// The Construct // // Copyright (C) The Construct Developers, Authors & Contributors // Copyright (C) 2016-2021 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. #pragma once #define HAVE_IRCD_CL_H /// OpenCL Interface namespace ircd::cl { struct init; struct exec; struct kern; struct code; struct data; struct work; IRCD_EXCEPTION(ircd::error, error) IRCD_EXCEPTION(error, opencl_error) using read_closure = std::function; using write_closure = std::function; extern const info::versions version_api; extern info::versions version_abi; extern conf::item nice_rate; extern conf::item envs[]; extern conf::item profile_queue; extern conf::item enable; extern log::log log; string_view reflect_error(const int code) noexcept; void log_dev_info(const uint platform_id, const uint device_id); void log_dev_info(const uint platform_id); void log_dev_info(); void log_platform_info(const uint platform_id); void log_platform_info(); void flush(); void sync(); } /// cl_event wrapping struct ircd::cl::work :instance_list { void *handle {nullptr}; ctx::ctx *context {ctx::current}; void *object {nullptr}; static void init(), fini() noexcept; public: int type() const; const char *name() const; std::array profile() const; void wait(const uint = 0); explicit work(void *const &handle); // note: RetainEvent() work() noexcept; work(work &&) noexcept; work(const work &) = delete; work &operator=(work &&) noexcept; work &operator=(const work &) = delete; ~work() noexcept; }; /// cl_mem wrapping struct ircd::cl::data { void *handle {nullptr}; public: uint flags() const; size_t size() const; off_t offset() const; char *ptr() const; // host only data(const size_t, const mutable_buffer &, const bool wonly = false); // device rw data(const size_t, const const_buffer &); // device ro data(const mutable_buffer &, const bool wonly = false); // host rw data(const const_buffer &); // host ro data(data &, const pair &); // subbuffer data(const data &) = delete; data() = default; data(data &&) noexcept; data &operator=(const data &) = delete; data &operator=(data &&) noexcept; ~data() noexcept; }; /// cl_program wrapping struct ircd::cl::code { void *handle {nullptr}; public: void build(const string_view &opts = {}); explicit code(const vector_view &bins, const string_view &opts = {}); code(const vector_view &srcs, const string_view &opts = {}); code(const string_view &src, const string_view &opts = {}); code() = default; code(code &&) noexcept; code &operator=(const code &) = delete; code &operator=(code &&) noexcept; ~code() noexcept; }; /// cl_kernel wrapping struct ircd::cl::kern { struct range; void *handle {nullptr}; public: const char *name() const; uint argc() const; std::array compile_group_size(void *dev = nullptr) const; size_t preferred_group_size_multiple(void *dev = nullptr) const; size_t group_size(void *dev = nullptr) const; size_t local_mem_size(void *dev = nullptr) const; size_t stack_mem_size(void *dev = nullptr) const; void arg(const int, data &); void arg(const int, const const_buffer &); template void arg(const int, const T &); template kern(code &, const string_view &name, argv&&...); kern(code &, const string_view &name); kern() = default; kern(kern &&) noexcept; kern &operator=(const kern &) = delete; kern &operator=(kern &&) noexcept; ~kern() noexcept; }; /// NDRangeKernel dimension range selector struct ircd::cl::kern::range { std::array global { 0, 0, 0, 0, 0 }, local { 0, 0, 0, 0, 0 }, offset { 0, 0, 0, 0, 0 }; }; /// Construction enqueues the task; destruction waits for completion. /// /// clEnqueue* construction with resulting cl_event wrapping. Instances /// represent the full lifecycle of work creation, submission and completion. /// /// Our interface is tied directly to ircd::ctx for intuitive control flow and /// interaction with the device. By default, all constructions are dependent /// on the last construction made on the same ircd::ctx, providing sequential /// consistency for each ircd::ctx, and independence between different ctxs. /// Each instance destructs only when complete, otherwise the ircd::ctx will /// block in the destructor. struct ircd::cl::exec :work { struct opts; static const opts opts_default; // View data written by the device to the GTT (synchronous closure). exec(data &, const pair &, const read_closure &, const opts & = opts_default); // View buffer in the GTT which the device will read (synchronous closure). exec(data &, const pair &, const write_closure &, const opts & = opts_default); // Copy data from the buffer to the GTT for use by the device. exec(data &, const const_buffer &, const opts & = opts_default); // Copy data written by the device to the GTT into our buffer. exec(data &, const mutable_buffer &, const opts & = opts_default); // Copy data directly between buffers. exec(data &, const data &, const opts & = opts_default); // Execute a kernel on a range. exec(kern &, const kern::range &, const opts & = opts_default); // Execute a kernel on a range. exec(kern &, const opts &, const kern::range &); // Execute a barrier. exec(const opts &); // No-op exec() = default; }; /// Options for an exec. struct ircd::cl::exec::opts { /// Specify a list of dependencies. When provided, this list overrides the /// default sequential behavior; thus can be used to start new dependency /// chains for some task concurrency on the same ircd::ctx. Providing a /// single reference to the last exec on the same stack is equivalent to /// the default. vector_view deps; /// For operations which have a size; otherwise ignored, or serves as /// sentinel for automatic size. size_t size {-1UL}; /// For operations which have an offset (or two); otherwise ignored. off_t offset[2] {0}; /// Tune the intensity of the execution. For headless deployments the /// maximum intensity is advised. Lesser values are more intense. The /// default of -1 is the maximum. The value of zero yields the ircd::ctx /// after submission, but does not otherwise decrease the intensity. int nice {-1}; /// Starts a new dependency chain; allowing empty deps without implicit /// dependency on the last work item constructed on the ircd::ctx. bool indep {false}; /// For operations which plan to both read and write to the GTT, set to /// true and execute the write_closure; otherwise ignored. Can be used /// to de-optimize the write_closure, which is unidirectional by default. bool duplex {false}; /// For operations that have an optional blocking behavior; otherwise /// ignored. Note that this is a thread-level blocking mechanism and /// does not yield the ircd::ctx; for testing/special use only. bool blocking {false}; /// Perform a flush of the queue directly after submit. bool flush {false}; /// Perform a sync of the queue directly after submit; this will block in /// the ctor; all work will be complete at full construction. bool sync {false}; }; class ircd::cl::init { size_t init_platforms(); size_t init_devices(); size_t init_pipes(); void fini_pipes(); public: init(); ~init() noexcept; }; #ifndef IRCD_USE_OPENCL inline ircd::cl::init::init() {} inline ircd::cl::init::~init() noexcept {} #endif inline ircd::cl::work::work(work &&other) noexcept :handle{std::move(other.handle)} ,context{std::move(other.context)} { other.handle = nullptr; other.context = nullptr; } inline ircd::cl::work & ircd::cl::work::operator=(work &&other) noexcept { this->~work(); handle = std::move(other.handle); context = std::move(other.context); other.handle = nullptr; other.context = nullptr; return *this; } template inline ircd::cl::kern::kern(code &c, const string_view &name, argv&&... a) :kern{c, name} { uint i(0); (this->arg(i++, a), ...); } template inline void ircd::cl::kern::arg(const int pos, const T &val) { static_assert(!std::is_same()); arg(pos, const_buffer { reinterpret_cast(&val), sizeof(T) }); } inline ircd::cl::exec::exec(kern &kern, const opts &opts, const kern::range &range) :exec { kern, range, opts } {}