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https://github.com/LadybirdBrowser/ladybird.git
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a4e3890c05
When a request becomes stale, we will now issue a revalidation request (if the response indicates it may be revalidated). We do this by issuing a normal fetch request, with If-None-Match and/or If-Modified-Since request headers. If the server replies with an HTTP 304 status, we update the stored response headers to match the 304's headers, and serve the response to the client from the cache. If the server replies with any other code, we remove the cache entry. We will open a new cache entry to cache the new response, if possible.
191 lines
7 KiB
C++
191 lines
7 KiB
C++
/*
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* Copyright (c) 2025, Tim Flynn <trflynn89@ladybird.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/StringBuilder.h>
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#include <RequestServer/Cache/CacheIndex.h>
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#include <RequestServer/Cache/Utilities.h>
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#include <RequestServer/Cache/Version.h>
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namespace RequestServer {
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static constexpr u32 CACHE_METADATA_KEY = 12389u;
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static ByteString serialize_headers(HTTP::HeaderMap const& headers)
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{
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StringBuilder builder;
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for (auto const& header : headers.headers()) {
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if (is_header_exempted_from_storage(header.name))
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continue;
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builder.append(header.name);
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builder.append(':');
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builder.append(header.value);
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builder.append('\n');
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}
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return builder.to_byte_string();
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}
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static HTTP::HeaderMap deserialize_headers(StringView serialized_headers)
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{
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HTTP::HeaderMap headers;
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serialized_headers.for_each_split_view('\n', SplitBehavior::Nothing, [&](StringView serialized_header) {
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auto index = serialized_header.find(':');
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if (!index.has_value())
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return;
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auto name = serialized_header.substring_view(0, *index).trim_whitespace();
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if (is_header_exempted_from_storage(name))
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return;
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auto value = serialized_header.substring_view(*index + 1).trim_whitespace();
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headers.set(name, value);
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});
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return headers;
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}
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ErrorOr<CacheIndex> CacheIndex::create(Database::Database& database)
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{
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auto create_cache_metadata_table = TRY(database.prepare_statement(R"#(
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CREATE TABLE IF NOT EXISTS CacheMetadata (
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metadata_key INTEGER,
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version INTEGER,
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PRIMARY KEY(metadata_key)
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);
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)#"sv));
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database.execute_statement(create_cache_metadata_table, {});
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auto read_cache_version = TRY(database.prepare_statement("SELECT version FROM CacheMetadata WHERE metadata_key = ?;"sv));
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auto cache_version = 0u;
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database.execute_statement(
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read_cache_version,
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[&](auto statement_id) { cache_version = database.result_column<u32>(statement_id, 0); },
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CACHE_METADATA_KEY);
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if (cache_version != CACHE_VERSION) {
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dbgln("\033[31;1mDisk cache version mismatch:\033[0m stored version = {}, new version = {}", cache_version, CACHE_VERSION);
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// FIXME: We should more elegantly handle minor changes, i.e. use ALTER TABLE to add fields to CacheIndex.
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auto delete_cache_index_table = TRY(database.prepare_statement("DROP TABLE IF EXISTS CacheIndex;"sv));
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database.execute_statement(delete_cache_index_table, {});
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auto set_cache_version = TRY(database.prepare_statement("INSERT OR REPLACE INTO CacheMetadata VALUES (?, ?);"sv));
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database.execute_statement(set_cache_version, {}, CACHE_METADATA_KEY, CACHE_VERSION);
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}
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auto create_cache_index_table = TRY(database.prepare_statement(R"#(
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CREATE TABLE IF NOT EXISTS CacheIndex (
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cache_key INTEGER,
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url TEXT,
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response_headers TEXT,
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data_size INTEGER,
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request_time INTEGER,
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response_time INTEGER,
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last_access_time INTEGER,
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PRIMARY KEY(cache_key)
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);
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)#"sv));
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database.execute_statement(create_cache_index_table, {});
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Statements statements {};
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statements.insert_entry = TRY(database.prepare_statement("INSERT OR REPLACE INTO CacheIndex VALUES (?, ?, ?, ?, ?, ?, ?);"sv));
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statements.remove_entry = TRY(database.prepare_statement("DELETE FROM CacheIndex WHERE cache_key = ?;"sv));
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statements.remove_all_entries = TRY(database.prepare_statement("DELETE FROM CacheIndex;"sv));
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statements.select_entry = TRY(database.prepare_statement("SELECT * FROM CacheIndex WHERE cache_key = ?;"sv));
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statements.update_response_headers = TRY(database.prepare_statement("UPDATE CacheIndex SET response_headers = ? WHERE cache_key = ?;"sv));
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statements.update_last_access_time = TRY(database.prepare_statement("UPDATE CacheIndex SET last_access_time = ? WHERE cache_key = ?;"sv));
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return CacheIndex { database, statements };
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}
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CacheIndex::CacheIndex(Database::Database& database, Statements statements)
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: m_database(database)
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, m_statements(statements)
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{
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}
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void CacheIndex::create_entry(u64 cache_key, String url, HTTP::HeaderMap response_headers, u64 data_size, UnixDateTime request_time, UnixDateTime response_time)
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{
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auto now = UnixDateTime::now();
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Entry entry {
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.cache_key = cache_key,
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.url = move(url),
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.response_headers = move(response_headers),
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.data_size = data_size,
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.request_time = request_time,
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.response_time = response_time,
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.last_access_time = now,
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};
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m_database.execute_statement(m_statements.insert_entry, {}, entry.cache_key, entry.url, serialize_headers(entry.response_headers), entry.data_size, entry.request_time, entry.response_time, entry.last_access_time);
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m_entries.set(cache_key, move(entry));
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}
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void CacheIndex::remove_entry(u64 cache_key)
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{
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m_database.execute_statement(m_statements.remove_entry, {}, cache_key);
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m_entries.remove(cache_key);
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}
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void CacheIndex::remove_all_entries()
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{
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m_database.execute_statement(m_statements.remove_all_entries, {});
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m_entries.clear();
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}
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void CacheIndex::update_response_headers(u64 cache_key, HTTP::HeaderMap response_headers)
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{
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auto entry = m_entries.get(cache_key);
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if (!entry.has_value())
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return;
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m_database.execute_statement(m_statements.update_response_headers, {}, serialize_headers(response_headers), cache_key);
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entry->response_headers = move(response_headers);
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}
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void CacheIndex::update_last_access_time(u64 cache_key)
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{
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auto entry = m_entries.get(cache_key);
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if (!entry.has_value())
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return;
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auto now = UnixDateTime::now();
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m_database.execute_statement(m_statements.update_last_access_time, {}, now, cache_key);
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entry->last_access_time = now;
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}
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Optional<CacheIndex::Entry&> CacheIndex::find_entry(u64 cache_key)
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{
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if (auto entry = m_entries.get(cache_key); entry.has_value())
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return entry;
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m_database.execute_statement(
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m_statements.select_entry, [&](auto statement_id) {
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int column = 0;
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auto cache_key = m_database.result_column<u64>(statement_id, column++);
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auto url = m_database.result_column<String>(statement_id, column++);
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auto response_headers = m_database.result_column<ByteString>(statement_id, column++);
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auto data_size = m_database.result_column<u64>(statement_id, column++);
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auto request_time = m_database.result_column<UnixDateTime>(statement_id, column++);
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auto response_time = m_database.result_column<UnixDateTime>(statement_id, column++);
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auto last_access_time = m_database.result_column<UnixDateTime>(statement_id, column++);
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Entry entry { cache_key, move(url), deserialize_headers(response_headers), data_size, request_time, response_time, last_access_time };
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m_entries.set(cache_key, move(entry));
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},
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cache_key);
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return m_entries.get(cache_key);
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}
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}
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