/* * keyfiles.c - private and public key handling for authentication. * * This file is part of the SSH Library * * Copyright (c) 2003-2009 by Aris Adamantiadis * Copyright (c) 2009 by Andreas Schneider * * The SSH Library is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at your * option) any later version. * * The SSH Library is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with the SSH Library; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, * MA 02111-1307, USA. */ #include "config.h" #include #include #include #include #include #include #include #include #ifndef _WIN32 #include #endif #include "libssh/priv.h" #include "libssh/buffer.h" #include "libssh/keyfiles.h" #include "libssh/session.h" #include "libssh/wrapper.h" #include "libssh/misc.h" #include "libssh/keys.h" /*todo: remove this include */ #include "libssh/string.h" #ifdef HAVE_LIBGCRYPT #include #elif defined HAVE_LIBCRYPTO #include #include #include #include #endif /* HAVE_LIBCRYPTO */ #define MAXLINESIZE 80 #define RSA_HEADER_BEGIN "-----BEGIN RSA PRIVATE KEY-----" #define RSA_HEADER_END "-----END RSA PRIVATE KEY-----" #define DSA_HEADER_BEGIN "-----BEGIN DSA PRIVATE KEY-----" #define DSA_HEADER_END "-----END DSA PRIVATE KEY-----" #ifdef HAVE_LIBGCRYPT #define MAX_KEY_SIZE 32 #define MAX_PASSPHRASE_SIZE 1024 #define ASN1_INTEGER 2 #define ASN1_SEQUENCE 48 #define PKCS5_SALT_LEN 8 static int load_iv(char *header, unsigned char *iv, int iv_len) { int i; int j; int k; memset(iv, 0, iv_len); for (i = 0; i < iv_len; i++) { if ((header[2*i] >= '0') && (header[2*i] <= '9')) j = header[2*i] - '0'; else if ((header[2*i] >= 'A') && (header[2*i] <= 'F')) j = header[2*i] - 'A' + 10; else if ((header[2*i] >= 'a') && (header[2*i] <= 'f')) j = header[2*i] - 'a' + 10; else return -1; if ((header[2*i+1] >= '0') && (header[2*i+1] <= '9')) k = header[2*i+1] - '0'; else if ((header[2*i+1] >= 'A') && (header[2*i+1] <= 'F')) k = header[2*i+1] - 'A' + 10; else if ((header[2*i+1] >= 'a') && (header[2*i+1] <= 'f')) k = header[2*i+1] - 'a' + 10; else return -1; iv[i] = (j << 4) + k; } return 0; } static uint32_t char_to_u32(unsigned char *data, uint32_t size) { uint32_t ret; uint32_t i; for (i = 0, ret = 0; i < size; ret = ret << 8, ret += data[i++]) ; return ret; } static uint32_t asn1_get_len(ssh_buffer buffer) { uint32_t len; unsigned char tmp[4]; if (buffer_get_data(buffer,tmp,1) == 0) { return 0; } if (tmp[0] > 127) { len = tmp[0] & 127; if (len > 4) { return 0; /* Length doesn't fit in u32. Can this really happen? */ } if (buffer_get_data(buffer,tmp,len) == 0) { return 0; } len = char_to_u32(tmp, len); } else { len = char_to_u32(tmp, 1); } return len; } static ssh_string asn1_get_int(ssh_buffer buffer) { ssh_string str; unsigned char type; uint32_t size; if (buffer_get_data(buffer, &type, 1) == 0 || type != ASN1_INTEGER) { return NULL; } size = asn1_get_len(buffer); if (size == 0) { return NULL; } str = string_new(size); if (str == NULL) { return NULL; } if (buffer_get_data(buffer, str->string, size) == 0) { string_free(str); return NULL; } return str; } static int asn1_check_sequence(ssh_buffer buffer) { unsigned char *j = NULL; unsigned char tmp; int i; uint32_t size; uint32_t padding; if (buffer_get_data(buffer, &tmp, 1) == 0 || tmp != ASN1_SEQUENCE) { return 0; } size = asn1_get_len(buffer); if ((padding = buffer_get_len(buffer) - buffer->pos - size) > 0) { for (i = buffer_get_len(buffer) - buffer->pos - size, j = (unsigned char*)buffer_get(buffer) + size + buffer->pos; i; i--, j++) { if (*j != padding) { /* padding is allowed */ return 0; /* but nothing else */ } } } return 1; } static int read_line(char *data, unsigned int len, FILE *fp) { char tmp; unsigned int i; for (i = 0; fread(&tmp, 1, 1, fp) && tmp != '\n' && i < len; data[i++] = tmp) ; if (tmp == '\n') { return i; } if (i >= len) { return -1; } return 0; } static int passphrase_to_key(char *data, unsigned int datalen, unsigned char *salt, unsigned char *key, unsigned int keylen) { MD5CTX md; unsigned char digest[MD5_DIGEST_LEN] = {0}; unsigned int i; unsigned int j; unsigned int md_not_empty; for (j = 0, md_not_empty = 0; j < keylen; ) { md = md5_init(); if (md == NULL) { return -1; } if (md_not_empty) { md5_update(md, digest, MD5_DIGEST_LEN); } else { md_not_empty = 1; } md5_update(md, data, datalen); if (salt) { md5_update(md, salt, PKCS5_SALT_LEN); } md5_final(digest, md); for (i = 0; j < keylen && i < MD5_DIGEST_LEN; j++, i++) { if (key) { key[j] = digest[i]; } } } return 0; } static int privatekey_decrypt(int algo, int mode, unsigned int key_len, unsigned char *iv, unsigned int iv_len, ssh_buffer data, ssh_auth_callback cb, void *userdata, const char *desc) { char passphrase[MAX_PASSPHRASE_SIZE] = {0}; unsigned char key[MAX_KEY_SIZE] = {0}; unsigned char *tmp = NULL; gcry_cipher_hd_t cipher; int rc = -1; if (!algo) { return -1; } if (cb) { rc = (*cb)(desc, passphrase, MAX_PASSPHRASE_SIZE, 0, 0, userdata); if (rc < 0) { return -1; } } else if (cb == NULL && userdata != NULL) { snprintf(passphrase, MAX_PASSPHRASE_SIZE, "%s", (char *) userdata); } if (passphrase_to_key(passphrase, strlen(passphrase), iv, key, key_len) < 0) { return -1; } if (gcry_cipher_open(&cipher, algo, mode, 0) || gcry_cipher_setkey(cipher, key, key_len) || gcry_cipher_setiv(cipher, iv, iv_len) || (tmp = malloc(buffer_get_len(data) * sizeof (char))) == NULL || gcry_cipher_decrypt(cipher, tmp, buffer_get_len(data), buffer_get(data), buffer_get_len(data))) { gcry_cipher_close(cipher); return -1; } memcpy(buffer_get(data), tmp, buffer_get_len(data)); SAFE_FREE(tmp); gcry_cipher_close(cipher); return 0; } static int privatekey_dek_header(char *header, unsigned int header_len, int *algo, int *mode, unsigned int *key_len, unsigned char **iv, unsigned int *iv_len) { unsigned int iv_pos; if (header_len > 13 && !strncmp("DES-EDE3-CBC", header, 12)) { *algo = GCRY_CIPHER_3DES; iv_pos = 13; *mode = GCRY_CIPHER_MODE_CBC; *key_len = 24; *iv_len = 8; } else if (header_len > 8 && !strncmp("DES-CBC", header, 7)) { *algo = GCRY_CIPHER_DES; iv_pos = 8; *mode = GCRY_CIPHER_MODE_CBC; *key_len = 8; *iv_len = 8; } else if (header_len > 12 && !strncmp("AES-128-CBC", header, 11)) { *algo = GCRY_CIPHER_AES128; iv_pos = 12; *mode = GCRY_CIPHER_MODE_CBC; *key_len = 16; *iv_len = 16; } else if (header_len > 12 && !strncmp("AES-192-CBC", header, 11)) { *algo = GCRY_CIPHER_AES192; iv_pos = 12; *mode = GCRY_CIPHER_MODE_CBC; *key_len = 24; *iv_len = 16; } else if (header_len > 12 && !strncmp("AES-256-CBC", header, 11)) { *algo = GCRY_CIPHER_AES256; iv_pos = 12; *mode = GCRY_CIPHER_MODE_CBC; *key_len = 32; *iv_len = 16; } else { return -1; } *iv = malloc(*iv_len); if (*iv == NULL) { return -1; } return load_iv(header + iv_pos, *iv, *iv_len); } static ssh_buffer privatekey_file_to_buffer(FILE *fp, int type, ssh_auth_callback cb, void *userdata, const char *desc) { ssh_buffer buffer = NULL; ssh_buffer out = NULL; char buf[MAXLINESIZE] = {0}; unsigned char *iv = NULL; const char *header_begin; const char *header_end; unsigned int header_begin_size; unsigned int header_end_size; unsigned int key_len = 0; unsigned int iv_len = 0; int algo = 0; int mode = 0; int len; buffer = buffer_new(); if (buffer == NULL) { return NULL; } switch(type) { case SSH_KEYTYPE_DSS: header_begin = DSA_HEADER_BEGIN; header_end = DSA_HEADER_END; break; case SSH_KEYTYPE_RSA: header_begin = RSA_HEADER_BEGIN; header_end = RSA_HEADER_END; break; default: buffer_free(buffer); return NULL; } header_begin_size = strlen(header_begin); header_end_size = strlen(header_end); while (read_line(buf, MAXLINESIZE, fp) && strncmp(buf, header_begin, header_begin_size)) ; len = read_line(buf, MAXLINESIZE, fp); if (len > 11 && strncmp("Proc-Type: 4,ENCRYPTED", buf, 11) == 0) { len = read_line(buf, MAXLINESIZE, fp); if (len > 10 && strncmp("DEK-Info: ", buf, 10) == 0) { if ((privatekey_dek_header(buf + 10, len - 10, &algo, &mode, &key_len, &iv, &iv_len) < 0) || read_line(buf, MAXLINESIZE, fp)) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } } else { buffer_free(buffer); SAFE_FREE(iv); return NULL; } } else { if (buffer_add_data(buffer, buf, len) < 0) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } } while ((len = read_line(buf,MAXLINESIZE,fp)) && strncmp(buf, header_end, header_end_size) != 0) { if (len == -1) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } if (buffer_add_data(buffer, buf, len) < 0) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } } if (strncmp(buf,header_end,header_end_size) != 0) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } if (buffer_add_data(buffer, "\0", 1) < 0) { buffer_free(buffer); SAFE_FREE(iv); return NULL; } out = base64_to_bin(buffer_get(buffer)); buffer_free(buffer); if (out == NULL) { SAFE_FREE(iv); return NULL; } if (algo) { if (privatekey_decrypt(algo, mode, key_len, iv, iv_len, out, cb, userdata, desc) < 0) { buffer_free(out); SAFE_FREE(iv); return NULL; } } SAFE_FREE(iv); return out; } static int read_rsa_privatekey(FILE *fp, gcry_sexp_t *r, ssh_auth_callback cb, void *userdata, const char *desc) { ssh_string n = NULL; ssh_string e = NULL; ssh_string d = NULL; ssh_string p = NULL; ssh_string q = NULL; ssh_string unused1 = NULL; ssh_string unused2 = NULL; ssh_string u = NULL; ssh_string v = NULL; ssh_buffer buffer = NULL; int rc = 1; buffer = privatekey_file_to_buffer(fp, SSH_KEYTYPE_RSA, cb, userdata, desc); if (buffer == NULL) { return 0; } if (!asn1_check_sequence(buffer)) { buffer_free(buffer); return 0; } v = asn1_get_int(buffer); if (ntohl(v->size) != 1 || v->string[0] != 0) { buffer_free(buffer); return 0; } n = asn1_get_int(buffer); e = asn1_get_int(buffer); d = asn1_get_int(buffer); q = asn1_get_int(buffer); p = asn1_get_int(buffer); unused1 = asn1_get_int(buffer); unused2 = asn1_get_int(buffer); u = asn1_get_int(buffer); buffer_free(buffer); if (n == NULL || e == NULL || d == NULL || p == NULL || q == NULL || unused1 == NULL || unused2 == NULL|| u == NULL) { rc = 0; goto error; } if (gcry_sexp_build(r, NULL, "(private-key(rsa(n %b)(e %b)(d %b)(p %b)(q %b)(u %b)))", ntohl(n->size), n->string, ntohl(e->size), e->string, ntohl(d->size), d->string, ntohl(p->size), p->string, ntohl(q->size), q->string, ntohl(u->size), u->string)) { rc = 0; } error: string_free(n); string_free(e); string_free(d); string_free(p); string_free(q); string_free(unused1); string_free(unused2); string_free(u); string_free(v); return rc; } static int read_dsa_privatekey(FILE *fp, gcry_sexp_t *r, ssh_auth_callback cb, void *userdata, const char *desc) { ssh_buffer buffer = NULL; ssh_string p = NULL; ssh_string q = NULL; ssh_string g = NULL; ssh_string y = NULL; ssh_string x = NULL; ssh_string v = NULL; int rc = 1; buffer = privatekey_file_to_buffer(fp, SSH_KEYTYPE_DSS, cb, userdata, desc); if (buffer == NULL) { return 0; } if (!asn1_check_sequence(buffer)) { buffer_free(buffer); return 0; } v = asn1_get_int(buffer); if (ntohl(v->size) != 1 || v->string[0] != 0) { buffer_free(buffer); return 0; } p = asn1_get_int(buffer); q = asn1_get_int(buffer); g = asn1_get_int(buffer); y = asn1_get_int(buffer); x = asn1_get_int(buffer); buffer_free(buffer); if (p == NULL || q == NULL || g == NULL || y == NULL || x == NULL) { rc = 0; goto error; } if (gcry_sexp_build(r, NULL, "(private-key(dsa(p %b)(q %b)(g %b)(y %b)(x %b)))", ntohl(p->size), p->string, ntohl(q->size), q->string, ntohl(g->size), g->string, ntohl(y->size), y->string, ntohl(x->size), x->string)) { rc = 0; } error: string_free(p); string_free(q); string_free(g); string_free(y); string_free(x); string_free(v); return rc; } #endif /* HAVE_LIBGCRYPT */ #ifdef HAVE_LIBCRYPTO static int pem_get_password(char *buf, int size, int rwflag, void *userdata) { ssh_session session = userdata; /* unused flag */ (void) rwflag; if(buf==NULL) return 0; memset(buf,'\0',size); ssh_log(session, SSH_LOG_RARE, "Trying to call external authentication function"); if (session && session->callbacks && session->callbacks->auth_function) { if (session->callbacks->auth_function("Passphrase for private key:", buf, size, 0, 0, session->callbacks->userdata) < 0) { return 0; } return strlen(buf); } return 0; } #endif /* HAVE_LIBCRYPTO */ static int privatekey_type_from_file(FILE *fp) { char buffer[MAXLINESIZE] = {0}; if (!fgets(buffer, MAXLINESIZE, fp)) { return 0; } fseek(fp, 0, SEEK_SET); if (strncmp(buffer, DSA_HEADER_BEGIN, strlen(DSA_HEADER_BEGIN)) == 0) { return SSH_KEYTYPE_DSS; } if (strncmp(buffer, RSA_HEADER_BEGIN, strlen(RSA_HEADER_BEGIN)) == 0) { return SSH_KEYTYPE_RSA; } return 0; } /** * @addtogroup libssh_auth * * @{ */ /** * @brief Reads a SSH private key from a file. * * @param[in] session The SSH Session to use. * * @param[in] filename The filename of the the private key. * * @param[in] type The type of the private key. This could be SSH_KEYTYPE_DSS or * SSH_KEYTYPE_RSA. Pass 0 to automatically detect the type. * * @param[in] passphrase The passphrase to decrypt the private key. Set to null * if none is needed or it is unknown. * * @returns A private_key object containing the private key, or * NULL on error. * * @todo Implement to read both DSA and RSA at once. * * @see privatekey_free() * @see publickey_from_privatekey() */ ssh_private_key privatekey_from_file(ssh_session session, const char *filename, int type, const char *passphrase) { ssh_auth_callback auth_cb = NULL; ssh_private_key privkey = NULL; void *auth_ud = NULL; FILE *file = NULL; #ifdef HAVE_LIBGCRYPT gcry_sexp_t dsa = NULL; gcry_sexp_t rsa = NULL; int valid; #elif defined HAVE_LIBCRYPTO DSA *dsa = NULL; RSA *rsa = NULL; #endif /* needed for openssl initialization */ ssh_init(); ssh_log(session, SSH_LOG_RARE, "Trying to open %s", filename); file = fopen(filename,"r"); if (file == NULL) { ssh_set_error(session, SSH_REQUEST_DENIED, "Error opening %s: %s", filename, strerror(errno)); return NULL; } ssh_log(session, SSH_LOG_RARE, "Trying to read %s, passphase=%s, authcb=%s", filename, passphrase ? "true" : "false", session->callbacks && session->callbacks->auth_function ? "true" : "false"); if (type == 0) { type = privatekey_type_from_file(file); if (type == 0) { fclose(file); ssh_set_error(session, SSH_FATAL, "Invalid private key file."); return NULL; } } switch (type) { case SSH_KEYTYPE_DSS: if (passphrase == NULL) { if (session->callbacks && session->callbacks->auth_function) { auth_cb = session->callbacks->auth_function; auth_ud = session->callbacks->userdata; #ifdef HAVE_LIBGCRYPT valid = read_dsa_privatekey(file, &dsa, auth_cb, auth_ud, "Passphrase for private key:"); } else { /* authcb */ valid = read_dsa_privatekey(file, &dsa, NULL, NULL, NULL); } /* authcb */ } else { /* passphrase */ valid = read_dsa_privatekey(file, &dsa, NULL, (void *) passphrase, NULL); } fclose(file); if (!valid) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s", filename); #elif defined HAVE_LIBCRYPTO dsa = PEM_read_DSAPrivateKey(file, NULL, pem_get_password, session); } else { /* authcb */ /* openssl uses its own callback to get the passphrase here */ dsa = PEM_read_DSAPrivateKey(file, NULL, NULL, NULL); } /* authcb */ } else { /* passphrase */ dsa = PEM_read_DSAPrivateKey(file, NULL, NULL, (void *) passphrase); } fclose(file); if (dsa == NULL) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s: %s", filename, ERR_error_string(ERR_get_error(), NULL)); #endif return NULL; } break; case SSH_KEYTYPE_RSA: if (passphrase == NULL) { if (session->callbacks && session->callbacks->auth_function) { auth_cb = session->callbacks->auth_function; auth_ud = session->callbacks->userdata; #ifdef HAVE_LIBGCRYPT valid = read_rsa_privatekey(file, &rsa, auth_cb, auth_ud, "Passphrase for private key:"); } else { /* authcb */ valid = read_rsa_privatekey(file, &rsa, NULL, NULL, NULL); } /* authcb */ } else { /* passphrase */ valid = read_rsa_privatekey(file, &rsa, NULL, (void *) passphrase, NULL); } fclose(file); if (!valid) { ssh_set_error(session,SSH_FATAL, "Parsing private key %s", filename); #elif defined HAVE_LIBCRYPTO rsa = PEM_read_RSAPrivateKey(file, NULL, pem_get_password, session); } else { /* authcb */ /* openssl uses its own callback to get the passphrase here */ rsa = PEM_read_RSAPrivateKey(file, NULL, NULL, NULL); } /* authcb */ } else { /* passphrase */ rsa = PEM_read_RSAPrivateKey(file, NULL, NULL, (void *) passphrase); } fclose(file); if (rsa == NULL) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s: %s", filename, ERR_error_string(ERR_get_error(),NULL)); #endif return NULL; } break; default: fclose(file); ssh_set_error(session, SSH_FATAL, "Invalid private key type %d", type); return NULL; } /* switch */ privkey = malloc(sizeof(struct ssh_private_key_struct)); if (privkey == NULL) { #ifdef HAVE_LIBGCRYPT gcry_sexp_release(dsa); gcry_sexp_release(rsa); #elif defined HAVE_LIBCRYPTO DSA_free(dsa); RSA_free(rsa); #endif return NULL; } privkey->type = type; privkey->dsa_priv = dsa; privkey->rsa_priv = rsa; return privkey; } /** * @brief returns the type of a private key * @param[in] privatekey the private key handle * @returns one of SSH_KEYTYPE_RSA,SSH_KEYTYPE_DSS,SSH_KEYTYPE_RSA1 * @returns SSH_KEYTYPE_UNKNOWN if the type is unknown * @see privatekey_from_file * @see ssh_userauth_offer_pubkey */ enum ssh_keytypes_e ssh_privatekey_type(ssh_private_key privatekey){ if (privatekey==NULL) return SSH_KEYTYPE_UNKNOWN; return privatekey->type; } /* same that privatekey_from_file() but without any passphrase things. */ ssh_private_key _privatekey_from_file(void *session, const char *filename, int type) { ssh_private_key privkey = NULL; FILE *file = NULL; #ifdef HAVE_LIBGCRYPT gcry_sexp_t dsa = NULL; gcry_sexp_t rsa = NULL; int valid; #elif defined HAVE_LIBCRYPTO DSA *dsa = NULL; RSA *rsa = NULL; #endif file = fopen(filename,"r"); if (file == NULL) { ssh_set_error(session, SSH_REQUEST_DENIED, "Error opening %s: %s", filename, strerror(errno)); return NULL; } switch (type) { case SSH_KEYTYPE_DSS: #ifdef HAVE_LIBGCRYPT valid = read_dsa_privatekey(file, &dsa, NULL, NULL, NULL); fclose(file); if (!valid) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s", filename); #elif defined HAVE_LIBCRYPTO dsa = PEM_read_DSAPrivateKey(file, NULL, NULL, NULL); fclose(file); if (dsa == NULL) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s: %s", filename, ERR_error_string(ERR_get_error(), NULL)); #endif return NULL; } break; case SSH_KEYTYPE_RSA: #ifdef HAVE_LIBGCRYPT valid = read_rsa_privatekey(file, &rsa, NULL, NULL, NULL); fclose(file); if (!valid) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s", filename); #elif defined HAVE_LIBCRYPTO rsa = PEM_read_RSAPrivateKey(file, NULL, NULL, NULL); fclose(file); if (rsa == NULL) { ssh_set_error(session, SSH_FATAL, "Parsing private key %s: %s", filename, ERR_error_string(ERR_get_error(), NULL)); #endif return NULL; } break; default: ssh_set_error(session, SSH_FATAL, "Invalid private key type %d", type); return NULL; } privkey = malloc(sizeof(struct ssh_private_key_struct)); if (privkey == NULL) { #ifdef HAVE_LIBGCRYPT gcry_sexp_release(dsa); gcry_sexp_release(rsa); #elif defined HAVE_LIBCRYPTO DSA_free(dsa); RSA_free(rsa); #endif return NULL; } privkey->type = type; privkey->dsa_priv = dsa; privkey->rsa_priv = rsa; return privkey; } /** * @brief Deallocate a private key object. * * @param[in] prv The private_key object to free. */ void privatekey_free(ssh_private_key prv) { if (prv == NULL) { return; } #ifdef HAVE_LIBGCRYPT gcry_sexp_release(prv->dsa_priv); gcry_sexp_release(prv->rsa_priv); #elif defined HAVE_LIBCRYPTO DSA_free(prv->dsa_priv); RSA_free(prv->rsa_priv); #endif memset(prv, 0, sizeof(struct ssh_private_key_struct)); SAFE_FREE(prv); } /** * @brief Write a public key to a file. * * @param[in] session The ssh session to use. * * @param[in] file The filename to write the key into. * * @param[in] pubkey The public key to write. * * @param[in] type The type of the public key. * * @return 0 on success, -1 on error. */ int ssh_publickey_to_file(ssh_session session, const char *file, ssh_string pubkey, int type) { FILE *fp; char *user; char buffer[1024]; char host[256]; unsigned char *pubkey_64; size_t len; int rc; pubkey_64 = bin_to_base64(pubkey->string, string_len(pubkey)); if (pubkey_64 == NULL) { return -1; } user = ssh_get_local_username(session); if (user == NULL) { SAFE_FREE(pubkey_64); return -1; } rc = gethostname(host, sizeof(host)); if (rc < 0) { SAFE_FREE(user); SAFE_FREE(pubkey_64); return -1; } snprintf(buffer, sizeof(buffer), "%s %s %s@%s\n", ssh_type_to_char(type), pubkey_64, user, host); SAFE_FREE(pubkey_64); SAFE_FREE(user); ssh_log(session, SSH_LOG_RARE, "Trying to write public key file: %s", file); ssh_log(session, SSH_LOG_PACKET, "public key file content: %s", buffer); fp = fopen(file, "w+"); if (fp == NULL) { ssh_set_error(session, SSH_REQUEST_DENIED, "Error opening %s: %s", file, strerror(errno)); return -1; } len = strlen(buffer); if (fwrite(buffer, len, 1, fp) != 1 || ferror(fp)) { ssh_set_error(session, SSH_REQUEST_DENIED, "Unable to write to %s", file); fclose(fp); unlink(file); return -1; } fclose(fp); return 0; } /** * @brief Retrieve a public key from a file. * * @param[in] session The SSH session to use. * * @param[in] filename The filename of the public key. * * @param[out] type The Pointer to a integer. If it is not NULL, it will * contain the type of the key after execution. * * @return A SSH String containing the public key, or NULL if it * failed. * * @see string_free() * @see publickey_from_privatekey() */ ssh_string publickey_from_file(ssh_session session, const char *filename, int *type) { ssh_buffer buffer = NULL; char buf[4096] = {0}; ssh_string str = NULL; char *ptr = NULL; int key_type; int fd = -1; int r; fd = open(filename, O_RDONLY); if (fd < 0) { ssh_set_error(session, SSH_REQUEST_DENIED, "Public key file doesn't exist"); return NULL; } if (read(fd, buf, 8) != 8) { close(fd); ssh_set_error(session, SSH_REQUEST_DENIED, "Invalid public key file"); return NULL; } buf[7] = '\0'; key_type = ssh_type_from_name(buf); if (key_type == -1) { close(fd); ssh_set_error(session, SSH_REQUEST_DENIED, "Invalid public key file"); return NULL; } r = read(fd, buf, sizeof(buf) - 1); close(fd); if (r <= 0) { ssh_set_error(session, SSH_REQUEST_DENIED, "Invalid public key file"); return NULL; } buf[r] = 0; ptr = strchr(buf, ' '); /* eliminate the garbage at end of file */ if (ptr) { *ptr = '\0'; } buffer = base64_to_bin(buf); if (buffer == NULL) { ssh_set_error(session, SSH_REQUEST_DENIED, "Invalid public key file"); return NULL; } str = string_new(buffer_get_len(buffer)); if (str == NULL) { ssh_set_error(session, SSH_FATAL, "Not enough space"); buffer_free(buffer); return NULL; } string_fill(str, buffer_get(buffer), buffer_get_len(buffer)); buffer_free(buffer); if (type) { *type = key_type; } return str; } /** * @brief Try to read the public key from a given file. * * @param[in] session The ssh session to use. * * @param[in] keyfile The name of the private keyfile. * * @param[out] publickey A ssh_string to store the public key. * * @param[out] type A pointer to an integer to store the type. * * @return 0 on success, -1 on error or the private key doesn't * exist, 1 if the public key doesn't exist. */ int ssh_try_publickey_from_file(ssh_session session, const char *keyfile, ssh_string *publickey, int *type) { char *pubkey_file; size_t len; ssh_string pubkey_string; int pubkey_type; if (session == NULL || keyfile == NULL || publickey == NULL || type == NULL) { return -1; } if (session->sshdir == NULL) { if (ssh_options_set(session, SSH_OPTIONS_SSH_DIR, NULL) < 0) { return -1; } } ssh_log(session, SSH_LOG_PACKET, "Trying to open privatekey %s", keyfile); if (!ssh_file_readaccess_ok(keyfile)) { ssh_log(session, SSH_LOG_PACKET, "Failed to open privatekey %s", keyfile); return -1; } len = strlen(keyfile) + 5; pubkey_file = malloc(len); if (pubkey_file == NULL) { return -1; } snprintf(pubkey_file, len, "%s.pub", keyfile); ssh_log(session, SSH_LOG_PACKET, "Trying to open publickey %s", pubkey_file); if (!ssh_file_readaccess_ok(pubkey_file)) { ssh_log(session, SSH_LOG_PACKET, "Failed to open publickey %s", pubkey_file); SAFE_FREE(pubkey_file); return 1; } ssh_log(session, SSH_LOG_PACKET, "Success opening public and private key"); /* * We are sure both the private and public key file is readable. We return * the public as a string, and the private filename as an argument */ pubkey_string = publickey_from_file(session, pubkey_file, &pubkey_type); if (pubkey_string == NULL) { ssh_log(session, SSH_LOG_PACKET, "Wasn't able to open public key file %s: %s", pubkey_file, ssh_get_error(session)); SAFE_FREE(pubkey_file); return -1; } SAFE_FREE(pubkey_file); *publickey = pubkey_string; *type = pubkey_type; return 0; } ssh_string try_publickey_from_file(ssh_session session, struct ssh_keys_struct keytab, char **privkeyfile, int *type) { const char *priv; const char *pub; char *new; ssh_string pubkey=NULL; pub = keytab.publickey; if (pub == NULL) { return NULL; } priv = keytab.privatekey; if (priv == NULL) { return NULL; } if (session->sshdir == NULL) { if (ssh_options_set(session, SSH_OPTIONS_SSH_DIR, NULL) < 0) { return NULL; } } ssh_log(session, SSH_LOG_PACKET, "Trying to open publickey %s", pub); if (!ssh_file_readaccess_ok(pub)) { ssh_log(session, SSH_LOG_PACKET, "Failed to open publickey %s", pub); goto error; } ssh_log(session, SSH_LOG_PACKET, "Trying to open privatekey %s", priv); if (!ssh_file_readaccess_ok(priv)) { ssh_log(session, SSH_LOG_PACKET, "Failed to open privatekey %s", priv); goto error; } ssh_log(session, SSH_LOG_PACKET, "Success opening public and private key"); /* * We are sure both the private and public key file is readable. We return * the public as a string, and the private filename as an argument */ pubkey = publickey_from_file(session, pub, type); if (pubkey == NULL) { ssh_log(session, SSH_LOG_PACKET, "Wasn't able to open public key file %s: %s", pub, ssh_get_error(session)); goto error; } new = realloc(*privkeyfile, strlen(priv) + 1); if (new == NULL) { string_free(pubkey); goto error; } strcpy(new, priv); *privkeyfile = new; error: return pubkey; } static int alldigits(const char *s) { while (*s) { if (isdigit(*s)) { s++; } else { return 0; } } return 1; } /* @} */ /** * @addtogroup libssh_session * * @{ */ /** * @internal * * @brief Free a token array. */ static void tokens_free(char **tokens) { if (tokens == NULL) { return; } SAFE_FREE(tokens[0]); /* It's not needed to free other pointers because tokens generated by * space_tokenize fit all in one malloc */ SAFE_FREE(tokens); } /** * @internal * * @brief Return one line of known host file. * * This will return a token array containing (host|ip), keytype and key. * * @param[out] file A pointer to the known host file. Could be pointing to * NULL at start. * * @param[in] filename The file name of the known host file. * * @param[out] found_type A pointer to a string to be set with the found key * type. * * @returns The found_type type of key (ie "dsa","ssh-rsa1"). Don't * free that value. NULL if no match was found or the file * was not found. */ static char **ssh_get_knownhost_line(ssh_session session, FILE **file, const char *filename, const char **found_type) { char buffer[4096] = {0}; char *ptr; char **tokens; enter_function(); if(*file == NULL){ *file = fopen(filename,"r"); if (*file == NULL) { leave_function(); return NULL; } } while (fgets(buffer, sizeof(buffer), *file)) { ptr = strchr(buffer, '\n'); if (ptr) { *ptr = '\0'; } ptr = strchr(buffer,'\r'); if (ptr) { *ptr = '\0'; } if (!buffer[0] || buffer[0] == '#') { continue; /* skip empty lines */ } tokens = space_tokenize(buffer); if (tokens == NULL) { fclose(*file); *file = NULL; leave_function(); return NULL; } if(!tokens[0] || !tokens[1] || !tokens[2]) { /* it should have at least 3 tokens */ tokens_free(tokens); continue; } *found_type = tokens[1]; if (tokens[3]) { /* openssh rsa1 format has 4 tokens on the line. Recognize it by the fact that everything is all digits */ if (tokens[4]) { /* that's never valid */ tokens_free(tokens); continue; } if (alldigits(tokens[1]) && alldigits(tokens[2]) && alldigits(tokens[3])) { *found_type = "ssh-rsa1"; } else { /* 3 tokens only, not four */ tokens_free(tokens); continue; } } leave_function(); return tokens; } fclose(*file); *file = NULL; /* we did not find anything, end of file*/ leave_function(); return NULL; } /** * @brief Check the public key in the known host line matches the public key of * the currently connected server. * * @param[in] session The SSH session to use. * * @param[in] tokens A list of tokens in the known_hosts line. * * @returns 1 if the key matches, 0 if the key doesn't match and -1 * on error. */ static int check_public_key(ssh_session session, char **tokens) { ssh_string pubkey = session->current_crypto->server_pubkey; ssh_buffer pubkey_buffer; char *pubkey_64; /* ok we found some public key in known hosts file. now un-base64it */ if (alldigits(tokens[1])) { /* openssh rsa1 format */ bignum tmpbn; ssh_string tmpstring; unsigned int len; int i; pubkey_buffer = buffer_new(); if (pubkey_buffer == NULL) { return -1; } tmpstring = string_from_char("ssh-rsa1"); if (tmpstring == NULL) { buffer_free(pubkey_buffer); return -1; } if (buffer_add_ssh_string(pubkey_buffer, tmpstring) < 0) { buffer_free(pubkey_buffer); string_free(tmpstring); return -1; } string_free(tmpstring); for (i = 2; i < 4; i++) { /* e, then n */ tmpbn = NULL; bignum_dec2bn(tokens[i], &tmpbn); if (tmpbn == NULL) { buffer_free(pubkey_buffer); return -1; } /* for some reason, make_bignum_string does not work because of the padding which it does --kv */ /* tmpstring = make_bignum_string(tmpbn); */ /* do it manually instead */ len = bignum_num_bytes(tmpbn); tmpstring = malloc(4 + len); if (tmpstring == NULL) { buffer_free(pubkey_buffer); bignum_free(tmpbn); return -1; } /* TODO: fix the hardcoding */ tmpstring->size = htonl(len); #ifdef HAVE_LIBGCRYPT bignum_bn2bin(tmpbn, len, tmpstring->string); #elif defined HAVE_LIBCRYPTO bignum_bn2bin(tmpbn, tmpstring->string); #endif bignum_free(tmpbn); if (buffer_add_ssh_string(pubkey_buffer, tmpstring) < 0) { buffer_free(pubkey_buffer); string_free(tmpstring); bignum_free(tmpbn); return -1; } string_free(tmpstring); } } else { /* ssh-dss or ssh-rsa */ pubkey_64 = tokens[2]; pubkey_buffer = base64_to_bin(pubkey_64); } if (pubkey_buffer == NULL) { ssh_set_error(session, SSH_FATAL, "Verifying that server is a known host: base64 error"); return -1; } if (buffer_get_len(pubkey_buffer) != string_len(pubkey)) { buffer_free(pubkey_buffer); return 0; } /* now test that they are identical */ if (memcmp(buffer_get(pubkey_buffer), pubkey->string, buffer_get_len(pubkey_buffer)) != 0) { buffer_free(pubkey_buffer); return 0; } buffer_free(pubkey_buffer); return 1; } /** * @brief Check if a hostname matches a openssh-style hashed known host. * * @param[in] host The host to check. * * @param[in] hashed The hashed value. * * @returns 1 if it matches, 0 otherwise. */ static int match_hashed_host(ssh_session session, const char *host, const char *sourcehash) { /* Openssh hash structure : * |1|base64 encoded salt|base64 encoded hash * hash is produced that way : * hash := HMAC_SHA1(key=salt,data=host) */ unsigned char buffer[256] = {0}; ssh_buffer salt; ssh_buffer hash; HMACCTX mac; char *source; char *b64hash; int match; unsigned int size; enter_function(); if (strncmp(sourcehash, "|1|", 3) != 0) { leave_function(); return 0; } source = strdup(sourcehash + 3); if (source == NULL) { leave_function(); return 0; } b64hash = strchr(source, '|'); if (b64hash == NULL) { /* Invalid hash */ SAFE_FREE(source); leave_function(); return 0; } *b64hash = '\0'; b64hash++; salt = base64_to_bin(source); if (salt == NULL) { SAFE_FREE(source); leave_function(); return 0; } hash = base64_to_bin(b64hash); SAFE_FREE(source); if (hash == NULL) { buffer_free(salt); leave_function(); return 0; } mac = hmac_init(buffer_get(salt), buffer_get_len(salt), HMAC_SHA1); if (mac == NULL) { buffer_free(salt); buffer_free(hash); leave_function(); return 0; } size = sizeof(buffer); hmac_update(mac, host, strlen(host)); hmac_final(mac, buffer, &size); if (size == buffer_get_len(hash) && memcmp(buffer, buffer_get(hash), size) == 0) { match = 1; } else { match = 0; } buffer_free(salt); buffer_free(hash); ssh_log(session, SSH_LOG_PACKET, "Matching a hashed host: %s match=%d", host, match); leave_function(); return match; } /* How it's working : * 1- we open the known host file and bitch if it doesn't exist * 2- we need to examine each line of the file, until going on state SSH_SERVER_KNOWN_OK: * - there's a match. if the key is good, state is SSH_SERVER_KNOWN_OK, * else it's SSH_SERVER_KNOWN_CHANGED (or SSH_SERVER_FOUND_OTHER) * - there's no match : no change */ /** * @brief Check if the server is known. * * Checks the user's known host file for a previous connection to the * current server. * * @param[in] session The SSH session to use. * * @returns SSH_SERVER_KNOWN_OK: The server is known and has not changed.\n * SSH_SERVER_KNOWN_CHANGED: The server key has changed. Either you * are under attack or the administrator * changed the key. You HAVE to warn the * user about a possible attack.\n * SSH_SERVER_FOUND_OTHER: The server gave use a key of a type while * we had an other type recorded. It is a * possible attack.\n * SSH_SERVER_NOT_KNOWN: The server is unknown. User should * confirm the MD5 is correct.\n * SSH_SERVER_FILE_NOT_FOUND: The known host file does not exist. The * host is thus unknown. File will be * created if host key is accepted.\n * SSH_SERVER_ERROR: Some error happened. * * @see ssh_options_set() * @see ssh_get_pubkey_hash() * * @bug There is no current way to remove or modify an entry into the known * host table. */ int ssh_is_server_known(ssh_session session) { FILE *file = NULL; char **tokens; char *host; char *hostport; const char *type; int match; int ret = SSH_SERVER_NOT_KNOWN; enter_function(); if (session->knownhosts == NULL) { if (ssh_options_set(session, SSH_OPTIONS_KNOWNHOSTS, NULL) < 0) { ssh_set_error(session, SSH_REQUEST_DENIED, "Can't find a known_hosts file"); leave_function(); return SSH_SERVER_FILE_NOT_FOUND; } } if (session->host == NULL) { ssh_set_error(session, SSH_FATAL, "Can't verify host in known hosts if the hostname isn't known"); leave_function(); return SSH_SERVER_ERROR; } host = ssh_lowercase(session->host); hostport = ssh_hostport(host,session->port); if (host == NULL || hostport == NULL) { ssh_set_error_oom(session); SAFE_FREE(host); SAFE_FREE(hostport); leave_function(); return SSH_SERVER_ERROR; } do { tokens = ssh_get_knownhost_line(session, &file, session->knownhosts, &type); /* End of file, return the current state */ if (tokens == NULL) { break; } match = match_hashed_host(session, host, tokens[0]); if (match == 0){ match = match_hostname(hostport, tokens[0], strlen(tokens[0])); } if (match == 0) { match = match_hostname(host, tokens[0], strlen(tokens[0])); } if (match == 0) { match = match_hashed_host(session, hostport, tokens[0]); } if (match) { /* We got a match. Now check the key type */ if (strcmp(session->current_crypto->server_pubkey_type, type) != 0) { /* Different type. We don't override the known_changed error which is * more important */ if (ret != SSH_SERVER_KNOWN_CHANGED) ret = SSH_SERVER_FOUND_OTHER; tokens_free(tokens); continue; } /* so we know the key type is good. We may get a good key or a bad key. */ match = check_public_key(session, tokens); tokens_free(tokens); if (match < 0) { ret = SSH_SERVER_ERROR; break; } else if (match == 1) { ret = SSH_SERVER_KNOWN_OK; break; } else if(match == 0) { /* We override the status with the wrong key state */ ret = SSH_SERVER_KNOWN_CHANGED; } } else { tokens_free(tokens); } } while (1); if ( (ret == SSH_SERVER_NOT_KNOWN) && (session->StrictHostKeyChecking == 0) ) { ssh_write_knownhost(session); ret = SSH_SERVER_KNOWN_OK; } SAFE_FREE(host); SAFE_FREE(hostport); if (file != NULL) { fclose(file); } /* Return the current state at end of file */ leave_function(); return ret; } /** * @brief Write the current server as known in the known hosts file. * * This will create the known hosts file if it does not exist. You generaly use * it when ssh_is_server_known() answered SSH_SERVER_NOT_KNOWN. * * @param[in] session The ssh session to use. * * @return SSH_OK on success, SSH_ERROR on error. */ int ssh_write_knownhost(ssh_session session) { ssh_string pubkey = session->current_crypto->server_pubkey; unsigned char *pubkey_64; char buffer[4096] = {0}; FILE *file; char *dir; char *host; char *hostport; size_t len = 0; if (session->host == NULL) { ssh_set_error(session, SSH_FATAL, "Can't write host in known hosts if the hostname isn't known"); return SSH_ERROR; } host = ssh_lowercase(session->host); /* If using a nonstandard port, save the host in the [host]:port format */ if(session->port != 22){ hostport = ssh_hostport(host,session->port); SAFE_FREE(host); host=hostport; hostport=NULL; } if (session->knownhosts == NULL) { if (ssh_options_set(session, SSH_OPTIONS_KNOWNHOSTS, NULL) < 0) { ssh_set_error(session, SSH_FATAL, "Can't find a known_hosts file"); return -1; } } /* Check if ~/.ssh exists and create it if not */ dir = ssh_dirname(session->knownhosts); if (dir == NULL) { ssh_set_error(session, SSH_FATAL, "%s", strerror(errno)); return -1; } if (! ssh_file_readaccess_ok(dir)) { if (ssh_mkdir(dir, 0700) < 0) { ssh_set_error(session, SSH_FATAL, "Cannot create %s directory.", dir); SAFE_FREE(dir); return -1; } } SAFE_FREE(dir); file = fopen(session->knownhosts, "a"); if (file == NULL) { ssh_set_error(session, SSH_FATAL, "Couldn't open known_hosts file %s for appending: %s", session->knownhosts, strerror(errno)); SAFE_FREE(host); return -1; } if (strcmp(session->current_crypto->server_pubkey_type, "ssh-rsa1") == 0) { /* openssh uses a different format for ssh-rsa1 keys. Be compatible --kv */ ssh_public_key key; char *e_string = NULL; char *n_string = NULL; bignum e = NULL; bignum n = NULL; int rsa_size; #ifdef HAVE_LIBGCRYPT gcry_sexp_t sexp; #endif key = publickey_from_string(session, pubkey); if (key == NULL) { fclose(file); SAFE_FREE(host); return -1; } #ifdef HAVE_LIBGCRYPT sexp = gcry_sexp_find_token(key->rsa_pub, "e", 0); if (sexp == NULL) { publickey_free(key); fclose(file); SAFE_FREE(host); return -1; } e = gcry_sexp_nth_mpi(sexp, 1, GCRYMPI_FMT_USG); gcry_sexp_release(sexp); if (e == NULL) { publickey_free(key); fclose(file); SAFE_FREE(host); return -1; } sexp = gcry_sexp_find_token(key->rsa_pub, "n", 0); if (sexp == NULL) { publickey_free(key); bignum_free(e); fclose(file); SAFE_FREE(host); return -1; } n = gcry_sexp_nth_mpi(sexp, 1, GCRYMPI_FMT_USG); gcry_sexp_release(sexp); if (n == NULL) { publickey_free(key); bignum_free(e); fclose(file); SAFE_FREE(host); return -1; } rsa_size = (gcry_pk_get_nbits(key->rsa_pub) + 7) / 8; #elif defined HAVE_LIBCRYPTO e = key->rsa_pub->e; n = key->rsa_pub->n; rsa_size = RSA_size(key->rsa_pub); #endif e_string = bignum_bn2dec(e); n_string = bignum_bn2dec(n); if (e_string == NULL || n_string == NULL) { #ifdef HAVE_LIBGCRYPT bignum_free(e); bignum_free(n); SAFE_FREE(e_string); SAFE_FREE(n_string); #elif defined HAVE_LIBCRYPTO OPENSSL_free(e_string); OPENSSL_free(n_string); #endif publickey_free(key); fclose(file); SAFE_FREE(host); return -1; } snprintf(buffer, sizeof(buffer), "%s %d %s %s\n", host, rsa_size << 3, e_string, n_string); #ifdef HAVE_LIBGCRYPT bignum_free(e); bignum_free(n); SAFE_FREE(e_string); SAFE_FREE(n_string); #elif defined HAVE_LIBCRYPTO OPENSSL_free(e_string); OPENSSL_free(n_string); #endif publickey_free(key); } else { pubkey_64 = bin_to_base64(pubkey->string, string_len(pubkey)); if (pubkey_64 == NULL) { fclose(file); SAFE_FREE(host); return -1; } snprintf(buffer, sizeof(buffer), "%s %s %s\n", host, session->current_crypto->server_pubkey_type, pubkey_64); SAFE_FREE(pubkey_64); } SAFE_FREE(host); len = strlen(buffer); if (fwrite(buffer, len, 1, file) != 1 || ferror(file)) { fclose(file); return -1; } fclose(file); return 0; } /* @} */ /* vim: set ts=4 sw=4 et cindent: */