From a81818b2dbcc049b7855a4e49361a49e2e5921cc Mon Sep 17 00:00:00 2001 From: "Sergio R. Caprile" Date: Tue, 24 Sep 2024 19:23:28 -0300 Subject: [PATCH] avoid trashing other projs thinking redefining types is convenient --- mongoose.c | 138 +++++++++++++++++++++++------------------------ mongoose.h | 3 -- src/tls_aes128.c | 138 +++++++++++++++++++++++------------------------ src/tls_aes128.h | 3 -- 4 files changed, 138 insertions(+), 144 deletions(-) diff --git a/mongoose.c b/mongoose.c index b5a84a02..dad296bc 100644 --- a/mongoose.c +++ b/mongoose.c @@ -8374,8 +8374,8 @@ static void aes_init_keygen_tables(void); ******************************************************************************/ static int aes_setkey(aes_context *ctx, // pointer to context int mode, // 1 or 0 for Encrypt/Decrypt - const uchar *key, // AES input key - uint keysize); // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // AES input key + unsigned int keysize); // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) // returns 0 for success @@ -8383,8 +8383,8 @@ static int aes_setkey(aes_context *ctx, // pointer to context * AES_CIPHER : called to encrypt or decrypt ONE 128-bit block of data ******************************************************************************/ static int aes_cipher(aes_context *ctx, // pointer to context - const uchar input[16], // 128-bit block to en/decipher - uchar output[16]); // 128-bit output result block + const unsigned char input[16], // 128-bit block to en/decipher + unsigned char output[16]); // 128-bit output result block // returns 0 for success /****************************************************************************** @@ -8396,9 +8396,9 @@ typedef struct { uint64_t add_len; // total add data length uint64_t HL[16]; // precalculated lo-half HTable uint64_t HH[16]; // precalculated hi-half HTable - uchar base_ectr[16]; // first counter-mode cipher output for tag - uchar y[16]; // the current cipher-input IV|Counter value - uchar buf[16]; // buf working value + unsigned char base_ectr[16]; // first counter-mode cipher output for tag + unsigned char y[16]; // the current cipher-input IV|Counter value + unsigned char buf[16]; // buf working value aes_context aes_ctx; // cipher context used } gcm_context; @@ -8407,8 +8407,8 @@ typedef struct { ******************************************************************************/ static int gcm_setkey( gcm_context *ctx, // caller-provided context ptr - const uchar *key, // pointer to cipher key - const uint keysize // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // pointer to cipher key + const unsigned int keysize // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) ); // returns 0 for success @@ -8432,14 +8432,14 @@ static int gcm_setkey( static int gcm_crypt_and_tag( gcm_context *ctx, // gcm context with key already setup int mode, // cipher direction: MG_ENCRYPT (1) or MG_DECRYPT (0) - const uchar *iv, // pointer to the 12-byte initialization vector + const unsigned char *iv, // pointer to the 12-byte initialization vector size_t iv_len, // byte length if the IV. should always be 12 - const uchar *add, // pointer to the non-ciphered additional data + const unsigned char *add, // pointer to the non-ciphered additional data size_t add_len, // byte length of the additional AEAD data - const uchar *input, // pointer to the cipher data source - uchar *output, // pointer to the cipher data destination + const unsigned char *input, // pointer to the cipher data source + unsigned char *output, // pointer to the cipher data destination size_t length, // byte length of the cipher data - uchar *tag, // pointer to the tag to be generated + unsigned char *tag, // pointer to the tag to be generated size_t tag_len); // byte length of the tag to be generated /****************************************************************************** @@ -8453,9 +8453,9 @@ static int gcm_crypt_and_tag( static int gcm_start( gcm_context *ctx, // pointer to user-provided GCM context int mode, // MG_ENCRYPT (1) or MG_DECRYPT (0) - const uchar *iv, // pointer to initialization vector + const unsigned char *iv, // pointer to initialization vector size_t iv_len, // IV length in bytes (should == 12) - const uchar *add, // pointer to additional AEAD data (NULL if none) + const unsigned char *add, // pointer to additional AEAD data (NULL if none) size_t add_len); // length of additional AEAD data (bytes) /****************************************************************************** @@ -8471,8 +8471,8 @@ static int gcm_start( ******************************************************************************/ static int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context size_t length, // length, in bytes, of data to process - const uchar *input, // pointer to source data - uchar *output); // pointer to destination data + const unsigned char *input, // pointer to source data + unsigned char *output); // pointer to destination data /****************************************************************************** * @@ -8484,7 +8484,7 @@ static int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context ******************************************************************************/ static int gcm_finish( gcm_context *ctx, // pointer to user-provided GCM context - uchar *tag, // ptr to tag buffer - NULL if tag_len = 0 + unsigned char *tag, // ptr to tag buffer - NULL if tag_len = 0 size_t tag_len); // length, in bytes, of the tag-receiving buf /****************************************************************************** @@ -8539,14 +8539,14 @@ static int aes_tables_inited = 0; // run-once flag for performing key * decryption is typically disabled by setting AES_DECRYPTION to 0 in aes.h. */ // We always need our forward tables -static uchar FSb[256]; // Forward substitution box (FSb) +static unsigned char FSb[256]; // Forward substitution box (FSb) static uint32_t FT0[256]; // Forward key schedule assembly tables static uint32_t FT1[256]; static uint32_t FT2[256]; static uint32_t FT3[256]; #if AES_DECRYPTION // We ONLY need reverse for decryption -static uchar RSb[256]; // Reverse substitution box (RSb) +static unsigned char RSb[256]; // Reverse substitution box (RSb) static uint32_t RT0[256]; // Reverse key schedule assembly tables static uint32_t RT1[256]; static uint32_t RT2[256]; @@ -8567,10 +8567,10 @@ static uint32_t RCON[10]; // AES round constants #define PUT_UINT32_LE(n, b, i) \ { \ - (b)[(i)] = (uchar) ((n)); \ - (b)[(i) + 1] = (uchar) ((n) >> 8); \ - (b)[(i) + 2] = (uchar) ((n) >> 16); \ - (b)[(i) + 3] = (uchar) ((n) >> 24); \ + (b)[(i)] = (unsigned char) ((n)); \ + (b)[(i) + 1] = (unsigned char) ((n) >> 8); \ + (b)[(i) + 2] = (unsigned char) ((n) >> 16); \ + (b)[(i) + 3] = (unsigned char) ((n) >> 24); \ } /* @@ -8667,9 +8667,9 @@ void aes_init_keygen_tables(void) { MIX(x, y); MIX(x, y); MIX(x, y); - FSb[i] = (uchar) (x ^= 0x63); + FSb[i] = (unsigned char) (x ^= 0x63); #if AES_DECRYPTION // whether AES decryption is supported - RSb[x] = (uchar) i; + RSb[x] = (unsigned char) i; #endif /* AES_DECRYPTION */ } // generate the forward and reverse key expansion tables @@ -8709,9 +8709,9 @@ void aes_init_keygen_tables(void) { * Valid lengths are: 16, 24 or 32 bytes (128, 192, 256 bits). * ******************************************************************************/ -static int aes_set_encryption_key(aes_context *ctx, const uchar *key, - uint keysize) { - uint i; // general purpose iteration local +static int aes_set_encryption_key(aes_context *ctx, const unsigned char *key, + unsigned int keysize) { + unsigned int i; // general purpose iteration local uint32_t *RK = ctx->rk; // initialize our RoundKey buffer pointer for (i = 0; i < (keysize >> 2); i++) { @@ -8787,8 +8787,8 @@ static int aes_set_encryption_key(aes_context *ctx, const uchar *key, * length in bits. Valid lengths are: 128, 192, or 256 bits. * ******************************************************************************/ -static int aes_set_decryption_key(aes_context *ctx, const uchar *key, - uint keysize) { +static int aes_set_decryption_key(aes_context *ctx, const unsigned char *key, + unsigned int keysize) { int i, j; aes_context cty; // a calling aes context for set_encryption_key uint32_t *RK = ctx->rk; // initialize our RoundKey buffer pointer @@ -8826,8 +8826,8 @@ static int aes_set_decryption_key(aes_context *ctx, const uchar *key, ******************************************************************************/ static int aes_setkey(aes_context *ctx, // AES context provided by our caller int mode, // ENCRYPT or DECRYPT flag - const uchar *key, // pointer to the key - uint keysize) // key length in bytes + const unsigned char *key, // pointer to the key + unsigned int keysize) // key length in bytes { // since table initialization is not thread safe, we could either add // system-specific mutexes and init the AES key generation tables on @@ -8870,8 +8870,8 @@ static int aes_setkey(aes_context *ctx, // AES context provided by our caller * and all keying information appropriate for the task. * ******************************************************************************/ -static int aes_cipher(aes_context *ctx, const uchar input[16], - uchar output[16]) { +static int aes_cipher(aes_context *ctx, const unsigned char input[16], + unsigned char output[16]) { int i; uint32_t *RK, X0, X1, X2, X3, Y0, Y1, Y2, Y3; // general purpose locals @@ -9048,10 +9048,10 @@ static const uint64_t last4[16] = { #define PUT_UINT32_BE(n, b, i) \ { \ - (b)[(i)] = (uchar) ((n) >> 24); \ - (b)[(i) + 1] = (uchar) ((n) >> 16); \ - (b)[(i) + 2] = (uchar) ((n) >> 8); \ - (b)[(i) + 3] = (uchar) ((n)); \ + (b)[(i)] = (unsigned char) ((n) >> 24); \ + (b)[(i) + 1] = (unsigned char) ((n) >> 16); \ + (b)[(i) + 2] = (unsigned char) ((n) >> 8); \ + (b)[(i) + 3] = (unsigned char) ((n)); \ } /****************************************************************************** @@ -9081,31 +9081,31 @@ int mg_gcm_initialize(void) { * ******************************************************************************/ static void gcm_mult(gcm_context *ctx, // pointer to established context - const uchar x[16], // pointer to 128-bit input vector - uchar output[16]) // pointer to 128-bit output vector + const unsigned char x[16], // pointer to 128-bit input vector + unsigned char output[16]) // pointer to 128-bit output vector { int i; - uchar lo, hi, rem; + unsigned char lo, hi, rem; uint64_t zh, zl; - lo = (uchar) (x[15] & 0x0f); - hi = (uchar) (x[15] >> 4); + lo = (unsigned char) (x[15] & 0x0f); + hi = (unsigned char) (x[15] >> 4); zh = ctx->HH[lo]; zl = ctx->HL[lo]; for (i = 15; i >= 0; i--) { - lo = (uchar) (x[i] & 0x0f); - hi = (uchar) (x[i] >> 4); + lo = (unsigned char) (x[i] & 0x0f); + hi = (unsigned char) (x[i] >> 4); if (i != 15) { - rem = (uchar) (zl & 0x0f); + rem = (unsigned char) (zl & 0x0f); zl = (zh << 60) | (zl >> 4); zh = (zh >> 4); zh ^= (uint64_t) last4[rem] << 48; zh ^= ctx->HH[lo]; zl ^= ctx->HL[lo]; } - rem = (uchar) (zl & 0x0f); + rem = (unsigned char) (zl & 0x0f); zl = (zh << 60) | (zl >> 4); zh = (zh >> 4); zh ^= (uint64_t) last4[rem] << 48; @@ -9128,8 +9128,8 @@ static void gcm_mult(gcm_context *ctx, // pointer to established context ******************************************************************************/ static int gcm_setkey( gcm_context *ctx, // pointer to caller-provided gcm context - const uchar *key, // pointer to the AES encryption key - const uint keysize) // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // pointer to the AES encryption key + const unsigned int keysize) // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) { int ret, i, j; @@ -9201,14 +9201,14 @@ static int gcm_setkey( ******************************************************************************/ int gcm_start(gcm_context *ctx, // pointer to user-provided GCM context int mode, // GCM_ENCRYPT or GCM_DECRYPT - const uchar *iv, // pointer to initialization vector + const unsigned char *iv, // pointer to initialization vector size_t iv_len, // IV length in bytes (should == 12) - const uchar *add, // ptr to additional AEAD data (NULL if none) + const unsigned char *add, // ptr to additional AEAD data (NULL if none) size_t add_len) // length of additional AEAD data (bytes) { int ret; // our error return if the AES encrypt fails - uchar work_buf[16]; // XOR source built from provided IV if len != 16 - const uchar *p; // general purpose array pointer + unsigned char work_buf[16]; // XOR source built from provided IV if len != 16 + const unsigned char *p; // general purpose array pointer size_t use_len; // byte count to process, up to 16 bytes size_t i; // local loop iterator @@ -9269,11 +9269,11 @@ int gcm_start(gcm_context *ctx, // pointer to user-provided GCM context ******************************************************************************/ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context size_t length, // length, in bytes, of data to process - const uchar *input, // pointer to source data - uchar *output) // pointer to destination data + const unsigned char *input, // pointer to source data + unsigned char *output) // pointer to destination data { int ret; // our error return if the AES encrypt fails - uchar ectr[16]; // counter-mode cipher output for XORing + unsigned char ectr[16]; // counter-mode cipher output for XORing size_t use_len; // byte count to process, up to 16 bytes size_t i; // local loop iterator @@ -9294,7 +9294,7 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context if (ctx->mode == MG_ENCRYPT) { for (i = 0; i < use_len; i++) { // XOR the cipher's ouptut vector (ectr) with our input - output[i] = (uchar) (ectr[i] ^ input[i]); + output[i] = (unsigned char) (ectr[i] ^ input[i]); // now we mix in our data into the authentication hash. // if we're ENcrypting we XOR in the post-XOR (output) // results, but if we're DEcrypting we XOR in the input @@ -9311,7 +9311,7 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context ctx->buf[i] ^= input[i]; // XOR the cipher's ouptut vector (ectr) with our input - output[i] = (uchar) (ectr[i] ^ input[i]); + output[i] = (unsigned char) (ectr[i] ^ input[i]); } } gcm_mult(ctx, ctx->buf, ctx->buf); // perform a GHASH operation @@ -9332,10 +9332,10 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context * ******************************************************************************/ int gcm_finish(gcm_context *ctx, // pointer to user-provided GCM context - uchar *tag, // pointer to buffer which receives the tag + unsigned char *tag, // pointer to buffer which receives the tag size_t tag_len) // length, in bytes, of the tag-receiving buf { - uchar work_buf[16]; + unsigned char work_buf[16]; uint64_t orig_len = ctx->len * 8; uint64_t orig_add_len = ctx->add_len * 8; size_t i; @@ -9377,14 +9377,14 @@ int gcm_finish(gcm_context *ctx, // pointer to user-provided GCM context int gcm_crypt_and_tag( gcm_context *ctx, // gcm context with key already setup int mode, // cipher direction: GCM_ENCRYPT or GCM_DECRYPT - const uchar *iv, // pointer to the 12-byte initialization vector + const unsigned char *iv, // pointer to the 12-byte initialization vector size_t iv_len, // byte length if the IV. should always be 12 - const uchar *add, // pointer to the non-ciphered additional data + const unsigned char *add, // pointer to the non-ciphered additional data size_t add_len, // byte length of the additional AEAD data - const uchar *input, // pointer to the cipher data source - uchar *output, // pointer to the cipher data destination + const unsigned char *input, // pointer to the cipher data source + unsigned char *output, // pointer to the cipher data destination size_t length, // byte length of the cipher data - uchar *tag, // pointer to the tag to be generated + unsigned char *tag, // pointer to the tag to be generated size_t tag_len) // byte length of the tag to be generated { /* assuming that the caller has already invoked gcm_setkey to @@ -9427,7 +9427,7 @@ int mg_aes_gcm_encrypt(unsigned char *output, // int ret = 0; // our return value gcm_context ctx; // includes the AES context structure - gcm_setkey(&ctx, key, (uint) key_len); + gcm_setkey(&ctx, key, (unsigned int) key_len); ret = gcm_crypt_and_tag(&ctx, MG_ENCRYPT, iv, iv_len, aead, aead_len, input, output, input_length, tag, tag_len); @@ -9447,7 +9447,7 @@ int mg_aes_gcm_decrypt(unsigned char *output, const unsigned char *input, size_t tag_len = 0; unsigned char *tag_buf = NULL; - gcm_setkey(&ctx, key, (uint) key_len); + gcm_setkey(&ctx, key, (unsigned int) key_len); ret = gcm_crypt_and_tag(&ctx, MG_DECRYPT, iv, iv_len, NULL, 0, input, output, input_length, tag_buf, tag_len); diff --git a/mongoose.h b/mongoose.h index f8057e4d..8e9ca44b 100644 --- a/mongoose.h +++ b/mongoose.h @@ -1283,9 +1283,6 @@ int mg_tls_x25519(uint8_t out[X25519_BYTES], const uint8_t scalar[X25519_BYTES], #ifndef TLS_AES128_H #define TLS_AES128_H -typedef unsigned char uchar; // add some convienent shorter types -typedef unsigned int uint; - /****************************************************************************** * AES_CONTEXT : cipher context / holds inter-call data ******************************************************************************/ diff --git a/src/tls_aes128.c b/src/tls_aes128.c index e4ce43b9..5128fafb 100644 --- a/src/tls_aes128.c +++ b/src/tls_aes128.c @@ -42,8 +42,8 @@ static void aes_init_keygen_tables(void); ******************************************************************************/ static int aes_setkey(aes_context *ctx, // pointer to context int mode, // 1 or 0 for Encrypt/Decrypt - const uchar *key, // AES input key - uint keysize); // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // AES input key + unsigned int keysize); // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) // returns 0 for success @@ -51,8 +51,8 @@ static int aes_setkey(aes_context *ctx, // pointer to context * AES_CIPHER : called to encrypt or decrypt ONE 128-bit block of data ******************************************************************************/ static int aes_cipher(aes_context *ctx, // pointer to context - const uchar input[16], // 128-bit block to en/decipher - uchar output[16]); // 128-bit output result block + const unsigned char input[16], // 128-bit block to en/decipher + unsigned char output[16]); // 128-bit output result block // returns 0 for success /****************************************************************************** @@ -64,9 +64,9 @@ typedef struct { uint64_t add_len; // total add data length uint64_t HL[16]; // precalculated lo-half HTable uint64_t HH[16]; // precalculated hi-half HTable - uchar base_ectr[16]; // first counter-mode cipher output for tag - uchar y[16]; // the current cipher-input IV|Counter value - uchar buf[16]; // buf working value + unsigned char base_ectr[16]; // first counter-mode cipher output for tag + unsigned char y[16]; // the current cipher-input IV|Counter value + unsigned char buf[16]; // buf working value aes_context aes_ctx; // cipher context used } gcm_context; @@ -75,8 +75,8 @@ typedef struct { ******************************************************************************/ static int gcm_setkey( gcm_context *ctx, // caller-provided context ptr - const uchar *key, // pointer to cipher key - const uint keysize // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // pointer to cipher key + const unsigned int keysize // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) ); // returns 0 for success @@ -100,14 +100,14 @@ static int gcm_setkey( static int gcm_crypt_and_tag( gcm_context *ctx, // gcm context with key already setup int mode, // cipher direction: MG_ENCRYPT (1) or MG_DECRYPT (0) - const uchar *iv, // pointer to the 12-byte initialization vector + const unsigned char *iv, // pointer to the 12-byte initialization vector size_t iv_len, // byte length if the IV. should always be 12 - const uchar *add, // pointer to the non-ciphered additional data + const unsigned char *add, // pointer to the non-ciphered additional data size_t add_len, // byte length of the additional AEAD data - const uchar *input, // pointer to the cipher data source - uchar *output, // pointer to the cipher data destination + const unsigned char *input, // pointer to the cipher data source + unsigned char *output, // pointer to the cipher data destination size_t length, // byte length of the cipher data - uchar *tag, // pointer to the tag to be generated + unsigned char *tag, // pointer to the tag to be generated size_t tag_len); // byte length of the tag to be generated /****************************************************************************** @@ -121,9 +121,9 @@ static int gcm_crypt_and_tag( static int gcm_start( gcm_context *ctx, // pointer to user-provided GCM context int mode, // MG_ENCRYPT (1) or MG_DECRYPT (0) - const uchar *iv, // pointer to initialization vector + const unsigned char *iv, // pointer to initialization vector size_t iv_len, // IV length in bytes (should == 12) - const uchar *add, // pointer to additional AEAD data (NULL if none) + const unsigned char *add, // pointer to additional AEAD data (NULL if none) size_t add_len); // length of additional AEAD data (bytes) /****************************************************************************** @@ -139,8 +139,8 @@ static int gcm_start( ******************************************************************************/ static int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context size_t length, // length, in bytes, of data to process - const uchar *input, // pointer to source data - uchar *output); // pointer to destination data + const unsigned char *input, // pointer to source data + unsigned char *output); // pointer to destination data /****************************************************************************** * @@ -152,7 +152,7 @@ static int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context ******************************************************************************/ static int gcm_finish( gcm_context *ctx, // pointer to user-provided GCM context - uchar *tag, // ptr to tag buffer - NULL if tag_len = 0 + unsigned char *tag, // ptr to tag buffer - NULL if tag_len = 0 size_t tag_len); // length, in bytes, of the tag-receiving buf /****************************************************************************** @@ -207,14 +207,14 @@ static int aes_tables_inited = 0; // run-once flag for performing key * decryption is typically disabled by setting AES_DECRYPTION to 0 in aes.h. */ // We always need our forward tables -static uchar FSb[256]; // Forward substitution box (FSb) +static unsigned char FSb[256]; // Forward substitution box (FSb) static uint32_t FT0[256]; // Forward key schedule assembly tables static uint32_t FT1[256]; static uint32_t FT2[256]; static uint32_t FT3[256]; #if AES_DECRYPTION // We ONLY need reverse for decryption -static uchar RSb[256]; // Reverse substitution box (RSb) +static unsigned char RSb[256]; // Reverse substitution box (RSb) static uint32_t RT0[256]; // Reverse key schedule assembly tables static uint32_t RT1[256]; static uint32_t RT2[256]; @@ -235,10 +235,10 @@ static uint32_t RCON[10]; // AES round constants #define PUT_UINT32_LE(n, b, i) \ { \ - (b)[(i)] = (uchar) ((n)); \ - (b)[(i) + 1] = (uchar) ((n) >> 8); \ - (b)[(i) + 2] = (uchar) ((n) >> 16); \ - (b)[(i) + 3] = (uchar) ((n) >> 24); \ + (b)[(i)] = (unsigned char) ((n)); \ + (b)[(i) + 1] = (unsigned char) ((n) >> 8); \ + (b)[(i) + 2] = (unsigned char) ((n) >> 16); \ + (b)[(i) + 3] = (unsigned char) ((n) >> 24); \ } /* @@ -335,9 +335,9 @@ void aes_init_keygen_tables(void) { MIX(x, y); MIX(x, y); MIX(x, y); - FSb[i] = (uchar) (x ^= 0x63); + FSb[i] = (unsigned char) (x ^= 0x63); #if AES_DECRYPTION // whether AES decryption is supported - RSb[x] = (uchar) i; + RSb[x] = (unsigned char) i; #endif /* AES_DECRYPTION */ } // generate the forward and reverse key expansion tables @@ -377,9 +377,9 @@ void aes_init_keygen_tables(void) { * Valid lengths are: 16, 24 or 32 bytes (128, 192, 256 bits). * ******************************************************************************/ -static int aes_set_encryption_key(aes_context *ctx, const uchar *key, - uint keysize) { - uint i; // general purpose iteration local +static int aes_set_encryption_key(aes_context *ctx, const unsigned char *key, + unsigned int keysize) { + unsigned int i; // general purpose iteration local uint32_t *RK = ctx->rk; // initialize our RoundKey buffer pointer for (i = 0; i < (keysize >> 2); i++) { @@ -455,8 +455,8 @@ static int aes_set_encryption_key(aes_context *ctx, const uchar *key, * length in bits. Valid lengths are: 128, 192, or 256 bits. * ******************************************************************************/ -static int aes_set_decryption_key(aes_context *ctx, const uchar *key, - uint keysize) { +static int aes_set_decryption_key(aes_context *ctx, const unsigned char *key, + unsigned int keysize) { int i, j; aes_context cty; // a calling aes context for set_encryption_key uint32_t *RK = ctx->rk; // initialize our RoundKey buffer pointer @@ -494,8 +494,8 @@ static int aes_set_decryption_key(aes_context *ctx, const uchar *key, ******************************************************************************/ static int aes_setkey(aes_context *ctx, // AES context provided by our caller int mode, // ENCRYPT or DECRYPT flag - const uchar *key, // pointer to the key - uint keysize) // key length in bytes + const unsigned char *key, // pointer to the key + unsigned int keysize) // key length in bytes { // since table initialization is not thread safe, we could either add // system-specific mutexes and init the AES key generation tables on @@ -538,8 +538,8 @@ static int aes_setkey(aes_context *ctx, // AES context provided by our caller * and all keying information appropriate for the task. * ******************************************************************************/ -static int aes_cipher(aes_context *ctx, const uchar input[16], - uchar output[16]) { +static int aes_cipher(aes_context *ctx, const unsigned char input[16], + unsigned char output[16]) { int i; uint32_t *RK, X0, X1, X2, X3, Y0, Y1, Y2, Y3; // general purpose locals @@ -716,10 +716,10 @@ static const uint64_t last4[16] = { #define PUT_UINT32_BE(n, b, i) \ { \ - (b)[(i)] = (uchar) ((n) >> 24); \ - (b)[(i) + 1] = (uchar) ((n) >> 16); \ - (b)[(i) + 2] = (uchar) ((n) >> 8); \ - (b)[(i) + 3] = (uchar) ((n)); \ + (b)[(i)] = (unsigned char) ((n) >> 24); \ + (b)[(i) + 1] = (unsigned char) ((n) >> 16); \ + (b)[(i) + 2] = (unsigned char) ((n) >> 8); \ + (b)[(i) + 3] = (unsigned char) ((n)); \ } /****************************************************************************** @@ -749,31 +749,31 @@ int mg_gcm_initialize(void) { * ******************************************************************************/ static void gcm_mult(gcm_context *ctx, // pointer to established context - const uchar x[16], // pointer to 128-bit input vector - uchar output[16]) // pointer to 128-bit output vector + const unsigned char x[16], // pointer to 128-bit input vector + unsigned char output[16]) // pointer to 128-bit output vector { int i; - uchar lo, hi, rem; + unsigned char lo, hi, rem; uint64_t zh, zl; - lo = (uchar) (x[15] & 0x0f); - hi = (uchar) (x[15] >> 4); + lo = (unsigned char) (x[15] & 0x0f); + hi = (unsigned char) (x[15] >> 4); zh = ctx->HH[lo]; zl = ctx->HL[lo]; for (i = 15; i >= 0; i--) { - lo = (uchar) (x[i] & 0x0f); - hi = (uchar) (x[i] >> 4); + lo = (unsigned char) (x[i] & 0x0f); + hi = (unsigned char) (x[i] >> 4); if (i != 15) { - rem = (uchar) (zl & 0x0f); + rem = (unsigned char) (zl & 0x0f); zl = (zh << 60) | (zl >> 4); zh = (zh >> 4); zh ^= (uint64_t) last4[rem] << 48; zh ^= ctx->HH[lo]; zl ^= ctx->HL[lo]; } - rem = (uchar) (zl & 0x0f); + rem = (unsigned char) (zl & 0x0f); zl = (zh << 60) | (zl >> 4); zh = (zh >> 4); zh ^= (uint64_t) last4[rem] << 48; @@ -796,8 +796,8 @@ static void gcm_mult(gcm_context *ctx, // pointer to established context ******************************************************************************/ static int gcm_setkey( gcm_context *ctx, // pointer to caller-provided gcm context - const uchar *key, // pointer to the AES encryption key - const uint keysize) // size in bytes (must be 16, 24, 32 for + const unsigned char *key, // pointer to the AES encryption key + const unsigned int keysize) // size in bytes (must be 16, 24, 32 for // 128, 192 or 256-bit keys respectively) { int ret, i, j; @@ -869,14 +869,14 @@ static int gcm_setkey( ******************************************************************************/ int gcm_start(gcm_context *ctx, // pointer to user-provided GCM context int mode, // GCM_ENCRYPT or GCM_DECRYPT - const uchar *iv, // pointer to initialization vector + const unsigned char *iv, // pointer to initialization vector size_t iv_len, // IV length in bytes (should == 12) - const uchar *add, // ptr to additional AEAD data (NULL if none) + const unsigned char *add, // ptr to additional AEAD data (NULL if none) size_t add_len) // length of additional AEAD data (bytes) { int ret; // our error return if the AES encrypt fails - uchar work_buf[16]; // XOR source built from provided IV if len != 16 - const uchar *p; // general purpose array pointer + unsigned char work_buf[16]; // XOR source built from provided IV if len != 16 + const unsigned char *p; // general purpose array pointer size_t use_len; // byte count to process, up to 16 bytes size_t i; // local loop iterator @@ -937,11 +937,11 @@ int gcm_start(gcm_context *ctx, // pointer to user-provided GCM context ******************************************************************************/ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context size_t length, // length, in bytes, of data to process - const uchar *input, // pointer to source data - uchar *output) // pointer to destination data + const unsigned char *input, // pointer to source data + unsigned char *output) // pointer to destination data { int ret; // our error return if the AES encrypt fails - uchar ectr[16]; // counter-mode cipher output for XORing + unsigned char ectr[16]; // counter-mode cipher output for XORing size_t use_len; // byte count to process, up to 16 bytes size_t i; // local loop iterator @@ -962,7 +962,7 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context if (ctx->mode == MG_ENCRYPT) { for (i = 0; i < use_len; i++) { // XOR the cipher's ouptut vector (ectr) with our input - output[i] = (uchar) (ectr[i] ^ input[i]); + output[i] = (unsigned char) (ectr[i] ^ input[i]); // now we mix in our data into the authentication hash. // if we're ENcrypting we XOR in the post-XOR (output) // results, but if we're DEcrypting we XOR in the input @@ -979,7 +979,7 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context ctx->buf[i] ^= input[i]; // XOR the cipher's ouptut vector (ectr) with our input - output[i] = (uchar) (ectr[i] ^ input[i]); + output[i] = (unsigned char) (ectr[i] ^ input[i]); } } gcm_mult(ctx, ctx->buf, ctx->buf); // perform a GHASH operation @@ -1000,10 +1000,10 @@ int gcm_update(gcm_context *ctx, // pointer to user-provided GCM context * ******************************************************************************/ int gcm_finish(gcm_context *ctx, // pointer to user-provided GCM context - uchar *tag, // pointer to buffer which receives the tag + unsigned char *tag, // pointer to buffer which receives the tag size_t tag_len) // length, in bytes, of the tag-receiving buf { - uchar work_buf[16]; + unsigned char work_buf[16]; uint64_t orig_len = ctx->len * 8; uint64_t orig_add_len = ctx->add_len * 8; size_t i; @@ -1045,14 +1045,14 @@ int gcm_finish(gcm_context *ctx, // pointer to user-provided GCM context int gcm_crypt_and_tag( gcm_context *ctx, // gcm context with key already setup int mode, // cipher direction: GCM_ENCRYPT or GCM_DECRYPT - const uchar *iv, // pointer to the 12-byte initialization vector + const unsigned char *iv, // pointer to the 12-byte initialization vector size_t iv_len, // byte length if the IV. should always be 12 - const uchar *add, // pointer to the non-ciphered additional data + const unsigned char *add, // pointer to the non-ciphered additional data size_t add_len, // byte length of the additional AEAD data - const uchar *input, // pointer to the cipher data source - uchar *output, // pointer to the cipher data destination + const unsigned char *input, // pointer to the cipher data source + unsigned char *output, // pointer to the cipher data destination size_t length, // byte length of the cipher data - uchar *tag, // pointer to the tag to be generated + unsigned char *tag, // pointer to the tag to be generated size_t tag_len) // byte length of the tag to be generated { /* assuming that the caller has already invoked gcm_setkey to @@ -1095,7 +1095,7 @@ int mg_aes_gcm_encrypt(unsigned char *output, // int ret = 0; // our return value gcm_context ctx; // includes the AES context structure - gcm_setkey(&ctx, key, (uint) key_len); + gcm_setkey(&ctx, key, (unsigned int) key_len); ret = gcm_crypt_and_tag(&ctx, MG_ENCRYPT, iv, iv_len, aead, aead_len, input, output, input_length, tag, tag_len); @@ -1115,7 +1115,7 @@ int mg_aes_gcm_decrypt(unsigned char *output, const unsigned char *input, size_t tag_len = 0; unsigned char *tag_buf = NULL; - gcm_setkey(&ctx, key, (uint) key_len); + gcm_setkey(&ctx, key, (unsigned int) key_len); ret = gcm_crypt_and_tag(&ctx, MG_DECRYPT, iv, iv_len, NULL, 0, input, output, input_length, tag_buf, tag_len); diff --git a/src/tls_aes128.h b/src/tls_aes128.h index f6cd8154..166b84f9 100644 --- a/src/tls_aes128.h +++ b/src/tls_aes128.h @@ -24,9 +24,6 @@ #ifndef TLS_AES128_H #define TLS_AES128_H -typedef unsigned char uchar; // add some convienent shorter types -typedef unsigned int uint; - /****************************************************************************** * AES_CONTEXT : cipher context / holds inter-call data ******************************************************************************/