Revert "Reland c91b178b07b0d - Delete dead signin code (SigninGlobalError)"
[chromium-blink-merge.git] / gpu / config / gpu_control_list.cc
blob2e44e3db50c60adc12f694465910fa7a493f517e
1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "gpu/config/gpu_control_list.h"
7 #include "base/cpu.h"
8 #include "base/json/json_reader.h"
9 #include "base/logging.h"
10 #include "base/strings/string_number_conversions.h"
11 #include "base/strings/string_split.h"
12 #include "base/strings/string_util.h"
13 #include "base/strings/stringprintf.h"
14 #include "base/sys_info.h"
15 #include "gpu/config/gpu_info.h"
16 #include "gpu/config/gpu_util.h"
17 #include "third_party/re2/re2/re2.h"
19 namespace gpu {
20 namespace {
22 // Break a version string into segments. Return true if each segment is
23 // a valid number, and not all segment is 0.
24 bool ProcessVersionString(const std::string& version_string,
25 char splitter,
26 std::vector<std::string>* version) {
27 DCHECK(version);
28 *version = base::SplitString(
29 version_string, std::string(1, splitter),
30 base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
31 if (version->size() == 0)
32 return false;
33 // If the splitter is '-', we assume it's a date with format "mm-dd-yyyy";
34 // we split it into the order of "yyyy", "mm", "dd".
35 if (splitter == '-') {
36 std::string year = (*version)[version->size() - 1];
37 for (int i = version->size() - 1; i > 0; --i) {
38 (*version)[i] = (*version)[i - 1];
40 (*version)[0] = year;
42 bool all_zero = true;
43 for (size_t i = 0; i < version->size(); ++i) {
44 unsigned num = 0;
45 if (!base::StringToUint((*version)[i], &num))
46 return false;
47 if (num)
48 all_zero = false;
50 return !all_zero;
53 // Compare two number strings using numerical ordering.
54 // Return 0 if number = number_ref,
55 // 1 if number > number_ref,
56 // -1 if number < number_ref.
57 int CompareNumericalNumberStrings(
58 const std::string& number, const std::string& number_ref) {
59 unsigned value1 = 0;
60 unsigned value2 = 0;
61 bool valid = base::StringToUint(number, &value1);
62 DCHECK(valid);
63 valid = base::StringToUint(number_ref, &value2);
64 DCHECK(valid);
65 if (value1 == value2)
66 return 0;
67 if (value1 > value2)
68 return 1;
69 return -1;
72 // Compare two number strings using lexical ordering.
73 // Return 0 if number = number_ref,
74 // 1 if number > number_ref,
75 // -1 if number < number_ref.
76 // We only compare as many digits as number_ref contains.
77 // If number_ref is xxx, it's considered as xxx*
78 // For example: CompareLexicalNumberStrings("121", "12") returns 0,
79 // CompareLexicalNumberStrings("12", "121") returns -1.
80 int CompareLexicalNumberStrings(
81 const std::string& number, const std::string& number_ref) {
82 for (size_t i = 0; i < number_ref.length(); ++i) {
83 unsigned value1 = 0;
84 if (i < number.length())
85 value1 = number[i] - '0';
86 unsigned value2 = number_ref[i] - '0';
87 if (value1 > value2)
88 return 1;
89 if (value1 < value2)
90 return -1;
92 return 0;
95 // A mismatch is identified only if both |input| and |pattern| are not empty.
96 bool StringMismatch(const std::string& input, const std::string& pattern) {
97 if (input.empty() || pattern.empty())
98 return false;
99 return !RE2::FullMatch(input, pattern);
102 const char kMultiGpuStyleStringAMDSwitchable[] = "amd_switchable";
103 const char kMultiGpuStyleStringAMDSwitchableDiscrete[] =
104 "amd_switchable_discrete";
105 const char kMultiGpuStyleStringAMDSwitchableIntegrated[] =
106 "amd_switchable_integrated";
107 const char kMultiGpuStyleStringOptimus[] = "optimus";
109 const char kMultiGpuCategoryStringPrimary[] = "primary";
110 const char kMultiGpuCategoryStringSecondary[] = "secondary";
111 const char kMultiGpuCategoryStringActive[] = "active";
112 const char kMultiGpuCategoryStringAny[] = "any";
114 const char kGLTypeStringGL[] = "gl";
115 const char kGLTypeStringGLES[] = "gles";
116 const char kGLTypeStringANGLE[] = "angle";
118 const char kVersionStyleStringNumerical[] = "numerical";
119 const char kVersionStyleStringLexical[] = "lexical";
121 const char kOp[] = "op";
123 } // namespace anonymous
125 GpuControlList::VersionInfo::VersionInfo(
126 const std::string& version_op,
127 const std::string& version_style,
128 const std::string& version_string,
129 const std::string& version_string2)
130 : version_style_(kVersionStyleNumerical) {
131 op_ = StringToNumericOp(version_op);
132 if (op_ == kUnknown || op_ == kAny)
133 return;
134 version_style_ = StringToVersionStyle(version_style);
135 if (!ProcessVersionString(version_string, '.', &version_)) {
136 op_ = kUnknown;
137 return;
139 if (op_ == kBetween) {
140 if (!ProcessVersionString(version_string2, '.', &version2_))
141 op_ = kUnknown;
145 GpuControlList::VersionInfo::~VersionInfo() {
148 bool GpuControlList::VersionInfo::Contains(
149 const std::string& version_string) const {
150 return Contains(version_string, '.');
153 bool GpuControlList::VersionInfo::Contains(
154 const std::string& version_string, char splitter) const {
155 if (op_ == kUnknown)
156 return false;
157 if (op_ == kAny)
158 return true;
159 std::vector<std::string> version;
160 if (!ProcessVersionString(version_string, splitter, &version))
161 return false;
162 int relation = Compare(version, version_, version_style_);
163 if (op_ == kEQ)
164 return (relation == 0);
165 else if (op_ == kLT)
166 return (relation < 0);
167 else if (op_ == kLE)
168 return (relation <= 0);
169 else if (op_ == kGT)
170 return (relation > 0);
171 else if (op_ == kGE)
172 return (relation >= 0);
173 // op_ == kBetween
174 if (relation < 0)
175 return false;
176 return Compare(version, version2_, version_style_) <= 0;
179 bool GpuControlList::VersionInfo::IsValid() const {
180 return (op_ != kUnknown && version_style_ != kVersionStyleUnknown);
183 bool GpuControlList::VersionInfo::IsLexical() const {
184 return version_style_ == kVersionStyleLexical;
187 // static
188 int GpuControlList::VersionInfo::Compare(
189 const std::vector<std::string>& version,
190 const std::vector<std::string>& version_ref,
191 VersionStyle version_style) {
192 DCHECK(version.size() > 0 && version_ref.size() > 0);
193 DCHECK(version_style != kVersionStyleUnknown);
194 for (size_t i = 0; i < version_ref.size(); ++i) {
195 if (i >= version.size())
196 return 0;
197 int ret = 0;
198 // We assume both versions are checked by ProcessVersionString().
199 if (i > 0 && version_style == kVersionStyleLexical)
200 ret = CompareLexicalNumberStrings(version[i], version_ref[i]);
201 else
202 ret = CompareNumericalNumberStrings(version[i], version_ref[i]);
203 if (ret != 0)
204 return ret;
206 return 0;
209 // static
210 GpuControlList::VersionInfo::VersionStyle
211 GpuControlList::VersionInfo::StringToVersionStyle(
212 const std::string& version_style) {
213 if (version_style.empty() || version_style == kVersionStyleStringNumerical)
214 return kVersionStyleNumerical;
215 if (version_style == kVersionStyleStringLexical)
216 return kVersionStyleLexical;
217 return kVersionStyleUnknown;
220 GpuControlList::OsInfo::OsInfo(const std::string& os,
221 const std::string& version_op,
222 const std::string& version_string,
223 const std::string& version_string2) {
224 type_ = StringToOsType(os);
225 if (type_ != kOsUnknown) {
226 version_info_.reset(new VersionInfo(
227 version_op, std::string(), version_string, version_string2));
231 GpuControlList::OsInfo::~OsInfo() {}
233 bool GpuControlList::OsInfo::Contains(
234 OsType type, const std::string& version) const {
235 if (!IsValid())
236 return false;
237 if (type_ != type && type_ != kOsAny)
238 return false;
239 std::string processed_version;
240 size_t pos = version.find_first_not_of("0123456789.");
241 if (pos != std::string::npos)
242 processed_version = version.substr(0, pos);
243 else
244 processed_version = version;
246 return version_info_->Contains(processed_version);
249 bool GpuControlList::OsInfo::IsValid() const {
250 return type_ != kOsUnknown && version_info_->IsValid();
253 GpuControlList::OsType GpuControlList::OsInfo::type() const {
254 return type_;
257 GpuControlList::OsType GpuControlList::OsInfo::StringToOsType(
258 const std::string& os) {
259 if (os == "win")
260 return kOsWin;
261 else if (os == "macosx")
262 return kOsMacosx;
263 else if (os == "android")
264 return kOsAndroid;
265 else if (os == "linux")
266 return kOsLinux;
267 else if (os == "chromeos")
268 return kOsChromeOS;
269 else if (os == "any")
270 return kOsAny;
271 return kOsUnknown;
274 GpuControlList::FloatInfo::FloatInfo(const std::string& float_op,
275 const std::string& float_value,
276 const std::string& float_value2)
277 : op_(kUnknown),
278 value_(0.f),
279 value2_(0.f) {
280 op_ = StringToNumericOp(float_op);
281 if (op_ == kAny)
282 return;
283 double dvalue = 0;
284 if (!base::StringToDouble(float_value, &dvalue)) {
285 op_ = kUnknown;
286 return;
288 value_ = static_cast<float>(dvalue);
289 if (op_ == kBetween) {
290 if (!base::StringToDouble(float_value2, &dvalue)) {
291 op_ = kUnknown;
292 return;
294 value2_ = static_cast<float>(dvalue);
298 bool GpuControlList::FloatInfo::Contains(float value) const {
299 if (op_ == kUnknown)
300 return false;
301 if (op_ == kAny)
302 return true;
303 if (op_ == kEQ)
304 return (value == value_);
305 if (op_ == kLT)
306 return (value < value_);
307 if (op_ == kLE)
308 return (value <= value_);
309 if (op_ == kGT)
310 return (value > value_);
311 if (op_ == kGE)
312 return (value >= value_);
313 DCHECK(op_ == kBetween);
314 return ((value_ <= value && value <= value2_) ||
315 (value2_ <= value && value <= value_));
318 bool GpuControlList::FloatInfo::IsValid() const {
319 return op_ != kUnknown;
322 GpuControlList::IntInfo::IntInfo(const std::string& int_op,
323 const std::string& int_value,
324 const std::string& int_value2)
325 : op_(kUnknown),
326 value_(0),
327 value2_(0) {
328 op_ = StringToNumericOp(int_op);
329 if (op_ == kAny)
330 return;
331 if (!base::StringToInt(int_value, &value_)) {
332 op_ = kUnknown;
333 return;
335 if (op_ == kBetween &&
336 !base::StringToInt(int_value2, &value2_))
337 op_ = kUnknown;
340 bool GpuControlList::IntInfo::Contains(int value) const {
341 if (op_ == kUnknown)
342 return false;
343 if (op_ == kAny)
344 return true;
345 if (op_ == kEQ)
346 return (value == value_);
347 if (op_ == kLT)
348 return (value < value_);
349 if (op_ == kLE)
350 return (value <= value_);
351 if (op_ == kGT)
352 return (value > value_);
353 if (op_ == kGE)
354 return (value >= value_);
355 DCHECK(op_ == kBetween);
356 return ((value_ <= value && value <= value2_) ||
357 (value2_ <= value && value <= value_));
360 bool GpuControlList::IntInfo::IsValid() const {
361 return op_ != kUnknown;
364 GpuControlList::BoolInfo::BoolInfo(bool value) : value_(value) {}
366 bool GpuControlList::BoolInfo::Contains(bool value) const {
367 return value_ == value;
370 // static
371 GpuControlList::ScopedGpuControlListEntry
372 GpuControlList::GpuControlListEntry::GetEntryFromValue(
373 const base::DictionaryValue* value, bool top_level,
374 const FeatureMap& feature_map,
375 bool supports_feature_type_all) {
376 DCHECK(value);
377 ScopedGpuControlListEntry entry(new GpuControlListEntry());
379 size_t dictionary_entry_count = 0;
381 if (top_level) {
382 uint32 id;
383 if (!value->GetInteger("id", reinterpret_cast<int*>(&id)) ||
384 !entry->SetId(id)) {
385 LOG(WARNING) << "Malformed id entry " << entry->id();
386 return NULL;
388 dictionary_entry_count++;
390 bool disabled;
391 if (value->GetBoolean("disabled", &disabled)) {
392 entry->SetDisabled(disabled);
393 dictionary_entry_count++;
397 std::string description;
398 if (value->GetString("description", &description)) {
399 entry->description_ = description;
400 dictionary_entry_count++;
401 } else {
402 entry->description_ = "The GPU is unavailable for an unexplained reason.";
405 const base::ListValue* cr_bugs;
406 if (value->GetList("cr_bugs", &cr_bugs)) {
407 for (size_t i = 0; i < cr_bugs->GetSize(); ++i) {
408 int bug_id;
409 if (cr_bugs->GetInteger(i, &bug_id)) {
410 entry->cr_bugs_.push_back(bug_id);
411 } else {
412 LOG(WARNING) << "Malformed cr_bugs entry " << entry->id();
413 return NULL;
416 dictionary_entry_count++;
419 const base::ListValue* webkit_bugs;
420 if (value->GetList("webkit_bugs", &webkit_bugs)) {
421 for (size_t i = 0; i < webkit_bugs->GetSize(); ++i) {
422 int bug_id;
423 if (webkit_bugs->GetInteger(i, &bug_id)) {
424 entry->webkit_bugs_.push_back(bug_id);
425 } else {
426 LOG(WARNING) << "Malformed webkit_bugs entry " << entry->id();
427 return NULL;
430 dictionary_entry_count++;
433 const base::ListValue* disabled_extensions;
434 if (value->GetList("disabled_extensions", &disabled_extensions)) {
435 for (size_t i = 0; i < disabled_extensions->GetSize(); ++i) {
436 std::string disabled_extension;
437 if (disabled_extensions->GetString(i, &disabled_extension)) {
438 entry->disabled_extensions_.push_back(disabled_extension);
439 } else {
440 LOG(WARNING) << "Malformed disabled_extensions entry " << entry->id();
441 return NULL;
444 dictionary_entry_count++;
447 const base::DictionaryValue* os_value = NULL;
448 if (value->GetDictionary("os", &os_value)) {
449 std::string os_type;
450 std::string os_version_op = "any";
451 std::string os_version_string;
452 std::string os_version_string2;
453 os_value->GetString("type", &os_type);
454 const base::DictionaryValue* os_version_value = NULL;
455 if (os_value->GetDictionary("version", &os_version_value)) {
456 os_version_value->GetString(kOp, &os_version_op);
457 os_version_value->GetString("value", &os_version_string);
458 os_version_value->GetString("value2", &os_version_string2);
460 if (!entry->SetOsInfo(os_type, os_version_op, os_version_string,
461 os_version_string2)) {
462 LOG(WARNING) << "Malformed os entry " << entry->id();
463 return NULL;
465 dictionary_entry_count++;
468 std::string vendor_id;
469 if (value->GetString("vendor_id", &vendor_id)) {
470 if (!entry->SetVendorId(vendor_id)) {
471 LOG(WARNING) << "Malformed vendor_id entry " << entry->id();
472 return NULL;
474 dictionary_entry_count++;
477 const base::ListValue* device_id_list;
478 if (value->GetList("device_id", &device_id_list)) {
479 for (size_t i = 0; i < device_id_list->GetSize(); ++i) {
480 std::string device_id;
481 if (!device_id_list->GetString(i, &device_id) ||
482 !entry->AddDeviceId(device_id)) {
483 LOG(WARNING) << "Malformed device_id entry " << entry->id();
484 return NULL;
487 dictionary_entry_count++;
490 std::string multi_gpu_style;
491 if (value->GetString("multi_gpu_style", &multi_gpu_style)) {
492 if (!entry->SetMultiGpuStyle(multi_gpu_style)) {
493 LOG(WARNING) << "Malformed multi_gpu_style entry " << entry->id();
494 return NULL;
496 dictionary_entry_count++;
499 std::string multi_gpu_category;
500 if (value->GetString("multi_gpu_category", &multi_gpu_category)) {
501 if (!entry->SetMultiGpuCategory(multi_gpu_category)) {
502 LOG(WARNING) << "Malformed multi_gpu_category entry " << entry->id();
503 return NULL;
505 dictionary_entry_count++;
508 std::string driver_vendor_value;
509 if (value->GetString("driver_vendor", &driver_vendor_value)) {
510 if (!entry->SetDriverVendorInfo(driver_vendor_value)) {
511 LOG(WARNING) << "Malformed driver_vendor entry " << entry->id();
512 return NULL;
514 dictionary_entry_count++;
517 const base::DictionaryValue* driver_version_value = NULL;
518 if (value->GetDictionary("driver_version", &driver_version_value)) {
519 std::string driver_version_op = "any";
520 std::string driver_version_style;
521 std::string driver_version_string;
522 std::string driver_version_string2;
523 driver_version_value->GetString(kOp, &driver_version_op);
524 driver_version_value->GetString("style", &driver_version_style);
525 driver_version_value->GetString("value", &driver_version_string);
526 driver_version_value->GetString("value2", &driver_version_string2);
527 if (!entry->SetDriverVersionInfo(driver_version_op,
528 driver_version_style,
529 driver_version_string,
530 driver_version_string2)) {
531 LOG(WARNING) << "Malformed driver_version entry " << entry->id();
532 return NULL;
534 dictionary_entry_count++;
537 const base::DictionaryValue* driver_date_value = NULL;
538 if (value->GetDictionary("driver_date", &driver_date_value)) {
539 std::string driver_date_op = "any";
540 std::string driver_date_string;
541 std::string driver_date_string2;
542 driver_date_value->GetString(kOp, &driver_date_op);
543 driver_date_value->GetString("value", &driver_date_string);
544 driver_date_value->GetString("value2", &driver_date_string2);
545 if (!entry->SetDriverDateInfo(driver_date_op, driver_date_string,
546 driver_date_string2)) {
547 LOG(WARNING) << "Malformed driver_date entry " << entry->id();
548 return NULL;
550 dictionary_entry_count++;
553 std::string gl_type;
554 if (value->GetString("gl_type", &gl_type)) {
555 if (!entry->SetGLType(gl_type)) {
556 LOG(WARNING) << "Malformed gl_type entry " << entry->id();
557 return NULL;
559 dictionary_entry_count++;
562 const base::DictionaryValue* gl_version_value = NULL;
563 if (value->GetDictionary("gl_version", &gl_version_value)) {
564 std::string version_op = "any";
565 std::string version_string;
566 std::string version_string2;
567 gl_version_value->GetString(kOp, &version_op);
568 gl_version_value->GetString("value", &version_string);
569 gl_version_value->GetString("value2", &version_string2);
570 if (!entry->SetGLVersionInfo(
571 version_op, version_string, version_string2)) {
572 LOG(WARNING) << "Malformed gl_version entry " << entry->id();
573 return NULL;
575 dictionary_entry_count++;
578 std::string gl_vendor_value;
579 if (value->GetString("gl_vendor", &gl_vendor_value)) {
580 if (!entry->SetGLVendorInfo(gl_vendor_value)) {
581 LOG(WARNING) << "Malformed gl_vendor entry " << entry->id();
582 return NULL;
584 dictionary_entry_count++;
587 std::string gl_renderer_value;
588 if (value->GetString("gl_renderer", &gl_renderer_value)) {
589 if (!entry->SetGLRendererInfo(gl_renderer_value)) {
590 LOG(WARNING) << "Malformed gl_renderer entry " << entry->id();
591 return NULL;
593 dictionary_entry_count++;
596 std::string gl_extensions_value;
597 if (value->GetString("gl_extensions", &gl_extensions_value)) {
598 if (!entry->SetGLExtensionsInfo(gl_extensions_value)) {
599 LOG(WARNING) << "Malformed gl_extensions entry " << entry->id();
600 return NULL;
602 dictionary_entry_count++;
605 const base::DictionaryValue* gl_reset_notification_strategy_value = NULL;
606 if (value->GetDictionary("gl_reset_notification_strategy",
607 &gl_reset_notification_strategy_value)) {
608 std::string op;
609 std::string int_value;
610 std::string int_value2;
611 gl_reset_notification_strategy_value->GetString(kOp, &op);
612 gl_reset_notification_strategy_value->GetString("value", &int_value);
613 gl_reset_notification_strategy_value->GetString("value2", &int_value2);
614 if (!entry->SetGLResetNotificationStrategyInfo(
615 op, int_value, int_value2)) {
616 LOG(WARNING) << "Malformed gl_reset_notification_strategy entry "
617 << entry->id();
618 return NULL;
620 dictionary_entry_count++;
623 std::string cpu_brand_value;
624 if (value->GetString("cpu_info", &cpu_brand_value)) {
625 if (!entry->SetCpuBrand(cpu_brand_value)) {
626 LOG(WARNING) << "Malformed cpu_brand entry " << entry->id();
627 return NULL;
629 dictionary_entry_count++;
632 const base::DictionaryValue* perf_graphics_value = NULL;
633 if (value->GetDictionary("perf_graphics", &perf_graphics_value)) {
634 std::string op;
635 std::string float_value;
636 std::string float_value2;
637 perf_graphics_value->GetString(kOp, &op);
638 perf_graphics_value->GetString("value", &float_value);
639 perf_graphics_value->GetString("value2", &float_value2);
640 if (!entry->SetPerfGraphicsInfo(op, float_value, float_value2)) {
641 LOG(WARNING) << "Malformed perf_graphics entry " << entry->id();
642 return NULL;
644 dictionary_entry_count++;
647 const base::DictionaryValue* perf_gaming_value = NULL;
648 if (value->GetDictionary("perf_gaming", &perf_gaming_value)) {
649 std::string op;
650 std::string float_value;
651 std::string float_value2;
652 perf_gaming_value->GetString(kOp, &op);
653 perf_gaming_value->GetString("value", &float_value);
654 perf_gaming_value->GetString("value2", &float_value2);
655 if (!entry->SetPerfGamingInfo(op, float_value, float_value2)) {
656 LOG(WARNING) << "Malformed perf_gaming entry " << entry->id();
657 return NULL;
659 dictionary_entry_count++;
662 const base::DictionaryValue* perf_overall_value = NULL;
663 if (value->GetDictionary("perf_overall", &perf_overall_value)) {
664 std::string op;
665 std::string float_value;
666 std::string float_value2;
667 perf_overall_value->GetString(kOp, &op);
668 perf_overall_value->GetString("value", &float_value);
669 perf_overall_value->GetString("value2", &float_value2);
670 if (!entry->SetPerfOverallInfo(op, float_value, float_value2)) {
671 LOG(WARNING) << "Malformed perf_overall entry " << entry->id();
672 return NULL;
674 dictionary_entry_count++;
677 const base::ListValue* machine_model_name_list;
678 if (value->GetList("machine_model_name", &machine_model_name_list)) {
679 for (size_t i = 0; i < machine_model_name_list->GetSize(); ++i) {
680 std::string model_name;
681 if (!machine_model_name_list->GetString(i, &model_name) ||
682 !entry->AddMachineModelName(model_name)) {
683 LOG(WARNING) << "Malformed machine_model_name entry " << entry->id();
684 return NULL;
687 dictionary_entry_count++;
690 const base::DictionaryValue* machine_model_version_value = NULL;
691 if (value->GetDictionary(
692 "machine_model_version", &machine_model_version_value)) {
693 std::string version_op = "any";
694 std::string version_string;
695 std::string version_string2;
696 machine_model_version_value->GetString(kOp, &version_op);
697 machine_model_version_value->GetString("value", &version_string);
698 machine_model_version_value->GetString("value2", &version_string2);
699 if (!entry->SetMachineModelVersionInfo(
700 version_op, version_string, version_string2)) {
701 LOG(WARNING) << "Malformed machine_model_version entry " << entry->id();
702 return NULL;
704 dictionary_entry_count++;
707 const base::DictionaryValue* gpu_count_value = NULL;
708 if (value->GetDictionary("gpu_count", &gpu_count_value)) {
709 std::string op;
710 std::string int_value;
711 std::string int_value2;
712 gpu_count_value->GetString(kOp, &op);
713 gpu_count_value->GetString("value", &int_value);
714 gpu_count_value->GetString("value2", &int_value2);
715 if (!entry->SetGpuCountInfo(op, int_value, int_value2)) {
716 LOG(WARNING) << "Malformed gpu_count entry " << entry->id();
717 return NULL;
719 dictionary_entry_count++;
722 bool direct_rendering;
723 if (value->GetBoolean("direct_rendering", &direct_rendering)) {
724 entry->SetDirectRenderingInfo(direct_rendering);
725 dictionary_entry_count++;
728 bool in_process_gpu;
729 if (value->GetBoolean("in_process_gpu", &in_process_gpu)) {
730 entry->SetInProcessGPUInfo(in_process_gpu);
731 dictionary_entry_count++;
734 if (top_level) {
735 const base::ListValue* feature_value = NULL;
736 if (value->GetList("features", &feature_value)) {
737 std::vector<std::string> feature_list;
738 for (size_t i = 0; i < feature_value->GetSize(); ++i) {
739 std::string feature;
740 if (feature_value->GetString(i, &feature)) {
741 feature_list.push_back(feature);
742 } else {
743 LOG(WARNING) << "Malformed feature entry " << entry->id();
744 return NULL;
747 if (!entry->SetFeatures(
748 feature_list, feature_map, supports_feature_type_all)) {
749 LOG(WARNING) << "Malformed feature entry " << entry->id();
750 return NULL;
752 dictionary_entry_count++;
756 if (top_level) {
757 const base::ListValue* exception_list_value = NULL;
758 if (value->GetList("exceptions", &exception_list_value)) {
759 for (size_t i = 0; i < exception_list_value->GetSize(); ++i) {
760 const base::DictionaryValue* exception_value = NULL;
761 if (!exception_list_value->GetDictionary(i, &exception_value)) {
762 LOG(WARNING) << "Malformed exceptions entry " << entry->id();
763 return NULL;
765 ScopedGpuControlListEntry exception(GetEntryFromValue(
766 exception_value, false, feature_map, supports_feature_type_all));
767 if (exception.get() == NULL) {
768 LOG(WARNING) << "Malformed exceptions entry " << entry->id();
769 return NULL;
771 // Exception should inherit vendor_id from parent, otherwise if only
772 // device_ids are specified in Exception, the info will be incomplete.
773 if (exception->vendor_id_ == 0 && entry->vendor_id_ != 0)
774 exception->vendor_id_ = entry->vendor_id_;
775 entry->AddException(exception);
777 dictionary_entry_count++;
781 if (value->size() != dictionary_entry_count) {
782 LOG(WARNING) << "Entry with unknown fields " << entry->id();
783 return NULL;
786 // If GL_VERSION is specified, but no info about whether it's GL or GLES,
787 // we use the default for the platform. See GLType enum declaration.
788 if (entry->gl_version_info_.get() != NULL && entry->gl_type_ == kGLTypeNone)
789 entry->gl_type_ = GetDefaultGLType();
791 return entry;
794 GpuControlList::GpuControlListEntry::GpuControlListEntry()
795 : id_(0),
796 disabled_(false),
797 vendor_id_(0),
798 multi_gpu_style_(kMultiGpuStyleNone),
799 multi_gpu_category_(kMultiGpuCategoryPrimary),
800 gl_type_(kGLTypeNone) {
803 GpuControlList::GpuControlListEntry::~GpuControlListEntry() { }
805 bool GpuControlList::GpuControlListEntry::SetId(uint32 id) {
806 if (id != 0) {
807 id_ = id;
808 return true;
810 return false;
813 void GpuControlList::GpuControlListEntry::SetDisabled(bool disabled) {
814 disabled_ = disabled;
817 bool GpuControlList::GpuControlListEntry::SetOsInfo(
818 const std::string& os,
819 const std::string& version_op,
820 const std::string& version_string,
821 const std::string& version_string2) {
822 os_info_.reset(new OsInfo(os, version_op, version_string, version_string2));
823 return os_info_->IsValid();
826 bool GpuControlList::GpuControlListEntry::SetVendorId(
827 const std::string& vendor_id_string) {
828 vendor_id_ = 0;
829 return base::HexStringToUInt(vendor_id_string, &vendor_id_) &&
830 vendor_id_ != 0;
833 bool GpuControlList::GpuControlListEntry::AddDeviceId(
834 const std::string& device_id_string) {
835 uint32 device_id = 0;
836 if (base::HexStringToUInt(device_id_string, &device_id) && device_id != 0) {
837 device_id_list_.push_back(device_id);
838 return true;
840 return false;
843 bool GpuControlList::GpuControlListEntry::SetMultiGpuStyle(
844 const std::string& multi_gpu_style_string) {
845 MultiGpuStyle style = StringToMultiGpuStyle(multi_gpu_style_string);
846 if (style == kMultiGpuStyleNone)
847 return false;
848 multi_gpu_style_ = style;
849 return true;
852 bool GpuControlList::GpuControlListEntry::SetMultiGpuCategory(
853 const std::string& multi_gpu_category_string) {
854 MultiGpuCategory category =
855 StringToMultiGpuCategory(multi_gpu_category_string);
856 if (category == kMultiGpuCategoryNone)
857 return false;
858 multi_gpu_category_ = category;
859 return true;
862 bool GpuControlList::GpuControlListEntry::SetGLType(
863 const std::string& gl_type_string) {
864 GLType gl_type = StringToGLType(gl_type_string);
865 if (gl_type == kGLTypeNone)
866 return false;
867 gl_type_ = gl_type;
868 return true;
871 bool GpuControlList::GpuControlListEntry::SetDriverVendorInfo(
872 const std::string& vendor_value) {
873 driver_vendor_info_ = vendor_value;
874 return !driver_vendor_info_.empty();
877 bool GpuControlList::GpuControlListEntry::SetDriverVersionInfo(
878 const std::string& version_op,
879 const std::string& version_style,
880 const std::string& version_string,
881 const std::string& version_string2) {
882 driver_version_info_.reset(new VersionInfo(
883 version_op, version_style, version_string, version_string2));
884 return driver_version_info_->IsValid();
887 bool GpuControlList::GpuControlListEntry::SetDriverDateInfo(
888 const std::string& date_op,
889 const std::string& date_string,
890 const std::string& date_string2) {
891 driver_date_info_.reset(
892 new VersionInfo(date_op, std::string(), date_string, date_string2));
893 return driver_date_info_->IsValid();
896 bool GpuControlList::GpuControlListEntry::SetGLVersionInfo(
897 const std::string& version_op,
898 const std::string& version_string,
899 const std::string& version_string2) {
900 gl_version_info_.reset(new VersionInfo(
901 version_op, std::string(), version_string, version_string2));
902 return gl_version_info_->IsValid();
905 bool GpuControlList::GpuControlListEntry::SetGLVendorInfo(
906 const std::string& vendor_value) {
907 gl_vendor_info_ = vendor_value;
908 return !gl_vendor_info_.empty();
911 bool GpuControlList::GpuControlListEntry::SetGLRendererInfo(
912 const std::string& renderer_value) {
913 gl_renderer_info_ = renderer_value;
914 return !gl_renderer_info_.empty();
917 bool GpuControlList::GpuControlListEntry::SetGLExtensionsInfo(
918 const std::string& extensions_value) {
919 gl_extensions_info_ = extensions_value;
920 return !gl_extensions_info_.empty();
923 bool GpuControlList::GpuControlListEntry::SetGLResetNotificationStrategyInfo(
924 const std::string& op,
925 const std::string& int_string,
926 const std::string& int_string2) {
927 gl_reset_notification_strategy_info_.reset(
928 new IntInfo(op, int_string, int_string2));
929 return gl_reset_notification_strategy_info_->IsValid();
932 bool GpuControlList::GpuControlListEntry::SetCpuBrand(
933 const std::string& cpu_value) {
934 cpu_brand_ = cpu_value;
935 return !cpu_brand_.empty();
938 bool GpuControlList::GpuControlListEntry::SetPerfGraphicsInfo(
939 const std::string& op,
940 const std::string& float_string,
941 const std::string& float_string2) {
942 perf_graphics_info_.reset(new FloatInfo(op, float_string, float_string2));
943 return perf_graphics_info_->IsValid();
946 bool GpuControlList::GpuControlListEntry::SetPerfGamingInfo(
947 const std::string& op,
948 const std::string& float_string,
949 const std::string& float_string2) {
950 perf_gaming_info_.reset(new FloatInfo(op, float_string, float_string2));
951 return perf_gaming_info_->IsValid();
954 bool GpuControlList::GpuControlListEntry::SetPerfOverallInfo(
955 const std::string& op,
956 const std::string& float_string,
957 const std::string& float_string2) {
958 perf_overall_info_.reset(new FloatInfo(op, float_string, float_string2));
959 return perf_overall_info_->IsValid();
962 bool GpuControlList::GpuControlListEntry::AddMachineModelName(
963 const std::string& model_name) {
964 if (model_name.empty())
965 return false;
966 machine_model_name_list_.push_back(model_name);
967 return true;
970 bool GpuControlList::GpuControlListEntry::SetMachineModelVersionInfo(
971 const std::string& version_op,
972 const std::string& version_string,
973 const std::string& version_string2) {
974 machine_model_version_info_.reset(new VersionInfo(
975 version_op, std::string(), version_string, version_string2));
976 return machine_model_version_info_->IsValid();
979 bool GpuControlList::GpuControlListEntry::SetGpuCountInfo(
980 const std::string& op,
981 const std::string& int_string,
982 const std::string& int_string2) {
983 gpu_count_info_.reset(new IntInfo(op, int_string, int_string2));
984 return gpu_count_info_->IsValid();
987 void GpuControlList::GpuControlListEntry::SetDirectRenderingInfo(bool value) {
988 direct_rendering_info_.reset(new BoolInfo(value));
991 void GpuControlList::GpuControlListEntry::SetInProcessGPUInfo(bool value) {
992 in_process_gpu_info_.reset(new BoolInfo(value));
995 bool GpuControlList::GpuControlListEntry::SetFeatures(
996 const std::vector<std::string>& feature_strings,
997 const FeatureMap& feature_map,
998 bool supports_feature_type_all) {
999 size_t size = feature_strings.size();
1000 if (size == 0)
1001 return false;
1002 features_.clear();
1003 for (size_t i = 0; i < size; ++i) {
1004 int feature = 0;
1005 if (supports_feature_type_all && feature_strings[i] == "all") {
1006 for (FeatureMap::const_iterator iter = feature_map.begin();
1007 iter != feature_map.end(); ++iter)
1008 features_.insert(iter->second);
1009 continue;
1011 if (!StringToFeature(feature_strings[i], &feature, feature_map)) {
1012 features_.clear();
1013 return false;
1015 features_.insert(feature);
1017 return true;
1020 void GpuControlList::GpuControlListEntry::AddException(
1021 ScopedGpuControlListEntry exception) {
1022 exceptions_.push_back(exception);
1025 bool GpuControlList::GpuControlListEntry::GLVersionInfoMismatch(
1026 const std::string& gl_version) const {
1027 if (gl_version.empty())
1028 return false;
1030 if (gl_version_info_.get() == NULL && gl_type_ == kGLTypeNone)
1031 return false;
1033 std::vector<std::string> segments = base::SplitString(
1034 gl_version, " ", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
1035 std::string number;
1036 GLType gl_type = kGLTypeNone;
1037 if (segments.size() > 2 &&
1038 segments[0] == "OpenGL" && segments[1] == "ES") {
1039 bool full_match = RE2::FullMatch(segments[2], "([\\d.]+).*", &number);
1040 DCHECK(full_match);
1042 gl_type = kGLTypeGLES;
1043 if (segments.size() > 3 &&
1044 base::StartsWith(segments[3], "(ANGLE",
1045 base::CompareCase::INSENSITIVE_ASCII)) {
1046 gl_type = kGLTypeANGLE;
1048 } else {
1049 number = segments[0];
1050 gl_type = kGLTypeGL;
1053 if (gl_type_ != kGLTypeNone && gl_type_ != gl_type)
1054 return true;
1055 if (gl_version_info_.get() != NULL && !gl_version_info_->Contains(number))
1056 return true;
1057 return false;
1060 // static
1061 GpuControlList::GpuControlListEntry::MultiGpuStyle
1062 GpuControlList::GpuControlListEntry::StringToMultiGpuStyle(
1063 const std::string& style) {
1064 if (style == kMultiGpuStyleStringOptimus)
1065 return kMultiGpuStyleOptimus;
1066 if (style == kMultiGpuStyleStringAMDSwitchable)
1067 return kMultiGpuStyleAMDSwitchable;
1068 if (style == kMultiGpuStyleStringAMDSwitchableIntegrated)
1069 return kMultiGpuStyleAMDSwitchableIntegrated;
1070 if (style == kMultiGpuStyleStringAMDSwitchableDiscrete)
1071 return kMultiGpuStyleAMDSwitchableDiscrete;
1072 return kMultiGpuStyleNone;
1075 // static
1076 GpuControlList::GpuControlListEntry::MultiGpuCategory
1077 GpuControlList::GpuControlListEntry::StringToMultiGpuCategory(
1078 const std::string& category) {
1079 if (category == kMultiGpuCategoryStringPrimary)
1080 return kMultiGpuCategoryPrimary;
1081 if (category == kMultiGpuCategoryStringSecondary)
1082 return kMultiGpuCategorySecondary;
1083 if (category == kMultiGpuCategoryStringActive)
1084 return kMultiGpuCategoryActive;
1085 if (category == kMultiGpuCategoryStringAny)
1086 return kMultiGpuCategoryAny;
1087 return kMultiGpuCategoryNone;
1090 // static
1091 GpuControlList::GpuControlListEntry::GLType
1092 GpuControlList::GpuControlListEntry::StringToGLType(
1093 const std::string& gl_type) {
1094 if (gl_type == kGLTypeStringGL)
1095 return kGLTypeGL;
1096 if (gl_type == kGLTypeStringGLES)
1097 return kGLTypeGLES;
1098 if (gl_type == kGLTypeStringANGLE)
1099 return kGLTypeANGLE;
1100 return kGLTypeNone;
1103 // static
1104 GpuControlList::GpuControlListEntry::GLType
1105 GpuControlList::GpuControlListEntry::GetDefaultGLType() {
1106 #if defined(OS_CHROMEOS)
1107 return kGLTypeGL;
1108 #elif defined(OS_LINUX) || defined(OS_OPENBSD)
1109 return kGLTypeGL;
1110 #elif defined(OS_MACOSX)
1111 return kGLTypeGL;
1112 #elif defined(OS_WIN)
1113 return kGLTypeANGLE;
1114 #elif defined(OS_ANDROID)
1115 return kGLTypeGLES;
1116 #else
1117 return kGLTypeNone;
1118 #endif
1121 void GpuControlList::GpuControlListEntry::LogControlListMatch(
1122 const std::string& control_list_logging_name) const {
1123 static const char kControlListMatchMessage[] =
1124 "Control list match for rule #%u in %s.";
1125 VLOG(1) << base::StringPrintf(kControlListMatchMessage, id_,
1126 control_list_logging_name.c_str());
1129 bool GpuControlList::GpuControlListEntry::Contains(
1130 OsType os_type, const std::string& os_version,
1131 const GPUInfo& gpu_info) const {
1132 DCHECK(os_type != kOsAny);
1133 if (os_info_.get() != NULL && !os_info_->Contains(os_type, os_version))
1134 return false;
1135 if (vendor_id_ != 0) {
1136 std::vector<GPUInfo::GPUDevice> candidates;
1137 switch (multi_gpu_category_) {
1138 case kMultiGpuCategoryPrimary:
1139 candidates.push_back(gpu_info.gpu);
1140 break;
1141 case kMultiGpuCategorySecondary:
1142 candidates = gpu_info.secondary_gpus;
1143 break;
1144 case kMultiGpuCategoryAny:
1145 candidates = gpu_info.secondary_gpus;
1146 candidates.push_back(gpu_info.gpu);
1147 break;
1148 case kMultiGpuCategoryActive:
1149 if (gpu_info.gpu.active)
1150 candidates.push_back(gpu_info.gpu);
1151 for (size_t ii = 0; ii < gpu_info.secondary_gpus.size(); ++ii) {
1152 if (gpu_info.secondary_gpus[ii].active)
1153 candidates.push_back(gpu_info.secondary_gpus[ii]);
1155 default:
1156 break;
1159 GPUInfo::GPUDevice gpu;
1160 gpu.vendor_id = vendor_id_;
1161 bool found = false;
1162 if (device_id_list_.empty()) {
1163 for (size_t ii = 0; ii < candidates.size(); ++ii) {
1164 if (gpu.vendor_id == candidates[ii].vendor_id) {
1165 found = true;
1166 break;
1169 } else {
1170 for (size_t ii = 0; ii < device_id_list_.size(); ++ii) {
1171 gpu.device_id = device_id_list_[ii];
1172 for (size_t jj = 0; jj < candidates.size(); ++jj) {
1173 if (gpu.vendor_id == candidates[jj].vendor_id &&
1174 gpu.device_id == candidates[jj].device_id) {
1175 found = true;
1176 break;
1181 if (!found)
1182 return false;
1184 switch (multi_gpu_style_) {
1185 case kMultiGpuStyleOptimus:
1186 if (!gpu_info.optimus)
1187 return false;
1188 break;
1189 case kMultiGpuStyleAMDSwitchable:
1190 if (!gpu_info.amd_switchable)
1191 return false;
1192 break;
1193 case kMultiGpuStyleAMDSwitchableDiscrete:
1194 if (!gpu_info.amd_switchable)
1195 return false;
1196 // The discrete GPU is always the primary GPU.
1197 // This is guaranteed by GpuInfoCollector.
1198 if (!gpu_info.gpu.active)
1199 return false;
1200 break;
1201 case kMultiGpuStyleAMDSwitchableIntegrated:
1202 if (!gpu_info.amd_switchable)
1203 return false;
1204 // Assume the integrated GPU is the first in the secondary GPU list.
1205 if (gpu_info.secondary_gpus.size() == 0 ||
1206 !gpu_info.secondary_gpus[0].active)
1207 return false;
1208 break;
1209 case kMultiGpuStyleNone:
1210 break;
1212 if (StringMismatch(gpu_info.driver_vendor, driver_vendor_info_))
1213 return false;
1214 if (driver_version_info_.get() != NULL && !gpu_info.driver_version.empty()) {
1215 if (!driver_version_info_->Contains(gpu_info.driver_version))
1216 return false;
1218 if (driver_date_info_.get() != NULL && !gpu_info.driver_date.empty()) {
1219 if (!driver_date_info_->Contains(gpu_info.driver_date, '-'))
1220 return false;
1222 if (GLVersionInfoMismatch(gpu_info.gl_version))
1223 return false;
1224 if (StringMismatch(gpu_info.gl_vendor, gl_vendor_info_))
1225 return false;
1226 if (StringMismatch(gpu_info.gl_renderer, gl_renderer_info_))
1227 return false;
1228 if (StringMismatch(gpu_info.gl_extensions, gl_extensions_info_))
1229 return false;
1230 if (gl_reset_notification_strategy_info_.get() != NULL &&
1231 !gl_reset_notification_strategy_info_->Contains(
1232 gpu_info.gl_reset_notification_strategy))
1233 return false;
1234 if (!machine_model_name_list_.empty()) {
1235 if (gpu_info.machine_model_name.empty())
1236 return false;
1237 bool found_match = false;
1238 for (size_t ii = 0; ii < machine_model_name_list_.size(); ++ii) {
1239 if (RE2::FullMatch(gpu_info.machine_model_name,
1240 machine_model_name_list_[ii])) {
1241 found_match = true;
1242 break;
1245 if (!found_match)
1246 return false;
1248 if (machine_model_version_info_.get() != NULL &&
1249 (gpu_info.machine_model_version.empty() ||
1250 !machine_model_version_info_->Contains(gpu_info.machine_model_version)))
1251 return false;
1252 if (gpu_count_info_.get() != NULL &&
1253 !gpu_count_info_->Contains(gpu_info.secondary_gpus.size() + 1))
1254 return false;
1255 if (direct_rendering_info_.get() != NULL &&
1256 !direct_rendering_info_->Contains(gpu_info.direct_rendering))
1257 return false;
1258 if (in_process_gpu_info_.get() != NULL &&
1259 !in_process_gpu_info_->Contains(gpu_info.in_process_gpu))
1260 return false;
1261 if (!cpu_brand_.empty()) {
1262 base::CPU cpu_info;
1263 if (StringMismatch(cpu_info.cpu_brand(), cpu_brand_))
1264 return false;
1267 for (size_t i = 0; i < exceptions_.size(); ++i) {
1268 if (exceptions_[i]->Contains(os_type, os_version, gpu_info) &&
1269 !exceptions_[i]->NeedsMoreInfo(gpu_info, true))
1270 return false;
1272 return true;
1275 bool GpuControlList::GpuControlListEntry::NeedsMoreInfo(
1276 const GPUInfo& gpu_info,
1277 bool consider_exceptions) const {
1278 // We only check for missing info that might be collected with a gl context.
1279 // If certain info is missing due to some error, say, we fail to collect
1280 // vendor_id/device_id, then even if we launch GPU process and create a gl
1281 // context, we won't gather such missing info, so we still return false.
1282 if (!driver_vendor_info_.empty() && gpu_info.driver_vendor.empty())
1283 return true;
1284 if (driver_version_info_.get() && gpu_info.driver_version.empty())
1285 return true;
1286 if (!gl_vendor_info_.empty() && gpu_info.gl_vendor.empty())
1287 return true;
1288 if (!gl_renderer_info_.empty() && gpu_info.gl_renderer.empty())
1289 return true;
1291 if (consider_exceptions) {
1292 for (size_t i = 0; i < exceptions_.size(); ++i) {
1293 if (exceptions_[i]->NeedsMoreInfo(gpu_info, consider_exceptions))
1294 return true;
1298 return false;
1301 GpuControlList::OsType GpuControlList::GpuControlListEntry::GetOsType() const {
1302 if (os_info_.get() == NULL)
1303 return kOsAny;
1304 return os_info_->type();
1307 uint32 GpuControlList::GpuControlListEntry::id() const {
1308 return id_;
1311 bool GpuControlList::GpuControlListEntry::disabled() const {
1312 return disabled_;
1315 const std::set<int>& GpuControlList::GpuControlListEntry::features() const {
1316 return features_;
1319 void GpuControlList::GpuControlListEntry::GetFeatureNames(
1320 base::ListValue* feature_names,
1321 const FeatureMap& feature_map,
1322 bool supports_feature_type_all) const {
1323 DCHECK(feature_names);
1324 if (supports_feature_type_all && features_.size() == feature_map.size()) {
1325 feature_names->AppendString("all");
1326 return;
1328 for (FeatureMap::const_iterator iter = feature_map.begin();
1329 iter != feature_map.end(); ++iter) {
1330 if (features_.count(iter->second) > 0)
1331 feature_names->AppendString(iter->first);
1335 // static
1336 bool GpuControlList::GpuControlListEntry::StringToFeature(
1337 const std::string& feature_name, int* feature_id,
1338 const FeatureMap& feature_map) {
1339 FeatureMap::const_iterator iter = feature_map.find(feature_name);
1340 if (iter != feature_map.end()) {
1341 *feature_id = iter->second;
1342 return true;
1344 return false;
1347 GpuControlList::GpuControlList()
1348 : max_entry_id_(0),
1349 needs_more_info_(false),
1350 supports_feature_type_all_(false),
1351 control_list_logging_enabled_(false) {
1354 GpuControlList::~GpuControlList() {
1355 Clear();
1358 bool GpuControlList::LoadList(
1359 const std::string& json_context,
1360 GpuControlList::OsFilter os_filter) {
1361 scoped_ptr<base::Value> root = base::JSONReader::Read(json_context);
1362 if (root.get() == NULL || !root->IsType(base::Value::TYPE_DICTIONARY))
1363 return false;
1365 base::DictionaryValue* root_dictionary =
1366 static_cast<base::DictionaryValue*>(root.get());
1367 DCHECK(root_dictionary);
1368 return LoadList(*root_dictionary, os_filter);
1371 bool GpuControlList::LoadList(const base::DictionaryValue& parsed_json,
1372 GpuControlList::OsFilter os_filter) {
1373 std::vector<ScopedGpuControlListEntry> entries;
1375 parsed_json.GetString("version", &version_);
1376 std::vector<std::string> pieces;
1377 if (!ProcessVersionString(version_, '.', &pieces))
1378 return false;
1380 const base::ListValue* list = NULL;
1381 if (!parsed_json.GetList("entries", &list))
1382 return false;
1384 uint32 max_entry_id = 0;
1385 for (size_t i = 0; i < list->GetSize(); ++i) {
1386 const base::DictionaryValue* list_item = NULL;
1387 bool valid = list->GetDictionary(i, &list_item);
1388 if (!valid || list_item == NULL)
1389 return false;
1390 ScopedGpuControlListEntry entry(GpuControlListEntry::GetEntryFromValue(
1391 list_item, true, feature_map_, supports_feature_type_all_));
1392 if (entry.get() == NULL)
1393 return false;
1394 if (entry->id() > max_entry_id)
1395 max_entry_id = entry->id();
1396 entries.push_back(entry);
1399 Clear();
1400 OsType my_os = GetOsType();
1401 for (size_t i = 0; i < entries.size(); ++i) {
1402 OsType entry_os = entries[i]->GetOsType();
1403 if (os_filter == GpuControlList::kAllOs ||
1404 entry_os == kOsAny || entry_os == my_os)
1405 entries_.push_back(entries[i]);
1407 max_entry_id_ = max_entry_id;
1408 return true;
1411 std::set<int> GpuControlList::MakeDecision(
1412 GpuControlList::OsType os,
1413 std::string os_version,
1414 const GPUInfo& gpu_info) {
1415 active_entries_.clear();
1416 std::set<int> features;
1418 needs_more_info_ = false;
1419 // Has all features permanently in the list without any possibility of
1420 // removal in the future (subset of "features" set).
1421 std::set<int> permanent_features;
1422 // Has all features absent from "features" set that could potentially be
1423 // included later with more information.
1424 std::set<int> potential_features;
1426 if (os == kOsAny)
1427 os = GetOsType();
1428 if (os_version.empty())
1429 os_version = base::SysInfo::OperatingSystemVersion();
1431 for (size_t i = 0; i < entries_.size(); ++i) {
1432 ScopedGpuControlListEntry entry = entries_[i];
1433 if (entry->Contains(os, os_version, gpu_info)) {
1434 bool needs_more_info_main = entry->NeedsMoreInfo(gpu_info, false);
1435 bool needs_more_info_exception = entry->NeedsMoreInfo(gpu_info, true);
1437 if (!entry->disabled()) {
1438 if (control_list_logging_enabled_)
1439 entry->LogControlListMatch(control_list_logging_name_);
1440 // Only look at main entry info when deciding what to add to "features"
1441 // set. If we don't have enough info for an exception, it's safer if we
1442 // just ignore the exception and assume the exception doesn't apply.
1443 for (std::set<int>::const_iterator iter = entry->features().begin();
1444 iter != entry->features().end(); ++iter) {
1445 if (needs_more_info_main) {
1446 if (!features.count(*iter))
1447 potential_features.insert(*iter);
1448 } else {
1449 features.insert(*iter);
1450 potential_features.erase(*iter);
1451 if (!needs_more_info_exception)
1452 permanent_features.insert(*iter);
1457 if (!needs_more_info_main)
1458 active_entries_.push_back(entry);
1462 needs_more_info_ = permanent_features.size() < features.size() ||
1463 !potential_features.empty();
1464 return features;
1467 void GpuControlList::GetDecisionEntries(
1468 std::vector<uint32>* entry_ids, bool disabled) const {
1469 DCHECK(entry_ids);
1470 entry_ids->clear();
1471 for (size_t i = 0; i < active_entries_.size(); ++i) {
1472 if (disabled == active_entries_[i]->disabled())
1473 entry_ids->push_back(active_entries_[i]->id());
1477 std::vector<std::string> GpuControlList::GetDisabledExtensions() {
1478 std::set<std::string> disabled_extensions;
1479 for (size_t i = 0; i < active_entries_.size(); ++i) {
1480 GpuControlListEntry* entry = active_entries_[i].get();
1482 if (entry->disabled())
1483 continue;
1485 disabled_extensions.insert(entry->disabled_extensions().begin(),
1486 entry->disabled_extensions().end());
1488 return std::vector<std::string>(disabled_extensions.begin(),
1489 disabled_extensions.end());
1492 void GpuControlList::GetReasons(base::ListValue* problem_list,
1493 const std::string& tag) const {
1494 DCHECK(problem_list);
1495 for (size_t i = 0; i < active_entries_.size(); ++i) {
1496 GpuControlListEntry* entry = active_entries_[i].get();
1497 if (entry->disabled())
1498 continue;
1499 base::DictionaryValue* problem = new base::DictionaryValue();
1501 problem->SetString("description", entry->description());
1503 base::ListValue* cr_bugs = new base::ListValue();
1504 for (size_t j = 0; j < entry->cr_bugs().size(); ++j)
1505 cr_bugs->Append(new base::FundamentalValue(entry->cr_bugs()[j]));
1506 problem->Set("crBugs", cr_bugs);
1508 base::ListValue* webkit_bugs = new base::ListValue();
1509 for (size_t j = 0; j < entry->webkit_bugs().size(); ++j) {
1510 webkit_bugs->Append(new base::FundamentalValue(entry->webkit_bugs()[j]));
1512 problem->Set("webkitBugs", webkit_bugs);
1514 base::ListValue* features = new base::ListValue();
1515 entry->GetFeatureNames(features, feature_map_, supports_feature_type_all_);
1516 problem->Set("affectedGpuSettings", features);
1518 DCHECK(tag == "workarounds" || tag == "disabledFeatures");
1519 problem->SetString("tag", tag);
1521 problem_list->Append(problem);
1525 size_t GpuControlList::num_entries() const {
1526 return entries_.size();
1529 uint32 GpuControlList::max_entry_id() const {
1530 return max_entry_id_;
1533 std::string GpuControlList::version() const {
1534 return version_;
1537 GpuControlList::OsType GpuControlList::GetOsType() {
1538 #if defined(OS_CHROMEOS)
1539 return kOsChromeOS;
1540 #elif defined(OS_WIN)
1541 return kOsWin;
1542 #elif defined(OS_ANDROID)
1543 return kOsAndroid;
1544 #elif defined(OS_LINUX) || defined(OS_OPENBSD)
1545 return kOsLinux;
1546 #elif defined(OS_MACOSX)
1547 return kOsMacosx;
1548 #else
1549 return kOsUnknown;
1550 #endif
1553 void GpuControlList::Clear() {
1554 entries_.clear();
1555 active_entries_.clear();
1556 max_entry_id_ = 0;
1559 // static
1560 GpuControlList::NumericOp GpuControlList::StringToNumericOp(
1561 const std::string& op) {
1562 if (op == "=")
1563 return kEQ;
1564 if (op == "<")
1565 return kLT;
1566 if (op == "<=")
1567 return kLE;
1568 if (op == ">")
1569 return kGT;
1570 if (op == ">=")
1571 return kGE;
1572 if (op == "any")
1573 return kAny;
1574 if (op == "between")
1575 return kBetween;
1576 return kUnknown;
1579 void GpuControlList::AddSupportedFeature(
1580 const std::string& feature_name, int feature_id) {
1581 feature_map_[feature_name] = feature_id;
1584 void GpuControlList::set_supports_feature_type_all(bool supported) {
1585 supports_feature_type_all_ = supported;
1588 } // namespace gpu