/*
* Generic SSH public-key handling operations. In particular,
* reading of SSH public-key files, and also the generic `sign'
- * operation for ssh2 (which checks the type of the key and
+ * operation for SSH-2 (which checks the type of the key and
* dispatches to the appropriate key-type specific function).
*/
#include <stdlib.h>
#include <assert.h>
+#include "putty.h"
#include "ssh.h"
-
-#define PUT_32BIT(cp, value) do { \
- (cp)[3] = (value); \
- (cp)[2] = (value) >> 8; \
- (cp)[1] = (value) >> 16; \
- (cp)[0] = (value) >> 24; } while (0)
-
-#define GET_32BIT(cp) \
- (((unsigned long)(unsigned char)(cp)[0] << 24) | \
- ((unsigned long)(unsigned char)(cp)[1] << 16) | \
- ((unsigned long)(unsigned char)(cp)[2] << 8) | \
- ((unsigned long)(unsigned char)(cp)[3]))
+#include "misc.h"
#define rsa_signature "SSH PRIVATE KEY FILE FORMAT 1.1\n"
(x)=='+' ? 62 : \
(x)=='/' ? 63 : 0 )
-static int loadrsakey_main(FILE *fp, struct RSAKey *key,
- char **commentptr, char *passphrase) {
+static int loadrsakey_main(FILE * fp, struct RSAKey *key, int pub_only,
+ char **commentptr, char *passphrase,
+ const char **error)
+{
unsigned char buf[16384];
unsigned char keybuf[16];
int len;
struct MD5Context md5c;
char *comment;
+ *error = NULL;
+
/* Slurp the whole file (minus the header) into a buffer. */
len = fread(buf, 1, sizeof(buf), fp);
fclose(fp);
- if (len < 0 || len == sizeof(buf))
- goto end; /* file too big or not read */
+ if (len < 0 || len == sizeof(buf)) {
+ *error = "error reading file";
+ goto end; /* file too big or not read */
+ }
i = 0;
+ *error = "file format error";
/*
* A zero byte. (The signature includes a terminating NUL.)
*/
- if (len-i < 1 || buf[i] != 0)
- goto end;
+ if (len - i < 1 || buf[i] != 0)
+ goto end;
i++;
/* One byte giving encryption type, and one reserved uint32. */
- if (len-i < 1)
- goto end;
+ if (len - i < 1)
+ goto end;
ciphertype = buf[i];
if (ciphertype != 0 && ciphertype != SSH_CIPHER_3DES)
- goto end;
+ goto end;
i++;
- if (len-i < 4)
- goto end; /* reserved field not present */
- if (buf[i] != 0 || buf[i+1] != 0 || buf[i+2] != 0 || buf[i+3] != 0)
- goto end; /* reserved field nonzero, panic! */
+ if (len - i < 4)
+ goto end; /* reserved field not present */
+ if (buf[i] != 0 || buf[i + 1] != 0 || buf[i + 2] != 0
+ || buf[i + 3] != 0) goto end; /* reserved field nonzero, panic! */
i += 4;
- /* Now the serious stuff. An ordinary SSH 1 public key. */
- i += makekey(buf+i, key, NULL, 1);
- if (len-i < 0)
- goto end; /* overran */
+ /* Now the serious stuff. An ordinary SSH-1 public key. */
+ j = makekey(buf + i, len, key, NULL, 1);
+ if (j < 0)
+ goto end; /* overran */
+ i += j;
/* Next, the comment field. */
- j = GET_32BIT(buf+i);
+ j = toint(GET_32BIT(buf + i));
i += 4;
- if (len-i < j) goto end;
- comment = smalloc(j+1);
+ if (j < 0 || len - i < j)
+ goto end;
+ comment = snewn(j + 1, char);
if (comment) {
- memcpy(comment, buf+i, j);
- comment[j] = '\0';
+ memcpy(comment, buf + i, j);
+ comment[j] = '\0';
}
i += j;
if (commentptr)
- *commentptr = comment;
+ *commentptr = dupstr(comment);
if (key)
- key->comment = comment;
+ key->comment = comment;
+ else
+ sfree(comment);
+
+ if (pub_only) {
+ ret = 1;
+ goto end;
+ }
+
if (!key) {
- return ciphertype != 0;
+ ret = ciphertype != 0;
+ *error = NULL;
+ goto end;
}
/*
* Decrypt remainder of buffer.
*/
if (ciphertype) {
- MD5Init(&md5c);
- MD5Update(&md5c, passphrase, strlen(passphrase));
- MD5Final(keybuf, &md5c);
- des3_decrypt_pubkey(keybuf, buf+i, (len-i+7)&~7);
- memset(keybuf, 0, sizeof(keybuf)); /* burn the evidence */
+ MD5Init(&md5c);
+ MD5Update(&md5c, (unsigned char *)passphrase, strlen(passphrase));
+ MD5Final(keybuf, &md5c);
+ des3_decrypt_pubkey(keybuf, buf + i, (len - i + 7) & ~7);
+ smemclr(keybuf, sizeof(keybuf)); /* burn the evidence */
}
/*
* We are now in the secret part of the key. The first four
* bytes should be of the form a, b, a, b.
*/
- if (len-i < 4) goto end;
- if (buf[i] != buf[i+2] || buf[i+1] != buf[i+3]) { ret = -1; goto end; }
+ if (len - i < 4)
+ goto end;
+ if (buf[i] != buf[i + 2] || buf[i + 1] != buf[i + 3]) {
+ *error = "wrong passphrase";
+ ret = -1;
+ goto end;
+ }
i += 4;
/*
* decryption exponent, and then the three auxiliary values
* (iqmp, q, p).
*/
- i += makeprivate(buf+i, key);
- if (len-i < 0) goto end;
- i += ssh1_read_bignum(buf+i, &key->iqmp);
- if (len-i < 0) goto end;
- i += ssh1_read_bignum(buf+i, &key->q);
- if (len-i < 0) goto end;
- i += ssh1_read_bignum(buf+i, &key->p);
- if (len-i < 0) goto end;
+ j = makeprivate(buf + i, len - i, key);
+ if (j < 0) goto end;
+ i += j;
+ j = ssh1_read_bignum(buf + i, len - i, &key->iqmp);
+ if (j < 0) goto end;
+ i += j;
+ j = ssh1_read_bignum(buf + i, len - i, &key->q);
+ if (j < 0) goto end;
+ i += j;
+ j = ssh1_read_bignum(buf + i, len - i, &key->p);
+ if (j < 0) goto end;
+ i += j;
if (!rsa_verify(key)) {
+ *error = "rsa_verify failed";
freersakey(key);
ret = 0;
} else
ret = 1;
- end:
- memset(buf, 0, sizeof(buf)); /* burn the evidence */
+ end:
+ smemclr(buf, sizeof(buf)); /* burn the evidence */
return ret;
}
-int loadrsakey(char *filename, struct RSAKey *key, char *passphrase) {
+int loadrsakey(const Filename *filename, struct RSAKey *key, char *passphrase,
+ const char **errorstr)
+{
FILE *fp;
- unsigned char buf[64];
+ char buf[64];
+ int ret = 0;
+ const char *error = NULL;
- fp = fopen(filename, "rb");
- if (!fp)
- return 0; /* doesn't even exist */
+ fp = f_open(filename, "rb", FALSE);
+ if (!fp) {
+ error = "can't open file";
+ goto end;
+ }
/*
* Read the first line of the file and see if it's a v1 private
* key file.
*/
- if (fgets(buf, sizeof(buf), fp) &&
- !strcmp(buf, rsa_signature)) {
- return loadrsakey_main(fp, key, NULL, passphrase);
+ if (fgets(buf, sizeof(buf), fp) && !strcmp(buf, rsa_signature)) {
+ /*
+ * This routine will take care of calling fclose() for us.
+ */
+ ret = loadrsakey_main(fp, key, FALSE, NULL, passphrase, &error);
+ fp = NULL;
+ goto end;
}
/*
* Otherwise, we have nothing. Return empty-handed.
*/
- fclose(fp);
- return 0;
+ error = "not an SSH-1 RSA file";
+
+ end:
+ if (fp)
+ fclose(fp);
+ if ((ret != 1) && errorstr)
+ *errorstr = error;
+ return ret;
}
/*
* See whether an RSA key is encrypted. Return its comment field as
* well.
*/
-int rsakey_encrypted(char *filename, char **comment) {
+int rsakey_encrypted(const Filename *filename, char **comment)
+{
FILE *fp;
- unsigned char buf[64];
+ char buf[64];
- fp = fopen(filename, "rb");
+ fp = f_open(filename, "rb", FALSE);
if (!fp)
- return 0; /* doesn't even exist */
+ return 0; /* doesn't even exist */
/*
* Read the first line of the file and see if it's a v1 private
* key file.
*/
- if (fgets(buf, sizeof(buf), fp) &&
- !strcmp(buf, rsa_signature)) {
- return loadrsakey_main(fp, NULL, comment, NULL);
+ if (fgets(buf, sizeof(buf), fp) && !strcmp(buf, rsa_signature)) {
+ const char *dummy;
+ /*
+ * This routine will take care of calling fclose() for us.
+ */
+ return loadrsakey_main(fp, NULL, FALSE, comment, NULL, &dummy);
}
fclose(fp);
- return 0; /* wasn't the right kind of file */
+ return 0; /* wasn't the right kind of file */
+}
+
+/*
+ * Return a malloc'ed chunk of memory containing the public blob of
+ * an RSA key, as given in the agent protocol (modulus bits,
+ * exponent, modulus).
+ */
+int rsakey_pubblob(const Filename *filename, void **blob, int *bloblen,
+ char **commentptr, const char **errorstr)
+{
+ FILE *fp;
+ char buf[64];
+ struct RSAKey key;
+ int ret;
+ const char *error = NULL;
+
+ /* Default return if we fail. */
+ *blob = NULL;
+ *bloblen = 0;
+ ret = 0;
+
+ fp = f_open(filename, "rb", FALSE);
+ if (!fp) {
+ error = "can't open file";
+ goto end;
+ }
+
+ /*
+ * Read the first line of the file and see if it's a v1 private
+ * key file.
+ */
+ if (fgets(buf, sizeof(buf), fp) && !strcmp(buf, rsa_signature)) {
+ memset(&key, 0, sizeof(key));
+ if (loadrsakey_main(fp, &key, TRUE, commentptr, NULL, &error)) {
+ *blob = rsa_public_blob(&key, bloblen);
+ freersakey(&key);
+ ret = 1;
+ }
+ fp = NULL; /* loadrsakey_main unconditionally closes fp */
+ } else {
+ error = "not an SSH-1 RSA file";
+ }
+
+ end:
+ if (fp)
+ fclose(fp);
+ if ((ret != 1) && errorstr)
+ *errorstr = error;
+ return ret;
}
/*
* Save an RSA key file. Return nonzero on success.
*/
-int saversakey(char *filename, struct RSAKey *key, char *passphrase) {
+int saversakey(const Filename *filename, struct RSAKey *key, char *passphrase)
+{
unsigned char buf[16384];
unsigned char keybuf[16];
struct MD5Context md5c;
* uint32.
*/
*p++ = (passphrase ? SSH_CIPHER_3DES : 0);
- PUT_32BIT(p, 0); p += 4;
+ PUT_32BIT(p, 0);
+ p += 4;
/*
- * An ordinary SSH 1 public key consists of: a uint32
+ * An ordinary SSH-1 public key consists of: a uint32
* containing the bit count, then two bignums containing the
* modulus and exponent respectively.
*/
- PUT_32BIT(p, ssh1_bignum_bitcount(key->modulus)); p += 4;
+ PUT_32BIT(p, bignum_bitcount(key->modulus));
+ p += 4;
p += ssh1_write_bignum(p, key->modulus);
p += ssh1_write_bignum(p, key->exponent);
* A string containing the comment field.
*/
if (key->comment) {
- PUT_32BIT(p, strlen(key->comment)); p += 4;
- memcpy(p, key->comment, strlen(key->comment));
- p += strlen(key->comment);
+ PUT_32BIT(p, strlen(key->comment));
+ p += 4;
+ memcpy(p, key->comment, strlen(key->comment));
+ p += strlen(key->comment);
} else {
- PUT_32BIT(p, 0); p += 4;
+ PUT_32BIT(p, 0);
+ p += 4;
}
/*
*/
*p++ = random_byte();
*p++ = random_byte();
- p[0] = p[-2]; p[1] = p[-1]; p += 2;
+ p[0] = p[-2];
+ p[1] = p[-1];
+ p += 2;
/*
* Four more bignums: the decryption exponent, then iqmp, then
* Now write zeros until the encrypted portion is a multiple of
* 8 bytes.
*/
- while ((p-estart) % 8)
- *p++ = '\0';
+ while ((p - estart) % 8)
+ *p++ = '\0';
/*
* Now encrypt the encrypted portion.
*/
if (passphrase) {
- MD5Init(&md5c);
- MD5Update(&md5c, passphrase, strlen(passphrase));
- MD5Final(keybuf, &md5c);
- des3_encrypt_pubkey(keybuf, estart, p-estart);
- memset(keybuf, 0, sizeof(keybuf)); /* burn the evidence */
+ MD5Init(&md5c);
+ MD5Update(&md5c, (unsigned char *)passphrase, strlen(passphrase));
+ MD5Final(keybuf, &md5c);
+ des3_encrypt_pubkey(keybuf, estart, p - estart);
+ smemclr(keybuf, sizeof(keybuf)); /* burn the evidence */
}
/*
* Done. Write the result to the file.
*/
- fp = fopen(filename, "wb");
+ fp = f_open(filename, "wb", TRUE);
if (fp) {
- int ret = (fwrite(buf, 1, p-buf, fp) == (size_t)(p-buf));
- ret = ret && (fclose(fp) == 0);
- return ret;
+ int ret = (fwrite(buf, 1, p - buf, fp) == (size_t) (p - buf));
+ if (fclose(fp))
+ ret = 0;
+ return ret;
} else
- return 0;
+ return 0;
}
/* ----------------------------------------------------------------------
- * SSH2 private key load/store functions.
+ * SSH-2 private key load/store functions.
*/
/*
- * PuTTY's own format for SSH2 keys is as follows:
- *
+ * PuTTY's own format for SSH-2 keys is as follows:
+ *
* The file is text. Lines are terminated by CRLF, although CR-only
* and LF-only are tolerated on input.
- *
- * The first line says "PuTTY-User-Key-File-1: " plus the name of the
- * algorithm ("ssh-dss", "ssh-rsa" etc. Although, of course, this
- * being PuTTY, "ssh-dss" is not supported.)
- *
+ *
+ * The first line says "PuTTY-User-Key-File-2: " plus the name of the
+ * algorithm ("ssh-dss", "ssh-rsa" etc).
+ *
* The next line says "Encryption: " plus an encryption type.
* Currently the only supported encryption types are "aes256-cbc"
* and "none".
- *
+ *
* The next line says "Comment: " plus the comment string.
- *
+ *
* Next there is a line saying "Public-Lines: " plus a number N.
* The following N lines contain a base64 encoding of the public
- * part of the key. This is encoded as the standard SSH2 public key
+ * part of the key. This is encoded as the standard SSH-2 public key
* blob (with no initial length): so for RSA, for example, it will
* read
- *
+ *
* string "ssh-rsa"
* mpint exponent
* mpint modulus
- *
+ *
* Next, there is a line saying "Private-Lines: " plus a number N,
* and then N lines containing the (potentially encrypted) private
* part of the key. For the key type "ssh-rsa", this will be
* composed of
- *
+ *
* mpint private_exponent
* mpint p (the larger of the two primes)
* mpint q (the smaller prime)
* mpint iqmp (the inverse of q modulo p)
* data padding (to reach a multiple of the cipher block size)
+ *
+ * And for "ssh-dss", it will be composed of
+ *
+ * mpint x (the private key parameter)
+ * [ string hash 20-byte hash of mpints p || q || g only in old format ]
*
- * Finally, there is a line saying "Private-Hash: " plus a hex
- * representation of a SHA-1 hash of the plaintext version of the
- * private part, including the final padding.
+ * Finally, there is a line saying "Private-MAC: " plus a hex
+ * representation of a HMAC-SHA-1 of:
+ *
+ * string name of algorithm ("ssh-dss", "ssh-rsa")
+ * string encryption type
+ * string comment
+ * string public-blob
+ * string private-plaintext (the plaintext version of the
+ * private part, including the final
+ * padding)
*
+ * The key to the MAC is itself a SHA-1 hash of:
+ *
+ * data "putty-private-key-file-mac-key"
+ * data passphrase
+ *
+ * (An empty passphrase is used for unencrypted keys.)
+ *
* If the key is encrypted, the encryption key is derived from the
* passphrase by means of a succession of SHA-1 hashes. Each hash
* is the hash of:
- *
+ *
* uint32 sequence-number
- * string passphrase
- *
+ * data passphrase
+ *
* where the sequence-number increases from zero. As many of these
* hashes are used as necessary.
- *
- * NOTE! It is important that all _public_ data can be verified
- * with reference to the _private_ data. There exist attacks based
- * on modifying the public key but leaving the private section
- * intact.
- *
- * With RSA, this is easy: verify that n = p*q, and also verify
- * that e*d == 1 modulo (p-1)(q-1). With DSA (if we were ever to
- * support it), we would need to store extra data in the private
- * section other than just x.
+ *
+ * For backwards compatibility with snapshots between 0.51 and
+ * 0.52, we also support the older key file format, which begins
+ * with "PuTTY-User-Key-File-1" (version number differs). In this
+ * format the Private-MAC: field only covers the private-plaintext
+ * field and nothing else (and without the 4-byte string length on
+ * the front too). Moreover, the Private-MAC: field can be replaced
+ * with a Private-Hash: field which is a plain SHA-1 hash instead of
+ * an HMAC (this was generated for unencrypted keys).
*/
-static int read_header(FILE *fp, char *header) {
+static int read_header(FILE * fp, char *header)
+{
int len = 39;
int c;
- while (len > 0) {
+ while (1) {
c = fgetc(fp);
if (c == '\n' || c == '\r' || c == EOF)
return 0; /* failure */
return 0; /* failure */
}
-static char *read_body(FILE *fp) {
+static char *read_body(FILE * fp)
+{
char *text;
int len;
int size;
int c;
size = 128;
- text = smalloc(size);
+ text = snewn(size, char);
len = 0;
text[len] = '\0';
while (1) {
c = fgetc(fp);
- if (c == '\r' || c == '\n') {
- c = fgetc(fp);
- if (c != '\r' && c != '\n' && c != EOF)
- ungetc(c, fp);
+ if (c == '\r' || c == '\n' || c == EOF) {
+ if (c != EOF) {
+ c = fgetc(fp);
+ if (c != '\r' && c != '\n')
+ ungetc(c, fp);
+ }
return text;
}
- if (c == EOF) {
- sfree(text);
- return NULL;
- }
- if (len + 1 > size) {
+ if (len + 1 >= size) {
size += 128;
- text = srealloc(text, size);
+ text = sresize(text, size, char);
}
text[len++] = c;
text[len] = '\0';
}
}
-int base64_decode_atom(char *atom, unsigned char *out) {
+int base64_decode_atom(char *atom, unsigned char *out)
+{
int vals[4];
int i, v, len;
unsigned word;
char c;
-
+
for (i = 0; i < 4; i++) {
c = atom[i];
if (c >= 'A' && c <= 'Z')
len = 1;
word = ((vals[0] << 18) |
- (vals[1] << 12) |
- ((vals[2] & 0x3F) << 6) |
- (vals[3] & 0x3F));
+ (vals[1] << 12) | ((vals[2] & 0x3F) << 6) | (vals[3] & 0x3F));
out[0] = (word >> 16) & 0xFF;
if (len > 1)
out[1] = (word >> 8) & 0xFF;
return len;
}
-static char *read_blob(FILE *fp, int nlines, int *bloblen) {
+static unsigned char *read_blob(FILE * fp, int nlines, int *bloblen)
+{
unsigned char *blob;
char *line;
int linelen, len;
int i, j, k;
/* We expect at most 64 base64 characters, ie 48 real bytes, per line. */
- blob = smalloc(48 * nlines);
+ blob = snewn(48 * nlines, unsigned char);
len = 0;
for (i = 0; i < nlines; i++) {
line = read_body(fp);
return NULL;
}
for (j = 0; j < linelen; j += 4) {
- k = base64_decode_atom(line+j, blob+len);
+ k = base64_decode_atom(line + j, blob + len);
if (!k) {
sfree(line);
sfree(blob);
NULL, NULL, NULL
};
-struct ssh2_userkey *ssh2_load_userkey(char *filename, char *passphrase) {
+const struct ssh_signkey *find_pubkey_alg(const char *name)
+{
+ if (!strcmp(name, "ssh-rsa"))
+ return &ssh_rsa;
+ else if (!strcmp(name, "ssh-dss"))
+ return &ssh_dss;
+ else
+ return NULL;
+}
+
+struct ssh2_userkey *ssh2_load_userkey(const Filename *filename,
+ char *passphrase, const char **errorstr)
+{
FILE *fp;
- char header[40], *b, *comment, *hash;
+ char header[40], *b, *encryption, *comment, *mac;
const struct ssh_signkey *alg;
struct ssh2_userkey *ret;
int cipher, cipherblk;
unsigned char *public_blob, *private_blob;
int public_blob_len, private_blob_len;
- int i;
+ int i, is_mac, old_fmt;
+ int passlen = passphrase ? strlen(passphrase) : 0;
+ const char *error = NULL;
ret = NULL; /* return NULL for most errors */
- comment = hash = NULL;
+ encryption = comment = mac = NULL;
public_blob = private_blob = NULL;
- fp = fopen(filename, "rb");
- if (!fp)
+ fp = f_open(filename, "rb", FALSE);
+ if (!fp) {
+ error = "can't open file";
goto error;
+ }
/* Read the first header line which contains the key type. */
- if (!read_header(fp, header) || 0!=strcmp(header, "PuTTY-User-Key-File-1"))
+ if (!read_header(fp, header))
goto error;
+ if (0 == strcmp(header, "PuTTY-User-Key-File-2")) {
+ old_fmt = 0;
+ } else if (0 == strcmp(header, "PuTTY-User-Key-File-1")) {
+ /* this is an old key file; warn and then continue */
+ old_keyfile_warning();
+ old_fmt = 1;
+ } else if (0 == strncmp(header, "PuTTY-User-Key-File-", 20)) {
+ /* this is a key file FROM THE FUTURE; refuse it, but with a
+ * more specific error message than the generic one below */
+ error = "PuTTY key format too new";
+ goto error;
+ } else {
+ error = "not a PuTTY SSH-2 private key";
+ goto error;
+ }
+ error = "file format error";
if ((b = read_body(fp)) == NULL)
goto error;
- /* Select key algorithm structure. Currently only ssh-rsa. */
- if (!strcmp(b, "ssh-rsa"))
- alg = &ssh_rsa;
- else {
+ /* Select key algorithm structure. */
+ alg = find_pubkey_alg(b);
+ if (!alg) {
sfree(b);
goto error;
}
sfree(b);
-
+
/* Read the Encryption header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Encryption"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Encryption"))
goto error;
- if ((b = read_body(fp)) == NULL)
+ if ((encryption = read_body(fp)) == NULL)
goto error;
- if (!strcmp(b, "aes256-cbc")) {
- cipher = 1; cipherblk = 16;
- } else if (!strcmp(b, "none")) {
- cipher = 0; cipherblk = 1;
+ if (!strcmp(encryption, "aes256-cbc")) {
+ cipher = 1;
+ cipherblk = 16;
+ } else if (!strcmp(encryption, "none")) {
+ cipher = 0;
+ cipherblk = 1;
} else {
- sfree(b);
goto error;
}
- sfree(b);
/* Read the Comment header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Comment"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Comment"))
goto error;
if ((comment = read_body(fp)) == NULL)
goto error;
/* Read the Public-Lines header line and the public blob. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Public-Lines"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Public-Lines"))
goto error;
if ((b = read_body(fp)) == NULL)
goto error;
goto error;
/* Read the Private-Lines header line and the Private blob. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Private-Lines"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Private-Lines"))
goto error;
if ((b = read_body(fp)) == NULL)
goto error;
if ((private_blob = read_blob(fp, i, &private_blob_len)) == NULL)
goto error;
- /* Read the Private-Hash header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Private-Hash"))
+ /* Read the Private-MAC or Private-Hash header line. */
+ if (!read_header(fp, header))
goto error;
- if ((hash = read_body(fp)) == NULL)
+ if (0 == strcmp(header, "Private-MAC")) {
+ if ((mac = read_body(fp)) == NULL)
+ goto error;
+ is_mac = 1;
+ } else if (0 == strcmp(header, "Private-Hash") && old_fmt) {
+ if ((mac = read_body(fp)) == NULL)
+ goto error;
+ is_mac = 0;
+ } else
goto error;
fclose(fp);
if (cipher) {
unsigned char key[40];
SHA_State s;
- int passlen;
if (!passphrase)
goto error;
if (private_blob_len % cipherblk)
goto error;
- passlen = strlen(passphrase);
-
SHA_Init(&s);
SHA_Bytes(&s, "\0\0\0\0", 4);
SHA_Bytes(&s, passphrase, passlen);
- SHA_Final(&s, key+0);
+ SHA_Final(&s, key + 0);
SHA_Init(&s);
SHA_Bytes(&s, "\0\0\0\1", 4);
SHA_Bytes(&s, passphrase, passlen);
- SHA_Final(&s, key+20);
+ SHA_Final(&s, key + 20);
aes256_decrypt_pubkey(key, private_blob, private_blob_len);
}
/*
- * Verify the private hash.
+ * Verify the MAC.
*/
{
- char realhash[41];
+ char realmac[41];
unsigned char binary[20];
+ unsigned char *macdata;
+ int maclen;
+ int free_macdata;
+
+ if (old_fmt) {
+ /* MAC (or hash) only covers the private blob. */
+ macdata = private_blob;
+ maclen = private_blob_len;
+ free_macdata = 0;
+ } else {
+ unsigned char *p;
+ int namelen = strlen(alg->name);
+ int enclen = strlen(encryption);
+ int commlen = strlen(comment);
+ maclen = (4 + namelen +
+ 4 + enclen +
+ 4 + commlen +
+ 4 + public_blob_len +
+ 4 + private_blob_len);
+ macdata = snewn(maclen, unsigned char);
+ p = macdata;
+#define DO_STR(s,len) PUT_32BIT(p,(len));memcpy(p+4,(s),(len));p+=4+(len)
+ DO_STR(alg->name, namelen);
+ DO_STR(encryption, enclen);
+ DO_STR(comment, commlen);
+ DO_STR(public_blob, public_blob_len);
+ DO_STR(private_blob, private_blob_len);
+
+ free_macdata = 1;
+ }
+
+ if (is_mac) {
+ SHA_State s;
+ unsigned char mackey[20];
+ char header[] = "putty-private-key-file-mac-key";
+
+ SHA_Init(&s);
+ SHA_Bytes(&s, header, sizeof(header)-1);
+ if (cipher && passphrase)
+ SHA_Bytes(&s, passphrase, passlen);
+ SHA_Final(&s, mackey);
+
+ hmac_sha1_simple(mackey, 20, macdata, maclen, binary);
+
+ smemclr(mackey, sizeof(mackey));
+ smemclr(&s, sizeof(s));
+ } else {
+ SHA_Simple(macdata, maclen, binary);
+ }
+
+ if (free_macdata) {
+ smemclr(macdata, maclen);
+ sfree(macdata);
+ }
- SHA_Simple(private_blob, private_blob_len, binary);
for (i = 0; i < 20; i++)
- sprintf(realhash+2*i, "%02x", binary[i]);
+ sprintf(realmac + 2 * i, "%02x", binary[i]);
- if (strcmp(hash, realhash)) {
- /* An incorrect hash is an unconditional Error if the key is
+ if (strcmp(mac, realmac)) {
+ /* An incorrect MAC is an unconditional Error if the key is
* unencrypted. Otherwise, it means Wrong Passphrase. */
- ret = cipher ? SSH2_WRONG_PASSPHRASE : NULL;
+ if (cipher) {
+ error = "wrong passphrase";
+ ret = SSH2_WRONG_PASSPHRASE;
+ } else {
+ error = "MAC failed";
+ ret = NULL;
+ }
goto error;
}
}
- sfree(hash);
+ sfree(mac);
/*
* Create and return the key.
*/
- ret = smalloc(sizeof(struct ssh2_userkey));
+ ret = snew(struct ssh2_userkey);
ret->alg = alg;
ret->comment = comment;
ret->data = alg->createkey(public_blob, public_blob_len,
sfree(ret->comment);
sfree(ret);
ret = NULL;
+ error = "createkey failed";
+ goto error;
}
sfree(public_blob);
sfree(private_blob);
+ sfree(encryption);
+ if (errorstr)
+ *errorstr = NULL;
return ret;
/*
* Error processing.
*/
- error:
- if (fp) fclose(fp);
- if (comment) sfree(comment);
- if (hash) sfree(hash);
- if (public_blob) sfree(public_blob);
- if (private_blob) sfree(private_blob);
+ error:
+ if (fp)
+ fclose(fp);
+ if (comment)
+ sfree(comment);
+ if (encryption)
+ sfree(encryption);
+ if (mac)
+ sfree(mac);
+ if (public_blob)
+ sfree(public_blob);
+ if (private_blob)
+ sfree(private_blob);
+ if (errorstr)
+ *errorstr = error;
return ret;
}
-char *ssh2_userkey_loadpub(char *filename, char **algorithm, int *pub_blob_len) {
+unsigned char *ssh2_userkey_loadpub(const Filename *filename, char **algorithm,
+ int *pub_blob_len, char **commentptr,
+ const char **errorstr)
+{
FILE *fp;
char header[40], *b;
const struct ssh_signkey *alg;
unsigned char *public_blob;
int public_blob_len;
int i;
+ const char *error = NULL;
+ char *comment;
public_blob = NULL;
- fp = fopen(filename, "rb");
- if (!fp)
+ fp = f_open(filename, "rb", FALSE);
+ if (!fp) {
+ error = "can't open file";
goto error;
+ }
/* Read the first header line which contains the key type. */
- if (!read_header(fp, header) || 0!=strcmp(header, "PuTTY-User-Key-File-1"))
+ if (!read_header(fp, header)
+ || (0 != strcmp(header, "PuTTY-User-Key-File-2") &&
+ 0 != strcmp(header, "PuTTY-User-Key-File-1"))) {
+ if (0 == strncmp(header, "PuTTY-User-Key-File-", 20))
+ error = "PuTTY key format too new";
+ else
+ error = "not a PuTTY SSH-2 private key";
goto error;
+ }
+ error = "file format error";
if ((b = read_body(fp)) == NULL)
goto error;
- /* Select key algorithm structure. Currently only ssh-rsa. */
- if (!strcmp(b, "ssh-rsa"))
- alg = &ssh_rsa;
- else {
+ /* Select key algorithm structure. */
+ alg = find_pubkey_alg(b);
+ if (!alg) {
sfree(b);
goto error;
}
sfree(b);
-
+
/* Read the Encryption header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Encryption"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Encryption"))
goto error;
if ((b = read_body(fp)) == NULL)
goto error;
sfree(b); /* we don't care */
/* Read the Comment header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Comment"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Comment"))
goto error;
- if ((b = read_body(fp)) == NULL)
+ if ((comment = read_body(fp)) == NULL)
goto error;
- sfree(b); /* we don't care */
+
+ if (commentptr)
+ *commentptr = comment;
+ else
+ sfree(comment);
/* Read the Public-Lines header line and the public blob. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Public-Lines"))
+ if (!read_header(fp, header) || 0 != strcmp(header, "Public-Lines"))
goto error;
if ((b = read_body(fp)) == NULL)
goto error;
goto error;
fclose(fp);
- *pub_blob_len = public_blob_len;
- *algorithm = alg->name;
+ if (pub_blob_len)
+ *pub_blob_len = public_blob_len;
+ if (algorithm)
+ *algorithm = alg->name;
return public_blob;
/*
* Error processing.
*/
- error:
- if (fp) fclose(fp);
- if (public_blob) sfree(public_blob);
+ error:
+ if (fp)
+ fclose(fp);
+ if (public_blob)
+ sfree(public_blob);
+ if (errorstr)
+ *errorstr = error;
return NULL;
}
-int ssh2_userkey_encrypted(char *filename, char **commentptr) {
+int ssh2_userkey_encrypted(const Filename *filename, char **commentptr)
+{
FILE *fp;
char header[40], *b, *comment;
int ret;
- if (commentptr) *commentptr = NULL;
+ if (commentptr)
+ *commentptr = NULL;
- fp = fopen(filename, "rb");
+ fp = f_open(filename, "rb", FALSE);
if (!fp)
return 0;
- if (!read_header(fp, header) || 0!=strcmp(header, "PuTTY-User-Key-File-1")) {
- fclose(fp); return 0;
+ if (!read_header(fp, header)
+ || (0 != strcmp(header, "PuTTY-User-Key-File-2") &&
+ 0 != strcmp(header, "PuTTY-User-Key-File-1"))) {
+ fclose(fp);
+ return 0;
}
if ((b = read_body(fp)) == NULL) {
- fclose(fp); return 0;
+ fclose(fp);
+ return 0;
}
sfree(b); /* we don't care about key type here */
/* Read the Encryption header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Encryption")) {
- fclose(fp); return 0;
+ if (!read_header(fp, header) || 0 != strcmp(header, "Encryption")) {
+ fclose(fp);
+ return 0;
}
if ((b = read_body(fp)) == NULL) {
- fclose(fp); return 0;
+ fclose(fp);
+ return 0;
}
/* Read the Comment header line. */
- if (!read_header(fp, header) || 0!=strcmp(header, "Comment")) {
- fclose(fp); sfree(b); return 1;
+ if (!read_header(fp, header) || 0 != strcmp(header, "Comment")) {
+ fclose(fp);
+ sfree(b);
+ return 1;
}
if ((comment = read_body(fp)) == NULL) {
- fclose(fp); sfree(b); return 1;
+ fclose(fp);
+ sfree(b);
+ return 1;
}
- if (commentptr) *commentptr = comment;
+ if (commentptr)
+ *commentptr = comment;
+ else
+ sfree(comment);
fclose(fp);
if (!strcmp(b, "aes256-cbc"))
return ret;
}
-int base64_lines(int datalen) {
+int base64_lines(int datalen)
+{
/* When encoding, we use 64 chars/line, which equals 48 real chars. */
- return (datalen+47) / 48;
+ return (datalen + 47) / 48;
}
-void base64_encode_atom(unsigned char *data, int n, char *out) {
- static const char base64_chars[] =
- "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
-
- unsigned word;
-
- word = data[0] << 16;
- if (n > 1)
- word |= data[1] << 8;
- if (n > 2)
- word |= data[2];
- out[0] = base64_chars[(word >> 18) & 0x3F];
- out[1] = base64_chars[(word >> 12) & 0x3F];
- if (n > 1)
- out[2] = base64_chars[(word >> 6) & 0x3F];
- else
- out[2] = '=';
- if (n > 2)
- out[3] = base64_chars[word & 0x3F];
- else
- out[3] = '=';
-}
-
-void base64_encode(FILE *fp, unsigned char *data, int datalen) {
+void base64_encode(FILE * fp, unsigned char *data, int datalen, int cpl)
+{
int linelen = 0;
char out[4];
- int n;
+ int n, i;
while (datalen > 0) {
- if (linelen >= 64) {
- linelen = 0;
- fputc('\n', fp);
- }
n = (datalen < 3 ? datalen : 3);
base64_encode_atom(data, n, out);
data += n;
datalen -= n;
- fwrite(out, 1, 4, fp);
- linelen += 4;
+ for (i = 0; i < 4; i++) {
+ if (linelen >= cpl) {
+ linelen = 0;
+ fputc('\n', fp);
+ }
+ fputc(out[i], fp);
+ linelen++;
+ }
}
fputc('\n', fp);
}
-int ssh2_save_userkey(char *filename, struct ssh2_userkey *key, char *passphrase) {
+int ssh2_save_userkey(const Filename *filename, struct ssh2_userkey *key,
+ char *passphrase)
+{
FILE *fp;
unsigned char *pub_blob, *priv_blob, *priv_blob_encrypted;
int pub_blob_len, priv_blob_len, priv_encrypted_len;
int cipherblk;
int i;
char *cipherstr;
- unsigned char priv_hash[20];
+ unsigned char priv_mac[20];
/*
* Fetch the key component blobs.
}
priv_encrypted_len = priv_blob_len + cipherblk - 1;
priv_encrypted_len -= priv_encrypted_len % cipherblk;
- priv_blob_encrypted = smalloc(priv_encrypted_len);
+ priv_blob_encrypted = snewn(priv_encrypted_len, unsigned char);
memset(priv_blob_encrypted, 0, priv_encrypted_len);
memcpy(priv_blob_encrypted, priv_blob, priv_blob_len);
/* Create padding based on the SHA hash of the unpadded blob. This prevents
* too easy a known-plaintext attack on the last block. */
- SHA_Simple(priv_blob, priv_blob_len, priv_hash);
+ SHA_Simple(priv_blob, priv_blob_len, priv_mac);
assert(priv_encrypted_len - priv_blob_len < 20);
- memcpy(priv_blob_encrypted + priv_blob_len, priv_hash,
+ memcpy(priv_blob_encrypted + priv_blob_len, priv_mac,
priv_encrypted_len - priv_blob_len);
- /* Now create the _real_ private hash. */
- SHA_Simple(priv_blob_encrypted, priv_encrypted_len, priv_hash);
+ /* Now create the MAC. */
+ {
+ unsigned char *macdata;
+ int maclen;
+ unsigned char *p;
+ int namelen = strlen(key->alg->name);
+ int enclen = strlen(cipherstr);
+ int commlen = strlen(key->comment);
+ SHA_State s;
+ unsigned char mackey[20];
+ char header[] = "putty-private-key-file-mac-key";
+
+ maclen = (4 + namelen +
+ 4 + enclen +
+ 4 + commlen +
+ 4 + pub_blob_len +
+ 4 + priv_encrypted_len);
+ macdata = snewn(maclen, unsigned char);
+ p = macdata;
+#define DO_STR(s,len) PUT_32BIT(p,(len));memcpy(p+4,(s),(len));p+=4+(len)
+ DO_STR(key->alg->name, namelen);
+ DO_STR(cipherstr, enclen);
+ DO_STR(key->comment, commlen);
+ DO_STR(pub_blob, pub_blob_len);
+ DO_STR(priv_blob_encrypted, priv_encrypted_len);
+
+ SHA_Init(&s);
+ SHA_Bytes(&s, header, sizeof(header)-1);
+ if (passphrase)
+ SHA_Bytes(&s, passphrase, strlen(passphrase));
+ SHA_Final(&s, mackey);
+ hmac_sha1_simple(mackey, 20, macdata, maclen, priv_mac);
+ smemclr(macdata, maclen);
+ sfree(macdata);
+ smemclr(mackey, sizeof(mackey));
+ smemclr(&s, sizeof(s));
+ }
if (passphrase) {
- char key[40];
+ unsigned char key[40];
SHA_State s;
passlen = strlen(passphrase);
SHA_Init(&s);
SHA_Bytes(&s, "\0\0\0\0", 4);
SHA_Bytes(&s, passphrase, passlen);
- SHA_Final(&s, key+0);
+ SHA_Final(&s, key + 0);
SHA_Init(&s);
SHA_Bytes(&s, "\0\0\0\1", 4);
SHA_Bytes(&s, passphrase, passlen);
- SHA_Final(&s, key+20);
- aes256_encrypt_pubkey(key, priv_blob_encrypted, priv_encrypted_len);
+ SHA_Final(&s, key + 20);
+ aes256_encrypt_pubkey(key, priv_blob_encrypted,
+ priv_encrypted_len);
+
+ smemclr(key, sizeof(key));
+ smemclr(&s, sizeof(s));
}
- fp = fopen(filename, "w");
+ fp = f_open(filename, "w", TRUE);
if (!fp)
return 0;
- fprintf(fp, "PuTTY-User-Key-File-1: %s\n", key->alg->name);
+ fprintf(fp, "PuTTY-User-Key-File-2: %s\n", key->alg->name);
fprintf(fp, "Encryption: %s\n", cipherstr);
fprintf(fp, "Comment: %s\n", key->comment);
fprintf(fp, "Public-Lines: %d\n", base64_lines(pub_blob_len));
- base64_encode(fp, pub_blob, pub_blob_len);
+ base64_encode(fp, pub_blob, pub_blob_len, 64);
fprintf(fp, "Private-Lines: %d\n", base64_lines(priv_encrypted_len));
- base64_encode(fp, priv_blob_encrypted, priv_encrypted_len);
- fprintf(fp, "Private-Hash: ");
+ base64_encode(fp, priv_blob_encrypted, priv_encrypted_len, 64);
+ fprintf(fp, "Private-MAC: ");
for (i = 0; i < 20; i++)
- fprintf(fp, "%02x", priv_hash[i]);
+ fprintf(fp, "%02x", priv_mac[i]);
fprintf(fp, "\n");
fclose(fp);
+
+ sfree(pub_blob);
+ smemclr(priv_blob, priv_blob_len);
+ sfree(priv_blob);
+ sfree(priv_blob_encrypted);
return 1;
}
/* ----------------------------------------------------------------------
- * A function to determine which version of SSH to try on a private
- * key file. Returns 0 on failure, 1 or 2 on success.
+ * A function to determine the type of a private key file. Returns
+ * 0 on failure, 1 or 2 on success.
*/
-int keyfile_version(char *filename) {
+int key_type(const Filename *filename)
+{
FILE *fp;
+ char buf[32];
+ const char putty2_sig[] = "PuTTY-User-Key-File-";
+ const char sshcom_sig[] = "---- BEGIN SSH2 ENCRYPTED PRIVAT";
+ const char openssh_sig[] = "-----BEGIN ";
int i;
- fp = fopen(filename, "r");
+ fp = f_open(filename, "r", FALSE);
if (!fp)
- return 0;
- i = fgetc(fp);
+ return SSH_KEYTYPE_UNOPENABLE;
+ i = fread(buf, 1, sizeof(buf), fp);
fclose(fp);
- if (i == 'S')
- return 1; /* "SSH PRIVATE KEY FORMAT" etc */
- if (i == 'P') /* "PuTTY-User-Key-File" etc */
- return 2;
- return 0; /* unrecognised or EOF */
+ if (i < 0)
+ return SSH_KEYTYPE_UNOPENABLE;
+ if (i < 32)
+ return SSH_KEYTYPE_UNKNOWN;
+ if (!memcmp(buf, rsa_signature, sizeof(rsa_signature)-1))
+ return SSH_KEYTYPE_SSH1;
+ if (!memcmp(buf, putty2_sig, sizeof(putty2_sig)-1))
+ return SSH_KEYTYPE_SSH2;
+ if (!memcmp(buf, openssh_sig, sizeof(openssh_sig)-1))
+ return SSH_KEYTYPE_OPENSSH;
+ if (!memcmp(buf, sshcom_sig, sizeof(sshcom_sig)-1))
+ return SSH_KEYTYPE_SSHCOM;
+ return SSH_KEYTYPE_UNKNOWN; /* unrecognised or EOF */
+}
+
+/*
+ * Convert the type word to a string, for `wrong type' error
+ * messages.
+ */
+char *key_type_to_str(int type)
+{
+ switch (type) {
+ case SSH_KEYTYPE_UNOPENABLE: return "unable to open file"; break;
+ case SSH_KEYTYPE_UNKNOWN: return "not a private key"; break;
+ case SSH_KEYTYPE_SSH1: return "SSH-1 private key"; break;
+ case SSH_KEYTYPE_SSH2: return "PuTTY SSH-2 private key"; break;
+ case SSH_KEYTYPE_OPENSSH: return "OpenSSH SSH-2 private key"; break;
+ case SSH_KEYTYPE_SSHCOM: return "ssh.com SSH-2 private key"; break;
+ default: return "INTERNAL ERROR"; break;
+ }
}