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#pragma once
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#include "gp/array.hpp"
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#include "gp/algorithm/min_max.hpp"
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#include "gp/algorithm/repeat.hpp"
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#include "gp/bitops.hpp"
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#include "gp/buffer.hpp"
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#include "gp/pointers.hpp"
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#include <atomic>
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#include <cstdint>
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template<size_t sz> |
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class memory_vdisk { |
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static_assert(sz%128 == 0, "in memory disk expects 128 bytes page alignment"); |
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alignas(128) gp::array<uint8_t, sz> data; |
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gp::buffer<uint8_t> read(gp::buffer<uint8_t> buffer, uint64_t offset) { |
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auto it = data.begin()+offset; |
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auto ret = buffer; |
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for(auto& c : buffer) { |
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c = *(it++); |
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if(it == data.end()) { |
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ret = buffer.slice_start(it - (data.begin() + offset)); |
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break; |
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} |
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} |
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return ret; |
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} |
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gp::buffer<uint8_t> write(gp::buffer<uint8_t> buffer, uint64_t offset) { |
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auto it = data.begin()+offset; |
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auto ret = buffer; |
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for(auto& c : buffer) { |
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*(it++) = c; |
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if(it == data.end()) { |
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ret = buffer.slice_start(it - (data.begin() + offset)); |
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break; |
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} |
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} |
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return ret; |
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} |
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constexpr uint64_t size() const noexcept { |
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return sz; |
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} |
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static constexpr size_t page_size() noexcept { |
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return 128; |
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} |
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constexpr uint64_t page_count() const noexcept { |
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return size() / page_size(); |
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} |
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}; |
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template<typename vdisk_ptr> |
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class tagfs { |
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vdisk_ptr disk; |
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const gp::array<uint8_t, decltype(*disk)::page_size()> empty_page; |
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struct disk_root { |
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gp::endian_wrapper<uint64_t, gp::endian::little> magic; |
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gp::endian_wrapper<uint64_t, gp::endian::little> first_allocator_page; |
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gp::endian_wrapper<uint64_t, gp::endian::little> allocator_shuttle; |
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gp::endian_wrapper<uint64_t, gp::endian::little> allocator_page_count; |
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gp::endian_wrapper<uint64_t, gp::endian::little> tag_list_node; |
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gp::endian_wrapper<uint64_t, gp::endian::little> page_count; |
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}; |
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struct file_description { |
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gp::endian_wrapper<uint32_t, gp::endian::little> reference_counter; |
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}; |
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tagfs(vdisk_ptr&& _disk) |
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: disk(gp::forward<vdisk_ptr>(disk)) |
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, empty_page{[](){return 0;}} |
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{} |
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disk_root get_disk_root() { |
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gp::array<disk_root, 1> vret; |
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return *disk->read(vret.as_buffer().template cast<uint8_t>(), 0).template cast<disk_root>().begin(); |
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} |
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void set_disk_root(disk_root& root) { |
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gp::array<disk_root, 1> vpar{root}; |
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disk->write(vpar.as_buffer().template cast<uint8_t>(), 0); |
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} |
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gp::optional<uint64_t> try_set_bit(gp::buffer<uint8_t> page) { |
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uint64_t idx = 0; |
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for(auto& elem : page) { |
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if(elem != 0xff) { |
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uint8_t copy = elem; |
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uint8_t setter = 1; |
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gp::repeat(8, [&](){ |
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bool value = copy & 1; |
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if(!value) { |
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return; |
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} |
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copy >>= 1; |
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setter <<= 1; |
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++idx; |
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}); |
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elem |= setter; |
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return idx; |
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} |
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idx += 8; |
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} |
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return gp::nullopt; |
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} |
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uint64_t next_shuttle_page(disk_root root, uint64_t shuttle) { |
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return |
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shuttle + 1 == root.first_allocator_page + root.allocator_page_count ? |
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root.first_allocator_page |
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: shuttle + 1; |
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} |
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bool try_unset_bit(gp::buffer<uint8_t> page, uint64_t idx) { |
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uint8_t& target_byte = *(page.begin()+(idx/8)); |
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uint8_t flipper = 1 << (idx%8); |
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if(target_byte & flipper) { |
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target_byte ^= flipper; |
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return true; |
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} |
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return false; |
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} |
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uint64_t allocate_page() { |
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disk_root root = get_disk_root(); |
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uint64_t begin_page = root.first_allocator_page; |
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uint64_t shuttle_page = root.allocator_shuttle; |
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uint64_t end_page = root.first_allocator_page + root.allocator_page_count; |
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gp::array<uint8_t, decltype(*disk)::page_size()> page_contents; |
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gp::optional<uint64_t> page; |
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do |
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{ |
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auto allocator_page = disk->read(page_contents.as_buffer(), shuttle_page*decltype(*disk)::page_size()); |
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if(shuttle_page == end_page - 1) { |
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uint64_t existing_pages = root.page_count - end_page; |
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uint64_t allocable_pages = root.allocator_page_count*8*decltype(*disk)::page_size(); |
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if(existing_pages < allocable_pages) { |
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uint64_t extra = allocable_pages - existing_pages; |
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extra /= 8; |
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allocator_page = allocator_page.slice_start(decltype(*disk)::page_size() - extra); |
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} |
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} |
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page = try_set_bit(allocator_page); |
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if(!page.has_value()) { |
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root.allocator_shuttle = (shuttle_page = next_shuttle_page(shuttle_page)); |
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} else { |
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disk->write(page_contents.as_buffer(), shuttle_page*decltype(*disk)::page_size()); |
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page.value += decltype(*disk)::page_size()*8*(shuttle_page-begin_page); |
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} |
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} |
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while(!page.has_value()); |
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set_disk_root(root); |
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return page.value() + end_page; |
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} |
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bool deallocate_page(uint64_t page) { |
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disk_root root = get_disk_root(); |
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page -= root.first_allocator_page + root.allocator_page_count; |
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uint64_t discriminant = decltype(*disk)::page_size()*8; |
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uint64_t allocator_page = page/discriminant; |
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uint64_t pos_page = page%discriminant; |
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gp::array<uint8_t, decltype(*disk)::page_size()> store; |
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disk->read(store.as_buffer(), decltype(*disk)::page_size()*allocator_page); |
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bool ret = try_unset_bit(store.as_buffer(), pos_page); |
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disk->write(store.as_buffer(), decltype(*disk)::page_size()*allocator_page); |
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return ret; |
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} |
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void clear_page(uint64_t page) { |
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disk->write(empty_page.as_buffer(), page*decltype(*disk)::page_size()); |
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} |
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void format() { |
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auto sz = disk->size(); |
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auto page_sz = disk->page_size(); |
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auto page_count = sz /page_sz; |
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auto remaining_pages = page_count; |
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disk_root root; |
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// tagmebro
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root.magic = 0x7461676D6562726F; |
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root.page_count = page_count; |
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root.first_allocator_page = 1; |
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root.allocator_shuttle = 1; |
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// Removing the root page
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remaining_pages -= 1; |
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// calculating datapages
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auto datapage_count = (8*remaining_pages*page_sz)/(1+8*page_sz); |
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auto allocator_pages = remaining_pages - datapage_count; |
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root.allocator_page_count = allocator_pages; |
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for(uint64_t offset = 0; offset < allocator_pages; ++offset) { |
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clear_page(root.first_allocator_page); |
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} |
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root.tag_list_node = 0; |
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set_disk_root(root); |
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} |
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}; |