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246 lines
7.8 KiB
246 lines
7.8 KiB
#pragma once
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#include <iostream>
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#include <atomic>
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#include <memory>
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#include <vector>
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#include <dml/dml.hpp>
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#include "util/dml-helper.hpp"
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namespace dsacache {
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class Cache;
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// cache data holds all required information on
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// one cache entry and will both be stored
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// internally by the cache and handed out
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// as copies to the user
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// this class uses its object lifetime and
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// a global reference counter to allow
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// thread-safe copies and resource management
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class CacheData {
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public:
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using dml_handler = dml::handler<dml::mem_copy_operation, std::allocator<uint8_t>>;
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private:
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// data source and size of the block
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uint8_t* src_;
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size_t size_;
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// global reference counting object
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std::atomic<int32_t>* active_;
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// global cache-location pointer
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std::atomic<uint8_t*>* cache_;
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// object-local incomplete cache location pointer
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// which is only available in the first instance
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uint8_t* incomplete_cache_;
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// dml handler vector pointer which is only
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// available in the first instance
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std::unique_ptr<std::vector<dml_handler>> handlers_;
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// deallocates the global cache-location
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// and invalidates it
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void Deallocate();
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// checks whether there are at least two
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// valid references to this object which
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// is done as the cache always has one
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// internally to any living instance
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bool Active() const;
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friend Cache;
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public:
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CacheData(uint8_t* data, const size_t size);
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CacheData(const CacheData& other);
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~CacheData();
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// waits on completion of caching operations
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// for this task and is safe to be called in
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// any state of the object
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void WaitOnCompletion();
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// returns the cache data location for this
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// instance which is valid as long as the
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// instance is alive - !!! this may also
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// yield a nullptr !!!
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uint8_t* GetDataLocation() const;
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};
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}
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inline void dsacache::CacheData::WaitOnCompletion() {
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// the cache data entry can be in two states
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// either it is the original one which has not
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// been waited for in which case the handlers
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// are non-null or it is not
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if (handlers_ == nullptr) {
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std::cout << "[-] Waiting on cache-var-update for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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// when no handlers are attached to this cache entry we wait on a
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// value change for the cache structure from nullptr to non-null
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// which will either go through immediately if the cache is valid
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// already or wait until the handler-owning thread notifies us
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cache_->wait(nullptr);
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std::cout << "[+] Finished waiting on cache-var-update for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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}
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else {
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// when the handlers are non-null there are some DSA task handlers
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// available on which we must wait here
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std::cout << "[-] Waiting on handlers for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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// abort is set if any operation encountered an error
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bool abort = false;
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for (auto& handler : *handlers_) {
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auto result = handler.get();
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if (result.status != dml::status_code::ok) {
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std::cerr << "[x] Encountered bad status code for operation: " << dml::StatusCodeToString(result.status) << std::endl;
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// if one of the copy tasks failed we abort the whole task
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// after all operations are completed on it
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abort = true;
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}
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}
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// the handlers are cleared after all have completed
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handlers_ = nullptr;
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// now we act depending on whether an abort has been
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// called for which signals operation incomplete
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if (abort) {
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// store nullptr in the cache location
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cache_->store(nullptr);
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// then free the now incomplete cache
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// TODO: it would be possible to salvage the
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// TODO: operation at this point but this
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// TODO: is quite complicated so we just abort
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numa_free(incomplete_cache_, size_);
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}
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else {
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std::cout << "[+] Finished waiting on handlers for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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// incomplete cache is now safe to use and therefore we
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// swap it with the global cache state of this entry
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// and notify potentially waiting threads
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cache_->store(incomplete_cache_);
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}
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// as a last step all waiting threads must
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// be notified (copies of this will wait on value
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// change of the cache) and the incomplete cache
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// is cleared to nullptr as it is not incomplete
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cache_->notify_all();
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incomplete_cache_ = nullptr;
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}
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}
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dsacache::CacheData::CacheData(uint8_t* data, const size_t size) {
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std::cout << "[-] New CacheData 0x" << std::hex << (uint64_t)data << std::dec << std::endl;
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src_ = data;
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size_ = size;
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active_ = new std::atomic<int32_t>(1);
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cache_ = new std::atomic<uint8_t*>();
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incomplete_cache_ = nullptr;
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handlers_ = std::make_unique<std::vector<dml_handler>>();
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}
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dsacache::CacheData::CacheData(const dsacache::CacheData& other) {
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std::cout << "[-] Copy Created for CacheData 0x" << std::hex << (uint64_t)other.src_ << std::dec << std::endl;
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// we copy the ptr to the global atomic reference counter
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// and increase the amount of active references
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active_ = other.active_;
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const int current_active = active_->fetch_add(1);
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// source and size will be copied too
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// as well as the reference to the global
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// atomic cache pointer
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src_ = other.src_;
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size_ = other.size_;
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cache_ = other.cache_;
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// incomplete cache and handlers will not
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// be copied because only the first instance
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// will wait on the completion of handlers
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incomplete_cache_ = nullptr;
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handlers_ = nullptr;
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}
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dsacache::CacheData::~CacheData() {
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std::cout << "[-] Destructor for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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// if this is the first instance of this cache structure
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// and it has not been waited on and is now being destroyed
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// we must wait on completion here to ensure the cache
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// remains in a valid state
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if (handlers_ != nullptr) {
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WaitOnCompletion();
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}
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// due to fetch_sub returning the preivously held value
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// we must subtract one locally to get the current value
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const int32_t v = active_->fetch_sub(1) - 1;
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// if the returned value is zero or lower
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// then we must execute proper deletion
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// as this was the last reference
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if (v <= 0) {
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std::cout << "[!] Full Destructor for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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Deallocate();
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delete active_;
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delete cache_;
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}
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}
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void dsacache::CacheData::Deallocate() {
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std::cout << "[!] Deallocating for CacheData 0x" << std::hex << (uint64_t)src_ << std::dec << std::endl;
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// although deallocate should only be called from
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// a safe context to do so, it can not hurt to
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// defensively perform the operation atomically
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uint8_t* cache_local = cache_->exchange(nullptr);
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if (cache_local != nullptr) numa_free(cache_local, size_);
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}
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uint8_t* dsacache::CacheData::GetDataLocation() const {
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return cache_->load();
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}
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bool dsacache::CacheData::Active() const {
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// this entry is active if more than one
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// reference exists to it, as the Cache
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// will always keep one internally until
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// the entry is cleared from cache
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return active_->load() > 1;
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}
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