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hot_restarting_base.cc
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hot_restarting_base.cc
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#include "server/hot_restarting_base.h"
#include "common/api/os_sys_calls_impl.h"
#include "common/common/mem_block_builder.h"
#include "common/common/safe_memcpy.h"
#include "common/common/utility.h"
#include "common/network/address_impl.h"
#include "common/stats/utility.h"
namespace Envoy {
namespace Server {
using HotRestartMessage = envoy::HotRestartMessage;
static constexpr uint64_t MaxSendmsgSize = 4096;
static constexpr absl::Duration CONNECTION_REFUSED_RETRY_DELAY = absl::Seconds(1);
static constexpr int SENDMSG_MAX_RETRIES = 10;
HotRestartingBase::~HotRestartingBase() {
if (my_domain_socket_ != -1) {
Api::OsSysCalls& os_sys_calls = Api::OsSysCallsSingleton::get();
Api::SysCallIntResult result = os_sys_calls.close(my_domain_socket_);
ASSERT(result.rc_ == 0);
}
}
void HotRestartingBase::initDomainSocketAddress(sockaddr_un* address) {
memset(address, 0, sizeof(*address));
address->sun_family = AF_UNIX;
}
sockaddr_un HotRestartingBase::createDomainSocketAddress(uint64_t id, const std::string& role,
const std::string& socket_path,
mode_t socket_mode) {
// Right now we only allow a maximum of 3 concurrent envoy processes to be running. When the third
// starts up it will kill the oldest parent.
static constexpr uint64_t MaxConcurrentProcesses = 3;
id = id % MaxConcurrentProcesses;
sockaddr_un address;
initDomainSocketAddress(&address);
Network::Address::PipeInstance addr(fmt::format(socket_path + "_{}_{}", role, base_id_ + id),
socket_mode, nullptr);
safeMemcpy(&address, &(addr.getSockAddr()));
fchmod(my_domain_socket_, socket_mode);
return address;
}
void HotRestartingBase::bindDomainSocket(uint64_t id, const std::string& role,
const std::string& socket_path, mode_t socket_mode) {
Api::OsSysCalls& os_sys_calls = Api::OsSysCallsSingleton::get();
// This actually creates the socket and binds it. We use the socket in datagram mode so we can
// easily read single messages.
my_domain_socket_ = socket(AF_UNIX, SOCK_DGRAM | SOCK_NONBLOCK, 0);
sockaddr_un address = createDomainSocketAddress(id, role, socket_path, socket_mode);
unlink(address.sun_path);
Api::SysCallIntResult result =
os_sys_calls.bind(my_domain_socket_, reinterpret_cast<sockaddr*>(&address), sizeof(address));
if (result.rc_ != 0) {
const auto msg = fmt::format(
"unable to bind domain socket with base_id={}, id={}, errno={} (see --base-id option)",
base_id_, id, result.errno_);
if (result.errno_ == SOCKET_ERROR_ADDR_IN_USE) {
throw HotRestartDomainSocketInUseException(msg);
}
throw EnvoyException(msg);
}
}
void HotRestartingBase::sendHotRestartMessage(sockaddr_un& address,
const HotRestartMessage& proto) {
Api::OsSysCalls& os_sys_calls = Api::OsSysCallsSingleton::get();
const uint64_t serialized_size = proto.ByteSizeLong();
const uint64_t total_size = sizeof(uint64_t) + serialized_size;
// Fill with uint64_t 'length' followed by the serialized HotRestartMessage.
std::vector<uint8_t> send_buf;
send_buf.resize(total_size);
*reinterpret_cast<uint64_t*>(send_buf.data()) = htobe64(serialized_size);
RELEASE_ASSERT(proto.SerializeWithCachedSizesToArray(send_buf.data() + sizeof(uint64_t)),
"failed to serialize a HotRestartMessage");
RELEASE_ASSERT(fcntl(my_domain_socket_, F_SETFL, 0) != -1,
fmt::format("Set domain socket blocking failed, errno = {}", errno));
uint8_t* next_byte_to_send = send_buf.data();
uint64_t sent = 0;
while (sent < total_size) {
const uint64_t cur_chunk_size = std::min(MaxSendmsgSize, total_size - sent);
iovec iov[1];
iov[0].iov_base = next_byte_to_send;
iov[0].iov_len = cur_chunk_size;
next_byte_to_send += cur_chunk_size;
sent += cur_chunk_size;
msghdr message;
memset(&message, 0, sizeof(message));
message.msg_name = &address;
message.msg_namelen = sizeof(address);
message.msg_iov = iov;
message.msg_iovlen = 1;
// Control data stuff, only relevant for the fd passing done with PassListenSocketReply.
uint8_t control_buffer[CMSG_SPACE(sizeof(int))];
if (replyIsExpectedType(&proto, HotRestartMessage::Reply::kPassListenSocket) &&
proto.reply().pass_listen_socket().fd() != -1) {
memset(control_buffer, 0, CMSG_SPACE(sizeof(int)));
message.msg_control = control_buffer;
message.msg_controllen = CMSG_SPACE(sizeof(int));
cmsghdr* control_message = CMSG_FIRSTHDR(&message);
control_message->cmsg_level = SOL_SOCKET;
control_message->cmsg_type = SCM_RIGHTS;
control_message->cmsg_len = CMSG_LEN(sizeof(int));
*reinterpret_cast<int*>(CMSG_DATA(control_message)) = proto.reply().pass_listen_socket().fd();
ASSERT(sent == total_size, "an fd passing message was too long for one sendmsg().");
}
// A transient connection refused error probably means the old process is not ready.
int saved_errno = 0;
int rc = 0;
bool sent = false;
for (int i = 0; i < SENDMSG_MAX_RETRIES; i++) {
auto result = os_sys_calls.sendmsg(my_domain_socket_, &message, 0);
rc = result.rc_;
saved_errno = result.errno_;
if (rc == static_cast<int>(cur_chunk_size)) {
sent = true;
break;
}
if (saved_errno == ECONNREFUSED) {
ENVOY_LOG(error, "hot restart sendmsg() connection refused, retrying");
absl::SleepFor(CONNECTION_REFUSED_RETRY_DELAY);
continue;
}
RELEASE_ASSERT(false, fmt::format("hot restart sendmsg() failed: returned {}, errno {}", rc,
saved_errno));
}
if (!sent) {
RELEASE_ASSERT(false, fmt::format("hot restart sendmsg() failed: returned {}, errno {}", rc,
saved_errno));
}
}
RELEASE_ASSERT(fcntl(my_domain_socket_, F_SETFL, O_NONBLOCK) != -1,
fmt::format("Set domain socket nonblocking failed, errno = {}", errno));
}
bool HotRestartingBase::replyIsExpectedType(const HotRestartMessage* proto,
HotRestartMessage::Reply::ReplyCase oneof_type) const {
return proto != nullptr && proto->requestreply_case() == HotRestartMessage::kReply &&
proto->reply().reply_case() == oneof_type;
}
// Pull the cloned fd, if present, out of the control data and write it into the
// PassListenSocketReply proto; the higher level code will see a listening fd that Just Works. We
// should only get control data in a PassListenSocketReply, it should only be the fd passing type,
// and there should only be one at a time. Crash on any other control data.
void HotRestartingBase::getPassedFdIfPresent(HotRestartMessage* out, msghdr* message) {
cmsghdr* cmsg = CMSG_FIRSTHDR(message);
if (cmsg != nullptr) {
RELEASE_ASSERT(cmsg->cmsg_level == SOL_SOCKET && cmsg->cmsg_type == SCM_RIGHTS &&
replyIsExpectedType(out, HotRestartMessage::Reply::kPassListenSocket),
"recvmsg() came with control data when the message's purpose was not to pass a "
"file descriptor.");
out->mutable_reply()->mutable_pass_listen_socket()->set_fd(
*reinterpret_cast<int*>(CMSG_DATA(cmsg)));
RELEASE_ASSERT(CMSG_NXTHDR(message, cmsg) == nullptr,
"More than one control data on a single hot restart recvmsg().");
}
}
// While in use, recv_buf_ is always >= MaxSendmsgSize. In between messages, it is kept empty,
// to be grown back to MaxSendmsgSize at the start of the next message.
void HotRestartingBase::initRecvBufIfNewMessage() {
if (recv_buf_.empty()) {
ASSERT(cur_msg_recvd_bytes_ == 0);
ASSERT(!expected_proto_length_.has_value());
recv_buf_.resize(MaxSendmsgSize);
}
}
// Must only be called when recv_buf_ contains a full proto. Returns that proto, and resets all of
// our receive-buffering state back to empty, to await a new message.
std::unique_ptr<HotRestartMessage> HotRestartingBase::parseProtoAndResetState() {
auto ret = std::make_unique<HotRestartMessage>();
RELEASE_ASSERT(
ret->ParseFromArray(recv_buf_.data() + sizeof(uint64_t), expected_proto_length_.value()),
"failed to parse a HotRestartMessage.");
recv_buf_.resize(0);
cur_msg_recvd_bytes_ = 0;
expected_proto_length_.reset();
return ret;
}
std::unique_ptr<HotRestartMessage> HotRestartingBase::receiveHotRestartMessage(Blocking block) {
// By default the domain socket is non blocking. If we need to block, make it blocking first.
if (block == Blocking::Yes) {
RELEASE_ASSERT(fcntl(my_domain_socket_, F_SETFL, 0) != -1,
fmt::format("Set domain socket blocking failed, errno = {}", errno));
}
initRecvBufIfNewMessage();
iovec iov[1];
msghdr message;
uint8_t control_buffer[CMSG_SPACE(sizeof(int))];
std::unique_ptr<HotRestartMessage> ret = nullptr;
while (!ret) {
iov[0].iov_base = recv_buf_.data() + cur_msg_recvd_bytes_;
iov[0].iov_len = MaxSendmsgSize;
// We always setup to receive an FD even though most messages do not pass one.
memset(control_buffer, 0, CMSG_SPACE(sizeof(int)));
memset(&message, 0, sizeof(message));
message.msg_iov = iov;
message.msg_iovlen = 1;
message.msg_control = control_buffer;
message.msg_controllen = CMSG_SPACE(sizeof(int));
const int recvmsg_rc = recvmsg(my_domain_socket_, &message, 0);
if (block == Blocking::No && recvmsg_rc == -1 && errno == SOCKET_ERROR_AGAIN) {
return nullptr;
}
RELEASE_ASSERT(recvmsg_rc != -1, fmt::format("recvmsg() returned -1, errno = {}", errno));
RELEASE_ASSERT(message.msg_flags == 0,
fmt::format("recvmsg() left msg_flags = {}", message.msg_flags));
cur_msg_recvd_bytes_ += recvmsg_rc;
// If we don't already know 'length', we're at the start of a new length+protobuf message!
if (!expected_proto_length_.has_value()) {
// We are not ok with messages so fragmented that the length doesn't even come in one piece.
RELEASE_ASSERT(recvmsg_rc >= 8, "received a brokenly tiny message fragment.");
expected_proto_length_ = be64toh(*reinterpret_cast<uint64_t*>(recv_buf_.data()));
// Expand the buffer from its default 4096 if this message is going to be longer.
if (expected_proto_length_.value() > MaxSendmsgSize - sizeof(uint64_t)) {
recv_buf_.resize(expected_proto_length_.value() + sizeof(uint64_t));
cur_msg_recvd_bytes_ = recvmsg_rc;
}
}
// If we have received beyond the end of the current in-flight proto, then next is misaligned.
RELEASE_ASSERT(cur_msg_recvd_bytes_ <= sizeof(uint64_t) + expected_proto_length_.value(),
"received a length+protobuf message not aligned to start of sendmsg().");
if (cur_msg_recvd_bytes_ == sizeof(uint64_t) + expected_proto_length_.value()) {
ret = parseProtoAndResetState();
}
}
// Turn non-blocking back on if we made it blocking.
if (block == Blocking::Yes) {
RELEASE_ASSERT(fcntl(my_domain_socket_, F_SETFL, O_NONBLOCK) != -1,
fmt::format("Set domain socket nonblocking failed, errno = {}", errno));
}
getPassedFdIfPresent(ret.get(), &message);
return ret;
}
Stats::Gauge& HotRestartingBase::hotRestartGeneration(Stats::Scope& scope) {
// Track the hot-restart generation. Using gauge's accumulate semantics,
// the increments will be combined across hot-restart. This may be useful
// at some point, though the main motivation for this stat is to enable
// an integration test showing that dynamic stat-names can be coalesced
// across hot-restarts. There's no other reason this particular stat-name
// needs to be created dynamically.
//
// Note also, this stat cannot currently be represented as a counter due to
// the way stats get latched on sink update. See the comment in
// InstanceUtil::flushMetricsToSinks.
return Stats::Utility::gaugeFromElements(scope,
{Stats::DynamicName("server.hot_restart_generation")},
Stats::Gauge::ImportMode::Accumulate);
}
} // namespace Server
} // namespace Envoy