From: Heikki Linnakangas Date: Fri, 21 Apr 2017 19:51:57 +0000 (+0300) Subject: Change the on-disk format of SCRAM verifiers to conform to RFC 5803. X-Git-Tag: REL_10_BETA1~210 X-Git-Url: https://granicus.if.org/sourcecode?a=commitdiff_plain;h=68e61ee;p=postgresql Change the on-disk format of SCRAM verifiers to conform to RFC 5803. It doesn't make any immediate difference to PostgreSQL, but might as well follow the standard, since one exists. (I looked at RFC 5803 earlier, but didn't fully understand it back then.) The new format uses Base64 instead of hex to encode StoredKey and ServerKey, which makes the verifiers slightly smaller. Using the same encoding for the salt and the keys also means that you only need one encoder/decoder instead of two. Although we have code in the backend to do both, we are talking about teaching libpq how to create SCRAM verifiers for PQencodePassword(), and libpq doesn't currently have any code for hex encoding. Bump catversion, because this renders any existing SCRAM verifiers in pg_authid invalid. Discussion: https://www.postgresql.org/message-id/351ba574-85ea-d9b8-9689-8c928dd0955d@iki.fi --- diff --git a/doc/src/sgml/catalogs.sgml b/doc/src/sgml/catalogs.sgml index ed74704b2a..787fcbd51a 100644 --- a/doc/src/sgml/catalogs.sgml +++ b/doc/src/sgml/catalogs.sgml @@ -1376,14 +1376,22 @@ 32-character hexadecimal MD5 hash. The MD5 hash will be of the user's password concatenated to their user name. For example, if user joe has password xyzzy, PostgreSQL - will store the md5 hash of xyzzyjoe. If the password is - encrypted with SCRAM-SHA-256, it consists of 5 fields separated by colons. - The first field is the constant scram-sha-256, to - identify the password as a SCRAM-SHA-256 verifier. The second field is a - salt, Base64-encoded, and the third field is the number of iterations used - to generate the password. The fourth field and fifth field are the stored - key and server key, respectively, in hexadecimal format. A password that - does not follow either of those formats is assumed to be unencrypted. + will store the md5 hash of xyzzyjoe. + + + + If the password is encrypted with SCRAM-SHA-256, it has the format: + +SCRAM-SHA-256$<iteration count>:<salt>$<StoredKey>:<ServerKey> + + where salt, StoredKey and + ServerKey are in Base64 encoded format. This format is + the same as that specified by RFC 5803. + + + + A password that does not follow either of those formats is assumed to be + unencrypted. diff --git a/src/backend/libpq/auth-scram.c b/src/backend/libpq/auth-scram.c index 76c502d415..16bea446e3 100644 --- a/src/backend/libpq/auth-scram.c +++ b/src/backend/libpq/auth-scram.c @@ -5,6 +5,7 @@ * * See the following RFCs for more details: * - RFC 5802: https://tools.ietf.org/html/rfc5802 + * - RFC 5803: https://tools.ietf.org/html/rfc5803 * - RFC 7677: https://tools.ietf.org/html/rfc7677 * * Here are some differences: @@ -19,7 +20,7 @@ * - Channel binding is not supported yet. * * - * The password stored in pg_authid consists of the salt, iteration count, + * The password stored in pg_authid consists of the iteration count, salt, * StoredKey and ServerKey. * * SASLprep usage @@ -111,8 +112,8 @@ typedef struct const char *username; /* username from startup packet */ - char *salt; /* base64-encoded */ int iterations; + char *salt; /* base64-encoded */ uint8 StoredKey[SCRAM_KEY_LEN]; uint8 ServerKey[SCRAM_KEY_LEN]; @@ -146,10 +147,10 @@ static char *build_server_first_message(scram_state *state); static char *build_server_final_message(scram_state *state); static bool verify_client_proof(scram_state *state); static bool verify_final_nonce(scram_state *state); -static bool parse_scram_verifier(const char *verifier, char **salt, - int *iterations, uint8 *stored_key, uint8 *server_key); -static void mock_scram_verifier(const char *username, char **salt, int *iterations, - uint8 *stored_key, uint8 *server_key); +static bool parse_scram_verifier(const char *verifier, int *iterations, + char **salt, uint8 *stored_key, uint8 *server_key); +static void mock_scram_verifier(const char *username, int *iterations, + char **salt, uint8 *stored_key, uint8 *server_key); static bool is_scram_printable(char *p); static char *sanitize_char(char c); static char *scram_MockSalt(const char *username); @@ -185,7 +186,7 @@ pg_be_scram_init(const char *username, const char *shadow_pass) if (password_type == PASSWORD_TYPE_SCRAM_SHA_256) { - if (parse_scram_verifier(shadow_pass, &state->salt, &state->iterations, + if (parse_scram_verifier(shadow_pass, &state->iterations, &state->salt, state->StoredKey, state->ServerKey)) got_verifier = true; else @@ -208,7 +209,7 @@ pg_be_scram_init(const char *username, const char *shadow_pass) verifier = scram_build_verifier(username, shadow_pass, 0); - (void) parse_scram_verifier(verifier, &state->salt, &state->iterations, + (void) parse_scram_verifier(verifier, &state->iterations, &state->salt, state->StoredKey, state->ServerKey); pfree(verifier); @@ -243,7 +244,7 @@ pg_be_scram_init(const char *username, const char *shadow_pass) */ if (!got_verifier) { - mock_scram_verifier(username, &state->salt, &state->iterations, + mock_scram_verifier(username, &state->iterations, &state->salt, state->StoredKey, state->ServerKey); state->doomed = true; } @@ -393,14 +394,15 @@ char * scram_build_verifier(const char *username, const char *password, int iterations) { - uint8 keybuf[SCRAM_KEY_LEN + 1]; - char storedkey_hex[SCRAM_KEY_LEN * 2 + 1]; - char serverkey_hex[SCRAM_KEY_LEN * 2 + 1]; - char salt[SCRAM_SALT_LEN]; - char *encoded_salt; - int encoded_len; char *prep_password = NULL; pg_saslprep_rc rc; + char saltbuf[SCRAM_SALT_LEN]; + uint8 keybuf[SCRAM_KEY_LEN]; + char *encoded_salt; + char *encoded_storedkey; + char *encoded_serverkey; + int encoded_len; + char *result; /* * Normalize the password with SASLprep. If that doesn't work, because @@ -414,7 +416,8 @@ scram_build_verifier(const char *username, const char *password, if (iterations <= 0) iterations = SCRAM_ITERATIONS_DEFAULT; - if (!pg_backend_random(salt, SCRAM_SALT_LEN)) + /* Generate salt, and encode it in base64 */ + if (!pg_backend_random(saltbuf, SCRAM_SALT_LEN)) { ereport(LOG, (errcode(ERRCODE_INTERNAL_ERROR), @@ -423,26 +426,38 @@ scram_build_verifier(const char *username, const char *password, } encoded_salt = palloc(pg_b64_enc_len(SCRAM_SALT_LEN) + 1); - encoded_len = pg_b64_encode(salt, SCRAM_SALT_LEN, encoded_salt); + encoded_len = pg_b64_encode(saltbuf, SCRAM_SALT_LEN, encoded_salt); encoded_salt[encoded_len] = '\0'; - /* Calculate StoredKey, and encode it in hex */ - scram_ClientOrServerKey(password, salt, SCRAM_SALT_LEN, + /* Calculate StoredKey, and encode it in base64 */ + scram_ClientOrServerKey(password, saltbuf, SCRAM_SALT_LEN, iterations, SCRAM_CLIENT_KEY_NAME, keybuf); scram_H(keybuf, SCRAM_KEY_LEN, keybuf); /* StoredKey */ - (void) hex_encode((const char *) keybuf, SCRAM_KEY_LEN, storedkey_hex); - storedkey_hex[SCRAM_KEY_LEN * 2] = '\0'; + + encoded_storedkey = palloc(pg_b64_enc_len(SCRAM_KEY_LEN) + 1); + encoded_len = pg_b64_encode((const char *) keybuf, SCRAM_KEY_LEN, + encoded_storedkey); + encoded_storedkey[encoded_len] = '\0'; /* And same for ServerKey */ - scram_ClientOrServerKey(password, salt, SCRAM_SALT_LEN, iterations, + scram_ClientOrServerKey(password, saltbuf, SCRAM_SALT_LEN, iterations, SCRAM_SERVER_KEY_NAME, keybuf); - (void) hex_encode((const char *) keybuf, SCRAM_KEY_LEN, serverkey_hex); - serverkey_hex[SCRAM_KEY_LEN * 2] = '\0'; + + encoded_serverkey = palloc(pg_b64_enc_len(SCRAM_KEY_LEN) + 1); + encoded_len = pg_b64_encode((const char *) keybuf, SCRAM_KEY_LEN, + encoded_serverkey); + encoded_serverkey[encoded_len] = '\0'; + + result = psprintf("SCRAM-SHA-256$%d:%s$%s:%s", iterations, encoded_salt, + encoded_storedkey, encoded_serverkey); if (prep_password) pfree(prep_password); + pfree(encoded_salt); + pfree(encoded_storedkey); + pfree(encoded_serverkey); - return psprintf("scram-sha-256:%s:%d:%s:%s", encoded_salt, iterations, storedkey_hex, serverkey_hex); + return result; } /* @@ -464,7 +479,7 @@ scram_verify_plain_password(const char *username, const char *password, char *prep_password = NULL; pg_saslprep_rc rc; - if (!parse_scram_verifier(verifier, &encoded_salt, &iterations, + if (!parse_scram_verifier(verifier, &iterations, &encoded_salt, stored_key, server_key)) { /* @@ -509,13 +524,14 @@ scram_verify_plain_password(const char *username, const char *password, bool is_scram_verifier(const char *verifier) { - char *salt = NULL; int iterations; + char *salt = NULL; uint8 stored_key[SCRAM_KEY_LEN]; uint8 server_key[SCRAM_KEY_LEN]; bool result; - result = parse_scram_verifier(verifier, &salt, &iterations, stored_key, server_key); + result = parse_scram_verifier(verifier, &iterations, &salt, + stored_key, server_key); if (salt) pfree(salt); @@ -529,60 +545,82 @@ is_scram_verifier(const char *verifier) * Returns true if the SCRAM verifier has been parsed, and false otherwise. */ static bool -parse_scram_verifier(const char *verifier, char **salt, int *iterations, +parse_scram_verifier(const char *verifier, int *iterations, char **salt, uint8 *stored_key, uint8 *server_key) { char *v; char *p; + char *scheme_str; + char *salt_str; + char *iterations_str; + char *storedkey_str; + char *serverkey_str; + int decoded_len; + char *decoded_salt_buf; /* * The verifier is of form: * - * scram-sha-256:::: + * SCRAM-SHA-256$:$: */ - if (strncmp(verifier, "scram-sha-256:", strlen("scram-sha-256:")) != 0) - return false; - - v = pstrdup(verifier + strlen("scram-sha-256:")); - - /* salt */ - if ((p = strtok(v, ":")) == NULL) + v = pstrdup(verifier); + if ((scheme_str = strtok(v, "$")) == NULL) + goto invalid_verifier; + if ((iterations_str = strtok(NULL, ":")) == NULL) + goto invalid_verifier; + if ((salt_str = strtok(NULL, "$")) == NULL) + goto invalid_verifier; + if ((storedkey_str = strtok(NULL, ":")) == NULL) + goto invalid_verifier; + if ((serverkey_str = strtok(NULL, "")) == NULL) goto invalid_verifier; - *salt = pstrdup(p); - /* iterations */ - if ((p = strtok(NULL, ":")) == NULL) + /* Parse the fields */ + if (strcmp(scheme_str, "SCRAM-SHA-256") != 0) goto invalid_verifier; + errno = 0; - *iterations = strtol(p, &p, 10); + *iterations = strtol(iterations_str, &p, 10); if (*p || errno != 0) goto invalid_verifier; - /* storedkey */ - if ((p = strtok(NULL, ":")) == NULL) - goto invalid_verifier; - if (strlen(p) != SCRAM_KEY_LEN * 2) + /* + * Verify that the salt is in Base64-encoded format, by decoding it, + * although we return the encoded version to the caller. + */ + decoded_salt_buf = palloc(pg_b64_dec_len(strlen(salt_str))); + decoded_len = pg_b64_decode(salt_str, strlen(salt_str), decoded_salt_buf); + if (decoded_len < 0) goto invalid_verifier; + *salt = pstrdup(salt_str); - hex_decode(p, SCRAM_KEY_LEN * 2, (char *) stored_key); + /* + * Decode StoredKey and ServerKey. + */ + if (pg_b64_dec_len(strlen(storedkey_str) != SCRAM_KEY_LEN)) + goto invalid_verifier; + decoded_len = pg_b64_decode(storedkey_str, strlen(storedkey_str), + (char *) stored_key); + if (decoded_len != SCRAM_KEY_LEN) + goto invalid_verifier; - /* serverkey */ - if ((p = strtok(NULL, ":")) == NULL) + if (pg_b64_dec_len(strlen(serverkey_str) != SCRAM_KEY_LEN)) goto invalid_verifier; - if (strlen(p) != SCRAM_KEY_LEN * 2) + decoded_len = pg_b64_decode(serverkey_str, strlen(serverkey_str), + (char *) server_key); + if (decoded_len != SCRAM_KEY_LEN) goto invalid_verifier; - hex_decode(p, SCRAM_KEY_LEN * 2, (char *) server_key); - pfree(v); return true; invalid_verifier: pfree(v); + *salt = NULL; return false; } static void -mock_scram_verifier(const char *username, char **salt, int *iterations, +mock_scram_verifier(const char *username, int *iterations, char **salt, uint8 *stored_key, uint8 *server_key) { char *raw_salt; diff --git a/src/backend/libpq/crypt.c b/src/backend/libpq/crypt.c index 03ef3cc652..d0030f2b6d 100644 --- a/src/backend/libpq/crypt.c +++ b/src/backend/libpq/crypt.c @@ -100,7 +100,7 @@ get_password_type(const char *shadow_pass) { if (strncmp(shadow_pass, "md5", 3) == 0 && strlen(shadow_pass) == MD5_PASSWD_LEN) return PASSWORD_TYPE_MD5; - if (strncmp(shadow_pass, "scram-sha-256:", strlen("scram-sha-256:")) == 0) + if (strncmp(shadow_pass, "SCRAM-SHA-256$", strlen("SCRAM-SHA-256$")) == 0) return PASSWORD_TYPE_SCRAM_SHA_256; return PASSWORD_TYPE_PLAINTEXT; } diff --git a/src/include/catalog/catversion.h b/src/include/catalog/catversion.h index ab92fd88ed..6cc9e30ec2 100644 --- a/src/include/catalog/catversion.h +++ b/src/include/catalog/catversion.h @@ -53,6 +53,6 @@ */ /* yyyymmddN */ -#define CATALOG_VERSION_NO 201704171 +#define CATALOG_VERSION_NO 201704211 #endif diff --git a/src/test/regress/expected/password.out b/src/test/regress/expected/password.out index 676b3e6ff3..9ec5a52bba 100644 --- a/src/test/regress/expected/password.out +++ b/src/test/regress/expected/password.out @@ -23,11 +23,11 @@ CREATE ROLE regress_passwd5 PASSWORD NULL; -- check list of created entries -- -- The scram verifier will look something like: --- scram-sha-256:E4HxLGtnRzsYwg==:4096:5ebc825510cb7862efd87dfa638d8337179e6913a724441dc9e888a856fbc10c:e966b1c72fad89d69aaebb156eae04edc9581286f92207c044711e79cd461bee +-- SCRAM-SHA-256$4096:E4HxLGtnRzsYwg==$6YtlR4t69SguDiwFvbVgVZtuz6gpJQQqUMZ7IQJK5yI=:ps75jrHeYU4lXCcXI4O8oIdJ3eO8o2jirjruw9phBTo= -- -- Since the salt is random, the exact value stored will be different on every test -- run. Use a regular expression to mask the changing parts. -SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==):(\d+):(\w+):(\w+)', '\1::\3::') as rolpassword_masked +SELECT rolname, regexp_replace(rolpassword, '(SCRAM-SHA-256)\$(\d+):([a-zA-Z0-9+/]+==)\$([a-zA-Z0-9+/]+=):([a-zA-Z0-9+/]+=)', '\1$\2:$:') as rolpassword_masked FROM pg_authid WHERE rolname LIKE 'regress_passwd%' ORDER BY rolname, rolpassword; @@ -36,7 +36,7 @@ SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==): regress_passwd1 | role_pwd1 regress_passwd2 | md54044304ba511dd062133eb5b4b84a2a3 regress_passwd3 | md50e5699b6911d87f17a08b8d76a21e8b8 - regress_passwd4 | scram-sha-256::4096:: + regress_passwd4 | SCRAM-SHA-256$4096:$: regress_passwd5 | (5 rows) @@ -59,11 +59,11 @@ ALTER ROLE regress_passwd1 UNENCRYPTED PASSWORD 'foo'; -- unencrypted ALTER ROLE regress_passwd2 UNENCRYPTED PASSWORD 'md5dfa155cadd5f4ad57860162f3fab9cdb'; -- encrypted with MD5 SET password_encryption = 'md5'; ALTER ROLE regress_passwd3 ENCRYPTED PASSWORD 'foo'; -- encrypted with MD5 -ALTER ROLE regress_passwd4 ENCRYPTED PASSWORD 'scram-sha-256:VLK4RMaQLCvNtQ==:4096:3ded2376f7aafa93b1bdbd71bcc18b7d6ee50ed018029cc583d152ef3fc7d430:a6dd36dfc94c181956a6ae95f05e01b1864f0a22a2657d1de4ba84d2a24dc438'; -- client-supplied SCRAM verifier, use as it is +ALTER ROLE regress_passwd4 ENCRYPTED PASSWORD 'SCRAM-SHA-256$4096:VLK4RMaQLCvNtQ==$6YtlR4t69SguDiwFvbVgVZtuz6gpJQQqUMZ7IQJK5yI=:ps75jrHeYU4lXCcXI4O8oIdJ3eO8o2jirjruw9phBTo='; -- client-supplied SCRAM verifier, use as it is SET password_encryption = 'scram-sha-256'; ALTER ROLE regress_passwd5 ENCRYPTED PASSWORD 'foo'; -- create SCRAM verifier CREATE ROLE regress_passwd6 ENCRYPTED PASSWORD 'md53725413363ab045e20521bf36b8d8d7f'; -- encrypted with MD5, use as it is -SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==):(\d+):(\w+):(\w+)', '\1::\3::') as rolpassword_masked +SELECT rolname, regexp_replace(rolpassword, '(SCRAM-SHA-256)\$(\d+):([a-zA-Z0-9+/]+==)\$([a-zA-Z0-9+/]+=):([a-zA-Z0-9+/]+=)', '\1$\2:$:') as rolpassword_masked FROM pg_authid WHERE rolname LIKE 'regress_passwd%' ORDER BY rolname, rolpassword; @@ -72,8 +72,8 @@ SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==): regress_passwd1 | foo regress_passwd2 | md5dfa155cadd5f4ad57860162f3fab9cdb regress_passwd3 | md5530de4c298af94b3b9f7d20305d2a1bf - regress_passwd4 | scram-sha-256::4096:: - regress_passwd5 | scram-sha-256::4096:: + regress_passwd4 | SCRAM-SHA-256$4096:$: + regress_passwd5 | SCRAM-SHA-256$4096:$: regress_passwd6 | md53725413363ab045e20521bf36b8d8d7f (6 rows) diff --git a/src/test/regress/sql/password.sql b/src/test/regress/sql/password.sql index 95557e4566..1e022dbf2d 100644 --- a/src/test/regress/sql/password.sql +++ b/src/test/regress/sql/password.sql @@ -24,11 +24,11 @@ CREATE ROLE regress_passwd5 PASSWORD NULL; -- check list of created entries -- -- The scram verifier will look something like: --- scram-sha-256:E4HxLGtnRzsYwg==:4096:5ebc825510cb7862efd87dfa638d8337179e6913a724441dc9e888a856fbc10c:e966b1c72fad89d69aaebb156eae04edc9581286f92207c044711e79cd461bee +-- SCRAM-SHA-256$4096:E4HxLGtnRzsYwg==$6YtlR4t69SguDiwFvbVgVZtuz6gpJQQqUMZ7IQJK5yI=:ps75jrHeYU4lXCcXI4O8oIdJ3eO8o2jirjruw9phBTo= -- -- Since the salt is random, the exact value stored will be different on every test -- run. Use a regular expression to mask the changing parts. -SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==):(\d+):(\w+):(\w+)', '\1::\3::') as rolpassword_masked +SELECT rolname, regexp_replace(rolpassword, '(SCRAM-SHA-256)\$(\d+):([a-zA-Z0-9+/]+==)\$([a-zA-Z0-9+/]+=):([a-zA-Z0-9+/]+=)', '\1$\2:$:') as rolpassword_masked FROM pg_authid WHERE rolname LIKE 'regress_passwd%' ORDER BY rolname, rolpassword; @@ -48,13 +48,13 @@ ALTER ROLE regress_passwd2 UNENCRYPTED PASSWORD 'md5dfa155cadd5f4ad57860162f3fab SET password_encryption = 'md5'; ALTER ROLE regress_passwd3 ENCRYPTED PASSWORD 'foo'; -- encrypted with MD5 -ALTER ROLE regress_passwd4 ENCRYPTED PASSWORD 'scram-sha-256:VLK4RMaQLCvNtQ==:4096:3ded2376f7aafa93b1bdbd71bcc18b7d6ee50ed018029cc583d152ef3fc7d430:a6dd36dfc94c181956a6ae95f05e01b1864f0a22a2657d1de4ba84d2a24dc438'; -- client-supplied SCRAM verifier, use as it is +ALTER ROLE regress_passwd4 ENCRYPTED PASSWORD 'SCRAM-SHA-256$4096:VLK4RMaQLCvNtQ==$6YtlR4t69SguDiwFvbVgVZtuz6gpJQQqUMZ7IQJK5yI=:ps75jrHeYU4lXCcXI4O8oIdJ3eO8o2jirjruw9phBTo='; -- client-supplied SCRAM verifier, use as it is SET password_encryption = 'scram-sha-256'; ALTER ROLE regress_passwd5 ENCRYPTED PASSWORD 'foo'; -- create SCRAM verifier CREATE ROLE regress_passwd6 ENCRYPTED PASSWORD 'md53725413363ab045e20521bf36b8d8d7f'; -- encrypted with MD5, use as it is -SELECT rolname, regexp_replace(rolpassword, '(scram-sha-256):([a-zA-Z0-9+/]+==):(\d+):(\w+):(\w+)', '\1::\3::') as rolpassword_masked +SELECT rolname, regexp_replace(rolpassword, '(SCRAM-SHA-256)\$(\d+):([a-zA-Z0-9+/]+==)\$([a-zA-Z0-9+/]+=):([a-zA-Z0-9+/]+=)', '\1$\2:$:') as rolpassword_masked FROM pg_authid WHERE rolname LIKE 'regress_passwd%' ORDER BY rolname, rolpassword;