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#ifndef _MAP_H
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#define _MAP_H
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#ifdef __cplusplus
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#include <stdexcept>
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extern "C" {
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#define restrict __restrict__
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#define MIFCXX(y, n) y
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#define MIFC(y, n) n
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#else
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#define MIFCXX(y, n) n
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#define MIFC(y, n) y
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#endif
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#include <stddef.h>
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typedef struct mmap {
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int fd;
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void* ptr;
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size_t len;
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} mmap_t;
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enum map_flags {
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MMF_SHARED,
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MMF_PRIVATE,
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MMF_READONLY,
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};
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int map_raw_fd(int fd, mmap_t* restrict ptr, const size_t MIFCXX(* sz, sz[static 1]));
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int open_and_alloc(const char* file, mmap_t* restrict ptr, size_t sz);
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int open_and_map(const char* file, mmap_t* restrict ptr);
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int unmap_and_close(mmap_t map);
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int dup_map(const mmap_t *in, mmap_t* restrict out, const size_t *new_size, enum map_flags flags) __attribute__((nonnull(1)));
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int map_advise_rand(mmap_t* restrict ptr, int need);
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typedef void* (*map_cb)(mmap_t map, void* user);
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void* map_and_then(const char* file, map_cb callback, void* user);
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void* map_fd_and_then(int fd, map_cb callback, void* user);
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int unmap_and_close_s(mmap_t map, int flags);
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#ifdef __cplusplus
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}
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#include <panic.h>
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#include "reinterpret.h"
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#include <cstdint>
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namespace mm {
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enum class Access {
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Random,
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};
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struct mmap;
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template<typename T>
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concept MemMap = std::derived_from<T, mmap>
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and std::is_constructible_v<T, mmap_t>;
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struct mmap {
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template<MemMap M = mmap>
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inline static M allocate(const char* file, std::size_t sz)
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{
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mmap_t map;
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if(!open_and_alloc(file, &map, sz)) panic("Failed to allocmap file");
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return M{map};
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}
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inline static mmap_t create_raw(const char* file)
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{
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mmap_t map;
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if (!::open_and_map(file, &map)) panic("Failed to map file");
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return map;
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}
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inline static mmap_t create_raw_fd(int fd, size_t sz)
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{
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mmap_t map;
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if (!::map_raw_fd(fd, &map, &sz)) panic("Failed to allocmap fd");
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return map;
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}
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inline static mmap_t create_raw_fd(int fd)
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{
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mmap_t map;
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if (!::map_raw_fd(fd, &map, nullptr)) panic("Failed to map fd");
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return map;
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}
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template<MemMap M = mmap>
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inline static M map_raw_fd(int fd, std::size_t sz = 0)
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{
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if(sz)
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return M{fd, sz};
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else return M{fd};
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}
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inline explicit mmap(mmap_t raw) noexcept :inner(raw){}
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inline mmap(const char* file)
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: inner(create_raw(file)) {}
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inline mmap(mmap&& move) : inner(move.inner)
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{
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auto other = const_cast<mmap_t*>(&move.inner);
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other->ptr = nullptr;
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}
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inline mmap(const mmap& copt) = delete;
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inline virtual ~mmap()
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{
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if (inner.ptr) {
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::unmap_and_close(inner);
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}
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}
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inline virtual mmap&& access(Access a, bool need=false) && noexcept
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{
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if(inner.ptr)
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static_cast<mmap&>(*this).access(a, need);
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return std::move(*this);
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}
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inline virtual mmap& access(Access a, bool need=false) & noexcept
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{
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switch(a) {
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case Access::Random: ::map_advise_rand(const_cast<mmap_t*>(&inner), int(need));
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default: break;
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}
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return *this;
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}
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inline const span<const unsigned char> as_span() const noexcept { return span(as_ptr(), size()); }
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inline span<unsigned char> as_span() noexcept { return span(as_ptr(), size()); }
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inline virtual const std::uint8_t* as_ptr() const noexcept { return static_cast<const std::uint8_t*>(inner.ptr); }
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inline virtual std::uint8_t* as_ptr() noexcept { return static_cast<std::uint8_t*>(inner.ptr); }
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inline virtual std::size_t size() const noexcept { return inner.len; }
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inline virtual int as_fd() const { return inner.fd; }
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inline virtual const mmap_t& as_raw() const noexcept { return inner; }
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protected:
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inline mmap(int fd, size_t sz)
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: inner(create_raw_fd(fd, sz)) {}
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inline explicit mmap(int fd)
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: inner(create_raw_fd(fd)) {}
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inline virtual mmap_t& as_raw() noexcept { return const_cast<mmap_t&>( inner ); }
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private:
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const mmap_t inner;
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};
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//template mmap::map_raw_fd<mmap>(int, size_t); // Probably not needed?
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//template mmap::allocate<mmap>(int, size_t);
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struct vmap : public mmap {
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inline explicit vmap(mmap_t m) noexcept : mmap(m) {}
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vmap();
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vmap(size_t);
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inline explicit vmap(int fd) noexcept : mmap(fd) {}
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//vmap(const char* file);
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//int as_fd() const override; unneeded
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inline virtual ~vmap() { /* unmap_and_close() is called by super */ }
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//TODO: Implement this ^ with `memfd_create()`, etc.
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};
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template<MemMap M, MemMap D = M>
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inline D dup_map(const M& map, size_t resize, map_flags flags =0)
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{
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const mmap& m = static_cast<const mmap&>(map);
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mmap_t out;
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if(! ::dup_map(&m.as_raw(), &out, &resize, flags)) panic("Failed to duplicate mapping");
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return D{out};
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}
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template<MemMap M, MemMap D = M>
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inline D dup_map(const M& map, map_flags flags =0)
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{
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const mmap& m = static_cast<const mmap&>(map);
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mmap_t out;
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if(! ::dup_map(&m.as_raw(), &out, nullptr, flags)) panic("Failed to duplicate mapping");
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return D{out};
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}
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#if 0
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// dup_map() deduction guids (XXX: Are these needed, or even valid?)
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template<MemMap D>
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dup_map(const mmap& m, size_t s, map_flags f) -> dup_map<mmap, D>;
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template<>
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dup_map(const mmap& m, size_t s, map_flags f) -> dup_map<mmap, mmap>;
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template<MemMap M>
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dup_map(const M& m, size_t s, map_flags f) -> dup_map<M, M>;
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template<MemMap D>
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dup_map(const mmap& m, map_flags f) -> dup_map<mmap, D>;
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template<>
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dup_map(const mmap& m, map_flags f) -> dup_map<mmap, mmap>;
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template<MemMap M>
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dup_map(const M& m, map_flags f) -> dup_map<M, M>;
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#endif
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}
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#undef restrict
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#undef MIFCXX
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#undef MIFC
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#endif
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#endif /* _MAP_H */
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