// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2004-2006 Sage Weil * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #include "include/types.h" #include "include/rados/librados.hpp" #include "include/rados/rados_types.hpp" #include "include/radosstriper/libradosstriper.hpp" using namespace libradosstriper; #include "common/config.h" #include "common/ceph_argparse.h" #include "global/global_init.h" #include "common/Cond.h" #include "common/debug.h" #include "common/errno.h" #include "common/Formatter.h" #include "common/obj_bencher.h" #include "common/TextTable.h" #include "include/stringify.h" #include "mds/inode_backtrace.h" #include "auth/Crypto.h" #include #include #include #include #include #include #include #include #include #include #include #include "cls/lock/cls_lock_client.h" #include "include/compat.h" #include "include/util.h" #include "common/hobject.h" #include "PoolDump.h" #include "RadosImport.h" using namespace librados; // two steps seem to be necessary to do this right #define STR(x) _STR(x) #define _STR(x) #x void usage(ostream& out) { out << \ "usage: rados [options] [commands]\n" "POOL COMMANDS\n" " lspools list pools\n" " mkpool [123[ 4]] create pool '\n" " [with auid 123[and using crush rule 4]]\n" " cppool copy content of a pool\n" " rmpool [ --yes-i-really-really-mean-it]\n" " remove pool '\n" " purge --yes-i-really-really-mean-it\n" " remove all objects from pool without removing it\n" " df show per-pool and total usage\n" " ls list objects in pool\n\n" " chown 123 change the pool owner to auid 123\n" "\n" "POOL SNAP COMMANDS\n" " lssnap list snaps\n" " mksnap create snap \n" " rmsnap remove snap \n" "\n" "OBJECT COMMANDS\n" " get [outfile] fetch object\n" " put [infile] [--offset offset]\n" " write object with start offset (default:0)\n" " append [infile] append object\n" " truncate length truncate object\n" " create create object\n" " rm ...[--force-full] [force no matter full or not]remove object(s)\n" " cp [target-obj] copy object\n" " listxattr \n" " getxattr attr\n" " setxattr attr val\n" " rmxattr attr\n" " stat stat the named object\n" " mapext \n" " rollback roll back object to snap \n" "\n" " listsnaps list the snapshots of this object\n" " bench write|seq|rand [-t concurrent_operations] [--no-cleanup] [--run-name run_name] [--no-hints]\n" " default is 16 concurrent IOs and 4 MB ops\n" " default is to clean up after write benchmark\n" " default run-name is 'benchmark_last_metadata'\n" " cleanup [--run-name run_name] [--prefix prefix]\n" " clean up a previous benchmark operation\n" " default run-name is 'benchmark_last_metadata'\n" " load-gen [options] generate load on the cluster\n" " listomapkeys list the keys in the object map\n" " listomapvals list the keys and vals in the object map \n" " getomapval [file] show the value for the specified key\n" " in the object's object map\n" " setomapval \n" " rmomapkey \n" " getomapheader [file]\n" " setomapheader \n" " tmap-to-omap convert tmap keys/values to omap\n" " watch add watcher on this object\n" " notify notify watcher of this object with message\n" " listwatchers list the watchers of this object\n" " set-alloc-hint \n" " set allocation hint for an object\n" "\n" "IMPORT AND EXPORT\n" " export [filename]\n" " Serialize pool contents to a file or standard out.\n" " import [--dry-run] [--no-overwrite] < filename | - >\n" " Load pool contents from a file or standard in\n" "\n" "ADVISORY LOCKS\n" " lock list \n" " List all advisory locks on an object\n" " lock get \n" " Try to acquire a lock\n" " lock break \n" " Try to break a lock acquired by another client\n" " lock info \n" " Show lock information\n" " options:\n" " --lock-tag Lock tag, all locks operation should use\n" " the same tag\n" " --lock-cookie Locker cookie\n" " --lock-description Description of lock\n" " --lock-duration Lock duration (in seconds)\n" " --lock-type Lock type (shared, exclusive)\n" "\n" "SCRUB AND REPAIR:\n" " list-inconsistent-pg list inconsistent PGs in given pool\n" " list-inconsistent-obj list inconsistent objects in given pg\n" " list-inconsistent-snapset list inconsistent snapsets in the given pg\n" "\n" "CACHE POOLS: (for testing/development only)\n" " cache-flush flush cache pool object (blocking)\n" " cache-try-flush flush cache pool object (non-blocking)\n" " cache-evict evict cache pool object\n" " cache-flush-evict-all flush+evict all objects\n" " cache-try-flush-evict-all try-flush+evict all objects\n" "\n" "GLOBAL OPTIONS:\n" " --object_locator object_locator\n" " set object_locator for operation\n" " -p pool\n" " --pool=pool\n" " select given pool by name\n" " --target-pool=pool\n" " select target pool by name\n" " -b op_size\n" " set the block size for put/get ops and for write benchmarking\n" " -o object_size\n" " set the object size for put/get ops and for write benchmarking\n" " --max-objects\n" " set the max number of objects for write benchmarking\n" " -s name\n" " --snap name\n" " select given snap name for (read) IO\n" " -i infile\n" " --create\n" " create the pool or directory that was specified\n" " -N namespace\n" " --namespace=namespace\n" " specify the namespace to use for the object\n" " --all\n" " Use with ls to list objects in all namespaces\n" " Put in CEPH_ARGS environment variable to make this the default\n" " --default\n" " Use with ls to list objects in default namespace\n" " Takes precedence over --all in case --all is in environment\n" " --target-locator\n" " Use with cp to specify the locator of the new object\n" " --target-nspace\n" " Use with cp to specify the namespace of the new object\n" " --striper\n" " Use radostriper interface rather than pure rados\n" " Available for stat, get, put, truncate, rm, ls and \n" " all xattr related operations\n" "\n" "BENCH OPTIONS:\n" " -t N\n" " --concurrent-ios=N\n" " Set number of concurrent I/O operations\n" " --show-time\n" " prefix output with date/time\n" " --no-verify\n" " do not verify contents of read objects\n" " --write-object\n" " write contents to the objects\n" " --write-omap\n" " write contents to the omap\n" " --write-xattr\n" " write contents to the extended attributes\n" "\n" "LOAD GEN OPTIONS:\n" " --num-objects total number of objects\n" " --min-object-size min object size\n" " --max-object-size max object size\n" " --min-op-len min io size of operations\n" " --max-op-len max io size of operations\n" " --max-ops max number of operations\n" " --max-backlog max backlog size\n" " --read-percent percent of operations that are read\n" " --target-throughput target throughput (in bytes)\n" " --run-length total time (in seconds)\n" "CACHE POOLS OPTIONS:\n" " --with-clones include clones when doing flush or evict\n" "OMAP OPTIONS:\n" " --omap-key-file file read the omap key from a file\n"; } unsigned default_op_size = 1 << 22; static void usage_exit() { usage(cerr); exit(1); } template static int rados_sistrtoll(I &i, T *val) { std::string err; *val = strict_sistrtoll(i->second.c_str(), &err); if (err != "") { cerr << "Invalid value for " << i->first << ": " << err << std::endl; return -EINVAL; } else { return 0; } } static int dump_data(std::string const &filename, bufferlist const &data) { int fd; if (filename == "-") { fd = STDOUT_FILENO; } else { fd = TEMP_FAILURE_RETRY(::open(filename.c_str(), O_WRONLY|O_CREAT|O_TRUNC, 0644)); if (fd < 0) { int err = errno; cerr << "failed to open file: " << cpp_strerror(err) << std::endl; return -err; } } int r = data.write_fd(fd); if (fd != 1) { VOID_TEMP_FAILURE_RETRY(::close(fd)); } return r; } static int do_get(IoCtx& io_ctx, RadosStriper& striper, const char *objname, const char *outfile, unsigned op_size, bool use_striper) { string oid(objname); int fd; if (strcmp(outfile, "-") == 0) { fd = STDOUT_FILENO; } else { fd = TEMP_FAILURE_RETRY(::open(outfile, O_WRONLY|O_CREAT|O_TRUNC, 0644)); if (fd < 0) { int err = errno; cerr << "failed to open file: " << cpp_strerror(err) << std::endl; return -err; } } uint64_t offset = 0; int ret; while (true) { bufferlist outdata; if (use_striper) { ret = striper.read(oid, &outdata, op_size, offset); } else { ret = io_ctx.read(oid, outdata, op_size, offset); } if (ret <= 0) { goto out; } ret = outdata.write_fd(fd); if (ret < 0) { cerr << "error writing to file: " << cpp_strerror(ret) << std::endl; goto out; } if (outdata.length() < op_size) break; offset += outdata.length(); } ret = 0; out: if (fd != 1) VOID_TEMP_FAILURE_RETRY(::close(fd)); return ret; } static int do_copy(IoCtx& io_ctx, const char *objname, IoCtx& target_ctx, const char *target_obj) { __le32 src_fadvise_flags = LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL | LIBRADOS_OP_FLAG_FADVISE_NOCACHE; __le32 dest_fadvise_flags = LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL | LIBRADOS_OP_FLAG_FADVISE_DONTNEED; ObjectWriteOperation op; op.copy_from2(objname, io_ctx, 0, src_fadvise_flags); op.set_op_flags2(dest_fadvise_flags); return target_ctx.operate(target_obj, &op); } static int do_copy_pool(Rados& rados, const char *src_pool, const char *target_pool) { IoCtx src_ctx, target_ctx; int ret = rados.ioctx_create(src_pool, src_ctx); if (ret < 0) { cerr << "cannot open source pool: " << src_pool << std::endl; return ret; } ret = rados.ioctx_create(target_pool, target_ctx); if (ret < 0) { cerr << "cannot open target pool: " << target_pool << std::endl; return ret; } src_ctx.set_namespace(all_nspaces); librados::NObjectIterator i = src_ctx.nobjects_begin(); librados::NObjectIterator i_end = src_ctx.nobjects_end(); for (; i != i_end; ++i) { string nspace = i->get_nspace(); string oid = i->get_oid(); string locator = i->get_locator(); string target_name = (nspace.size() ? nspace + "/" : "") + oid; string src_name = target_name; if (locator.size()) src_name += "(@" + locator + ")"; cout << src_pool << ":" << src_name << " => " << target_pool << ":" << target_name << std::endl; src_ctx.locator_set_key(locator); src_ctx.set_namespace(nspace); target_ctx.set_namespace(nspace); ret = do_copy(src_ctx, oid.c_str(), target_ctx, oid.c_str()); if (ret < 0) { cerr << "error copying object: " << cpp_strerror(errno) << std::endl; return ret; } } return 0; } static int do_put(IoCtx& io_ctx, RadosStriper& striper, const char *objname, const char *infile, int op_size, uint64_t obj_offset, bool use_striper) { string oid(objname); bool stdio = (strcmp(infile, "-") == 0); int ret = 0; int fd = STDIN_FILENO; if (!stdio) fd = open(infile, O_RDONLY); if (fd < 0) { cerr << "error reading input file " << infile << ": " << cpp_strerror(errno) << std::endl; return 1; } int count = op_size; uint64_t offset = obj_offset; while (count != 0) { bufferlist indata; count = indata.read_fd(fd, op_size); if (count < 0) { ret = -errno; cerr << "error reading input file " << infile << ": " << cpp_strerror(ret) << std::endl; goto out; } if (count == 0) { if (offset == obj_offset) { // in case we have to create an empty object & if obj_offset > 0 do a hole if (use_striper) { ret = striper.write_full(oid, indata); // indata is empty } else { ret = io_ctx.write_full(oid, indata); // indata is empty } if (ret < 0) { goto out; } if (offset) { if (use_striper) { ret = striper.trunc(oid, offset); // before truncate, object must be existed. } else { ret = io_ctx.trunc(oid, offset); // before truncate, object must be existed. } if (ret < 0) { goto out; } } } continue; } if (use_striper) { if (offset == 0) ret = striper.write_full(oid, indata); else ret = striper.write(oid, indata, count, offset); } else { if (offset == 0) ret = io_ctx.write_full(oid, indata); else ret = io_ctx.write(oid, indata, count, offset); } if (ret < 0) { goto out; } offset += count; } ret = 0; out: if (fd != STDOUT_FILENO) VOID_TEMP_FAILURE_RETRY(close(fd)); return ret; } static int do_append(IoCtx& io_ctx, RadosStriper& striper, const char *objname, const char *infile, int op_size, bool use_striper) { string oid(objname); bool stdio = (strcmp(infile, "-") == 0); int ret = 0; int fd = STDIN_FILENO; if (!stdio) fd = open(infile, O_RDONLY); if (fd < 0) { cerr << "error reading input file " << infile << ": " << cpp_strerror(errno) << std::endl; return 1; } int count = op_size; while (count != 0) { bufferlist indata; count = indata.read_fd(fd, op_size); if (count < 0) { ret = -errno; cerr << "error reading input file " << infile << ": " << cpp_strerror(ret) << std::endl; goto out; } if (use_striper) { ret = striper.append(oid, indata, count); } else { ret = io_ctx.append(oid, indata, count); } if (ret < 0) { goto out; } } ret = 0; out: if (fd != STDOUT_FILENO) VOID_TEMP_FAILURE_RETRY(close(fd)); return ret; } class RadosWatchCtx : public librados::WatchCtx2 { IoCtx& ioctx; string name; public: RadosWatchCtx(IoCtx& io, const char *imgname) : ioctx(io), name(imgname) {} ~RadosWatchCtx() override {} void handle_notify(uint64_t notify_id, uint64_t cookie, uint64_t notifier_id, bufferlist& bl) override { cout << "NOTIFY" << " cookie " << cookie << " notify_id " << notify_id << " from " << notifier_id << std::endl; bl.hexdump(cout); ioctx.notify_ack(name, notify_id, cookie, bl); } void handle_error(uint64_t cookie, int err) override { cout << "ERROR" << " cookie " << cookie << " err " << cpp_strerror(err) << std::endl; } }; static const char alphanum_table[]="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_"; int gen_rand_alphanumeric(char *dest, int size) /* size should be the required string size + 1 */ { int ret = get_random_bytes(dest, size); if (ret < 0) { cerr << "cannot get random bytes: " << cpp_strerror(ret) << std::endl; return -1; } int i; for (i=0; i objs; utime_t start_time; bool going_down; public: int read_percent; int num_objs; size_t min_obj_len; uint64_t max_obj_len; size_t min_op_len; size_t max_op_len; size_t max_ops; size_t max_backlog; size_t target_throughput; int run_length; enum { OP_READ, OP_WRITE, }; struct LoadGenOp { int id; int type; string oid; size_t off; size_t len; bufferlist bl; LoadGen *lg; librados::AioCompletion *completion; LoadGenOp() : id(0), type(0), off(0), len(0), lg(NULL), completion(NULL) {} explicit LoadGenOp(LoadGen *_lg) : id(0), type(0), off(0), len(0), lg(_lg), completion(NULL) {} }; int max_op; map pending_ops; void gen_op(LoadGenOp *op); uint64_t gen_next_op(); void run_op(LoadGenOp *op); uint64_t cur_sent_rate() { return total_sent / time_passed(); } uint64_t cur_completed_rate() { return total_completed / time_passed(); } uint64_t total_expected() { return target_throughput * time_passed(); } float time_passed() { utime_t now = ceph_clock_now(); now -= start_time; uint64_t ns = now.nsec(); float total = (float) ns / 1000000000.0; total += now.sec(); return total; } Mutex lock; Cond cond; explicit LoadGen(Rados *_rados) : rados(_rados), going_down(false), lock("LoadGen") { read_percent = 80; min_obj_len = 1024; max_obj_len = 5ull * 1024ull * 1024ull * 1024ull; min_op_len = 1024; target_throughput = 5 * 1024 * 1024; // B/sec max_op_len = 2 * 1024 * 1024; max_ops = 16; max_backlog = target_throughput * 2; run_length = 60; total_sent = 0; total_completed = 0; num_objs = 200; max_op = 0; } int bootstrap(const char *pool); int run(); void cleanup(); void io_cb(completion_t c, LoadGenOp *op) { Mutex::Locker l(lock); total_completed += op->len; double rate = (double)cur_completed_rate() / (1024 * 1024); std::streamsize original_precision = cout.precision(); cout.precision(3); cout << "op " << op->id << " completed, throughput=" << rate << "MB/sec" << std::endl; cout.precision(original_precision); map::iterator iter = pending_ops.find(op->id); if (iter != pending_ops.end()) pending_ops.erase(iter); if (!going_down) op->completion->release(); delete op; cond.Signal(); } }; static void _load_gen_cb(completion_t c, void *param) { LoadGen::LoadGenOp *op = (LoadGen::LoadGenOp *)param; op->lg->io_cb(c, op); } int LoadGen::bootstrap(const char *pool) { char buf[128]; int i; if (!pool) { cerr << "ERROR: pool name was not specified" << std::endl; return -EINVAL; } int ret = rados->ioctx_create(pool, io_ctx); if (ret < 0) { cerr << "error opening pool " << pool << ": " << cpp_strerror(ret) << std::endl; return ret; } int buf_len = 1; bufferptr p = buffer::create(buf_len); bufferlist bl; memset(p.c_str(), 0, buf_len); bl.push_back(p); list completions; for (i = 0; i < num_objs; i++) { obj_info info; gen_rand_alphanumeric(buf, 16); info.name = "obj-"; info.name.append(buf); info.len = get_random(min_obj_len, max_obj_len); // throttle... while (completions.size() > max_ops) { AioCompletion *c = completions.front(); c->wait_for_complete(); ret = c->get_return_value(); c->release(); completions.pop_front(); if (ret < 0) { cerr << "aio_write failed" << std::endl; return ret; } } librados::AioCompletion *c = rados->aio_create_completion(NULL, NULL, NULL); completions.push_back(c); // generate object ret = io_ctx.aio_write(info.name, c, bl, buf_len, info.len - buf_len); if (ret < 0) { cerr << "couldn't write obj: " << info.name << " ret=" << ret << std::endl; return ret; } objs[i] = info; } list::iterator iter; for (iter = completions.begin(); iter != completions.end(); ++iter) { AioCompletion *c = *iter; c->wait_for_complete(); ret = c->get_return_value(); c->release(); if (ret < 0) { // yes, we leak. cerr << "aio_write failed" << std::endl; return ret; } } return 0; } void LoadGen::run_op(LoadGenOp *op) { op->completion = rados->aio_create_completion(op, _load_gen_cb, NULL); switch (op->type) { case OP_READ: io_ctx.aio_read(op->oid, op->completion, &op->bl, op->len, op->off); break; case OP_WRITE: bufferptr p = buffer::create(op->len); memset(p.c_str(), 0, op->len); op->bl.push_back(p); io_ctx.aio_write(op->oid, op->completion, op->bl, op->len, op->off); break; } total_sent += op->len; } void LoadGen::gen_op(LoadGenOp *op) { int i = get_random(0, objs.size() - 1); obj_info& info = objs[i]; op->oid = info.name; size_t len = get_random(min_op_len, max_op_len); if (len > info.len) len = info.len; size_t off = get_random(0, info.len); if (off + len > info.len) off = info.len - len; op->off = off; op->len = len; i = get_random(1, 100); if (i > read_percent) op->type = OP_WRITE; else op->type = OP_READ; cout << (op->type == OP_READ ? "READ" : "WRITE") << " : oid=" << op->oid << " off=" << op->off << " len=" << op->len << std::endl; } uint64_t LoadGen::gen_next_op() { lock.Lock(); LoadGenOp *op = new LoadGenOp(this); gen_op(op); op->id = max_op++; pending_ops[op->id] = op; lock.Unlock(); run_op(op); return op->len; } int LoadGen::run() { start_time = ceph_clock_now(); utime_t end_time = start_time; end_time += run_length; utime_t stamp_time = start_time; uint32_t total_sec = 0; while (1) { lock.Lock(); utime_t one_second(1, 0); cond.WaitInterval(lock, one_second); lock.Unlock(); utime_t now = ceph_clock_now(); if (now > end_time) break; uint64_t expected = total_expected(); lock.Lock(); uint64_t sent = total_sent; uint64_t completed = total_completed; lock.Unlock(); if (now - stamp_time >= utime_t(1, 0)) { double rate = (double)cur_completed_rate() / (1024 * 1024); ++total_sec; std::streamsize original_precision = cout.precision(); cout.precision(3); cout << setw(5) << total_sec << ": throughput=" << rate << "MB/sec" << " pending data=" << sent - completed << std::endl; cout.precision(original_precision); stamp_time = now; } while (sent < expected && sent - completed < max_backlog && pending_ops.size() < max_ops) { sent += gen_next_op(); } } // get a reference to all pending requests vector completions; lock.Lock(); going_down = true; map::iterator iter; for (iter = pending_ops.begin(); iter != pending_ops.end(); ++iter) { LoadGenOp *op = iter->second; completions.push_back(op->completion); } lock.Unlock(); cout << "waiting for all operations to complete" << std::endl; // now wait on all the pending requests for (vector::iterator citer = completions.begin(); citer != completions.end(); ++citer) { librados::AioCompletion *c = *citer; c->wait_for_complete(); c->release(); } return 0; } void LoadGen::cleanup() { cout << "cleaning up objects" << std::endl; map::iterator iter; for (iter = objs.begin(); iter != objs.end(); ++iter) { obj_info& info = iter->second; int ret = io_ctx.remove(info.name); if (ret < 0) cerr << "couldn't remove obj: " << info.name << " ret=" << ret << std::endl; } } enum OpWriteDest { OP_WRITE_DEST_OBJ = 2 << 0, OP_WRITE_DEST_OMAP = 2 << 1, OP_WRITE_DEST_XATTR = 2 << 2, }; class RadosBencher : public ObjBencher { librados::AioCompletion **completions; librados::Rados& rados; librados::IoCtx& io_ctx; librados::NObjectIterator oi; bool iterator_valid; OpWriteDest write_destination; protected: int completions_init(int concurrentios) override { completions = new librados::AioCompletion *[concurrentios]; return 0; } void completions_done() override { delete[] completions; completions = NULL; } int create_completion(int slot, void (*cb)(void *, void*), void *arg) override { completions[slot] = rados.aio_create_completion((void *) arg, 0, cb); if (!completions[slot]) return -EINVAL; return 0; } void release_completion(int slot) override { completions[slot]->release(); completions[slot] = 0; } int aio_read(const std::string& oid, int slot, bufferlist *pbl, size_t len, size_t offset) override { return io_ctx.aio_read(oid, completions[slot], pbl, len, 0); } int aio_write(const std::string& oid, int slot, bufferlist& bl, size_t len, size_t offset) override { librados::ObjectWriteOperation op; if (write_destination & OP_WRITE_DEST_OBJ) { if (data.hints) op.set_alloc_hint2(data.object_size, data.op_size, ALLOC_HINT_FLAG_SEQUENTIAL_WRITE | ALLOC_HINT_FLAG_SEQUENTIAL_READ | ALLOC_HINT_FLAG_APPEND_ONLY | ALLOC_HINT_FLAG_IMMUTABLE); op.write(offset, bl); } if (write_destination & OP_WRITE_DEST_OMAP) { std::map omap; omap[string("bench-omap-key-") + stringify(offset)] = bl; op.omap_set(omap); } if (write_destination & OP_WRITE_DEST_XATTR) { char key[80]; snprintf(key, sizeof(key), "bench-xattr-key-%d", (int)offset); op.setxattr(key, bl); } return io_ctx.aio_operate(oid, completions[slot], &op); } int aio_remove(const std::string& oid, int slot) override { return io_ctx.aio_remove(oid, completions[slot]); } int sync_read(const std::string& oid, bufferlist& bl, size_t len) override { return io_ctx.read(oid, bl, len, 0); } int sync_write(const std::string& oid, bufferlist& bl, size_t len) override { return io_ctx.write_full(oid, bl); } int sync_remove(const std::string& oid) override { return io_ctx.remove(oid); } bool completion_is_done(int slot) override { return completions[slot]->is_safe(); } int completion_wait(int slot) override { return completions[slot]->wait_for_safe_and_cb(); } int completion_ret(int slot) override { return completions[slot]->get_return_value(); } bool get_objects(std::list* objects, int num) override { int count = 0; if (!iterator_valid) { oi = io_ctx.nobjects_begin(); iterator_valid = true; } librados::NObjectIterator ei = io_ctx.nobjects_end(); if (oi == ei) { iterator_valid = false; return false; } objects->clear(); for ( ; oi != ei && count < num; ++oi) { Object obj(oi->get_oid(), oi->get_nspace()); objects->push_back(obj); ++count; } return true; } void set_namespace( const std::string& ns) override { io_ctx.set_namespace(ns); } public: RadosBencher(CephContext *cct_, librados::Rados& _r, librados::IoCtx& _i) : ObjBencher(cct_), completions(NULL), rados(_r), io_ctx(_i), iterator_valid(false), write_destination(OP_WRITE_DEST_OBJ) {} ~RadosBencher() override { } void set_write_destination(OpWriteDest dest) { write_destination = dest; } }; static int do_lock_cmd(std::vector &nargs, const std::map < std::string, std::string > &opts, IoCtx *ioctx, Formatter *formatter) { if (nargs.size() < 3) usage_exit(); string cmd(nargs[1]); string oid(nargs[2]); string lock_tag; string lock_cookie; string lock_description; int lock_duration = 0; ClsLockType lock_type = LOCK_EXCLUSIVE; map::const_iterator i; i = opts.find("lock-tag"); if (i != opts.end()) { lock_tag = i->second; } i = opts.find("lock-cookie"); if (i != opts.end()) { lock_cookie = i->second; } i = opts.find("lock-description"); if (i != opts.end()) { lock_description = i->second; } i = opts.find("lock-duration"); if (i != opts.end()) { if (rados_sistrtoll(i, &lock_duration)) { return -EINVAL; } } i = opts.find("lock-type"); if (i != opts.end()) { const string& type_str = i->second; if (type_str.compare("exclusive") == 0) { lock_type = LOCK_EXCLUSIVE; } else if (type_str.compare("shared") == 0) { lock_type = LOCK_SHARED; } else { cerr << "unknown lock type was specified, aborting" << std::endl; return -EINVAL; } } if (cmd.compare("list") == 0) { list locks; int ret = rados::cls::lock::list_locks(ioctx, oid, &locks); if (ret < 0) { cerr << "ERROR: rados_list_locks(): " << cpp_strerror(ret) << std::endl; return ret; } formatter->open_object_section("object"); formatter->dump_string("objname", oid); formatter->open_array_section("locks"); list::iterator iter; for (iter = locks.begin(); iter != locks.end(); ++iter) { formatter->open_object_section("lock"); formatter->dump_string("name", *iter); formatter->close_section(); } formatter->close_section(); formatter->close_section(); formatter->flush(cout); return 0; } if (nargs.size() < 4) usage_exit(); string lock_name(nargs[3]); if (cmd.compare("info") == 0) { map lockers; ClsLockType type = LOCK_NONE; string tag; int ret = rados::cls::lock::get_lock_info(ioctx, oid, lock_name, &lockers, &type, &tag); if (ret < 0) { cerr << "ERROR: rados_lock_get_lock_info(): " << cpp_strerror(ret) << std::endl; return ret; } formatter->open_object_section("lock"); formatter->dump_string("name", lock_name); formatter->dump_string("type", cls_lock_type_str(type)); formatter->dump_string("tag", tag); formatter->open_array_section("lockers"); map::iterator iter; for (iter = lockers.begin(); iter != lockers.end(); ++iter) { const rados::cls::lock::locker_id_t& id = iter->first; const rados::cls::lock::locker_info_t& info = iter->second; formatter->open_object_section("locker"); formatter->dump_stream("name") << id.locker; formatter->dump_string("cookie", id.cookie); formatter->dump_string("description", info.description); formatter->dump_stream("expiration") << info.expiration; formatter->dump_stream("addr") << info.addr; formatter->close_section(); } formatter->close_section(); formatter->close_section(); formatter->flush(cout); return ret; } else if (cmd.compare("get") == 0) { rados::cls::lock::Lock l(lock_name); l.set_cookie(lock_cookie); l.set_tag(lock_tag); l.set_duration(utime_t(lock_duration, 0)); l.set_description(lock_description); int ret; switch (lock_type) { case LOCK_SHARED: ret = l.lock_shared(ioctx, oid); break; default: ret = l.lock_exclusive(ioctx, oid); } if (ret < 0) { cerr << "ERROR: failed locking: " << cpp_strerror(ret) << std::endl; return ret; } return ret; } if (nargs.size() < 5) usage_exit(); if (cmd.compare("break") == 0) { string locker(nargs[4]); rados::cls::lock::Lock l(lock_name); l.set_cookie(lock_cookie); l.set_tag(lock_tag); entity_name_t name; if (!name.parse(locker)) { cerr << "ERROR: failed to parse locker name (" << locker << ")" << std::endl; return -EINVAL; } int ret = l.break_lock(ioctx, oid, name); if (ret < 0) { cerr << "ERROR: failed breaking lock: " << cpp_strerror(ret) << std::endl; return ret; } } else { usage_exit(); } return 0; } static int do_cache_flush(IoCtx& io_ctx, string oid) { ObjectReadOperation op; op.cache_flush(); librados::AioCompletion *completion = librados::Rados::aio_create_completion(); io_ctx.aio_operate(oid.c_str(), completion, &op, librados::OPERATION_IGNORE_CACHE | librados::OPERATION_IGNORE_OVERLAY, NULL); completion->wait_for_safe(); int r = completion->get_return_value(); completion->release(); return r; } static int do_cache_try_flush(IoCtx& io_ctx, string oid) { ObjectReadOperation op; op.cache_try_flush(); librados::AioCompletion *completion = librados::Rados::aio_create_completion(); io_ctx.aio_operate(oid.c_str(), completion, &op, librados::OPERATION_IGNORE_CACHE | librados::OPERATION_IGNORE_OVERLAY | librados::OPERATION_SKIPRWLOCKS, NULL); completion->wait_for_safe(); int r = completion->get_return_value(); completion->release(); return r; } static int do_cache_evict(IoCtx& io_ctx, string oid) { ObjectReadOperation op; op.cache_evict(); librados::AioCompletion *completion = librados::Rados::aio_create_completion(); io_ctx.aio_operate(oid.c_str(), completion, &op, librados::OPERATION_IGNORE_CACHE | librados::OPERATION_IGNORE_OVERLAY | librados::OPERATION_SKIPRWLOCKS, NULL); completion->wait_for_safe(); int r = completion->get_return_value(); completion->release(); return r; } static int do_cache_flush_evict_all(IoCtx& io_ctx, bool blocking) { int errors = 0; io_ctx.set_namespace(all_nspaces); try { librados::NObjectIterator i = io_ctx.nobjects_begin(); librados::NObjectIterator i_end = io_ctx.nobjects_end(); for (; i != i_end; ++i) { int r; cout << i->get_nspace() << "\t" << i->get_oid() << "\t" << i->get_locator() << std::endl; if (i->get_locator().size()) { io_ctx.locator_set_key(i->get_locator()); } else { io_ctx.locator_set_key(string()); } io_ctx.set_namespace(i->get_nspace()); snap_set_t ls; io_ctx.snap_set_read(LIBRADOS_SNAP_DIR); r = io_ctx.list_snaps(i->get_oid(), &ls); if (r < 0) { cerr << "error listing snap shots " << i->get_nspace() << "/" << i->get_oid() << ": " << cpp_strerror(r) << std::endl; ++errors; continue; } std::vector::iterator ci = ls.clones.begin(); // no snapshots if (ci == ls.clones.end()) { io_ctx.snap_set_read(CEPH_NOSNAP); if (blocking) r = do_cache_flush(io_ctx, i->get_oid()); else r = do_cache_try_flush(io_ctx, i->get_oid()); if (r < 0) { cerr << "failed to flush " << i->get_nspace() << "/" << i->get_oid() << ": " << cpp_strerror(r) << std::endl; ++errors; continue; } r = do_cache_evict(io_ctx, i->get_oid()); if (r < 0) { cerr << "failed to evict " << i->get_nspace() << "/" << i->get_oid() << ": " << cpp_strerror(r) << std::endl; ++errors; continue; } } else { // has snapshots for (std::vector::iterator ci = ls.clones.begin(); ci != ls.clones.end(); ++ci) { io_ctx.snap_set_read(ci->cloneid); if (blocking) r = do_cache_flush(io_ctx, i->get_oid()); else r = do_cache_try_flush(io_ctx, i->get_oid()); if (r < 0) { cerr << "failed to flush " << i->get_nspace() << "/" << i->get_oid() << ": " << cpp_strerror(r) << std::endl; ++errors; break; } r = do_cache_evict(io_ctx, i->get_oid()); if (r < 0) { cerr << "failed to evict " << i->get_nspace() << "/" << i->get_oid() << ": " << cpp_strerror(r) << std::endl; ++errors; break; } } } } } catch (const std::runtime_error& e) { cerr << e.what() << std::endl; return -1; } return errors ? -1 : 0; } static int do_get_inconsistent_pg_cmd(const std::vector &nargs, Rados& rados, Formatter& formatter) { if (nargs.size() < 2) { usage_exit(); } int64_t pool_id = rados.pool_lookup(nargs[1]); if (pool_id < 0) { cerr << "pool \"" << nargs[1] << "\" not found" << std::endl; return (int)pool_id; } std::vector pgs; int ret = rados.get_inconsistent_pgs(pool_id, &pgs); if (ret) { return ret; } formatter.open_array_section("pgs"); for (auto& pg : pgs) { formatter.dump_stream("pg") << pg; } formatter.close_section(); formatter.flush(cout); cout << std::endl; return 0; } static void dump_errors(const err_t &err, Formatter &f, const char *name) { f.open_array_section(name); if (err.has_shard_missing()) f.dump_string("error", "missing"); if (err.has_stat_error()) f.dump_string("error", "stat_error"); if (err.has_read_error()) f.dump_string("error", "read_error"); if (err.has_data_digest_mismatch_oi()) f.dump_string("error", "data_digest_mismatch_oi"); if (err.has_omap_digest_mismatch_oi()) f.dump_string("error", "omap_digest_mismatch_oi"); if (err.has_size_mismatch_oi()) f.dump_string("error", "size_mismatch_oi"); if (err.has_ec_hash_error()) f.dump_string("error", "ec_hash_error"); if (err.has_ec_size_error()) f.dump_string("error", "ec_size_error"); if (err.has_oi_attr_missing()) f.dump_string("error", "oi_attr_missing"); if (err.has_oi_attr_corrupted()) f.dump_string("error", "oi_attr_corrupted"); if (err.has_obj_size_oi_mismatch()) f.dump_string("error", "obj_size_oi_mismatch"); if (err.has_ss_attr_missing()) f.dump_string("error", "ss_attr_missing"); if (err.has_ss_attr_corrupted()) f.dump_string("error", "ss_attr_corrupted"); f.close_section(); } static void dump_shard(const shard_info_t& shard, const inconsistent_obj_t& inc, Formatter &f) { dump_errors(shard, f, "errors"); if (shard.has_shard_missing()) return; if (!shard.has_stat_error()) f.dump_unsigned("size", shard.size); if (shard.omap_digest_present) { f.dump_format("omap_digest", "0x%08x", shard.omap_digest); } if (shard.data_digest_present) { f.dump_format("data_digest", "0x%08x", shard.data_digest); } if (!shard.has_oi_attr_missing() && !shard.has_oi_attr_corrupted() && inc.has_object_info_inconsistency()) { object_info_t oi; bufferlist bl; map::iterator k = (const_cast(shard)).attrs.find(OI_ATTR); assert(k != shard.attrs.end()); // Can't be missing bufferlist::iterator bliter = k->second.begin(); ::decode(oi, bliter); // Can't be corrupted f.dump_stream("object_info") << oi; } if (inc.has_attr_name_mismatch() || inc.has_attr_value_mismatch() || inc.union_shards.has_oi_attr_missing() || inc.union_shards.has_oi_attr_corrupted() || inc.union_shards.has_ss_attr_missing() || inc.union_shards.has_ss_attr_corrupted()) { f.open_array_section("attrs"); for (auto kv : shard.attrs) { f.open_object_section("attr"); f.dump_string("name", kv.first); bool b64; f.dump_string("value", cleanbin(kv.second, b64)); f.dump_bool("Base64", b64); f.close_section(); } f.close_section(); } } static void dump_obj_errors(const obj_err_t &err, Formatter &f) { f.open_array_section("errors"); if (err.has_object_info_inconsistency()) f.dump_string("error", "object_info_inconsistency"); if (err.has_data_digest_mismatch()) f.dump_string("error", "data_digest_mismatch"); if (err.has_omap_digest_mismatch()) f.dump_string("error", "omap_digest_mismatch"); if (err.has_size_mismatch()) f.dump_string("error", "size_mismatch"); if (err.has_attr_value_mismatch()) f.dump_string("error", "attr_value_mismatch"); if (err.has_attr_name_mismatch()) f.dump_string("error", "attr_name_mismatch"); f.close_section(); } static void dump_object_id(const object_id_t& object, Formatter &f) { f.dump_string("name", object.name); f.dump_string("nspace", object.nspace); f.dump_string("locator", object.locator); switch (object.snap) { case CEPH_NOSNAP: f.dump_string("snap", "head"); break; case CEPH_SNAPDIR: f.dump_string("snap", "snapdir"); break; default: f.dump_unsigned("snap", object.snap); break; } } static void dump_inconsistent(const inconsistent_obj_t& inc, Formatter &f) { f.open_object_section("object"); dump_object_id(inc.object, f); f.dump_unsigned("version", inc.version); f.close_section(); dump_obj_errors(inc, f); dump_errors(inc.union_shards, f, "union_shard_errors"); for (const auto& shard_info : inc.shards) { shard_info_t shard = const_cast(shard_info.second); if (shard.selected_oi) { object_info_t oi; bufferlist bl; auto k = shard.attrs.find(OI_ATTR); assert(k != shard.attrs.end()); // Can't be missing bufferlist::iterator bliter = k->second.begin(); ::decode(oi, bliter); // Can't be corrupted f.dump_stream("selected_object_info") << oi; break; } } f.open_array_section("shards"); for (const auto& shard_info : inc.shards) { f.open_object_section("shard"); auto& osd_shard = shard_info.first; f.dump_int("osd", osd_shard.osd); f.dump_bool("primary", shard_info.second.primary); auto shard = osd_shard.shard; if (shard != shard_id_t::NO_SHARD) f.dump_unsigned("shard", shard); dump_shard(shard_info.second, inc, f); f.close_section(); } f.close_section(); } static void dump_inconsistent(const inconsistent_snapset_t& inc, Formatter &f) { dump_object_id(inc.object, f); f.open_array_section("errors"); if (inc.ss_attr_missing()) f.dump_string("error", "ss_attr_missing"); if (inc.ss_attr_corrupted()) f.dump_string("error", "ss_attr_corrupted"); if (inc.oi_attr_missing()) f.dump_string("error", "oi_attr_missing"); if (inc.oi_attr_corrupted()) f.dump_string("error", "oi_attr_corrupted"); if (inc.snapset_mismatch()) f.dump_string("error", "snapset_mismatch"); if (inc.head_mismatch()) f.dump_string("error", "head_mismatch"); if (inc.headless()) f.dump_string("error", "headless"); if (inc.size_mismatch()) f.dump_string("error", "size_mismatch"); if (inc.extra_clones()) f.dump_string("error", "extra_clones"); if (inc.clone_missing()) f.dump_string("error", "clone_missing"); f.close_section(); if (inc.extra_clones()) { f.open_array_section("extra clones"); for (auto snap : inc.clones) { f.dump_unsigned("snap", snap); } f.close_section(); } if (inc.clone_missing()) { f.open_array_section("missing"); for (auto snap : inc.missing) { f.dump_unsigned("snap", snap); } f.close_section(); } } // dispatch the call by type static int do_get_inconsistent(Rados& rados, const PlacementGroup& pg, const librados::object_id_t &start, unsigned max_return, AioCompletion *c, std::vector* objs, uint32_t* interval) { return rados.get_inconsistent_objects(pg, start, max_return, c, objs, interval); } static int do_get_inconsistent(Rados& rados, const PlacementGroup& pg, const librados::object_id_t &start, unsigned max_return, AioCompletion *c, std::vector* snapsets, uint32_t* interval) { return rados.get_inconsistent_snapsets(pg, start, max_return, c, snapsets, interval); } template static int do_get_inconsistent_cmd(const std::vector &nargs, Rados& rados, Formatter& formatter) { if (nargs.size() < 2) { usage_exit(); } PlacementGroup pg; int ret = 0; ret = pg.parse(nargs[1]); if (!ret) { cerr << "bad pg: " << nargs[1] << std::endl; return ret; } uint32_t interval = 0, first_interval = 0; const unsigned max_item_num = 32; bool opened = false; for (librados::object_id_t start;;) { std::vector items; auto completion = librados::Rados::aio_create_completion(); ret = do_get_inconsistent(rados, pg, start, max_item_num, completion, &items, &interval); completion->wait_for_safe(); ret = completion->get_return_value(); completion->release(); if (ret < 0) { if (ret == -EAGAIN) cerr << "interval#" << interval << " expired." << std::endl; else if (ret == -ENOENT) cerr << "No scrub information available for pg " << pg << std::endl; else cerr << "Unknown error " << cpp_strerror(ret) << std::endl; break; } // It must be the same interval every time. EAGAIN would // occur if interval changes. assert(start.name.empty() || first_interval == interval); if (start.name.empty()) { first_interval = interval; formatter.open_object_section("info"); formatter.dump_int("epoch", interval); formatter.open_array_section("inconsistents"); opened = true; } for (auto& inc : items) { formatter.open_object_section("inconsistent"); dump_inconsistent(inc, formatter); formatter.close_section(); } if (items.size() < max_item_num) { formatter.close_section(); break; } if (!items.empty()) { start = items.back().object; } items.clear(); } if (opened) { formatter.close_section(); formatter.flush(cout); } return ret; } /********************************************** **********************************************/ static int rados_tool_common(const std::map < std::string, std::string > &opts, std::vector &nargs) { int ret; bool create_pool = false; const char *pool_name = NULL; const char *target_pool_name = NULL; string oloc, target_oloc, nspace, target_nspace; int concurrent_ios = 16; unsigned op_size = default_op_size; unsigned object_size = 0; unsigned max_objects = 0; uint64_t obj_offset = 0; bool block_size_specified = false; int bench_write_dest = 0; bool cleanup = true; bool hints = true; // for rados bench bool no_verify = false; bool use_striper = false; bool with_clones = false; const char *snapname = NULL; snap_t snapid = CEPH_NOSNAP; std::map::const_iterator i; uint64_t min_obj_len = 0; uint64_t max_obj_len = 0; uint64_t min_op_len = 0; uint64_t max_op_len = 0; uint64_t max_ops = 0; uint64_t max_backlog = 0; uint64_t target_throughput = 0; int64_t read_percent = -1; uint64_t num_objs = 0; int run_length = 0; bool show_time = false; bool wildcard = false; std::string run_name; std::string prefix; bool forcefull = false; Formatter *formatter = NULL; bool pretty_format = false; const char *output = NULL; bool omap_key_valid = false; std::string omap_key; std::string omap_key_pretty; Rados rados; IoCtx io_ctx; RadosStriper striper; i = opts.find("create"); if (i != opts.end()) { create_pool = true; } i = opts.find("pool"); if (i != opts.end()) { pool_name = i->second.c_str(); } i = opts.find("target_pool"); if (i != opts.end()) { target_pool_name = i->second.c_str(); } i = opts.find("object_locator"); if (i != opts.end()) { oloc = i->second; } i = opts.find("target_locator"); if (i != opts.end()) { target_oloc = i->second; } i = opts.find("target_nspace"); if (i != opts.end()) { target_nspace = i->second; } i = opts.find("concurrent-ios"); if (i != opts.end()) { if (rados_sistrtoll(i, &concurrent_ios)) { return -EINVAL; } } i = opts.find("run-name"); if (i != opts.end()) { run_name = i->second; } i = opts.find("force-full"); if (i != opts.end()) { forcefull = true; } i = opts.find("prefix"); if (i != opts.end()) { prefix = i->second; } i = opts.find("block-size"); if (i != opts.end()) { if (rados_sistrtoll(i, &op_size)) { return -EINVAL; } block_size_specified = true; } i = opts.find("object-size"); if (i != opts.end()) { if (rados_sistrtoll(i, &object_size)) { return -EINVAL; } block_size_specified = true; } i = opts.find("max-objects"); if (i != opts.end()) { if (rados_sistrtoll(i, &max_objects)) { return -EINVAL; } } i = opts.find("offset"); if (i != opts.end()) { if (rados_sistrtoll(i, &obj_offset)) { return -EINVAL; } } i = opts.find("snap"); if (i != opts.end()) { snapname = i->second.c_str(); } i = opts.find("snapid"); if (i != opts.end()) { if (rados_sistrtoll(i, &snapid)) { return -EINVAL; } } i = opts.find("min-object-size"); if (i != opts.end()) { if (rados_sistrtoll(i, &min_obj_len)) { return -EINVAL; } } i = opts.find("max-object-size"); if (i != opts.end()) { if (rados_sistrtoll(i, &max_obj_len)) { return -EINVAL; } } i = opts.find("min-op-len"); if (i != opts.end()) { if (rados_sistrtoll(i, &min_op_len)) { return -EINVAL; } } i = opts.find("max-op-len"); if (i != opts.end()) { if (rados_sistrtoll(i, &max_op_len)) { return -EINVAL; } } i = opts.find("max-ops"); if (i != opts.end()) { if (rados_sistrtoll(i, &max_ops)) { return -EINVAL; } } i = opts.find("max-backlog"); if (i != opts.end()) { if (rados_sistrtoll(i, &max_backlog)) { return -EINVAL; } } i = opts.find("target-throughput"); if (i != opts.end()) { if (rados_sistrtoll(i, &target_throughput)) { return -EINVAL; } } i = opts.find("read-percent"); if (i != opts.end()) { if (rados_sistrtoll(i, &read_percent)) { return -EINVAL; } } i = opts.find("num-objects"); if (i != opts.end()) { if (rados_sistrtoll(i, &num_objs)) { return -EINVAL; } } i = opts.find("run-length"); if (i != opts.end()) { if (rados_sistrtoll(i, &run_length)) { return -EINVAL; } } i = opts.find("show-time"); if (i != opts.end()) { show_time = true; } i = opts.find("no-cleanup"); if (i != opts.end()) { cleanup = false; } i = opts.find("no-hints"); if (i != opts.end()) { hints = false; } i = opts.find("pretty-format"); if (i != opts.end()) { pretty_format = true; } i = opts.find("format"); if (i != opts.end()) { const char *format = i->second.c_str(); formatter = Formatter::create(format); if (!formatter) { cerr << "unrecognized format: " << format << std::endl; return -EINVAL; } } i = opts.find("namespace"); if (i != opts.end()) { nspace = i->second; } i = opts.find("no-verify"); if (i != opts.end()) { no_verify = true; } i = opts.find("output"); if (i != opts.end()) { output = i->second.c_str(); } i = opts.find("write-dest-obj"); if (i != opts.end()) { bench_write_dest |= static_cast(OP_WRITE_DEST_OBJ); } i = opts.find("write-dest-omap"); if (i != opts.end()) { bench_write_dest |= static_cast(OP_WRITE_DEST_OMAP); } i = opts.find("write-dest-xattr"); if (i != opts.end()) { bench_write_dest |= static_cast(OP_WRITE_DEST_XATTR); } i = opts.find("with-clones"); if (i != opts.end()) { with_clones = true; } i = opts.find("omap-key-file"); if (i != opts.end()) { string err; bufferlist indata; ret = indata.read_file(i->second.c_str(), &err); if (ret < 0) { cerr << err << std::endl; return 1; } omap_key_valid = true; omap_key = std::string(indata.c_str(), indata.length()); omap_key_pretty = omap_key; if (std::find_if_not(omap_key.begin(), omap_key.end(), (int (*)(int))isprint) != omap_key.end()) { omap_key_pretty = "(binary key)"; } } // open rados ret = rados.init_with_context(g_ceph_context); if (ret < 0) { cerr << "couldn't initialize rados: " << cpp_strerror(ret) << std::endl; goto out; } ret = rados.connect(); if (ret) { cerr << "couldn't connect to cluster: " << cpp_strerror(ret) << std::endl; ret = -1; goto out; } if (create_pool && !pool_name) { cerr << "--create-pool requested but pool_name was not specified!" << std::endl; usage_exit(); } if (create_pool) { ret = rados.pool_create(pool_name, 0, 0); if (ret < 0) { cerr << "error creating pool " << pool_name << ": " << cpp_strerror(ret) << std::endl; goto out; } } // open io context. if (pool_name) { ret = rados.ioctx_create(pool_name, io_ctx); if (ret < 0) { cerr << "error opening pool " << pool_name << ": " << cpp_strerror(ret) << std::endl; goto out; } // align op_size { bool requires; ret = io_ctx.pool_requires_alignment2(&requires); if (ret < 0) { cerr << "error checking pool alignment requirement" << cpp_strerror(ret) << std::endl; goto out; } if (requires) { uint64_t align = 0; ret = io_ctx.pool_required_alignment2(&align); if (ret < 0) { cerr << "error getting pool alignment" << cpp_strerror(ret) << std::endl; goto out; } const uint64_t prev_op_size = op_size; op_size = uint64_t((op_size + align - 1) / align) * align; // Warn: if user specified and it was rounded if (prev_op_size != default_op_size && prev_op_size != op_size) cerr << "INFO: op_size has been rounded to " << op_size << std::endl; } } // create striper interface if (opts.find("striper") != opts.end()) { ret = RadosStriper::striper_create(io_ctx, &striper); if (0 != ret) { cerr << "error opening pool " << pool_name << " with striper interface: " << cpp_strerror(ret) << std::endl; goto out; } use_striper = true; } } // snapname? if (snapname) { if (!pool_name) { cerr << "pool name must be specified with --snap" << std::endl; ret = -1; goto out; } ret = io_ctx.snap_lookup(snapname, &snapid); if (ret < 0) { cerr << "error looking up snap '" << snapname << "': " << cpp_strerror(ret) << std::endl; goto out; } } if (oloc.size()) { if (!pool_name) { cerr << "pool name must be specified with --object_locator" << std::endl; ret = -1; goto out; } io_ctx.locator_set_key(oloc); } // Use namespace from command line if specified if (opts.find("namespace") != opts.end()) { if (!pool_name) { cerr << "pool name must be specified with --namespace" << std::endl; ret = -1; goto out; } io_ctx.set_namespace(nspace); // Use wildcard if --all specified and --default NOT specified } else if (opts.find("all") != opts.end() && opts.find("default") == opts.end()) { // Only the ls should ever set namespace to special value wildcard = true; } if (snapid != CEPH_NOSNAP) { if (!pool_name) { cerr << "pool name must be specified with --snapid" << std::endl; ret = -1; goto out; } string name; ret = io_ctx.snap_get_name(snapid, &name); if (ret < 0) { cerr << "snapid " << snapid << " doesn't exist in pool " << io_ctx.get_pool_name() << std::endl; goto out; } io_ctx.snap_set_read(snapid); cout << "selected snap " << snapid << " '" << name << "'" << std::endl; } assert(!nargs.empty()); // list pools? if (strcmp(nargs[0], "lspools") == 0) { list vec; ret = rados.pool_list(vec); if (ret < 0) { cerr << "error listing pools: " << cpp_strerror(ret) << std::endl; goto out; } for (list::iterator i = vec.begin(); i != vec.end(); ++i) cout << *i << std::endl; } else if (strcmp(nargs[0], "df") == 0) { // pools list vec; if (!pool_name) { ret = rados.pool_list(vec); if (ret < 0) { cerr << "error listing pools: " << cpp_strerror(ret) << std::endl; goto out; } } else { vec.push_back(pool_name); } map stats; ret = rados.get_pool_stats(vec, stats); if (ret < 0) { cerr << "error fetching pool stats: " << cpp_strerror(ret) << std::endl; goto out; } TextTable tab; if (!formatter) { tab.define_column("POOL_NAME", TextTable::LEFT, TextTable::LEFT); tab.define_column("USED", TextTable::LEFT, TextTable::RIGHT); tab.define_column("OBJECTS", TextTable::LEFT, TextTable::RIGHT); tab.define_column("CLONES", TextTable::LEFT, TextTable::RIGHT); tab.define_column("COPIES", TextTable::LEFT, TextTable::RIGHT); tab.define_column("MISSING_ON_PRIMARY", TextTable::LEFT, TextTable::RIGHT); tab.define_column("UNFOUND", TextTable::LEFT, TextTable::RIGHT); tab.define_column("DEGRADED", TextTable::LEFT, TextTable::RIGHT); tab.define_column("RD_OPS", TextTable::LEFT, TextTable::RIGHT); tab.define_column("RD", TextTable::LEFT, TextTable::RIGHT); tab.define_column("WR_OPS", TextTable::LEFT, TextTable::RIGHT); tab.define_column("WR", TextTable::LEFT, TextTable::RIGHT); } else { formatter->open_object_section("stats"); formatter->open_array_section("pools"); } for (map::iterator i = stats.begin(); i != stats.end(); ++i) { const char *pool_name = i->first.c_str(); librados::pool_stat_t& s = i->second; if (!formatter) { tab << pool_name << si_t(s.num_bytes) << s.num_objects << s.num_object_clones << s.num_object_copies << s.num_objects_missing_on_primary << s.num_objects_unfound << s.num_objects_degraded << s.num_rd << si_t(s.num_rd_kb << 10) << s.num_wr << si_t(s.num_wr_kb << 10) << TextTable::endrow; } else { formatter->open_object_section("pool"); int64_t pool_id = rados.pool_lookup(pool_name); formatter->dump_string("name", pool_name); if (pool_id >= 0) formatter->dump_int("id", pool_id); else cerr << "ERROR: lookup_pg_pool_name for name=" << pool_name << " returned " << pool_id << std::endl; formatter->dump_int("size_bytes",s.num_bytes); formatter->dump_int("size_kb", s.num_kb); formatter->dump_int("num_objects", s.num_objects); formatter->dump_int("num_object_clones", s.num_object_clones); formatter->dump_int("num_object_copies", s.num_object_copies); formatter->dump_int("num_objects_missing_on_primary", s.num_objects_missing_on_primary); formatter->dump_int("num_objects_unfound", s.num_objects_unfound); formatter->dump_int("num_objects_degraded", s.num_objects_degraded); formatter->dump_int("read_ops", s.num_rd); formatter->dump_int("read_bytes", s.num_rd_kb * 1024ull); formatter->dump_int("write_ops", s.num_wr); formatter->dump_int("write_bytes", s.num_wr_kb * 1024ull); formatter->close_section(); } } if (!formatter) { cout << tab; } // total cluster_stat_t tstats; ret = rados.cluster_stat(tstats); if (ret < 0) { cerr << "error getting total cluster usage: " << cpp_strerror(ret) << std::endl; goto out; } if (!formatter) { cout << std::endl; cout << "total_objects " << tstats.num_objects << std::endl; cout << "total_used " << si_t(tstats.kb_used << 10) << std::endl; cout << "total_avail " << si_t(tstats.kb_avail << 10) << std::endl; cout << "total_space " << si_t(tstats.kb << 10) << std::endl; } else { formatter->close_section(); formatter->dump_int("total_objects", tstats.num_objects); formatter->dump_int("total_used", tstats.kb_used); formatter->dump_int("total_avail", tstats.kb_avail); formatter->dump_int("total_space", tstats.kb); formatter->close_section(); formatter->flush(cout); } } else if (strcmp(nargs[0], "ls") == 0) { if (!pool_name) { cerr << "pool name was not specified" << std::endl; ret = -1; goto out; } if (wildcard) io_ctx.set_namespace(all_nspaces); bool use_stdout = (nargs.size() < 2) || (strcmp(nargs[1], "-") == 0); ostream *outstream; if(use_stdout) outstream = &cout; else outstream = new ofstream(nargs[1]); { if (formatter) formatter->open_array_section("objects"); try { librados::NObjectIterator i = io_ctx.nobjects_begin(); librados::NObjectIterator i_end = io_ctx.nobjects_end(); for (; i != i_end; ++i) { if (use_striper) { // in case of --striper option, we only list striped // objects, so we only display the first object of // each, without its suffix '.000...000' size_t l = i->get_oid().length(); if (l <= 17 || (0 != i->get_oid().compare(l-17, 17,".0000000000000000"))) continue; } if (!formatter) { // Only include namespace in output when wildcard specified if (wildcard) *outstream << i->get_nspace() << "\t"; if (use_striper) { *outstream << i->get_oid().substr(0, i->get_oid().length()-17); } else { *outstream << i->get_oid(); } if (i->get_locator().size()) *outstream << "\t" << i->get_locator(); *outstream << std::endl; } else { formatter->open_object_section("object"); formatter->dump_string("namespace", i->get_nspace()); if (use_striper) { formatter->dump_string("name", i->get_oid().substr(0, i->get_oid().length()-17)); } else { formatter->dump_string("name", i->get_oid()); } if (i->get_locator().size()) formatter->dump_string("locator", i->get_locator()); formatter->close_section(); //object } } } catch (const std::runtime_error& e) { cerr << e.what() << std::endl; ret = -1; goto out; } } if (formatter) { formatter->close_section(); //objects formatter->flush(*outstream); if (pretty_format) *outstream << std::endl; formatter->flush(*outstream); } if (!stdout) delete outstream; } else if (strcmp(nargs[0], "chown") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); char* endptr = NULL; uint64_t new_auid = strtol(nargs[1], &endptr, 10); if (*endptr) { cerr << "Invalid value for new-auid: '" << nargs[1] << "'" << std::endl; ret = -1; goto out; } ret = io_ctx.set_auid(new_auid); if (ret < 0) { cerr << "error changing auid on pool " << io_ctx.get_pool_name() << ':' << cpp_strerror(ret) << std::endl; } else cerr << "changed auid on pool " << io_ctx.get_pool_name() << " to " << new_auid << std::endl; } else if (strcmp(nargs[0], "mapext") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); std::map m; ret = io_ctx.mapext(oid, 0, -1, m); if (ret < 0) { cerr << "mapext error on " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } std::map::iterator iter; for (iter = m.begin(); iter != m.end(); ++iter) { cout << hex << iter->first << "\t" << iter->second << dec << std::endl; } } else if (strcmp(nargs[0], "stat") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); uint64_t size; time_t mtime; if (use_striper) { ret = striper.stat(oid, &size, &mtime); } else { ret = io_ctx.stat(oid, &size, &mtime); } if (ret < 0) { cerr << " error stat-ing " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } else { utime_t t(mtime, 0); cout << pool_name << "/" << oid << " mtime " << t << ", size " << size << std::endl; } } else if (strcmp(nargs[0], "get") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); ret = do_get(io_ctx, striper, nargs[1], nargs[2], op_size, use_striper); if (ret < 0) { cerr << "error getting " << pool_name << "/" << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "put") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); ret = do_put(io_ctx, striper, nargs[1], nargs[2], op_size, obj_offset, use_striper); if (ret < 0) { cerr << "error putting " << pool_name << "/" << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "append") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); ret = do_append(io_ctx, striper, nargs[1], nargs[2], op_size, use_striper); if (ret < 0) { cerr << "error appending " << pool_name << "/" << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "truncate") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); string oid(nargs[1]); char* endptr = NULL; long size = strtoll(nargs[2], &endptr, 10); if (*endptr) { cerr << "Invalid value for size: '" << nargs[2] << "'" << std::endl; ret = -EINVAL; goto out; } if (size < 0) { cerr << "error, cannot truncate to negative value" << std::endl; usage_exit(); } if (use_striper) { ret = striper.trunc(oid, size); } else { ret = io_ctx.trunc(oid, size); } if (ret < 0) { cerr << "error truncating oid " << oid << " to " << size << ": " << cpp_strerror(ret) << std::endl; } else { ret = 0; } } else if (strcmp(nargs[0], "setxattr") == 0) { if (!pool_name || nargs.size() < 3 || nargs.size() > 4) usage_exit(); string oid(nargs[1]); string attr_name(nargs[2]); bufferlist bl; if (nargs.size() == 4) { string attr_val(nargs[3]); bl.append(attr_val.c_str(), attr_val.length()); } else { do { ret = bl.read_fd(STDIN_FILENO, 1024); // from stdin if (ret < 0) goto out; } while (ret > 0); } if (use_striper) { ret = striper.setxattr(oid, attr_name.c_str(), bl); } else { ret = io_ctx.setxattr(oid, attr_name.c_str(), bl); } if (ret < 0) { cerr << "error setting xattr " << pool_name << "/" << oid << "/" << attr_name << ": " << cpp_strerror(ret) << std::endl; goto out; } else ret = 0; } else if (strcmp(nargs[0], "getxattr") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); string oid(nargs[1]); string attr_name(nargs[2]); bufferlist bl; if (use_striper) { ret = striper.getxattr(oid, attr_name.c_str(), bl); } else { ret = io_ctx.getxattr(oid, attr_name.c_str(), bl); } if (ret < 0) { cerr << "error getting xattr " << pool_name << "/" << oid << "/" << attr_name << ": " << cpp_strerror(ret) << std::endl; goto out; } else ret = 0; string s(bl.c_str(), bl.length()); cout << s; } else if (strcmp(nargs[0], "rmxattr") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); string oid(nargs[1]); string attr_name(nargs[2]); if (use_striper) { ret = striper.rmxattr(oid, attr_name.c_str()); } else { ret = io_ctx.rmxattr(oid, attr_name.c_str()); } if (ret < 0) { cerr << "error removing xattr " << pool_name << "/" << oid << "/" << attr_name << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "listxattr") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); map attrset; bufferlist bl; if (use_striper) { ret = striper.getxattrs(oid, attrset); } else { ret = io_ctx.getxattrs(oid, attrset); } if (ret < 0) { cerr << "error getting xattr set " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } for (map::iterator iter = attrset.begin(); iter != attrset.end(); ++iter) { cout << iter->first << std::endl; } } else if (strcmp(nargs[0], "getomapheader") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); string outfile; if (nargs.size() >= 3) { outfile = nargs[2]; } bufferlist header; ret = io_ctx.omap_get_header(oid, &header); if (ret < 0) { cerr << "error getting omap header " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } else { if (!outfile.empty()) { cerr << "Writing to " << outfile << std::endl; dump_data(outfile, header); } else { cout << "header (" << header.length() << " bytes) :\n"; header.hexdump(cout); cout << std::endl; } ret = 0; } } else if (strcmp(nargs[0], "setomapheader") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); string oid(nargs[1]); string val(nargs[2]); bufferlist bl; bl.append(val); ret = io_ctx.omap_set_header(oid, bl); if (ret < 0) { cerr << "error setting omap value " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } else { ret = 0; } } else if (strcmp(nargs[0], "setomapval") == 0) { uint32_t min_args = (omap_key_valid ? 2 : 3); if (!pool_name || nargs.size() < min_args || nargs.size() > min_args + 1) { usage_exit(); } string oid(nargs[1]); if (!omap_key_valid) { omap_key = nargs[2]; omap_key_pretty = omap_key; } bufferlist bl; if (nargs.size() > min_args) { string val(nargs[min_args]); bl.append(val); } else { do { ret = bl.read_fd(STDIN_FILENO, 1024); // from stdin if (ret < 0) { goto out; } } while (ret > 0); } map values; values[omap_key] = bl; ret = io_ctx.omap_set(oid, values); if (ret < 0) { cerr << "error setting omap value " << pool_name << "/" << oid << "/" << omap_key_pretty << ": " << cpp_strerror(ret) << std::endl; goto out; } else { ret = 0; } } else if (strcmp(nargs[0], "getomapval") == 0) { uint32_t min_args = (omap_key_valid ? 2 : 3); if (!pool_name || nargs.size() < min_args || nargs.size() > min_args + 1) { usage_exit(); } string oid(nargs[1]); if (!omap_key_valid) { omap_key = nargs[2]; omap_key_pretty = omap_key; } set keys; keys.insert(omap_key); std::string outfile; if (nargs.size() > min_args) { outfile = nargs[min_args]; } map values; ret = io_ctx.omap_get_vals_by_keys(oid, keys, &values); if (ret < 0) { cerr << "error getting omap value " << pool_name << "/" << oid << "/" << omap_key_pretty << ": " << cpp_strerror(ret) << std::endl; goto out; } else { ret = 0; } if (values.size() && values.begin()->first == omap_key) { if (!outfile.empty()) { cerr << "Writing to " << outfile << std::endl; dump_data(outfile, values.begin()->second); } else { cout << "value (" << values.begin()->second.length() << " bytes) :\n"; values.begin()->second.hexdump(cout); cout << std::endl; } ret = 0; } else { cout << "No such key: " << pool_name << "/" << oid << "/" << omap_key_pretty << std::endl; ret = -1; goto out; } } else if (strcmp(nargs[0], "rmomapkey") == 0) { uint32_t num_args = (omap_key_valid ? 2 : 3); if (!pool_name || nargs.size() != num_args) { usage_exit(); } string oid(nargs[1]); if (!omap_key_valid) { omap_key = nargs[2]; omap_key_pretty = omap_key; } set keys; keys.insert(omap_key); ret = io_ctx.omap_rm_keys(oid, keys); if (ret < 0) { cerr << "error removing omap key " << pool_name << "/" << oid << "/" << omap_key_pretty << ": " << cpp_strerror(ret) << std::endl; goto out; } else { ret = 0; } } else if (strcmp(nargs[0], "listomapvals") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); string last_read = ""; int MAX_READ = 512; do { map values; ret = io_ctx.omap_get_vals(oid, last_read, MAX_READ, &values); if (ret < 0) { cerr << "error getting omap keys " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; return 1; } ret = values.size(); for (map::const_iterator it = values.begin(); it != values.end(); ++it) { last_read = it->first; // dump key in hex if it contains nonprintable characters if (std::count_if(it->first.begin(), it->first.end(), (int (*)(int))isprint) < (int)it->first.length()) { cout << "key (" << it->first.length() << " bytes):\n"; bufferlist keybl; keybl.append(it->first); keybl.hexdump(cout); } else { cout << it->first; } cout << std::endl; cout << "value (" << it->second.length() << " bytes) :\n"; it->second.hexdump(cout); cout << std::endl; } } while (ret == MAX_READ); ret = 0; } else if (strcmp(nargs[0], "cp") == 0) { if (!pool_name) usage_exit(); if (nargs.size() < 2 || nargs.size() > 3) usage_exit(); const char *target = target_pool_name; if (!target) target = pool_name; const char *target_obj; if (nargs.size() < 3) { if (strcmp(target, pool_name) == 0) { cerr << "cannot copy object into itself" << std::endl; ret = -1; goto out; } target_obj = nargs[1]; } else { target_obj = nargs[2]; } // open io context. IoCtx target_ctx; ret = rados.ioctx_create(target, target_ctx); if (ret < 0) { cerr << "error opening target pool " << target << ": " << cpp_strerror(ret) << std::endl; goto out; } if (target_oloc.size()) { target_ctx.locator_set_key(target_oloc); } if (target_nspace.size()) { target_ctx.set_namespace(target_nspace); } ret = do_copy(io_ctx, nargs[1], target_ctx, target_obj); if (ret < 0) { cerr << "error copying " << pool_name << "/" << nargs[1] << " => " << target << "/" << target_obj << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "rm") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); vector::iterator iter = nargs.begin(); ++iter; for (; iter != nargs.end(); ++iter) { const string & oid = *iter; if (use_striper) { if (forcefull) { ret = striper.remove(oid, CEPH_OSD_FLAG_FULL_FORCE); } else { ret = striper.remove(oid); } } else { if (forcefull) { ret = io_ctx.remove(oid, CEPH_OSD_FLAG_FULL_FORCE); } else { ret = io_ctx.remove(oid); } } if (ret < 0) { string name = (nspace.size() ? nspace + "/" : "" ) + oid; cerr << "error removing " << pool_name << ">" << name << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else if (strcmp(nargs[0], "create") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); ret = io_ctx.create(oid, true); if (ret < 0) { cerr << "error creating " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "tmap") == 0) { if (nargs.size() < 3) usage_exit(); if (strcmp(nargs[1], "dump") == 0) { bufferlist outdata; string oid(nargs[2]); ret = io_ctx.read(oid, outdata, 0, 0); if (ret < 0) { cerr << "error reading " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } bufferlist::iterator p = outdata.begin(); bufferlist header; map kv; try { ::decode(header, p); ::decode(kv, p); } catch (buffer::error& e) { cerr << "error decoding tmap " << pool_name << "/" << oid << std::endl; ret = -EINVAL; goto out; } cout << "header (" << header.length() << " bytes):\n"; header.hexdump(cout); cout << "\n"; cout << kv.size() << " keys\n"; for (map::iterator q = kv.begin(); q != kv.end(); ++q) { cout << "key '" << q->first << "' (" << q->second.length() << " bytes):\n"; q->second.hexdump(cout); cout << "\n"; } } else if (strcmp(nargs[1], "set") == 0 || strcmp(nargs[1], "create") == 0) { if (nargs.size() < 5) usage_exit(); string oid(nargs[2]); string k(nargs[3]); string v(nargs[4]); bufferlist bl; char c = (strcmp(nargs[1], "set") == 0) ? CEPH_OSD_TMAP_SET : CEPH_OSD_TMAP_CREATE; ::encode(c, bl); ::encode(k, bl); ::encode(v, bl); ret = io_ctx.tmap_update(oid, bl); } } else if (strcmp(nargs[0], "tmap-to-omap") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); bufferlist bl; int r = io_ctx.tmap_get(oid, bl); if (r < 0) { ret = r; cerr << "error reading tmap " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } bufferlist hdr; map kv; bufferlist::iterator p = bl.begin(); try { ::decode(hdr, p); ::decode(kv, p); } catch (buffer::error& e) { cerr << "error decoding tmap " << pool_name << "/" << oid << std::endl; ret = -EINVAL; goto out; } if (!p.end()) { cerr << "error decoding tmap (stray trailing data) in " << pool_name << "/" << oid << std::endl; ret = -EINVAL; goto out; } librados::ObjectWriteOperation wr; wr.omap_set_header(hdr); wr.omap_set(kv); wr.truncate(0); // delete the old tmap data r = io_ctx.operate(oid, &wr); if (r < 0) { ret = r; cerr << "error writing tmap data as omap on " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } ret = 0; } else if (strcmp(nargs[0], "mkpool") == 0) { int auid = 0; __u8 crush_rule = 0; if (nargs.size() < 2) usage_exit(); if (nargs.size() > 2) { char* endptr = NULL; auid = strtol(nargs[2], &endptr, 10); if (*endptr) { cerr << "Invalid value for auid: '" << nargs[2] << "'" << std::endl; ret = -EINVAL; goto out; } cerr << "setting auid:" << auid << std::endl; if (nargs.size() > 3) { crush_rule = (__u8)strtol(nargs[3], &endptr, 10); if (*endptr) { cerr << "Invalid value for crush-rule: '" << nargs[3] << "'" << std::endl; ret = -EINVAL; goto out; } cerr << "using crush rule " << (int)crush_rule << std::endl; } } ret = rados.pool_create(nargs[1], auid, crush_rule); if (ret < 0) { cerr << "error creating pool " << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } cout << "successfully created pool " << nargs[1] << std::endl; } else if (strcmp(nargs[0], "cppool") == 0) { bool force = nargs.size() == 4 && !strcmp(nargs[3], "--yes-i-really-mean-it"); if (nargs.size() != 3 && !(nargs.size() == 4 && force)) usage_exit(); const char *src_pool = nargs[1]; const char *target_pool = nargs[2]; if (strcmp(src_pool, target_pool) == 0) { cerr << "cannot copy pool into itself" << std::endl; ret = -1; goto out; } cerr << "WARNING: pool copy does not preserve user_version, which some " << " apps may rely on." << std::endl; if (rados.get_pool_is_selfmanaged_snaps_mode(src_pool)) { cerr << "WARNING: pool " << src_pool << " has selfmanaged snaps, which are not preserved\n" << " by the cppool operation. This will break any snapshot user." << std::endl; if (!force) { cerr << " If you insist on making a broken copy, you can pass\n" << " --yes-i-really-mean-it to proceed anyway." << std::endl; exit(1); } } ret = do_copy_pool(rados, src_pool, target_pool); if (ret < 0) { cerr << "error copying pool " << src_pool << " => " << target_pool << ": " << cpp_strerror(ret) << std::endl; goto out; } cout << "successfully copied pool " << nargs[1] << std::endl; } else if (strcmp(nargs[0], "rmpool") == 0) { if (nargs.size() < 2) usage_exit(); if (nargs.size() < 4 || strcmp(nargs[1], nargs[2]) != 0 || strcmp(nargs[3], "--yes-i-really-really-mean-it") != 0) { cerr << "WARNING:\n" << " This will PERMANENTLY DESTROY an entire pool of objects with no way back.\n" << " To confirm, pass the pool to remove twice, followed by\n" << " --yes-i-really-really-mean-it" << std::endl; ret = -1; goto out; } ret = rados.pool_delete(nargs[1]); if (ret >= 0) { cout << "successfully deleted pool " << nargs[1] << std::endl; } else { //error cerr << "pool " << nargs[1] << " could not be removed" << std::endl; cerr << "Check your monitor configuration - `mon allow pool delete` is set to false by default," << " change it to true to allow deletion of pools" << std::endl; } } else if (strcmp(nargs[0], "purge") == 0) { if (nargs.size() < 2) usage_exit(); if (nargs.size() < 3 || strcmp(nargs[2], "--yes-i-really-really-mean-it") != 0) { cerr << "WARNING:\n" << " This will PERMANENTLY DESTROY all objects from a pool with no way back.\n" << " To confirm, follow pool with --yes-i-really-really-mean-it" << std::endl; ret = -1; goto out; } ret = rados.ioctx_create(nargs[1], io_ctx); if (ret < 0) { cerr << "error pool " << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } io_ctx.set_namespace(all_nspaces); io_ctx.set_osdmap_full_try(); RadosBencher bencher(g_ceph_context, rados, io_ctx); ret = bencher.clean_up_slow("", concurrent_ios); if (ret >= 0) { cout << "successfully purged pool " << nargs[1] << std::endl; } else { //error cerr << "pool " << nargs[1] << " could not be purged" << std::endl; cerr << "Check your monitor configuration - `mon allow pool delete` is set to false by default," << " change it to true to allow deletion of pools" << std::endl; } } else if (strcmp(nargs[0], "lssnap") == 0) { if (!pool_name || nargs.size() != 1) usage_exit(); vector snaps; io_ctx.snap_list(&snaps); for (vector::iterator i = snaps.begin(); i != snaps.end(); ++i) { string s; time_t t; if (io_ctx.snap_get_name(*i, &s) < 0) continue; if (io_ctx.snap_get_stamp(*i, &t) < 0) continue; struct tm bdt; localtime_r(&t, &bdt); cout << *i << "\t" << s << "\t"; std::ios_base::fmtflags original_flags = cout.flags(); cout.setf(std::ios::right); cout.fill('0'); cout << std::setw(4) << (bdt.tm_year+1900) << '.' << std::setw(2) << (bdt.tm_mon+1) << '.' << std::setw(2) << bdt.tm_mday << ' ' << std::setw(2) << bdt.tm_hour << ':' << std::setw(2) << bdt.tm_min << ':' << std::setw(2) << bdt.tm_sec << std::endl; cout.flags(original_flags); } cout << snaps.size() << " snaps" << std::endl; } else if (strcmp(nargs[0], "mksnap") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); ret = io_ctx.snap_create(nargs[1]); if (ret < 0) { cerr << "error creating pool " << pool_name << " snapshot " << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } cout << "created pool " << pool_name << " snap " << nargs[1] << std::endl; } else if (strcmp(nargs[0], "rmsnap") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); ret = io_ctx.snap_remove(nargs[1]); if (ret < 0) { cerr << "error removing pool " << pool_name << " snapshot " << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } cout << "removed pool " << pool_name << " snap " << nargs[1] << std::endl; } else if (strcmp(nargs[0], "rollback") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); ret = io_ctx.snap_rollback(nargs[1], nargs[2]); if (ret < 0) { cerr << "error rolling back pool " << pool_name << " to snapshot " << nargs[1] << cpp_strerror(ret) << std::endl; goto out; } cout << "rolled back pool " << pool_name << " to snapshot " << nargs[2] << std::endl; } else if (strcmp(nargs[0], "bench") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); char* endptr = NULL; int seconds = strtol(nargs[1], &endptr, 10); if (*endptr) { cerr << "Invalid value for seconds: '" << nargs[1] << "'" << std::endl; ret = -EINVAL; goto out; } int operation = 0; if (strcmp(nargs[2], "write") == 0) operation = OP_WRITE; else if (strcmp(nargs[2], "seq") == 0) operation = OP_SEQ_READ; else if (strcmp(nargs[2], "rand") == 0) operation = OP_RAND_READ; else usage_exit(); if (operation != OP_WRITE) { if (block_size_specified) { cerr << "-b|--block_size option can be used only with 'write' bench test" << std::endl; ret = -EINVAL; goto out; } if (bench_write_dest != 0) { cerr << "--write-object, --write-omap and --write-xattr options can " "only be used with the 'write' bench test" << std::endl; ret = -EINVAL; goto out; } } else if (bench_write_dest == 0) { bench_write_dest = OP_WRITE_DEST_OBJ; } if (!formatter && output) { cerr << "-o|--output option can only be used with '--format' option" << std::endl; ret = -EINVAL; goto out; } RadosBencher bencher(g_ceph_context, rados, io_ctx); bencher.set_show_time(show_time); bencher.set_write_destination(static_cast(bench_write_dest)); ostream *outstream = NULL; if (formatter) { bencher.set_formatter(formatter); if (output) outstream = new ofstream(output); else outstream = &cout; bencher.set_outstream(*outstream); } if (!object_size) object_size = op_size; else if (object_size < op_size) op_size = object_size; cout << "hints = " << (int)hints << std::endl; ret = bencher.aio_bench(operation, seconds, concurrent_ios, op_size, object_size, max_objects, cleanup, hints, run_name, no_verify); if (ret != 0) cerr << "error during benchmark: " << cpp_strerror(ret) << std::endl; if (formatter && output) delete outstream; } else if (strcmp(nargs[0], "cleanup") == 0) { if (!pool_name) usage_exit(); if (wildcard) io_ctx.set_namespace(all_nspaces); RadosBencher bencher(g_ceph_context, rados, io_ctx); ret = bencher.clean_up(prefix, concurrent_ios, run_name); if (ret != 0) cerr << "error during cleanup: " << cpp_strerror(ret) << std::endl; } else if (strcmp(nargs[0], "watch") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); RadosWatchCtx ctx(io_ctx, oid.c_str()); uint64_t cookie; ret = io_ctx.watch2(oid, &cookie, &ctx); if (ret != 0) cerr << "error calling watch: " << cpp_strerror(ret) << std::endl; else { cout << "press enter to exit..." << std::endl; getchar(); io_ctx.unwatch2(cookie); rados.watch_flush(); } } else if (strcmp(nargs[0], "notify") == 0) { if (!pool_name || nargs.size() < 3) usage_exit(); string oid(nargs[1]); string msg(nargs[2]); bufferlist bl, replybl; ::encode(msg, bl); ret = io_ctx.notify2(oid, bl, 10000, &replybl); if (ret != 0) cerr << "error calling notify: " << cpp_strerror(ret) << std::endl; if (replybl.length()) { map,bufferlist> rm; set > missed; bufferlist::iterator p = replybl.begin(); ::decode(rm, p); ::decode(missed, p); for (map,bufferlist>::iterator p = rm.begin(); p != rm.end(); ++p) { cout << "reply client." << p->first.first << " cookie " << p->first.second << " : " << p->second.length() << " bytes" << std::endl; if (p->second.length()) p->second.hexdump(cout); } for (multiset >::iterator p = missed.begin(); p != missed.end(); ++p) { cout << "timeout client." << p->first << " cookie " << p->second << std::endl; } } } else if (strcmp(nargs[0], "set-alloc-hint") == 0) { if (!pool_name || nargs.size() < 4) usage_exit(); string err; string oid(nargs[1]); uint64_t expected_object_size = strict_strtoll(nargs[2], 10, &err); if (!err.empty()) { cerr << "couldn't parse expected_object_size: " << err << std::endl; usage_exit(); } uint64_t expected_write_size = strict_strtoll(nargs[3], 10, &err); if (!err.empty()) { cerr << "couldn't parse expected_write_size: " << err << std::endl; usage_exit(); } ret = io_ctx.set_alloc_hint(oid, expected_object_size, expected_write_size); if (ret < 0) { cerr << "error setting alloc-hint " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "load-gen") == 0) { if (!pool_name) { cerr << "error: must specify pool" << std::endl; usage_exit(); } LoadGen lg(&rados); if (min_obj_len) lg.min_obj_len = min_obj_len; if (max_obj_len) lg.max_obj_len = max_obj_len; if (min_op_len) lg.min_op_len = min_op_len; if (max_op_len) lg.max_op_len = max_op_len; if (max_ops) lg.max_ops = max_ops; if (max_backlog) lg.max_backlog = max_backlog; if (target_throughput) lg.target_throughput = target_throughput << 20; if (read_percent >= 0) lg.read_percent = read_percent; if (num_objs) lg.num_objs = num_objs; if (run_length) lg.run_length = run_length; cout << "run length " << run_length << " seconds" << std::endl; cout << "preparing " << lg.num_objs << " objects" << std::endl; ret = lg.bootstrap(pool_name); if (ret < 0) { cerr << "load-gen bootstrap failed" << std::endl; exit(1); } cout << "load-gen will run " << lg.run_length << " seconds" << std::endl; lg.run(); lg.cleanup(); } else if (strcmp(nargs[0], "listomapkeys") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); set out_keys; ret = io_ctx.omap_get_keys(nargs[1], "", LONG_MAX, &out_keys); if (ret < 0) { cerr << "error getting omap key set " << pool_name << "/" << nargs[1] << ": " << cpp_strerror(ret) << std::endl; goto out; } for (set::iterator iter = out_keys.begin(); iter != out_keys.end(); ++iter) { cout << *iter << std::endl; } } else if (strcmp(nargs[0], "lock") == 0) { if (!pool_name) usage_exit(); if (!formatter) { formatter = new JSONFormatter(pretty_format); } ret = do_lock_cmd(nargs, opts, &io_ctx, formatter); } else if (strcmp(nargs[0], "listwatchers") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); std::list lw; ret = io_ctx.list_watchers(oid, &lw); if (ret < 0) { cerr << "error listing watchers " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } else ret = 0; for (std::list::iterator i = lw.begin(); i != lw.end(); ++i) { cout << "watcher=" << i->addr << " client." << i->watcher_id << " cookie=" << i->cookie << std::endl; } } else if (strcmp(nargs[0], "listsnaps") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); snap_set_t ls; io_ctx.snap_set_read(LIBRADOS_SNAP_DIR); ret = io_ctx.list_snaps(oid, &ls); if (ret < 0) { cerr << "error listing snap shots " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } else ret = 0; map snamemap; if (formatter || pretty_format) { vector snaps; io_ctx.snap_list(&snaps); for (vector::iterator i = snaps.begin(); i != snaps.end(); ++i) { string s; if (io_ctx.snap_get_name(*i, &s) < 0) continue; snamemap.insert(pair(*i, s)); } } if (formatter) { formatter->open_object_section("object"); formatter->dump_string("name", oid); formatter->open_array_section("clones"); } else { cout << oid << ":" << std::endl; cout << "cloneid snaps size overlap" << std::endl; } for (std::vector::iterator ci = ls.clones.begin(); ci != ls.clones.end(); ++ci) { if (formatter) formatter->open_object_section("clone"); if (ci->cloneid == librados::SNAP_HEAD) { if (formatter) formatter->dump_string("id", "head"); else cout << "head"; } else { if (formatter) formatter->dump_unsigned("id", ci->cloneid); else cout << ci->cloneid; } if (formatter) formatter->open_array_section("snapshots"); else cout << "\t"; if (!formatter && ci->snaps.empty()) { cout << "-"; } for (std::vector::const_iterator snapindex = ci->snaps.begin(); snapindex != ci->snaps.end(); ++snapindex) { map::iterator si; if (formatter || pretty_format) si = snamemap.find(*snapindex); if (formatter) { formatter->open_object_section("snapshot"); formatter->dump_unsigned("id", *snapindex); if (si != snamemap.end()) formatter->dump_string("name", si->second); formatter->close_section(); //snapshot } else { if (snapindex != ci->snaps.begin()) cout << ","; if (!pretty_format || (si == snamemap.end())) cout << *snapindex; else cout << si->second << "(" << *snapindex << ")"; } } if (formatter) { formatter->close_section(); //Snapshots formatter->dump_unsigned("size", ci->size); } else { cout << "\t" << ci->size; } if (ci->cloneid != librados::SNAP_HEAD) { if (formatter) formatter->open_array_section("overlaps"); else cout << "\t["; for (std::vector< std::pair >::iterator ovi = ci->overlap.begin(); ovi != ci->overlap.end(); ++ovi) { if (formatter) { formatter->open_object_section("section"); formatter->dump_unsigned("start", ovi->first); formatter->dump_unsigned("length", ovi->second); formatter->close_section(); //section } else { if (ovi != ci->overlap.begin()) cout << ","; cout << ovi->first << "~" << ovi->second; } } if (formatter) formatter->close_section(); //overlaps else cout << "]" << std::endl; } if (formatter) formatter->close_section(); //clone } if (formatter) { formatter->close_section(); //clones formatter->close_section(); //object formatter->flush(cout); } else { cout << std::endl; } } else if (strcmp(nargs[0], "list-inconsistent-pg") == 0) { if (!formatter) { formatter = new JSONFormatter(pretty_format); } ret = do_get_inconsistent_pg_cmd(nargs, rados, *formatter); } else if (strcmp(nargs[0], "list-inconsistent-obj") == 0) { if (!formatter) { formatter = new JSONFormatter(pretty_format); } ret = do_get_inconsistent_cmd(nargs, rados, *formatter); } else if (strcmp(nargs[0], "list-inconsistent-snapset") == 0) { if (!formatter) { formatter = new JSONFormatter(pretty_format); } ret = do_get_inconsistent_cmd(nargs, rados, *formatter); } else if (strcmp(nargs[0], "cache-flush") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); if (with_clones) { snap_set_t ls; io_ctx.snap_set_read(LIBRADOS_SNAP_DIR); ret = io_ctx.list_snaps(oid, &ls); if (ret < 0) { cerr << "error listing snapshots " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } for (std::vector::iterator ci = ls.clones.begin(); ci != ls.clones.end(); ++ci) { if (snapid != CEPH_NOSNAP && ci->cloneid > snapid) break; io_ctx.snap_set_read(ci->cloneid); ret = do_cache_flush(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else { ret = do_cache_flush(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else if (strcmp(nargs[0], "cache-try-flush") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); if (with_clones) { snap_set_t ls; io_ctx.snap_set_read(LIBRADOS_SNAP_DIR); ret = io_ctx.list_snaps(oid, &ls); if (ret < 0) { cerr << "error listing snapshots " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } for (std::vector::iterator ci = ls.clones.begin(); ci != ls.clones.end(); ++ci) { if (snapid != CEPH_NOSNAP && ci->cloneid > snapid) break; io_ctx.snap_set_read(ci->cloneid); ret = do_cache_try_flush(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else { ret = do_cache_try_flush(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else if (strcmp(nargs[0], "cache-evict") == 0) { if (!pool_name || nargs.size() < 2) usage_exit(); string oid(nargs[1]); if (with_clones) { snap_set_t ls; io_ctx.snap_set_read(LIBRADOS_SNAP_DIR); ret = io_ctx.list_snaps(oid, &ls); if (ret < 0) { cerr << "error listing snapshots " << pool_name << "/" << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } for (std::vector::iterator ci = ls.clones.begin(); ci != ls.clones.end(); ++ci) { if (snapid != CEPH_NOSNAP && ci->cloneid > snapid) break; io_ctx.snap_set_read(ci->cloneid); ret = do_cache_evict(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else { ret = do_cache_evict(io_ctx, oid); if (ret < 0) { cerr << "error from cache-flush " << oid << ": " << cpp_strerror(ret) << std::endl; goto out; } } } else if (strcmp(nargs[0], "cache-flush-evict-all") == 0) { if (!pool_name) usage_exit(); ret = do_cache_flush_evict_all(io_ctx, true); if (ret < 0) { cerr << "error from cache-flush-evict-all: " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "cache-try-flush-evict-all") == 0) { if (!pool_name) usage_exit(); ret = do_cache_flush_evict_all(io_ctx, false); if (ret < 0) { cerr << "error from cache-try-flush-evict-all: " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "set-redirect") == 0) { if (!pool_name) usage_exit(); const char *target = target_pool_name; if (!target) target = pool_name; const char *target_obj; if (nargs.size() < 3) { if (strcmp(target, pool_name) == 0) { cerr << "cannot copy object into itself" << std::endl; ret = -1; goto out; } target_obj = nargs[1]; } else { target_obj = nargs[2]; } IoCtx target_ctx; ret = rados.ioctx_create(target, target_ctx); if (target_oloc.size()) { target_ctx.locator_set_key(target_oloc); } if (target_nspace.size()) { target_ctx.set_namespace(target_nspace); } ObjectWriteOperation op; op.set_redirect(target_obj, target_ctx, 0); ret = io_ctx.operate(nargs[1], &op); if (ret < 0) { cerr << "error set-redirect " << pool_name << "/" << nargs[1] << " => " << target << "/" << target_obj << ": " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "export") == 0) { // export [filename] if (!pool_name || nargs.size() > 2) { usage_exit(); } int file_fd; if (nargs.size() < 2 || std::string(nargs[1]) == "-") { file_fd = STDOUT_FILENO; } else { file_fd = open(nargs[1], O_WRONLY|O_CREAT|O_TRUNC, 0666); if (file_fd < 0) { cerr << "Error opening '" << nargs[1] << "': " << cpp_strerror(file_fd) << std::endl; ret = file_fd; goto out; } } ret = PoolDump(file_fd).dump(&io_ctx); if (file_fd != STDIN_FILENO) { VOID_TEMP_FAILURE_RETRY(::close(file_fd)); } if (ret < 0) { cerr << "error from export: " << cpp_strerror(ret) << std::endl; goto out; } } else if (strcmp(nargs[0], "import") == 0) { // import [--no-overwrite] [--dry-run] if (!pool_name || nargs.size() > 4 || nargs.size() < 2) { usage_exit(); } // Last arg is the filename std::string const filename = nargs[nargs.size() - 1]; // All other args may be flags bool dry_run = false; bool no_overwrite = false; for (unsigned i = 1; i < nargs.size() - 1; ++i) { std::string arg(nargs[i]); if (arg == std::string("--no-overwrite")) { no_overwrite = true; } else if (arg == std::string("--dry-run")) { dry_run = true; } else { std::cerr << "Invalid argument '" << arg << "'" << std::endl; ret = -EINVAL; goto out; } } int file_fd; if (filename == "-") { file_fd = STDIN_FILENO; } else { file_fd = open(filename.c_str(), O_RDONLY); if (file_fd < 0) { cerr << "Error opening '" << filename << "': " << cpp_strerror(file_fd) << std::endl; ret = file_fd; goto out; } } ret = RadosImport(file_fd, 0, dry_run).import(io_ctx, no_overwrite); if (file_fd != STDIN_FILENO) { VOID_TEMP_FAILURE_RETRY(::close(file_fd)); } if (ret < 0) { cerr << "error from import: " << cpp_strerror(ret) << std::endl; goto out; } } else { cerr << "unrecognized command " << nargs[0] << "; -h or --help for usage" << std::endl; ret = -EINVAL; goto out; } if (ret < 0) cerr << "error " << (-ret) << ": " << cpp_strerror(ret) << std::endl; out: delete formatter; return (ret < 0) ? 1 : 0; } int main(int argc, const char **argv) { vector args; argv_to_vec(argc, argv, args); env_to_vec(args); std::map < std::string, std::string > opts; std::string val; // Necessary to support usage of -f for formatting, // since global_init will remove the -f using ceph // argparse procedures. for (auto j = args.begin(); j != args.end(); ++j) { if (strcmp(*j, "--") == 0) { break; } else if ((j+1) == args.end()) { // This can't be a formatting call (no format arg) break; } else if (strcmp(*j, "-f") == 0) { val = *(j+1); unique_ptr formatter(Formatter::create(val.c_str())); if (formatter) { j = args.erase(j); opts["format"] = val; j = args.erase(j); break; } } } auto cct = global_init(NULL, args, CEPH_ENTITY_TYPE_CLIENT, CODE_ENVIRONMENT_UTILITY, 0); common_init_finish(g_ceph_context); std::vector::iterator i; for (i = args.begin(); i != args.end(); ) { if (ceph_argparse_double_dash(args, i)) { break; } else if (ceph_argparse_flag(args, i, "-h", "--help", (char*)NULL)) { usage(cout); exit(0); } else if (ceph_argparse_flag(args, i, "-f", "--force", (char*)NULL)) { opts["force"] = "true"; } else if (ceph_argparse_flag(args, i, "--force-full", (char*)NULL)) { opts["force-full"] = "true"; } else if (ceph_argparse_flag(args, i, "-d", "--delete-after", (char*)NULL)) { opts["delete-after"] = "true"; } else if (ceph_argparse_flag(args, i, "-C", "--create", "--create-pool", (char*)NULL)) { opts["create"] = "true"; } else if (ceph_argparse_flag(args, i, "--pretty-format", (char*)NULL)) { opts["pretty-format"] = "true"; } else if (ceph_argparse_flag(args, i, "--show-time", (char*)NULL)) { opts["show-time"] = "true"; } else if (ceph_argparse_flag(args, i, "--no-cleanup", (char*)NULL)) { opts["no-cleanup"] = "true"; } else if (ceph_argparse_flag(args, i, "--no-hints", (char*)NULL)) { opts["no-hints"] = "true"; } else if (ceph_argparse_flag(args, i, "--no-verify", (char*)NULL)) { opts["no-verify"] = "true"; } else if (ceph_argparse_witharg(args, i, &val, "--run-name", (char*)NULL)) { opts["run-name"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--prefix", (char*)NULL)) { opts["prefix"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-p", "--pool", (char*)NULL)) { opts["pool"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--target-pool", (char*)NULL)) { opts["target_pool"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--object-locator" , (char *)NULL)) { opts["object_locator"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--target-locator" , (char *)NULL)) { opts["target_locator"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--target-nspace" , (char *)NULL)) { opts["target_nspace"] = val; } else if (ceph_argparse_flag(args, i, "--striper" , (char *)NULL)) { opts["striper"] = "true"; } else if (ceph_argparse_witharg(args, i, &val, "-t", "--concurrent-ios", (char*)NULL)) { opts["concurrent-ios"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--block-size", (char*)NULL)) { opts["block-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-b", (char*)NULL)) { opts["block-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--object-size", (char*)NULL)) { opts["object-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--max-objects", (char*)NULL)) { opts["max-objects"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--offset", (char*)NULL)) { opts["offset"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-o", (char*)NULL)) { opts["object-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-s", "--snap", (char*)NULL)) { opts["snap"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-S", "--snapid", (char*)NULL)) { opts["snapid"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--min-object-size", (char*)NULL)) { opts["min-object-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--max-object-size", (char*)NULL)) { opts["max-object-size"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--min-op-len", (char*)NULL)) { opts["min-op-len"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--max-op-len", (char*)NULL)) { opts["max-op-len"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--max-ops", (char*)NULL)) { opts["max-ops"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--max-backlog", (char*)NULL)) { opts["max-backlog"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--target-throughput", (char*)NULL)) { opts["target-throughput"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--read-percent", (char*)NULL)) { opts["read-percent"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--num-objects", (char*)NULL)) { opts["num-objects"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--run-length", (char*)NULL)) { opts["run-length"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--workers", (char*)NULL)) { opts["workers"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--format", (char*)NULL)) { opts["format"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--lock-tag", (char*)NULL)) { opts["lock-tag"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--lock-cookie", (char*)NULL)) { opts["lock-cookie"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--lock-description", (char*)NULL)) { opts["lock-description"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--lock-duration", (char*)NULL)) { opts["lock-duration"] = val; } else if (ceph_argparse_witharg(args, i, &val, "--lock-type", (char*)NULL)) { opts["lock-type"] = val; } else if (ceph_argparse_witharg(args, i, &val, "-N", "--namespace", (char*)NULL)) { opts["namespace"] = val; } else if (ceph_argparse_flag(args, i, "--all", (char*)NULL)) { opts["all"] = "true"; } else if (ceph_argparse_flag(args, i, "--default", (char*)NULL)) { opts["default"] = "true"; } else if (ceph_argparse_witharg(args, i, &val, "-o", "--output", (char*)NULL)) { opts["output"] = val; } else if (ceph_argparse_flag(args, i, "--write-omap", (char*)NULL)) { opts["write-dest-omap"] = "true"; } else if (ceph_argparse_flag(args, i, "--write-object", (char*)NULL)) { opts["write-dest-obj"] = "true"; } else if (ceph_argparse_flag(args, i, "--write-xattr", (char*)NULL)) { opts["write-dest-xattr"] = "true"; } else if (ceph_argparse_flag(args, i, "--with-clones", (char*)NULL)) { opts["with-clones"] = "true"; } else if (ceph_argparse_witharg(args, i, &val, "--omap-key-file", (char*)NULL)) { opts["omap-key-file"] = val; } else { if (val[0] == '-') usage_exit(); ++i; } } if (args.empty()) { cerr << "rados: you must give an action. Try --help" << std::endl; return 1; } return rados_tool_common(opts, args); }