Roll src/third_party/WebKit f36d5e0:68b67cd (svn 193299:193303)
[chromium-blink-merge.git] / base / process / process_metrics_linux.cc
blobdd37236dae5fdd6511186d9345fa31a5a41e86fb
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 "base/process/process_metrics.h"
7 #include <dirent.h>
8 #include <fcntl.h>
9 #include <sys/stat.h>
10 #include <sys/time.h>
11 #include <sys/types.h>
12 #include <unistd.h>
14 #include "base/files/file_util.h"
15 #include "base/logging.h"
16 #include "base/process/internal_linux.h"
17 #include "base/strings/string_number_conversions.h"
18 #include "base/strings/string_split.h"
19 #include "base/strings/string_tokenizer.h"
20 #include "base/strings/string_util.h"
21 #include "base/sys_info.h"
22 #include "base/threading/thread_restrictions.h"
24 namespace base {
26 namespace {
28 void TrimKeyValuePairs(StringPairs* pairs) {
29 DCHECK(pairs);
30 StringPairs& p_ref = *pairs;
31 for (size_t i = 0; i < p_ref.size(); ++i) {
32 TrimWhitespaceASCII(p_ref[i].first, TRIM_ALL, &p_ref[i].first);
33 TrimWhitespaceASCII(p_ref[i].second, TRIM_ALL, &p_ref[i].second);
37 #if defined(OS_CHROMEOS)
38 // Read a file with a single number string and return the number as a uint64.
39 static uint64 ReadFileToUint64(const FilePath file) {
40 std::string file_as_string;
41 if (!ReadFileToString(file, &file_as_string))
42 return 0;
43 TrimWhitespaceASCII(file_as_string, TRIM_ALL, &file_as_string);
44 uint64 file_as_uint64 = 0;
45 if (!StringToUint64(file_as_string, &file_as_uint64))
46 return 0;
47 return file_as_uint64;
49 #endif
51 // Read /proc/<pid>/status and return the value for |field|, or 0 on failure.
52 // Only works for fields in the form of "Field: value kB".
53 size_t ReadProcStatusAndGetFieldAsSizeT(pid_t pid, const std::string& field) {
54 std::string status;
56 // Synchronously reading files in /proc does not hit the disk.
57 ThreadRestrictions::ScopedAllowIO allow_io;
58 FilePath stat_file = internal::GetProcPidDir(pid).Append("status");
59 if (!ReadFileToString(stat_file, &status))
60 return 0;
63 StringPairs pairs;
64 SplitStringIntoKeyValuePairs(status, ':', '\n', &pairs);
65 TrimKeyValuePairs(&pairs);
66 for (size_t i = 0; i < pairs.size(); ++i) {
67 const std::string& key = pairs[i].first;
68 const std::string& value_str = pairs[i].second;
69 if (key == field) {
70 std::vector<std::string> split_value_str;
71 SplitString(value_str, ' ', &split_value_str);
72 if (split_value_str.size() != 2 || split_value_str[1] != "kB") {
73 NOTREACHED();
74 return 0;
76 size_t value;
77 if (!StringToSizeT(split_value_str[0], &value)) {
78 NOTREACHED();
79 return 0;
81 return value;
84 NOTREACHED();
85 return 0;
88 #if defined(OS_LINUX)
89 // Read /proc/<pid>/sched and look for |field|. On succes, return true and
90 // write the value for |field| into |result|.
91 // Only works for fields in the form of "field : uint_value"
92 bool ReadProcSchedAndGetFieldAsUint64(pid_t pid,
93 const std::string& field,
94 uint64* result) {
95 std::string sched_data;
97 // Synchronously reading files in /proc does not hit the disk.
98 ThreadRestrictions::ScopedAllowIO allow_io;
99 FilePath sched_file = internal::GetProcPidDir(pid).Append("sched");
100 if (!ReadFileToString(sched_file, &sched_data))
101 return false;
104 StringPairs pairs;
105 SplitStringIntoKeyValuePairs(sched_data, ':', '\n', &pairs);
106 TrimKeyValuePairs(&pairs);
107 for (size_t i = 0; i < pairs.size(); ++i) {
108 const std::string& key = pairs[i].first;
109 const std::string& value_str = pairs[i].second;
110 if (key == field) {
111 uint64 value;
112 if (!StringToUint64(value_str, &value))
113 return false;
114 *result = value;
115 return true;
118 return false;
120 #endif // defined(OS_LINUX)
122 // Get the total CPU of a single process. Return value is number of jiffies
123 // on success or -1 on error.
124 int GetProcessCPU(pid_t pid) {
125 // Use /proc/<pid>/task to find all threads and parse their /stat file.
126 FilePath task_path = internal::GetProcPidDir(pid).Append("task");
128 DIR* dir = opendir(task_path.value().c_str());
129 if (!dir) {
130 DPLOG(ERROR) << "opendir(" << task_path.value() << ")";
131 return -1;
134 int total_cpu = 0;
135 while (struct dirent* ent = readdir(dir)) {
136 pid_t tid = internal::ProcDirSlotToPid(ent->d_name);
137 if (!tid)
138 continue;
140 // Synchronously reading files in /proc does not hit the disk.
141 ThreadRestrictions::ScopedAllowIO allow_io;
143 std::string stat;
144 FilePath stat_path =
145 task_path.Append(ent->d_name).Append(internal::kStatFile);
146 if (ReadFileToString(stat_path, &stat)) {
147 int cpu = ParseProcStatCPU(stat);
148 if (cpu > 0)
149 total_cpu += cpu;
152 closedir(dir);
154 return total_cpu;
157 } // namespace
159 // static
160 ProcessMetrics* ProcessMetrics::CreateProcessMetrics(ProcessHandle process) {
161 return new ProcessMetrics(process);
164 // On linux, we return vsize.
165 size_t ProcessMetrics::GetPagefileUsage() const {
166 return internal::ReadProcStatsAndGetFieldAsSizeT(process_,
167 internal::VM_VSIZE);
170 // On linux, we return the high water mark of vsize.
171 size_t ProcessMetrics::GetPeakPagefileUsage() const {
172 return ReadProcStatusAndGetFieldAsSizeT(process_, "VmPeak") * 1024;
175 // On linux, we return RSS.
176 size_t ProcessMetrics::GetWorkingSetSize() const {
177 return internal::ReadProcStatsAndGetFieldAsSizeT(process_, internal::VM_RSS) *
178 getpagesize();
181 // On linux, we return the high water mark of RSS.
182 size_t ProcessMetrics::GetPeakWorkingSetSize() const {
183 return ReadProcStatusAndGetFieldAsSizeT(process_, "VmHWM") * 1024;
186 bool ProcessMetrics::GetMemoryBytes(size_t* private_bytes,
187 size_t* shared_bytes) {
188 WorkingSetKBytes ws_usage;
189 if (!GetWorkingSetKBytes(&ws_usage))
190 return false;
192 if (private_bytes)
193 *private_bytes = ws_usage.priv * 1024;
195 if (shared_bytes)
196 *shared_bytes = ws_usage.shared * 1024;
198 return true;
201 bool ProcessMetrics::GetWorkingSetKBytes(WorkingSetKBytes* ws_usage) const {
202 #if defined(OS_CHROMEOS)
203 if (GetWorkingSetKBytesTotmaps(ws_usage))
204 return true;
205 #endif
206 return GetWorkingSetKBytesStatm(ws_usage);
209 double ProcessMetrics::GetCPUUsage() {
210 TimeTicks time = TimeTicks::Now();
212 if (last_cpu_ == 0) {
213 // First call, just set the last values.
214 last_cpu_time_ = time;
215 last_cpu_ = GetProcessCPU(process_);
216 return 0;
219 int64 time_delta = (time - last_cpu_time_).InMicroseconds();
220 DCHECK_NE(time_delta, 0);
221 if (time_delta == 0)
222 return 0;
224 int cpu = GetProcessCPU(process_);
226 // We have the number of jiffies in the time period. Convert to percentage.
227 // Note this means we will go *over* 100 in the case where multiple threads
228 // are together adding to more than one CPU's worth.
229 TimeDelta cpu_time = internal::ClockTicksToTimeDelta(cpu);
230 TimeDelta last_cpu_time = internal::ClockTicksToTimeDelta(last_cpu_);
231 int percentage = 100 * (cpu_time - last_cpu_time).InSecondsF() /
232 TimeDelta::FromMicroseconds(time_delta).InSecondsF();
234 last_cpu_time_ = time;
235 last_cpu_ = cpu;
237 return percentage;
240 // To have /proc/self/io file you must enable CONFIG_TASK_IO_ACCOUNTING
241 // in your kernel configuration.
242 bool ProcessMetrics::GetIOCounters(IoCounters* io_counters) const {
243 // Synchronously reading files in /proc does not hit the disk.
244 ThreadRestrictions::ScopedAllowIO allow_io;
246 std::string proc_io_contents;
247 FilePath io_file = internal::GetProcPidDir(process_).Append("io");
248 if (!ReadFileToString(io_file, &proc_io_contents))
249 return false;
251 io_counters->OtherOperationCount = 0;
252 io_counters->OtherTransferCount = 0;
254 StringPairs pairs;
255 SplitStringIntoKeyValuePairs(proc_io_contents, ':', '\n', &pairs);
256 TrimKeyValuePairs(&pairs);
257 for (size_t i = 0; i < pairs.size(); ++i) {
258 const std::string& key = pairs[i].first;
259 const std::string& value_str = pairs[i].second;
260 uint64* target_counter = NULL;
261 if (key == "syscr")
262 target_counter = &io_counters->ReadOperationCount;
263 else if (key == "syscw")
264 target_counter = &io_counters->WriteOperationCount;
265 else if (key == "rchar")
266 target_counter = &io_counters->ReadTransferCount;
267 else if (key == "wchar")
268 target_counter = &io_counters->WriteTransferCount;
269 if (!target_counter)
270 continue;
271 bool converted = StringToUint64(value_str, target_counter);
272 DCHECK(converted);
274 return true;
277 ProcessMetrics::ProcessMetrics(ProcessHandle process)
278 : process_(process),
279 last_system_time_(0),
280 #if defined(OS_LINUX)
281 last_absolute_idle_wakeups_(0),
282 #endif
283 last_cpu_(0) {
284 processor_count_ = SysInfo::NumberOfProcessors();
287 #if defined(OS_CHROMEOS)
288 // Private, Shared and Proportional working set sizes are obtained from
289 // /proc/<pid>/totmaps
290 bool ProcessMetrics::GetWorkingSetKBytesTotmaps(WorkingSetKBytes *ws_usage)
291 const {
292 // The format of /proc/<pid>/totmaps is:
294 // Rss: 6120 kB
295 // Pss: 3335 kB
296 // Shared_Clean: 1008 kB
297 // Shared_Dirty: 4012 kB
298 // Private_Clean: 4 kB
299 // Private_Dirty: 1096 kB
300 // Referenced: XXX kB
301 // Anonymous: XXX kB
302 // AnonHugePages: XXX kB
303 // Swap: XXX kB
304 // Locked: XXX kB
305 const size_t kPssIndex = (1 * 3) + 1;
306 const size_t kPrivate_CleanIndex = (4 * 3) + 1;
307 const size_t kPrivate_DirtyIndex = (5 * 3) + 1;
308 const size_t kSwapIndex = (9 * 3) + 1;
310 std::string totmaps_data;
312 FilePath totmaps_file = internal::GetProcPidDir(process_).Append("totmaps");
313 ThreadRestrictions::ScopedAllowIO allow_io;
314 bool ret = ReadFileToString(totmaps_file, &totmaps_data);
315 if (!ret || totmaps_data.length() == 0)
316 return false;
319 std::vector<std::string> totmaps_fields;
320 SplitStringAlongWhitespace(totmaps_data, &totmaps_fields);
322 DCHECK_EQ("Pss:", totmaps_fields[kPssIndex-1]);
323 DCHECK_EQ("Private_Clean:", totmaps_fields[kPrivate_CleanIndex - 1]);
324 DCHECK_EQ("Private_Dirty:", totmaps_fields[kPrivate_DirtyIndex - 1]);
325 DCHECK_EQ("Swap:", totmaps_fields[kSwapIndex-1]);
327 int pss = 0;
328 int private_clean = 0;
329 int private_dirty = 0;
330 int swap = 0;
331 bool ret = true;
332 ret &= StringToInt(totmaps_fields[kPssIndex], &pss);
333 ret &= StringToInt(totmaps_fields[kPrivate_CleanIndex], &private_clean);
334 ret &= StringToInt(totmaps_fields[kPrivate_DirtyIndex], &private_dirty);
335 ret &= StringToInt(totmaps_fields[kSwapIndex], &swap);
337 // On ChromeOS swap is to zram. We count this as private / shared, as
338 // increased swap decreases available RAM to user processes, which would
339 // otherwise create surprising results.
340 ws_usage->priv = private_clean + private_dirty + swap;
341 ws_usage->shared = pss + swap;
342 ws_usage->shareable = 0;
343 ws_usage->swapped = swap;
344 return ret;
346 #endif
348 // Private and Shared working set sizes are obtained from /proc/<pid>/statm.
349 bool ProcessMetrics::GetWorkingSetKBytesStatm(WorkingSetKBytes* ws_usage)
350 const {
351 // Use statm instead of smaps because smaps is:
352 // a) Large and slow to parse.
353 // b) Unavailable in the SUID sandbox.
355 // First we need to get the page size, since everything is measured in pages.
356 // For details, see: man 5 proc.
357 const int page_size_kb = getpagesize() / 1024;
358 if (page_size_kb <= 0)
359 return false;
361 std::string statm;
363 FilePath statm_file = internal::GetProcPidDir(process_).Append("statm");
364 // Synchronously reading files in /proc does not hit the disk.
365 ThreadRestrictions::ScopedAllowIO allow_io;
366 bool ret = ReadFileToString(statm_file, &statm);
367 if (!ret || statm.length() == 0)
368 return false;
371 std::vector<std::string> statm_vec;
372 SplitString(statm, ' ', &statm_vec);
373 if (statm_vec.size() != 7)
374 return false; // Not the format we expect.
376 int statm_rss, statm_shared;
377 bool ret = true;
378 ret &= StringToInt(statm_vec[1], &statm_rss);
379 ret &= StringToInt(statm_vec[2], &statm_shared);
381 ws_usage->priv = (statm_rss - statm_shared) * page_size_kb;
382 ws_usage->shared = statm_shared * page_size_kb;
384 // Sharable is not calculated, as it does not provide interesting data.
385 ws_usage->shareable = 0;
387 #if defined(OS_CHROMEOS)
388 // Can't get swapped memory from statm.
389 ws_usage->swapped = 0;
390 #endif
392 return ret;
395 size_t GetSystemCommitCharge() {
396 SystemMemoryInfoKB meminfo;
397 if (!GetSystemMemoryInfo(&meminfo))
398 return 0;
399 return meminfo.total - meminfo.free - meminfo.buffers - meminfo.cached;
402 int ParseProcStatCPU(const std::string& input) {
403 // |input| may be empty if the process disappeared somehow.
404 // e.g. http://crbug.com/145811.
405 if (input.empty())
406 return -1;
408 size_t start = input.find_last_of(')');
409 if (start == input.npos)
410 return -1;
412 // Number of spaces remaining until reaching utime's index starting after the
413 // last ')'.
414 int num_spaces_remaining = internal::VM_UTIME - 1;
416 size_t i = start;
417 while ((i = input.find(' ', i + 1)) != input.npos) {
418 // Validate the assumption that there aren't any contiguous spaces
419 // in |input| before utime.
420 DCHECK_NE(input[i - 1], ' ');
421 if (--num_spaces_remaining == 0) {
422 int utime = 0;
423 int stime = 0;
424 if (sscanf(&input.data()[i], "%d %d", &utime, &stime) != 2)
425 return -1;
427 return utime + stime;
431 return -1;
434 const char kProcSelfExe[] = "/proc/self/exe";
436 int GetNumberOfThreads(ProcessHandle process) {
437 return internal::ReadProcStatsAndGetFieldAsInt64(process,
438 internal::VM_NUMTHREADS);
441 namespace {
443 // The format of /proc/diskstats is:
444 // Device major number
445 // Device minor number
446 // Device name
447 // Field 1 -- # of reads completed
448 // This is the total number of reads completed successfully.
449 // Field 2 -- # of reads merged, field 6 -- # of writes merged
450 // Reads and writes which are adjacent to each other may be merged for
451 // efficiency. Thus two 4K reads may become one 8K read before it is
452 // ultimately handed to the disk, and so it will be counted (and queued)
453 // as only one I/O. This field lets you know how often this was done.
454 // Field 3 -- # of sectors read
455 // This is the total number of sectors read successfully.
456 // Field 4 -- # of milliseconds spent reading
457 // This is the total number of milliseconds spent by all reads (as
458 // measured from __make_request() to end_that_request_last()).
459 // Field 5 -- # of writes completed
460 // This is the total number of writes completed successfully.
461 // Field 6 -- # of writes merged
462 // See the description of field 2.
463 // Field 7 -- # of sectors written
464 // This is the total number of sectors written successfully.
465 // Field 8 -- # of milliseconds spent writing
466 // This is the total number of milliseconds spent by all writes (as
467 // measured from __make_request() to end_that_request_last()).
468 // Field 9 -- # of I/Os currently in progress
469 // The only field that should go to zero. Incremented as requests are
470 // given to appropriate struct request_queue and decremented as they
471 // finish.
472 // Field 10 -- # of milliseconds spent doing I/Os
473 // This field increases so long as field 9 is nonzero.
474 // Field 11 -- weighted # of milliseconds spent doing I/Os
475 // This field is incremented at each I/O start, I/O completion, I/O
476 // merge, or read of these stats by the number of I/Os in progress
477 // (field 9) times the number of milliseconds spent doing I/O since the
478 // last update of this field. This can provide an easy measure of both
479 // I/O completion time and the backlog that may be accumulating.
481 const size_t kDiskDriveName = 2;
482 const size_t kDiskReads = 3;
483 const size_t kDiskReadsMerged = 4;
484 const size_t kDiskSectorsRead = 5;
485 const size_t kDiskReadTime = 6;
486 const size_t kDiskWrites = 7;
487 const size_t kDiskWritesMerged = 8;
488 const size_t kDiskSectorsWritten = 9;
489 const size_t kDiskWriteTime = 10;
490 const size_t kDiskIO = 11;
491 const size_t kDiskIOTime = 12;
492 const size_t kDiskWeightedIOTime = 13;
494 } // namespace
496 SystemMemoryInfoKB::SystemMemoryInfoKB() {
497 total = 0;
498 free = 0;
499 buffers = 0;
500 cached = 0;
501 active_anon = 0;
502 inactive_anon = 0;
503 active_file = 0;
504 inactive_file = 0;
505 swap_total = 0;
506 swap_free = 0;
507 dirty = 0;
509 pswpin = 0;
510 pswpout = 0;
511 pgmajfault = 0;
513 #ifdef OS_CHROMEOS
514 shmem = 0;
515 slab = 0;
516 gem_objects = -1;
517 gem_size = -1;
518 #endif
521 scoped_ptr<Value> SystemMemoryInfoKB::ToValue() const {
522 scoped_ptr<DictionaryValue> res(new DictionaryValue());
524 res->SetInteger("total", total);
525 res->SetInteger("free", free);
526 res->SetInteger("buffers", buffers);
527 res->SetInteger("cached", cached);
528 res->SetInteger("active_anon", active_anon);
529 res->SetInteger("inactive_anon", inactive_anon);
530 res->SetInteger("active_file", active_file);
531 res->SetInteger("inactive_file", inactive_file);
532 res->SetInteger("swap_total", swap_total);
533 res->SetInteger("swap_free", swap_free);
534 res->SetInteger("swap_used", swap_total - swap_free);
535 res->SetInteger("dirty", dirty);
536 res->SetInteger("pswpin", pswpin);
537 res->SetInteger("pswpout", pswpout);
538 res->SetInteger("pgmajfault", pgmajfault);
539 #ifdef OS_CHROMEOS
540 res->SetInteger("shmem", shmem);
541 res->SetInteger("slab", slab);
542 res->SetInteger("gem_objects", gem_objects);
543 res->SetInteger("gem_size", gem_size);
544 #endif
546 return res.Pass();
549 // exposed for testing
550 bool ParseProcMeminfo(const std::string& meminfo_data,
551 SystemMemoryInfoKB* meminfo) {
552 // The format of /proc/meminfo is:
554 // MemTotal: 8235324 kB
555 // MemFree: 1628304 kB
556 // Buffers: 429596 kB
557 // Cached: 4728232 kB
558 // ...
559 // There is no guarantee on the ordering or position
560 // though it doesn't appear to change very often
562 // As a basic sanity check, let's make sure we at least get non-zero
563 // MemTotal value
564 meminfo->total = 0;
566 std::vector<std::string> meminfo_lines;
567 Tokenize(meminfo_data, "\n", &meminfo_lines);
568 for (std::vector<std::string>::iterator it = meminfo_lines.begin();
569 it != meminfo_lines.end(); ++it) {
570 std::vector<std::string> tokens;
571 SplitStringAlongWhitespace(*it, &tokens);
572 // HugePages_* only has a number and no suffix so we can't rely on
573 // there being exactly 3 tokens.
574 if (tokens.size() <= 1) {
575 DLOG(WARNING) << "meminfo: tokens: " << tokens.size()
576 << " malformed line: " << *it;
577 continue;
580 int* target = NULL;
581 if (tokens[0] == "MemTotal:")
582 target = &meminfo->total;
583 else if (tokens[0] == "MemFree:")
584 target = &meminfo->free;
585 else if (tokens[0] == "Buffers:")
586 target = &meminfo->buffers;
587 else if (tokens[0] == "Cached:")
588 target = &meminfo->cached;
589 else if (tokens[0] == "Active(anon):")
590 target = &meminfo->active_anon;
591 else if (tokens[0] == "Inactive(anon):")
592 target = &meminfo->inactive_anon;
593 else if (tokens[0] == "Active(file):")
594 target = &meminfo->active_file;
595 else if (tokens[0] == "Inactive(file):")
596 target = &meminfo->inactive_file;
597 else if (tokens[0] == "SwapTotal:")
598 target = &meminfo->swap_total;
599 else if (tokens[0] == "SwapFree:")
600 target = &meminfo->swap_free;
601 else if (tokens[0] == "Dirty:")
602 target = &meminfo->dirty;
603 #if defined(OS_CHROMEOS)
604 // Chrome OS has a tweaked kernel that allows us to query Shmem, which is
605 // usually video memory otherwise invisible to the OS.
606 else if (tokens[0] == "Shmem:")
607 target = &meminfo->shmem;
608 else if (tokens[0] == "Slab:")
609 target = &meminfo->slab;
610 #endif
611 if (target)
612 StringToInt(tokens[1], target);
615 // Make sure we got a valid MemTotal.
616 return meminfo->total > 0;
619 // exposed for testing
620 bool ParseProcVmstat(const std::string& vmstat_data,
621 SystemMemoryInfoKB* meminfo) {
622 // The format of /proc/vmstat is:
624 // nr_free_pages 299878
625 // nr_inactive_anon 239863
626 // nr_active_anon 1318966
627 // nr_inactive_file 2015629
628 // ...
630 // We iterate through the whole file because the position of the
631 // fields are dependent on the kernel version and configuration.
633 std::vector<std::string> vmstat_lines;
634 Tokenize(vmstat_data, "\n", &vmstat_lines);
635 for (std::vector<std::string>::iterator it = vmstat_lines.begin();
636 it != vmstat_lines.end(); ++it) {
637 std::vector<std::string> tokens;
638 SplitString(*it, ' ', &tokens);
639 if (tokens.size() != 2)
640 continue;
642 if (tokens[0] == "pswpin") {
643 StringToInt(tokens[1], &meminfo->pswpin);
644 } else if (tokens[0] == "pswpout") {
645 StringToInt(tokens[1], &meminfo->pswpout);
646 } else if (tokens[0] == "pgmajfault") {
647 StringToInt(tokens[1], &meminfo->pgmajfault);
651 return true;
654 bool GetSystemMemoryInfo(SystemMemoryInfoKB* meminfo) {
655 // Synchronously reading files in /proc and /sys are safe.
656 ThreadRestrictions::ScopedAllowIO allow_io;
658 // Used memory is: total - free - buffers - caches
659 FilePath meminfo_file("/proc/meminfo");
660 std::string meminfo_data;
661 if (!ReadFileToString(meminfo_file, &meminfo_data)) {
662 DLOG(WARNING) << "Failed to open " << meminfo_file.value();
663 return false;
666 if (!ParseProcMeminfo(meminfo_data, meminfo)) {
667 DLOG(WARNING) << "Failed to parse " << meminfo_file.value();
668 return false;
671 #if defined(OS_CHROMEOS)
672 // Report on Chrome OS GEM object graphics memory. /var/run/debugfs_gpu is a
673 // bind mount into /sys/kernel/debug and synchronously reading the in-memory
674 // files in /sys is fast.
675 #if defined(ARCH_CPU_ARM_FAMILY)
676 FilePath geminfo_file("/var/run/debugfs_gpu/exynos_gem_objects");
677 #else
678 FilePath geminfo_file("/var/run/debugfs_gpu/i915_gem_objects");
679 #endif
680 std::string geminfo_data;
681 meminfo->gem_objects = -1;
682 meminfo->gem_size = -1;
683 if (ReadFileToString(geminfo_file, &geminfo_data)) {
684 int gem_objects = -1;
685 long long gem_size = -1;
686 int num_res = sscanf(geminfo_data.c_str(),
687 "%d objects, %lld bytes",
688 &gem_objects, &gem_size);
689 if (num_res == 2) {
690 meminfo->gem_objects = gem_objects;
691 meminfo->gem_size = gem_size;
695 #if defined(ARCH_CPU_ARM_FAMILY)
696 // Incorporate Mali graphics memory if present.
697 FilePath mali_memory_file("/sys/class/misc/mali0/device/memory");
698 std::string mali_memory_data;
699 if (ReadFileToString(mali_memory_file, &mali_memory_data)) {
700 long long mali_size = -1;
701 int num_res = sscanf(mali_memory_data.c_str(), "%lld bytes", &mali_size);
702 if (num_res == 1)
703 meminfo->gem_size += mali_size;
705 #endif // defined(ARCH_CPU_ARM_FAMILY)
706 #endif // defined(OS_CHROMEOS)
708 FilePath vmstat_file("/proc/vmstat");
709 std::string vmstat_data;
710 if (!ReadFileToString(vmstat_file, &vmstat_data)) {
711 DLOG(WARNING) << "Failed to open " << vmstat_file.value();
712 return false;
714 if (!ParseProcVmstat(vmstat_data, meminfo)) {
715 DLOG(WARNING) << "Failed to parse " << vmstat_file.value();
716 return false;
719 return true;
722 SystemDiskInfo::SystemDiskInfo() {
723 reads = 0;
724 reads_merged = 0;
725 sectors_read = 0;
726 read_time = 0;
727 writes = 0;
728 writes_merged = 0;
729 sectors_written = 0;
730 write_time = 0;
731 io = 0;
732 io_time = 0;
733 weighted_io_time = 0;
736 scoped_ptr<Value> SystemDiskInfo::ToValue() const {
737 scoped_ptr<DictionaryValue> res(new DictionaryValue());
739 // Write out uint64 variables as doubles.
740 // Note: this may discard some precision, but for JS there's no other option.
741 res->SetDouble("reads", static_cast<double>(reads));
742 res->SetDouble("reads_merged", static_cast<double>(reads_merged));
743 res->SetDouble("sectors_read", static_cast<double>(sectors_read));
744 res->SetDouble("read_time", static_cast<double>(read_time));
745 res->SetDouble("writes", static_cast<double>(writes));
746 res->SetDouble("writes_merged", static_cast<double>(writes_merged));
747 res->SetDouble("sectors_written", static_cast<double>(sectors_written));
748 res->SetDouble("write_time", static_cast<double>(write_time));
749 res->SetDouble("io", static_cast<double>(io));
750 res->SetDouble("io_time", static_cast<double>(io_time));
751 res->SetDouble("weighted_io_time", static_cast<double>(weighted_io_time));
753 return res.Pass();
756 bool IsValidDiskName(const std::string& candidate) {
757 if (candidate.length() < 3)
758 return false;
759 if (candidate[1] == 'd' &&
760 (candidate[0] == 'h' || candidate[0] == 's' || candidate[0] == 'v')) {
761 // [hsv]d[a-z]+ case
762 for (size_t i = 2; i < candidate.length(); ++i) {
763 if (!islower(candidate[i]))
764 return false;
766 return true;
769 const char kMMCName[] = "mmcblk";
770 const size_t kMMCNameLen = strlen(kMMCName);
771 if (candidate.length() < kMMCNameLen + 1)
772 return false;
773 if (candidate.compare(0, kMMCNameLen, kMMCName) != 0)
774 return false;
776 // mmcblk[0-9]+ case
777 for (size_t i = kMMCNameLen; i < candidate.length(); ++i) {
778 if (!isdigit(candidate[i]))
779 return false;
781 return true;
784 bool GetSystemDiskInfo(SystemDiskInfo* diskinfo) {
785 // Synchronously reading files in /proc does not hit the disk.
786 ThreadRestrictions::ScopedAllowIO allow_io;
788 FilePath diskinfo_file("/proc/diskstats");
789 std::string diskinfo_data;
790 if (!ReadFileToString(diskinfo_file, &diskinfo_data)) {
791 DLOG(WARNING) << "Failed to open " << diskinfo_file.value();
792 return false;
795 std::vector<std::string> diskinfo_lines;
796 size_t line_count = Tokenize(diskinfo_data, "\n", &diskinfo_lines);
797 if (line_count == 0) {
798 DLOG(WARNING) << "No lines found";
799 return false;
802 diskinfo->reads = 0;
803 diskinfo->reads_merged = 0;
804 diskinfo->sectors_read = 0;
805 diskinfo->read_time = 0;
806 diskinfo->writes = 0;
807 diskinfo->writes_merged = 0;
808 diskinfo->sectors_written = 0;
809 diskinfo->write_time = 0;
810 diskinfo->io = 0;
811 diskinfo->io_time = 0;
812 diskinfo->weighted_io_time = 0;
814 uint64 reads = 0;
815 uint64 reads_merged = 0;
816 uint64 sectors_read = 0;
817 uint64 read_time = 0;
818 uint64 writes = 0;
819 uint64 writes_merged = 0;
820 uint64 sectors_written = 0;
821 uint64 write_time = 0;
822 uint64 io = 0;
823 uint64 io_time = 0;
824 uint64 weighted_io_time = 0;
826 for (size_t i = 0; i < line_count; i++) {
827 std::vector<std::string> disk_fields;
828 SplitStringAlongWhitespace(diskinfo_lines[i], &disk_fields);
830 // Fields may have overflowed and reset to zero.
831 if (IsValidDiskName(disk_fields[kDiskDriveName])) {
832 StringToUint64(disk_fields[kDiskReads], &reads);
833 StringToUint64(disk_fields[kDiskReadsMerged], &reads_merged);
834 StringToUint64(disk_fields[kDiskSectorsRead], &sectors_read);
835 StringToUint64(disk_fields[kDiskReadTime], &read_time);
836 StringToUint64(disk_fields[kDiskWrites], &writes);
837 StringToUint64(disk_fields[kDiskWritesMerged], &writes_merged);
838 StringToUint64(disk_fields[kDiskSectorsWritten], &sectors_written);
839 StringToUint64(disk_fields[kDiskWriteTime], &write_time);
840 StringToUint64(disk_fields[kDiskIO], &io);
841 StringToUint64(disk_fields[kDiskIOTime], &io_time);
842 StringToUint64(disk_fields[kDiskWeightedIOTime], &weighted_io_time);
844 diskinfo->reads += reads;
845 diskinfo->reads_merged += reads_merged;
846 diskinfo->sectors_read += sectors_read;
847 diskinfo->read_time += read_time;
848 diskinfo->writes += writes;
849 diskinfo->writes_merged += writes_merged;
850 diskinfo->sectors_written += sectors_written;
851 diskinfo->write_time += write_time;
852 diskinfo->io += io;
853 diskinfo->io_time += io_time;
854 diskinfo->weighted_io_time += weighted_io_time;
858 return true;
861 #if defined(OS_CHROMEOS)
862 scoped_ptr<Value> SwapInfo::ToValue() const {
863 scoped_ptr<DictionaryValue> res(new DictionaryValue());
865 // Write out uint64 variables as doubles.
866 // Note: this may discard some precision, but for JS there's no other option.
867 res->SetDouble("num_reads", static_cast<double>(num_reads));
868 res->SetDouble("num_writes", static_cast<double>(num_writes));
869 res->SetDouble("orig_data_size", static_cast<double>(orig_data_size));
870 res->SetDouble("compr_data_size", static_cast<double>(compr_data_size));
871 res->SetDouble("mem_used_total", static_cast<double>(mem_used_total));
872 if (compr_data_size > 0)
873 res->SetDouble("compression_ratio", static_cast<double>(orig_data_size) /
874 static_cast<double>(compr_data_size));
875 else
876 res->SetDouble("compression_ratio", 0);
878 return res.Pass();
881 void GetSwapInfo(SwapInfo* swap_info) {
882 // Synchronously reading files in /sys/block/zram0 does not hit the disk.
883 ThreadRestrictions::ScopedAllowIO allow_io;
885 FilePath zram_path("/sys/block/zram0");
886 uint64 orig_data_size = ReadFileToUint64(zram_path.Append("orig_data_size"));
887 if (orig_data_size <= 4096) {
888 // A single page is compressed at startup, and has a high compression
889 // ratio. We ignore this as it doesn't indicate any real swapping.
890 swap_info->orig_data_size = 0;
891 swap_info->num_reads = 0;
892 swap_info->num_writes = 0;
893 swap_info->compr_data_size = 0;
894 swap_info->mem_used_total = 0;
895 return;
897 swap_info->orig_data_size = orig_data_size;
898 swap_info->num_reads = ReadFileToUint64(zram_path.Append("num_reads"));
899 swap_info->num_writes = ReadFileToUint64(zram_path.Append("num_writes"));
900 swap_info->compr_data_size =
901 ReadFileToUint64(zram_path.Append("compr_data_size"));
902 swap_info->mem_used_total =
903 ReadFileToUint64(zram_path.Append("mem_used_total"));
905 #endif // defined(OS_CHROMEOS)
907 #if defined(OS_LINUX)
908 int ProcessMetrics::GetIdleWakeupsPerSecond() {
909 uint64 wake_ups;
910 const char kWakeupStat[] = "se.statistics.nr_wakeups";
911 return ReadProcSchedAndGetFieldAsUint64(process_, kWakeupStat, &wake_ups) ?
912 CalculateIdleWakeupsPerSecond(wake_ups) : 0;
914 #endif // defined(OS_LINUX)
916 } // namespace base