diff options
50 files changed, 1119 insertions, 1119 deletions
@@ -615,10 +615,10 @@ int MAIN(int argc, char **argv) oid_bio = BIO_new_file(p, "r"); if (oid_bio == NULL) { - /*- - BIO_printf(bio_err,"problems opening %s for extra oid's\n",p); - ERR_print_errors(bio_err); - */ + /*- + BIO_printf(bio_err,"problems opening %s for extra oid's\n",p); + ERR_print_errors(bio_err); + */ ERR_clear_error(); } else { OBJ_create_objects(oid_bio); diff --git a/apps/openssl.c b/apps/openssl.c index 439c7681bc..d8848b59cc 100644 --- a/apps/openssl.c +++ b/apps/openssl.c @@ -231,27 +231,27 @@ int main(int Argc, char *ARGV[]) long errline; #if defined( OPENSSL_SYS_VMS) && (__INITIAL_POINTER_SIZE == 64) - /*- - * 2011-03-22 SMS. - * If we have 32-bit pointers everywhere, then we're safe, and - * we bypass this mess, as on non-VMS systems. (See ARGV, - * above.) - * Problem 1: Compaq/HP C before V7.3 always used 32-bit - * pointers for argv[]. - * Fix 1: For a 32-bit argv[], when we're using 64-bit pointers - * everywhere else, we always allocate and use a 64-bit - * duplicate of argv[]. - * Problem 2: Compaq/HP C V7.3 (Alpha, IA64) before ECO1 failed - * to NULL-terminate a 64-bit argv[]. (As this was written, the - * compiler ECO was available only on IA64.) - * Fix 2: Unless advised not to (VMS_TRUST_ARGV), we test a - * 64-bit argv[argc] for NULL, and, if necessary, use a - * (properly) NULL-terminated (64-bit) duplicate of argv[]. - * The same code is used in either case to duplicate argv[]. - * Some of these decisions could be handled in preprocessing, - * but the code tends to get even uglier, and the penalty for - * deciding at compile- or run-time is tiny. - */ + /*- + * 2011-03-22 SMS. + * If we have 32-bit pointers everywhere, then we're safe, and + * we bypass this mess, as on non-VMS systems. (See ARGV, + * above.) + * Problem 1: Compaq/HP C before V7.3 always used 32-bit + * pointers for argv[]. + * Fix 1: For a 32-bit argv[], when we're using 64-bit pointers + * everywhere else, we always allocate and use a 64-bit + * duplicate of argv[]. + * Problem 2: Compaq/HP C V7.3 (Alpha, IA64) before ECO1 failed + * to NULL-terminate a 64-bit argv[]. (As this was written, the + * compiler ECO was available only on IA64.) + * Fix 2: Unless advised not to (VMS_TRUST_ARGV), we test a + * 64-bit argv[argc] for NULL, and, if necessary, use a + * (properly) NULL-terminated (64-bit) duplicate of argv[]. + * The same code is used in either case to duplicate argv[]. + * Some of these decisions could be handled in preprocessing, + * but the code tends to get even uglier, and the penalty for + * deciding at compile- or run-time is tiny. + */ char **Argv = NULL; int free_Argv = 0; diff --git a/apps/req.c b/apps/req.c index 5cc75869be..990c5bdea0 100644 --- a/apps/req.c +++ b/apps/req.c @@ -491,10 +491,10 @@ int MAIN(int argc, char **argv) oid_bio = BIO_new_file(p, "r"); if (oid_bio == NULL) { - /*- - BIO_printf(bio_err,"problems opening %s for extra oid's\n",p); - ERR_print_errors(bio_err); - */ + /*- + BIO_printf(bio_err,"problems opening %s for extra oid's\n",p); + ERR_print_errors(bio_err); + */ } else { OBJ_create_objects(oid_bio); BIO_free(oid_bio); diff --git a/apps/s_cb.c b/apps/s_cb.c index 12e89620ec..d043048bad 100644 --- a/apps/s_cb.c +++ b/apps/s_cb.c @@ -221,20 +221,20 @@ int set_cert_stuff(SSL_CTX *ctx, char *cert_file, char *key_file) return (0); } - /*- - In theory this is no longer needed - ssl=SSL_new(ctx); - x509=SSL_get_certificate(ssl); - - if (x509 != NULL) { - EVP_PKEY *pktmp; - pktmp = X509_get_pubkey(x509); - EVP_PKEY_copy_parameters(pktmp, - SSL_get_privatekey(ssl)); - EVP_PKEY_free(pktmp); - } - SSL_free(ssl); - */ + /*- + In theory this is no longer needed + ssl=SSL_new(ctx); + x509=SSL_get_certificate(ssl); + + if (x509 != NULL) { + EVP_PKEY *pktmp; + pktmp = X509_get_pubkey(x509); + EVP_PKEY_copy_parameters(pktmp, + SSL_get_privatekey(ssl)); + EVP_PKEY_free(pktmp); + } + SSL_free(ssl); + */ /* * If we are using DSA, we can copy the parameters from the private diff --git a/apps/s_socket.c b/apps/s_socket.c index ea64dbdc6a..5bdfc6c8e0 100644 --- a/apps/s_socket.c +++ b/apps/s_socket.c @@ -504,13 +504,13 @@ static int do_accept(int acc_sock, int *sock, char **host) } /*- - ling.l_onoff=1; - ling.l_linger=0; - i=setsockopt(ret,SOL_SOCKET,SO_LINGER,(char *)&ling,sizeof(ling)); - if (i < 0) { perror("linger"); return(0); } - i=0; - i=setsockopt(ret,SOL_SOCKET,SO_KEEPALIVE,(char *)&i,sizeof(i)); - if (i < 0) { perror("keepalive"); return(0); } + ling.l_onoff=1; + ling.l_linger=0; + i=setsockopt(ret,SOL_SOCKET,SO_LINGER,(char *)&ling,sizeof(ling)); + if (i < 0) { perror("linger"); return(0); } + i=0; + i=setsockopt(ret,SOL_SOCKET,SO_KEEPALIVE,(char *)&i,sizeof(i)); + if (i < 0) { perror("keepalive"); return(0); } */ if (host == NULL) @@ -1102,19 +1102,19 @@ static X509_STORE *create_cert_store(char *ca_path, char *ca_file) static int verify_cb(int ok, X509_STORE_CTX *ctx) { - /*- - char buf[256]; - - if (!ok) - { - X509_NAME_oneline(X509_get_subject_name(ctx->current_cert), - buf, sizeof(buf)); - printf("%s\n", buf); - printf("error %d at %d depth lookup: %s\n", - ctx->error, ctx->error_depth, - X509_verify_cert_error_string(ctx->error)); - } - */ + /*- + char buf[256]; + + if (!ok) + { + X509_NAME_oneline(X509_get_subject_name(ctx->current_cert), + buf, sizeof(buf)); + printf("%s\n", buf); + printf("error %d at %d depth lookup: %s\n", + ctx->error, ctx->error_depth, + X509_verify_cert_error_string(ctx->error)); + } + */ return ok; } diff --git a/crypto/asn1/a_sign.c b/crypto/asn1/a_sign.c index 2a8c3a336c..51c6a0c34d 100644 --- a/crypto/asn1/a_sign.c +++ b/crypto/asn1/a_sign.c @@ -252,13 +252,13 @@ int ASN1_item_sign_ctx(const ASN1_ITEM *it, rv = pkey->ameth->item_sign(ctx, it, asn, algor1, algor2, signature); if (rv == 1) outl = signature->length; - /*- - * Return value meanings: - * <=0: error. - * 1: method does everything. - * 2: carry on as normal. - * 3: ASN1 method sets algorithm identifiers: just sign. - */ + /*- + * Return value meanings: + * <=0: error. + * 1: method does everything. + * 2: carry on as normal. + * 3: ASN1 method sets algorithm identifiers: just sign. + */ if (rv <= 0) ASN1err(ASN1_F_ASN1_ITEM_SIGN_CTX, ERR_R_EVP_LIB); if (rv <= 1) diff --git a/crypto/bio/b_sock.c b/crypto/bio/b_sock.c index ebdec48c64..ad33aa1f42 100644 --- a/crypto/bio/b_sock.c +++ b/crypto/bio/b_sock.c @@ -529,13 +529,13 @@ int BIO_socket_ioctl(int fd, long type, void *arg) i = ioctlsocket(fd, type, (char *)arg); # else # if defined(OPENSSL_SYS_VMS) - /*- - * 2011-02-18 SMS. - * VMS ioctl() can't tolerate a 64-bit "void *arg", but we - * observe that all the consumers pass in an "unsigned long *", - * so we arrange a local copy with a short pointer, and use - * that, instead. - */ + /*- + * 2011-02-18 SMS. + * VMS ioctl() can't tolerate a 64-bit "void *arg", but we + * observe that all the consumers pass in an "unsigned long *", + * so we arrange a local copy with a short pointer, and use + * that, instead. + */ # if __INITIAL_POINTER_SIZE == 64 # define ARG arg_32p # pragma pointer_size save diff --git a/crypto/bio/bf_null.c b/crypto/bio/bf_null.c index d9d0dc6bf4..e129dfe1e7 100644 --- a/crypto/bio/bf_null.c +++ b/crypto/bio/bf_null.c @@ -103,11 +103,11 @@ static int nullf_free(BIO *a) { if (a == NULL) return (0); - /*- - a->ptr=NULL; - a->init=0; - a->flags=0; - */ + /*- + a->ptr=NULL; + a->init=0; + a->flags=0; + */ return (1); } diff --git a/crypto/bio/bio.h b/crypto/bio/bio.h index 6ba1bd7334..2d3e9e7922 100644 --- a/crypto/bio/bio.h +++ b/crypto/bio/bio.h @@ -344,15 +344,15 @@ struct bio_st { DECLARE_STACK_OF(BIO) typedef struct bio_f_buffer_ctx_struct { - /*- - * Buffers are setup like this: - * - * <---------------------- size -----------------------> - * +---------------------------------------------------+ - * | consumed | remaining | free space | - * +---------------------------------------------------+ - * <-- off --><------- len -------> - */ + /*- + * Buffers are setup like this: + * + * <---------------------- size -----------------------> + * +---------------------------------------------------+ + * | consumed | remaining | free space | + * +---------------------------------------------------+ + * <-- off --><------- len -------> + */ /*- BIO *bio; *//* * this is now in the BIO struct */ diff --git a/crypto/bn/bn_add.c b/crypto/bn/bn_add.c index ccdcdd1d7c..f569a7efde 100644 --- a/crypto/bn/bn_add.c +++ b/crypto/bn/bn_add.c @@ -68,12 +68,12 @@ int BN_add(BIGNUM *r, const BIGNUM *a, const BIGNUM *b) bn_check_top(a); bn_check_top(b); - /*- - * a + b a+b - * a + -b a-b - * -a + b b-a - * -a + -b -(a+b) - */ + /*- + * a + b a+b + * a + -b a-b + * -a + b b-a + * -a + -b -(a+b) + */ if (a_neg ^ b->neg) { /* only one is negative */ if (a_neg) { @@ -260,12 +260,12 @@ int BN_sub(BIGNUM *r, const BIGNUM *a, const BIGNUM *b) bn_check_top(a); bn_check_top(b); - /*- - * a - b a-b - * a - -b a+b - * -a - b -(a+b) - * -a - -b b-a - */ + /*- + * a - b a-b + * a - -b a+b + * -a - b -(a+b) + * -a - -b b-a + */ if (a->neg) { if (b->neg) { tmp = a; diff --git a/crypto/bn/bn_exp.c b/crypto/bn/bn_exp.c index eebcb96b55..28a9fd53bb 100644 --- a/crypto/bn/bn_exp.c +++ b/crypto/bn/bn_exp.c @@ -203,36 +203,36 @@ int BN_mod_exp(BIGNUM *r, const BIGNUM *a, const BIGNUM *p, const BIGNUM *m, bn_check_top(p); bn_check_top(m); - /*- - * For even modulus m = 2^k*m_odd, it might make sense to compute - * a^p mod m_odd and a^p mod 2^k separately (with Montgomery - * exponentiation for the odd part), using appropriate exponent - * reductions, and combine the results using the CRT. - * - * For now, we use Montgomery only if the modulus is odd; otherwise, - * exponentiation using the reciprocal-based quick remaindering - * algorithm is used. - * - * (Timing obtained with expspeed.c [computations a^p mod m - * where a, p, m are of the same length: 256, 512, 1024, 2048, - * 4096, 8192 bits], compared to the running time of the - * standard algorithm: - * - * BN_mod_exp_mont 33 .. 40 % [AMD K6-2, Linux, debug configuration] - * 55 .. 77 % [UltraSparc processor, but - * debug-solaris-sparcv8-gcc conf.] - * - * BN_mod_exp_recp 50 .. 70 % [AMD K6-2, Linux, debug configuration] - * 62 .. 118 % [UltraSparc, debug-solaris-sparcv8-gcc] - * - * On the Sparc, BN_mod_exp_recp was faster than BN_mod_exp_mont - * at 2048 and more bits, but at 512 and 1024 bits, it was - * slower even than the standard algorithm! - * - * "Real" timings [linux-elf, solaris-sparcv9-gcc configurations] - * should be obtained when the new Montgomery reduction code - * has been integrated into OpenSSL.) - */ + /*- + * For even modulus m = 2^k*m_odd, it might make sense to compute + * a^p mod m_odd and a^p mod 2^k separately (with Montgomery + * exponentiation for the odd part), using appropriate exponent + * reductions, and combine the results using the CRT. + * + * For now, we use Montgomery only if the modulus is odd; otherwise, + * exponentiation using the reciprocal-based quick remaindering + * algorithm is used. + * + * (Timing obtained with expspeed.c [computations a^p mod m + * where a, p, m are of the same length: 256, 512, 1024, 2048, + * 4096, 8192 bits], compared to the running time of the + * standard algorithm: + * + * BN_mod_exp_mont 33 .. 40 % [AMD K6-2, Linux, debug configuration] + * 55 .. 77 % [UltraSparc processor, but + * debug-solaris-sparcv8-gcc conf.] + * + * BN_mod_exp_recp 50 .. 70 % [AMD K6-2, Linux, debug configuration] + * 62 .. 118 % [UltraSparc, debug-solaris-sparcv8-gcc] + * + * On the Sparc, BN_mod_exp_recp was faster than BN_mod_exp_mont + * at 2048 and more bits, but at 512 and 1024 bits, it was + * slower even than the standard algorithm! + * + * "Real" timings [linux-elf, solaris-sparcv9-gcc configurations] + * should be obtained when the new Montgomery reduction code + * has been integrated into OpenSSL.) + */ #define MONT_MUL_MOD #define MONT_EXP_WORD diff --git a/crypto/bn/bn_gcd.c b/crypto/bn/bn_gcd.c index 13432d09e7..9902e4eee9 100644 --- a/crypto/bn/bn_gcd.c +++ b/crypto/bn/bn_gcd.c @@ -283,13 +283,13 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, goto err; } sign = -1; - /*- - * From B = a mod |n|, A = |n| it follows that - * - * 0 <= B < A, - * -sign*X*a == B (mod |n|), - * sign*Y*a == A (mod |n|). - */ + /*- + * From B = a mod |n|, A = |n| it follows that + * + * 0 <= B < A, + * -sign*X*a == B (mod |n|), + * sign*Y*a == A (mod |n|). + */ if (BN_is_odd(n) && (BN_num_bits(n) <= (BN_BITS <= 32 ? 450 : 2048))) { /* @@ -301,12 +301,12 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, int shift; while (!BN_is_zero(B)) { - /*- - * 0 < B < |n|, - * 0 < A <= |n|, - * (1) -sign*X*a == B (mod |n|), - * (2) sign*Y*a == A (mod |n|) - */ + /*- + * 0 < B < |n|, + * 0 < A <= |n|, + * (1) -sign*X*a == B (mod |n|), + * (2) sign*Y*a == A (mod |n|) + */ /* * Now divide B by the maximum possible power of two in the @@ -352,18 +352,18 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, goto err; } - /*- - * We still have (1) and (2). - * Both A and B are odd. - * The following computations ensure that - * - * 0 <= B < |n|, - * 0 < A < |n|, - * (1) -sign*X*a == B (mod |n|), - * (2) sign*Y*a == A (mod |n|), - * - * and that either A or B is even in the next iteration. - */ + /*- + * We still have (1) and (2). + * Both A and B are odd. + * The following computations ensure that + * + * 0 <= B < |n|, + * 0 < A < |n|, + * (1) -sign*X*a == B (mod |n|), + * (2) sign*Y*a == A (mod |n|), + * + * and that either A or B is even in the next iteration. + */ if (BN_ucmp(B, A) >= 0) { /* -sign*(X + Y)*a == B - A (mod |n|) */ if (!BN_uadd(X, X, Y)) @@ -392,11 +392,11 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, while (!BN_is_zero(B)) { BIGNUM *tmp; - /*- - * 0 < B < A, - * (*) -sign*X*a == B (mod |n|), - * sign*Y*a == A (mod |n|) - */ + /*- + * 0 < B < A, + * (*) -sign*X*a == B (mod |n|), + * sign*Y*a == A (mod |n|) + */ /* (D, M) := (A/B, A%B) ... */ if (BN_num_bits(A) == BN_num_bits(B)) { @@ -443,12 +443,12 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, goto err; } - /*- - * Now - * A = D*B + M; - * thus we have - * (**) sign*Y*a == D*B + M (mod |n|). - */ + /*- + * Now + * A = D*B + M; + * thus we have + * (**) sign*Y*a == D*B + M (mod |n|). + */ tmp = A; /* keep the BIGNUM object, the value does not * matter */ @@ -458,25 +458,25 @@ BIGNUM *int_bn_mod_inverse(BIGNUM *in, B = M; /* ... so we have 0 <= B < A again */ - /*- - * Since the former M is now B and the former B is now A, - * (**) translates into - * sign*Y*a == D*A + B (mod |n|), - * i.e. - * sign*Y*a - D*A == B (mod |n|). - * Similarly, (*) translates into - * -sign*X*a == A (mod |n|). - * - * Thus, - * sign*Y*a + D*sign*X*a == B (mod |n|), - * i.e. - * sign*(Y + D*X)*a == B (mod |n|). - * - * So if we set (X, Y, sign) := (Y + D*X, X, -sign), we arrive back at - * -sign*X*a == B (mod |n|), - * sign*Y*a == A (mod |n|). - * Note that X and Y stay non-negative all the time. - */ + /*- + * Since the former M is now B and the former B is now A, + * (**) translates into + * sign*Y*a == D*A + B (mod |n|), + * i.e. + * sign*Y*a - D*A == B (mod |n|). + * Similarly, (*) translates into + * -sign*X*a == A (mod |n|). + * + * Thus, + * sign*Y*a + D*sign*X*a == B (mod |n|),< |