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coral / android-core / 8f3ed624226941740ee0a818096dbda095badae8 / . / libmeminfo / tools / procrank.cpp
blob: e39e7fa56a2af9e7982c10cd2bc620517fa97a25 [file] [log] [blame]
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <dirent.h>
#include <errno.h>
#include <inttypes.h>
#include <linux/kernel-page-flags.h>
#include <linux/oom.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <unistd.h>
#include <iostream>
#include <memory>
#include <sstream>
#include <vector>
#include <android-base/file.h>
#include <android-base/parseint.h>
#include <android-base/stringprintf.h>
#include <android-base/strings.h>
#include <meminfo/procmeminfo.h>
#include <meminfo/sysmeminfo.h>
using ::android::meminfo::MemUsage;
using ::android::meminfo::ProcMemInfo;
struct ProcessRecord {
public:
ProcessRecord(pid_t pid, bool get_wss = false, uint64_t pgflags = 0, uint64_t pgflags_mask = 0)
: pid_(-1),
procmem_(nullptr),
oomadj_(OOM_SCORE_ADJ_MAX + 1),
cmdline_(""),
proportional_swap_(0),
unique_swap_(0),
zswap_(0) {
std::unique_ptr<ProcMemInfo> procmem =
std::make_unique<ProcMemInfo>(pid, get_wss, pgflags, pgflags_mask);
if (procmem == nullptr) {
std::cerr << "Failed to create ProcMemInfo for: " << pid << std::endl;
return;
}
std::string fname = ::android::base::StringPrintf("/proc/%d/oom_score_adj", pid);
auto oomscore_fp =
std::unique_ptr<FILE, decltype(&fclose)>{fopen(fname.c_str(), "re"), fclose};
if (oomscore_fp == nullptr) {
std::cerr << "Failed to open oom_score_adj file: " << fname << std::endl;
return;
}
if (fscanf(oomscore_fp.get(), "%d\n", &oomadj_) != 1) {
std::cerr << "Failed to read oomadj from: " << fname << std::endl;
return;
}
fname = ::android::base::StringPrintf("/proc/%d/cmdline", pid);
if (!::android::base::ReadFileToString(fname, &cmdline_)) {
std::cerr << "Failed to read cmdline from: " << fname << std::endl;
cmdline_ = "<unknown>";
}
// We deliberately don't read the proc/<pid>cmdline file directly into 'cmdline_'
// because of some processes showing up cmdlines that end with "0x00 0x0A 0x00"
// e.g. xtra-daemon, lowi-server
// The .c_str() assignment below then takes care of trimming the cmdline at the first
// 0x00. This is how original procrank worked (luckily)
cmdline_.resize(strlen(cmdline_.c_str()));
procmem_ = std::move(procmem);
pid_ = pid;
}
bool valid() const { return pid_ != -1; }
void CalculateSwap(const uint16_t* swap_offset_array, float zram_compression_ratio) {
const std::vector<uint16_t>& swp_offs = procmem_->SwapOffsets();
for (auto& off : swp_offs) {
proportional_swap_ += getpagesize() / swap_offset_array[off];
unique_swap_ += swap_offset_array[off] == 1 ? getpagesize() : 0;
zswap_ = proportional_swap_ * zram_compression_ratio;
}
}
// Getters
pid_t pid() const { return pid_; }
const std::string& cmdline() const { return cmdline_; }
int32_t oomadj() const { return oomadj_; }
uint64_t proportional_swap() const { return proportional_swap_; }
uint64_t unique_swap() const { return unique_swap_; }
uint64_t zswap() const { return zswap_; }
// Wrappers to ProcMemInfo
const std::vector<uint16_t>& SwapOffsets() const { return procmem_->SwapOffsets(); }
const MemUsage& Usage() const { return procmem_->Usage(); }
const MemUsage& Wss() const { return procmem_->Wss(); }
private:
pid_t pid_;
std::unique_ptr<ProcMemInfo> procmem_;
int32_t oomadj_;
std::string cmdline_;
uint64_t proportional_swap_;
uint64_t unique_swap_;
uint64_t zswap_;
};
// Show working set instead of memory consumption
bool show_wss = false;
// Reset working set of each process
bool reset_wss = false;
// Show per-process oom_score_adj column
bool show_oomadj = false;
// True if the device has swap enabled
bool has_swap = false;
// True, if device has zram enabled
bool has_zram = false;
// If zram is enabled, the compression ratio is zram used / swap used.
float zram_compression_ratio = 0.0;
// Sort process in reverse, default is descending
bool reverse_sort = false;
// Calculated total memory usage across all processes in the system
uint64_t total_pss = 0;
uint64_t total_uss = 0;
uint64_t total_swap = 0;
uint64_t total_pswap = 0;
uint64_t total_uswap = 0;
uint64_t total_zswap = 0;
static void usage(const char* myname) {
std::cerr << "Usage: " << myname << " [ -W ] [ -v | -r | -p | -u | -s | -h ]" << std::endl
<< " -v Sort by VSS." << std::endl
<< " -r Sort by RSS." << std::endl
<< " -p Sort by PSS." << std::endl
<< " -u Sort by USS." << std::endl
<< " -s Sort by swap." << std::endl
<< " (Default sort order is PSS.)" << std::endl
<< " -R Reverse sort order (default is descending)." << std::endl
<< " -c Only show cached (storage backed) pages" << std::endl
<< " -C Only show non-cached (ram/swap backed) pages" << std::endl
<< " -k Only show pages collapsed by KSM" << std::endl
<< " -w Display statistics for working set only." << std::endl
<< " -W Reset working set of all processes." << std::endl
<< " -o Show and sort by oom score against lowmemorykiller thresholds."
<< std::endl
<< " -h Display this help screen." << std::endl;
}
static bool read_all_pids(std::vector<pid_t>* pids, std::function<bool(pid_t pid)> for_each_pid) {
pids->clear();
std::unique_ptr<DIR, int (*)(DIR*)> procdir(opendir("/proc"), closedir);
if (!procdir) return false;
struct dirent* dir;
pid_t pid;
while ((dir = readdir(procdir.get()))) {
if (!::android::base::ParseInt(dir->d_name, &pid)) continue;
if (!for_each_pid(pid)) return false;
pids->push_back(pid);
}
return true;
}
static bool count_swap_offsets(const ProcessRecord& proc, uint16_t* swap_offset_array,
uint32_t size) {
const std::vector<uint16_t>& swp_offs = proc.SwapOffsets();
for (auto& off : swp_offs) {
if (off >= size) {
std::cerr << "swap offset " << off << " is out of bounds for process: " << proc.pid()
<< std::endl;
return false;
}
if (swap_offset_array[off] == USHRT_MAX) {
std::cerr << "swap offset " << off << " ref count overflow in process: " << proc.pid()
<< std::endl;
return false;
}
swap_offset_array[off]++;
}
return true;
}
static void print_header(std::stringstream& ss) {
ss.str("");
ss << ::android::base::StringPrintf("%5s ", "PID");
if (show_oomadj) {
ss << ::android::base::StringPrintf("%5s ", "oom");
}
if (show_wss) {
ss << ::android::base::StringPrintf("%7s %7s %7s ", "WRss", "WPss", "WUss");
// now swap statistics here, working set pages by definition shouldn't end up in swap.
} else {
ss << ::android::base::StringPrintf("%8s %7s %7s %7s ", "Vss", "Rss", "Pss", "Uss");
if (has_swap) {
ss << ::android::base::StringPrintf("%7s %7s %7s ", "Swap", "PSwap", "USwap");
if (has_zram) {
ss << ::android::base::StringPrintf("%7s ", "ZSwap");
}
}
}
ss << "cmdline";
}
static void print_process_record(std::stringstream& ss, ProcessRecord& proc) {
ss << ::android::base::StringPrintf("%5d ", proc.pid());
if (show_oomadj) {
ss << ::android::base::StringPrintf("%5d ", proc.oomadj());
}
if (show_wss) {
ss << ::android::base::StringPrintf("%6" PRIu64 "K %6" PRIu64 "K %6" PRIu64 "K ",
proc.Wss().rss / 1024, proc.Wss().pss / 1024,
proc.Wss().uss / 1024);
} else {
ss << ::android::base::StringPrintf("%7" PRIu64 "K %6" PRIu64 "K %6" PRIu64 "K %6" PRIu64
"K ",
proc.Usage().vss / 1024, proc.Usage().rss / 1024,
proc.Usage().pss / 1024, proc.Usage().uss / 1024);
if (has_swap) {
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", proc.Usage().swap / 1024);
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", proc.proportional_swap() / 1024);
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", proc.unique_swap() / 1024);
if (has_zram) {
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", (proc.zswap() / 1024));
}
}
}
}
static void print_processes(std::stringstream& ss, std::vector<ProcessRecord>& procs,
uint16_t* swap_offset_array) {
for (auto& proc : procs) {
total_pss += show_wss ? proc.Wss().pss : proc.Usage().pss;
total_uss += show_wss ? proc.Wss().uss : proc.Usage().uss;
if (!show_wss && has_swap) {
proc.CalculateSwap(swap_offset_array, zram_compression_ratio);
total_swap += proc.Usage().swap;
total_pswap += proc.proportional_swap();
total_uswap += proc.unique_swap();
if (has_zram) {
total_zswap += proc.zswap();
}
}
print_process_record(ss, proc);
ss << proc.cmdline() << std::endl;
}
}
static void print_separator(std::stringstream& ss) {
ss << ::android::base::StringPrintf("%5s ", "");
if (show_oomadj) {
ss << ::android::base::StringPrintf("%5s ", "");
}
if (show_wss) {
ss << ::android::base::StringPrintf("%7s %7s %7s ", "", "------", "------");
} else {
ss << ::android::base::StringPrintf("%8s %7s %7s %7s ", "", "", "------", "------");
if (has_swap) {
ss << ::android::base::StringPrintf("%7s %7s %7s ", "------", "------", "------");
if (has_zram) {
ss << ::android::base::StringPrintf("%7s ", "------");
}
}
}
ss << ::android::base::StringPrintf("%s", "------");
}
static void print_totals(std::stringstream& ss) {
ss << ::android::base::StringPrintf("%5s ", "");
if (show_oomadj) {
ss << ::android::base::StringPrintf("%5s ", "");
}
if (show_wss) {
ss << ::android::base::StringPrintf("%7s %6" PRIu64 "K %6" PRIu64 "K ", "",
total_pss / 1024, total_uss / 1024);
} else {
ss << ::android::base::StringPrintf("%8s %7s %6" PRIu64 "K %6" PRIu64 "K ", "", "",
total_pss / 1024, total_uss / 1024);
if (has_swap) {
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", total_swap / 1024);
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", total_pswap / 1024);
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", total_uswap / 1024);
if (has_zram) {
ss << ::android::base::StringPrintf("%6" PRIu64 "K ", total_zswap / 1024);
}
}
}
ss << "TOTAL";
}
static void print_sysmeminfo(std::stringstream& ss, ::android::meminfo::SysMemInfo& smi) {
if (has_swap) {
ss << ::android::base::StringPrintf("ZRAM: %" PRIu64 "K physical used for %" PRIu64
"K in swap "
"(%" PRIu64 "K total swap)",
smi.mem_zram_kb(),
(smi.mem_swap_kb() - smi.mem_swap_free_kb()),
smi.mem_swap_kb())
<< std::endl;
}
ss << ::android::base::StringPrintf(" RAM: %" PRIu64 "K total, %" PRIu64 "K free, %" PRIu64
"K buffers, "
"%" PRIu64 "K cached, %" PRIu64 "K shmem, %" PRIu64
"K slab",
smi.mem_total_kb(), smi.mem_free_kb(), smi.mem_buffers_kb(),
smi.mem_cached_kb(), smi.mem_shmem_kb(), smi.mem_slab_kb());
}
int main(int argc, char* argv[]) {
auto pss_sort = [](ProcessRecord& a, ProcessRecord& b) {
MemUsage stats_a = show_wss ? a.Wss() : a.Usage();
MemUsage stats_b = show_wss ? b.Wss() : b.Usage();
return reverse_sort ? stats_a.pss < stats_b.pss : stats_a.pss > stats_b.pss;
};
auto uss_sort = [](ProcessRecord& a, ProcessRecord& b) {
MemUsage stats_a = show_wss ? a.Wss() : a.Usage();
MemUsage stats_b = show_wss ? b.Wss() : b.Usage();
return reverse_sort ? stats_a.uss < stats_b.uss : stats_a.uss > stats_b.uss;
};
auto rss_sort = [](ProcessRecord& a, ProcessRecord& b) {
MemUsage stats_a = show_wss ? a.Wss() : a.Usage();
MemUsage stats_b = show_wss ? b.Wss() : b.Usage();
return reverse_sort ? stats_a.rss < stats_b.pss : stats_a.pss > stats_b.pss;
};
auto vss_sort = [](ProcessRecord& a, ProcessRecord& b) {
MemUsage stats_a = show_wss ? a.Wss() : a.Usage();
MemUsage stats_b = show_wss ? b.Wss() : b.Usage();
return reverse_sort ? stats_a.vss < stats_b.vss : stats_a.vss > stats_b.vss;
};
auto swap_sort = [](ProcessRecord& a, ProcessRecord& b) {
MemUsage stats_a = show_wss ? a.Wss() : a.Usage();
MemUsage stats_b = show_wss ? b.Wss() : b.Usage();
return reverse_sort ? stats_a.swap < stats_b.swap : stats_a.swap > stats_b.swap;
};
auto oomadj_sort = [](ProcessRecord& a, ProcessRecord& b) {
return reverse_sort ? a.oomadj() < b.oomadj() : a.oomadj() > b.oomadj();
};
// default PSS sort
std::function<bool(ProcessRecord & a, ProcessRecord & b)> proc_sort = pss_sort;
// count all pages by default
uint64_t pgflags = 0;
uint64_t pgflags_mask = 0;
int opt;
while ((opt = getopt(argc, argv, "cChkoprRsuvwW")) != -1) {
switch (opt) {
case 'c':
pgflags = 0;
pgflags_mask = (1 << KPF_SWAPBACKED);
break;
case 'C':
pgflags = (1 << KPF_SWAPBACKED);
pgflags_mask = (1 << KPF_SWAPBACKED);
break;
case 'h':
usage(argv[0]);
return 0;
break;
case 'k':
pgflags = (1 << KPF_KSM);
pgflags_mask = (1 << KPF_KSM);
break;
case 'o':
proc_sort = oomadj_sort;
show_oomadj = true;
break;
case 'p':
proc_sort = pss_sort;
break;
case 'r':
proc_sort = rss_sort;
break;
case 'R':
reverse_sort = true;
break;
case 's':
proc_sort = swap_sort;
break;
case 'u':
proc_sort = uss_sort;
break;
case 'v':
proc_sort = vss_sort;
break;
case 'w':
show_wss = true;
break;
case 'W':
reset_wss = true;
break;
default:
abort();
}
}
std::vector<pid_t> pids;
std::vector<ProcessRecord> procs;
if (reset_wss) {
if (!read_all_pids(&pids,
[&](pid_t pid) -> bool { return ProcMemInfo::ResetWorkingSet(pid); })) {
std::cerr << "Failed to reset working set of all processes" << std::endl;
exit(EXIT_FAILURE);
}
// we are done, all other options passed to procrank are ignored in the presence of '-W'
return 0;
}
::android::meminfo::SysMemInfo smi;
if (!smi.ReadMemInfo()) {
std::cerr << "Failed to get system memory info" << std::endl;
exit(EXIT_FAILURE);
}
// Figure out swap and zram
uint64_t swap_total = smi.mem_swap_kb() * 1024;
has_swap = swap_total > 0;
// Allocate the swap array
auto swap_offset_array = std::make_unique<uint16_t[]>(swap_total / getpagesize());
if (has_swap) {
has_zram = smi.mem_zram_kb() > 0;
if (has_zram) {
zram_compression_ratio = static_cast<float>(smi.mem_zram_kb()) /
(smi.mem_swap_kb() - smi.mem_swap_free_kb());
}
}
auto mark_swap_usage = [&](pid_t pid) -> bool {
ProcessRecord proc(pid, show_wss, pgflags, pgflags_mask);
if (!proc.valid()) {
std::cerr << "Failed to create process record for: " << pid << std::endl;
return false;
}
// Skip processes with no memory mappings
uint64_t vss = show_wss ? proc.Wss().vss : proc.Usage().vss;
if (vss == 0) return true;
// collect swap_offset counts from all processes in 1st pass
if (!show_wss && has_swap &&
!count_swap_offsets(proc, swap_offset_array.get(), swap_total / getpagesize())) {
std::cerr << "Failed to count swap offsets for process: " << pid << std::endl;
return false;
}
procs.push_back(std::move(proc));
return true;
};
// Get a list of all pids currently running in the system in
// 1st pass through all processes. Mark each swap offset used by the process as we find them
// for calculating proportional swap usage later.
if (!read_all_pids(&pids, mark_swap_usage)) {
std::cerr << "Failed to read all pids from the system" << std::endl;
exit(EXIT_FAILURE);
}
std::stringstream ss;
if (procs.empty()) {
// This would happen in corner cases where procrank is being run to find KSM usage on a
// system with no KSM and combined with working set determination as follows
// procrank -w -u -k
// procrank -w -s -k
// procrank -w -o -k
ss << "<empty>" << std::endl << std::endl;
print_sysmeminfo(ss, smi);
ss << std::endl;
std::cout << ss.str();
return 0;
}
// Sort all process records, default is PSS descending
std::sort(procs.begin(), procs.end(), proc_sort);
// start dumping output in string stream
print_header(ss);
ss << std::endl;
// 2nd pass to calculate and get per process stats to add them up
print_processes(ss, procs, swap_offset_array.get());
// Add separator to output
print_separator(ss);
ss << std::endl;
// Add totals to output
print_totals(ss);
ss << std::endl << std::endl;
// Add system information at the end
print_sysmeminfo(ss, smi);
ss << std::endl;
// dump on the screen
std::cout << ss.str();
return 0;
}