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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include <algorithm>
#include "bluefs_types.h"
#include "common/Formatter.h"
#include "include/uuid.h"
#include "include/stringify.h"
using std::list;
using std::ostream;
using ceph::bufferlist;
using ceph::Formatter;
// bluefs_extent_t
void bluefs_extent_t::dump(Formatter *f) const
{
f->dump_unsigned("offset", offset);
f->dump_unsigned("length", length);
f->dump_unsigned("bdev", bdev);
}
void bluefs_extent_t::generate_test_instances(list<bluefs_extent_t*>& ls)
{
ls.push_back(new bluefs_extent_t);
ls.push_back(new bluefs_extent_t);
ls.back()->offset = 1;
ls.back()->length = 2;
ls.back()->bdev = 1;
}
ostream& operator<<(ostream& out, const bluefs_extent_t& e)
{
return out << (int)e.bdev << ":0x" << std::hex << e.offset << "~" << e.length
<< std::dec;
}
// bluefs_layout_t
void bluefs_layout_t::encode(bufferlist& bl) const
{
ENCODE_START(1, 1, bl);
encode(shared_bdev, bl);
encode(dedicated_db, bl);
encode(dedicated_wal, bl);
ENCODE_FINISH(bl);
}
void bluefs_layout_t::decode(bufferlist::const_iterator& p)
{
DECODE_START(1, p);
decode(shared_bdev, p);
decode(dedicated_db, p);
decode(dedicated_wal, p);
DECODE_FINISH(p);
}
void bluefs_layout_t::dump(Formatter *f) const
{
f->dump_stream("shared_bdev") << shared_bdev;
f->dump_stream("dedicated_db") << dedicated_db;
f->dump_stream("dedicated_wal") << dedicated_wal;
}
// bluefs_super_t
void bluefs_super_t::encode(bufferlist& bl) const
{
ENCODE_START(2, 1, bl);
encode(uuid, bl);
encode(osd_uuid, bl);
encode(version, bl);
encode(block_size, bl);
encode(log_fnode, bl);
encode(memorized_layout, bl);
ENCODE_FINISH(bl);
}
void bluefs_super_t::decode(bufferlist::const_iterator& p)
{
DECODE_START(2, p);
decode(uuid, p);
decode(osd_uuid, p);
decode(version, p);
decode(block_size, p);
decode(log_fnode, p);
if (struct_v >= 2) {
decode(memorized_layout, p);
}
DECODE_FINISH(p);
}
void bluefs_super_t::dump(Formatter *f) const
{
f->dump_stream("uuid") << uuid;
f->dump_stream("osd_uuid") << osd_uuid;
f->dump_unsigned("version", version);
f->dump_unsigned("block_size", block_size);
f->dump_object("log_fnode", log_fnode);
}
void bluefs_super_t::generate_test_instances(list<bluefs_super_t*>& ls)
{
ls.push_back(new bluefs_super_t);
ls.push_back(new bluefs_super_t);
ls.back()->version = 1;
ls.back()->block_size = 4096;
}
ostream& operator<<(ostream& out, const bluefs_super_t& s)
{
return out << "super(uuid " << s.uuid
<< " osd " << s.osd_uuid
<< " v " << s.version
<< " block_size 0x" << std::hex << s.block_size
<< " log_fnode 0x" << s.log_fnode
<< std::dec << ")";
}
// bluefs_fnode_t
mempool::bluefs::vector<bluefs_extent_t>::iterator bluefs_fnode_t::seek(
uint64_t offset, uint64_t *x_off)
{
auto p = extents.begin();
if (extents_index.size() > 4) {
auto it = std::upper_bound(extents_index.begin(), extents_index.end(),
offset);
assert(it != extents_index.begin());
--it;
assert(offset >= *it);
p += it - extents_index.begin();
offset -= *it;
}
while (p != extents.end()) {
if ((int64_t) offset >= p->length) {
offset -= p->length;
++p;
} else {
break;
}
}
*x_off = offset;
return p;
}
bluefs_fnode_delta_t* bluefs_fnode_t::make_delta(bluefs_fnode_delta_t* delta) {
ceph_assert(delta);
delta->ino = ino;
delta->size = size;
delta->mtime = mtime;
delta->offset = allocated_commited;
delta->extents.clear();
if (allocated_commited < allocated) {
uint64_t x_off = 0;
auto p = seek(allocated_commited, &x_off);
ceph_assert(p != extents.end());
if (x_off > 0) {
ceph_assert(x_off < p->length);
delta->extents.emplace_back(p->bdev, p->offset + x_off, p->length - x_off);
++p;
}
while (p != extents.end()) {
delta->extents.push_back(*p);
++p;
}
reset_delta();
}
return delta;
}
void bluefs_fnode_t::dump(Formatter *f) const
{
f->dump_unsigned("ino", ino);
f->dump_unsigned("size", size);
f->dump_stream("mtime") << mtime;
f->open_array_section("extents");
for (auto& p : extents)
f->dump_object("extent", p);
f->close_section();
}
void bluefs_fnode_t::generate_test_instances(list<bluefs_fnode_t*>& ls)
{
ls.push_back(new bluefs_fnode_t);
ls.push_back(new bluefs_fnode_t);
ls.back()->ino = 123;
ls.back()->size = 1048576;
ls.back()->mtime = utime_t(123,45);
ls.back()->extents.push_back(bluefs_extent_t(0, 1048576, 4096));
ls.back()->__unused__ = 1;
}
ostream& operator<<(ostream& out, const bluefs_fnode_t& file)
{
return out << "file(ino " << file.ino
<< " size 0x" << std::hex << file.size << std::dec
<< " mtime " << file.mtime
<< " allocated " << std::hex << file.allocated << std::dec
<< " alloc_commit " << std::hex << file.allocated_commited << std::dec
<< " extents " << file.extents
<< ")";
}
// bluefs_fnode_delta_t
std::ostream& operator<<(std::ostream& out, const bluefs_fnode_delta_t& delta)
{
return out << "delta(ino " << delta.ino
<< " size 0x" << std::hex << delta.size << std::dec
<< " mtime " << delta.mtime
<< " offset " << std::hex << delta.offset << std::dec
<< " extents " << delta.extents
<< ")";
}
// bluefs_transaction_t
void bluefs_transaction_t::encode(bufferlist& bl) const
{
uint32_t crc = op_bl.crc32c(-1);
ENCODE_START(1, 1, bl);
encode(uuid, bl);
encode(seq, bl);
// not using bufferlist encode method, as it merely copies the bufferptr and not
// contents, meaning we're left with fragmented target bl
__u32 len = op_bl.length();
encode(len, bl);
for (auto& it : op_bl.buffers()) {
bl.append(it.c_str(), it.length());
}
encode(crc, bl);
ENCODE_FINISH(bl);
}
void bluefs_transaction_t::decode(bufferlist::const_iterator& p)
{
uint32_t crc;
DECODE_START(1, p);
decode(uuid, p);
decode(seq, p);
decode(op_bl, p);
decode(crc, p);
DECODE_FINISH(p);
uint32_t actual = op_bl.crc32c(-1);
if (actual != crc)
throw ceph::buffer::malformed_input("bad crc " + stringify(actual)
+ " expected " + stringify(crc));
}
void bluefs_transaction_t::dump(Formatter *f) const
{
f->dump_stream("uuid") << uuid;
f->dump_unsigned("seq", seq);
f->dump_unsigned("op_bl_length", op_bl.length());
f->dump_unsigned("crc", op_bl.crc32c(-1));
}
void bluefs_transaction_t::generate_test_instances(
list<bluefs_transaction_t*>& ls)
{
ls.push_back(new bluefs_transaction_t);
ls.push_back(new bluefs_transaction_t);
ls.back()->op_init();
ls.back()->op_dir_create("dir");
ls.back()->op_dir_create("dir2");
bluefs_fnode_t fnode;
fnode.ino = 2;
ls.back()->op_file_update(fnode);
ls.back()->op_dir_link("dir", "file1", 2);
ls.back()->op_dir_unlink("dir", "file1");
ls.back()->op_file_remove(2);
ls.back()->op_dir_remove("dir2");
}
ostream& operator<<(ostream& out, const bluefs_transaction_t& t)
{
return out << "txn(seq " << t.seq
<< " len 0x" << std::hex << t.op_bl.length()
<< " crc 0x" << t.op_bl.crc32c(-1)
<< std::dec << ")";
}
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