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e08641c912
putty-source/ssh1bpp.c
Simon Tatham e08641c912 Start using C99 variadic macros. 
In the past, I've had a lot of macros which you call with double
parentheses, along the lines of debug(("format string", params)), so
that the inner parens protect the commas and permit the macro to treat
the whole printf-style argument list as one macro argument.

That's all very well, but it's a bit inconvenient (it doesn't leave
you any way to implement such a macro by prepending another argument
to the list), and now this code base's rules allow C99isms, I can
switch all those macros to using a single pair of parens, using the
C99 ability to say '...' in the parameter list of the #define and get
at the corresponding suffix of the arguments as __VA_ARGS__.

So I'm doing it. I've made the following printf-style macros variadic:
bpp_logevent, ppl_logevent, ppl_printf and debug.

While I'm here, I've also fixed up a collection of conditioned-out
calls to debug() in the Windows front end which were clearly expecting
a macro with a different calling syntax, because they had an integer
parameter first. If I ever have a need to condition those back in,
they should actually work now.
2018-12-08 20:48:41 +00:00

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/*
* Binary packet protocol for SSH-1.
*/
#include <assert.h>
#include "putty.h"
#include "ssh.h"
#include "sshbpp.h"
#include "sshcr.h"
struct ssh1_bpp_state {
int crState;
long len, pad, biglen, length, maxlen;
unsigned char *data;
unsigned long realcrc, gotcrc;
int chunk;
PktIn *pktin;
ssh1_cipher *cipher;
struct crcda_ctx *crcda_ctx;
bool pending_compression_request;
ssh_compressor *compctx;
ssh_decompressor *decompctx;
BinaryPacketProtocol bpp;
};
static void ssh1_bpp_free(BinaryPacketProtocol *bpp);
static void ssh1_bpp_handle_input(BinaryPacketProtocol *bpp);
static void ssh1_bpp_handle_output(BinaryPacketProtocol *bpp);
static void ssh1_bpp_queue_disconnect(BinaryPacketProtocol *bpp,
const char *msg, int category);
static PktOut *ssh1_bpp_new_pktout(int type);
static const struct BinaryPacketProtocolVtable ssh1_bpp_vtable = {
ssh1_bpp_free,
ssh1_bpp_handle_input,
ssh1_bpp_handle_output,
ssh1_bpp_new_pktout,
ssh1_bpp_queue_disconnect,
};
BinaryPacketProtocol *ssh1_bpp_new(LogContext *logctx)
{
struct ssh1_bpp_state *s = snew(struct ssh1_bpp_state);
memset(s, 0, sizeof(*s));
s->bpp.vt = &ssh1_bpp_vtable;
s->bpp.logctx = logctx;
ssh_bpp_common_setup(&s->bpp);
return &s->bpp;
}
static void ssh1_bpp_free(BinaryPacketProtocol *bpp)
{
struct ssh1_bpp_state *s = container_of(bpp, struct ssh1_bpp_state, bpp);
if (s->cipher)
ssh1_cipher_free(s->cipher);
if (s->compctx)
ssh_compressor_free(s->compctx);
if (s->decompctx)
ssh_decompressor_free(s->decompctx);
if (s->crcda_ctx)
crcda_free_context(s->crcda_ctx);
sfree(s->pktin);
sfree(s);
}
void ssh1_bpp_new_cipher(BinaryPacketProtocol *bpp,
const struct ssh1_cipheralg *cipher,
const void *session_key)
{
struct ssh1_bpp_state *s;
assert(bpp->vt == &ssh1_bpp_vtable);
s = container_of(bpp, struct ssh1_bpp_state, bpp);
assert(!s->cipher);
if (cipher) {
s->cipher = ssh1_cipher_new(cipher);
ssh1_cipher_sesskey(s->cipher, session_key);
assert(!s->crcda_ctx);
s->crcda_ctx = crcda_make_context();
bpp_logevent("Initialised %s encryption", cipher->text_name);
}
}
void ssh1_bpp_start_compression(BinaryPacketProtocol *bpp)
{
struct ssh1_bpp_state *s;
assert(bpp->vt == &ssh1_bpp_vtable);
s = container_of(bpp, struct ssh1_bpp_state, bpp);
assert(!s->compctx);
assert(!s->decompctx);
s->compctx = ssh_compressor_new(&ssh_zlib);
s->decompctx = ssh_decompressor_new(&ssh_zlib);
bpp_logevent("Started zlib (RFC1950) compression");
}
#define BPP_READ(ptr, len) do \
{ \
bool success; \
crMaybeWaitUntilV((success = bufchain_try_fetch_consume( \
s->bpp.in_raw, ptr, len)) || \
s->bpp.input_eof); \
if (!success) \
goto eof; \
} while (0)
static void ssh1_bpp_handle_input(BinaryPacketProtocol *bpp)
{
struct ssh1_bpp_state *s = container_of(bpp, struct ssh1_bpp_state, bpp);
crBegin(s->crState);
while (1) {
s->maxlen = 0;
s->length = 0;
{
unsigned char lenbuf[4];
BPP_READ(lenbuf, 4);
s->len = toint(GET_32BIT_MSB_FIRST(lenbuf));
}
if (s->len < 0 || s->len > 262144) { /* SSH1.5-mandated max size */
ssh_sw_abort(s->bpp.ssh,
"Extremely large packet length from remote suggests"
" data stream corruption");
crStopV;
}
s->pad = 8 - (s->len % 8);
s->biglen = s->len + s->pad;
s->length = s->len - 5;
/*
* Allocate the packet to return, now we know its length.
*/
s->pktin = snew_plus(PktIn, s->biglen);
s->pktin->qnode.prev = s->pktin->qnode.next = NULL;
s->pktin->qnode.on_free_queue = false;
s->pktin->type = 0;
s->maxlen = s->biglen;
s->data = snew_plus_get_aux(s->pktin);
BPP_READ(s->data, s->biglen);
if (s->cipher && detect_attack(s->crcda_ctx,
s->data, s->biglen, NULL)) {
ssh_sw_abort(s->bpp.ssh,
"Network attack (CRC compensation) detected!");
crStopV;
}
if (s->cipher)
ssh1_cipher_decrypt(s->cipher, s->data, s->biglen);
s->realcrc = crc32_compute(s->data, s->biglen - 4);
s->gotcrc = GET_32BIT(s->data + s->biglen - 4);
if (s->gotcrc != s->realcrc) {
ssh_sw_abort(s->bpp.ssh, "Incorrect CRC received on packet");
crStopV;
}
if (s->decompctx) {
unsigned char *decompblk;
int decomplen;
if (!ssh_decompressor_decompress(
s->decompctx, s->data + s->pad, s->length + 1,
&decompblk, &decomplen)) {
ssh_sw_abort(s->bpp.ssh,
"Zlib decompression encountered invalid data");
crStopV;
}
if (s->maxlen < s->pad + decomplen) {
PktIn *old_pktin = s->pktin;
s->maxlen = s->pad + decomplen;
s->pktin = snew_plus(PktIn, s->maxlen);
*s->pktin = *old_pktin; /* structure copy */
s->data = snew_plus_get_aux(s->pktin);
smemclr(old_pktin, s->biglen);
sfree(old_pktin);
}
memcpy(s->data + s->pad, decompblk, decomplen);
sfree(decompblk);
s->length = decomplen - 1;
}
/*
* Now we can find the bounds of the semantic content of the
* packet, and the initial type byte.
*/
s->data += s->pad;
s->pktin->type = *s->data++;
BinarySource_INIT(s->pktin, s->data, s->length);
if (s->bpp.logctx) {
logblank_t blanks[MAX_BLANKS];
int nblanks = ssh1_censor_packet(
s->bpp.pls, s->pktin->type, false,
make_ptrlen(s->data, s->length), blanks);
log_packet(s->bpp.logctx, PKT_INCOMING, s->pktin->type,
ssh1_pkt_type(s->pktin->type),
get_ptr(s->pktin), get_avail(s->pktin), nblanks, blanks,
NULL, 0, NULL);
}
pq_push(&s->bpp.in_pq, s->pktin);
{
int type = s->pktin->type;
s->pktin = NULL;
switch (type) {
case SSH1_SMSG_SUCCESS:
case SSH1_SMSG_FAILURE:
if (s->pending_compression_request) {
/*
* This is the response to
* SSH1_CMSG_REQUEST_COMPRESSION.
*/
if (type == SSH1_SMSG_SUCCESS) {
/*
* If the response was positive, start
* compression.
*/
ssh1_bpp_start_compression(&s->bpp);
}
/*
* Either way, cancel the pending flag, and
* schedule a run of our output side in case we
* had any packets queued up in the meantime.
*/
s->pending_compression_request = false;
queue_idempotent_callback(&s->bpp.ic_out_pq);
}
break;
}
}
}
eof:
if (!s->bpp.expect_close) {
ssh_remote_error(s->bpp.ssh,
"Remote side unexpectedly closed network connection");
} else {
ssh_remote_eof(s->bpp.ssh, "Remote side closed network connection");
}
return; /* avoid touching s now it's been freed */
crFinishV;
}
static PktOut *ssh1_bpp_new_pktout(int pkt_type)
{
PktOut *pkt = ssh_new_packet();
pkt->length = 4 + 8; /* space for length + max padding */
put_byte(pkt, pkt_type);
pkt->prefix = pkt->length;
pkt->type = pkt_type;
pkt->downstream_id = 0;
pkt->additional_log_text = NULL;
return pkt;
}
static void ssh1_bpp_format_packet(struct ssh1_bpp_state *s, PktOut *pkt)
{
int pad, biglen, i, pktoffs;
unsigned long crc;
int len;
if (s->bpp.logctx) {
ptrlen pktdata = make_ptrlen(pkt->data + pkt->prefix,
pkt->length - pkt->prefix);
logblank_t blanks[MAX_BLANKS];
int nblanks = ssh1_censor_packet(
s->bpp.pls, pkt->type, true, pktdata, blanks);
log_packet(s->bpp.logctx, PKT_OUTGOING, pkt->type,
ssh1_pkt_type(pkt->type),
pktdata.ptr, pktdata.len, nblanks, blanks,
NULL, 0, NULL);
}
if (s->compctx) {
unsigned char *compblk;
int complen;
ssh_compressor_compress(s->compctx, pkt->data + 12, pkt->length - 12,
&compblk, &complen, 0);
/* Replace the uncompressed packet data with the compressed
* version. */
pkt->length = 12;
put_data(pkt, compblk, complen);
sfree(compblk);
}
put_uint32(pkt, 0); /* space for CRC */
len = pkt->length - 4 - 8; /* len(type+data+CRC) */
pad = 8 - (len % 8);
pktoffs = 8 - pad;
biglen = len + pad; /* len(padding+type+data+CRC) */
for (i = pktoffs; i < 4+8; i++)
pkt->data[i] = random_byte();
crc = crc32_compute(pkt->data + pktoffs + 4,
biglen - 4); /* all ex len */
PUT_32BIT(pkt->data + pktoffs + 4 + biglen - 4, crc);
PUT_32BIT(pkt->data + pktoffs, len);
if (s->cipher)
ssh1_cipher_encrypt(s->cipher, pkt->data + pktoffs + 4, biglen);
bufchain_add(s->bpp.out_raw, pkt->data + pktoffs,
biglen + 4); /* len(length+padding+type+data+CRC) */
}
static void ssh1_bpp_handle_output(BinaryPacketProtocol *bpp)
{
struct ssh1_bpp_state *s = container_of(bpp, struct ssh1_bpp_state, bpp);
PktOut *pkt;
if (s->pending_compression_request) {
/*
* Don't send any output packets while we're awaiting a
* response to SSH1_CMSG_REQUEST_COMPRESSION, because if they
* cross over in transit with the responding SSH1_CMSG_SUCCESS
* then the other end could decode them with the wrong
* compression settings.
*/
return;
}
while ((pkt = pq_pop(&s->bpp.out_pq)) != NULL) {
int type = pkt->type;
ssh1_bpp_format_packet(s, pkt);
ssh_free_pktout(pkt);
if (type == SSH1_CMSG_REQUEST_COMPRESSION) {
/*
* When we see the actual compression request go past, set
* the pending flag, and stop processing packets this
* time.
*/
s->pending_compression_request = true;
break;
}
}
}
static void ssh1_bpp_queue_disconnect(BinaryPacketProtocol *bpp,
const char *msg, int category)
{
PktOut *pkt = ssh_bpp_new_pktout(bpp, SSH1_MSG_DISCONNECT);
put_stringz(pkt, msg);
pq_push(&bpp->out_pq, pkt);
}
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