]> git.saurik.com Git - apple/xnu.git/blame - osfmk/kern/kcdata.h
xnu-4570.41.2.tar.gz
[apple/xnu.git] / osfmk / kern / kcdata.h
CommitLineData
39037602
A
1/*
2 * Copyright (c) 2015 Apple Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28
29
30/*
31 *
32 * THE KCDATA MANIFESTO
33 *
34 * Kcdata is a self-describing data serialization format. It is meant to get
35 * nested data structures out of xnu with minimum fuss, but also for that data
36 * to be easy to parse. It is also meant to allow us to add new fields and
37 * evolve the data format without breaking old parsers.
38 *
39 * Kcdata is a permanent data format suitable for long-term storage including
40 * in files. It is very important that we continue to be able to parse old
41 * versions of kcdata-based formats. To this end, there are several
42 * invariants you MUST MAINTAIN if you alter this file.
43 *
44 * * None of the magic numbers should ever be a byteswap of themselves or
45 * of any of the other magic numbers.
46 *
47 * * Never remove any type.
48 *
49 * * All kcdata structs must be packed, and must exclusively use fixed-size
50 * types.
51 *
52 * * Never change the definition of any type, except to add new fields to
53 * the end.
54 *
55 * * If you do add new fields to the end of a type, do not actually change
56 * the definition of the old structure. Instead, define a new structure
57 * with the new fields. See thread_snapshot_v3 as an example. This
58 * provides source compatibility for old readers, and also documents where
59 * the potential size cutoffs are.
60 *
61 * * If you change libkdd, or kcdata.py run the unit tests under libkdd.
62 *
63 * * If you add a type or extend an existing one, add a sample test to
64 * libkdd/tests so future changes to libkdd will always parse your struct
65 * correctly.
66 *
67 * For example to add a field to this:
68 *
69 * struct foobar {
70 * uint32_t baz;
71 * uint32_t quux;
72 * } __attribute__ ((packed));
73 *
74 * Make it look like this:
75 *
76 * struct foobar {
77 * uint32_t baz;
78 * uint32_t quux;
79 * ///////// end version 1 of foobar. sizeof(struct foobar) was 8 ////////
80 * uint32_t frozzle;
81 * } __attribute__ ((packed));
82 *
83 * If you are parsing kcdata formats, you MUST
84 *
85 * * Check the length field of each struct, including array elements. If the
86 * struct is longer than you expect, you must ignore the extra data.
87 *
88 * * Ignore any data types you do not understand.
89 *
90 * Additionally, we want to be as forward compatible as we can. Meaning old
91 * tools should still be able to use new data whenever possible. To this end,
92 * you should:
93 *
94 * * Try not to add new versions of types that supplant old ones. Instead
95 * extend the length of existing types or add supplemental types.
96 *
97 * * Try not to remove information from existing kcdata formats, unless
98 * removal was explicitly asked for. For example it is fine to add a
99 * stackshot flag to remove unwanted information, but you should not
100 * remove it from the default stackshot if the new flag is absent.
101 *
102 * * (TBD) If you do break old readers by removing information or
103 * supplanting old structs, then increase the major version number.
104 *
105 *
106 *
107 * The following is a description of the kcdata format.
108 *
109 *
110 * The format for data is setup in a generic format as follows
111 *
112 * Layout of data structure:
113 *
114 * | 8 - bytes |
115 * | type = MAGIC | LENGTH |
116 * | 0 |
117 * | type | size |
118 * | flags |
119 * | data |
120 * |___________data____________|
121 * | type | size |
122 * | flags |
123 * |___________data____________|
124 * | type = END | size=0 |
125 * | 0 |
126 *
127 *
128 * The type field describes what kind of data is passed. For example type = TASK_CRASHINFO_UUID means the following data is a uuid.
129 * These types need to be defined in task_corpses.h for easy consumption by userspace inspection tools.
130 *
131 * Some range of types is reserved for special types like ints, longs etc. A cool new functionality made possible with this
132 * extensible data format is that kernel can decide to put more information as required without requiring user space tools to
133 * re-compile to be compatible. The case of rusage struct versions could be introduced without breaking existing tools.
134 *
135 * Feature description: Generic data with description
136 * -------------------
137 * Further more generic data with description is very much possible now. For example
138 *
139 * - kcdata_add_uint64_with_description(cdatainfo, 0x700, "NUM MACH PORTS");
140 * - and more functions that allow adding description.
141 * The userspace tools can then look at the description and print the data even if they are not compiled with knowledge of the field apriori.
142 *
143 * Example data:
144 * 0000 57 f1 ad de 00 00 00 00 00 00 00 00 00 00 00 00 W...............
145 * 0010 01 00 00 00 00 00 00 00 30 00 00 00 00 00 00 00 ........0.......
146 * 0020 50 49 44 00 00 00 00 00 00 00 00 00 00 00 00 00 PID.............
147 * 0030 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
148 * 0040 9c 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
149 * 0050 01 00 00 00 00 00 00 00 30 00 00 00 00 00 00 00 ........0.......
150 * 0060 50 41 52 45 4e 54 20 50 49 44 00 00 00 00 00 00 PARENT PID......
151 * 0070 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
152 * 0080 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
153 * 0090 ed 58 91 f1
154 *
155 * Feature description: Container markers for compound data
156 * ------------------
157 * If a given kernel data type is complex and requires adding multiple optional fields inside a container
158 * object for a consumer to understand arbitrary data, we package it using container markers.
159 *
160 * For example, the stackshot code gathers information and describes the state of a given task with respect
161 * to many subsystems. It includes data such as io stats, vm counters, process names/flags and syscall counts.
162 *
163 * kcdata_add_container_marker(kcdata_p, KCDATA_TYPE_CONTAINER_BEGIN, STACKSHOT_KCCONTAINER_TASK, task_uniqueid);
164 * // add multiple data, or add_<type>_with_description()s here
165 *
166 * kcdata_add_container_marker(kcdata_p, KCDATA_TYPE_CONTAINER_END, STACKSHOT_KCCONTAINER_TASK, task_uniqueid);
167 *
168 * Feature description: Custom Data formats on demand
169 * --------------------
170 * With the self describing nature of format, the kernel provider can describe a data type (uniquely identified by a number) and use
171 * it in the buffer for sending data. The consumer can parse the type information and have knowledge of describing incoming data.
172 * Following is an example of how we can describe a kernel specific struct sample_disk_io_stats in buffer.
173 *
174 * struct sample_disk_io_stats {
175 * uint64_t disk_reads_count;
176 * uint64_t disk_reads_size;
177 * uint64_t io_priority_count[4];
178 * uint64_t io_priority_size;
179 * } __attribute__ ((packed));
180 *
181 *
182 * struct kcdata_subtype_descriptor disk_io_stats_def[] = {
183 * {KCS_SUBTYPE_FLAGS_NONE, KC_ST_UINT64, 0 * sizeof(uint64_t), sizeof(uint64_t), "disk_reads_count"},
184 * {KCS_SUBTYPE_FLAGS_NONE, KC_ST_UINT64, 1 * sizeof(uint64_t), sizeof(uint64_t), "disk_reads_size"},
185 * {KCS_SUBTYPE_FLAGS_ARRAY, KC_ST_UINT64, 2 * sizeof(uint64_t), KCS_SUBTYPE_PACK_SIZE(4, sizeof(uint64_t)), "io_priority_count"},
186 * {KCS_SUBTYPE_FLAGS_ARRAY, KC_ST_UINT64, (2 + 4) * sizeof(uint64_t), sizeof(uint64_t), "io_priority_size"},
187 * };
188 *
189 * Now you can add this custom type definition into the buffer as
190 * kcdata_add_type_definition(kcdata_p, KCTYPE_SAMPLE_DISK_IO_STATS, "sample_disk_io_stats",
191 * &disk_io_stats_def[0], sizeof(disk_io_stats_def)/sizeof(struct kcdata_subtype_descriptor));
192 *
193 */
194
195
196#ifndef _KCDATA_H_
197#define _KCDATA_H_
198
199#include <stdint.h>
200#include <string.h>
201#include <uuid/uuid.h>
202
203#define KCDATA_DESC_MAXLEN 32 /* including NULL byte at end */
204
205#define KCDATA_FLAGS_STRUCT_PADDING_MASK 0xf
206#define KCDATA_FLAGS_STRUCT_HAS_PADDING 0x80
207
208/*
209 * kcdata aligns elements to 16 byte boundaries.
210 */
211#define KCDATA_ALIGNMENT_SIZE 0x10
212
213struct kcdata_item {
214 uint32_t type;
215 uint32_t size; /* len(data) */
216 /* flags.
217 *
218 * For structures:
219 * padding = flags & 0xf
220 * has_padding = (flags & 0x80) >> 7
221 *
222 * has_padding is needed to disambiguate cases such as
223 * thread_snapshot_v2 and thread_snapshot_v3. Their
224 * respective sizes are 0x68 and 0x70, and thread_snapshot_v2
225 * was emmitted by old kernels *before* we started recording
226 * padding. Since legacy thread_snapsht_v2 and modern
227 * thread_snapshot_v3 will both record 0 for the padding
228 * flags, we need some other bit which will be nonzero in the
229 * flags to disambiguate.
230 *
231 * This is why we hardcode a special case for
232 * STACKSHOT_KCTYPE_THREAD_SNAPSHOT into the iterator
233 * functions below. There is only a finite number of such
234 * hardcodings which will ever be needed. They can occur
235 * when:
236 *
237 * * We have a legacy structure that predates padding flags
238 *
239 * * which we want to extend without changing the kcdata type
240 *
241 * * by only so many bytes as would fit in the space that
242 * was previously unused padding.
243 *
244 * For containers:
245 * container_id = flags
246 *
247 * For arrays:
248 * element_count = flags & UINT32_MAX
249 * element_type = (flags >> 32) & UINT32_MAX
250 */
251 uint64_t flags;
252 char data[]; /* must be at the end */
253};
254
255typedef struct kcdata_item * kcdata_item_t;
256
257enum KCDATA_SUBTYPE_TYPES { KC_ST_CHAR = 1, KC_ST_INT8, KC_ST_UINT8, KC_ST_INT16, KC_ST_UINT16, KC_ST_INT32, KC_ST_UINT32, KC_ST_INT64, KC_ST_UINT64 };
258typedef enum KCDATA_SUBTYPE_TYPES kctype_subtype_t;
259
260/*
261 * A subtype description structure that defines
262 * how a compound data is laid out in memory. This
263 * provides on the fly definition of types and consumption
264 * by the parser.
265 */
266struct kcdata_subtype_descriptor {
267 uint8_t kcs_flags;
268#define KCS_SUBTYPE_FLAGS_NONE 0x0
269#define KCS_SUBTYPE_FLAGS_ARRAY 0x1
270/* Force struct type even if only one element.
271 *
272 * Normally a kcdata_type_definition is treated as a structure if it has
273 * more than one subtype descriptor. Otherwise it is treated as a simple
274 * type. For example libkdd will represent a simple integer 42 as simply
275 * 42, but it will represent a structure containing an integer 42 as
276 * {"field_name": 42}..
277 *
278 * If a kcdata_type_definition has only single subtype, then it will be
279 * treated as a structure iff KCS_SUBTYPE_FLAGS_STRUCT is set. If it has
280 * multiple subtypes, it will always be treated as a structure.
281 *
282 * KCS_SUBTYPE_FLAGS_MERGE has the opposite effect. If this flag is used then
283 * even if there are multiple elements, they will all be treated as individual
284 * properties of the parent dictionary.
285 */
286#define KCS_SUBTYPE_FLAGS_STRUCT 0x2 /* force struct type even if only one element */
287#define KCS_SUBTYPE_FLAGS_MERGE 0x4 /* treat as multiple elements of parents instead of struct */
288 uint8_t kcs_elem_type; /* restricted to kctype_subtype_t */
289 uint16_t kcs_elem_offset; /* offset in struct where data is found */
290 uint32_t kcs_elem_size; /* size of element (or) packed state for array type */
291 char kcs_name[KCDATA_DESC_MAXLEN]; /* max 31 bytes for name of field */
292};
293
294typedef struct kcdata_subtype_descriptor * kcdata_subtype_descriptor_t;
295
296/*
297 * In case of array of basic c types in kctype_subtype_t,
298 * size is packed in lower 16 bits and
299 * count is packed in upper 16 bits of kcs_elem_size field.
300 */
301#define KCS_SUBTYPE_PACK_SIZE(e_count, e_size) (((e_count)&0xffffu) << 16 | ((e_size)&0xffffu))
302
303static inline uint32_t
304kcs_get_elem_size(kcdata_subtype_descriptor_t d)
305{
306 if (d->kcs_flags & KCS_SUBTYPE_FLAGS_ARRAY) {
307 /* size is composed as ((count &0xffff)<<16 | (elem_size & 0xffff)) */
308 return (uint32_t)((d->kcs_elem_size & 0xffff) * ((d->kcs_elem_size & 0xffff0000)>>16));
309 }
310 return d->kcs_elem_size;
311}
312
313static inline uint32_t
314kcs_get_elem_count(kcdata_subtype_descriptor_t d)
315{
316 if (d->kcs_flags & KCS_SUBTYPE_FLAGS_ARRAY)
317 return (d->kcs_elem_size >> 16) & 0xffff;
318 return 1;
319}
320
321static inline int
322kcs_set_elem_size(kcdata_subtype_descriptor_t d, uint32_t size, uint32_t count)
323{
324 if (count > 1) {
325 /* means we are setting up an array */
326 if (size > 0xffff || count > 0xffff)
327 return -1; //invalid argument
328 d->kcs_elem_size = ((count & 0xffff) << 16 | (size & 0xffff));
329 }
330 else
331 {
332 d->kcs_elem_size = size;
333 }
334 return 0;
335}
336
337struct kcdata_type_definition {
338 uint32_t kct_type_identifier;
339 uint32_t kct_num_elements;
340 char kct_name[KCDATA_DESC_MAXLEN];
341 struct kcdata_subtype_descriptor kct_elements[];
342};
343
344
345/* chunk type definitions. 0 - 0x7ff are reserved and defined here
346 * NOTE: Please update kcdata/libkdd/kcdtypes.c if you make any changes
347 * in STACKSHOT_KCTYPE_* types.
348 */
349
350/*
351 * Types with description value.
352 * these will have KCDATA_DESC_MAXLEN-1 length string description
353 * and rest of kcdata_iter_size() - KCDATA_DESC_MAXLEN bytes as data
354 */
355#define KCDATA_TYPE_INVALID 0x0u
356#define KCDATA_TYPE_STRING_DESC 0x1u
357#define KCDATA_TYPE_UINT32_DESC 0x2u
358#define KCDATA_TYPE_UINT64_DESC 0x3u
359#define KCDATA_TYPE_INT32_DESC 0x4u
360#define KCDATA_TYPE_INT64_DESC 0x5u
361#define KCDATA_TYPE_BINDATA_DESC 0x6u
362
363/*
364 * Compound type definitions
365 */
366#define KCDATA_TYPE_ARRAY 0x11u /* Array of data OBSOLETE DONT USE THIS*/
367#define KCDATA_TYPE_TYPEDEFINTION 0x12u /* Meta type that describes a type on the fly. */
368#define KCDATA_TYPE_CONTAINER_BEGIN \
369 0x13u /* Container type which has corresponding CONTAINER_END header. \
370 * KCDATA_TYPE_CONTAINER_BEGIN has type in the data segment. \
371 * Both headers have (uint64_t) ID for matching up nested data. \
372 */
373#define KCDATA_TYPE_CONTAINER_END 0x14u
374
375#define KCDATA_TYPE_ARRAY_PAD0 0x20u /* Array of data with 0 byte of padding*/
376#define KCDATA_TYPE_ARRAY_PAD1 0x21u /* Array of data with 1 byte of padding*/
377#define KCDATA_TYPE_ARRAY_PAD2 0x22u /* Array of data with 2 byte of padding*/
378#define KCDATA_TYPE_ARRAY_PAD3 0x23u /* Array of data with 3 byte of padding*/
379#define KCDATA_TYPE_ARRAY_PAD4 0x24u /* Array of data with 4 byte of padding*/
380#define KCDATA_TYPE_ARRAY_PAD5 0x25u /* Array of data with 5 byte of padding*/
381#define KCDATA_TYPE_ARRAY_PAD6 0x26u /* Array of data with 6 byte of padding*/
382#define KCDATA_TYPE_ARRAY_PAD7 0x27u /* Array of data with 7 byte of padding*/
383#define KCDATA_TYPE_ARRAY_PAD8 0x28u /* Array of data with 8 byte of padding*/
384#define KCDATA_TYPE_ARRAY_PAD9 0x29u /* Array of data with 9 byte of padding*/
385#define KCDATA_TYPE_ARRAY_PADa 0x2au /* Array of data with a byte of padding*/
386#define KCDATA_TYPE_ARRAY_PADb 0x2bu /* Array of data with b byte of padding*/
387#define KCDATA_TYPE_ARRAY_PADc 0x2cu /* Array of data with c byte of padding*/
388#define KCDATA_TYPE_ARRAY_PADd 0x2du /* Array of data with d byte of padding*/
389#define KCDATA_TYPE_ARRAY_PADe 0x2eu /* Array of data with e byte of padding*/
390#define KCDATA_TYPE_ARRAY_PADf 0x2fu /* Array of data with f byte of padding*/
391
392/*
393 * Generic data types that are most commonly used
394 */
395#define KCDATA_TYPE_LIBRARY_LOADINFO 0x30u /* struct dyld_uuid_info_32 */
396#define KCDATA_TYPE_LIBRARY_LOADINFO64 0x31u /* struct dyld_uuid_info_64 */
397#define KCDATA_TYPE_TIMEBASE 0x32u /* struct mach_timebase_info */
398#define KCDATA_TYPE_MACH_ABSOLUTE_TIME 0x33u /* uint64_t */
399#define KCDATA_TYPE_TIMEVAL 0x34u /* struct timeval64 */
400#define KCDATA_TYPE_USECS_SINCE_EPOCH 0x35u /* time in usecs uint64_t */
401#define KCDATA_TYPE_PID 0x36u /* int32_t */
402#define KCDATA_TYPE_PROCNAME 0x37u /* char * */
403#define KCDATA_TYPE_NESTED_KCDATA 0x38u /* nested kcdata buffer */
404
405#define KCDATA_TYPE_BUFFER_END 0xF19158EDu
406
407/* MAGIC numbers defined for each class of chunked data
408 *
409 * To future-proof against big-endian arches, make sure none of these magic
410 * numbers are byteswaps of each other
411 */
412
413#define KCDATA_BUFFER_BEGIN_CRASHINFO 0xDEADF157u /* owner: corpses/task_corpse.h */
414 /* type-range: 0x800 - 0x8ff */
415#define KCDATA_BUFFER_BEGIN_STACKSHOT 0x59a25807u /* owner: sys/stackshot.h */
416 /* type-range: 0x900 - 0x93f */
417#define KCDATA_BUFFER_BEGIN_DELTA_STACKSHOT 0xDE17A59Au /* owner: sys/stackshot.h */
418 /* type-range: 0x940 - 0x9ff */
419#define KCDATA_BUFFER_BEGIN_OS_REASON 0x53A20900u /* owner: sys/reason.h */
420 /* type-range: 0x1000-0x103f */
421#define KCDATA_BUFFER_BEGIN_XNUPOST_CONFIG 0x1e21c09fu /* owner: osfmk/tests/kernel_tests.c */
422 /* type-range: 0x1040-0x105f */
423
424/* next type range number available 0x1060 */
425/**************** definitions for XNUPOST *********************/
426#define XNUPOST_KCTYPE_TESTCONFIG 0x1040
427
428/**************** definitions for stackshot *********************/
429
430/* This value must always match IO_NUM_PRIORITIES defined in thread_info.h */
431#define STACKSHOT_IO_NUM_PRIORITIES 4
432/* This value must always match MAXTHREADNAMESIZE used in bsd */
433#define STACKSHOT_MAX_THREAD_NAME_SIZE 64
434
435/*
436 * NOTE: Please update kcdata/libkdd/kcdtypes.c if you make any changes
437 * in STACKSHOT_KCTYPE_* types.
438 */
439#define STACKSHOT_KCTYPE_IOSTATS 0x901u /* io_stats_snapshot */
440#define STACKSHOT_KCTYPE_GLOBAL_MEM_STATS 0x902u /* struct mem_and_io_snapshot */
441#define STACKSHOT_KCCONTAINER_TASK 0x903u
442#define STACKSHOT_KCCONTAINER_THREAD 0x904u
443#define STACKSHOT_KCTYPE_TASK_SNAPSHOT 0x905u /* task_snapshot_v2 */
444#define STACKSHOT_KCTYPE_THREAD_SNAPSHOT 0x906u /* thread_snapshot_v2, thread_snapshot_v3 */
445#define STACKSHOT_KCTYPE_DONATING_PIDS 0x907u /* int[] */
446#define STACKSHOT_KCTYPE_SHAREDCACHE_LOADINFO 0x908u /* same as KCDATA_TYPE_LIBRARY_LOADINFO64 */
447#define STACKSHOT_KCTYPE_THREAD_NAME 0x909u /* char[] */
448#define STACKSHOT_KCTYPE_KERN_STACKFRAME 0x90Au /* struct stack_snapshot_frame32 */
449#define STACKSHOT_KCTYPE_KERN_STACKFRAME64 0x90Bu /* struct stack_snapshot_frame64 */
450#define STACKSHOT_KCTYPE_USER_STACKFRAME 0x90Cu /* struct stack_snapshot_frame32 */
451#define STACKSHOT_KCTYPE_USER_STACKFRAME64 0x90Du /* struct stack_snapshot_frame64 */
452#define STACKSHOT_KCTYPE_BOOTARGS 0x90Eu /* boot args string */
453#define STACKSHOT_KCTYPE_OSVERSION 0x90Fu /* os version string */
454#define STACKSHOT_KCTYPE_KERN_PAGE_SIZE 0x910u /* kernel page size in uint32_t */
455#define STACKSHOT_KCTYPE_JETSAM_LEVEL 0x911u /* jetsam level in uint32_t */
456#define STACKSHOT_KCTYPE_DELTA_SINCE_TIMESTAMP 0x912u /* timestamp used for the delta stackshot */
457
458#define STACKSHOT_KCTYPE_TASK_DELTA_SNAPSHOT 0x940u /* task_delta_snapshot_v2 */
459#define STACKSHOT_KCTYPE_THREAD_DELTA_SNAPSHOT 0x941u /* thread_delta_snapshot_v2 */
460
461#define STACKSHOT_KCTYPE_KERN_STACKLR 0x913u /* uint32_t */
462#define STACKSHOT_KCTYPE_KERN_STACKLR64 0x914u /* uint64_t */
463#define STACKSHOT_KCTYPE_USER_STACKLR 0x915u /* uint32_t */
464#define STACKSHOT_KCTYPE_USER_STACKLR64 0x916u /* uint64_t */
465#define STACKSHOT_KCTYPE_NONRUNNABLE_TIDS 0x917u /* uint64_t */
466#define STACKSHOT_KCTYPE_NONRUNNABLE_TASKS 0x918u /* uint64_t */
467#define STACKSHOT_KCTYPE_CPU_TIMES 0x919u /* struct stackshot_cpu_times */
468#define STACKSHOT_KCTYPE_STACKSHOT_DURATION 0x91au /* struct stackshot_duration */
469#define STACKSHOT_KCTYPE_STACKSHOT_FAULT_STATS 0x91bu /* struct stackshot_fault_stats */
470#define STACKSHOT_KCTYPE_KERNELCACHE_LOADINFO 0x91cu /* kernelcache UUID -- same as KCDATA_TYPE_LIBRARY_LOADINFO64 */
813fb2f6 471#define STACKSHOT_KCTYPE_THREAD_WAITINFO 0x91du /* struct stackshot_thread_waitinfo */
5c9f4661 472#define STACKSHOT_KCTYPE_THREAD_GROUP_SNAPSHOT 0x91eu /* struct thread_group_snapshot or thread_group_snapshot_v2 */
5ba3f43e
A
473#define STACKSHOT_KCTYPE_THREAD_GROUP 0x91fu /* uint64_t */
474#define STACKSHOT_KCTYPE_JETSAM_COALITION_SNAPSHOT 0x920u /* struct jetsam_coalition_snapshot */
475#define STACKSHOT_KCTYPE_JETSAM_COALITION 0x921u /* uint64_t */
476#define STACKSHOT_KCTYPE_INSTRS_CYCLES 0x923u /* struct instrs_cycles_snapshot */
477
478#define STACKSHOT_KCTYPE_THREAD_POLICY_VERSION 0x922u /* THREAD_POLICY_INTERNAL_STRUCT_VERSION in uint32 */
39037602
A
479
480struct stack_snapshot_frame32 {
481 uint32_t lr;
482 uint32_t sp;
483};
484
485struct stack_snapshot_frame64 {
486 uint64_t lr;
487 uint64_t sp;
488};
489
490struct dyld_uuid_info_32 {
491 uint32_t imageLoadAddress; /* base address image is mapped at */
492 uuid_t imageUUID;
493};
494
495struct dyld_uuid_info_64 {
496 uint64_t imageLoadAddress; /* XXX image slide */
497 uuid_t imageUUID;
498};
499
500struct dyld_uuid_info_64_v2 {
501 uint64_t imageLoadAddress; /* XXX image slide */
502 uuid_t imageUUID;
503 /* end of version 1 of dyld_uuid_info_64. sizeof v1 was 24 */
504 uint64_t imageSlidBaseAddress; /* slid base address of image */
505};
506
507struct user32_dyld_uuid_info {
508 uint32_t imageLoadAddress; /* base address image is mapped into */
509 uuid_t imageUUID; /* UUID of image */
510};
511
512struct user64_dyld_uuid_info {
513 uint64_t imageLoadAddress; /* base address image is mapped into */
514 uuid_t imageUUID; /* UUID of image */
515};
516
517enum task_snapshot_flags {
518 kTaskRsrcFlagged = 0x4, // In the EXC_RESOURCE danger zone?
519 kTerminatedSnapshot = 0x8,
520 kPidSuspended = 0x10, // true for suspended task
521 kFrozen = 0x20, // true for hibernated task (along with pidsuspended)
522 kTaskDarwinBG = 0x40,
523 kTaskExtDarwinBG = 0x80,
524 kTaskVisVisible = 0x100,
525 kTaskVisNonvisible = 0x200,
526 kTaskIsForeground = 0x400,
527 kTaskIsBoosted = 0x800,
528 kTaskIsSuppressed = 0x1000,
529 kTaskIsTimerThrottled = 0x2000, /* deprecated */
530 kTaskIsImpDonor = 0x4000,
531 kTaskIsLiveImpDonor = 0x8000,
532 kTaskIsDirty = 0x10000,
533 kTaskWqExceededConstrainedThreadLimit = 0x20000,
534 kTaskWqExceededTotalThreadLimit = 0x40000,
535 kTaskWqFlagsAvailable = 0x80000,
536 kTaskUUIDInfoFaultedIn = 0x100000, /* successfully faulted in some UUID info */
537 kTaskUUIDInfoMissing = 0x200000, /* some UUID info was paged out */
538 kTaskUUIDInfoTriedFault = 0x400000, /* tried to fault in UUID info */
539 kTaskSharedRegionInfoUnavailable = 0x800000, /* shared region info unavailable */
540};
541
542enum thread_snapshot_flags {
543 kHasDispatchSerial = 0x4,
544 kStacksPCOnly = 0x8, /* Stack traces have no frame pointers. */
545 kThreadDarwinBG = 0x10, /* Thread is darwinbg */
546 kThreadIOPassive = 0x20, /* Thread uses passive IO */
547 kThreadSuspended = 0x40, /* Thread is suspended */
548 kThreadTruncatedBT = 0x80, /* Unmapped pages caused truncated backtrace */
549 kGlobalForcedIdle = 0x100, /* Thread performs global forced idle */
550 kThreadFaultedBT = 0x200, /* Some thread stack pages were faulted in as part of BT */
551 kThreadTriedFaultBT = 0x400, /* We tried to fault in thread stack pages as part of BT */
552 kThreadOnCore = 0x800, /* Thread was on-core when we entered debugger context */
553 kThreadIdleWorker = 0x1000, /* Thread is an idle libpthread worker thread */
5ba3f43e 554 kThreadMain = 0x2000, /* Thread is the main thread */
39037602
A
555};
556
557struct mem_and_io_snapshot {
558 uint32_t snapshot_magic;
559 uint32_t free_pages;
560 uint32_t active_pages;
561 uint32_t inactive_pages;
562 uint32_t purgeable_pages;
563 uint32_t wired_pages;
564 uint32_t speculative_pages;
565 uint32_t throttled_pages;
566 uint32_t filebacked_pages;
567 uint32_t compressions;
568 uint32_t decompressions;
569 uint32_t compressor_size;
570 int32_t busy_buffer_count;
571 uint32_t pages_wanted;
572 uint32_t pages_reclaimed;
573 uint8_t pages_wanted_reclaimed_valid; // did mach_vm_pressure_monitor succeed?
574} __attribute__((packed));
575
576/* SS_TH_* macros are for ths_state */
577#define SS_TH_WAIT 0x01 /* queued for waiting */
578#define SS_TH_SUSP 0x02 /* stopped or requested to stop */
579#define SS_TH_RUN 0x04 /* running or on runq */
580#define SS_TH_UNINT 0x08 /* waiting uninteruptibly */
581#define SS_TH_TERMINATE 0x10 /* halted at termination */
582#define SS_TH_TERMINATE2 0x20 /* added to termination queue */
583#define SS_TH_IDLE 0x80 /* idling processor */
584
585struct thread_snapshot_v2 {
586 uint64_t ths_thread_id;
587 uint64_t ths_wait_event;
588 uint64_t ths_continuation;
589 uint64_t ths_total_syscalls;
590 uint64_t ths_voucher_identifier;
591 uint64_t ths_dqserialnum;
592 uint64_t ths_user_time;
593 uint64_t ths_sys_time;
594 uint64_t ths_ss_flags;
595 uint64_t ths_last_run_time;
596 uint64_t ths_last_made_runnable_time;
597 uint32_t ths_state;
598 uint32_t ths_sched_flags;
599 int16_t ths_base_priority;
600 int16_t ths_sched_priority;
601 uint8_t ths_eqos;
602 uint8_t ths_rqos;
603 uint8_t ths_rqos_override;
604 uint8_t ths_io_tier;
605} __attribute__((packed));
606
607struct thread_snapshot_v3 {
608 uint64_t ths_thread_id;
609 uint64_t ths_wait_event;
610 uint64_t ths_continuation;
611 uint64_t ths_total_syscalls;
612 uint64_t ths_voucher_identifier;
613 uint64_t ths_dqserialnum;
614 uint64_t ths_user_time;
615 uint64_t ths_sys_time;
616 uint64_t ths_ss_flags;
617 uint64_t ths_last_run_time;
618 uint64_t ths_last_made_runnable_time;
619 uint32_t ths_state;
620 uint32_t ths_sched_flags;
621 int16_t ths_base_priority;
622 int16_t ths_sched_priority;
623 uint8_t ths_eqos;
624 uint8_t ths_rqos;
625 uint8_t ths_rqos_override;
626 uint8_t ths_io_tier;
627 uint64_t ths_thread_t;
628} __attribute__((packed));
629
5ba3f43e
A
630
631struct thread_snapshot_v4 {
632 uint64_t ths_thread_id;
633 uint64_t ths_wait_event;
634 uint64_t ths_continuation;
635 uint64_t ths_total_syscalls;
636 uint64_t ths_voucher_identifier;
637 uint64_t ths_dqserialnum;
638 uint64_t ths_user_time;
639 uint64_t ths_sys_time;
640 uint64_t ths_ss_flags;
641 uint64_t ths_last_run_time;
642 uint64_t ths_last_made_runnable_time;
643 uint32_t ths_state;
644 uint32_t ths_sched_flags;
645 int16_t ths_base_priority;
646 int16_t ths_sched_priority;
647 uint8_t ths_eqos;
648 uint8_t ths_rqos;
649 uint8_t ths_rqos_override;
650 uint8_t ths_io_tier;
651 uint64_t ths_thread_t;
652 uint64_t ths_requested_policy;
653 uint64_t ths_effective_policy;
654} __attribute__((packed));
655
656
657struct thread_group_snapshot {
658 uint64_t tgs_id;
659 char tgs_name[16];
660} __attribute__((packed));
661
5c9f4661
A
662enum thread_group_flags {
663 kThreadGroupEfficient = 0x1,
664 kThreadGroupUIApp = 0x2
665};
666
667struct thread_group_snapshot_v2 {
668 uint64_t tgs_id;
669 char tgs_name[16];
670 uint64_t tgs_flags;
671} __attribute__((packed));
672
5ba3f43e
A
673enum coalition_flags {
674 kCoalitionTermRequested = 0x1,
675 kCoalitionTerminated = 0x2,
676 kCoalitionReaped = 0x4,
677 kCoalitionPrivileged = 0x8,
678};
679
680struct jetsam_coalition_snapshot {
681 uint64_t jcs_id;
682 uint64_t jcs_flags;
683 uint64_t jcs_thread_group;
684 uint64_t jcs_leader_task_uniqueid;
685} __attribute__((packed));
686
687struct instrs_cycles_snapshot {
688 uint64_t ics_instructions;
689 uint64_t ics_cycles;
690} __attribute__((packed));
691
39037602
A
692struct thread_delta_snapshot_v2 {
693 uint64_t tds_thread_id;
694 uint64_t tds_voucher_identifier;
695 uint64_t tds_ss_flags;
696 uint64_t tds_last_made_runnable_time;
697 uint32_t tds_state;
698 uint32_t tds_sched_flags;
699 int16_t tds_base_priority;
700 int16_t tds_sched_priority;
701 uint8_t tds_eqos;
702 uint8_t tds_rqos;
703 uint8_t tds_rqos_override;
704 uint8_t tds_io_tier;
705} __attribute__ ((packed));
706
707struct io_stats_snapshot
708{
709 /*
710 * I/O Statistics
711 * XXX: These fields must be together.
712 */
713 uint64_t ss_disk_reads_count;
714 uint64_t ss_disk_reads_size;
715 uint64_t ss_disk_writes_count;
716 uint64_t ss_disk_writes_size;
717 uint64_t ss_io_priority_count[STACKSHOT_IO_NUM_PRIORITIES];
718 uint64_t ss_io_priority_size[STACKSHOT_IO_NUM_PRIORITIES];
719 uint64_t ss_paging_count;
720 uint64_t ss_paging_size;
721 uint64_t ss_non_paging_count;
722 uint64_t ss_non_paging_size;
723 uint64_t ss_data_count;
724 uint64_t ss_data_size;
725 uint64_t ss_metadata_count;
726 uint64_t ss_metadata_size;
727 /* XXX: I/O Statistics end */
728
729} __attribute__ ((packed));
730
731struct task_snapshot_v2 {
732 uint64_t ts_unique_pid;
733 uint64_t ts_ss_flags;
734 uint64_t ts_user_time_in_terminated_threads;
735 uint64_t ts_system_time_in_terminated_threads;
736 uint64_t ts_p_start_sec;
737 uint64_t ts_task_size;
738 uint64_t ts_max_resident_size;
739 uint32_t ts_suspend_count;
740 uint32_t ts_faults;
741 uint32_t ts_pageins;
742 uint32_t ts_cow_faults;
743 uint32_t ts_was_throttled;
744 uint32_t ts_did_throttle;
745 uint32_t ts_latency_qos;
746 int32_t ts_pid;
747 char ts_p_comm[32];
748} __attribute__ ((packed));
749
750struct task_delta_snapshot_v2 {
751 uint64_t tds_unique_pid;
752 uint64_t tds_ss_flags;
753 uint64_t tds_user_time_in_terminated_threads;
754 uint64_t tds_system_time_in_terminated_threads;
755 uint64_t tds_task_size;
756 uint64_t tds_max_resident_size;
757 uint32_t tds_suspend_count;
758 uint32_t tds_faults;
759 uint32_t tds_pageins;
760 uint32_t tds_cow_faults;
761 uint32_t tds_was_throttled;
762 uint32_t tds_did_throttle;
763 uint32_t tds_latency_qos;
764} __attribute__ ((packed));
765
766struct stackshot_cpu_times {
767 uint64_t user_usec;
768 uint64_t system_usec;
769} __attribute__((packed));
770
771struct stackshot_duration {
772 uint64_t stackshot_duration;
773 uint64_t stackshot_duration_outer;
774} __attribute__((packed));
775
776struct stackshot_fault_stats {
777 uint32_t sfs_pages_faulted_in; /* number of pages faulted in using KDP fault path */
778 uint64_t sfs_time_spent_faulting; /* MATUs spent faulting */
779 uint64_t sfs_system_max_fault_time; /* MATUs fault time limit per stackshot */
780 uint8_t sfs_stopped_faulting; /* we stopped decompressing because we hit the limit */
781} __attribute__((packed));
782
813fb2f6
A
783typedef struct stackshot_thread_waitinfo {
784 uint64_t owner; /* The thread that owns the object */
785 uint64_t waiter; /* The thread that's waiting on the object */
786 uint64_t context; /* A context uniquely identifying the object */
787 uint8_t wait_type; /* The type of object that the thread is waiting on */
788} __attribute__((packed)) thread_waitinfo_t;
789
790#define STACKSHOT_WAITOWNER_KERNEL (UINT64_MAX - 1)
791#define STACKSHOT_WAITOWNER_PORT_LOCKED (UINT64_MAX - 2)
792#define STACKSHOT_WAITOWNER_PSET_LOCKED (UINT64_MAX - 3)
793#define STACKSHOT_WAITOWNER_INTRANSIT (UINT64_MAX - 4)
794#define STACKSHOT_WAITOWNER_MTXSPIN (UINT64_MAX - 5)
5ba3f43e
A
795#define STACKSHOT_WAITOWNER_THREQUESTED (UINT64_MAX - 6) /* workloop waiting for a new worker thread */
796#define STACKSHOT_WAITOWNER_SUSPENDED (UINT64_MAX - 7) /* workloop is suspended */
813fb2f6
A
797
798
39037602
A
799/**************** definitions for crashinfo *********************/
800
801/*
802 * NOTE: Please update kcdata/libkdd/kcdtypes.c if you make any changes
803 * in TASK_CRASHINFO_* types.
804 */
805
806/* FIXME some of these types aren't clean (fixed width, packed, and defined *here*) */
807
808#define TASK_CRASHINFO_BEGIN KCDATA_BUFFER_BEGIN_CRASHINFO
809#define TASK_CRASHINFO_STRING_DESC KCDATA_TYPE_STRING_DESC
810#define TASK_CRASHINFO_UINT32_DESC KCDATA_TYPE_UINT32_DESC
811#define TASK_CRASHINFO_UINT64_DESC KCDATA_TYPE_UINT64_DESC
812
813#define TASK_CRASHINFO_EXTMODINFO 0x801
814#define TASK_CRASHINFO_BSDINFOWITHUNIQID 0x802 /* struct proc_uniqidentifierinfo */
815#define TASK_CRASHINFO_TASKDYLD_INFO 0x803
816#define TASK_CRASHINFO_UUID 0x804
817#define TASK_CRASHINFO_PID 0x805
818#define TASK_CRASHINFO_PPID 0x806
819#define TASK_CRASHINFO_RUSAGE 0x807 /* struct rusage DEPRECATED do not use.
820 This struct has longs in it */
821#define TASK_CRASHINFO_RUSAGE_INFO 0x808 /* struct rusage_info_v3 from resource.h */
822#define TASK_CRASHINFO_PROC_NAME 0x809 /* char * */
823#define TASK_CRASHINFO_PROC_STARTTIME 0x80B /* struct timeval64 */
824#define TASK_CRASHINFO_USERSTACK 0x80C /* uint64_t */
825#define TASK_CRASHINFO_ARGSLEN 0x80D
826#define TASK_CRASHINFO_EXCEPTION_CODES 0x80E /* mach_exception_data_t */
827#define TASK_CRASHINFO_PROC_PATH 0x80F /* string of len MAXPATHLEN */
828#define TASK_CRASHINFO_PROC_CSFLAGS 0x810 /* uint32_t */
829#define TASK_CRASHINFO_PROC_STATUS 0x811 /* char */
830#define TASK_CRASHINFO_UID 0x812 /* uid_t */
831#define TASK_CRASHINFO_GID 0x813 /* gid_t */
832#define TASK_CRASHINFO_PROC_ARGC 0x814 /* int */
833#define TASK_CRASHINFO_PROC_FLAGS 0x815 /* unsigned int */
834#define TASK_CRASHINFO_CPUTYPE 0x816 /* cpu_type_t */
835#define TASK_CRASHINFO_WORKQUEUEINFO 0x817 /* struct proc_workqueueinfo */
836#define TASK_CRASHINFO_RESPONSIBLE_PID 0x818 /* pid_t */
837#define TASK_CRASHINFO_DIRTY_FLAGS 0x819 /* int */
838#define TASK_CRASHINFO_CRASHED_THREADID 0x81A /* uint64_t */
839#define TASK_CRASHINFO_COALITION_ID 0x81B /* uint64_t */
840#define TASK_CRASHINFO_UDATA_PTRS 0x81C /* uint64_t */
841#define TASK_CRASHINFO_MEMORY_LIMIT 0x81D /* uint64_t */
842
843#define TASK_CRASHINFO_END KCDATA_TYPE_BUFFER_END
844
845/**************** definitions for os reasons *********************/
846
847#define EXIT_REASON_SNAPSHOT 0x1001
848#define EXIT_REASON_USER_DESC 0x1002 /* string description of reason */
849#define EXIT_REASON_USER_PAYLOAD 0x1003 /* user payload data */
850#define EXIT_REASON_CODESIGNING_INFO 0x1004
5ba3f43e
A
851#define EXIT_REASON_WORKLOOP_ID 0x1005
852#define EXIT_REASON_DISPATCH_QUEUE_NO 0x1006
39037602
A
853
854struct exit_reason_snapshot {
855 uint32_t ers_namespace;
856 uint64_t ers_code;
857 /* end of version 1 of exit_reason_snapshot. sizeof v1 was 12 */
858 uint64_t ers_flags;
859} __attribute__((packed));
860
861#define EXIT_REASON_CODESIG_PATH_MAX 1024
862
863struct codesigning_exit_reason_info {
864 uint64_t ceri_virt_addr;
865 uint64_t ceri_file_offset;
866 char ceri_pathname[EXIT_REASON_CODESIG_PATH_MAX];
867 char ceri_filename[EXIT_REASON_CODESIG_PATH_MAX];
868 uint64_t ceri_codesig_modtime_secs;
869 uint64_t ceri_codesig_modtime_nsecs;
870 uint64_t ceri_page_modtime_secs;
871 uint64_t ceri_page_modtime_nsecs;
872 uint8_t ceri_path_truncated;
873 uint8_t ceri_object_codesigned;
874 uint8_t ceri_page_codesig_validated;
875 uint8_t ceri_page_codesig_tainted;
876 uint8_t ceri_page_codesig_nx;
877 uint8_t ceri_page_wpmapped;
878 uint8_t ceri_page_slid;
879 uint8_t ceri_page_dirty;
880 uint32_t ceri_page_shadow_depth;
881} __attribute__((packed));
882
883#define EXIT_REASON_USER_DESC_MAX_LEN 1024
884#define EXIT_REASON_PAYLOAD_MAX_LEN 2048
885/**************** safe iterators *********************/
886
887typedef struct kcdata_iter {
888 kcdata_item_t item;
889 void *end;
890} kcdata_iter_t;
891
892
893static inline
894kcdata_iter_t kcdata_iter(void *buffer, unsigned long size) {
895 kcdata_iter_t iter;
896 iter.item = (kcdata_item_t) buffer;
897 iter.end = (void*) (((uintptr_t)buffer) + size);
898 return iter;
899}
900
901static inline
902kcdata_iter_t kcdata_iter_unsafe(void *buffer) __attribute__((deprecated));
903
904static inline
905kcdata_iter_t kcdata_iter_unsafe(void *buffer) {
906 kcdata_iter_t iter;
907 iter.item = (kcdata_item_t) buffer;
908 iter.end = (void*) (uintptr_t) ~0;
909 return iter;
910}
911
912static const kcdata_iter_t kcdata_invalid_iter = { .item = 0, .end = 0 };
913
914static inline
915int kcdata_iter_valid(kcdata_iter_t iter) {
916 return
917 ( (uintptr_t)iter.item + sizeof(struct kcdata_item) <= (uintptr_t)iter.end ) &&
918 ( (uintptr_t)iter.item + sizeof(struct kcdata_item) + iter.item->size <= (uintptr_t)iter.end);
919}
920
921
922static inline
923kcdata_iter_t kcdata_iter_next(kcdata_iter_t iter) {
924 iter.item = (kcdata_item_t) (((uintptr_t)iter.item) + sizeof(struct kcdata_item) + (iter.item->size));
925 return iter;
926}
927
928static inline uint32_t
929kcdata_iter_type(kcdata_iter_t iter)
930{
931 if ((iter.item->type & ~0xfu) == KCDATA_TYPE_ARRAY_PAD0)
932 return KCDATA_TYPE_ARRAY;
933 else
934 return iter.item->type;
935}
936
937static inline uint32_t
938kcdata_calc_padding(uint32_t size)
939{
940 /* calculate number of bits to add to size to get something divisible by 16 */
941 return (-size) & 0xf;
942}
943
944static inline uint32_t
945kcdata_flags_get_padding(uint64_t flags)
946{
947 return flags & KCDATA_FLAGS_STRUCT_PADDING_MASK;
948}
949
950/* see comment above about has_padding */
951static inline int
952kcdata_iter_is_legacy_item(kcdata_iter_t iter, uint32_t legacy_size)
953{
954 uint32_t legacy_size_padded = legacy_size + kcdata_calc_padding(legacy_size);
955 return (iter.item->size == legacy_size_padded &&
956 (iter.item->flags & (KCDATA_FLAGS_STRUCT_PADDING_MASK | KCDATA_FLAGS_STRUCT_HAS_PADDING)) == 0);
957
958}
959
960static inline uint32_t
961kcdata_iter_size(kcdata_iter_t iter)
962{
963 uint32_t legacy_size = 0;
964
965 switch (kcdata_iter_type(iter)) {
966 case KCDATA_TYPE_ARRAY:
967 case KCDATA_TYPE_CONTAINER_BEGIN:
968 return iter.item->size;
969 case STACKSHOT_KCTYPE_THREAD_SNAPSHOT: {
970 legacy_size = sizeof(struct thread_snapshot_v2);
971 if (kcdata_iter_is_legacy_item(iter, legacy_size)) {
972 return legacy_size;
973 }
974
975 goto not_legacy;
976 }
977 case STACKSHOT_KCTYPE_SHAREDCACHE_LOADINFO: {
978 legacy_size = sizeof(struct dyld_uuid_info_64);
979 if (kcdata_iter_is_legacy_item(iter, legacy_size)) {
980 return legacy_size;
981 }
982
983 goto not_legacy;
984 }
985not_legacy:
986 default:
987 if (iter.item->size < kcdata_flags_get_padding(iter.item->flags))
988 return 0;
989 else
990 return iter.item->size - kcdata_flags_get_padding(iter.item->flags);
991 }
992}
993
994static inline uint64_t
995kcdata_iter_flags(kcdata_iter_t iter)
996{
997 return iter.item->flags;
998}
999
1000static inline
1001void * kcdata_iter_payload(kcdata_iter_t iter) {
1002 return &iter.item->data;
1003}
1004
1005
1006static inline
1007uint32_t kcdata_iter_array_elem_type(kcdata_iter_t iter) {
1008 return (iter.item->flags >> 32) & UINT32_MAX;
1009}
1010
1011static inline
1012uint32_t kcdata_iter_array_elem_count(kcdata_iter_t iter) {
1013 return (iter.item->flags) & UINT32_MAX;
1014}
1015
1016/* KCDATA_TYPE_ARRAY is ambiguous about the size of the array elements. Size is
1017 * calculated as total_size / elements_count, but total size got padded out to a
1018 * 16 byte alignment. New kernels will generate KCDATA_TYPE_ARRAY_PAD* instead
1019 * to explicitly tell us how much padding was used. Here we have a fixed, never
1020 * to be altered list of the sizes of array elements that were used before I
1021 * discovered this issue. If you find a KCDATA_TYPE_ARRAY that is not one of
1022 * these types, treat it as invalid data. */
1023
1024static inline
1025uint32_t
1026kcdata_iter_array_size_switch(kcdata_iter_t iter) {
1027 switch(kcdata_iter_array_elem_type(iter)) {
1028 case KCDATA_TYPE_LIBRARY_LOADINFO:
1029 return sizeof(struct dyld_uuid_info_32);
1030 case KCDATA_TYPE_LIBRARY_LOADINFO64:
1031 return sizeof(struct dyld_uuid_info_64);
1032 case STACKSHOT_KCTYPE_KERN_STACKFRAME:
1033 case STACKSHOT_KCTYPE_USER_STACKFRAME:
1034 return sizeof(struct stack_snapshot_frame32);
1035 case STACKSHOT_KCTYPE_KERN_STACKFRAME64:
1036 case STACKSHOT_KCTYPE_USER_STACKFRAME64:
1037 return sizeof(struct stack_snapshot_frame64);
1038 case STACKSHOT_KCTYPE_DONATING_PIDS:
1039 return sizeof(int32_t);
1040 case STACKSHOT_KCTYPE_THREAD_DELTA_SNAPSHOT:
1041 return sizeof(struct thread_delta_snapshot_v2);
1042 // This one is only here to make some unit tests work. It should be OK to
1043 // remove.
1044 case TASK_CRASHINFO_CRASHED_THREADID:
1045 return sizeof(uint64_t);
1046 default:
1047 return 0;
1048 }
1049}
1050
1051static inline
1052int kcdata_iter_array_valid(kcdata_iter_t iter) {
1053 if (!kcdata_iter_valid(iter))
1054 return 0;
1055 if (kcdata_iter_type(iter) != KCDATA_TYPE_ARRAY)
1056 return 0;
1057 if (kcdata_iter_array_elem_count(iter) == 0)
1058 return iter.item->size == 0;
1059 if (iter.item->type == KCDATA_TYPE_ARRAY) {
1060 uint32_t elem_size = kcdata_iter_array_size_switch(iter);
1061 if (elem_size == 0)
1062 return 0;
1063 /* sizes get aligned to the nearest 16. */
1064 return
1065 kcdata_iter_array_elem_count(iter) <= iter.item->size / elem_size &&
1066 iter.item->size % kcdata_iter_array_elem_count(iter) < 16;
1067 } else {
1068 return
1069 (iter.item->type & 0xf) <= iter.item->size &&
1070 kcdata_iter_array_elem_count(iter) <= iter.item->size - (iter.item->type & 0xf) &&
1071 (iter.item->size - (iter.item->type & 0xf)) % kcdata_iter_array_elem_count(iter) == 0;
1072 }
1073}
1074
1075
1076static inline
1077uint32_t kcdata_iter_array_elem_size(kcdata_iter_t iter) {
1078 if (iter.item->type == KCDATA_TYPE_ARRAY)
1079 return kcdata_iter_array_size_switch(iter);
1080 if (kcdata_iter_array_elem_count(iter) == 0)
1081 return 0;
1082 return (iter.item->size - (iter.item->type & 0xf)) / kcdata_iter_array_elem_count(iter);
1083}
1084
1085static inline
1086int kcdata_iter_container_valid(kcdata_iter_t iter) {
1087 return
1088 kcdata_iter_valid(iter) &&
1089 kcdata_iter_type(iter) == KCDATA_TYPE_CONTAINER_BEGIN &&
1090 iter.item->size >= sizeof(uint32_t);
1091}
1092
1093static inline
1094uint32_t kcdata_iter_container_type(kcdata_iter_t iter) {
1095 return * (uint32_t *) kcdata_iter_payload(iter);
1096}
1097
1098static inline
1099uint64_t kcdata_iter_container_id(kcdata_iter_t iter) {
1100 return iter.item->flags;
1101}
1102
1103
1104#define KCDATA_ITER_FOREACH(iter) for(; kcdata_iter_valid(iter) && iter.item->type != KCDATA_TYPE_BUFFER_END; iter = kcdata_iter_next(iter))
1105#define KCDATA_ITER_FOREACH_FAILED(iter) (!kcdata_iter_valid(iter) || (iter).item->type != KCDATA_TYPE_BUFFER_END)
1106
1107static inline
1108kcdata_iter_t
1109kcdata_iter_find_type(kcdata_iter_t iter, uint32_t type)
1110{
1111 KCDATA_ITER_FOREACH(iter)
1112 {
1113 if (kcdata_iter_type(iter) == type)
1114 return iter;
1115 }
1116 return kcdata_invalid_iter;
1117}
1118
1119static inline
1120int kcdata_iter_data_with_desc_valid(kcdata_iter_t iter, uint32_t minsize) {
1121 return
1122 kcdata_iter_valid(iter) &&
1123 kcdata_iter_size(iter) >= KCDATA_DESC_MAXLEN + minsize &&
1124 ((char*)kcdata_iter_payload(iter))[KCDATA_DESC_MAXLEN-1] == 0;
1125}
1126
1127static inline
1128char *kcdata_iter_string(kcdata_iter_t iter, uint32_t offset) {
1129 if (offset > kcdata_iter_size(iter)) {
1130 return NULL;
1131 }
1132 uint32_t maxlen = kcdata_iter_size(iter) - offset;
1133 char *s = ((char*)kcdata_iter_payload(iter)) + offset;
1134 if (strnlen(s, maxlen) < maxlen) {
1135 return s;
1136 } else {
1137 return NULL;
1138 }
1139}
1140
1141static inline void kcdata_iter_get_data_with_desc(kcdata_iter_t iter, char **desc_ptr, void **data_ptr, uint32_t *size_ptr) {
1142 if (desc_ptr)
1143 *desc_ptr = (char *)kcdata_iter_payload(iter);
1144 if (data_ptr)
1145 *data_ptr = (void *)((uintptr_t)kcdata_iter_payload(iter) + KCDATA_DESC_MAXLEN);
1146 if (size_ptr)
1147 *size_ptr = kcdata_iter_size(iter) - KCDATA_DESC_MAXLEN;
1148}
1149
1150#endif