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putty-source/sshhmac.c
Simon Tatham b4e1bca2c3 Change vtable defs to use C99 designated initialisers. 
This is a sweeping change applied across the whole code base by a spot
of Emacs Lisp. Now, everywhere I declare a vtable filled with function
pointers (and the occasional const data member), all the members of
the vtable structure are initialised by name using the '.fieldname =
value' syntax introduced in C99.

We were already using this syntax for a handful of things in the new
key-generation progress report system, so it's not new to the code
base as a whole.

The advantage is that now, when a vtable only declares a subset of the
available fields, I can initialise the rest to NULL or zero just by
leaving them out. This is most dramatic in a couple of the outlying
vtables in things like psocks (which has a ConnectionLayerVtable
containing only one non-NULL method), but less dramatically, it means
that the new 'flags' field in BackendVtable can be completely left out
of every backend definition except for the SUPDUP one which defines it
to a nonzero value. Similarly, the test_for_upstream method only used
by SSH doesn't have to be mentioned in the rest of the backends;
network Plugs for listening sockets don't have to explicitly null out
'receive' and 'sent', and vice versa for 'accepting', and so on.

While I'm at it, I've normalised the declarations so they don't use
the unnecessarily verbose 'struct' keyword. Also a handful of them
weren't const; now they are.
2020-03-10 21:06:29 +00:00

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/*
* Implementation of HMAC (RFC 2104) for PuTTY, in a general form that
* can wrap any underlying hash function.
*/
#include "ssh.h"
struct hmac {
const ssh_hashalg *hashalg;
ssh_hash *h_outer, *h_inner, *h_live;
uint8_t *digest;
strbuf *text_name;
ssh2_mac mac;
};
struct hmac_extra {
const ssh_hashalg *hashalg_base;
const char *suffix, *annotation;
};
static ssh2_mac *hmac_new(const ssh2_macalg *alg, ssh_cipher *cipher)
{
struct hmac *ctx = snew(struct hmac);
const struct hmac_extra *extra = (const struct hmac_extra *)alg->extra;
ctx->h_outer = ssh_hash_new(extra->hashalg_base);
/* In case that hashalg was a selector vtable, we'll now switch to
* using whatever real one it selected, for all future purposes. */
ctx->hashalg = ssh_hash_alg(ctx->h_outer);
ctx->h_inner = ssh_hash_new(ctx->hashalg);
ctx->h_live = ssh_hash_new(ctx->hashalg);
/*
* HMAC is not well defined as a wrapper on an absolutely general
* hash function; it expects that the function it's wrapping will
* consume data in fixed-size blocks, and it's partially defined
* in terms of that block size. So we insist that the hash we're
* given must have defined a meaningful block size.
*/
assert(ctx->hashalg->blocklen);
ctx->digest = snewn(ctx->hashalg->hlen, uint8_t);
ctx->text_name = strbuf_new();
strbuf_catf(ctx->text_name, "HMAC-%s%s",
ctx->hashalg->text_basename, extra->suffix);
if (extra->annotation || ctx->hashalg->annotation) {
strbuf_catf(ctx->text_name, " (");
const char *sep = "";
if (extra->annotation) {
strbuf_catf(ctx->text_name, "%s%s", sep, extra->annotation);
sep = ", ";
}
if (ctx->hashalg->annotation) {
strbuf_catf(ctx->text_name, "%s%s", sep, ctx->hashalg->annotation);
sep = ", ";
}
strbuf_catf(ctx->text_name, ")");
}
ctx->mac.vt = alg;
BinarySink_DELEGATE_INIT(&ctx->mac, ctx->h_live);
return &ctx->mac;
}
static void hmac_free(ssh2_mac *mac)
{
struct hmac *ctx = container_of(mac, struct hmac, mac);
ssh_hash_free(ctx->h_outer);
ssh_hash_free(ctx->h_inner);
ssh_hash_free(ctx->h_live);
smemclr(ctx->digest, ctx->hashalg->hlen);
sfree(ctx->digest);
strbuf_free(ctx->text_name);
smemclr(ctx, sizeof(*ctx));
sfree(ctx);
}
#define PAD_OUTER 0x5C
#define PAD_INNER 0x36
static void hmac_key(ssh2_mac *mac, ptrlen key)
{
struct hmac *ctx = container_of(mac, struct hmac, mac);
const uint8_t *kp;
size_t klen;
strbuf *sb = NULL;
if (key.len > ctx->hashalg->blocklen) {
/*
* RFC 2104 section 2: if the key exceeds the block length of
* the underlying hash, then we start by hashing the key, and
* use that hash as the 'true' key for the HMAC construction.
*/
sb = strbuf_new_nm();
strbuf_append(sb, ctx->hashalg->hlen);
hash_simple(ctx->hashalg, key, sb->u);
kp = sb->u;
klen = sb->len;
} else {
/*
* A short enough key is used as is.
*/
kp = (const uint8_t *)key.ptr;
klen = key.len;
}
ssh_hash_reset(ctx->h_outer);
for (size_t i = 0; i < klen; i++)
put_byte(ctx->h_outer, PAD_OUTER ^ kp[i]);
for (size_t i = klen; i < ctx->hashalg->blocklen; i++)
put_byte(ctx->h_outer, PAD_OUTER);
ssh_hash_reset(ctx->h_inner);
for (size_t i = 0; i < klen; i++)
put_byte(ctx->h_inner, PAD_INNER ^ kp[i]);
for (size_t i = klen; i < ctx->hashalg->blocklen; i++)
put_byte(ctx->h_inner, PAD_INNER);
if (sb)
strbuf_free(sb);
}
static void hmac_start(ssh2_mac *mac)
{
struct hmac *ctx = container_of(mac, struct hmac, mac);
ssh_hash_copyfrom(ctx->h_live, ctx->h_inner);
}
static void hmac_genresult(ssh2_mac *mac, unsigned char *output)
{
struct hmac *ctx = container_of(mac, struct hmac, mac);
ssh_hash *htmp;
/* Leave h_live and h_outer in place, so that the SSH-2 BPP can
* continue regenerating test results from different-length
* prefixes of the packet */
ssh_hash_digest_nondestructive(ctx->h_live, ctx->digest);
htmp = ssh_hash_copy(ctx->h_outer);
put_data(htmp, ctx->digest, ctx->hashalg->hlen);
ssh_hash_final(htmp, ctx->digest);
/*
* Some instances of HMAC truncate the output hash, so instead of
* writing it directly to 'output' we wrote it to our own
* full-length buffer, and now we copy the required amount.
*/
memcpy(output, ctx->digest, mac->vt->len);
smemclr(ctx->digest, ctx->hashalg->hlen);
}
static const char *hmac_text_name(ssh2_mac *mac)
{
struct hmac *ctx = container_of(mac, struct hmac, mac);
return ctx->text_name->s;
}
static const struct hmac_extra ssh_hmac_sha256_extra = { &ssh_sha256, "" };
const ssh2_macalg ssh_hmac_sha256 = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-sha2-256",
.etm_name = "hmac-sha2-256-etm@openssh.com",
.len = 32,
.keylen = 32,
.extra = &ssh_hmac_sha256_extra,
};
static const struct hmac_extra ssh_hmac_md5_extra = { &ssh_md5, "" };
const ssh2_macalg ssh_hmac_md5 = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-md5",
.etm_name = "hmac-md5-etm@openssh.com",
.len = 16,
.keylen = 16,
.extra = &ssh_hmac_md5_extra,
};
static const struct hmac_extra ssh_hmac_sha1_extra = { &ssh_sha1, "" };
const ssh2_macalg ssh_hmac_sha1 = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-sha1",
.etm_name = "hmac-sha1-etm@openssh.com",
.len = 20,
.keylen = 20,
.extra = &ssh_hmac_sha1_extra,
};
static const struct hmac_extra ssh_hmac_sha1_96_extra = { &ssh_sha1, "-96" };
const ssh2_macalg ssh_hmac_sha1_96 = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-sha1-96",
.etm_name = "hmac-sha1-96-etm@openssh.com",
.len = 12,
.keylen = 20,
.extra = &ssh_hmac_sha1_96_extra,
};
static const struct hmac_extra ssh_hmac_sha1_buggy_extra = {
&ssh_sha1, "", "bug-compatible"
};
const ssh2_macalg ssh_hmac_sha1_buggy = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-sha1",
.len = 20,
.keylen = 16,
.extra = &ssh_hmac_sha1_buggy_extra,
};
static const struct hmac_extra ssh_hmac_sha1_96_buggy_extra = {
&ssh_sha1, "-96", "bug-compatible"
};
const ssh2_macalg ssh_hmac_sha1_96_buggy = {
.new = hmac_new,
.free = hmac_free,
.setkey = hmac_key,
.start = hmac_start,
.genresult = hmac_genresult,
.text_name = hmac_text_name,
.name = "hmac-sha1-96",
.len = 12,
.keylen = 16,
.extra = &ssh_hmac_sha1_96_buggy_extra,
};
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