/* * Copyright (c) 2004 - 2007 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "hx_locl.h" RCSID("$Id: print.c 22420 2008-01-13 09:42:35Z lha $"); /** * @page page_print Hx509 printing functions * * See the library functions here: @ref hx509_print */ struct hx509_validate_ctx_data { int flags; hx509_vprint_func vprint_func; void *ctx; }; struct cert_status { unsigned int selfsigned:1; unsigned int isca:1; unsigned int isproxy:1; unsigned int haveSAN:1; unsigned int haveIAN:1; unsigned int haveSKI:1; unsigned int haveAKI:1; unsigned int haveCRLDP:1; }; /* * */ static int Time2string(const Time *T, char **str) { time_t t; char *s; struct tm *tm; *str = NULL; t = _hx509_Time2time_t(T); tm = gmtime (&t); s = malloc(30); if (s == NULL) return ENOMEM; strftime(s, 30, "%Y-%m-%d %H:%M:%S", tm); *str = s; return 0; } /** * Helper function to print on stdout for: * - hx509_oid_print(), * - hx509_bitstring_print(), * - hx509_validate_ctx_set_print(). * * @param ctx the context to the print function. If the ctx is NULL, * stdout is used. * @param fmt the printing format. * @param va the argumet list. * * @ingroup hx509_print */ void hx509_print_stdout(void *ctx, const char *fmt, va_list va) { FILE *f = ctx; if (f == NULL) f = stdout; vfprintf(f, fmt, va); } static void print_func(hx509_vprint_func func, void *ctx, const char *fmt, ...) { va_list va; va_start(va, fmt); (*func)(ctx, fmt, va); va_end(va); } /** * Print a oid to a string. * * @param oid oid to print * @param str allocated string, free with hx509_xfree(). * * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ int hx509_oid_sprint(const heim_oid *oid, char **str) { return der_print_heim_oid(oid, '.', str); } /** * Print a oid using a hx509_vprint_func function. To print to stdout * use hx509_print_stdout(). * * @param oid oid to print * @param func hx509_vprint_func to print with. * @param ctx context variable to hx509_vprint_func function. * * @ingroup hx509_print */ void hx509_oid_print(const heim_oid *oid, hx509_vprint_func func, void *ctx) { char *str; hx509_oid_sprint(oid, &str); print_func(func, ctx, "%s", str); free(str); } /** * Print a bitstring using a hx509_vprint_func function. To print to * stdout use hx509_print_stdout(). * * @param b bit string to print. * @param func hx509_vprint_func to print with. * @param ctx context variable to hx509_vprint_func function. * * @ingroup hx509_print */ void hx509_bitstring_print(const heim_bit_string *b, hx509_vprint_func func, void *ctx) { int i; print_func(func, ctx, "\tlength: %d\n\t", b->length); for (i = 0; i < (b->length + 7) / 8; i++) print_func(func, ctx, "%02x%s%s", ((unsigned char *)b->data)[i], i < (b->length - 7) / 8 && (i == 0 || (i % 16) != 15) ? ":" : "", i != 0 && (i % 16) == 15 ? (i <= ((b->length + 7) / 8 - 2) ? "\n\t" : "\n"):""); } /** * Print certificate usage for a certificate to a string. * * @param context A hx509 context. * @param c a certificate print the keyusage for. * @param s the return string with the keysage printed in to, free * with hx509_xfree(). * * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ int hx509_cert_keyusage_print(hx509_context context, hx509_cert c, char **s) { KeyUsage ku; char buf[256]; int ret; *s = NULL; ret = _hx509_cert_get_keyusage(context, c, &ku); if (ret) return ret; unparse_flags(KeyUsage2int(ku), asn1_KeyUsage_units(), buf, sizeof(buf)); *s = strdup(buf); if (*s == NULL) { hx509_set_error_string(context, 0, ENOMEM, "out of memory"); return ENOMEM; } return 0; } /* * */ static void validate_vprint(void *c, const char *fmt, va_list va) { hx509_validate_ctx ctx = c; if (ctx->vprint_func == NULL) return; (ctx->vprint_func)(ctx->ctx, fmt, va); } static void validate_print(hx509_validate_ctx ctx, int flags, const char *fmt, ...) { va_list va; if ((ctx->flags & flags) == 0) return; va_start(va, fmt); validate_vprint(ctx, fmt, va); va_end(va); } /* * Dont Care, SHOULD critical, SHOULD NOT critical, MUST critical, * MUST NOT critical */ enum critical_flag { D_C = 0, S_C, S_N_C, M_C, M_N_C }; static int check_Null(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { switch(cf) { case D_C: break; case S_C: if (!e->critical) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "\tCritical not set on SHOULD\n"); break; case S_N_C: if (e->critical) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "\tCritical set on SHOULD NOT\n"); break; case M_C: if (!e->critical) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "\tCritical not set on MUST\n"); break; case M_N_C: if (e->critical) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "\tCritical set on MUST NOT\n"); break; default: _hx509_abort("internal check_Null state error"); } return 0; } static int check_subjectKeyIdentifier(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { SubjectKeyIdentifier si; size_t size; int ret; status->haveSKI = 1; check_Null(ctx, status, cf, e); ret = decode_SubjectKeyIdentifier(e->extnValue.data, e->extnValue.length, &si, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding SubjectKeyIdentifier failed: %d", ret); return 1; } if (size != e->extnValue.length) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding SKI ahve extra bits on the end"); return 1; } if (si.length == 0) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "SKI is too short (0 bytes)"); if (si.length > 20) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "SKI is too long"); { char *id; hex_encode(si.data, si.length, &id); if (id) { validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tsubject key id: %s\n", id); free(id); } } free_SubjectKeyIdentifier(&si); return 0; } static int check_authorityKeyIdentifier(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { AuthorityKeyIdentifier ai; size_t size; int ret; status->haveAKI = 1; check_Null(ctx, status, cf, e); status->haveSKI = 1; check_Null(ctx, status, cf, e); ret = decode_AuthorityKeyIdentifier(e->extnValue.data, e->extnValue.length, &ai, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding AuthorityKeyIdentifier failed: %d", ret); return 1; } if (size != e->extnValue.length) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding SKI ahve extra bits on the end"); return 1; } if (ai.keyIdentifier) { char *id; hex_encode(ai.keyIdentifier->data, ai.keyIdentifier->length, &id); if (id) { validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tauthority key id: %s\n", id); free(id); } } return 0; } static int check_pkinit_san(hx509_validate_ctx ctx, heim_any *a) { KRB5PrincipalName kn; unsigned i; size_t size; int ret; ret = decode_KRB5PrincipalName(a->data, a->length, &kn, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding kerberos name in SAN failed: %d", ret); return 1; } if (size != a->length) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding kerberos name have extra bits on the end"); return 1; } /* print kerberos principal, add code to quote / within components */ for (i = 0; i < kn.principalName.name_string.len; i++) { validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%s", kn.principalName.name_string.val[i]); if (i + 1 < kn.principalName.name_string.len) validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "/"); } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "@"); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%s", kn.realm); free_KRB5PrincipalName(&kn); return 0; } static int check_utf8_string_san(hx509_validate_ctx ctx, heim_any *a) { PKIXXmppAddr jid; size_t size; int ret; ret = decode_PKIXXmppAddr(a->data, a->length, &jid, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding JID in SAN failed: %d", ret); return 1; } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%s", jid); free_PKIXXmppAddr(&jid); return 0; } static int check_altnull(hx509_validate_ctx ctx, heim_any *a) { return 0; } static int check_CRLDistributionPoints(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { CRLDistributionPoints dp; size_t size; int ret, i; check_Null(ctx, status, cf, e); ret = decode_CRLDistributionPoints(e->extnValue.data, e->extnValue.length, &dp, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Decoding CRL Distribution Points failed: %d\n", ret); return 1; } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "CRL Distribution Points:\n"); for (i = 0 ; i < dp.len; i++) { if (dp.val[i].distributionPoint) { DistributionPointName dpname; heim_any *data = dp.val[i].distributionPoint; int j; ret = decode_DistributionPointName(data->data, data->length, &dpname, NULL); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Failed to parse CRL Distribution Point Name: %d\n", ret); continue; } switch (dpname.element) { case choice_DistributionPointName_fullName: validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "Fullname:\n"); for (j = 0 ; j < dpname.u.fullName.len; j++) { char *s; GeneralName *name = &dpname.u.fullName.val[j]; ret = hx509_general_name_unparse(name, &s); if (ret == 0 && s != NULL) { validate_print(ctx, HX509_VALIDATE_F_VERBOSE, " %s\n", s); free(s); } } break; case choice_DistributionPointName_nameRelativeToCRLIssuer: validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "Unknown nameRelativeToCRLIssuer"); break; default: validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Unknown DistributionPointName"); break; } free_DistributionPointName(&dpname); } } free_CRLDistributionPoints(&dp); status->haveCRLDP = 1; return 0; } struct { const char *name; const heim_oid *(*oid)(void); int (*func)(hx509_validate_ctx, heim_any *); } check_altname[] = { { "pk-init", oid_id_pkinit_san, check_pkinit_san }, { "jabber", oid_id_pkix_on_xmppAddr, check_utf8_string_san }, { "dns-srv", oid_id_pkix_on_dnsSRV, check_altnull }, { "card-id", oid_id_uspkicommon_card_id, check_altnull }, { "Microsoft NT-PRINCIPAL-NAME", oid_id_pkinit_ms_san, check_utf8_string_san } }; static int check_altName(hx509_validate_ctx ctx, struct cert_status *status, const char *name, enum critical_flag cf, const Extension *e) { GeneralNames gn; size_t size; int ret, i; check_Null(ctx, status, cf, e); if (e->extnValue.length == 0) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "%sAltName empty, not allowed", name); return 1; } ret = decode_GeneralNames(e->extnValue.data, e->extnValue.length, &gn, &size); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "\tret = %d while decoding %s GeneralNames\n", ret, name); return 1; } if (gn.len == 0) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "%sAltName generalName empty, not allowed\n", name); return 1; } for (i = 0; i < gn.len; i++) { switch (gn.val[i].element) { case choice_GeneralName_otherName: { unsigned j; validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%sAltName otherName ", name); for (j = 0; j < sizeof(check_altname)/sizeof(check_altname[0]); j++) { if (der_heim_oid_cmp((*check_altname[j].oid)(), &gn.val[i].u.otherName.type_id) != 0) continue; validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%s: ", check_altname[j].name); (*check_altname[j].func)(ctx, &gn.val[i].u.otherName.value); break; } if (j == sizeof(check_altname)/sizeof(check_altname[0])) { hx509_oid_print(&gn.val[i].u.otherName.type_id, validate_vprint, ctx); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, " unknown"); } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\n"); break; } default: { char *s; ret = hx509_general_name_unparse(&gn.val[i], &s); if (ret) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "ret = %d unparsing GeneralName\n", ret); return 1; } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "%s\n", s); free(s); break; } } } free_GeneralNames(&gn); return 0; } static int check_subjectAltName(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { status->haveSAN = 1; return check_altName(ctx, status, "subject", cf, e); } static int check_issuerAltName(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { status->haveIAN = 1; return check_altName(ctx, status, "issuer", cf, e); } static int check_basicConstraints(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { BasicConstraints b; size_t size; int ret; check_Null(ctx, status, cf, e); ret = decode_BasicConstraints(e->extnValue.data, e->extnValue.length, &b, &size); if (ret) { printf("\tret = %d while decoding BasicConstraints\n", ret); return 0; } if (size != e->extnValue.length) printf("\tlength of der data isn't same as extension\n"); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tis %sa CA\n", b.cA && *b.cA ? "" : "NOT "); if (b.pathLenConstraint) validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tpathLenConstraint: %d\n", *b.pathLenConstraint); if (b.cA) { if (*b.cA) { if (!e->critical) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Is a CA and not BasicConstraints CRITICAL\n"); status->isca = 1; } else validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "cA is FALSE, not allowed to be\n"); } free_BasicConstraints(&b); return 0; } static int check_proxyCertInfo(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { check_Null(ctx, status, cf, e); status->isproxy = 1; return 0; } static int check_authorityInfoAccess(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *e) { AuthorityInfoAccessSyntax aia; size_t size; int ret, i; check_Null(ctx, status, cf, e); ret = decode_AuthorityInfoAccessSyntax(e->extnValue.data, e->extnValue.length, &aia, &size); if (ret) { printf("\tret = %d while decoding AuthorityInfoAccessSyntax\n", ret); return 0; } for (i = 0; i < aia.len; i++) { char *str; validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\ttype: "); hx509_oid_print(&aia.val[i].accessMethod, validate_vprint, ctx); hx509_general_name_unparse(&aia.val[i].accessLocation, &str); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\n\tdirname: %s\n", str); free(str); } free_AuthorityInfoAccessSyntax(&aia); return 0; } /* * */ struct { const char *name; const heim_oid *(*oid)(void); int (*func)(hx509_validate_ctx ctx, struct cert_status *status, enum critical_flag cf, const Extension *); enum critical_flag cf; } check_extension[] = { #define ext(name, checkname) #name, &oid_id_x509_ce_##name, check_##checkname { ext(subjectDirectoryAttributes, Null), M_N_C }, { ext(subjectKeyIdentifier, subjectKeyIdentifier), M_N_C }, { ext(keyUsage, Null), S_C }, { ext(subjectAltName, subjectAltName), M_N_C }, { ext(issuerAltName, issuerAltName), S_N_C }, { ext(basicConstraints, basicConstraints), D_C }, { ext(cRLNumber, Null), M_N_C }, { ext(cRLReason, Null), M_N_C }, { ext(holdInstructionCode, Null), M_N_C }, { ext(invalidityDate, Null), M_N_C }, { ext(deltaCRLIndicator, Null), M_C }, { ext(issuingDistributionPoint, Null), M_C }, { ext(certificateIssuer, Null), M_C }, { ext(nameConstraints, Null), M_C }, { ext(cRLDistributionPoints, CRLDistributionPoints), S_N_C }, { ext(certificatePolicies, Null) }, { ext(policyMappings, Null), M_N_C }, { ext(authorityKeyIdentifier, authorityKeyIdentifier), M_N_C }, { ext(policyConstraints, Null), D_C }, { ext(extKeyUsage, Null), D_C }, { ext(freshestCRL, Null), M_N_C }, { ext(inhibitAnyPolicy, Null), M_C }, #undef ext #define ext(name, checkname) #name, &oid_id_pkix_pe_##name, check_##checkname { ext(proxyCertInfo, proxyCertInfo), M_C }, { ext(authorityInfoAccess, authorityInfoAccess), M_C }, #undef ext { "US Fed PKI - PIV Interim", oid_id_uspkicommon_piv_interim, check_Null, D_C }, { "Netscape cert comment", oid_id_netscape_cert_comment, check_Null, D_C }, { NULL } }; /** * Allocate a hx509 validation/printing context. * * @param context A hx509 context. * @param ctx a new allocated hx509 validation context, free with * hx509_validate_ctx_free(). * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ int hx509_validate_ctx_init(hx509_context context, hx509_validate_ctx *ctx) { *ctx = malloc(sizeof(**ctx)); if (*ctx == NULL) return ENOMEM; memset(*ctx, 0, sizeof(**ctx)); return 0; } /** * Set the printing functions for the validation context. * * @param ctx a hx509 valication context. * @param func the printing function to usea. * @param c the context variable to the printing function. * * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ void hx509_validate_ctx_set_print(hx509_validate_ctx ctx, hx509_vprint_func func, void *c) { ctx->vprint_func = func; ctx->ctx = c; } /** * Add flags to control the behaivor of the hx509_validate_cert() * function. * * @param ctx A hx509 validation context. * @param flags flags to add to the validation context. * * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ void hx509_validate_ctx_add_flags(hx509_validate_ctx ctx, int flags) { ctx->flags |= flags; } /** * Free an hx509 validate context. * * @param ctx the hx509 validate context to free. * * @ingroup hx509_print */ void hx509_validate_ctx_free(hx509_validate_ctx ctx) { free(ctx); } /** * Validate/Print the status of the certificate. * * @param context A hx509 context. * @param ctx A hx509 validation context. * @param cert the cerificate to validate/print. * @return An hx509 error code, see hx509_get_error_string(). * * @ingroup hx509_print */ int hx509_validate_cert(hx509_context context, hx509_validate_ctx ctx, hx509_cert cert) { Certificate *c = _hx509_get_cert(cert); TBSCertificate *t = &c->tbsCertificate; hx509_name issuer, subject; char *str; struct cert_status status; int ret; memset(&status, 0, sizeof(status)); if (_hx509_cert_get_version(c) != 3) validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "Not version 3 certificate\n"); if ((t->version == NULL || *t->version < 2) && t->extensions) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Not version 3 certificate with extensions\n"); if (_hx509_cert_get_version(c) >= 3 && t->extensions == NULL) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Version 3 certificate without extensions\n"); ret = hx509_cert_get_subject(cert, &subject); if (ret) abort(); hx509_name_to_string(subject, &str); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "subject name: %s\n", str); free(str); ret = hx509_cert_get_issuer(cert, &issuer); if (ret) abort(); hx509_name_to_string(issuer, &str); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "issuer name: %s\n", str); free(str); if (hx509_name_cmp(subject, issuer) == 0) { status.selfsigned = 1; validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tis a self-signed certificate\n"); } validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "Validity:\n"); Time2string(&t->validity.notBefore, &str); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tnotBefore %s\n", str); free(str); Time2string(&t->validity.notAfter, &str); validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "\tnotAfter %s\n", str); free(str); if (t->extensions) { int i, j; if (t->extensions->len == 0) { validate_print(ctx, HX509_VALIDATE_F_VALIDATE|HX509_VALIDATE_F_VERBOSE, "The empty extensions list is not " "allowed by PKIX\n"); } for (i = 0; i < t->extensions->len; i++) { for (j = 0; check_extension[j].name; j++) if (der_heim_oid_cmp((*check_extension[j].oid)(), &t->extensions->val[i].extnID) == 0) break; if (check_extension[j].name == NULL) { int flags = HX509_VALIDATE_F_VERBOSE; if (t->extensions->val[i].critical) flags |= HX509_VALIDATE_F_VALIDATE; validate_print(ctx, flags, "don't know what "); if (t->extensions->val[i].critical) validate_print(ctx, flags, "and is CRITICAL "); if (ctx->flags & flags) hx509_oid_print(&t->extensions->val[i].extnID, validate_vprint, ctx); validate_print(ctx, flags, " is\n"); continue; } validate_print(ctx, HX509_VALIDATE_F_VALIDATE|HX509_VALIDATE_F_VERBOSE, "checking extention: %s\n", check_extension[j].name); (*check_extension[j].func)(ctx, &status, check_extension[j].cf, &t->extensions->val[i]); } } else validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "no extentions\n"); if (status.isca) { if (!status.haveSKI) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "CA certificate have no SubjectKeyIdentifier\n"); } else { if (!status.haveAKI) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Is not CA and doesn't have " "AuthorityKeyIdentifier\n"); } if (!status.haveSKI) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Doesn't have SubjectKeyIdentifier\n"); if (status.isproxy && status.isca) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Proxy and CA at the same time!\n"); if (status.isproxy) { if (status.haveSAN) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Proxy and have SAN\n"); if (status.haveIAN) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Proxy and have IAN\n"); } if (hx509_name_is_null_p(subject) && !status.haveSAN) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "NULL subject DN and doesn't have a SAN\n"); if (!status.selfsigned && !status.haveCRLDP) validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Not a CA nor PROXY and doesn't have" "CRL Dist Point\n"); if (status.selfsigned) { ret = _hx509_verify_signature_bitstring(context, c, &c->signatureAlgorithm, &c->tbsCertificate._save, &c->signatureValue); if (ret == 0) validate_print(ctx, HX509_VALIDATE_F_VERBOSE, "Self-signed certificate was self-signed\n"); else validate_print(ctx, HX509_VALIDATE_F_VALIDATE, "Self-signed certificate NOT really self-signed!\n"); } hx509_name_free(&subject); hx509_name_free(&issuer); return 0; }