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putty-source/logging.c
Simon Tatham ad0c502cef Refactor the LogContext type. 
LogContext is now the owner of the logevent() function that back ends
and so forth are constantly calling. Previously, logevent was owned by
the Frontend, which would store the message into its list for the GUI
Event Log dialog (or print it to standard error, or whatever) and then
pass it _back_ to LogContext to write to the currently open log file.
Now it's the other way round: LogContext gets the message from the
back end first, writes it to its log file if it feels so inclined, and
communicates it back to the front end.

This means that lots of parts of the back end system no longer need to
have a pointer to a full-on Frontend; the only thing they needed it
for was logging, so now they just have a LogContext (which many of
them had to have anyway, e.g. for logging SSH packets or session
traffic).

LogContext itself also doesn't get a full Frontend pointer any more:
it now talks back to the front end via a little vtable of its own
called LogPolicy, which contains the method that passes Event Log
entries through, the old askappend() function that decides whether to
truncate a pre-existing log file, and an emergency function for
printing an especially prominent message if the log file can't be
created. One minor nice effect of this is that console and GUI apps
can implement that last function subtly differently, so that Unix
console apps can write it with a plain \n instead of the \r\n
(harmless but inelegant) that the old centralised implementation
generated.

One other consequence of this is that the LogContext has to be
provided to backend_init() so that it's available to backends from the
instant of creation, rather than being provided via a separate API
call a couple of function calls later, because backends have typically
started doing things that need logging (like making network
connections) before the call to backend_provide_logctx. Fortunately,
there's no case in the whole code base where we don't already have
logctx by the time we make a backend (so I don't actually remember why
I ever delayed providing one). So that shortens the backend API by one
function, which is always nice.

While I'm tidying up, I've also moved the printf-style logeventf() and
the handy logevent_and_free() into logging.c, instead of having copies
of them scattered around other places. This has also let me remove
some stub functions from a couple of outlying applications like
Pageant. Finally, I've removed the pointless "_tag" at the end of
LogContext's official struct name.
2018-10-10 21:50:50 +01:00

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/*
* Session logging.
*/
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include <time.h>
#include <assert.h>
#include "putty.h"
/* log session to file stuff ... */
struct LogContext {
FILE *lgfp;
enum { L_CLOSED, L_OPENING, L_OPEN, L_ERROR } state;
bufchain queue;
Filename *currlogfilename;
LogPolicy *lp;
Conf *conf;
int logtype; /* cached out of conf */
};
static Filename *xlatlognam(Filename *s, char *hostname, int port,
struct tm *tm);
/*
* Internal wrapper function which must be called for _all_ output
* to the log file. It takes care of opening the log file if it
* isn't open, buffering data if it's in the process of being
* opened asynchronously, etc.
*/
static void logwrite(LogContext *ctx, void *data, int len)
{
/*
* In state L_CLOSED, we call logfopen, which will set the state
* to one of L_OPENING, L_OPEN or L_ERROR. Hence we process all of
* those three _after_ processing L_CLOSED.
*/
if (ctx->state == L_CLOSED)
logfopen(ctx);
if (ctx->state == L_OPENING) {
bufchain_add(&ctx->queue, data, len);
} else if (ctx->state == L_OPEN) {
assert(ctx->lgfp);
if (fwrite(data, 1, len, ctx->lgfp) < (size_t)len) {
logfclose(ctx);
ctx->state = L_ERROR;
lp_eventlog(ctx->lp, "Disabled writing session log "
"due to error while writing");
}
} /* else L_ERROR, so ignore the write */
}
/*
* Convenience wrapper on logwrite() which printf-formats the
* string.
*/
static void logprintf(LogContext *ctx, const char *fmt, ...)
{
va_list ap;
char *data;
va_start(ap, fmt);
data = dupvprintf(fmt, ap);
va_end(ap);
logwrite(ctx, data, strlen(data));
sfree(data);
}
/*
* Flush any open log file.
*/
void logflush(LogContext *ctx)
{
if (ctx->logtype > 0)
if (ctx->state == L_OPEN)
fflush(ctx->lgfp);
}
static void logfopen_callback(void *vctx, int mode)
{
LogContext *ctx = (LogContext *)vctx;
char buf[256], *event;
struct tm tm;
const char *fmode;
int shout = FALSE;
if (mode == 0) {
ctx->state = L_ERROR; /* disable logging */
} else {
fmode = (mode == 1 ? "ab" : "wb");
ctx->lgfp = f_open(ctx->currlogfilename, fmode, FALSE);
if (ctx->lgfp) {
ctx->state = L_OPEN;
} else {
ctx->state = L_ERROR;
shout = TRUE;
}
}
if (ctx->state == L_OPEN && conf_get_int(ctx->conf, CONF_logheader)) {
/* Write header line into log file. */
tm = ltime();
strftime(buf, 24, "%Y.%m.%d %H:%M:%S", &tm);
logprintf(ctx, "=~=~=~=~=~=~=~=~=~=~=~= PuTTY log %s"
" =~=~=~=~=~=~=~=~=~=~=~=\r\n", buf);
}
event = dupprintf("%s session log (%s mode) to file: %s",
ctx->state == L_ERROR ?
(mode == 0 ? "Disabled writing" : "Error writing") :
(mode == 1 ? "Appending" : "Writing new"),
(ctx->logtype == LGTYP_ASCII ? "ASCII" :
ctx->logtype == LGTYP_DEBUG ? "raw" :
ctx->logtype == LGTYP_PACKETS ? "SSH packets" :
ctx->logtype == LGTYP_SSHRAW ? "SSH raw data" :
"unknown"),
filename_to_str(ctx->currlogfilename));
lp_eventlog(ctx->lp, event);
if (shout) {
/*
* If we failed to open the log file due to filesystem error
* (as opposed to user action such as clicking Cancel in the
* askappend box), we should log it more prominently.
*/
lp_logging_error(ctx->lp, event);
}
sfree(event);
/*
* Having either succeeded or failed in opening the log file,
* we should write any queued data out.
*/
assert(ctx->state != L_OPENING); /* make _sure_ it won't be requeued */
while (bufchain_size(&ctx->queue)) {
void *data;
int len;
bufchain_prefix(&ctx->queue, &data, &len);
logwrite(ctx, data, len);
bufchain_consume(&ctx->queue, len);
}
logflush(ctx);
}
/*
* Open the log file. Takes care of detecting an already-existing
* file and asking the user whether they want to append, overwrite
* or cancel logging.
*/
void logfopen(LogContext *ctx)
{
struct tm tm;
int mode;
/* Prevent repeat calls */
if (ctx->state != L_CLOSED)
return;
if (!ctx->logtype)
return;
tm = ltime();
/* substitute special codes in file name */
if (ctx->currlogfilename)
filename_free(ctx->currlogfilename);
ctx->currlogfilename =
xlatlognam(conf_get_filename(ctx->conf, CONF_logfilename),
conf_get_str(ctx->conf, CONF_host),
conf_get_int(ctx->conf, CONF_port), &tm);
if (open_for_write_would_lose_data(ctx->currlogfilename)) {
int logxfovr = conf_get_int(ctx->conf, CONF_logxfovr);
if (logxfovr != LGXF_ASK) {
mode = ((logxfovr == LGXF_OVR) ? 2 : 1);
} else
mode = lp_askappend(ctx->lp, ctx->currlogfilename,
logfopen_callback, ctx);
} else
mode = 2; /* create == overwrite */
if (mode < 0)
ctx->state = L_OPENING;
else
logfopen_callback(ctx, mode); /* open the file */
}
void logfclose(LogContext *ctx)
{
if (ctx->lgfp) {
fclose(ctx->lgfp);
ctx->lgfp = NULL;
}
ctx->state = L_CLOSED;
}
/*
* Log session traffic.
*/
void logtraffic(LogContext *ctx, unsigned char c, int logmode)
{
if (ctx->logtype > 0) {
if (ctx->logtype == logmode)
logwrite(ctx, &c, 1);
}
}
/*
* Log an Event Log entry. Used in SSH packet logging mode, to copy
* the Event Log entries into the same log file as the packet data.
*/
void logevent(LogContext *ctx, const char *event)
{
if (!ctx)
return;
if (ctx->logtype == LGTYP_PACKETS || ctx->logtype == LGTYP_SSHRAW) {
logprintf(ctx, "Event Log: %s\r\n", event);
logflush(ctx);
}
lp_eventlog(ctx->lp, event);
}
void logevent_and_free(LogContext *ctx, char *event)
{
logevent(ctx, event);
sfree(event);
}
void logeventf(LogContext *ctx, const char *fmt, ...)
{
va_list ap;
char *buf;
va_start(ap, fmt);
buf = dupvprintf(fmt, ap);
va_end(ap);
logevent_and_free(ctx, buf);
}
/*
* Log an SSH packet.
* If n_blanks != 0, blank or omit some parts.
* Set of blanking areas must be in increasing order.
*/
void log_packet(LogContext *ctx, int direction, int type,
const char *texttype, const void *data, int len,
int n_blanks, const struct logblank_t *blanks,
const unsigned long *seq,
unsigned downstream_id, const char *additional_log_text)
{
char dumpdata[80], smalldata[5];
int p = 0, b = 0, omitted = 0;
int output_pos = 0; /* NZ if pending output in dumpdata */
if (!(ctx->logtype == LGTYP_SSHRAW ||
(ctx->logtype == LGTYP_PACKETS && texttype)))
return;
/* Packet header. */
if (texttype) {
logprintf(ctx, "%s packet ",
direction == PKT_INCOMING ? "Incoming" : "Outgoing");
if (seq)
logprintf(ctx, "#0x%lx, ", *seq);
logprintf(ctx, "type %d / 0x%02x (%s)", type, type, texttype);
if (downstream_id) {
logprintf(ctx, " on behalf of downstream #%u", downstream_id);
if (additional_log_text)
logprintf(ctx, " (%s)", additional_log_text);
}
logprintf(ctx, "\r\n");
} else {
/*
* Raw data is logged with a timestamp, so that it's possible
* to determine whether a mysterious delay occurred at the
* client or server end. (Timestamping the raw data avoids
* cluttering the normal case of only logging decrypted SSH
* messages, and also adds conceptual rigour in the case where
* an SSH message arrives in several pieces.)
*/
char buf[256];
struct tm tm;
tm = ltime();
strftime(buf, 24, "%Y-%m-%d %H:%M:%S", &tm);
logprintf(ctx, "%s raw data at %s\r\n",
direction == PKT_INCOMING ? "Incoming" : "Outgoing",
buf);
}
/*
* Output a hex/ASCII dump of the packet body, blanking/omitting
* parts as specified.
*/
while (p < len) {
int blktype;
/* Move to a current entry in the blanking array. */
while ((b < n_blanks) &&
(p >= blanks[b].offset + blanks[b].len))
b++;
/* Work out what type of blanking to apply to
* this byte. */
blktype = PKTLOG_EMIT; /* default */
if ((b < n_blanks) &&
(p >= blanks[b].offset) &&
(p < blanks[b].offset + blanks[b].len))
blktype = blanks[b].type;
/* If we're about to stop omitting, it's time to say how
* much we omitted. */
if ((blktype != PKTLOG_OMIT) && omitted) {
logprintf(ctx, " (%d byte%s omitted)\r\n",
omitted, (omitted==1?"":"s"));
omitted = 0;
}
/* (Re-)initialise dumpdata as necessary
* (start of row, or if we've just stopped omitting) */
if (!output_pos && !omitted)
sprintf(dumpdata, " %08x%*s\r\n", p-(p%16), 1+3*16+2+16, "");
/* Deal with the current byte. */
if (blktype == PKTLOG_OMIT) {
omitted++;
} else {
int c;
if (blktype == PKTLOG_BLANK) {
c = 'X';
sprintf(smalldata, "XX");
} else { /* PKTLOG_EMIT */
c = ((unsigned char *)data)[p];
sprintf(smalldata, "%02x", c);
}
dumpdata[10+2+3*(p%16)] = smalldata[0];
dumpdata[10+2+3*(p%16)+1] = smalldata[1];
dumpdata[10+1+3*16+2+(p%16)] = (c >= 0x20 && c < 0x7F ? c : '.');
output_pos = (p%16) + 1;
}
p++;
/* Flush row if necessary */
if (((p % 16) == 0) || (p == len) || omitted) {
if (output_pos) {
strcpy(dumpdata + 10+1+3*16+2+output_pos, "\r\n");
logwrite(ctx, dumpdata, strlen(dumpdata));
output_pos = 0;
}
}
}
/* Tidy up */
if (omitted)
logprintf(ctx, " (%d byte%s omitted)\r\n",
omitted, (omitted==1?"":"s"));
logflush(ctx);
}
LogContext *log_init(LogPolicy *lp, Conf *conf)
{
LogContext *ctx = snew(LogContext);
ctx->lgfp = NULL;
ctx->state = L_CLOSED;
ctx->lp = lp;
ctx->conf = conf_copy(conf);
ctx->logtype = conf_get_int(ctx->conf, CONF_logtype);
ctx->currlogfilename = NULL;
bufchain_init(&ctx->queue);
return ctx;
}
void log_free(LogContext *ctx)
{
logfclose(ctx);
bufchain_clear(&ctx->queue);
if (ctx->currlogfilename)
filename_free(ctx->currlogfilename);
conf_free(ctx->conf);
sfree(ctx);
}
void log_reconfig(LogContext *ctx, Conf *conf)
{
int reset_logging;
if (!filename_equal(conf_get_filename(ctx->conf, CONF_logfilename),
conf_get_filename(conf, CONF_logfilename)) ||
conf_get_int(ctx->conf, CONF_logtype) !=
conf_get_int(conf, CONF_logtype))
reset_logging = TRUE;
else
reset_logging = FALSE;
if (reset_logging)
logfclose(ctx);
conf_free(ctx->conf);
ctx->conf = conf_copy(conf);
ctx->logtype = conf_get_int(ctx->conf, CONF_logtype);
if (reset_logging)
logfopen(ctx);
}
/*
* translate format codes into time/date strings
* and insert them into log file name
*
* "&Y":YYYY "&m":MM "&d":DD "&T":hhmmss "&h":<hostname> "&&":&
*/
static Filename *xlatlognam(Filename *src, char *hostname, int port,
struct tm *tm)
{
char buf[32], *bufp;
int size;
char *buffer;
int buflen, bufsize;
const char *s;
Filename *ret;
bufsize = FILENAME_MAX;
buffer = snewn(bufsize, char);
buflen = 0;
s = filename_to_str(src);
while (*s) {
int sanitise = FALSE;
/* Let (bufp, len) be the string to append. */
bufp = buf; /* don't usually override this */
if (*s == '&') {
char c;
s++;
size = 0;
if (*s) switch (c = *s++, tolower((unsigned char)c)) {
case 'y':
size = strftime(buf, sizeof(buf), "%Y", tm);
break;
case 'm':
size = strftime(buf, sizeof(buf), "%m", tm);
break;
case 'd':
size = strftime(buf, sizeof(buf), "%d", tm);
break;
case 't':
size = strftime(buf, sizeof(buf), "%H%M%S", tm);
break;
case 'h':
bufp = hostname;
size = strlen(bufp);
break;
case 'p':
size = sprintf(buf, "%d", port);
break;
default:
buf[0] = '&';
size = 1;
if (c != '&')
buf[size++] = c;
}
/* Never allow path separators - or any other illegal
* filename character - to come out of any of these
* auto-format directives. E.g. 'hostname' can contain
* colons, if it's an IPv6 address, and colons aren't
* legal in filenames on Windows. */
sanitise = TRUE;
} else {
buf[0] = *s++;
size = 1;
}
if (bufsize <= buflen + size) {
bufsize = (buflen + size) * 5 / 4 + 512;
buffer = sresize(buffer, bufsize, char);
}
while (size-- > 0) {
char c = *bufp++;
if (sanitise)
c = filename_char_sanitise(c);
buffer[buflen++] = c;
}
}
buffer[buflen] = '\0';
ret = filename_from_str(buffer);
sfree(buffer);
return ret;
}
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