1 /*
2 * Copyright (C) 2017 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include "src/traced/probes/ftrace/proto_translation_table.h"
18
19 #include <regex.h>
20 #include <sys/utsname.h>
21
22 #include <algorithm>
23
24 #include "perfetto/ext/base/string_utils.h"
25 #include "perfetto/protozero/proto_utils.h"
26 #include "src/traced/probes/ftrace/event_info.h"
27 #include "src/traced/probes/ftrace/ftrace_procfs.h"
28
29 #include "protos/perfetto/trace/ftrace/ftrace_event.pbzero.h"
30 #include "protos/perfetto/trace/ftrace/ftrace_event_bundle.pbzero.h"
31 #include "protos/perfetto/trace/ftrace/generic.pbzero.h"
32
33 namespace perfetto {
34
35 namespace {
36
37 using protos::pbzero::GenericFtraceEvent;
38 using protozero::proto_utils::ProtoSchemaType;
39
MakeFtracePageHeaderSpec(const std::vector<FtraceEvent::Field> & fields)40 ProtoTranslationTable::FtracePageHeaderSpec MakeFtracePageHeaderSpec(
41 const std::vector<FtraceEvent::Field>& fields) {
42 ProtoTranslationTable::FtracePageHeaderSpec spec;
43 for (const FtraceEvent::Field& field : fields) {
44 std::string name = GetNameFromTypeAndName(field.type_and_name);
45 if (name == "timestamp")
46 spec.timestamp = field;
47 else if (name == "commit")
48 spec.size = field;
49 else if (name == "overwrite")
50 spec.overwrite = field;
51 else if (name != "data")
52 PERFETTO_DFATAL("Invalid field in header spec: %s", name.c_str());
53 }
54 return spec;
55 }
56
57 // Fallback used when the "header_page" is not readable.
58 // It uses a hard-coded header_page. The only caveat is that the size of the
59 // |commit| field depends on the kernel bit-ness. This function tries to infer
60 // that from the uname() and if that fails assumes that the kernel bitness
61 // matches the userspace bitness.
GuessFtracePageHeaderSpec()62 ProtoTranslationTable::FtracePageHeaderSpec GuessFtracePageHeaderSpec() {
63 ProtoTranslationTable::FtracePageHeaderSpec spec{};
64 #if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && __i386__
65 // local_t is arch-specific and models the largest size of an integer that is
66 // still atomic across bus transactions, exceptions and IRQ. On android x86
67 // this is always size 8
68 uint16_t commit_size = 8;
69 #else
70 uint16_t commit_size = sizeof(long);
71
72 struct utsname sysinfo;
73 // If user space is 32-bit check the kernel to verify.
74 if (commit_size < 8 && uname(&sysinfo) == 0) {
75 // Arm returns armv# for its machine type. The first (and only currently)
76 // arm processor that supports 64bit is the armv8 series.
77 commit_size =
78 strstr(sysinfo.machine, "64") || strstr(sysinfo.machine, "armv8") ? 8
79 : 4;
80 }
81 #endif
82
83 // header_page typically looks as follows on a 64-bit kernel:
84 // field: u64 timestamp; offset:0; size:8; signed:0;
85 // field: local_t commit; offset:8; size:8; signed:1;
86 // field: int overwrite; offset:8; size:1; signed:1;
87 // field: char data; offset:16; size:4080; signed:0;
88 //
89 // On a 32-bit kernel local_t is 32-bit wide and data starts @ offset 12.
90
91 spec.timestamp = FtraceEvent::Field{"u64 timestamp", 0, 8, 0};
92 spec.size = FtraceEvent::Field{"local_t commit", 8, commit_size, 1};
93 spec.overwrite = FtraceEvent::Field{"int overwrite", 8, 1, 1};
94 return spec;
95 }
96
BuildEventsDeque(const std::vector<Event> & events)97 const std::deque<Event> BuildEventsDeque(const std::vector<Event>& events) {
98 size_t largest_id = 0;
99 for (const Event& event : events) {
100 if (event.ftrace_event_id > largest_id)
101 largest_id = event.ftrace_event_id;
102 }
103 std::deque<Event> events_by_id;
104 events_by_id.resize(largest_id + 1);
105 for (const Event& event : events) {
106 events_by_id[event.ftrace_event_id] = event;
107 }
108 events_by_id.shrink_to_fit();
109 return events_by_id;
110 }
111
112 // Merge the information from |ftrace_field| into |field| (mutating it).
113 // We should set the following fields: offset, size, ftrace field type and
114 // translation strategy.
MergeFieldInfo(const FtraceEvent::Field & ftrace_field,Field * field,const char * event_name_for_debug)115 bool MergeFieldInfo(const FtraceEvent::Field& ftrace_field,
116 Field* field,
117 const char* event_name_for_debug) {
118 PERFETTO_DCHECK(field->ftrace_name);
119 PERFETTO_DCHECK(field->proto_field_id);
120 PERFETTO_DCHECK(static_cast<int>(field->proto_field_type));
121 PERFETTO_DCHECK(!field->ftrace_offset);
122 PERFETTO_DCHECK(!field->ftrace_size);
123 PERFETTO_DCHECK(!field->ftrace_type);
124
125 if (!InferFtraceType(ftrace_field.type_and_name, ftrace_field.size,
126 ftrace_field.is_signed, &field->ftrace_type)) {
127 PERFETTO_FATAL(
128 "Failed to infer ftrace field type for \"%s.%s\" (type:\"%s\" "
129 "size:%d "
130 "signed:%d)",
131 event_name_for_debug, field->ftrace_name,
132 ftrace_field.type_and_name.c_str(), ftrace_field.size,
133 ftrace_field.is_signed);
134 return false;
135 }
136
137 field->ftrace_offset = ftrace_field.offset;
138 field->ftrace_size = ftrace_field.size;
139
140 if (!SetTranslationStrategy(field->ftrace_type, field->proto_field_type,
141 &field->strategy)) {
142 PERFETTO_DLOG(
143 "Failed to find translation strategy for ftrace field \"%s.%s\" (%s -> "
144 "%s)",
145 event_name_for_debug, field->ftrace_name, ToString(field->ftrace_type),
146 protozero::proto_utils::ProtoSchemaToString(field->proto_field_type));
147 // TODO(hjd): Uncomment DCHECK when proto generation is fixed.
148 // PERFETTO_DFATAL("Failed to find translation strategy");
149 return false;
150 }
151
152 return true;
153 }
154
155 // For each field in |fields| find the matching field from |ftrace_fields| (by
156 // comparing ftrace_name) and copy the information from the FtraceEvent::Field
157 // into the Field (mutating it). If there is no matching field in
158 // |ftrace_fields| remove the Field from |fields|. Return the maximum observed
159 // 'field end' (offset + size).
MergeFields(const std::vector<FtraceEvent::Field> & ftrace_fields,std::vector<Field> * fields,const char * event_name_for_debug)160 uint16_t MergeFields(const std::vector<FtraceEvent::Field>& ftrace_fields,
161 std::vector<Field>* fields,
162 const char* event_name_for_debug) {
163 uint16_t fields_end = 0;
164
165 // Loop over each Field in |fields| modifying it with information from the
166 // matching |ftrace_fields| field or removing it.
167 auto field = fields->begin();
168 while (field != fields->end()) {
169 bool success = false;
170 for (const FtraceEvent::Field& ftrace_field : ftrace_fields) {
171 if (GetNameFromTypeAndName(ftrace_field.type_and_name) !=
172 field->ftrace_name)
173 continue;
174
175 success = MergeFieldInfo(ftrace_field, &*field, event_name_for_debug);
176
177 uint16_t field_end = field->ftrace_offset + field->ftrace_size;
178 fields_end = std::max<uint16_t>(fields_end, field_end);
179
180 break;
181 }
182 if (success) {
183 ++field;
184 } else {
185 field = fields->erase(field);
186 }
187 }
188 return fields_end;
189 }
190
Contains(const std::string & haystack,const std::string & needle)191 bool Contains(const std::string& haystack, const std::string& needle) {
192 return haystack.find(needle) != std::string::npos;
193 }
194
RegexError(int errcode,const regex_t * preg)195 std::string RegexError(int errcode, const regex_t* preg) {
196 char buf[64];
197 regerror(errcode, preg, buf, sizeof(buf));
198 return {buf, sizeof(buf)};
199 }
200
Match(const char * string,const char * pattern)201 bool Match(const char* string, const char* pattern) {
202 regex_t re;
203 int ret = regcomp(&re, pattern, REG_EXTENDED | REG_NOSUB);
204 if (ret != 0) {
205 PERFETTO_FATAL("regcomp: %s", RegexError(ret, &re).c_str());
206 }
207 ret = regexec(&re, string, 0, nullptr, 0);
208 regfree(&re);
209 return ret != REG_NOMATCH;
210 }
211
212 // Set proto field type and id based on the ftrace type.
SetProtoType(FtraceFieldType ftrace_type,ProtoSchemaType * proto_type,uint32_t * proto_field_id)213 void SetProtoType(FtraceFieldType ftrace_type,
214 ProtoSchemaType* proto_type,
215 uint32_t* proto_field_id) {
216 switch (ftrace_type) {
217 case kFtraceCString:
218 case kFtraceFixedCString:
219 case kFtraceStringPtr:
220 case kFtraceDataLoc:
221 *proto_type = ProtoSchemaType::kString;
222 *proto_field_id = GenericFtraceEvent::Field::kStrValueFieldNumber;
223 break;
224 case kFtraceInt8:
225 case kFtraceInt16:
226 case kFtraceInt32:
227 case kFtracePid32:
228 case kFtraceCommonPid32:
229 case kFtraceInt64:
230 *proto_type = ProtoSchemaType::kInt64;
231 *proto_field_id = GenericFtraceEvent::Field::kIntValueFieldNumber;
232 break;
233 case kFtraceUint8:
234 case kFtraceUint16:
235 case kFtraceUint32:
236 case kFtraceBool:
237 case kFtraceDevId32:
238 case kFtraceDevId64:
239 case kFtraceUint64:
240 case kFtraceInode32:
241 case kFtraceInode64:
242 case kFtraceSymAddr64:
243 *proto_type = ProtoSchemaType::kUint64;
244 *proto_field_id = GenericFtraceEvent::Field::kUintValueFieldNumber;
245 break;
246 case kInvalidFtraceFieldType:
247 PERFETTO_FATAL("Unexpected ftrace field type");
248 }
249 }
250
251 } // namespace
252
253 // This is similar but different from InferProtoType (see format_parser.cc).
254 // TODO(hjd): Fold FtraceEvent(::Field) into Event.
InferFtraceType(const std::string & type_and_name,size_t size,bool is_signed,FtraceFieldType * out)255 bool InferFtraceType(const std::string& type_and_name,
256 size_t size,
257 bool is_signed,
258 FtraceFieldType* out) {
259 // Fixed length strings: e.g. "char foo[16]".
260 //
261 // We don't care about the number, since we get the size as it's own field and
262 // since it can be a string defined elsewhere in a kernel header file.
263 //
264 // Somewhat awkwardly these fields are both fixed size and null terminated
265 // meaning that we can't just drop them directly into the protobuf (since if
266 // the string is shorter than 15 characters we want only the bit up to the
267 // null terminator).
268 //
269 // In some rare cases (e.g. old kernel bugs) these strings might not be null
270 // terminated (b/205763418).
271 if (Match(type_and_name.c_str(),
272 R"(char [a-zA-Z_][a-zA-Z_0-9]*\[[a-zA-Z_0-9]+\])")) {
273 *out = kFtraceFixedCString;
274 return true;
275 }
276
277 // String pointers: "__data_loc char[] foo" (as in
278 // 'cpufreq_interactive_boost').
279 // TODO(fmayer): Handle u32[], u8[], __u8[] as well.
280 if (Contains(type_and_name, "__data_loc char[] ")) {
281 if (size != 4) {
282 PERFETTO_ELOG("__data_loc with incorrect size: %s (%zd)",
283 type_and_name.c_str(), size);
284 return false;
285 }
286 *out = kFtraceDataLoc;
287 return true;
288 }
289
290 if (Contains(type_and_name, "char[] ")) {
291 *out = kFtraceStringPtr;
292 return true;
293 }
294 if (Contains(type_and_name, "char * ")) {
295 *out = kFtraceStringPtr;
296 return true;
297 }
298
299 // Kernel addresses that need symbolization via kallsyms. Only 64-bit kernels
300 // are supported for now. 32-bit kernels seems to be going away.
301 if ((base::StartsWith(type_and_name, "void*") ||
302 base::StartsWith(type_and_name, "void *")) &&
303 size == 8) {
304 *out = kFtraceSymAddr64;
305 return true;
306 }
307
308 // Variable length strings: "char foo" + size: 0 (as in 'print').
309 if (base::StartsWith(type_and_name, "char ") && size == 0) {
310 *out = kFtraceCString;
311 return true;
312 }
313
314 if (base::StartsWith(type_and_name, "bool ")) {
315 *out = kFtraceBool;
316 return true;
317 }
318
319 if (base::StartsWith(type_and_name, "ino_t ") ||
320 base::StartsWith(type_and_name, "i_ino ")) {
321 if (size == 4) {
322 *out = kFtraceInode32;
323 return true;
324 } else if (size == 8) {
325 *out = kFtraceInode64;
326 return true;
327 }
328 }
329
330 if (base::StartsWith(type_and_name, "dev_t ")) {
331 if (size == 4) {
332 *out = kFtraceDevId32;
333 return true;
334 } else if (size == 8) {
335 *out = kFtraceDevId64;
336 return true;
337 }
338 }
339
340 // Pids (as in 'sched_switch').
341 if (base::StartsWith(type_and_name, "pid_t ") && size == 4) {
342 *out = kFtracePid32;
343 return true;
344 }
345
346 if (Contains(type_and_name, "common_pid") && size == 4) {
347 *out = kFtraceCommonPid32;
348 return true;
349 }
350
351 // Ints of various sizes:
352 if (size == 1 && is_signed) {
353 *out = kFtraceInt8;
354 return true;
355 } else if (size == 1 && !is_signed) {
356 *out = kFtraceUint8;
357 return true;
358 } else if (size == 2 && is_signed) {
359 *out = kFtraceInt16;
360 return true;
361 } else if (size == 2 && !is_signed) {
362 *out = kFtraceUint16;
363 return true;
364 } else if (size == 4 && is_signed) {
365 *out = kFtraceInt32;
366 return true;
367 } else if (size == 4 && !is_signed) {
368 *out = kFtraceUint32;
369 return true;
370 } else if (size == 8 && is_signed) {
371 *out = kFtraceInt64;
372 return true;
373 } else if (size == 8 && !is_signed) {
374 *out = kFtraceUint64;
375 return true;
376 }
377
378 PERFETTO_DLOG("Could not infer ftrace type for '%s'", type_and_name.c_str());
379 return false;
380 }
381
382 // static
383 ProtoTranslationTable::FtracePageHeaderSpec
DefaultPageHeaderSpecForTesting()384 ProtoTranslationTable::DefaultPageHeaderSpecForTesting() {
385 std::string page_header =
386 R"( field: u64 timestamp; offset:0; size:8; signed:0;
387 field: local_t commit; offset:8; size:8; signed:1;
388 field: int overwrite; offset:8; size:1; signed:1;
389 field: char data; offset:16; size:4080; signed:0;)";
390 std::vector<FtraceEvent::Field> page_header_fields;
391 PERFETTO_CHECK(ParseFtraceEventBody(std::move(page_header), nullptr,
392 &page_header_fields));
393 return MakeFtracePageHeaderSpec(page_header_fields);
394 }
395
396 // static
Create(const FtraceProcfs * ftrace_procfs,std::vector<Event> events,std::vector<Field> common_fields)397 std::unique_ptr<ProtoTranslationTable> ProtoTranslationTable::Create(
398 const FtraceProcfs* ftrace_procfs,
399 std::vector<Event> events,
400 std::vector<Field> common_fields) {
401 bool common_fields_processed = false;
402 uint16_t common_fields_end = 0;
403
404 std::string page_header = ftrace_procfs->ReadPageHeaderFormat();
405 bool ftrace_header_parsed = false;
406 FtracePageHeaderSpec header_spec{};
407 if (!page_header.empty()) {
408 std::vector<FtraceEvent::Field> page_header_fields;
409 ftrace_header_parsed = ParseFtraceEventBody(std::move(page_header), nullptr,
410 &page_header_fields);
411 header_spec = MakeFtracePageHeaderSpec(page_header_fields);
412 }
413
414 if (!ftrace_header_parsed) {
415 PERFETTO_LOG("Failed to parse ftrace page header, using fallback layout");
416 header_spec = GuessFtracePageHeaderSpec();
417 }
418
419 for (Event& event : events) {
420 if (event.proto_field_id ==
421 protos::pbzero::FtraceEvent::kGenericFieldNumber) {
422 continue;
423 }
424 PERFETTO_DCHECK(event.name);
425 PERFETTO_DCHECK(event.group);
426 PERFETTO_DCHECK(event.proto_field_id);
427 PERFETTO_DCHECK(!event.ftrace_event_id);
428
429 std::string contents =
430 ftrace_procfs->ReadEventFormat(event.group, event.name);
431 FtraceEvent ftrace_event;
432 if (contents.empty() || !ParseFtraceEvent(contents, &ftrace_event)) {
433 if (!strcmp(event.group, "ftrace") && !strcmp(event.name, "print")) {
434 // On some "user" builds of Android <P the ftrace/print event is not
435 // selinux-allowed. Thankfully this event is an always-on built-in
436 // so we don't need to write to its 'enable' file. However we need to
437 // know its binary layout to decode it, so we hardcode it.
438 ftrace_event.id = 5; // Seems quite stable across kernels.
439 ftrace_event.name = "print";
440 // The only field we care about is:
441 // field:char buf; offset:16; size:0; signed:0;
442 ftrace_event.fields.emplace_back(
443 FtraceEvent::Field{"char buf", 16, 0, 0});
444 } else {
445 continue;
446 }
447 }
448
449 event.ftrace_event_id = ftrace_event.id;
450
451 if (!common_fields_processed) {
452 common_fields_end =
453 MergeFields(ftrace_event.common_fields, &common_fields, event.name);
454 common_fields_processed = true;
455 }
456
457 uint16_t fields_end =
458 MergeFields(ftrace_event.fields, &event.fields, event.name);
459
460 event.size = std::max<uint16_t>(fields_end, common_fields_end);
461 }
462
463 events.erase(std::remove_if(events.begin(), events.end(),
464 [](const Event& event) {
465 return event.proto_field_id == 0 ||
466 event.ftrace_event_id == 0;
467 }),
468 events.end());
469
470 // Pre-parse certain scheduler events, and see if the compile-time assumptions
471 // about their format hold for this kernel.
472 CompactSchedEventFormat compact_sched = ValidateFormatForCompactSched(events);
473
474 std::string text = ftrace_procfs->ReadPrintkFormats();
475 PrintkMap printk_formats = ParsePrintkFormats(text);
476
477 auto table = std::unique_ptr<ProtoTranslationTable>(new ProtoTranslationTable(
478 ftrace_procfs, events, std::move(common_fields), header_spec,
479 compact_sched, std::move(printk_formats)));
480 return table;
481 }
482
ProtoTranslationTable(const FtraceProcfs * ftrace_procfs,const std::vector<Event> & events,std::vector<Field> common_fields,FtracePageHeaderSpec ftrace_page_header_spec,CompactSchedEventFormat compact_sched_format,PrintkMap printk_formats)483 ProtoTranslationTable::ProtoTranslationTable(
484 const FtraceProcfs* ftrace_procfs,
485 const std::vector<Event>& events,
486 std::vector<Field> common_fields,
487 FtracePageHeaderSpec ftrace_page_header_spec,
488 CompactSchedEventFormat compact_sched_format,
489 PrintkMap printk_formats)
490 : ftrace_procfs_(ftrace_procfs),
491 events_(BuildEventsDeque(events)),
492 largest_id_(events_.size() - 1),
493 common_fields_(std::move(common_fields)),
494 ftrace_page_header_spec_(ftrace_page_header_spec),
495 compact_sched_format_(compact_sched_format),
496 printk_formats_(printk_formats) {
497 for (const Event& event : events) {
498 group_and_name_to_event_[GroupAndName(event.group, event.name)] =
499 &events_.at(event.ftrace_event_id);
500 name_to_events_[event.name].push_back(&events_.at(event.ftrace_event_id));
501 group_to_events_[event.group].push_back(&events_.at(event.ftrace_event_id));
502 }
503 }
504
GetOrCreateEvent(const GroupAndName & group_and_name)505 const Event* ProtoTranslationTable::GetOrCreateEvent(
506 const GroupAndName& group_and_name) {
507 const Event* event = GetEvent(group_and_name);
508 if (event)
509 return event;
510 // The ftrace event does not already exist so a new one will be created
511 // by parsing the format file.
512 std::string contents = ftrace_procfs_->ReadEventFormat(group_and_name.group(),
513 group_and_name.name());
514 if (contents.empty())
515 return nullptr;
516 FtraceEvent ftrace_event = {};
517 ParseFtraceEvent(contents, &ftrace_event);
518
519 // Ensure events vector is large enough
520 if (ftrace_event.id > largest_id_) {
521 events_.resize(ftrace_event.id + 1);
522 largest_id_ = ftrace_event.id;
523 }
524
525 // Set known event variables
526 Event* e = &events_.at(ftrace_event.id);
527 e->ftrace_event_id = ftrace_event.id;
528 e->proto_field_id = protos::pbzero::FtraceEvent::kGenericFieldNumber;
529 e->name = InternString(group_and_name.name());
530 e->group = InternString(group_and_name.group());
531
532 // Calculate size of common fields.
533 for (const FtraceEvent::Field& ftrace_field : ftrace_event.common_fields) {
534 uint16_t field_end = ftrace_field.offset + ftrace_field.size;
535 e->size = std::max(field_end, e->size);
536 }
537
538 // For every field in the ftrace event, make a field in the generic event.
539 for (const FtraceEvent::Field& ftrace_field : ftrace_event.fields)
540 e->size = std::max(CreateGenericEventField(ftrace_field, *e), e->size);
541
542 group_and_name_to_event_[group_and_name] = &events_.at(e->ftrace_event_id);
543 name_to_events_[e->name].push_back(&events_.at(e->ftrace_event_id));
544 group_to_events_[e->group].push_back(&events_.at(e->ftrace_event_id));
545
546 return e;
547 }
548
InternString(const std::string & str)549 const char* ProtoTranslationTable::InternString(const std::string& str) {
550 auto it_and_inserted = interned_strings_.insert(str);
551 return it_and_inserted.first->c_str();
552 }
553
CreateGenericEventField(const FtraceEvent::Field & ftrace_field,Event & event)554 uint16_t ProtoTranslationTable::CreateGenericEventField(
555 const FtraceEvent::Field& ftrace_field,
556 Event& event) {
557 uint16_t field_end = ftrace_field.offset + ftrace_field.size;
558 std::string field_name = GetNameFromTypeAndName(ftrace_field.type_and_name);
559 if (field_name.empty()) {
560 PERFETTO_DLOG("Field: %s could not be added to the generic event.",
561 ftrace_field.type_and_name.c_str());
562 return field_end;
563 }
564 event.fields.emplace_back();
565 Field* field = &event.fields.back();
566 field->ftrace_name = InternString(field_name);
567 if (!InferFtraceType(ftrace_field.type_and_name, ftrace_field.size,
568 ftrace_field.is_signed, &field->ftrace_type)) {
569 PERFETTO_DLOG(
570 "Failed to infer ftrace field type for \"%s.%s\" (type:\"%s\" "
571 "size:%d "
572 "signed:%d)",
573 event.name, field->ftrace_name, ftrace_field.type_and_name.c_str(),
574 ftrace_field.size, ftrace_field.is_signed);
575 event.fields.pop_back();
576 return field_end;
577 }
578 SetProtoType(field->ftrace_type, &field->proto_field_type,
579 &field->proto_field_id);
580 field->ftrace_offset = ftrace_field.offset;
581 field->ftrace_size = ftrace_field.size;
582 // Proto type is set based on ftrace type so all fields should have a
583 // translation strategy.
584 bool success = SetTranslationStrategy(
585 field->ftrace_type, field->proto_field_type, &field->strategy);
586 PERFETTO_DCHECK(success);
587 return field_end;
588 }
589
590 EventFilter::EventFilter() = default;
591 EventFilter::~EventFilter() = default;
592
AddEnabledEvent(size_t ftrace_event_id)593 void EventFilter::AddEnabledEvent(size_t ftrace_event_id) {
594 if (ftrace_event_id >= enabled_ids_.size())
595 enabled_ids_.resize(ftrace_event_id + 1);
596 enabled_ids_[ftrace_event_id] = true;
597 }
598
DisableEvent(size_t ftrace_event_id)599 void EventFilter::DisableEvent(size_t ftrace_event_id) {
600 if (ftrace_event_id >= enabled_ids_.size())
601 return;
602 enabled_ids_[ftrace_event_id] = false;
603 }
604
IsEventEnabled(size_t ftrace_event_id) const605 bool EventFilter::IsEventEnabled(size_t ftrace_event_id) const {
606 if (ftrace_event_id == 0 || ftrace_event_id >= enabled_ids_.size())
607 return false;
608 return enabled_ids_[ftrace_event_id];
609 }
610
GetEnabledEvents() const611 std::set<size_t> EventFilter::GetEnabledEvents() const {
612 std::set<size_t> enabled;
613 for (size_t i = 0; i < enabled_ids_.size(); i++) {
614 if (enabled_ids_[i]) {
615 enabled.insert(i);
616 }
617 }
618 return enabled;
619 }
620
EnableEventsFrom(const EventFilter & other)621 void EventFilter::EnableEventsFrom(const EventFilter& other) {
622 size_t max_length = std::max(enabled_ids_.size(), other.enabled_ids_.size());
623 enabled_ids_.resize(max_length);
624 for (size_t i = 0; i < other.enabled_ids_.size(); i++) {
625 if (other.enabled_ids_[i])
626 enabled_ids_[i] = true;
627 }
628 }
629
630 ProtoTranslationTable::~ProtoTranslationTable() = default;
631
632 } // namespace perfetto
633