the newly-created probe. | |
2078 | * | |
2079 | * 2.7.4 Caller's context | |
2080 | * | |
2081 | * While dtrace_probe_create() is generally expected to be called from | |
2082 | * dtps_provide() and/or dtps_provide_module(), it may be called from other | |
2083 | * non-DTrace contexts. Neither cpu_lock nor mod_lock may be held. | |
2084 | * | |
2085 | * 2.8 dtrace_id_t dtrace_probe_lookup(dtrace_provider_t id, const char *mod, | |
2086 | * const char *func, const char *name) | |
2087 | * | |
2088 | * 2.8.1 Overview | |
2089 | * | |
2090 | * Looks up a probe based on provdider and one or more of module name, | |
2091 | * function name and probe name. | |
2092 | * | |
2093 | * 2.8.2 Arguments and Notes | |
2094 | * | |
2095 | * The first argument is the provider identifier, as returned from a | |
2096 | * successful call to dtrace_register(). The second, third, and fourth | |
2097 | * arguments are the module name, function name, and probe name, | |
2098 | * respectively. Any of these may be NULL; dtrace_probe_lookup() will return | |
2099 | * the identifier of the first probe that is provided by the specified | |
2100 | * provider and matches all of the non-NULL matching criteria. | |
2101 | * dtrace_probe_lookup() is generally used by a provider to be check the | |
2102 | * existence of a probe before creating it with dtrace_probe_create(). | |
2103 | * | |
2104 | * 2.8.3 Return value | |
2105 | * | |
2106 | * If the probe exists, returns its identifier. If the probe does not exist, | |
2107 | * return DTRACE_IDNONE. | |
2108 | * | |
2109 | * 2.8.4 Caller's context | |
2110 | * | |
2111 | * While dtrace_probe_lookup() is generally expected to be called from | |
2112 | * dtps_provide() and/or dtps_provide_module(), it may also be called from | |
2113 | * other non-DTrace contexts. Neither cpu_lock nor mod_lock may be held. | |
2114 | * | |
2115 | * 2.9 void *dtrace_probe_arg(dtrace_provider_t id, dtrace_id_t probe) | |
2116 | * | |
2117 | * 2.9.1 Overview | |
2118 | * | |
2119 | * Returns the probe argument associated with the specified probe. | |
2120 | * | |
2121 | * 2.9.2 Arguments and Notes | |
2122 | * | |
2123 | * The first argument is the provider identifier, as returned from a | |
2124 | * successful call to dtrace_register(). The second argument is a probe | |
2125 | * identifier, as returned from dtrace_probe_lookup() or | |
2126 | * dtrace_probe_create(). This is useful if a probe has multiple | |
2127 | * provider-specific components to it: the provider can create the probe | |
2128 | * once with provider-specific state, and then add to the state by looking | |
2129 | * up the probe based on probe identifier. | |
2130 | * | |
2131 | * 2.9.3 Return value | |
2132 | * | |
2133 | * Returns the argument associated with the specified probe. If the | |
2134 | * specified probe does not exist, or if the specified probe is not provided | |
2135 | * by the specified provider, NULL is returned. | |
2136 | * | |
2137 | * 2.9.4 Caller's context | |
2138 | * | |
2139 | * While dtrace_probe_arg() is generally expected to be called from | |
2140 | * dtps_provide() and/or dtps_provide_module(), it may also be called from | |
2141 | * other non-DTrace contexts. Neither cpu_lock nor mod_lock may be held. | |
2142 | * | |
2143 | * 2.10 void dtrace_probe(dtrace_id_t probe, uintptr_t arg0, uintptr_t arg1, | |
2144 | * uintptr_t arg2, uintptr_t arg3, uintptr_t arg4) | |
2145 | * | |
2146 | * 2.10.1 Overview | |
2147 | * | |
2148 | * The epicenter of DTrace: fires the specified probes with the specified | |
2149 | * arguments. | |
2150 | * | |
2151 | * 2.10.2 Arguments and Notes | |
2152 | * | |
2153 | * The first argument is a probe identifier as returned by | |
2154 | * dtrace_probe_create() or dtrace_probe_lookup(). The second through sixth | |
2155 | * arguments are the values to which the D variables "arg0" through "arg4" | |
2156 | * will be mapped. | |
2157 | * | |
2158 | * dtrace_probe() should be called whenever the specified probe has fired -- | |
2159 | * however the provider defines it. | |
2160 | * | |
2161 | * 2.10.3 Return value | |
2162 | * | |
2163 | * None. | |
2164 | * | |
2165 | * 2.10.4 Caller's context | |
2166 | * | |
2167 | * dtrace_probe() may be called in virtually any context: kernel, user, | |
2168 | * interrupt, high-level interrupt, with arbitrary adaptive locks held, with | |
2169 | * dispatcher locks held, with interrupts disabled, etc. The only latitude | |
2170 | * that must be afforded to DTrace is the ability to make calls within | |
2171 | * itself (and to its in-kernel subroutines) and the ability to access | |
2172 | * arbitrary (but mapped) memory. On some platforms, this constrains | |
2173 | * context. For example, on UltraSPARC, dtrace_probe() cannot be called | |
2174 | * from any context in which TL is greater than zero. dtrace_probe() may | |
2175 | * also not be called from any routine which may be called by dtrace_probe() | |
2176 | * -- which includes functions in the DTrace framework and some in-kernel | |
2177 | * DTrace subroutines. All such functions "dtrace_"; providers that | |
2178 | * instrument the kernel arbitrarily should be sure to not instrument these | |
2179 | * routines. | |
2180 | */ | |
2181 | typedef struct dtrace_pops { | |
2182 | void (*dtps_provide)(void *arg, const dtrace_probedesc_t *spec); | |
2183 | void (*dtps_provide_module)(void *arg, struct modctl *mp); | |
2184 | int (*dtps_enable)(void *arg, dtrace_id_t id, void *parg); | |
2185 | void (*dtps_disable)(void *arg, dtrace_id_t id, void *parg); | |
2186 | void (*dtps_suspend)(void *arg, dtrace_id_t id, void *parg); | |
2187 | void (*dtps_resume)(void *arg, dtrace_id_t id, void *parg); | |
2188 | void (*dtps_getargdesc)(void *arg, dtrace_id_t id, void *parg, | |
2189 | dtrace_argdesc_t *desc); | |
2190 | uint64_t (*dtps_getargval)(void *arg, dtrace_id_t id, void *parg, | |
2191 | int argno, int aframes); | |
2192 | int (*dtps_usermode)(void *arg, dtrace_id_t id, void *parg); | |
2193 | void (*dtps_destroy)(void *arg, dtrace_id_t id, void *parg); | |
2194 | } dtrace_pops_t; | |
2195 | ||
2196 | typedef uintptr_t dtrace_provider_id_t; | |
2197 | ||
2198 | extern int dtrace_register(const char *, const dtrace_pattr_t *, uint32_t, | |
2199 | cred_t *, const dtrace_pops_t *, void *, dtrace_provider_id_t *); | |
2200 | extern int dtrace_unregister(dtrace_provider_id_t); | |
2201 | extern int dtrace_condense(dtrace_provider_id_t); | |
2202 | extern void dtrace_invalidate(dtrace_provider_id_t); | |
2203 | extern dtrace_id_t dtrace_probe_lookup(dtrace_provider_id_t, const char *, | |
2204 | const char *, const char *); | |
2205 | extern dtrace_id_t dtrace_probe_create(dtrace_provider_id_t, const char *, | |
2206 | const char *, const char *, int, void *); | |
2207 | extern void *dtrace_probe_arg(dtrace_provider_id_t, dtrace_id_t); | |
2208 | #if !defined(__APPLE__) | |
2209 | extern void dtrace_probe(dtrace_id_t, uintptr_t arg0, uintptr_t arg1, | |
2210 | uintptr_t arg2, uintptr_t arg3, uintptr_t arg4); | |
2211 | #else | |
2212 | extern void dtrace_probe(dtrace_id_t, uint64_t arg0, uint64_t arg1, | |
2213 | uint64_t arg2, uint64_t arg3, uint64_t arg4); | |
2214 | #endif /* __APPLE__ */ | |
2215 | ||
2216 | /* | |
2217 | * DTrace Meta Provider API | |
2218 | * | |
2219 | * The following functions are implemented by the DTrace framework and are | |
2220 | * used to implement meta providers. Meta providers plug into the DTrace | |
2221 | * framework and are used to instantiate new providers on the fly. At | |
2222 | * present, there is only one type of meta provider and only one meta | |
2223 | * provider may be registered with the DTrace framework at a time. The | |
2224 | * sole meta provider type provides user-land static tracing facilities | |
2225 | * by taking meta probe descriptions and adding a corresponding provider | |
2226 | * into the DTrace framework. | |
2227 | * | |
2228 | * 1 Framework-to-Provider | |
2229 | * | |
2230 | * 1.1 Overview | |
2231 | * | |
2232 | * The Framework-to-Provider API is represented by the dtrace_mops structure | |
2233 | * that the meta provider passes to the framework when registering itself as | |
2234 | * a meta provider. This structure consists of the following members: | |
2235 | * | |
2236 | * dtms_create_probe() <-- Add a new probe to a created provider | |
2237 | * dtms_provide_pid() <-- Create a new provider for a given process | |
2238 | * dtms_remove_pid() <-- Remove a previously created provider | |
2239 | * | |
2240 | * 1.2 void dtms_create_probe(void *arg, void *parg, | |
2241 | * dtrace_helper_probedesc_t *probedesc); | |
2242 | * | |
2243 | * 1.2.1 Overview | |
2244 | * | |
2245 | * Called by the DTrace framework to create a new probe in a provider | |
2246 | * created by this meta provider. | |
2247 | * | |
2248 | * 1.2.2 Arguments and notes | |
2249 | * | |
2250 | * The first argument is the cookie as passed to dtrace_meta_register(). | |
2251 | * The second argument is the provider cookie for the associated provider; | |
2252 | * this is obtained from the return value of dtms_provide_pid(). The third | |
2253 | * argument is the helper probe description. | |
2254 | * | |
2255 | * 1.2.3 Return value | |
2256 | * | |
2257 | * None | |
2258 | * | |
2259 | * 1.2.4 Caller's context | |
2260 | * | |
2261 | * dtms_create_probe() is called from either ioctl() or module load context. | |
2262 | * The DTrace framework is locked in such a way that meta providers may not | |
2263 | * register or unregister. This means that the meta provider cannot call | |
2264 | * dtrace_meta_register() or dtrace_meta_unregister(). However, the context is | |
2265 | * such that the provider may (and is expected to) call provider-related | |
2266 | * DTrace provider APIs including dtrace_probe_create(). | |
2267 | * | |
2268 | * 1.3 void *dtms_provide_pid(void *arg, dtrace_meta_provider_t *mprov, | |
2269 | * pid_t pid) | |
2270 | * | |
2271 | * 1.3.1 Overview | |
2272 | * | |
2273 | * Called by the DTrace framework to instantiate a new provider given the | |
2274 | * description of the provider and probes in the mprov argument. The | |
2275 | * meta provider should call dtrace_register() to insert the new provider | |
2276 | * into the DTrace framework. | |
2277 | * | |
2278 | * 1.3.2 Arguments and notes | |
2279 | * | |
2280 | * The first argument is the cookie as passed to dtrace_meta_register(). | |
2281 | * The second argument is a pointer to a structure describing the new | |
2282 | * helper provider. The third argument is the process identifier for | |
2283 | * process associated with this new provider. Note that the name of the | |
2284 | * provider as passed to dtrace_register() should be the contatenation of | |
2285 | * the dtmpb_provname member of the mprov argument and the processs | |
2286 | * identifier as a string. | |
2287 | * | |
2288 | * 1.3.3 Return value | |
2289 | * | |
2290 | * The cookie for the provider that the meta provider creates. This is | |
2291 | * the same value that it passed to dtrace_register(). | |
2292 | * | |
2293 | * 1.3.4 Caller's context | |
2294 | * | |
2295 | * dtms_provide_pid() is called from either ioctl() or module load context. | |
2296 | * The DTrace framework is locked in such a way that meta providers may not | |
2297 | * register or unregister. This means that the meta provider cannot call | |
2298 | * dtrace_meta_register() or dtrace_meta_unregister(). However, the context | |
2299 | * is such that the provider may -- and is expected to -- call | |
2300 | * provider-related DTrace provider APIs including dtrace_register(). | |
2301 | * | |
2302 | * 1.4 void dtms_remove_pid(void *arg, dtrace_meta_provider_t *mprov, | |
2303 | * pid_t pid) | |
2304 | * | |
2305 | * 1.4.1 Overview | |
2306 | * | |
2307 | * Called by the DTrace framework to remove a provider that had previously | |
2308 | * been instantiated via the dtms_provide_pid() entry point. The meta | |
2309 | * provider need not remove the provider immediately, but this entry | |
2310 | * point indicates that the provider should be removed as soon as possible | |
2311 | * using the dtrace_unregister() API. | |
2312 | * | |
2313 | * 1.4.2 Arguments and notes | |
2314 | * | |
2315 | * The first argument is the cookie as passed to dtrace_meta_register(). | |
2316 | * The second argument is a pointer to a structure describing the helper | |
2317 | * provider. The third argument is the process identifier for process | |
2318 | * associated with this new provider. | |
2319 | * | |
2320 | * 1.4.3 Return value | |
2321 | * | |
2322 | * None | |
2323 | * | |
2324 | * 1.4.4 Caller's context | |
2325 | * | |
2326 | * dtms_remove_pid() is called from either ioctl() or exit() context. | |
2327 | * The DTrace framework is locked in such a way that meta providers may not | |
2328 | * register or unregister. This means that the meta provider cannot call | |
2329 | * dtrace_meta_register() or dtrace_meta_unregister(). However, the context | |
2330 | * is such that the provider may -- and is expected to -- call | |
2331 | * provider-related DTrace provider APIs including dtrace_unregister(). | |
2332 | */ | |
2333 | typedef struct dtrace_helper_probedesc { | |
2334 | char *dthpb_mod; /* probe module */ | |
2335 | char *dthpb_func; /* probe function */ | |
2336 | char *dthpb_name; /* probe name */ | |
2337 | uint64_t dthpb_base; /* base address */ | |
2338 | #if !defined(__APPLE__) | |
2339 | uint32_t *dthpb_offs; /* offsets array */ | |
2340 | uint32_t *dthpb_enoffs; /* is-enabled offsets array */ | |
2341 | #else | |
2342 | int32_t *dthpb_offs; /* (signed) offsets array */ | |
2343 | int32_t *dthpb_enoffs; /* (signed) is-enabled offsets array */ | |
2344 | #endif | |
2345 | uint32_t dthpb_noffs; /* offsets count */ | |
2346 | uint32_t dthpb_nenoffs; /* is-enabled offsets count */ | |
2347 | uint8_t *dthpb_args; /* argument mapping array */ | |
2348 | uint8_t dthpb_xargc; /* translated argument count */ | |
2349 | uint8_t dthpb_nargc; /* native argument count */ | |
2350 | char *dthpb_xtypes; /* translated types strings */ | |
2351 | char *dthpb_ntypes; /* native types strings */ | |
2352 | } dtrace_helper_probedesc_t; | |
2353 | ||
2354 | typedef struct dtrace_helper_provdesc { | |
2355 | char *dthpv_provname; /* provider name */ | |
2356 | dtrace_pattr_t dthpv_pattr; /* stability attributes */ | |
2357 | } dtrace_helper_provdesc_t; | |
2358 | ||
2359 | typedef struct dtrace_mops { | |
2360 | void (*dtms_create_probe)(void *, void *, dtrace_helper_probedesc_t *); | |
2361 | void *(*dtms_provide_pid)(void *, dtrace_helper_provdesc_t *, pid_t); | |
2362 | void (*dtms_remove_pid)(void *, dtrace_helper_provdesc_t *, pid_t); | |
2363 | } dtrace_mops_t; | |
2364 | ||
2365 | typedef uintptr_t dtrace_meta_provider_id_t; | |
2366 | ||
2367 | extern int dtrace_meta_register(const char *, const dtrace_mops_t *, void *, | |
2368 | dtrace_meta_provider_id_t *); | |
2369 | extern int dtrace_meta_unregister(dtrace_meta_provider_id_t); | |
2370 | ||
2371 | /* | |
2372 | * DTrace Kernel Hooks | |
2373 | * | |
2374 | * The following functions are implemented by the base kernel and form a set of | |
2375 | * hooks used by the DTrace framework. DTrace hooks are implemented in either | |
2376 | * uts/common/os/dtrace_subr.c, an ISA-specific assembly file, or in a | |
2377 | * uts/<platform>/os/dtrace_subr.c corresponding to each hardware platform. | |
2378 | */ | |
2379 | ||
2380 | typedef enum dtrace_vtime_state { | |
2381 | DTRACE_VTIME_INACTIVE = 0, /* No DTrace, no TNF */ | |
2382 | DTRACE_VTIME_ACTIVE, /* DTrace virtual time, no TNF */ | |
2383 | DTRACE_VTIME_INACTIVE_TNF, /* No DTrace, TNF active */ | |
2384 | DTRACE_VTIME_ACTIVE_TNF /* DTrace virtual time _and_ TNF */ | |
2385 | } dtrace_vtime_state_t; | |
2386 | ||
2387 | extern dtrace_vtime_state_t dtrace_vtime_active; | |
2388 | extern void dtrace_vtime_switch(kthread_t *next); | |
2389 | extern void dtrace_vtime_enable_tnf(void); | |
2390 | extern void dtrace_vtime_disable_tnf(void); | |
2391 | extern void dtrace_vtime_enable(void); | |
2392 | extern void dtrace_vtime_disable(void); | |
2393 | ||
2394 | #if !defined(__APPLE__) | |
2395 | struct regs; | |
2396 | ||
2397 | extern int (*dtrace_pid_probe_ptr)(struct regs *); | |
2398 | extern int (*dtrace_return_probe_ptr)(struct regs *); | |
2399 | #else | |
2400 | #if defined (__i386__) || defined(__x86_64__) | |
2401 | extern int (*dtrace_pid_probe_ptr)(x86_saved_state_t *regs); | |
2402 | extern int (*dtrace_return_probe_ptr)(x86_saved_state_t* regs); | |
2403 | #else | |
2404 | #error architecture not supported | |
2405 | #endif | |
2406 | #endif /* __APPLE__ */ | |
2407 | extern void (*dtrace_fasttrap_fork_ptr)(proc_t *, proc_t *); | |
2408 | extern void (*dtrace_fasttrap_exec_ptr)(proc_t *); | |
2409 | extern void (*dtrace_fasttrap_exit_ptr)(proc_t *); | |
2410 | extern void dtrace_fasttrap_fork(proc_t *, proc_t *); | |
2411 | ||
2412 | typedef uintptr_t dtrace_icookie_t; | |
2413 | typedef void (*dtrace_xcall_t)(void *); | |
2414 | ||
2415 | extern dtrace_icookie_t dtrace_interrupt_disable(void); | |
2416 | extern void dtrace_interrupt_enable(dtrace_icookie_t); | |
2417 | ||
2418 | extern void dtrace_membar_producer(void); | |
2419 | extern void dtrace_membar_consumer(void); | |
2420 | ||
2421 | extern void (*dtrace_cpu_init)(processorid_t); | |
2422 | #if !defined(__APPLE__) | |
2423 | extern void (*dtrace_modload)(struct modctl *); | |
2424 | extern void (*dtrace_modunload)(struct modctl *); | |
2425 | #else | |
2426 | extern int (*dtrace_modload)(struct kmod_info *, uint32_t); | |
2427 | extern int (*dtrace_modunload)(struct kmod_info *); | |
2428 | #endif /* __APPLE__ */ | |
2429 | extern void (*dtrace_helpers_cleanup)(proc_t*); | |
2430 | extern void (*dtrace_helpers_fork)(proc_t *parent, proc_t *child); | |
2431 | extern void (*dtrace_cpustart_init)(void); | |
2432 | extern void (*dtrace_cpustart_fini)(void); | |
2433 | ||
2434 | extern void (*dtrace_kreloc_init)(void); | |
2435 | extern void (*dtrace_kreloc_fini)(void); | |
2436 | ||
2437 | extern void (*dtrace_debugger_init)(void); | |
2438 | extern void (*dtrace_debugger_fini)(void); | |
2439 | extern dtrace_cacheid_t dtrace_predcache_id; | |
2440 | ||
2441 | extern hrtime_t dtrace_gethrtime(void); | |
2442 | extern void dtrace_sync(void); | |
2443 | extern void dtrace_toxic_ranges(void (*)(uintptr_t, uintptr_t)); | |
2444 | extern void dtrace_xcall(processorid_t, dtrace_xcall_t, void *); | |
2445 | ||
2446 | extern int dtrace_safe_defer_signal(void); | |
2447 | extern void dtrace_safe_synchronous_signal(void); | |
2448 | ||
2449 | extern int dtrace_mach_aframes(void); | |
2450 | ||
2451 | #if !defined(__APPLE__) | |
2452 | #if defined(__i386) || defined(__amd64) | |
2453 | extern int dtrace_instr_size(uchar_t *instr); | |
2454 | extern int dtrace_instr_size_isa(uchar_t *, model_t, int *); | |
2455 | extern void dtrace_invop_add(int (*)(uintptr_t, uintptr_t *, uintptr_t)); | |
2456 | extern void dtrace_invop_remove(int (*)(uintptr_t, uintptr_t *, uintptr_t)); | |
2457 | extern void dtrace_invop_callsite(void); | |
2458 | #endif | |
2459 | ||
2460 | #ifdef __sparc | |
2461 | extern int dtrace_blksuword32(uintptr_t, uint32_t *, int); | |
2462 | extern void dtrace_getfsr(uint64_t *); | |
2463 | #endif | |
2464 | #else | |
2465 | #if defined(__i386__) || defined(__x86_64__) | |
2466 | extern int dtrace_instr_size(uchar_t *instr); | |
2467 | extern int dtrace_instr_size_isa(uchar_t *, model_t, int *); | |
2468 | extern void dtrace_invop_add(int (*)(uintptr_t, uintptr_t *, uintptr_t)); | |
2469 | extern void dtrace_invop_remove(int (*)(uintptr_t, uintptr_t *, uintptr_t)); | |
2470 | extern void *dtrace_invop_callsite_pre; | |
2471 | extern void *dtrace_invop_callsite_post; | |
2472 | #endif | |
2473 | ||
2474 | ||
2475 | #undef proc_t | |
2476 | #endif /* __APPLE__ */ | |
2477 | ||
2478 | #define DTRACE_CPUFLAG_ISSET(flag) \ | |
2479 | (cpu_core[CPU->cpu_id].cpuc_dtrace_flags & (flag)) | |
2480 | ||
2481 | #define DTRACE_CPUFLAG_SET(flag) \ | |
2482 | (cpu_core[CPU->cpu_id].cpuc_dtrace_flags |= (flag)) | |
2483 | ||
2484 | #define DTRACE_CPUFLAG_CLEAR(flag) \ | |
2485 | (cpu_core[CPU->cpu_id].cpuc_dtrace_flags &= ~(flag)) | |
2486 | ||
2487 | #endif /* _KERNEL */ | |
2488 | ||
2489 | #endif /* _ASM */ | |
2490 | ||
2491 | #if !defined(__APPLE__) | |
2492 | #if defined(__i386) || defined(__amd64) | |
2493 | ||
2494 | #define DTRACE_INVOP_PUSHL_EBP 1 | |
2495 | #define DTRACE_INVOP_POPL_EBP 2 | |
2496 | #define DTRACE_INVOP_LEAVE 3 | |
2497 | #define DTRACE_INVOP_NOP 4 | |
2498 | #define DTRACE_INVOP_RET 5 | |
2499 | ||
2500 | #endif | |
2501 | #else | |
2502 | #if defined(__i386__) || defined(__x86_64__) | |
2503 | ||
2504 | #define DTRACE_INVOP_PUSHL_EBP 1 | |
2505 | #define DTRACE_INVOP_POPL_EBP 2 | |
2506 | #define DTRACE_INVOP_LEAVE 3 | |
2507 | #define DTRACE_INVOP_NOP 4 | |
2508 | #define DTRACE_INVOP_RET 5 | |
2509 | ||
2510 | #endif | |
2511 | ||
2512 | ||
2513 | #endif /* __APPLE__ */ | |
2514 | ||
2515 | #ifdef __cplusplus | |
2516 | } | |
2517 | #endif | |
2518 | ||
2519 | #endif /* _SYS_DTRACE_H */ |