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migrate.cpp
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migrate.cpp
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// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <compat/byteswap.h>
#include <crypto/common.h> // For ReadBE32
#include <logging.h>
#include <streams.h>
#include <util/translation.h>
#include <wallet/migrate.h>
#include <optional>
#include <variant>
namespace wallet {
// Magic bytes in both endianness's
constexpr uint32_t BTREE_MAGIC = 0x00053162; // If the file endianness matches our system, we see this magic
constexpr uint32_t BTREE_MAGIC_OE = 0x62310500; // If the file endianness is the other one, we will see this magic
// Subdatabase name
static const std::vector<std::byte> SUBDATABASE_NAME = {std::byte{'m'}, std::byte{'a'}, std::byte{'i'}, std::byte{'n'}};
enum class PageType : uint8_t {
/*
* BDB has several page types, most of which we do not use
* They are listed here for completeness, but commented out
* to avoid opening something unintended.
INVALID = 0, // Invalid page type
DUPLICATE = 1, // Duplicate. Deprecated and no longer used
HASH_UNSORTED = 2, // Hash pages. Deprecated.
RECNO_INTERNAL = 4, // Recno internal
RECNO_LEAF = 6, // Recno leaf
HASH_META = 8, // Hash metadata
QUEUE_META = 10, // Queue Metadata
QUEUE_DATA = 11, // Queue Data
DUPLICATE_LEAF = 12, // Off-page duplicate leaf
HASH_SORTED = 13, // Sorted hash page
*/
BTREE_INTERNAL = 3, // BTree internal
BTREE_LEAF = 5, // BTree leaf
OVERFLOW_DATA = 7, // Overflow
BTREE_META = 9, // BTree metadata
};
enum class RecordType : uint8_t {
KEYDATA = 1,
// DUPLICATE = 2, Unused as our databases do not support duplicate records
OVERFLOW_DATA = 3,
DELETE = 0x80, // Indicate this record is deleted. This is OR'd with the real type.
};
enum class BTreeFlags : uint32_t {
/*
* BTree databases have feature flags, but we do not use them except for
* subdatabases. The unused flags are included for completeness, but commented out
* to avoid accidental use.
DUP = 1, // Duplicates
RECNO = 2, // Recno tree
RECNUM = 4, // BTree: Maintain record counts
FIXEDLEN = 8, // Recno: fixed length records
RENUMBER = 0x10, // Recno: renumber on insert/delete
DUPSORT = 0x40, // Duplicates are sorted
COMPRESS = 0x80, // Compressed
*/
SUBDB = 0x20, // Subdatabases
};
/** Berkeley DB BTree metadata page layout */
class MetaPage
{
public:
uint32_t lsn_file; // Log Sequence Number file
uint32_t lsn_offset; // Log Sequence Number offset
uint32_t page_num; // Current page number
uint32_t magic; // Magic number
uint32_t version; // Version
uint32_t pagesize; // Page size
uint8_t encrypt_algo; // Encryption algorithm
PageType type; // Page type
uint8_t metaflags; // Meta-only flags
uint8_t unused1; // Unused
uint32_t free_list; // Free list page number
uint32_t last_page; // Page number of last page in db
uint32_t partitions; // Number of partitions
uint32_t key_count; // Cached key count
uint32_t record_count; // Cached record count
BTreeFlags flags; // Flags
std::array<std::byte, 20> uid; // 20 byte unique file ID
uint32_t unused2; // Unused
uint32_t minkey; // Minimum key
uint32_t re_len; // Recno: fixed length record length
uint32_t re_pad; // Recno: fixed length record pad
uint32_t root; // Root page number
char unused3[368]; // 92 * 4 bytes of unused space
uint32_t crypto_magic; // Crypto magic number
char trash[12]; // 3 * 4 bytes of trash space
unsigned char iv[20]; // Crypto IV
unsigned char chksum[16]; // Checksum
bool other_endian;
uint32_t expected_page_num;
MetaPage(uint32_t expected_page_num) : expected_page_num(expected_page_num) {}
MetaPage() = delete;
template <typename Stream>
void Unserialize(Stream& s)
{
s >> lsn_file;
s >> lsn_offset;
s >> page_num;
s >> magic;
s >> version;
s >> pagesize;
s >> encrypt_algo;
other_endian = magic == BTREE_MAGIC_OE;
uint8_t uint8_type;
s >> uint8_type;
type = static_cast<PageType>(uint8_type);
s >> metaflags;
s >> unused1;
s >> free_list;
s >> last_page;
s >> partitions;
s >> key_count;
s >> record_count;
uint32_t uint32_flags;
s >> uint32_flags;
if (other_endian) {
uint32_flags = internal_bswap_32(uint32_flags);
}
flags = static_cast<BTreeFlags>(uint32_flags);
s >> uid;
s >> unused2;
s >> minkey;
s >> re_len;
s >> re_pad;
s >> root;
s >> unused3;
s >> crypto_magic;
s >> trash;
s >> iv;
s >> chksum;
if (other_endian) {
lsn_file = internal_bswap_32(lsn_file);
lsn_offset = internal_bswap_32(lsn_offset);
page_num = internal_bswap_32(page_num);
magic = internal_bswap_32(magic);
version = internal_bswap_32(version);
pagesize = internal_bswap_32(pagesize);
free_list = internal_bswap_32(free_list);
last_page = internal_bswap_32(last_page);
partitions = internal_bswap_32(partitions);
key_count = internal_bswap_32(key_count);
record_count = internal_bswap_32(record_count);
unused2 = internal_bswap_32(unused2);
minkey = internal_bswap_32(minkey);
re_len = internal_bswap_32(re_len);
re_pad = internal_bswap_32(re_pad);
root = internal_bswap_32(root);
crypto_magic = internal_bswap_32(crypto_magic);
}
// Page number must match
if (page_num != expected_page_num) {
throw std::runtime_error("Meta page number mismatch");
}
// Check magic
if (magic != BTREE_MAGIC) {
throw std::runtime_error("Not a BDB file");
}
// Only version 9 is supported
if (version != 9) {
throw std::runtime_error("Unsupported BDB data file version number");
}
// Page size must be 512 <= pagesize <= 64k, and be a power of 2
if (pagesize < 512 || pagesize > 65536 || (pagesize & (pagesize - 1)) != 0) {
throw std::runtime_error("Bad page size");
}
// Page type must be the btree type
if (type != PageType::BTREE_META) {
throw std::runtime_error("Unexpected page type, should be 9 (BTree Metadata)");
}
// Only supported meta-flag is subdatabase
if (flags != BTreeFlags::SUBDB) {
throw std::runtime_error("Unexpected database flags, should only be 0x20 (subdatabases)");
}
}
};
/** General class for records in a BDB BTree database. Contains common fields. */
class RecordHeader
{
public:
uint16_t len; // Key/data item length
RecordType type; // Page type (BDB has this include a DELETE FLAG that we track separately)
bool deleted; // Whether the DELETE flag was set on type
static constexpr size_t SIZE = 3; // The record header is 3 bytes
bool other_endian;
RecordHeader(bool other_endian) : other_endian(other_endian) {}
RecordHeader() = delete;
template <typename Stream>
void Unserialize(Stream& s)
{
s >> len;
uint8_t uint8_type;
s >> uint8_type;
type = static_cast<RecordType>(uint8_type & ~static_cast<uint8_t>(RecordType::DELETE));
deleted = uint8_type & static_cast<uint8_t>(RecordType::DELETE);
if (other_endian) {
len = internal_bswap_16(len);
}
}
};
/** Class for data in the record directly */
class DataRecord
{
public:
DataRecord(const RecordHeader& header) : m_header(header) {}
DataRecord() = delete;
RecordHeader m_header;
std::vector<std::byte> data; // Variable length key/data item
template <typename Stream>
void Unserialize(Stream& s)
{
data.resize(m_header.len);
s.read(AsWritableBytes(Span(data.data(), data.size())));
}
};
/** Class for records representing internal nodes of the BTree. */
class InternalRecord
{
public:
InternalRecord(const RecordHeader& header) : m_header(header) {}
InternalRecord() = delete;
RecordHeader m_header;
uint8_t unused; // Padding, unused
uint32_t page_num; // Page number of referenced page
uint32_t records; // Subtree record count
std::vector<std::byte> data; // Variable length key item
static constexpr size_t FIXED_SIZE = 9; // Size of fixed data is 9 bytes
template <typename Stream>
void Unserialize(Stream& s)
{
s >> unused;
s >> page_num;
s >> records;
data.resize(m_header.len);
s.read(AsWritableBytes(Span(data.data(), data.size())));
if (m_header.other_endian) {
page_num = internal_bswap_32(page_num);
records = internal_bswap_32(records);
}
}
};
/** Class for records representing overflow records of the BTree.
* Overflow records point to a page which contains the data in the record.
* Those pages may point to further pages with the rest of the data if it does not fit
* in one page */
class OverflowRecord
{
public:
OverflowRecord(const RecordHeader& header) : m_header(header) {}
OverflowRecord() = delete;
RecordHeader m_header;
uint8_t unused2; // Padding, unused
uint32_t page_number; // Page number where data begins
uint32_t item_len; // Total length of item
static constexpr size_t SIZE = 9; // Overflow record is always 9 bytes
template <typename Stream>
void Unserialize(Stream& s)
{
s >> unused2;
s >> page_number;
s >> item_len;
if (m_header.other_endian) {
page_number = internal_bswap_32(page_number);
item_len = internal_bswap_32(item_len);
}
}
};
/** A generic data page in the database. Contains fields common to all data pages. */
class PageHeader
{
public:
uint32_t lsn_file; // Log Sequence Number file
uint32_t lsn_offset; // Log Sequence Number offset
uint32_t page_num; // Current page number
uint32_t prev_page; // Previous page number
uint32_t next_page; // Next page number
uint16_t entries; // Number of items on the page
uint16_t hf_offset; // High free byte page offset
uint8_t level; // Btree page level
PageType type; // Page type
static constexpr int64_t SIZE = 26; // The header is 26 bytes
uint32_t expected_page_num;
bool other_endian;
PageHeader(uint32_t page_num, bool other_endian) : expected_page_num(page_num), other_endian(other_endian) {}
PageHeader() = delete;
template <typename Stream>
void Unserialize(Stream& s)
{
s >> lsn_file;
s >> lsn_offset;
s >> page_num;
s >> prev_page;
s >> next_page;
s >> entries;
s >> hf_offset;
s >> level;
uint8_t uint8_type;
s >> uint8_type;
type = static_cast<PageType>(uint8_type);
if (other_endian) {
lsn_file = internal_bswap_32(lsn_file);
lsn_offset = internal_bswap_32(lsn_offset);
page_num = internal_bswap_32(page_num);
prev_page = internal_bswap_32(prev_page);
next_page = internal_bswap_32(next_page);
entries = internal_bswap_16(entries);
hf_offset = internal_bswap_16(hf_offset);
}
if (expected_page_num != page_num) {
throw std::runtime_error("Page number mismatch");
}
if ((type != PageType::OVERFLOW_DATA && level < 1) || (type == PageType::OVERFLOW_DATA && level != 0)) {
throw std::runtime_error("Bad btree level");
}
}
};
/** A page of records in the database */
class RecordsPage
{
public:
RecordsPage(const PageHeader& header) : m_header(header) {}
RecordsPage() = delete;
PageHeader m_header;
std::vector<uint16_t> indexes;
std::vector<std::variant<DataRecord, OverflowRecord>> records;
template <typename Stream>
void Unserialize(Stream& s)
{
// Current position within the page
int64_t pos = PageHeader::SIZE;
// Get the items
for (uint32_t i = 0; i < m_header.entries; ++i) {
// Get the index
uint16_t index;
s >> index;
if (m_header.other_endian) {
index = internal_bswap_16(index);
}
indexes.push_back(index);
pos += sizeof(uint16_t);
// Go to the offset from the index
int64_t to_jump = index - pos;
if (to_jump < 0) {
throw std::runtime_error("Data record position not in page");
}
s.ignore(to_jump);
// Read the record
RecordHeader rec_hdr(m_header.other_endian);
s >> rec_hdr;
to_jump += RecordHeader::SIZE;
switch (rec_hdr.type) {
case RecordType::KEYDATA: {
DataRecord record(rec_hdr);
s >> record;
records.emplace_back(record);
to_jump += rec_hdr.len;
break;
}
case RecordType::OVERFLOW_DATA: {
OverflowRecord record(rec_hdr);
s >> record;
records.emplace_back(record);
to_jump += OverflowRecord::SIZE;
break;
}
default:
throw std::runtime_error("Unknown record type in records page");
}
// Go back to the indexes
s.seek(-to_jump, SEEK_CUR);
}
}
};
/** A page containing overflow data */
class OverflowPage
{
public:
OverflowPage(const PageHeader& header) : m_header(header) {}
OverflowPage() = delete;
PageHeader m_header;
// BDB overloads some page fields to store overflow page data
// hf_offset contains the length of the overflow data stored on this page
// entries contains a reference count for references to this item
// The overflow data itself. Begins immediately following header
std::vector<std::byte> data;
template <typename Stream>
void Unserialize(Stream& s)
{
data.resize(m_header.hf_offset);
s.read(AsWritableBytes(Span(data.data(), data.size())));
}
};
/** A page of records in the database */
class InternalPage
{
public:
InternalPage(const PageHeader& header) : m_header(header) {}
InternalPage() = delete;
PageHeader m_header;
std::vector<uint16_t> indexes;
std::vector<InternalRecord> records;
template <typename Stream>
void Unserialize(Stream& s)
{
// Current position within the page
int64_t pos = PageHeader::SIZE;
// Get the items
for (uint32_t i = 0; i < m_header.entries; ++i) {
// Get the index
uint16_t index;
s >> index;
if (m_header.other_endian) {
index = internal_bswap_16(index);
}
indexes.push_back(index);
pos += sizeof(uint16_t);
// Go to the offset from the index
int64_t to_jump = index - pos;
if (to_jump < 0) {
throw std::runtime_error("Internal record position not in page");
}
s.ignore(to_jump);
// Read the record
RecordHeader rec_hdr(m_header.other_endian);
s >> rec_hdr;
to_jump += RecordHeader::SIZE;
if (rec_hdr.type != RecordType::KEYDATA) {
throw std::runtime_error("Unknown record type in internal page");
}
InternalRecord record(rec_hdr);
s >> record;
records.emplace_back(record);
to_jump += InternalRecord::FIXED_SIZE + rec_hdr.len;
// Go back to the indexes
s.seek(-to_jump, SEEK_CUR);
}
}
};
static void SeekToPage(AutoFile& s, uint32_t page_num, uint32_t page_size)
{
int64_t pos = int64_t{page_num} * page_size;
s.seek(pos, SEEK_SET);
}
void BerkeleyRODatabase::Open()
{
// Open the file
FILE* file = fsbridge::fopen(m_filepath, "rb");
AutoFile db_file(file);
if (db_file.IsNull()) {
throw std::runtime_error("BerkeleyRODatabase: Failed to open database file");
}
uint32_t page_size = 4096; // Default page size
// Read the outer metapage
// Expected page number is 0
MetaPage outer_meta(0);
db_file >> outer_meta;
page_size = outer_meta.pagesize;
// Verify the size of the file is a multiple of the page size
db_file.seek(0, SEEK_END);
int64_t size = db_file.tell();
// Since BDB stores everything in a page, the file size should be a multiple of the page size;
// However, BDB doesn't actually check that this is the case, and enforcing this check results
// in us rejecting a database that BDB would not, so this check needs to be excluded.
// This is left commented out as a reminder to not accidentally implement this in the future.
// if (size % page_size != 0) {
// throw std::runtime_error("File size is not a multiple of page size");
// }
// Check the last page number
uint32_t expected_last_page{uint32_t((size / page_size) - 1)};
if (outer_meta.last_page != expected_last_page) {
throw std::runtime_error("Last page number could not fit in file");
}
// Make sure encryption is disabled
if (outer_meta.encrypt_algo != 0) {
throw std::runtime_error("BDB builtin encryption is not supported");
}
// Check all Log Sequence Numbers (LSN) point to file 0 and offset 1 which indicates that the LSNs were
// reset and that the log files are not necessary to get all of the data in the database.
for (uint32_t i = 0; i < outer_meta.last_page; ++i) {
// The LSN is composed of 2 32-bit ints, the first is a file id, the second an offset
// It will always be the first 8 bytes of a page, so we deserialize it directly for every page
uint32_t file;
uint32_t offset;
SeekToPage(db_file, i, page_size);
db_file >> file >> offset;
if (outer_meta.other_endian) {
file = internal_bswap_32(file);
offset = internal_bswap_32(offset);
}
if (file != 0 || offset != 1) {
throw std::runtime_error("LSNs are not reset, this database is not completely flushed. Please reopen then close the database with a version that has BDB support");
}
}
// Read the root page
SeekToPage(db_file, outer_meta.root, page_size);
PageHeader header(outer_meta.root, outer_meta.other_endian);
db_file >> header;
if (header.type != PageType::BTREE_LEAF) {
throw std::runtime_error("Unexpected outer database root page type");
}
if (header.entries != 2) {
throw std::runtime_error("Unexpected number of entries in outer database root page");
}
RecordsPage page(header);
db_file >> page;
// First record should be the string "main"
if (!std::holds_alternative<DataRecord>(page.records.at(0)) || std::get<DataRecord>(page.records.at(0)).data != SUBDATABASE_NAME) {
throw std::runtime_error("Subdatabase has an unexpected name");
}
// Check length of page number for subdatabase location
if (!std::holds_alternative<DataRecord>(page.records.at(1)) || std::get<DataRecord>(page.records.at(1)).m_header.len != 4) {
throw std::runtime_error("Subdatabase page number has unexpected length");
}
// Read subdatabase page number
// It is written as a big endian 32 bit number
uint32_t main_db_page = ReadBE32(UCharCast(std::get<DataRecord>(page.records.at(1)).data.data()));
// The main database is in a page that doesn't exist
if (main_db_page > outer_meta.last_page) {
throw std::runtime_error("Page number is greater than database last page");
}
// Read the inner metapage
SeekToPage(db_file, main_db_page, page_size);
MetaPage inner_meta(main_db_page);
db_file >> inner_meta;
if (inner_meta.pagesize != page_size) {
throw std::runtime_error("Unexpected page size");
}
if (inner_meta.last_page > outer_meta.last_page) {
throw std::runtime_error("Subdatabase last page is greater than database last page");
}
// Make sure encryption is disabled
if (inner_meta.encrypt_algo != 0) {
throw std::runtime_error("BDB builtin encryption is not supported");
}
// Do a DFS through the BTree, starting at root
std::vector<uint32_t> pages{inner_meta.root};
while (pages.size() > 0) {
uint32_t curr_page = pages.back();
// It turns out BDB completely ignores this last_page field and doesn't actually update it to the correct
// last page. While we should be checking this, we can't.
// This is left commented out as a reminder to not accidentally implement this in the future.
// if (curr_page > inner_meta.last_page) {
// throw std::runtime_error("Page number is greater than subdatabase last page");
// }
pages.pop_back();
SeekToPage(db_file, curr_page, page_size);
PageHeader header(curr_page, inner_meta.other_endian);
db_file >> header;
switch (header.type) {
case PageType::BTREE_INTERNAL: {
InternalPage int_page(header);
db_file >> int_page;
for (const InternalRecord& rec : int_page.records) {
if (rec.m_header.deleted) continue;
pages.push_back(rec.page_num);
}
break;
}
case PageType::BTREE_LEAF: {
RecordsPage rec_page(header);
db_file >> rec_page;
if (rec_page.records.size() % 2 != 0) {
// BDB stores key value pairs in consecutive records, thus an odd number of records is unexpected
throw std::runtime_error("Records page has odd number of records");
}
bool is_key = true;
std::vector<std::byte> key;
for (const std::variant<DataRecord, OverflowRecord>& rec : rec_page.records) {
std::vector<std::byte> data;
if (const DataRecord* drec = std::get_if<DataRecord>(&rec)) {
if (drec->m_header.deleted) continue;
data = drec->data;
} else if (const OverflowRecord* orec = std::get_if<OverflowRecord>(&rec)) {
if (orec->m_header.deleted) continue;
uint32_t next_page = orec->page_number;
while (next_page != 0) {
SeekToPage(db_file, next_page, page_size);
PageHeader opage_header(next_page, inner_meta.other_endian);
db_file >> opage_header;
if (opage_header.type != PageType::OVERFLOW_DATA) {
throw std::runtime_error("Bad overflow record page type");
}
OverflowPage opage(opage_header);
db_file >> opage;
data.insert(data.end(), opage.data.begin(), opage.data.end());
next_page = opage_header.next_page;
}
}
if (is_key) {
key = data;
} else {
m_records.emplace(SerializeData{key.begin(), key.end()}, SerializeData{data.begin(), data.end()});
key.clear();
}
is_key = !is_key;
}
break;
}
default:
throw std::runtime_error("Unexpected page type");
}
}
}
std::unique_ptr<DatabaseBatch> BerkeleyRODatabase::MakeBatch(bool flush_on_close)
{
return std::make_unique<BerkeleyROBatch>(*this);
}
bool BerkeleyRODatabase::Backup(const std::string& dest) const
{
fs::path src(m_filepath);
fs::path dst(fs::PathFromString(dest));
if (fs::is_directory(dst)) {
dst = BDBDataFile(dst);
}
try {
if (fs::exists(dst) && fs::equivalent(src, dst)) {
LogPrintf("cannot backup to wallet source file %s\n", fs::PathToString(dst));
return false;
}
fs::copy_file(src, dst, fs::copy_options::overwrite_existing);
LogPrintf("copied %s to %s\n", fs::PathToString(m_filepath), fs::PathToString(dst));
return true;
} catch (const fs::filesystem_error& e) {
LogPrintf("error copying %s to %s - %s\n", fs::PathToString(m_filepath), fs::PathToString(dst), fsbridge::get_filesystem_error_message(e));
return false;
}
}
bool BerkeleyROBatch::ReadKey(DataStream&& key, DataStream& value)
{
SerializeData key_data{key.begin(), key.end()};
const auto it{m_database.m_records.find(key_data)};
if (it == m_database.m_records.end()) {
return false;
}
auto val = it->second;
value.clear();
value.write(Span(val));
return true;
}
bool BerkeleyROBatch::HasKey(DataStream&& key)
{
SerializeData key_data{key.begin(), key.end()};
return m_database.m_records.count(key_data) > 0;
}
BerkeleyROCursor::BerkeleyROCursor(const BerkeleyRODatabase& database, Span<const std::byte> prefix)
: m_database(database)
{
std::tie(m_cursor, m_cursor_end) = m_database.m_records.equal_range(BytePrefix{prefix});
}
DatabaseCursor::Status BerkeleyROCursor::Next(DataStream& ssKey, DataStream& ssValue)
{
if (m_cursor == m_cursor_end) {
return DatabaseCursor::Status::DONE;
}
ssKey.write(Span(m_cursor->first));
ssValue.write(Span(m_cursor->second));
m_cursor++;
return DatabaseCursor::Status::MORE;
}
std::unique_ptr<DatabaseCursor> BerkeleyROBatch::GetNewPrefixCursor(Span<const std::byte> prefix)
{
return std::make_unique<BerkeleyROCursor>(m_database, prefix);
}
std::unique_ptr<BerkeleyRODatabase> MakeBerkeleyRODatabase(const fs::path& path, const DatabaseOptions& options, DatabaseStatus& status, bilingual_str& error)
{
fs::path data_file = BDBDataFile(path);
try {
std::unique_ptr<BerkeleyRODatabase> db = std::make_unique<BerkeleyRODatabase>(data_file);
status = DatabaseStatus::SUCCESS;
return db;
} catch (const std::runtime_error& e) {
error.original = e.what();
status = DatabaseStatus::FAILED_LOAD;
return nullptr;
}
}
} // namespace wallet