Make rm_inode work with incomplete and degraded objects, allow to wait before deleting objects

Vitaliy Filippov 2020-12-28 02:07:53 +03:00
джерело ccabbbfbcb
коміт 4a17a61d1f
3 змінених файлів з 148 додано та 62 видалено

@ -399,10 +399,7 @@ and calculate disk offsets almost by hand. This will be fixed in near future.
- Object deletion requests may currently lead to 'incomplete' objects if your OSDs crash during
deletion because proper handling of object cleanup in a cluster should be "three-phase"
and it's currently not implemented. Inode removal tool currently can't handle unclean
objects, so incomplete objects become undeletable. This will be fixed in near future
by allowing the inode removal tool to delete unclean objects. With this problem fixed
you'll be able just to repeat the removal again.
and it's currently not implemented. Just to repeat the removal again in this case.
## Implementation Principles

@ -94,7 +94,7 @@ struct pg_t
std::vector<osd_num_t> cur_set;
// same thing in state_dict-like format
pg_osd_set_t cur_loc_set;
// moved object map. by default, each object is considered to reside on the cur_set.
// moved object map. by default, each object is considered to reside on cur_set.
// this map stores all objects that differ.
// it may consume up to ~ (raw storage / object size) * 24 bytes in the worst case scenario
// which is up to ~192 MB per 1 TB in the worst case scenario

@ -6,26 +6,38 @@
* May be included into a bigger "command-line management interface" in the future
*/
#include <vector>
#include <algorithm>
#include "epoll_manager.h"
#include "cluster_client.h"
#include "pg_states.h"
#define RM_NO_LIST 1
#define RM_LIST_SENT 2
#define RM_REMOVING 3
#define RM_END 4
#define RM_LISTING 1
#define RM_REMOVING 2
#define RM_END 3
const char *exe_name = NULL;
struct rm_pg_t;
struct rm_pg_osd_t
{
pg_num_t pg_num;
rm_pg_t *pg = NULL;
osd_num_t osd_num;
bool sent = false;
};
struct rm_pg_t
{
pg_num_t pg_num;
osd_num_t rm_osd_num;
std::vector<rm_pg_osd_t> list_osds;
int state = 0;
obj_ver_id *obj_list = NULL;
uint64_t obj_count = 0, obj_pos = 0, obj_done = 0, obj_prev_done = 0;
int to_list;
std::set<object_id> objects;
std::set<object_id>::iterator obj_pos;
uint64_t obj_count = 0, obj_done = 0, obj_prev_done = 0;
int in_flight = 0;
};
@ -41,11 +53,12 @@ protected:
cluster_client_t *cli = NULL;
ring_consumer_t consumer;
std::vector<rm_pg_osd_t*> lists;
std::vector<rm_pg_t*> lists;
uint64_t total_count = 0, total_done = 0, total_prev_pct = 0;
uint64_t pgs_to_list = 0;
bool started = false;
bool progress = true;
bool list_first = false;
int log_level = 0;
public:
@ -62,7 +75,7 @@ public:
else if (args[i][0] == '-' && args[i][1] == '-')
{
const char *opt = args[i]+2;
cfg[opt] = !strcmp(opt, "json") || i == narg-1 ? "1" : args[++i];
cfg[opt] = !strcmp(opt, "json") || !strcmp(opt, "wait-list") || i == narg-1 ? "1" : args[++i];
}
}
return cfg;
@ -74,7 +87,7 @@ public:
"Vitastor inode removal tool\n"
"(c) Vitaliy Filippov, 2020 (VNPL-1.0)\n\n"
"USAGE:\n"
" %s --etcd_address <etcd_address> --pool <pool> --inode <inode>\n",
" %s --etcd_address <etcd_address> --pool <pool> --inode <inode> [--wait-list]\n",
exe_name
);
exit(0);
@ -105,6 +118,7 @@ public:
parallel_osds = 4;
log_level = cfg["log_level"].int64_value();
progress = cfg["progress"].uint64_value() ? true : false;
list_first = cfg["wait-list"].uint64_value() ? true : false;
// Create client
ringloop = new ring_loop_t(512);
epmgr = new epoll_manager_t(ringloop);
@ -137,21 +151,57 @@ public:
for (auto & pg_item: pool_cfg.pg_config)
{
auto & pg = pg_item.second;
if (pg.pause || !pg.cur_primary || pg.cur_state != PG_ACTIVE)
if (pg.pause || !pg.cur_primary || !(pg.cur_state & PG_ACTIVE))
{
// FIXME Support deletion in non-clean active PGs by introducing a "primary-list" command
fprintf(stderr, "PG %u is not active+clean, skipping\n", pg_item.first);
fprintf(stderr, "PG %u is inactive, skipping\n", pg_item.first);
continue;
}
rm_pg_osd_t *r = new rm_pg_osd_t();
rm_pg_t *r = new rm_pg_t();
r->pg_num = pg_item.first;
r->osd_num = pg.cur_primary;
r->state = RM_NO_LIST;
r->rm_osd_num = pg.cur_primary;
r->state = RM_LISTING;
if (pg.cur_state != PG_ACTIVE)
{
std::set<osd_num_t> all_peers;
for (osd_num_t pg_osd: pg.target_set)
{
if (pg_osd != 0)
{
all_peers.insert(pg_osd);
}
}
for (osd_num_t pg_osd: pg.all_peers)
{
if (pg_osd != 0)
{
all_peers.insert(pg_osd);
}
}
for (auto & hist_item: pg.target_history)
{
for (auto pg_osd: hist_item)
{
if (pg_osd != 0)
{
all_peers.insert(pg_osd);
}
}
}
for (osd_num_t peer_osd: all_peers)
{
r->list_osds.push_back((rm_pg_osd_t){ .pg = r, .osd_num = peer_osd, .sent = false });
}
}
else
{
r->list_osds.push_back((rm_pg_osd_t){ .pg = r, .osd_num = pg.cur_primary, .sent = false });
}
r->to_list = r->list_osds.size();
lists.push_back(r);
}
std::sort(lists.begin(), lists.end(), [](rm_pg_osd_t *a, rm_pg_osd_t *b)
std::sort(lists.begin(), lists.end(), [](rm_pg_t *a, rm_pg_t *b)
{
return a->osd_num < b->osd_num ? true : false;
return a->rm_osd_num < b->rm_osd_num ? true : false;
});
pgs_to_list = lists.size();
started = true;
@ -160,6 +210,10 @@ public:
void send_list(rm_pg_osd_t *cur_list)
{
if (cur_list->sent)
{
return;
}
if (cli->msgr.osd_peer_fds.find(cur_list->osd_num) ==
cli->msgr.osd_peer_fds.end())
{
@ -177,7 +231,7 @@ public:
.id = cli->msgr.next_subop_id++,
.opcode = OSD_OP_SEC_LIST,
},
.list_pg = cur_list->pg_num,
.list_pg = cur_list->pg->pg_num,
.pg_count = (pg_num_t)cli->st_cli.pool_config[pool_id].real_pg_count,
.pg_stripe_size = cli->st_cli.pool_config[pool_id].pg_stripe_size,
.min_inode = inode,
@ -186,53 +240,67 @@ public:
};
op->callback = [this, cur_list](osd_op_t *op)
{
pgs_to_list--;
cur_list->pg->to_list--;
if (op->reply.hdr.retval < 0)
{
fprintf(stderr, "Failed to get object list from OSD %lu (retval=%ld), skipping the PG\n",
cur_list->osd_num, op->reply.hdr.retval);
cli->msgr.stop_client(cur_list->osd_num);
delete op;
cur_list->state = RM_END;
continue_delete();
return;
fprintf(stderr, "Failed to get PG %u/%u object list from OSD %lu (retval=%ld), skipping\n",
pool_id, cur_list->pg->pg_num, cur_list->osd_num, op->reply.hdr.retval);
}
if (log_level > 0)
else
{
printf(
"[PG %u/%u] Got inode object list from OSD %lu: %ld object versions\n",
pool_id, cur_list->pg_num, cur_list->osd_num, op->reply.hdr.retval
);
if (op->reply.sec_list.stable_count < op->reply.hdr.retval)
{
// Unstable objects, if present, mean that someone still writes into the inode. Warn the user about it.
printf(
"[PG %u/%u] Inode still has %lu unstable object versions - is it still open? Not a good idea to delete it.\n",
pool_id, cur_list->pg->pg_num, op->reply.hdr.retval - op->reply.sec_list.stable_count
);
}
if (log_level > 0)
{
printf(
"[PG %u/%u] Got inode object list from OSD %lu: %ld object versions\n",
pool_id, cur_list->pg->pg_num, cur_list->osd_num, op->reply.hdr.retval
);
}
for (uint64_t i = 0; i < op->reply.hdr.retval; i++)
{
object_id oid = ((obj_ver_id*)op->buf)[i].oid;
oid.stripe = oid.stripe & ~STRIPE_MASK;
cur_list->pg->objects.insert(oid);
}
}
cur_list->obj_list = (obj_ver_id*)op->buf;
cur_list->obj_count = (uint64_t)op->reply.hdr.retval;
cur_list->obj_done = cur_list->obj_prev_done = cur_list->obj_pos = 0;
total_count += cur_list->obj_count;
total_prev_pct = 0;
// set op->buf to NULL so it doesn't get freed
op->buf = NULL;
delete op;
cur_list->state = RM_REMOVING;
if (cur_list->pg->to_list <= 0)
{
cur_list->pg->obj_done = cur_list->pg->obj_prev_done = 0;
cur_list->pg->obj_pos = cur_list->pg->objects.begin();
cur_list->pg->obj_count = cur_list->pg->objects.size();
total_count += cur_list->pg->obj_count;
total_prev_pct = 0;
cur_list->pg->state = RM_REMOVING;
pgs_to_list--;
}
continue_delete();
};
cur_list->state = RM_LIST_SENT;
cli->msgr.outbox_push(op);
cur_list->sent = true;
}
void send_ops(rm_pg_osd_t *cur_list)
void send_ops(rm_pg_t *cur_list)
{
if (cli->msgr.osd_peer_fds.find(cur_list->osd_num) ==
if (cli->msgr.osd_peer_fds.find(cur_list->rm_osd_num) ==
cli->msgr.osd_peer_fds.end())
{
// Initiate connection
cli->msgr.connect_peer(cur_list->osd_num, cli->st_cli.peer_states[cur_list->osd_num]);
cli->msgr.connect_peer(cur_list->rm_osd_num, cli->st_cli.peer_states[cur_list->rm_osd_num]);
return;
}
while (cur_list->in_flight < iodepth && cur_list->obj_pos < cur_list->obj_count)
while (cur_list->in_flight < iodepth && cur_list->obj_pos != cur_list->objects.end())
{
osd_op_t *op = new osd_op_t();
op->op_type = OSD_OP_OUT;
op->peer_fd = cli->msgr.osd_peer_fds[cur_list->osd_num];
op->peer_fd = cli->msgr.osd_peer_fds[cur_list->rm_osd_num];
op->req = (osd_any_op_t){
.rw = {
.header = {
@ -240,8 +308,8 @@ public:
.id = cli->msgr.next_subop_id++,
.opcode = OSD_OP_DELETE,
},
.inode = cur_list->obj_list[cur_list->obj_pos].oid.inode,
.offset = (cur_list->obj_list[cur_list->obj_pos].oid.stripe & ~STRIPE_MASK),
.inode = cur_list->obj_pos->inode,
.offset = (cur_list->obj_pos->stripe & ~STRIPE_MASK),
.len = 0,
},
};
@ -251,7 +319,7 @@ public:
if (op->reply.hdr.retval < 0)
{
fprintf(stderr, "Failed to remove object from PG %u (OSD %lu) (retval=%ld)\n",
cur_list->pg_num, cur_list->osd_num, op->reply.hdr.retval);
cur_list->pg_num, cur_list->rm_osd_num, op->reply.hdr.retval);
}
delete op;
cur_list->obj_done++;
@ -262,12 +330,10 @@ public:
cur_list->obj_pos++;
cur_list->in_flight++;
}
if (!cur_list->in_flight && cur_list->obj_pos >= cur_list->obj_count)
if (!cur_list->in_flight && cur_list->obj_pos == cur_list->objects.end())
{
free(cur_list->obj_list);
cur_list->obj_list = NULL;
cur_list->obj_count = 0;
cur_list->obj_done = cur_list->obj_prev_done = cur_list->obj_pos = 0;
cur_list->obj_done = cur_list->obj_prev_done = 0;
cur_list->state = RM_END;
}
}
@ -276,6 +342,22 @@ public:
{
int par_osd = 0;
osd_num_t max_seen_osd = 0;
bool no_del = false;
if (list_first)
{
int i, n = 0;
for (i = 0; i < lists.size(); i++)
{
if (lists[i]->state == RM_LISTING)
{
n++;
}
}
if (n > 0)
{
no_del = true;
}
}
for (int i = 0; i < lists.size(); i++)
{
if (lists[i]->state == RM_END)
@ -284,18 +366,25 @@ public:
lists.erase(lists.begin()+i, lists.begin()+i+1);
i--;
}
else if (lists[i]->osd_num > max_seen_osd)
else if (lists[i]->rm_osd_num > max_seen_osd)
{
if (lists[i]->state == RM_NO_LIST)
if (lists[i]->state == RM_LISTING)
{
send_list(lists[i]);
for (int j = 0; j < lists[i]->list_osds.size(); j++)
{
send_list(&lists[i]->list_osds[j]);
}
}
else if (lists[i]->state == RM_REMOVING)
{
if (no_del)
{
continue;
}
send_ops(lists[i]);
}
par_osd++;
max_seen_osd = lists[i]->osd_num;
max_seen_osd = lists[i]->rm_osd_num;
if (par_osd >= parallel_osds)
{
break;