#pragma once #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief Symbol table entry */ struct sym_entry { uint32_t hash; uint32_t address; }; /** * @brief Resolver for API entries using a pre-sorted table with hashes * @param interface pointer to HashtableApiInterface * @param name function name * @param address output for function address * @return true if the table contains a function */ bool elf_resolve_from_hashtable( const ElfApiInterface* interface, const char* name, Elf32_Addr* address); #ifdef __cplusplus } #include #include /** * @brief HashtableApiInterface is an implementation of ElfApiInterface * that uses a hash table to resolve function addresses. * table_cbegin and table_cend must point to a sorted array of sym_entry */ struct HashtableApiInterface : public ElfApiInterface { const sym_entry *table_cbegin, *table_cend; }; #define API_METHOD(x, ret_type, args_type) \ sym_entry { \ .hash = elf_gnu_hash(#x), .address = (uint32_t)(static_cast(x)) \ } #define API_VARIABLE(x, var_type) \ sym_entry { .hash = elf_gnu_hash(#x), .address = (uint32_t)(&(x)), } constexpr bool operator<(const sym_entry& k1, const sym_entry& k2) { return k1.hash < k2.hash; } /** * @brief Calculate hash for a string using the ELF GNU hash algorithm * @param s string to calculate hash for * @return hash value */ constexpr uint32_t elf_gnu_hash(const char* s) { uint32_t h = 0x1505; for(unsigned char c = *s; c != '\0'; c = *++s) { h = (h << 5) + h + c; } return h; } /* Compile-time check for hash collisions in API table. * Usage: static_assert(!has_hash_collisions(api_methods), "Hash collision detected"); */ template constexpr bool has_hash_collisions(const std::array& api_methods) { for(std::size_t i = 0; i < (N - 1); ++i) { if(api_methods[i].hash == api_methods[i + 1].hash) { return true; } } return false; } #endif