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Modules shared by rabbitmq-server and rabbitmq-erlang-client
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src/vm_memory_monitor.erl
%% The contents of this file are subject to the Mozilla Public License
%% Version 1.1 (the "License"); you may not use this file except in
%% compliance with the License. You may obtain a copy of the License
%% at https://www.mozilla.org/MPL/
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and
%% limitations under the License.
%%
%% The Original Code is RabbitMQ.
%%
%% The Initial Developer of the Original Code is GoPivotal, Inc.
%% Copyright (c) 2007-2017 Pivotal Software, Inc. All rights reserved.
%%
%% In practice Erlang shouldn't be allowed to grow to more than a half
%% of available memory. The pessimistic scenario is when the Erlang VM
%% has a single process that's consuming all memory. In such a case,
%% during garbage collection, Erlang tries to allocate a huge chunk of
%% continuous memory, which can result in a crash or heavy swapping.
%%
%% This module tries to warn Rabbit before such situations occur, so
%% that it has a higher chance to avoid running out of memory.
-module(vm_memory_monitor).
-behaviour(gen_server).
%% Transitional step until we can require Erlang/OTP 21 and
%% use the now recommended try/catch syntax for obtaining the stack trace.
-compile(nowarn_deprecated_function).
-export([start_link/1, start_link/3]).
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-export([get_total_memory/0, get_vm_limit/0,
get_check_interval/0, set_check_interval/1,
get_vm_memory_high_watermark/0, set_vm_memory_high_watermark/1,
get_memory_limit/0,
%% TODO: refactor in master
get_memory_use/1,
get_process_memory/0,
get_process_memory/1,
get_memory_calculation_strategy/0,
get_rss_memory/0]).
%% for tests
-export([parse_line_linux/1, parse_mem_limit/1]).
-define(SERVER, ?MODULE).
-record(state, {total_memory,
memory_limit,
process_memory,
memory_config_limit,
timeout,
timer,
alarmed,
alarm_funs,
os_type = undefined,
os_pid = undefined,
page_size = undefined,
proc_file = undefined}).
-include("rabbit_memory.hrl").
%%----------------------------------------------------------------------------
-type memory_calculation_strategy() :: rss | erlang | allocated.
-type vm_memory_high_watermark() :: (float() | {'absolute', integer() | string()}).
-spec start_link(float()) -> rabbit_types:ok_pid_or_error().
-spec start_link(float(), fun ((any()) -> 'ok'),
fun ((any()) -> 'ok')) -> rabbit_types:ok_pid_or_error().
-spec get_total_memory() -> (non_neg_integer() | 'unknown').
-spec get_vm_limit() -> non_neg_integer().
-spec get_check_interval() -> non_neg_integer().
-spec set_check_interval(non_neg_integer()) -> 'ok'.
-spec get_vm_memory_high_watermark() -> vm_memory_high_watermark().
-spec set_vm_memory_high_watermark(vm_memory_high_watermark()) -> 'ok'.
-spec get_memory_limit() -> non_neg_integer().
-spec get_memory_use(bytes) -> {non_neg_integer(), float() | infinity};
(ratio) -> float() | infinity.
-spec get_cached_process_memory_and_limit() -> {non_neg_integer(),
float() | infinity}.
-spec get_rss_memory() -> non_neg_integer().
-export_type([memory_calculation_strategy/0]).
%%----------------------------------------------------------------------------
%% Public API
%%----------------------------------------------------------------------------
get_total_memory() ->
case application:get_env(rabbit, total_memory_available_override_value) of
{ok, Value} ->
case rabbit_resource_monitor_misc:parse_information_unit(Value) of
{ok, ParsedTotal} ->
ParsedTotal;
{error, parse_error} ->
rabbit_log:warning(
"The override value for the total memmory available is "
"not a valid value: ~p, getting total from the system.~n",
[Value]),
get_total_memory_from_os()
end;
undefined ->
get_total_memory_from_os()
end.
get_vm_limit() -> get_vm_limit(os:type()).
get_check_interval() ->
gen_server:call(?MODULE, get_check_interval, infinity).
set_check_interval(Fraction) ->
gen_server:call(?MODULE, {set_check_interval, Fraction}, infinity).
get_vm_memory_high_watermark() ->
gen_server:call(?MODULE, get_vm_memory_high_watermark, infinity).
set_vm_memory_high_watermark(Fraction) ->
gen_server:call(?MODULE, {set_vm_memory_high_watermark, Fraction},
infinity).
get_memory_limit() ->
gen_server:call(?MODULE, get_memory_limit, infinity).
get_memory_use(bytes) ->
{ProcessMemory, MemoryLimit} = get_cached_process_memory_and_limit(),
{ProcessMemory, case MemoryLimit > 0.0 of
true -> MemoryLimit;
false -> infinity
end};
get_memory_use(ratio) ->
{ProcessMemory, MemoryLimit} = get_cached_process_memory_and_limit(),
case MemoryLimit > 0.0 of
true -> ProcessMemory / MemoryLimit;
false -> infinity
end.
%% Memory reported by erlang:memory(total) is not supposed to
%% be equal to the total size of all pages mapped to the emulator,
%% according to http://erlang.org/doc/man/erlang.html#memory-0
%% erlang:memory(total) under-reports memory usage by around 20%
%%
%% Win32 Note: 3.6.12 shipped with code that used wmic.exe to get the
%% WorkingSetSize value for the running erl.exe process. Unfortunately
%% even with a moderate invocation rate of 1 ops/second that uses more
%% CPU resources than some Windows users are willing to tolerate.
%% See rabbitmq/rabbitmq-server#1343 and rabbitmq/rabbitmq-common#224
%% for details.
-spec get_process_memory() -> Bytes :: integer().
get_process_memory() ->
{ProcMem, _} = get_memory_use(bytes),
ProcMem.
-spec get_process_memory(cached | current) -> Bytes :: integer().
get_process_memory(cached) ->
{ProcMem, _} = get_memory_use(bytes),
ProcMem;
get_process_memory(current) ->
get_process_memory_uncached().
-spec get_memory_calculation_strategy() -> memory_calculation_strategy().
get_memory_calculation_strategy() ->
case rabbit_misc:get_env(rabbit, vm_memory_calculation_strategy, rss) of
allocated -> allocated;
erlang -> erlang;
legacy -> erlang; %% backwards compatibility
rss -> rss;
UnsupportedValue ->
rabbit_log:warning(
"Unsupported value '~p' for vm_memory_calculation_strategy. "
"Supported values: (allocated|erlang|legacy|rss). "
"Defaulting to 'rss'",
[UnsupportedValue]
),
rss
end.
%%----------------------------------------------------------------------------
%% gen_server callbacks
%%----------------------------------------------------------------------------
start_link(MemFraction) ->
start_link(MemFraction,
fun alarm_handler:set_alarm/1, fun alarm_handler:clear_alarm/1).
start_link(MemFraction, AlarmSet, AlarmClear) ->
gen_server:start_link({local, ?SERVER}, ?MODULE,
[MemFraction, {AlarmSet, AlarmClear}], []).
init([MemFraction, AlarmFuns]) ->
TRef = erlang:send_after(?DEFAULT_MEMORY_CHECK_INTERVAL, self(), update),
State0 = #state{timeout = ?DEFAULT_MEMORY_CHECK_INTERVAL,
timer = TRef,
alarmed = false,
alarm_funs = AlarmFuns},
State1 = update_process_memory(init_state_by_os(State0)),
{ok, set_mem_limits(State1, MemFraction)}.
handle_call(get_vm_memory_high_watermark, _From,
#state{memory_config_limit = MemLimit} = State) ->
{reply, MemLimit, State};
handle_call({set_vm_memory_high_watermark, MemLimit}, _From, State) ->
{reply, ok, set_mem_limits(State, MemLimit)};
handle_call(get_check_interval, _From, State) ->
{reply, State#state.timeout, State};
handle_call({set_check_interval, Timeout}, _From, State) ->
State1 = case erlang:cancel_timer(State#state.timer) of
false ->
State#state{timeout = Timeout};
_ ->
State#state{timeout = Timeout,
timer = erlang:send_after(Timeout, self(), update)}
end,
{reply, ok, State1};
handle_call(get_memory_limit, _From, State) ->
{reply, State#state.memory_limit, State};
handle_call(get_cached_process_memory_and_limit, _From, State) ->
{reply, {State#state.process_memory, State#state.memory_limit}, State};
handle_call(_Request, _From, State) ->
{noreply, State}.
handle_cast(_Request, State) ->
{noreply, State}.
handle_info(update, State) ->
_ = erlang:cancel_timer(State#state.timer),
State1 = internal_update(State),
TRef = erlang:send_after(State1#state.timeout, self(), update),
{noreply, State1#state{ timer = TRef }};
handle_info(_Info, State) ->
{noreply, State}.
terminate(_Reason, _State) ->
ok.
code_change(_OldVsn, State, _Extra) ->
{ok, State}.
%%----------------------------------------------------------------------------
%% Server Internals
%%----------------------------------------------------------------------------
get_rss_memory() ->
TmpState = init_state_by_os(#state{}),
{ok, ProcMem} = get_process_memory_using_strategy(rss, TmpState),
ProcMem.
get_cached_process_memory_and_limit() ->
try
gen_server:call(?MODULE, get_cached_process_memory_and_limit, infinity)
catch exit:{noproc, Error} ->
rabbit_log:warning("Memory monitor process not yet started: ~p~n", [Error]),
ProcessMemory = get_process_memory_uncached(),
{ProcessMemory, infinity}
end.
get_process_memory_uncached() ->
TmpState = update_process_memory(init_state_by_os(#state{})),
TmpState#state.process_memory.
update_process_memory(State) ->
Strategy = get_memory_calculation_strategy(),
{ok, ProcMem} = get_process_memory_using_strategy(Strategy, State),
State#state{process_memory = ProcMem}.
init_state_by_os(State = #state{os_type = undefined}) ->
OsType = os:type(),
OsPid = os:getpid(),
init_state_by_os(State#state{os_type = OsType, os_pid = OsPid});
init_state_by_os(State0 = #state{os_type = {unix, linux}, os_pid = OsPid}) ->
PageSize = get_linux_pagesize(),
ProcFile = io_lib:format("/proc/~s/statm", [OsPid]),
State0#state{page_size = PageSize, proc_file = ProcFile};
init_state_by_os(State) ->
State.
get_process_memory_using_strategy(rss, #state{os_type = {unix, linux},
page_size = PageSize,
proc_file = ProcFile}) ->
Data = read_proc_file(ProcFile),
[_|[RssPagesStr|_]] = string:tokens(Data, " "),
ProcMem = list_to_integer(RssPagesStr) * PageSize,
{ok, ProcMem};
get_process_memory_using_strategy(rss, #state{os_type = {unix, _},
os_pid = OsPid}) ->
Cmd = "ps -p " ++ OsPid ++ " -o rss=",
CmdOutput = os:cmd(Cmd),
case re:run(CmdOutput, "[0-9]+", [{capture, first, list}]) of
{match, [Match]} ->
ProcMem = list_to_integer(Match) * 1024,
{ok, ProcMem};
_ ->
{error, {unexpected_output_from_command, Cmd, CmdOutput}}
end;
get_process_memory_using_strategy(rss, _State) ->
{ok, recon_alloc:memory(allocated)};
get_process_memory_using_strategy(allocated, _State) ->
{ok, recon_alloc:memory(allocated)};
get_process_memory_using_strategy(erlang, _State) ->
{ok, erlang:memory(total)}.
get_total_memory_from_os() ->
try
get_total_memory(os:type())
catch _:Error ->
rabbit_log:warning(
"Failed to get total system memory: ~n~p~n~p~n",
[Error, erlang:get_stacktrace()]),
unknown
end.
set_mem_limits(State, MemLimit) ->
case erlang:system_info(wordsize) of
4 ->
rabbit_log:warning(
"You are using a 32-bit version of Erlang: you may run into "
"memory address~n"
"space exhaustion or statistic counters overflow.~n");
_ ->
ok
end,
TotalMemory =
case get_total_memory() of
unknown ->
case State of
#state { total_memory = undefined,
memory_limit = undefined } ->
rabbit_log:warning(
"Unknown total memory size for your OS ~p. "
"Assuming memory size is ~p MiB (~p bytes).~n",
[os:type(),
trunc(?MEMORY_SIZE_FOR_UNKNOWN_OS/?ONE_MiB),
?MEMORY_SIZE_FOR_UNKNOWN_OS]);
_ ->
ok
end,
?MEMORY_SIZE_FOR_UNKNOWN_OS;
Memory -> Memory
end,
UsableMemory =
case get_vm_limit() of
Limit when Limit < TotalMemory ->
rabbit_log:warning(
"Only ~p MiB (~p bytes) of ~p MiB (~p bytes) memory usable due to "
"limited address space.~n"
"Crashes due to memory exhaustion are possible - see~n"
"https://www.rabbitmq.com/memory.html#address-space~n",
[trunc(Limit/?ONE_MiB), Limit, trunc(TotalMemory/?ONE_MiB),
TotalMemory]),
Limit;
_ ->
TotalMemory
end,
MemLim = interpret_limit(parse_mem_limit(MemLimit), UsableMemory),
rabbit_log:info(
"Memory high watermark set to ~p MiB (~p bytes)"
" of ~p MiB (~p bytes) total~n",
[trunc(MemLim/?ONE_MiB), MemLim,
trunc(TotalMemory/?ONE_MiB), TotalMemory]
),
internal_update(State #state { total_memory = TotalMemory,
memory_limit = MemLim,
memory_config_limit = MemLimit}).
interpret_limit({'absolute', MemLim}, UsableMemory) ->
erlang:min(MemLim, UsableMemory);
interpret_limit(MemFraction, UsableMemory) ->
trunc(MemFraction * UsableMemory).
parse_mem_limit({absolute, Limit}) ->
case rabbit_resource_monitor_misc:parse_information_unit(Limit) of
{ok, ParsedLimit} -> {absolute, ParsedLimit};
{error, parse_error} ->
rabbit_log:error("Unable to parse vm_memory_high_watermark value ~p", [Limit]),
?DEFAULT_VM_MEMORY_HIGH_WATERMARK
end;
parse_mem_limit(MemLimit) when is_integer(MemLimit) ->
parse_mem_limit(float(MemLimit));
parse_mem_limit(MemLimit) when is_float(MemLimit), MemLimit =< ?MAX_VM_MEMORY_HIGH_WATERMARK ->
MemLimit;
parse_mem_limit(MemLimit) when is_float(MemLimit), MemLimit > ?MAX_VM_MEMORY_HIGH_WATERMARK ->
rabbit_log:warning(
"Memory high watermark of ~p is above the allowed maximum, falling back to ~p~n",
[MemLimit, ?MAX_VM_MEMORY_HIGH_WATERMARK]
),
?MAX_VM_MEMORY_HIGH_WATERMARK;
parse_mem_limit(MemLimit) ->
rabbit_log:warning(
"Memory high watermark of ~p is invalid, defaulting to ~p~n",
[MemLimit, ?DEFAULT_VM_MEMORY_HIGH_WATERMARK]
),
?DEFAULT_VM_MEMORY_HIGH_WATERMARK.
internal_update(State0 = #state{memory_limit = MemLimit,
alarmed = Alarmed,
alarm_funs = {AlarmSet, AlarmClear}}) ->
State1 = update_process_memory(State0),
ProcMem = State1#state.process_memory,
NewAlarmed = ProcMem > MemLimit,
case {Alarmed, NewAlarmed} of
{false, true} -> emit_update_info(set, ProcMem, MemLimit),
AlarmSet({{resource_limit, memory, node()}, []});
{true, false} -> emit_update_info(clear, ProcMem, MemLimit),
AlarmClear({resource_limit, memory, node()});
_ -> ok
end,
State1#state{alarmed = NewAlarmed}.
emit_update_info(AlarmState, MemUsed, MemLimit) ->
rabbit_log:info(
"vm_memory_high_watermark ~p. Memory used:~p allowed:~p~n",
[AlarmState, MemUsed, MemLimit]).
%% According to https://msdn.microsoft.com/en-us/library/aa366778(VS.85).aspx
%% Windows has 2GB and 8TB of address space for 32 and 64 bit accordingly.
get_vm_limit({win32,_OSname}) ->
case erlang:system_info(wordsize) of
4 -> 2*1024*1024*1024; %% 2 GB for 32 bits 2^31
8 -> 8*1024*1024*1024*1024 %% 8 TB for 64 bits 2^42
end;
%% On a 32-bit machine, if you're using more than 2 gigs of RAM you're
%% in big trouble anyway.
get_vm_limit(_OsType) ->
case erlang:system_info(wordsize) of
4 -> 2*1024*1024*1024; %% 2 GB for 32 bits 2^31
8 -> 256*1024*1024*1024*1024 %% 256 TB for 64 bits 2^48
%%https://en.wikipedia.org/wiki/X86-64#Virtual_address_space_details
end.
%%----------------------------------------------------------------------------
%% Internal Helpers
%%----------------------------------------------------------------------------
cmd(Command) ->
cmd(Command, true).
cmd(Command, ThrowIfMissing) ->
Exec = hd(string:tokens(Command, " ")),
case {ThrowIfMissing, os:find_executable(Exec)} of
{true, false} ->
throw({command_not_found, Exec});
{false, false} ->
{error, command_not_found};
{_, _Filename} ->
os:cmd(Command)
end.
default_linux_pagesize(CmdOutput) ->
rabbit_log:warning(
"Failed to get memory page size, using 4096. Reason: ~s",
[CmdOutput]),
4096.
get_linux_pagesize() ->
case cmd("getconf PAGESIZE", false) of
{error, command_not_found} ->
default_linux_pagesize("getconf not found in PATH");
CmdOutput ->
case re:run(CmdOutput, "^[0-9]+", [{capture, first, list}]) of
{match, [Match]} -> list_to_integer(Match);
_ ->
default_linux_pagesize(CmdOutput)
end
end.
%% get_total_memory(OS) -> Total
%% Windows and Freebsd code based on: memsup:get_memory_usage/1
%% Original code was part of OTP and released under "Erlang Public License".
get_total_memory({unix, darwin}) ->
sysctl("hw.memsize");
get_total_memory({unix, freebsd}) ->
PageSize = sysctl("vm.stats.vm.v_page_size"),
PageCount = sysctl("vm.stats.vm.v_page_count"),
PageCount * PageSize;
get_total_memory({unix, openbsd}) ->
sysctl("hw.usermem");
get_total_memory({win32, _OSname}) ->
[Result|_] = os_mon_sysinfo:get_mem_info(),
{ok, [_MemLoad, TotPhys, _AvailPhys, _TotPage, _AvailPage, _TotV, _AvailV],
_RestStr} =
io_lib:fread("~d~d~d~d~d~d~d", Result),
TotPhys;
get_total_memory({unix, linux}) ->
File = read_proc_file("/proc/meminfo"),
Lines = string:tokens(File, "\n"),
Dict = dict:from_list(lists:map(fun parse_line_linux/1, Lines)),
dict:fetch('MemTotal', Dict);
get_total_memory({unix, sunos}) ->
File = cmd("/usr/sbin/prtconf"),
Lines = string:tokens(File, "\n"),
Dict = dict:from_list(lists:map(fun parse_line_sunos/1, Lines)),
dict:fetch('Memory size', Dict);
get_total_memory({unix, aix}) ->
File = cmd("/usr/bin/vmstat -v"),
Lines = string:tokens(File, "\n"),
Dict = dict:from_list(lists:map(fun parse_line_aix/1, Lines)),
dict:fetch('memory pages', Dict) * 4096;
get_total_memory(_OsType) ->
unknown.
%% A line looks like "MemTotal: 502968 kB"
%% or (with broken OS/modules) "Readahead 123456 kB"
parse_line_linux(Line) ->
{Name, Value, UnitRest} =
case string:tokens(Line, ":") of
%% no colon in the line
[S] ->
[K, RHS] = re:split(S, "\s", [{parts, 2}, {return, list}]),
[V | Unit] = string:tokens(RHS, " "),
{K, V, Unit};
[K, RHS | _Rest] ->
[V | Unit] = string:tokens(RHS, " "),
{K, V, Unit}
end,
Value1 = case UnitRest of
[] -> list_to_integer(Value); %% no units
["kB"] -> list_to_integer(Value) * 1024;
["KB"] -> list_to_integer(Value) * 1024
end,
{list_to_atom(Name), Value1}.
%% A line looks like "Memory size: 1024 Megabytes"
parse_line_sunos(Line) ->
case string:tokens(Line, ":") of
[Name, RHS | _Rest] ->
[Value1 | UnitsRest] = string:tokens(RHS, " "),
Value2 = case UnitsRest of
["Gigabytes"] ->
list_to_integer(Value1) * ?ONE_MiB * 1024;
["Megabytes"] ->
list_to_integer(Value1) * ?ONE_MiB;
["Kilobytes"] ->
list_to_integer(Value1) * 1024;
_ ->
Value1 ++ UnitsRest %% no known units
end,
{list_to_atom(Name), Value2};
[Name] -> {list_to_atom(Name), none}
end.
%% Lines look like " 12345 memory pages"
%% or " 80.1 maxpin percentage"
parse_line_aix(Line) ->
[Value | NameWords] = string:tokens(Line, " "),
Name = string:join(NameWords, " "),
{list_to_atom(Name),
case lists:member($., Value) of
true -> trunc(list_to_float(Value));
false -> list_to_integer(Value)
end}.
sysctl(Def) ->
list_to_integer(cmd("/usr/bin/env sysctl -n " ++ Def) -- "\n").
%% file:read_file does not work on files in /proc as it seems to get
%% the size of the file first and then read that many bytes. But files
%% in /proc always have length 0, we just have to read until we get
%% eof.
read_proc_file(File) ->
{ok, IoDevice} = file:open(File, [read, raw]),
Res = read_proc_file(IoDevice, []),
_ = file:close(IoDevice),
lists:flatten(lists:reverse(Res)).
-define(BUFFER_SIZE, 1024).
read_proc_file(IoDevice, Acc) ->
case file:read(IoDevice, ?BUFFER_SIZE) of
{ok, Res} -> read_proc_file(IoDevice, [Res | Acc]);
eof -> Acc
end.