/* * cc.h * corecrypto * * Created on 12/16/2010 * * Copyright (c) 2010,2011,2012,2014,2015 Apple Inc. All rights reserved. * */ #ifndef _CORECRYPTO_CC_H_ #define _CORECRYPTO_CC_H_ #include <corecrypto/cc_config.h> #include <string.h> #include <stdint.h> /* Manage asserts here because a few functions in header public files do use asserts */ #define cc_assert(x) assert(x) #if CC_KERNEL #include <kern/assert.h> #elif CC_USE_S3 #define assert(args) // No assert in S3 #else #include <assert.h> #endif /* Declare a struct element with a guarenteed alignment of _alignment_. The resulting struct can be used to create arrays that are aligned by a certain amount. */ #define cc_aligned_struct(_alignment_) \ typedef struct { \ uint8_t b[_alignment_]; \ } CC_ALIGNED(_alignment_) /* number of array elements used in a cc_ctx_decl */ #define cc_ctx_n(_type_, _size_) ((_size_ + sizeof(_type_) - 1) / sizeof(_type_)) /* sizeof of a context declared with cc_ctx_decl */ #define cc_ctx_sizeof(_type_, _size_) sizeof(_type_[cc_ctx_n(_type_, _size_)]) //- WARNING: The _MSC_VER version of cc_ctx_decl() is not compatible with the way *_decl macros are used in CommonCrypto, AppleKeyStore and SecurityFrameworks // to observe the incompatibilities and errors, use below definition. Corecrypto itself, accepts both deinitions // #define cc_ctx_decl(_type_, _size_, _name_) _type_ _name_ ## _array[cc_ctx_n(_type_, (_size_))]; _type_ *_name_ = _name_ ## _array //- Never use sizeof() operator for the variables declared with cc_ctx_decl(), because it is not be compatible with the _MSC_VER version of cc_ctx_decl(). #if defined(_MSC_VER) #define UNIQUE_ARRAY(data_type, _var_, total_count) data_type* _var_ = (data_type*)_alloca(sizeof(data_type)*(total_count)); #define cc_ctx_decl(_type_, _size_, _name_) UNIQUE_ARRAY(_type_, _name_,cc_ctx_n(_type_, (_size_))) #else #define cc_ctx_decl(_type_, _size_, _name_) _type_ _name_ [cc_ctx_n(_type_, _size_)] #endif /* bzero is deprecated. memset is the way to go */ /* FWIW, L4, HEXAGON and ARMCC even with gnu compatibility mode don't have bzero */ #define cc_zero(_size_,_data_) memset((_data_),0 ,(_size_)) /* cc_clear: Set "len" bytes of memory to zero at address "dst". cc_clear has been developed so that it won't be optimized out. To be used to clear key buffers or sensitive data. */ CC_NONNULL2 void cc_clear(size_t len, void *dst); #define cc_copy(_size_, _dst_, _src_) memcpy(_dst_, _src_, _size_) CC_INLINE CC_NONNULL2 CC_NONNULL3 CC_NONNULL4 void cc_xor(size_t size, void *r, const void *s, const void *t) { uint8_t *_r=(uint8_t *)r; const uint8_t *_s=(const uint8_t *)s; const uint8_t *_t=(const uint8_t *)t; while (size--) { _r[size] = _s[size] ^ _t[size]; } } /*! @brief cc_cmp_safe(num, pt1, pt2) compares two array ptr1 and ptr2 of num bytes. @discussion The execution time/cycles is independent of the data and therefore guarantees no leak about the data. However, the execution time depends on num. @param num number of bytes in each array @param ptr1 input array @param ptr2 input array @return returns 0 if the num bytes starting at ptr1 are identical to the num bytes starting at ptr2 and 1 if they are different or if num is 0 (empty arrays). */ CC_NONNULL2 CC_NONNULL3 int cc_cmp_safe (size_t num, const void * ptr1, const void * ptr2); /* Exchange S and T of any type. NOTE: Both and S and T are evaluated mutliple times and MUST NOT be expressions. */ #define CC_SWAP(S,T) do { \ __typeof__(S) _cc_swap_tmp = S; S = T; T = _cc_swap_tmp; \ } while(0) /* Return the maximum value between S and T. */ #define CC_MAX(S, T) ({__typeof__(S) _cc_max_s = S; __typeof__(T) _cc_max_t = T; _cc_max_s > _cc_max_t ? _cc_max_s : _cc_max_t;}) /* Return the minimum value between S and T. */ #define CC_MIN(S, T) ({__typeof__(S) _cc_min_s = S; __typeof__(T) _cc_min_t = T; _cc_min_s <= _cc_min_t ? _cc_min_s : _cc_min_t;}) #endif /* _CORECRYPTO_CC_H_ */