/*
* Header for the interaction between proxy.c and cproxy.c. Separated
* from proxy.h proper so that testcrypt can include it conveniently.
*/
extern const bool socks5_chap_available;
strbuf *chap_response(ptrlen challenge, ptrlen password);
extern const bool http_digest_available;
/*
* List macro for the various hash functions defined for HTTP Digest.
*
* Of these, MD5 is the original one; SHA-256 is unambiguous; but
* SHA-512-256 seems to be controversial.
*
* RFC 7616 doesn't provide a normative reference, or any text
* explaining what they mean by it. They apparently expect you to
* already know. The problem with that is that there are two plausible
* things they _might_ have meant:
*
* 1. Ordinary SHA-512, truncated to 256 bits by discarding the
* second half of the hash output, per FIPS 180-4 section 7 (which
* says that in general it's OK to truncate hash functions like
* that if you need to). FIPS 180-4 assigns no particular specific
* spelling to this kind of truncated hash.
*
* 2. The same except that the initial state of the SHA-512 algorithm
* is reset to a different 512-bit vector to ensure that it's a
* distinguishable hash function in its own right, per FIPS 180-4
* section 6.7 (which in turn refers to section 5.3.6.2 for the
* actual initial values). FIPS 180-4 spells this "SHA-512/256".
*
* The text of RFC 7616 is totally silent as to which of these they
* meant. Their spelling is inconsistent: the protocol identifier is
* "SHA-512-256", but in some places in the RFC they say
* "SHA-512/256", matching FIPS's spelling for the hash in option 2
* above. On the other hand, the example authentication exchange in
* section 3.9.2 of the RFC contains hashes that are consistent with
* option 1 above (a truncation of plain SHA-512).
*
* Erratum 4897, https://www.rfc-editor.org/errata/eid4897, points out
* this ambiguity, and suggests correcting the example exchange to be
* consistent with option 2. However, as of 2021-11-27, that erratum
* is shown on the RFC Editor website in state "Reported", with no
* response (positive _or_ negative) from the RFC authors or anyone
* else. (And it was reported in 2016, so it's not as if they haven't
* had time.)
*
* So, which hash should we implement? Perhaps there's a consensus
* among existing implementations in the wild?
*
* I rigged up an HTTP server to present a SHA-512-256 Digest auth
* request, and tried various HTTP clients against it. The only HTTP
* client I found that accepts 'algorithm="SHA-512-256"' and sends
* back an auth attempt quoting the same hash is curl - and curl,
* bizarrely, seems to treat "SHA-512-256" as _neither_ of the above
* options, but as simply an alias for SHA-256!
*
* Therefore, I think the only safe answer is to refuse to support
* that hash at all: it's too confusing.
*
* However, I keep it in the list of hashes here, so that we can check
* the test case from RFC 7616, because that test case is also the
* only test of username hashing. So we reject it in proxy/http.c, but
* accept it in the internal function http_digest_response(), and
* treat it as option 1 (truncated SHA-512).
*
* Therefore, the parameters to each invocation of X in the following
* list macro are:
*
* - internal enum id for the hash
* - protocol identifier string
* - algorithm to use for computing it (as a const ssh_hashalg *)
* - length to truncate the output to
* - whether we accept it in http.c or not.
*
* Finally, the ordering of the accepted hashes is our preference
* order among them if the server offers a choice.
*/
#define HTTP_DIGEST_HASHES(X) \
X(HTTP_DIGEST_MD5, "MD5", &ssh_md5, 128, true) \
X(HTTP_DIGEST_SHA256, "SHA-256", &ssh_sha256, 256, true) \
X(HTTP_DIGEST_SHA512_256, "SHA-512-256", &ssh_sha512, 256, false) \
/* end of list */
typedef enum HttpDigestHash {
#define DECL_ENUM(id, str, alg, bits, accepted) id,
HTTP_DIGEST_HASHES(DECL_ENUM)
#undef DECL_ENUM
N_HTTP_DIGEST_HASHES
} HttpDigestHash;
extern const char *const httphashnames[];
extern const bool httphashaccepted[];
void http_digest_response(BinarySink *bs, ptrlen username, ptrlen password,
ptrlen realm, ptrlen method, ptrlen uri, ptrlen qop,
ptrlen nonce, ptrlen opaque, uint32_t nonce_count,
HttpDigestHash hash, bool hash_username);