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|
/*++
/* NAME
/* tls_certkey 3
/* SUMMARY
/* public key certificate and private key loader
/* SYNOPSIS
/* #define TLS_INTERNAL
/* #include <tls.h>
/*
/* int tls_set_ca_certificate_info(ctx, CAfile, CApath)
/* SSL_CTX *ctx;
/* const char *CAfile;
/* const char *CApath;
/*
/* int tls_set_my_certificate_key_info(ctx, chain_files,
/* cert_file, key_file,
/* dcert_file, dkey_file,
/* eccert_file, eckey_file)
/* SSL_CTX *ctx;
/* const char *chain_files;
/* const char *cert_file;
/* const char *key_file;
/* const char *dcert_file;
/* const char *dkey_file;
/* const char *eccert_file;
/* const char *eckey_file;
/*
/* int tls_load_pem_chain(ssl, pem, origin);
/* SSL *ssl;
/* const char *pem;
/* const char *origin;
/* DESCRIPTION
/* OpenSSL supports two options to specify CA certificates:
/* either one file CAfile that contains all CA certificates,
/* or a directory CApath with separate files for each
/* individual CA, with symbolic links named after the hash
/* values of the certificates. The second option is not
/* convenient with a chrooted process.
/*
/* tls_set_ca_certificate_info() loads the CA certificate
/* information for the specified TLS server or client context.
/* The result is -1 on failure, 0 on success.
/*
/* tls_set_my_certificate_key_info() loads the public key
/* certificates and private keys for the specified TLS server
/* or client context. Up to 3 pairs of key pairs (RSA, DSA and
/* ECDSA) may be specified; each certificate and key pair must
/* match. The chain_files argument makes it possible to load
/* keys and certificates for more than 3 algorithms, via either
/* a single file, or a list of multiple files. The result is -1
/* on failure, 0 on success.
/*
/* tls_load_pem_chain() loads one or more (key, cert, [chain])
/* triples from an in-memory PEM blob. The "origin" argument
/* is used for error logging, to identify the provenance of the
/* PEM blob. "ssl" must be non-zero, and the keys and certificates
/* will be loaded into that object.
/* LICENSE
/* .ad
/* .fi
/* This software is free. You can do with it whatever you want.
/* The original author kindly requests that you acknowledge
/* the use of his software.
/* AUTHOR(S)
/* Originally written by:
/* Lutz Jaenicke
/* BTU Cottbus
/* Allgemeine Elektrotechnik
/* Universitaetsplatz 3-4
/* D-03044 Cottbus, Germany
/*
/* Updated by:
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*
/* Wietse Venema
/* Google, Inc.
/* 111 8th Avenue
/* New York, NY 10011, USA
/*--*/
/* System library. */
#include <sys_defs.h>
#ifdef USE_TLS
/* Utility library. */
#include <msg.h>
/* Global library. */
#include <mail_params.h>
/* TLS library. */
#define TLS_INTERNAL
#include <tls.h>
#define PEM_LOAD_STATE_NOGO -2 /* Unusable object or sequence */
#define PEM_LOAD_STATE_FAIL -1 /* Error in libcrypto */
#define PEM_LOAD_STATE_DONE 0 /* End of PEM file, return value only */
#define PEM_LOAD_STATE_INIT 1 /* No PEM objects seen */
#define PEM_LOAD_STATE_PKEY 2 /* Last object was a private key */
#define PEM_LOAD_STATE_CERT 3 /* Last object was a certificate */
#define PEM_LOAD_STATE_BOTH 4 /* Unordered, key + first cert seen */
#define PEM_LOAD_READ_LAST 0 /* Reading last file */
#define PEM_LOAD_READ_MORE 1 /* More files to be read */
typedef struct pem_load_state_t {
const char *origin; /* PEM chain origin description */
const char *source; /* PEM BIO origin description */
const char *keysrc; /* Source of last key */
BIO *pembio; /* PEM input stream */
SSL_CTX *ctx; /* SSL connection factory */
SSL *ssl; /* SSL connection handle */
EVP_PKEY *pkey; /* current key */
X509 *cert; /* current certificate */
x509_stack_t *chain; /* current chain */
int keynum; /* Index of last key */
int objnum; /* Index in current source */
int state; /* Current state, never "DONE" */
int mixed; /* Single file with key anywhere */
} pem_load_state_t;
/* init_pem_load_state - fill in initial pem_load_state structure */
static void init_pem_load_state(pem_load_state_t *st, SSL_CTX *ctx, SSL *ssl,
const char *origin)
{
st->origin = origin;
st->source = origin;
st->keysrc = 0;
st->pembio = 0;
st->ctx = ctx;
st->ssl = ssl;
st->pkey = 0;
st->cert = 0;
st->chain = 0;
st->keynum = 0;
st->objnum = 0;
st->state = PEM_LOAD_STATE_INIT;
st->mixed = 0;
}
/* use_chain - load cert, key and chain into ctx or ssl */
#if OPENSSL_VERSION_NUMBER >= 0x1010100fUL
static int use_chain(pem_load_state_t *st)
{
int ret;
int replace = 0;
/*
* With replace == 0, an error is returned if the algorithm slot is
* already taken, and a previous key + chain of the same type would be
* clobbered.
*/
if (st->ctx)
ret = SSL_CTX_use_cert_and_key(st->ctx, st->cert, st->pkey, st->chain,
replace);
else
ret = SSL_use_cert_and_key(st->ssl, st->cert, st->pkey, st->chain,
replace);
/*
* SSL_[CTX_]_use_cert_key() uprefs all the objects in question, so we
* must free ours.
*/
X509_free(st->cert);
st->cert = 0;
EVP_PKEY_free(st->pkey);
st->pkey = 0;
sk_X509_pop_free(st->chain, X509_free);
st->chain = 0;
return ret;
}
#else
/* Legacy OpenSSL 1.0.2 and 1.1.0 interface */
static int use_chain(pem_load_state_t *st)
{
int ret = 1;
#define TRY(op, o) \
((st->ctx && SSL_CTX_##op(st->ctx, st->o)) || \
(st->ssl && SSL_##op(st->ssl, st->o)))
/*
* This ensures the cert and key have the same type and match. A similar
* check is performed in use_PrivateKey(), but only if if the key and
* cert are of the same type.
*/
if (!X509_check_private_key(st->cert, st->pkey))
ret = 0;
/*
* XXX: With OpenSSL 1.0.2, setting the certificate clears any previous
* mismatched key of the same type, so we don't detect conflicting chains
* for the same algorithm, and silently use the last one.
*/
/* use_certificate() increments the refcount */
if (ret && !TRY(use_certificate, cert))
ret = 0;
X509_free(st->cert);
st->cert = 0;
/* use_PrivateKey() increments the refcount */
if (ret && !TRY(use_PrivateKey, pkey))
ret = 0;
EVP_PKEY_free(st->pkey);
st->pkey = 0;
/* set0_chain() does not increment the refcount */
if (!ret || !(ret = TRY(set0_chain, chain)))
sk_X509_pop_free(st->chain, X509_free);
/* The chain is now owned by the SSL library or freed, zero for next use */
st->chain = 0;
return ret;
}
#endif
/* load_cert - decode and load a DER-encoded X509 certificate */
static void load_cert(pem_load_state_t *st, unsigned char *buf,
long buflen)
{
const unsigned char *p = buf;
X509 *cert = d2i_X509(0, &p, buflen);
/*
* When expecting one or more keys, each key must precede the associated
* certificate (chain).
*/
if (!st->mixed && st->state == PEM_LOAD_STATE_INIT) {
msg_warn("error loading chain from %s: key not first", st->source);
if (cert)
X509_free(cert);
st->state = PEM_LOAD_STATE_NOGO;
return;
}
if (!cert) {
msg_warn("error loading certificate (PEM object number %d) from %s",
st->objnum, st->source);
st->state = PEM_LOAD_STATE_FAIL;
return;
}
if (p - buf != buflen) {
msg_warn("error loading certificate (PEM object number %d) from %s:"
" excess data", st->objnum, st->source);
X509_free(cert);
st->state = PEM_LOAD_STATE_NOGO;
return;
}
/*
* The first certificate after a new key becomes the leaf certificate for
* that key. Subsequent certificates are added to the issuer chain.
*
* In "mixed" mode, the first certificate is either after the key, or else
* comes first.
*/
switch (st->state) {
case PEM_LOAD_STATE_PKEY:
st->cert = cert;
st->state = st->mixed ? PEM_LOAD_STATE_BOTH : PEM_LOAD_STATE_CERT;
return;
case PEM_LOAD_STATE_INIT:
st->cert = cert;
st->state = PEM_LOAD_STATE_CERT;
return;
case PEM_LOAD_STATE_CERT:
case PEM_LOAD_STATE_BOTH:
if ((!st->chain && (st->chain = sk_X509_new_null()) == 0)
|| !sk_X509_push(st->chain, cert)) {
X509_free(cert);
st->state = PEM_LOAD_STATE_FAIL;
}
return;
}
}
/* load_pkey - decode and load a DER-encoded private key */
static void load_pkey(pem_load_state_t *st, int pkey_type,
unsigned char *buf, long buflen)
{
const char *myname = "load_pkey";
const unsigned char *p = buf;
PKCS8_PRIV_KEY_INFO *p8;
EVP_PKEY *pkey = 0;
/*
* Keys are either algorithm-specific, or else (ideally) algorithm
* agnostic, in which case they are wrapped as PKCS#8 objects with an
* algorithm OID.
*/
if (pkey_type != NID_undef) {
pkey = d2i_PrivateKey(pkey_type, 0, &p, buflen);
} else {
p8 = d2i_PKCS8_PRIV_KEY_INFO(NULL, &p, buflen);
if (p8) {
pkey = EVP_PKCS82PKEY(p8);
PKCS8_PRIV_KEY_INFO_free(p8);
}
}
/*
* Except in "mixed" mode, where a single key appears anywhere in a file
* with multiple certificates, a given key is either at the first object
* we process, or occurs after a previous key and one or more associated
* certificates. Thus, encountering a key in a state other than "INIT"
* or "CERT" is an error, except in "mixed" mode where a second key is
* ignored with a warning.
*/
switch (st->state) {
case PEM_LOAD_STATE_CERT:
/*
* When processing the key of a "next" chain, we're in the "CERT"
* state, and first complete the processing of the previous chain.
*/
if (!st->mixed && !use_chain(st)) {
msg_warn("error loading certificate chain: "
"key at index %d in %s does not match the certificate",
st->keynum, st->keysrc);
st->state = PEM_LOAD_STATE_FAIL;
return;
}
/* FALLTHROUGH */
case PEM_LOAD_STATE_INIT:
if (!pkey) {
msg_warn("error loading private key (PEM object number %d) from %s",
st->objnum, st->source);
st->state = PEM_LOAD_STATE_FAIL;
return;
}
/* Reject unexpected data beyond the end of the DER-encoded object */
if (p - buf != buflen) {
msg_warn("error loading private key (PEM object number %d) from"
" %s: excess data", st->objnum, st->source);
EVP_PKEY_free(pkey);
st->state = PEM_LOAD_STATE_NOGO;
return;
}
/* All's well, update the state */
st->pkey = pkey;
if (st->state == PEM_LOAD_STATE_INIT)
st->state = PEM_LOAD_STATE_PKEY;
else if (st->mixed)
st->state = PEM_LOAD_STATE_BOTH;
else
st->state = PEM_LOAD_STATE_PKEY;
return;
case PEM_LOAD_STATE_PKEY:
case PEM_LOAD_STATE_BOTH:
if (pkey)
EVP_PKEY_free(pkey);
/* XXX: Legacy behaviour was silent, should we stay silent? */
if (st->mixed) {
msg_warn("ignoring 2nd key at index %d in %s after 1st at %d",
st->objnum, st->source, st->keynum);
return;
}
/* else back-to-back keys */
msg_warn("error loading certificate chain: "
"key at index %d in %s not followed by a certificate",
st->keynum, st->keysrc);
st->state = PEM_LOAD_STATE_NOGO;
return;
default:
msg_error("%s: internal error: bad state: %d", myname, st->state);
st->state = PEM_LOAD_STATE_NOGO;
return;
}
}
/* load_pem_object - load next pkey or cert from open BIO */
static int load_pem_object(pem_load_state_t *st)
{
char *name = 0;
char *header = 0;
unsigned char *buf = 0;
long buflen;
int pkey_type = NID_undef;
if (!PEM_read_bio(st->pembio, &name, &header, &buf, &buflen)) {
if (ERR_GET_REASON(ERR_peek_last_error()) != PEM_R_NO_START_LINE)
return (st->state = PEM_LOAD_STATE_FAIL);
ERR_clear_error();
/* Clean EOF, preserve stored state for any next input file */
return (PEM_LOAD_STATE_DONE);
}
if (strcmp(name, PEM_STRING_X509) == 0
|| strcmp(name, PEM_STRING_X509_OLD) == 0) {
load_cert(st, buf, buflen);
} else if (strcmp(name, PEM_STRING_PKCS8INF) == 0
|| ((pkey_type = EVP_PKEY_RSA) != NID_undef
&& strcmp(name, PEM_STRING_RSA) == 0)
|| ((pkey_type = EVP_PKEY_EC) != NID_undef
&& strcmp(name, PEM_STRING_ECPRIVATEKEY) == 0)
|| ((pkey_type = EVP_PKEY_DSA) != NID_undef
&& strcmp(name, PEM_STRING_DSA) == 0)) {
load_pkey(st, pkey_type, buf, buflen);
} else if (!st->mixed) {
msg_warn("loading %s: ignoring PEM type: %s", st->source, name);
}
OPENSSL_free(name);
OPENSSL_free(header);
OPENSSL_free(buf);
return (st->state);
}
/* load_pem_bio - load all key/certs from bio and free the bio */
static int load_pem_bio(pem_load_state_t *st, int more)
{
int state = st->state;
/* Don't report old news */
ERR_clear_error();
/*
* When "more" is PEM_LOAD_READ_MORE, more files will be loaded after the
* current file, and final processing for the last key and chain is
* deferred.
*
* When "more" is PEM_LOAD_READ_LAST, this is the last file in the list, and
* we validate the final chain.
*
* When st->mixed is true, this is the only file, and its key can occur at
* any location. In this case we load at most one key.
*/
for (st->objnum = 1; state > PEM_LOAD_STATE_DONE; ++st->objnum) {
state = load_pem_object(st);
if ((st->mixed && st->keynum == 0 &&
(state == PEM_LOAD_STATE_PKEY || state == PEM_LOAD_STATE_BOTH))
|| (!st->mixed && state == PEM_LOAD_STATE_PKEY)) {
/* Squirrel-away the current key location */
st->keynum = st->objnum;
st->keysrc = st->source;
}
}
/* We're responsible for unconditionally freeing the BIO */
BIO_free(st->pembio);
/* Success with current file, go back for more? */
if (more == PEM_LOAD_READ_MORE && state >= PEM_LOAD_STATE_DONE)
return 0;
/*
* If all is well so far, complete processing for the final chain.
*/
switch (st->state) {
case PEM_LOAD_STATE_FAIL:
tls_print_errors();
break;
default:
break;
case PEM_LOAD_STATE_INIT:
msg_warn("No PEM data in %s", st->origin);
break;
case PEM_LOAD_STATE_PKEY:
msg_warn("No certs for key at index %d in %s", st->keynum, st->keysrc);
break;
case PEM_LOAD_STATE_CERT:
if (st->mixed) {
msg_warn("No private key found in %s", st->origin);
break;
}
/* FALLTHROUGH */
case PEM_LOAD_STATE_BOTH:
/* use_chain() frees the key and certs, and zeroes the pointers */
if (use_chain(st))
return (0);
msg_warn("key at index %d in %s does not match next certificate",
st->keynum, st->keysrc);
tls_print_errors();
break;
}
/* Free any left-over unused keys and certs */
EVP_PKEY_free(st->pkey);
X509_free(st->cert);
sk_X509_pop_free(st->chain, X509_free);
msg_warn("error loading private keys and certificates from: %s: %s",
st->origin, st->ctx ? "disabling TLS support" :
"aborting TLS handshake");
return (-1);
}
/* load_chain_files - load sequence of (key, cert, [chain]) from files */
static int load_chain_files(SSL_CTX *ctx, const char *chain_files)
{
pem_load_state_t st;
ARGV *files = argv_split(chain_files, CHARS_COMMA_SP);
char **filep;
int ret = 0;
int more;
init_pem_load_state(&st, ctx, 0, chain_files);
for (filep = files->argv; ret == 0 && *filep; ++filep) {
st.source = *filep;
if ((st.pembio = BIO_new_file(st.source, "r")) == NULL) {
msg_warn("error opening chain file: %s: %m", st.source);
st.state = PEM_LOAD_STATE_NOGO;
break;
}
more = filep[1] ? PEM_LOAD_READ_MORE : PEM_LOAD_READ_LAST;
/* load_pem_bio() frees the BIO */
ret = load_pem_bio(&st, more);
}
argv_free(files);
return (ret);
}
/* load_mixed_file - load certs with single key anywhere in the file */
static int load_mixed_file(SSL_CTX *ctx, const char *file)
{
pem_load_state_t st;
init_pem_load_state(&st, ctx, 0, file);
if ((st.pembio = BIO_new_file(st.source, "r")) == NULL) {
msg_warn("error opening chain file: %s: %m", st.source);
return (-1);
}
st.mixed = 1;
/* load_pem_bio() frees the BIO */
return load_pem_bio(&st, PEM_LOAD_READ_LAST);
}
/* tls_set_ca_certificate_info - load Certification Authority certificates */
int tls_set_ca_certificate_info(SSL_CTX *ctx, const char *CAfile,
const char *CApath)
{
if (*CAfile == 0)
CAfile = 0;
if (*CApath == 0)
CApath = 0;
#define CA_PATH_FMT "%s%s%s"
#define CA_PATH_ARGS(var, nextvar) \
var ? #var "=\"" : "", \
var ? var : "", \
var ? (nextvar ? "\", " : "\"") : ""
if (CAfile || CApath) {
if (!SSL_CTX_load_verify_locations(ctx, CAfile, CApath)) {
msg_info("cannot load Certification Authority data, "
CA_PATH_FMT CA_PATH_FMT ": disabling TLS support",
CA_PATH_ARGS(CAfile, CApath),
CA_PATH_ARGS(CApath, 0));
tls_print_errors();
return (-1);
}
if (var_tls_append_def_CA && !SSL_CTX_set_default_verify_paths(ctx)) {
msg_info("cannot set default OpenSSL certificate verification "
"paths: disabling TLS support");
tls_print_errors();
return (-1);
}
}
return (0);
}
/* set_cert_stuff - specify certificate and key information */
static int set_cert_stuff(SSL_CTX *ctx, const char *cert_type,
const char *cert_file,
const char *key_file)
{
/*
* When the certfile and keyfile are one and the same, load both in a
* single pass, avoiding potential race conditions during key rollover.
*/
if (strcmp(cert_file, key_file) == 0)
return (load_mixed_file(ctx, cert_file) == 0);
/*
* We need both the private key (in key_file) and the public key
* certificate (in cert_file).
*
* Code adapted from OpenSSL apps/s_cb.c.
*/
ERR_clear_error();
if (SSL_CTX_use_certificate_chain_file(ctx, cert_file) <= 0) {
msg_warn("cannot get %s certificate from file \"%s\": "
"disabling TLS support", cert_type, cert_file);
tls_print_errors();
return (0);
}
if (SSL_CTX_use_PrivateKey_file(ctx, key_file, SSL_FILETYPE_PEM) <= 0) {
msg_warn("cannot get %s private key from file \"%s\": "
"disabling TLS support", cert_type, key_file);
tls_print_errors();
return (0);
}
/*
* Sanity check.
*/
if (!SSL_CTX_check_private_key(ctx)) {
msg_warn("%s private key in %s does not match public key in %s: "
"disabling TLS support", cert_type, key_file, cert_file);
return (0);
}
return (1);
}
/* tls_set_my_certificate_key_info - load client or server certificates/keys */
int tls_set_my_certificate_key_info(SSL_CTX *ctx, const char *chain_files,
const char *cert_file,
const char *key_file,
const char *dcert_file,
const char *dkey_file,
const char *eccert_file,
const char *eckey_file)
{
/* The "chain_files" parameter overrides all the legacy parameters */
if (chain_files && *chain_files)
return load_chain_files(ctx, chain_files);
/*
* Lack of certificates is fine so long as we are prepared to use
* anonymous ciphers.
*/
if (*cert_file && !set_cert_stuff(ctx, "RSA", cert_file, key_file))
return (-1); /* logged */
if (*dcert_file && !set_cert_stuff(ctx, "DSA", dcert_file, dkey_file))
return (-1); /* logged */
#ifndef OPENSSL_NO_ECDH
if (*eccert_file && !set_cert_stuff(ctx, "ECDSA", eccert_file, eckey_file))
return (-1); /* logged */
#else
if (*eccert_file)
msg_warn("ECDSA not supported. Ignoring ECDSA certificate file \"%s\"",
eccert_file);
#endif
return (0);
}
/* tls_load_pem_chain - load in-memory PEM client or server chain */
int tls_load_pem_chain(SSL *ssl, const char *pem, const char *origin)
{
static VSTRING *obuf;
pem_load_state_t st;
if (!obuf)
obuf = vstring_alloc(100);
vstring_sprintf(obuf, "SNI data for %s", origin);
init_pem_load_state(&st, 0, ssl, vstring_str(obuf));
if ((st.pembio = BIO_new_mem_buf(pem, -1)) == NULL) {
msg_warn("error opening memory BIO for %s", st.origin);
tls_print_errors();
return (-1);
}
/* load_pem_bio() frees the BIO */
return (load_pem_bio(&st, PEM_LOAD_READ_LAST));
}
#ifdef TEST
static NORETURN usage(void)
{
fprintf(stderr, "usage: tls_certkey [-m] <chainfiles>\n");
exit(1);
}
int main(int argc, char *argv[])
{
int ch;
int mixed = 0;
int ret;
char *key_file = 0;
SSL_CTX *ctx;
#if OPENSSL_VERSION_NUMBER < 0x10100000L
/*
* Initialize the OpenSSL library by the book! To start with, we must
* initialize the algorithms. We want cleartext error messages instead of
* just error codes, so we load the error_strings.
*/
SSL_load_error_strings();
OpenSSL_add_ssl_algorithms();
#endif
if (!(ctx = SSL_CTX_new(TLS_client_method()))) {
tls_print_errors();
exit(1);
}
while ((ch = GETOPT(argc, argv, "mk:")) > 0) {
switch (ch) {
case 'k':
key_file = optarg;
break;
case 'm':
mixed = 1;
break;
default:
usage();
}
}
argc -= optind;
argv += optind;
if (argc < 1)
usage();
if (key_file)
ret = set_cert_stuff(ctx, "any", argv[0], key_file) == 0;
else if (mixed)
ret = load_mixed_file(ctx, argv[0]);
else
ret = load_chain_files(ctx, argv[0]);
if (ret != 0)
exit(1);
if (SSL_CTX_set_current_cert(ctx, SSL_CERT_SET_FIRST) != 1) {
fprintf(stderr, "error selecting first certificate\n");
tls_print_errors();
exit(1);
}
do {
STACK_OF(X509) *chain;
int i;
if (SSL_CTX_get0_chain_certs(ctx, &chain) != 1) {
fprintf(stderr, "error locating certificate chain\n");
tls_print_errors();
exit(1);
}
for (i = 0; i <= sk_X509_num(chain); ++i) {
char buf[CCERT_BUFSIZ];
X509 *cert;
if (i > 0)
cert = sk_X509_value(chain, i - 1);
else
cert = SSL_CTX_get0_certificate(ctx);
printf("depth = %d\n", i);
X509_NAME_oneline(X509_get_issuer_name(cert), buf, sizeof(buf));
printf("issuer = %s\n", buf);
X509_NAME_oneline(X509_get_subject_name(cert), buf, sizeof(buf));
printf("subject = %s\n\n", buf);
}
} while (SSL_CTX_set_current_cert(ctx, SSL_CERT_SET_NEXT) != 0);
exit(0);
}
#endif
#endif
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