Simplified distributed block storage with strong consistency, like in Ceph
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// Copyright (c) Vitaliy Filippov, 2019+
// License: VNPL-1.1 (see README.md for details)
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#include <sys/socket.h>
#include <sys/poll.h>
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#include <netinet/in.h>
#include <netinet/tcp.h>
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#include <arpa/inet.h>
#include "blockstore_impl.h"
#include "osd_primary.h"
#include "osd.h"
#include "http_client.h"
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static blockstore_config_t json_to_bs(const json11::Json::object & config)
{
blockstore_config_t bs;
for (auto kv: config)
{
if (kv.second.is_string())
bs[kv.first] = kv.second.string_value();
else
bs[kv.first] = kv.second.dump();
}
return bs;
}
osd_t::osd_t(const json11::Json & config, ring_loop_t *ringloop)
{
zero_buffer_size = 1<<20;
zero_buffer = malloc_or_die(zero_buffer_size);
memset(zero_buffer, 0, zero_buffer_size);
this->ringloop = ringloop;
this->config = msgr.read_config(config).object_items();
if (this->config.find("log_level") == this->config.end())
this->config["log_level"] = 1;
parse_config(this->config);
epmgr = new epoll_manager_t(ringloop);
// FIXME: Use timerfd_interval based directly on io_uring
this->tfd = epmgr->tfd;
// FIXME: Create Blockstore from on-disk superblock config and check it against the OSD cluster config
auto bs_cfg = json_to_bs(this->config);
this->bs = new blockstore_t(bs_cfg, ringloop, tfd);
this->tfd->set_timer(print_stats_interval*1000, true, [this](int timer_id)
{
print_stats();
});
this->tfd->set_timer(slow_log_interval*1000, true, [this](int timer_id)
{
print_slow();
});
msgr.tfd = this->tfd;
msgr.ringloop = this->ringloop;
msgr.exec_op = [this](osd_op_t *op) { exec_op(op); };
msgr.repeer_pgs = [this](osd_num_t peer_osd) { repeer_pgs(peer_osd); };
msgr.init();
init_cluster();
consumer.loop = [this]() { loop(); };
ringloop->register_consumer(&consumer);
}
osd_t::~osd_t()
{
ringloop->unregister_consumer(&consumer);
delete epmgr;
delete bs;
close(listen_fd);
free(zero_buffer);
}
void osd_t::parse_config(const json11::Json & config)
{
st_cli.parse_config(config);
msgr.parse_config(config);
// OSD number
osd_num = config["osd_num"].uint64_value();
if (!osd_num)
throw std::runtime_error("osd_num is required in the configuration");
msgr.osd_num = osd_num;
// Vital Blockstore parameters
bs_block_size = config["block_size"].uint64_value();
if (!bs_block_size)
bs_block_size = DEFAULT_BLOCK_SIZE;
bs_bitmap_granularity = config["bitmap_granularity"].uint64_value();
if (!bs_bitmap_granularity)
bs_bitmap_granularity = DEFAULT_BITMAP_GRANULARITY;
clean_entry_bitmap_size = bs_block_size / bs_bitmap_granularity / 8;
// Bind address
bind_address = config["bind_address"].string_value();
if (bind_address == "")
bind_address = "0.0.0.0";
bind_port = config["bind_port"].uint64_value();
if (bind_port <= 0 || bind_port > 65535)
bind_port = 0;
// OSD configuration
log_level = config["log_level"].uint64_value();
etcd_report_interval = config["etcd_report_interval"].uint64_value();
if (etcd_report_interval <= 0)
etcd_report_interval = 30;
readonly = config["readonly"] == "true" || config["readonly"] == "1" || config["readonly"] == "yes";
run_primary = config["run_primary"] != "false" && config["run_primary"] != "0" && config["run_primary"] != "no";
no_rebalance = config["no_rebalance"] == "true" || config["no_rebalance"] == "1" || config["no_rebalance"] == "yes";
no_recovery = config["no_recovery"] == "true" || config["no_recovery"] == "1" || config["no_recovery"] == "yes";
allow_test_ops = config["allow_test_ops"] == "true" || config["allow_test_ops"] == "1" || config["allow_test_ops"] == "yes";
if (config["immediate_commit"] == "all")
immediate_commit = IMMEDIATE_ALL;
else if (config["immediate_commit"] == "small")
immediate_commit = IMMEDIATE_SMALL;
else
immediate_commit = IMMEDIATE_NONE;
if (!config["autosync_interval"].is_null())
{
// Allow to set it to 0
autosync_interval = config["autosync_interval"].uint64_value();
if (autosync_interval > MAX_AUTOSYNC_INTERVAL)
autosync_interval = DEFAULT_AUTOSYNC_INTERVAL;
}
if (!config["client_queue_depth"].is_null())
{
client_queue_depth = config["client_queue_depth"].uint64_value();
if (client_queue_depth < 128)
client_queue_depth = 128;
}
recovery_queue_depth = config["recovery_queue_depth"].uint64_value();
if (recovery_queue_depth < 1 || recovery_queue_depth > MAX_RECOVERY_QUEUE)
recovery_queue_depth = DEFAULT_RECOVERY_QUEUE;
recovery_sync_batch = config["recovery_sync_batch"].uint64_value();
if (recovery_sync_batch < 1 || recovery_sync_batch > MAX_RECOVERY_QUEUE)
recovery_sync_batch = DEFAULT_RECOVERY_BATCH;
print_stats_interval = config["print_stats_interval"].uint64_value();
if (!print_stats_interval)
print_stats_interval = 3;
slow_log_interval = config["slow_log_interval"].uint64_value();
if (!slow_log_interval)
slow_log_interval = 10;
}
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void osd_t::bind_socket()
{
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listen_fd = socket(AF_INET, SOCK_STREAM, 0);
if (listen_fd < 0)
{
throw std::runtime_error(std::string("socket: ") + strerror(errno));
}
int enable = 1;
setsockopt(listen_fd, SOL_SOCKET, SO_REUSEADDR, &enable, sizeof(enable));
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sockaddr_in addr;
int r;
if ((r = inet_pton(AF_INET, bind_address.c_str(), &addr.sin_addr)) != 1)
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{
close(listen_fd);
throw std::runtime_error("bind address "+bind_address+(r == 0 ? " is not valid" : ": no ipv4 support"));
}
addr.sin_family = AF_INET;
addr.sin_port = htons(bind_port);
if (bind(listen_fd, (sockaddr*)&addr, sizeof(addr)) < 0)
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{
close(listen_fd);
throw std::runtime_error(std::string("bind: ") + strerror(errno));
}
if (bind_port == 0)
{
socklen_t len = sizeof(addr);
if (getsockname(listen_fd, (sockaddr *)&addr, &len) == -1)
{
close(listen_fd);
throw std::runtime_error(std::string("getsockname: ") + strerror(errno));
}
listening_port = ntohs(addr.sin_port);
}
else
{
listening_port = bind_port;
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}
if (listen(listen_fd, listen_backlog) < 0)
{
close(listen_fd);
throw std::runtime_error(std::string("listen: ") + strerror(errno));
}
fcntl(listen_fd, F_SETFL, fcntl(listen_fd, F_GETFL, 0) | O_NONBLOCK);
epmgr->set_fd_handler(listen_fd, false, [this](int fd, int events)
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{
msgr.accept_connections(listen_fd);
});
}
bool osd_t::shutdown()
{
stopping = true;
if (inflight_ops > 0)
{
return false;
}
return !bs || bs->is_safe_to_stop();
}
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void osd_t::loop()
{
handle_peers();
msgr.read_requests();
msgr.send_replies();
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ringloop->submit();
}
void osd_t::exec_op(osd_op_t *cur_op)
{
clock_gettime(CLOCK_REALTIME, &cur_op->tv_begin);
if (stopping)
{
// Throw operation away
delete cur_op;
return;
}
// Clear the reply buffer
memset(cur_op->reply.buf, 0, OSD_PACKET_SIZE);
inflight_ops++;
if (cur_op->req.hdr.magic != SECONDARY_OSD_OP_MAGIC ||
cur_op->req.hdr.opcode < OSD_OP_MIN || cur_op->req.hdr.opcode > OSD_OP_MAX ||
((cur_op->req.hdr.opcode == OSD_OP_SEC_READ ||
cur_op->req.hdr.opcode == OSD_OP_SEC_WRITE ||
cur_op->req.hdr.opcode == OSD_OP_SEC_WRITE_STABLE) &&
(cur_op->req.sec_rw.len > OSD_RW_MAX ||
cur_op->req.sec_rw.len % bs_bitmap_granularity ||
cur_op->req.sec_rw.offset % bs_bitmap_granularity)) ||
((cur_op->req.hdr.opcode == OSD_OP_READ ||
cur_op->req.hdr.opcode == OSD_OP_WRITE ||
cur_op->req.hdr.opcode == OSD_OP_DELETE) &&
(cur_op->req.rw.len > OSD_RW_MAX ||
cur_op->req.rw.len % bs_bitmap_granularity ||
cur_op->req.rw.offset % bs_bitmap_granularity)))
{
// Bad command
finish_op(cur_op, -EINVAL);
return;
}
if (cur_op->req.hdr.opcode == OSD_OP_PING)
{
// Pong
finish_op(cur_op, 0);
return;
}
if (readonly &&
cur_op->req.hdr.opcode != OSD_OP_SEC_READ &&
cur_op->req.hdr.opcode != OSD_OP_SEC_LIST &&
cur_op->req.hdr.opcode != OSD_OP_READ &&
cur_op->req.hdr.opcode != OSD_OP_SEC_READ_BMP &&
cur_op->req.hdr.opcode != OSD_OP_SHOW_CONFIG)
{
// Readonly mode
finish_op(cur_op, -EROFS);
return;
}
if (cur_op->req.hdr.opcode == OSD_OP_TEST_SYNC_STAB_ALL)
{
exec_sync_stab_all(cur_op);
}
else if (cur_op->req.hdr.opcode == OSD_OP_SHOW_CONFIG)
{
exec_show_config(cur_op);
}
else if (cur_op->req.hdr.opcode == OSD_OP_READ)
{
continue_primary_read(cur_op);
}
else if (cur_op->req.hdr.opcode == OSD_OP_WRITE)
{
continue_primary_write(cur_op);
}
else if (cur_op->req.hdr.opcode == OSD_OP_SYNC)
{
continue_primary_sync(cur_op);
}
else if (cur_op->req.hdr.opcode == OSD_OP_DELETE)
{
continue_primary_del(cur_op);
}
else
{
exec_secondary(cur_op);
}
}
void osd_t::reset_stats()
{
msgr.stats = { 0 };
prev_stats = { 0 };
memset(recovery_stat_count, 0, sizeof(recovery_stat_count));
memset(recovery_stat_bytes, 0, sizeof(recovery_stat_bytes));
}
void osd_t::print_stats()
{
for (int i = OSD_OP_MIN; i <= OSD_OP_MAX; i++)
{
if (msgr.stats.op_stat_count[i] != prev_stats.op_stat_count[i] && i != OSD_OP_PING)
{
uint64_t avg = (msgr.stats.op_stat_sum[i] - prev_stats.op_stat_sum[i])/(msgr.stats.op_stat_count[i] - prev_stats.op_stat_count[i]);
uint64_t bw = (msgr.stats.op_stat_bytes[i] - prev_stats.op_stat_bytes[i]) / print_stats_interval;
if (msgr.stats.op_stat_bytes[i] != 0)
{
printf(
"[OSD %lu] avg latency for op %d (%s): %lu us, B/W: %.2f %s\n", osd_num, i, osd_op_names[i], avg,
(bw > 1024*1024*1024 ? bw/1024.0/1024/1024 : (bw > 1024*1024 ? bw/1024.0/1024 : bw/1024.0)),
(bw > 1024*1024*1024 ? "GB/s" : (bw > 1024*1024 ? "MB/s" : "KB/s"))
);
}
else
{
printf("[OSD %lu] avg latency for op %d (%s): %lu us\n", osd_num, i, osd_op_names[i], avg);
}
prev_stats.op_stat_count[i] = msgr.stats.op_stat_count[i];
prev_stats.op_stat_sum[i] = msgr.stats.op_stat_sum[i];
prev_stats.op_stat_bytes[i] = msgr.stats.op_stat_bytes[i];
}
}
for (int i = OSD_OP_MIN; i <= OSD_OP_MAX; i++)
{
if (msgr.stats.subop_stat_count[i] != prev_stats.subop_stat_count[i])
{
uint64_t avg = (msgr.stats.subop_stat_sum[i] - prev_stats.subop_stat_sum[i])/(msgr.stats.subop_stat_count[i] - prev_stats.subop_stat_count[i]);
printf("[OSD %lu] avg latency for subop %d (%s): %ld us\n", osd_num, i, osd_op_names[i], avg);
prev_stats.subop_stat_count[i] = msgr.stats.subop_stat_count[i];
prev_stats.subop_stat_sum[i] = msgr.stats.subop_stat_sum[i];
}
}
for (int i = 0; i < 2; i++)
{
if (recovery_stat_count[0][i] != recovery_stat_count[1][i])
{
uint64_t bw = (recovery_stat_bytes[0][i] - recovery_stat_bytes[1][i]) / print_stats_interval;
printf(
"[OSD %lu] %s recovery: %.1f op/s, B/W: %.2f %s\n", osd_num, recovery_stat_names[i],
(recovery_stat_count[0][i] - recovery_stat_count[1][i]) * 1.0 / print_stats_interval,
(bw > 1024*1024*1024 ? bw/1024.0/1024/1024 : (bw > 1024*1024 ? bw/1024.0/1024 : bw/1024.0)),
(bw > 1024*1024*1024 ? "GB/s" : (bw > 1024*1024 ? "MB/s" : "KB/s"))
);
recovery_stat_count[1][i] = recovery_stat_count[0][i];
recovery_stat_bytes[1][i] = recovery_stat_bytes[0][i];
}
}
if (incomplete_objects > 0)
{
printf("[OSD %lu] %lu object(s) incomplete\n", osd_num, incomplete_objects);
}
if (degraded_objects > 0)
{
printf("[OSD %lu] %lu object(s) degraded\n", osd_num, degraded_objects);
}
if (misplaced_objects > 0)
{
printf("[OSD %lu] %lu object(s) misplaced\n", osd_num, misplaced_objects);
}
}
void osd_t::print_slow()
{
char alloc[1024];
timespec now;
clock_gettime(CLOCK_REALTIME, &now);
for (auto & kv: msgr.clients)
{
for (auto op: kv.second->received_ops)
{
if ((now.tv_sec - op->tv_begin.tv_sec) >= slow_log_interval)
{
int l = sizeof(alloc), n;
char *buf = alloc;
#define bufprintf(s, ...) { n = snprintf(buf, l, s, __VA_ARGS__); n = n < 0 ? 0 : n; buf += n; l -= n; }
bufprintf("[OSD %lu] Slow op", osd_num);
if (kv.second->osd_num)
{
bufprintf(" from peer OSD %lu (client %d)", kv.second->osd_num, kv.second->peer_fd);
}
else
{
bufprintf(" from client %d", kv.second->peer_fd);
}
bufprintf(": %s id=%lu", osd_op_names[op->req.hdr.opcode], op->req.hdr.id);
if (op->req.hdr.opcode == OSD_OP_SEC_READ || op->req.hdr.opcode == OSD_OP_SEC_WRITE ||
op->req.hdr.opcode == OSD_OP_SEC_WRITE_STABLE || op->req.hdr.opcode == OSD_OP_SEC_DELETE)
{
bufprintf(" %lx:%lx v", op->req.sec_rw.oid.inode, op->req.sec_rw.oid.stripe);
if (op->req.sec_rw.version == UINT64_MAX)
{
bufprintf("%s", "max");
}
else
{
bufprintf("%lu", op->req.sec_rw.version);
}
if (op->req.hdr.opcode != OSD_OP_SEC_DELETE)
{
bufprintf(" offset=%x len=%x", op->req.sec_rw.offset, op->req.sec_rw.len);
}
}
else if (op->req.hdr.opcode == OSD_OP_SEC_STABILIZE || op->req.hdr.opcode == OSD_OP_SEC_ROLLBACK)
{
for (uint64_t i = 0; i < op->req.sec_stab.len; i += sizeof(obj_ver_id))
{
obj_ver_id *ov = (obj_ver_id*)(op->buf + i);
bufprintf(i == 0 ? " %lx:%lx v%lu" : ", %lx:%lx v%lu", ov->oid.inode, ov->oid.stripe, ov->version);
}
}
else if (op->req.hdr.opcode == OSD_OP_SEC_LIST)
{
bufprintf(
" inode=%lx-%lx pg=%u/%u, stripe=%lu",
op->req.sec_list.min_inode, op->req.sec_list.max_inode,
op->req.sec_list.list_pg, op->req.sec_list.pg_count,
op->req.sec_list.pg_stripe_size
);
}
else if (op->req.hdr.opcode == OSD_OP_READ || op->req.hdr.opcode == OSD_OP_WRITE ||
op->req.hdr.opcode == OSD_OP_DELETE)
{
bufprintf(" inode=%lx offset=%lx len=%x", op->req.rw.inode, op->req.rw.offset, op->req.rw.len);
}
if (op->req.hdr.opcode == OSD_OP_SEC_READ || op->req.hdr.opcode == OSD_OP_SEC_WRITE ||
op->req.hdr.opcode == OSD_OP_SEC_WRITE_STABLE || op->req.hdr.opcode == OSD_OP_SEC_DELETE ||
op->req.hdr.opcode == OSD_OP_SEC_SYNC || op->req.hdr.opcode == OSD_OP_SEC_LIST ||
op->req.hdr.opcode == OSD_OP_SEC_STABILIZE || op->req.hdr.opcode == OSD_OP_SEC_ROLLBACK ||
op->req.hdr.opcode == OSD_OP_SEC_READ_BMP)
{
bufprintf(" state=%d", PRIV(op->bs_op)->op_state);
int wait_for = PRIV(op->bs_op)->wait_for;
if (wait_for)
{
bufprintf(" wait=%d (detail=%lu)", wait_for, PRIV(op->bs_op)->wait_detail);
}
}
else if (op->req.hdr.opcode == OSD_OP_READ || op->req.hdr.opcode == OSD_OP_WRITE ||
op->req.hdr.opcode == OSD_OP_SYNC || op->req.hdr.opcode == OSD_OP_DELETE)
{
bufprintf(" state=%d", !op->op_data ? -1 : op->op_data->st);
}
#undef bufprintf
printf("%s\n", alloc);
}
}
}
}