https://github.com/JuliaLang/julia
Tip revision: 63b33a2ef51b66d06cc075f9a36efb480515f887 authored by Tony Kelman on 04 November 2016, 23:38:30 UTC
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Homebrew changed tap layouts
Tip revision: 63b33a2
multi.jl
# This file is a part of Julia. License is MIT: http://julialang.org/license
# todo:
# * fetch/wait latency seems to be excessive
# * message aggregation
# * timer events
# - send pings at some interval to detect failed/hung machines
# * integrate event loop with other kinds of i/o (non-messages)
# * serializing closures
# * recover from i/o errors
# * handle remote execution errors
# * all-to-all communication
# * distributed GC
# * call&wait and call&fetch combined messages
# * aggregate GC messages
# * dynamically adding nodes (then always start with 1 and grow)
## workers and message i/o ##
# Messages
abstract AbstractMsg
type CallMsg{Mode} <: AbstractMsg
f::Function
args::Tuple
response_oid::Tuple
end
type CallWaitMsg <: AbstractMsg
f::Function
args::Tuple
response_oid::Tuple
notify_oid::Tuple
end
type RemoteDoMsg <: AbstractMsg
f::Function
args::Tuple
end
type ResultMsg <: AbstractMsg
response_oid::Tuple
value::Any
end
# Worker initialization messages
type IdentifySocketMsg <: AbstractMsg
from_pid::Int
end
type JoinPGRPMsg <: AbstractMsg
self_pid::Int
other_workers::Array
self_is_local::Bool
notify_oid::Tuple
topology::Symbol
end
type JoinCompleteMsg <: AbstractMsg
notify_oid::Tuple
cpu_cores::Int
ospid::Int
end
function send_msg_unknown(s::IO, msg)
error("attempt to send to unknown socket")
end
function send_msg(s::IO, msg)
id = worker_id_from_socket(s)
if id > -1
return send_msg(worker_from_id(id), msg)
end
send_msg_unknown(s, msg)
end
function send_msg_now(s::IO, msg::AbstractMsg)
id = worker_id_from_socket(s)
if id > -1
return send_msg_now(worker_from_id(id), msg)
end
send_msg_unknown(s, msg)
end
abstract ClusterManager
type WorkerConfig
# Common fields relevant to all cluster managers
io::Nullable{IO}
host::Nullable{AbstractString}
port::Nullable{Integer}
# Used when launching additional workers at a host
count::Nullable{Union{Int, Symbol}}
exename::Nullable{AbstractString}
exeflags::Nullable{Cmd}
# External cluster managers can use this to store information at a per-worker level
# Can be a dict if multiple fields need to be stored.
userdata::Nullable{Any}
# SSHManager / SSH tunnel connections to workers
tunnel::Nullable{Bool}
bind_addr::Nullable{AbstractString}
sshflags::Nullable{Cmd}
max_parallel::Nullable{Integer}
# Used by Local/SSH managers
connect_at::Nullable{Any}
process::Nullable{Process}
ospid::Nullable{Integer}
# Private dictionary used to store temporary information by Local/SSH managers.
environ::Nullable{Dict}
# Connections to be setup depending on the network topology requested
ident::Nullable{Any} # Worker as identified by the Cluster Manager.
# List of other worker idents this worker must connect with. Used with topology T_CUSTOM.
connect_idents::Nullable{Array}
function WorkerConfig()
wc = new()
for n in 1:length(WorkerConfig.types)
T = eltype(fieldtype(WorkerConfig, n))
setfield!(wc, n, Nullable{T}())
end
wc
end
end
@enum WorkerState W_CREATED W_CONNECTED W_TERMINATING W_TERMINATED
type Worker
id::Int
del_msgs::Array{Any,1}
add_msgs::Array{Any,1}
gcflag::Bool
state::WorkerState
c_state::Condition # wait for state changes
ct_time::Float64 # creation time
r_stream::IO
w_stream::IO
manager::ClusterManager
config::WorkerConfig
function Worker(id, r_stream, w_stream, manager, config)
w = Worker(id)
w.r_stream = r_stream
w.w_stream = buffer_writes(w_stream)
w.manager = manager
w.config = config
set_worker_state(w, W_CONNECTED)
register_worker_streams(w)
w
end
function Worker(id)
if haskey(map_pid_wrkr, id)
return map_pid_wrkr[id]
end
w=new(id, [], [], false, W_CREATED, Condition(), time())
register_worker(w)
w
end
Worker() = Worker(get_next_pid())
end
Worker(id, r_stream, w_stream, manager) = Worker(id, r_stream, w_stream, manager, WorkerConfig())
function set_worker_state(w, state)
w.state = state
notify(w.c_state; all=true)
end
function send_msg_now(w::Worker, msg)
send_msg_(w, msg, true)
end
function send_msg(w::Worker, msg)
send_msg_(w, msg, false)
end
function flush_gc_msgs(w::Worker)
if !isdefined(w, :w_stream)
return
end
w.gcflag = false
msgs = copy(w.add_msgs)
if !isempty(msgs)
empty!(w.add_msgs)
remote_do(w, add_clients, msgs)
end
msgs = copy(w.del_msgs)
if !isempty(msgs)
empty!(w.del_msgs)
#print("sending delete of $msgs\n")
remote_do(w, del_clients, msgs)
end
end
function check_worker_state(w::Worker)
if w.state == W_CREATED
if PGRP.topology == :all_to_all
# Since higher pids connect with lower pids, the remote worker
# may not have connected to us yet. Wait for some time.
timeout = worker_timeout() - (time() - w.ct_time)
timeout <= 0 && error("peer $(w.id) has not connected to $(myid())")
@schedule (sleep(timeout); notify(w.c_state; all=true))
wait(w.c_state)
w.state == W_CREATED && error("peer $(w.id) didn't connect to $(myid()) within $timeout seconds")
else
error("peer $(w.id) is not connected to $(myid()). Topology : " * string(PGRP.topology))
end
end
end
function send_msg_(w::Worker, msg, now::Bool)
check_worker_state(w)
io = w.w_stream
lock(io.lock)
try
serialize(io, msg)
if !now && w.gcflag
flush_gc_msgs(w)
else
flush(io)
end
finally
unlock(io.lock)
end
end
function flush_gc_msgs()
try
for w in (PGRP::ProcessGroup).workers
if isa(w,Worker) && w.gcflag && (w.state == W_CONNECTED)
flush_gc_msgs(w)
end
end
catch e
bt = catch_backtrace()
@schedule showerror(STDERR, e, bt)
end
end
## process group creation ##
type LocalProcess
id::Int
bind_addr::AbstractString
bind_port::UInt16
LocalProcess() = new(1)
end
const LPROC = LocalProcess()
const map_pid_wrkr = Dict{Int, Union{Worker, LocalProcess}}()
const map_sock_wrkr = ObjectIdDict()
const map_del_wrkr = Set{Int}()
let next_pid = 2 # 1 is reserved for the client (always)
global get_next_pid
function get_next_pid()
retval = next_pid
next_pid += 1
retval
end
end
type ProcessGroup
name::AbstractString
workers::Array{Any,1}
refs::Dict # global references
topology::Symbol
ProcessGroup(w::Array{Any,1}) = new("pg-default", w, Dict(), :all_to_all)
end
const PGRP = ProcessGroup([])
function topology(t)
assert(t in [:all_to_all, :master_slave, :custom])
if (PGRP.topology==t) || ((myid()==1) && (nprocs()==1)) || (myid() > 1)
PGRP.topology = t
else
error("Workers with Topology $(PGRP.topology) already exist. Requested Topology $(t) cannot be set.")
end
t
end
get_bind_addr(pid::Integer) = get_bind_addr(worker_from_id(pid))
get_bind_addr(w::LocalProcess) = LPROC.bind_addr
function get_bind_addr(w::Worker)
if isnull(w.config.bind_addr)
if w.id != myid()
w.config.bind_addr = remotecall_fetch(w.id, get_bind_addr, w.id)
end
end
get(w.config.bind_addr)
end
myid() = LPROC.id
nprocs() = length(PGRP.workers)
function nworkers()
n = nprocs()
n == 1 ? 1 : n-1
end
procs() = Int[x.id for x in PGRP.workers]
function procs(pid::Integer)
if myid() == 1
if (pid == 1) || (isa(map_pid_wrkr[pid].manager, LocalManager))
Int[x.id for x in filter(w -> (w.id==1) || (isa(w.manager, LocalManager)), PGRP.workers)]
else
ipatpid = get_bind_addr(pid)
Int[x.id for x in filter(w -> get_bind_addr(w) == ipatpid, PGRP.workers)]
end
else
remotecall_fetch(1, procs, pid)
end
end
function workers()
allp = procs()
if nprocs() == 1
allp
else
filter(x -> x != 1, allp)
end
end
function rmprocs(args...; waitfor = 0.0)
# Only pid 1 can add and remove processes
if myid() != 1
error("only process 1 can add and remove processes")
end
lock(worker_lock)
try
rmprocset = []
for i in vcat(args...)
if i == 1
warn("rmprocs: process 1 not removed")
else
if haskey(map_pid_wrkr, i)
w = map_pid_wrkr[i]
set_worker_state(w, W_TERMINATING)
kill(w.manager, i, w.config)
push!(rmprocset, w)
end
end
end
start = time()
while (time() - start) < waitfor
if all(w -> w.state == W_TERMINATED, rmprocset)
break;
else
sleep(0.1)
end
end
((waitfor > 0) && any(w -> w.state != W_TERMINATED, rmprocset)) ? :timed_out : :ok
finally
unlock(worker_lock)
end
end
type ProcessExitedException <: Exception end
worker_from_id(i) = worker_from_id(PGRP, i)
function worker_from_id(pg::ProcessGroup, i)
if in(i, map_del_wrkr)
throw(ProcessExitedException())
end
if !haskey(map_pid_wrkr,i)
if myid() == 1
error("no process with id $i exists")
end
w = Worker(i)
map_pid_wrkr[i] = w
else
w = map_pid_wrkr[i]
end
w
end
function worker_id_from_socket(s)
w = get(map_sock_wrkr, s, nothing)
if isa(w,Worker)
if is(s, w.r_stream) || is(s, w.w_stream)
return w.id
end
end
if isa(s,IOStream) && fd(s)==-1
# serializing to a local buffer
return myid()
end
return -1
end
register_worker(w) = register_worker(PGRP, w)
function register_worker(pg, w)
push!(pg.workers, w)
map_pid_wrkr[w.id] = w
end
function register_worker_streams(w)
map_sock_wrkr[w.r_stream] = w
map_sock_wrkr[w.w_stream] = w
end
deregister_worker(pid) = deregister_worker(PGRP, pid)
function deregister_worker(pg, pid)
pg.workers = filter(x -> !(x.id == pid), pg.workers)
w = pop!(map_pid_wrkr, pid, nothing)
if isa(w, Worker)
if isdefined(w, :r_stream)
pop!(map_sock_wrkr, w.r_stream, nothing)
if w.r_stream != w.w_stream
pop!(map_sock_wrkr, w.w_stream, nothing)
end
end
if myid() == 1
# Notify the cluster manager of this workers death
manage(w.manager, w.id, w.config, :deregister)
if PGRP.topology != :all_to_all
for rpid in workers()
try
remote_do(rpid, deregister_worker, pid)
catch
end
end
end
end
end
push!(map_del_wrkr, pid)
# delete this worker from our RemoteRef client sets
ids = []
tonotify = []
for (id,rv) in pg.refs
if in(pid,rv.clientset)
push!(ids, id)
end
if rv.waitingfor == pid
push!(tonotify, (id,rv))
end
end
for id in ids
del_client(pg, id, pid)
end
# throw exception to tasks waiting for this pid
for (id,rv) in tonotify
notify_error(rv.c, ProcessExitedException())
delete!(pg.refs, id)
end
end
## remote refs ##
const client_refs = WeakKeyDict()
type RemoteRef{T<:AbstractChannel}
where::Int
whence::Int
id::Int
# TODO: cache value if it's fetched, but don't serialize the cached value
function RemoteRef(w, wh, id)
r = new(w,wh,id)
found = getkey(client_refs, r, false)
if !is(found,false)
return found
end
client_refs[r] = true
finalizer(r, finalize_rr)
r
end
end
function finalize_rr(rr::RemoteRef)
if rr.where > 0
send_del_client(rr)
rr.where = 0
rr.whence = 0
rr.id = 0
end
rr
end
let REF_ID::Int = 1
global next_ref_id
next_ref_id() = (id = REF_ID; REF_ID += 1; id)
global next_rrid_tuple
next_rrid_tuple() = (myid(),next_ref_id())
end
RemoteRef(w::LocalProcess) = RemoteRef(w.id)
RemoteRef(w::Worker) = RemoteRef(w.id)
function RemoteRef(pid::Integer=myid())
rrid = next_rrid_tuple()
RemoteRef{Channel{Any}}(pid, rrid[1], rrid[2])
end
function RemoteRef(f::Function, pid::Integer=myid())
remotecall_fetch(pid, (f, rrid) -> begin
rv=lookup_ref(rrid, f)
RemoteRef{typeof(rv.c)}(myid(), rrid[1], rrid[2])
end, f, next_rrid_tuple())
end
hash(r::RemoteRef, h::UInt) = hash(r.whence, hash(r.id, h))
==(r::RemoteRef, s::RemoteRef) = (r.whence==s.whence && r.id==s.id)
rr2id(r::RemoteRef) = (r.whence, r.id)
lookup_ref(id, f=def_rv_channel) = lookup_ref(PGRP, id, f)
function lookup_ref(pg, id, f)
rv = get(pg.refs, id, false)
if rv === false
# first we've heard of this ref
rv = RemoteValue(f)
pg.refs[id] = rv
push!(rv.clientset, id[1])
end
rv
end
function isready(rr::RemoteRef, args...)
rid = rr2id(rr)
if rr.where == myid()
isready(lookup_ref(rid).c, args...)
else
remotecall_fetch(rr.where, id->isready(lookup_ref(rid).c, args...), rid)
end
end
del_client(id, client) = del_client(PGRP, id, client)
function del_client(pg, id, client)
# As a workaround to issue https://github.com/JuliaLang/julia/issues/14445
# the dict/set updates are executed asynchronously so that they do
# not occur in the midst of a gc. The `@async` prefix must be removed once
# 14445 is fixed and backported.
@async begin
rv = lookup_ref(id)
delete!(rv.clientset, client)
if isempty(rv.clientset)
delete!(pg.refs, id)
#print("$(myid()) collected $id\n")
end
end
nothing
end
function del_clients(pairs::Vector)
for p in pairs
del_client(p[1], p[2])
end
end
any_gc_flag = Condition()
function start_gc_msgs_task()
@schedule while true
wait(any_gc_flag)
flush_gc_msgs()
end
end
function send_del_client(rr::RemoteRef)
if rr.where == myid()
del_client(rr2id(rr), myid())
elseif rr.where in procs() # process only if a valid worker
w = worker_from_id(rr.where)
push!(w.del_msgs, (rr2id(rr), myid()))
w.gcflag = true
notify(any_gc_flag)
end
end
function add_client(id, client)
rv = lookup_ref(id)
push!(rv.clientset, client)
nothing
end
function add_clients(pairs::Vector)
for p in pairs
add_client(p[1], p[2])
end
end
function send_add_client(rr::RemoteRef, i)
if rr.where == myid()
add_client(rr2id(rr), i)
elseif (i != rr.where) && (rr.where in procs())
# don't need to send add_client if the message is already going
# to the processor that owns the remote ref. it will add_client
# itself inside deserialize().
w = worker_from_id(rr.where)
push!(w.add_msgs, (rr2id(rr), i))
w.gcflag = true
notify(any_gc_flag)
end
end
channel_type{T}(rr::RemoteRef{T}) = T
function serialize(s::SerializationState, rr::RemoteRef)
i = worker_id_from_socket(s.io)
#println("$(myid()) serializing $rr to $i")
if i != -1
#println("send add $rr to $i")
send_add_client(rr, i)
end
invoke(serialize, Tuple{SerializationState, Any}, s, rr)
end
function deserialize{T<:RemoteRef}(s::SerializationState, t::Type{T})
rr = invoke(deserialize, Tuple{SerializationState, DataType}, s, t)
where = rr.where
if where == myid()
add_client(rr2id(rr), myid())
end
# call ctor to make sure this rr gets added to the client_refs table
RemoteRef{channel_type(rr)}(where, rr.whence, rr.id)
end
# data stored by the owner of a RemoteRef
def_rv_channel() = Channel(1)
type RemoteValue
c::AbstractChannel
clientset::IntSet
waitingfor::Int # processor we need to hear from to fill this, or 0
RemoteValue(f::Function) = new(f(), IntSet(), 0)
end
wait(rv::RemoteValue) = wait(rv.c)
## core messages: do, call, fetch, wait, ref, put! ##
type RemoteException <: Exception
pid::Int
captured::CapturedException
end
RemoteException(captured) = RemoteException(myid(), captured)
function showerror(io::IO, re::RemoteException)
(re.pid != myid()) && print(io, "On worker ", re.pid, ":\n")
showerror(io, re.captured)
end
function run_work_thunk(thunk, print_error)
local result
try
result = thunk()
catch err
ce = CapturedException(err, catch_backtrace())
result = RemoteException(ce)
print_error && print(STDERR, ce)
end
result
end
function run_work_thunk(rv::RemoteValue, thunk)
put!(rv, run_work_thunk(thunk, false))
nothing
end
function schedule_call(rid, thunk)
rv = RemoteValue(def_rv_channel)
(PGRP::ProcessGroup).refs[rid] = rv
push!(rv.clientset, rid[1])
schedule(@task(run_work_thunk(rv,thunk)))
rv
end
#localize_ref(b::Box) = Box(localize_ref(b.contents))
#function localize_ref(r::RemoteRef)
# if r.where == myid()
# fetch(r)
# else
# r
# end
#end
#localize_ref(x) = x
# make a thunk to call f on args in a way that simulates what would happen if
# the function were sent elsewhere
function local_remotecall_thunk(f, args)
if isempty(args)
return f
end
return ()->f(args...)
# TODO: this seems to be capable of causing deadlocks by waiting on
# Refs buried inside the closure that we don't want to wait on yet.
# linfo = ccall(:jl_closure_linfo, Any, (Any,), f)
# if isa(linfo,LambdaStaticData)
# env = ccall(:jl_closure_env, Any, (Any,), f)
# buf = memio()
# serialize(buf, env)
# seek(buf, 0)
# env = deserialize(buf)
# f = ccall(:jl_new_closure, Any, (Ptr{Void}, Any, Any),
# C_NULL, env, linfo)::Function
# end
# f(map(localize_ref,args)...)
end
function remotecall(w::LocalProcess, f, args...)
rr = RemoteRef(w)
schedule_call(rr2id(rr), local_remotecall_thunk(f,args))
rr
end
function remotecall(w::Worker, f, args...)
rr = RemoteRef(w)
#println("$(myid()) asking for $rr")
send_msg(w, CallMsg{:call}(f, args, rr2id(rr)))
rr
end
remotecall(id::Integer, f, args...) = remotecall(worker_from_id(id), f, args...)
# faster version of fetch(remotecall(...))
function remotecall_fetch(w::LocalProcess, f, args...)
v=run_work_thunk(local_remotecall_thunk(f,args), false)
isa(v, RemoteException) ? throw(v) : v
end
function remotecall_fetch(w::Worker, f, args...)
# can be weak, because the program will have no way to refer to the Ref
# itself, it only gets the result.
oid = next_rrid_tuple()
rv = lookup_ref(oid)
rv.waitingfor = w.id
send_msg(w, CallMsg{:call_fetch}(f, args, oid))
v = take!(rv)
delete!(PGRP.refs, oid)
isa(v, RemoteException) ? throw(v) : v
end
remotecall_fetch(id::Integer, f, args...) =
remotecall_fetch(worker_from_id(id), f, args...)
# faster version of wait(remotecall(...))
remotecall_wait(w::LocalProcess, f, args...) = wait(remotecall(w,f,args...))
function remotecall_wait(w::Worker, f, args...)
prid = next_rrid_tuple()
rv = lookup_ref(prid)
rv.waitingfor = w.id
rr = RemoteRef(w)
send_msg(w, CallWaitMsg(f, args, rr2id(rr), prid))
v = fetch(rv.c)
delete!(PGRP.refs, prid)
isa(v, RemoteException) && throw(v)
rr
end
remotecall_wait(id::Integer, f, args...) =
remotecall_wait(worker_from_id(id), f, args...)
function remote_do(w::LocalProcess, f, args...)
# the LocalProcess version just performs in local memory what a worker
# does when it gets a :do message.
# same for other messages on LocalProcess.
thk = local_remotecall_thunk(f, args)
schedule(Task(thk))
nothing
end
function remote_do(w::Worker, f, args...)
send_msg(w, RemoteDoMsg(f, args))
nothing
end
remote_do(id::Integer, f, args...) = remote_do(worker_from_id(id), f, args...)
# have the owner of rr call f on it
function call_on_owner(f, rr::RemoteRef, args...)
rid = rr2id(rr)
if rr.where == myid()
f(rid, args...)
else
remotecall_fetch(rr.where, f, rid, args...)
end
end
function wait_ref(rid, callee, args...)
v = fetch_ref(rid, args...)
if isa(v, RemoteException)
if myid() == callee
throw(v)
else
return v
end
end
nothing
end
wait(r::RemoteRef, args...) = (call_on_owner(wait_ref, r, myid(), args...); r)
fetch_ref(rid, args...) = fetch(lookup_ref(rid).c, args...)
fetch(r::RemoteRef, args...) = call_on_owner(fetch_ref, r, args...)
fetch(x::ANY) = x
# storing a value to a RemoteRef
put!(rv::RemoteValue, args...) = put!(rv.c, args...)
put_ref(rid, args...) = put!(lookup_ref(rid), args...)
put!(rr::RemoteRef, args...) = (call_on_owner(put_ref, rr, args...); rr)
take!(rv::RemoteValue, args...) = take!(rv.c, args...)
function take_ref(rid, callee, args...)
v=take!(lookup_ref(rid), args...)
isa(v, RemoteException) && (myid() == callee) && throw(v)
v
end
take!(rr::RemoteRef, args...) = call_on_owner(take_ref, rr, myid(), args...)
close_ref(rid) = (close(lookup_ref(rid).c); nothing)
close(rr::RemoteRef) = call_on_owner(close_ref, rr)
function deliver_result(sock::IO, msg, oid, value)
#print("$(myid()) sending result $oid\n")
if is(msg,:call_fetch) || isa(value, RemoteException)
val = value
else
val = :OK
end
try
send_msg_now(sock, ResultMsg(oid, val))
catch e
# terminate connection in case of serialization error
# otherwise the reading end would hang
print(STDERR, "fatal error on ", myid(), ": ")
display_error(e, catch_backtrace())
wid = worker_id_from_socket(sock)
close(sock)
if myid()==1
rmprocs(wid)
elseif wid == 1
exit(1)
else
remote_do(1, rmprocs, wid)
end
end
end
## message event handlers ##
process_messages(r_stream::TCPSocket, w_stream::TCPSocket) = @schedule process_tcp_streams(r_stream, w_stream)
function process_tcp_streams(r_stream::TCPSocket, w_stream::TCPSocket)
disable_nagle(r_stream)
wait_connected(r_stream)
if r_stream != w_stream
disable_nagle(w_stream)
wait_connected(w_stream)
end
message_handler_loop(r_stream, w_stream)
end
process_messages(r_stream::IO, w_stream::IO) = @schedule message_handler_loop(r_stream, w_stream)
function message_handler_loop(r_stream::IO, w_stream::IO)
global PGRP
global cluster_manager
try
while true
msg = deserialize(r_stream)
# println("got msg: ", msg)
handle_msg(msg, r_stream, w_stream)
end
catch e
iderr = worker_id_from_socket(r_stream)
if (iderr < 1)
print(STDERR, "Socket from unknown remote worker in worker ", myid())
else
werr = worker_from_id(iderr)
oldstate = werr.state
set_worker_state(werr, W_TERMINATED)
# If error occured talking to pid 1, commit harakiri
if iderr == 1
if isopen(w_stream)
print(STDERR, "fatal error on ", myid(), ": ")
display_error(e, catch_backtrace())
end
exit(1)
end
# Will treat any exception as death of node and cleanup
# since currently we do not have a mechanism for workers to reconnect
# to each other on unhandled errors
deregister_worker(iderr)
end
if isopen(r_stream) close(r_stream) end
if isopen(w_stream) close(w_stream) end
if (myid() == 1) && (iderr > 1)
if oldstate != W_TERMINATING
println(STDERR, "Worker $iderr terminated.")
rethrow(e)
end
end
return nothing
end
end
handle_msg(msg::CallMsg{:call}, r_stream, w_stream) = schedule_call(msg.response_oid, ()->msg.f(msg.args...))
function handle_msg(msg::CallMsg{:call_fetch}, r_stream, w_stream)
@schedule begin
v = run_work_thunk(()->msg.f(msg.args...), false)
deliver_result(w_stream, :call_fetch, msg.response_oid, v)
end
end
function handle_msg(msg::CallWaitMsg, r_stream, w_stream)
@schedule begin
rv = schedule_call(msg.response_oid, ()->msg.f(msg.args...))
deliver_result(w_stream, :call_wait, msg.notify_oid, fetch(rv.c))
end
end
handle_msg(msg::RemoteDoMsg, r_stream, w_stream) = @schedule run_work_thunk(()->msg.f(msg.args...), true)
handle_msg(msg::ResultMsg, r_stream, w_stream) = put!(lookup_ref(msg.response_oid), msg.value)
handle_msg(msg::IdentifySocketMsg, r_stream, w_stream) = Worker(msg.from_pid, r_stream, w_stream, cluster_manager)
function handle_msg(msg::JoinPGRPMsg, r_stream, w_stream)
LPROC.id = msg.self_pid
controller = Worker(1, r_stream, w_stream, cluster_manager)
register_worker(LPROC)
topology(msg.topology)
wait_tasks = Task[]
for (connect_at, rpid, r_is_local) in msg.other_workers
wconfig = WorkerConfig()
wconfig.connect_at = connect_at
wconfig.environ = AnyDict(:self_is_local=>msg.self_is_local, :r_is_local=>r_is_local)
let rpid=rpid, wconfig=wconfig
t = @async connect_to_peer(cluster_manager, rpid, wconfig)
push!(wait_tasks, t)
end
end
for wt in wait_tasks; wait(wt); end
send_msg_now(controller, JoinCompleteMsg(msg.notify_oid, Sys.CPU_CORES, getpid()))
end
function connect_to_peer(manager::ClusterManager, rpid::Int, wconfig::WorkerConfig)
try
(r_s, w_s) = connect(manager, rpid, wconfig)
w = Worker(rpid, r_s, w_s, manager, wconfig)
process_messages(w.r_stream, w.w_stream)
send_msg_now(w, IdentifySocketMsg(myid()))
catch e
println(STDERR, "Error [$e] on $(myid()) while connecting to peer $rpid. Exiting.")
exit(1)
end
end
function handle_msg(msg::JoinCompleteMsg, r_stream, w_stream)
w = map_sock_wrkr[r_stream]
environ = get(w.config.environ, Dict())
environ[:cpu_cores] = msg.cpu_cores
w.config.environ = environ
w.config.ospid = msg.ospid
ntfy_channel = lookup_ref(msg.notify_oid)
put!(ntfy_channel, w.id)
end
function disable_threaded_libs()
blas_set_num_threads(1)
end
worker_timeout() = parse(Float64, get(ENV, "JULIA_WORKER_TIMEOUT", "60.0"))
## worker creation and setup ##
# The entry point for julia worker processes. does not return. Used for TCP transport.
# Cluster managers implementing their own transport will provide their own.
# Argument is descriptor to write listening port # to.
start_worker() = start_worker(STDOUT)
function start_worker(out::IO)
# we only explicitly monitor worker STDOUT on the console, so redirect
# stderr to stdout so we can see the output.
# at some point we might want some or all worker output to go to log
# files instead.
# Currently disabled since this caused processes to spin instead of
# exit when process 1 shut down. Don't yet know why.
#redirect_stderr(STDOUT)
init_worker()
if LPROC.bind_port == 0
(actual_port,sock) = listenany(UInt16(9009))
LPROC.bind_port = actual_port
else
sock = listen(LPROC.bind_port)
end
@schedule while isopen(sock)
client = accept(sock)
process_messages(client, client)
end
print(out, "julia_worker:") # print header
print(out, "$(dec(LPROC.bind_port))#") # print port
print(out, LPROC.bind_addr)
print(out, '\n')
flush(out)
# close STDIN; workers will not use it
#close(STDIN)
disable_nagle(sock)
if ccall(:jl_running_on_valgrind,Cint,()) != 0
println(out, "PID = $(getpid())")
end
try
# To prevent hanging processes on remote machines, newly launched workers exit if the
# master process does not connect in time.
# TODO : Make timeout configurable.
check_master_connect()
while true; wait(); end
catch err
print(STDERR, "unhandled exception on $(myid()): $(err)\nexiting.\n")
end
close(sock)
exit(0)
end
function redirect_worker_output(ident, stream)
@schedule while !eof(stream)
line = readline(stream)
if startswith(line, "\tFrom worker ")
# STDOUT's of "additional" workers started from an initial worker on a host are not available
# on the master directly - they are routed via the initial worker's STDOUT.
print(line)
else
print("\tFrom worker $(ident):\t$line")
end
end
end
# The default TCP transport relies on the worker listening on a free
# port available and printing its bind address and port.
# The master process uses this to connect to the worker and subsequently
# setup a all-to-all network.
function read_worker_host_port(io::IO)
while true
conninfo = readline(io)
bind_addr, port = parse_connection_info(conninfo)
if bind_addr != ""
return bind_addr, port
end
end
end
function parse_connection_info(str)
m = match(r"^julia_worker:(\d+)#(.*)", str)
if m !== nothing
(m.captures[2], parse(Int16, m.captures[1]))
else
("", Int16(-1))
end
end
function init_worker(manager::ClusterManager=DefaultClusterManager())
# On workers, the default cluster manager connects via TCP sockets. Custom
# transports will need to call this function with their own manager.
global cluster_manager
cluster_manager = manager
disable_threaded_libs()
# Since our pid has yet to be set, ensure no RemoteRefs have been created or addprocs() called.
assert(nprocs() <= 1)
assert(isempty(PGRP.refs))
assert(isempty(client_refs))
# System is started in head node mode, cleanup entries related to the same
empty!(PGRP.workers)
empty!(map_pid_wrkr)
end
# The main function for adding worker processes.
# `manager` is of type ClusterManager. The respective managers are responsible
# for launching the workers. All keyword arguments (plus a few default values)
# are available as a dictionary to the `launch` methods
#
# Only one addprocs can be in progress at any time
#
const worker_lock = ReentrantLock()
function addprocs(manager::ClusterManager; kwargs...)
lock(worker_lock)
try
addprocs_locked(manager::ClusterManager; kwargs...)
finally
unlock(worker_lock)
end
end
function addprocs_locked(manager::ClusterManager; kwargs...)
params = merge(default_addprocs_params(), AnyDict(kwargs))
topology(symbol(params[:topology]))
# some libs by default start as many threads as cores which leads to
# inefficient use of cores in a multi-process model.
# Should be a keyword arg?
disable_threaded_libs()
# References to launched workers, filled when each worker is fully initialized and
# has connected to all nodes.
launched_q = Int[] # Asynchronously filled by the launch method
# The `launch` method should add an object of type WorkerConfig for every
# worker launched. It provides information required on how to connect
# to it.
launched = WorkerConfig[]
launch_ntfy = Condition()
# call manager's `launch` is a separate task. This allows the master
# process initiate the connection setup process as and when workers come
# online
t_launch = @schedule launch(manager, params, launched, launch_ntfy)
@sync begin
while true
if length(launched) == 0
istaskdone(t_launch) && break
@schedule (sleep(1); notify(launch_ntfy))
wait(launch_ntfy)
end
if (length(launched) > 0)
wconfig = shift!(launched)
let wconfig=wconfig
@async setup_launched_worker(manager, wconfig, launched_q)
end
end
end
end
wait(t_launch) # catches any thrown errors from the launch task
# Let all workers know the current set of valid workers. Useful
# for nprocs(), nworkers(), etc to return valid values on the workers.
# Since all worker-to-worker setups may not have completed by the time this
# function returns to the caller.
all_w = workers()
for pid in all_w
remote_do(pid, set_valid_processes, all_w)
end
sort!(launched_q)
end
function set_valid_processes(plist::Array{Int})
for pid in setdiff(plist, workers())
myid() != pid && Worker(pid)
end
end
default_addprocs_params() = AnyDict(
:topology => :all_to_all,
:dir => pwd(),
:exename => joinpath(JULIA_HOME,julia_exename()),
:exeflags => ``)
function setup_launched_worker(manager, wconfig, launched_q)
pid = create_worker(manager, wconfig)
push!(launched_q, pid)
# When starting workers on remote multi-core hosts, `launch` can (optionally) start only one
# process on the remote machine, with a request to start additional workers of the
# same type. This is done by setting an appropriate value to `WorkerConfig.cnt`.
cnt = get(wconfig.count, 1)
if cnt == :auto
cnt = get(wconfig.environ)[:cpu_cores]
end
cnt = cnt - 1 # Removing self from the requested number
if cnt > 0
launch_n_additional_processes(manager, pid, wconfig, cnt, launched_q)
end
end
function launch_n_additional_processes(manager, frompid, fromconfig, cnt, launched_q)
@sync begin
exename = get(fromconfig.exename)
exeflags = get(fromconfig.exeflags, ``)
cmd = `$exename $exeflags`
new_addresses = remotecall_fetch(frompid, launch_additional, cnt, cmd)
for address in new_addresses
(bind_addr, port) = address
wconfig = WorkerConfig()
for x in [:host, :tunnel, :sshflags, :exeflags, :exename]
setfield!(wconfig, x, getfield(fromconfig, x))
end
wconfig.bind_addr = bind_addr
wconfig.port = port
let wconfig=wconfig
@async begin
pid = create_worker(manager, wconfig)
remote_do(frompid, redirect_output_from_additional_worker, pid, port)
push!(launched_q, pid)
end
end
end
end
end
function create_worker(manager, wconfig)
# only node 1 can add new nodes, since nobody else has the full list of address:port
assert(LPROC.id == 1)
# initiate a connect. Does not wait for connection completion in case of TCP.
w = Worker()
(r_s, w_s) = connect(manager, w.id, wconfig)
w = Worker(w.id, r_s, w_s, manager, wconfig)
# install a finalizer to perform cleanup if necessary
finalizer(w, (w)->if myid() == 1 manage(w.manager, w.id, w.config, :finalize) end)
# set when the new worker has finshed connections with all other workers
ntfy_oid = next_rrid_tuple()
rr_ntfy_join = lookup_ref(ntfy_oid)
rr_ntfy_join.waitingfor = myid()
# Start a new task to handle inbound messages from connected worker in master.
# Also calls `wait_connected` on TCP streams.
process_messages(w.r_stream, w.w_stream)
# send address information of all workers to the new worker.
# Cluster managers set the address of each worker in `WorkerConfig.connect_at`.
# A new worker uses this to setup a all-to-all network. Workers with higher pids connect to
# workers with lower pids. Except process 1 (master) which initiates connections
# to all workers.
# Flow:
# - master sends (:join_pgrp, list_of_all_worker_addresses) to all workers
# - On each worker
# - each worker sends a :identify_socket to all workers less than its pid
# - each worker then sends a :join_complete back to the master along with its OS_PID and NUM_CORES
# - once master receives a :join_complete it triggers rr_ntfy_join (signifies that worker setup is complete)
join_list = []
if PGRP.topology == :all_to_all
# need to wait for lower worker pids to have completed connecting, since the numerical value
# of pids is relevant to the connection process, i.e., higher pids connect to lower pids and they
# require the value of config.connect_at which is set only upon connection completion
for jw in PGRP.workers
if (jw.id != 1) && (jw.id < w.id)
(jw.state == W_CREATED) && wait(jw.c_state)
push!(join_list, jw)
end
end
elseif PGRP.topology == :custom
# wait for requested workers to be up before connecting to them.
filterfunc(x) = (x.id != 1) && isdefined(x, :config) && (get(x.config.ident) in get(wconfig.connect_idents, []))
wlist = filter(filterfunc, PGRP.workers)
while length(wlist) < length(get(wconfig.connect_idents, []))
sleep(1.0)
wlist = filter(filterfunc, PGRP.workers)
end
for wl in wlist
(wl.state == W_CREATED) && wait(wl.c_state)
push!(join_list, wl)
end
end
all_locs = map(x -> isa(x, Worker) ? (get(x.config.connect_at, ()), x.id, isa(x.manager, LocalManager)) : ((), x.id, true), join_list)
send_msg_now(w, JoinPGRPMsg(w.id, all_locs, isa(w.manager, LocalManager), ntfy_oid, PGRP.topology))
@schedule manage(w.manager, w.id, w.config, :register)
wait(rr_ntfy_join)
delete!(PGRP.refs, ntfy_oid)
w.id
end
# Called on the first worker on a remote host. Used to optimize launching
# of multiple workers on a remote host (to leverage multi-core)
additional_io_objs=Dict()
function launch_additional(np::Integer, cmd::Cmd)
io_objs = cell(np)
addresses = cell(np)
for i in 1:np
io, pobj = open(detach(cmd), "r")
io_objs[i] = io
end
for (i,io) in enumerate(io_objs)
(host, port) = read_worker_host_port(io)
addresses[i] = (host, port)
additional_io_objs[port] = io
end
addresses
end
function redirect_output_from_additional_worker(pid, port)
io = additional_io_objs[port]
redirect_worker_output("$pid", io)
delete!(additional_io_objs, port)
nothing
end
## higher-level functions: spawn, pmap, pfor, etc. ##
let nextidx = 0
global chooseproc
function chooseproc(thunk::Function)
p = -1
env = thunk.env
if isa(env,Tuple)
for v in env
if isa(v,Box)
v = v.contents
end
if isa(v,RemoteRef)
p = v.where; break
end
end
end
if p == -1
p = workers()[(nextidx % nworkers()) + 1]
nextidx += 1
end
p
end
end
spawnat(p, thunk) = sync_add(remotecall(p, thunk))
spawn_somewhere(thunk) = spawnat(chooseproc(thunk),thunk)
macro spawn(expr)
expr = localize_vars(:(()->($expr)), false)
:(spawn_somewhere($(esc(expr))))
end
macro spawnat(p, expr)
expr = localize_vars(:(()->($expr)), false)
:(spawnat($(esc(p)), $(esc(expr))))
end
macro fetch(expr)
expr = localize_vars(:(()->($expr)), false)
quote
thunk = $(esc(expr))
remotecall_fetch(chooseproc(thunk), thunk)
end
end
macro fetchfrom(p, expr)
expr = localize_vars(:(()->($expr)), false)
:(remotecall_fetch($(esc(p)), $(esc(expr))))
end
macro everywhere(ex)
quote
sync_begin()
thunk = ()->(eval(Main,$(Expr(:quote,ex))); nothing)
for pid in workers()
async_run_thunk(()->remotecall_fetch(pid, thunk))
yield() # ensure that the remotecall_fetch has been started
end
# execute locally last.
if nprocs() > 1
async_run_thunk(thunk)
end
sync_end()
end
end
function pmap_static(f, lsts...)
np = nprocs()
n = length(lsts[1])
Any[ remotecall(PGRP.workers[(i-1)%np+1].id, f, map(L->L[i], lsts)...) for i = 1:n ]
end
pmap(f) = f()
# dynamic scheduling by creating a local task to feed work to each processor
# as it finishes.
# example unbalanced workload:
# rsym(n) = (a=rand(n,n);a*a')
# L = {rsym(200),rsym(1000),rsym(200),rsym(1000),rsym(200),rsym(1000),rsym(200),rsym(1000)};
# pmap(eig, L);
function pmap(f, lsts...; err_retry=true, err_stop=false, pids = workers())
len = length(lsts)
results = Dict{Int,Any}()
busy_workers = fill(false, length(pids))
busy_workers_ntfy = Condition()
retryqueue = []
task_in_err = false
is_task_in_error() = task_in_err
set_task_in_error() = (task_in_err = true)
nextidx = 0
getnextidx() = (nextidx += 1)
states = [start(lsts[idx]) for idx in 1:len]
function getnext_tasklet()
if is_task_in_error() && err_stop
return nothing
elseif !any(idx->done(lsts[idx],states[idx]), 1:len)
nxts = [next(lsts[idx],states[idx]) for idx in 1:len]
for idx in 1:len; states[idx] = nxts[idx][2]; end
nxtvals = [x[1] for x in nxts]
return (getnextidx(), nxtvals)
elseif !isempty(retryqueue)
return shift!(retryqueue)
elseif err_retry
# Handles the condition where we have finished processing the requested lsts as well
# as any retryqueue entries, but there are still some jobs active that may result
# in an error and have to be retried.
while any(busy_workers)
wait(busy_workers_ntfy)
if !isempty(retryqueue)
return shift!(retryqueue)
end
end
return nothing
else
return nothing
end
end
@sync begin
for (pididx, wpid) in enumerate(pids)
@async begin
tasklet = getnext_tasklet()
while (tasklet !== nothing)
(idx, fvals) = tasklet
busy_workers[pididx] = true
try
results[idx] = remotecall_fetch(wpid, f, fvals...)
catch ex
if err_retry
push!(retryqueue, (idx,fvals, ex))
else
results[idx] = ex
end
set_task_in_error()
busy_workers[pididx] = false
notify(busy_workers_ntfy; all=true)
break # remove this worker from accepting any more tasks
end
busy_workers[pididx] = false
notify(busy_workers_ntfy; all=true)
tasklet = getnext_tasklet()
end
end
end
end
for failure in retryqueue
results[failure[1]] = failure[3]
end
[results[x] for x in 1:nextidx]
end
# Statically split range [1,N] into equal sized chunks for np processors
function splitrange(N::Int, np::Int)
each = div(N,np)
extras = rem(N,np)
nchunks = each > 0 ? np : extras
chunks = Array(UnitRange{Int}, nchunks)
lo = 1
for i in 1:nchunks
hi = lo + each - 1
if extras > 0
hi += 1
extras -= 1
end
chunks[i] = lo:hi
lo = hi+1
end
return chunks
end
function preduce(reducer, f, N::Int)
chunks = splitrange(N, nworkers())
all_w = workers()[1:length(chunks)]
w_exec = Task[]
for (idx,pid) in enumerate(all_w)
t = Task(()->remotecall_fetch(pid, f, first(chunks[idx]), last(chunks[idx])))
schedule(t)
push!(w_exec, t)
end
reduce(reducer, [wait(t) for t in w_exec])
end
function pfor(f, N::Int)
[@spawn f(first(c), last(c)) for c in splitrange(N, nworkers())]
end
function make_preduce_body(reducer, var, body, R)
quote
function (lo::Int, hi::Int)
$(esc(var)) = ($R)[lo]
ac = $(esc(body))
if lo != hi
for $(esc(var)) in ($R)[(lo+1):hi]
ac = ($(esc(reducer)))(ac, $(esc(body)))
end
end
ac
end
end
end
function make_pfor_body(var, body, R)
quote
function (lo::Int, hi::Int)
for $(esc(var)) in ($R)[lo:hi]
$(esc(body))
end
end
end
end
macro parallel(args...)
na = length(args)
if na==1
loop = args[1]
elseif na==2
reducer = args[1]
loop = args[2]
else
throw(ArgumentError("wrong number of arguments to @parallel"))
end
if !isa(loop,Expr) || !is(loop.head,:for)
error("malformed @parallel loop")
end
var = loop.args[1].args[1]
r = loop.args[1].args[2]
body = loop.args[2]
if na==1
thecall = :(pfor($(make_pfor_body(var, body, :therange)), length(therange)))
else
thecall = :(preduce($(esc(reducer)),
$(make_preduce_body(reducer, var, body, :therange)), length(therange)))
end
localize_vars(quote therange = $(esc(r)); $thecall; end)
end
function check_master_connect()
timeout = worker_timeout()
# If we do not have at least process 1 connect to us within timeout
# we log an error and exit, unless we're running on valgrind
if ccall(:jl_running_on_valgrind,Cint,()) != 0
return
end
@schedule begin
start = time()
while !haskey(map_pid_wrkr, 1) && (time() - start) < timeout
sleep(1.0)
end
if !haskey(map_pid_wrkr, 1)
print(STDERR, "Master process (id 1) could not connect within $timeout seconds.\nexiting.\n")
exit(1)
end
end
end
function timedwait(testcb::Function, secs::Float64; pollint::Float64=0.1)
pollint > 0 || throw(ArgumentError("cannot set pollint to $pollint seconds"))
start = time()
done = RemoteRef()
timercb(aw) = begin
try
if testcb()
put!(done, :ok)
elseif (time() - start) > secs
put!(done, :timed_out)
end
catch e
put!(done, :error)
finally
isready(done) && close(aw)
end
end
if !testcb()
t = Timer(timercb, pollint, pollint)
ret = fetch(done)
close(t)
else
ret = :ok
end
ret
end
function interrupt(pid::Integer)
assert(myid() == 1)
w = map_pid_wrkr[pid]
if isa(w, Worker)
manage(w.manager, w.id, w.config, :interrupt)
end
end
interrupt(pids::Integer...) = interrupt([pids...])
function interrupt(pids::AbstractVector=workers())
assert(myid() == 1)
@sync begin
for pid in pids
@async interrupt(pid)
end
end
end
function disable_nagle(sock)
# disable nagle on all OSes
ccall(:uv_tcp_nodelay, Cint, (Ptr{Void}, Cint), sock.handle, 1)
@linux_only begin
# tcp_quickack is a linux only option
if ccall(:jl_tcp_quickack, Cint, (Ptr{Void}, Cint), sock.handle, 1) < 0
warn_once("Parallel networking unoptimized ( Error enabling TCP_QUICKACK : ", Libc.strerror(Libc.errno()), " )")
end
end
end
function check_same_host(pids)
if myid() != 1
return remotecall_fetch(1, check_same_host, pids)
else
# We checkfirst if all test pids have been started using the local manager,
# else we check for the same bind_to addr. This handles the special case
# where the local ip address may change - as during a system sleep/awake
if all(p -> (p==1) || (isa(map_pid_wrkr[p].manager, LocalManager)), pids)
return true
else
first_bind_addr = get(map_pid_wrkr[pids[1]].config.bind_addr)
return all(p -> (p != 1) && (get(map_pid_wrkr[p].config.bind_addr) == first_bind_addr), pids[2:end])
end
end
end
function terminate_all_workers()
if myid() != 1
return
end
if nprocs() > 1
ret = rmprocs(workers(); waitfor=0.5)
if ret != :ok
warn("Forcibly interrupting busy workers")
# Might be computation bound, interrupt them and try again
interrupt(workers())
ret = rmprocs(workers(); waitfor=0.5)
if ret != :ok
warn("Unable to terminate all workers")
end
end
end
end
getindex(r::RemoteRef) = fetch(r)
function getindex(r::RemoteRef, args...)
if r.where == myid()
return getindex(fetch(r), args...)
end
return remotecall_fetch(r.where, getindex, r, args...)
end
