thin-provisioning-tools/thin-provisioning/superblock.cc
Joe Thornber e801cc607b [block_manager] Hard code block size to 4k.
We're never going to use anything other than 4k, and by hard coding it we
avoid making block_manager a template.
2020-04-30 14:30:01 +01:00

210 lines
6.4 KiB
C++

#include "persistent-data/checksum.h"
#include "persistent-data/errors.h"
#include "thin-provisioning/superblock.h"
#include "persistent-data/file_utils.h"
#include <sstream>
using namespace thin_provisioning;
using namespace superblock_detail;
using namespace std;
//----------------------------------------------------------------
void
superblock_traits::unpack(superblock_disk const &disk, superblock &value)
{
value.csum_ = to_cpu<uint32_t>(disk.csum_);
value.flags_ = to_cpu<uint32_t>(disk.flags_);
value.blocknr_ = to_cpu<uint64_t>(disk.blocknr_);
::memcpy(value.uuid_, disk.uuid_, sizeof(value.uuid_));
value.magic_ = to_cpu<uint64_t>(disk.magic_);
value.version_ = to_cpu<uint32_t>(disk.version_);
value.time_ = to_cpu<uint32_t>(disk.time_);
value.trans_id_ = to_cpu<uint64_t>(disk.trans_id_);
value.metadata_snap_ = to_cpu<uint64_t>(disk.metadata_snap_);
::memcpy(value.data_space_map_root_,
disk.data_space_map_root_,
sizeof(value.data_space_map_root_));
::memcpy(value.metadata_space_map_root_,
disk.metadata_space_map_root_,
sizeof(value.metadata_space_map_root_));
value.data_mapping_root_ = to_cpu<uint64_t>(disk.data_mapping_root_);
value.device_details_root_ = to_cpu<uint64_t>(disk.device_details_root_);
value.data_block_size_ = to_cpu<uint32_t>(disk.data_block_size_);
value.metadata_block_size_ = to_cpu<uint32_t>(disk.metadata_block_size_);
value.metadata_nr_blocks_ = to_cpu<uint64_t>(disk.metadata_nr_blocks_);
value.compat_flags_ = to_cpu<uint32_t>(disk.compat_flags_);
value.compat_ro_flags_ = to_cpu<uint32_t>(disk.compat_ro_flags_);
value.incompat_flags_ = to_cpu<uint32_t>(disk.incompat_flags_);
}
void
superblock_traits::pack(superblock const &value, superblock_disk &disk)
{
disk.csum_ = to_disk<le32>(value.csum_);
disk.flags_ = to_disk<le32>(value.flags_);
disk.blocknr_ = to_disk<le64>(value.blocknr_);
::memcpy(disk.uuid_, value.uuid_, sizeof(disk.uuid_));
disk.magic_ = to_disk<le64>(value.magic_);
disk.version_ = to_disk<le32>(value.version_);
disk.time_ = to_disk<le32>(value.time_);
disk.trans_id_ = to_disk<le64>(value.trans_id_);
disk.metadata_snap_ = to_disk<le64>(value.metadata_snap_);
::memcpy(disk.data_space_map_root_,
value.data_space_map_root_,
sizeof(disk.data_space_map_root_));
::memcpy(disk.metadata_space_map_root_,
value.metadata_space_map_root_,
sizeof(disk.metadata_space_map_root_));
disk.data_mapping_root_ = to_disk<le64>(value.data_mapping_root_);
disk.device_details_root_ = to_disk<le64>(value.device_details_root_);
disk.data_block_size_ = to_disk<le32>(value.data_block_size_);
disk.metadata_block_size_ = to_disk<le32>(value.metadata_block_size_);
disk.metadata_nr_blocks_ = to_disk<le64>(value.metadata_nr_blocks_);
disk.compat_flags_ = to_disk<le32>(value.compat_flags_);
disk.compat_ro_flags_ = to_disk<le32>(value.compat_ro_flags_);
disk.incompat_flags_ = to_disk<le32>(value.incompat_flags_);
}
//----------------------------------------------------------------
namespace {
using namespace persistent_data;
using namespace superblock_detail;
uint32_t const SUPERBLOCK_CSUM_SEED = 160774;
struct sb_validator : public bcache::validator {
virtual void check(void const *raw, block_address location) const {
superblock_disk const *sbd = reinterpret_cast<superblock_disk const *>(raw);
crc32c sum(SUPERBLOCK_CSUM_SEED);
sum.append(&sbd->flags_, MD_BLOCK_SIZE - sizeof(uint32_t));
if (sum.get_sum() != to_cpu<uint32_t>(sbd->csum_)) {
ostringstream out;
out << "bad checksum in superblock, wanted " << sum.get_sum();
throw checksum_error(out.str());
}
}
virtual bool check_raw(void const *raw) const {
superblock_disk const *sbd = reinterpret_cast<superblock_disk const *>(raw);
crc32c sum(SUPERBLOCK_CSUM_SEED);
sum.append(&sbd->flags_, MD_BLOCK_SIZE - sizeof(uint32_t));
if (sum.get_sum() != to_cpu<uint32_t>(sbd->csum_))
return false;
return true;
}
virtual void prepare(void *raw, block_address location) const {
superblock_disk *sbd = reinterpret_cast<superblock_disk *>(raw);
crc32c sum(SUPERBLOCK_CSUM_SEED);
sum.append(&sbd->flags_, MD_BLOCK_SIZE - sizeof(uint32_t));
sbd->csum_ = to_disk<base::le32>(sum.get_sum());
}
};
}
bcache::validator::ptr
thin_provisioning::superblock_validator()
{
return bcache::validator::ptr(new sb_validator);
}
//----------------------------------------------------------------
namespace thin_provisioning {
namespace superblock_detail {
namespace {
unsigned const NEEDS_CHECK_BIT = 0;
}
bool
superblock::get_needs_check_flag() const {
return flags_ & (1 << NEEDS_CHECK_BIT);
}
void
superblock::set_needs_check_flag(bool val) {
if (val)
flags_ |= (1 << NEEDS_CHECK_BIT);
else
flags_ &= ~(1 << NEEDS_CHECK_BIT);
};
superblock_corruption::superblock_corruption(std::string const &desc)
: desc_(desc) {
}
void
superblock_corruption::visit(damage_visitor &v) const {
v.visit(*this);
}
void
damage_visitor::visit(damage const &d) {
d.visit(*this);
}
}
superblock_detail::superblock read_superblock(block_manager const &bm, block_address location)
{
using namespace superblock_detail;
superblock sb;
block_manager::read_ref r = bm.read_lock(location, superblock_validator());
superblock_disk const *sbd = reinterpret_cast<superblock_disk const *>(r.data());
superblock_traits::unpack(*sbd, sb);
return sb;
}
superblock_detail::superblock read_superblock(block_manager::ptr bm, block_address location)
{
return read_superblock(*bm, location);
}
superblock_detail::superblock read_superblock(block_manager::ptr bm)
{
return read_superblock(bm, SUPERBLOCK_LOCATION);
}
superblock_detail::superblock read_superblock(block_manager const &bm)
{
return read_superblock(bm, SUPERBLOCK_LOCATION);
}
void write_superblock(block_manager::ptr bm, superblock_detail::superblock const &sb)
{
block_manager::write_ref w = bm->write_lock(SUPERBLOCK_LOCATION, superblock_validator());
superblock_disk *disk = reinterpret_cast<superblock_disk *>(w.data());
superblock_traits::pack(sb, *disk);
}
void
check_superblock(block_manager::ptr bm,
superblock_detail::damage_visitor &visitor) {
using namespace superblock_detail;
try {
bm->read_lock(SUPERBLOCK_LOCATION, superblock_validator());
} catch (std::exception const &e) {
visitor.visit(superblock_corruption(e.what()));
}
}
}
//----------------------------------------------------------------