/usr/include/wireshark/epan/exceptions.h is in libwireshark-dev 2.0.2+ga16e22e-1.
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* Wireshark's exceptions.
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifndef __EXCEPTIONS_H__
#define __EXCEPTIONS_H__
#include "except.h"
/* Wireshark has only one exception group, to make these macros simple */
#define XCEPT_GROUP_WIRESHARK 1
/**
Index is out of range.
An attempt was made to read past the end of a buffer.
This generally means that the capture was done with a "slice"
length or "snapshot" length less than the maximum packet size,
and a link-layer packet was cut short by that, so not all of the
data in the link-layer packet was available.
**/
#define BoundsError 1
/**
Index is beyond reported length (not cap_len)
An attempt was made to read past the logical end of a buffer. This
differs from a BoundsError in that the parent protocol established a
limit past which this dissector should not process in the buffer and that
limit was exceeded.
This generally means that the packet is invalid, i.e. whatever
code constructed the packet and put it on the wire didn't put enough
data into it. It is therefore currently reported as a "Malformed
packet".
**/
#define ReportedBoundsError 2
/**
Index is beyond fragment length but not reported length.
This means that the packet wasn't reassembled.
**/
#define FragmentBoundsError 3
/**
During dfilter parsing
**/
#define TypeError 4
/**
A bug was detected in a dissector.
DO NOT throw this with THROW(); that means that no details about
the dissector error will be reported. (Instead, the message will
blame you for not providing details.)
Instead, use the DISSECTOR_ASSERT(), etc. macros in epan/proto.h.
**/
#define DissectorError 5
/**
Index is out of range.
An attempt was made to read past the end of a buffer.
This error is specific to SCSI data transfers where for some CDBs
it is normal that the data PDU might be short.
I.e. ReportLuns initially called with allocation_length=8, just enough
to get the "size" of lun list back after which the initiator will
reissue the command with an allocation_length that is big enough.
**/
#define ScsiBoundsError 6
/**
Running out of memory.
A dissector tried to allocate memory but that failed.
**/
#define OutOfMemoryError 7
/**
The reassembly state machine was passed a bad fragment offset,
or other similar issues. We used to use DissectorError in these
cases, but they're not necessarily the dissector's fault - if the packet
contains a bad fragment offset, the dissector shouldn't have to figure
that out by itself since that's what the reassembly machine is for.
**/
#define ReassemblyError 8
/*
* Catch errors that, if you're calling a subdissector and catching
* exceptions from the subdissector, and possibly dissecting more
* stuff after the subdissector returns or fails, mean it makes
* sense to continue dissecting:
*
* BoundsError indicates a configuration problem (the capture was
* set up to throw away data, and it did); there's no point in
* trying to dissect any more data, as there's no more data to dissect.
*
* FragmentBoundsError indicates a configuration problem (reassembly
* wasn't enabled or couldn't be done); there's no point in trying
* to dissect any more data, as there's no more data to dissect.
*
* OutOfMemoryError indicates what its name suggests; there's no point
* in trying to dissect any more data, as you're probably not going to
* have any more memory to use when dissecting them.
*
* Other errors indicate that there's some sort of problem with
* the packet; you should continue dissecting data, as it might
* be OK, and, even if it's not, you should report its problem
* separately.
*/
#define CATCH_NONFATAL_ERRORS \
CATCH3(ReportedBoundsError, ScsiBoundsError, ReassemblyError)
/*
* Catch all bounds-checking errors.
*/
#define CATCH_BOUNDS_ERRORS \
CATCH4(BoundsError, FragmentBoundsError, ReportedBoundsError, \
ScsiBoundsError)
/*
* Catch all bounds-checking errors, and catch dissector bugs.
* Should only be used at the top level, so that dissector bugs
* go all the way to the top level and get reported immediately.
*/
#define CATCH_BOUNDS_AND_DISSECTOR_ERRORS \
CATCH6(BoundsError, FragmentBoundsError, ReportedBoundsError, \
ScsiBoundsError, DissectorError, ReassemblyError)
/* Usage:
*
* TRY {
* code;
* }
*
* CATCH(exception) {
* code;
* }
*
* CATCH2(exception1, exception2) {
* code;
* }
*
* CATCH3(exception1, exception2, exception3) {
* code;
* }
*
* CATCH4(exception1, exception2, exception3, exception4) {
* code;
* }
*
* CATCH5(exception1, exception2, exception3, exception4, exception5) {
* code;
* }
*
* CATCH6(exception1, exception2, exception3, exception4, exception5, exception6) {
* code;
* }
*
* CATCH_NONFATAL_ERRORS {
* code;
* }
*
* CATCH_BOUNDS_ERRORS {
* code;
* }
*
* CATCH_BOUNDS_AND_DISSECTOR_ERRORS {
* code;
* }
*
* CATCH_ALL {
* code;
* }
*
* FINALLY {
* code;
* }
*
* ENDTRY;
*
* ********* Never use 'goto' or 'return' inside the TRY, CATCH*, or
* ********* FINALLY blocks. Execution must proceed through ENDTRY before
* ********* branching out.
*
* This is really something like:
*
* {
* caught = FALSE:
* x = setjmp();
* if (x == 0) {
* <TRY code>
* }
* if (!caught && x == 1) {
* caught = TRUE;
* <CATCH(1) code>
* }
* if (!caught && x == 2) {
* caught = TRUE;
* <CATCH(2) code>
* }
* if (!caught && (x == 3 || x == 4)) {
* caught = TRUE;
* <CATCH2(3,4) code>
* }
* if (!caught && (x == 5 || x == 6 || x == 7)) {
* caught = TRUE;
* <CATCH3(5,6,7) code>
* }
* if (!caught && x != 0) {
* caught = TRUE;
* <CATCH_ALL code>
* }
* <FINALLY code>
* if(!caught) {
* RETHROW(x)
* }
* }<ENDTRY tag>
*
* All CATCH's must precede a CATCH_ALL.
* FINALLY must occur after any CATCH or CATCH_ALL.
* ENDTRY marks the end of the TRY code.
* TRY and ENDTRY are the mandatory parts of a TRY block.
* CATCH, CATCH_ALL, and FINALLY are all optional (although
* you'll probably use at least one, otherwise why "TRY"?)
*
* GET_MESSAGE returns string ptr to exception message
* when exception is thrown via THROW_MESSAGE()
*
* To throw/raise an exception.
*
* THROW(exception)
* RETHROW rethrow the caught exception
*
* A cleanup callback is a function called in case an exception occurs
* and is not caught. It should be used to free any dynamically-allocated data.
* A pop or call_and_pop should occur at the same statement-nesting level
* as the push.
*
* CLEANUP_CB_PUSH(func, data)
* CLEANUP_CB_POP
* CLEANUP_CB_CALL_AND_POP
*/
/* we do up to three passes through the bit of code after except_try_push(),
* and except_state is used to keep track of where we are.
*/
#define EXCEPT_CAUGHT 1 /* exception has been caught, no need to rethrow at
* ENDTRY */
#define EXCEPT_RETHROWN 2 /* the exception was rethrown from a CATCH
* block. Don't reenter the CATCH blocks, but do
* execute FINALLY and rethrow at ENDTRY */
#define EXCEPT_FINALLY 4 /* we've entered the FINALLY block - don't allow
* RETHROW, and don't reenter FINALLY if a
* different exception is thrown */
#define TRY \
{\
except_t *exc; \
volatile int except_state = 0; \
static const except_id_t catch_spec[] = { \
{ XCEPT_GROUP_WIRESHARK, XCEPT_CODE_ANY } }; \
except_try_push(catch_spec, 1, &exc); \
\
if(except_state & EXCEPT_CAUGHT) \
except_state |= EXCEPT_RETHROWN; \
except_state &= ~EXCEPT_CAUGHT; \
\
if (except_state == 0 && exc == 0) \
/* user's code goes here */
#define ENDTRY \
/* rethrow the exception if necessary */ \
if(!(except_state&EXCEPT_CAUGHT) && exc != 0) \
except_rethrow(exc); \
except_try_pop();\
}
/* the (except_state |= EXCEPT_CAUGHT) in the below is a way of setting
* except_state before the user's code, without disrupting the user's code if
* it's a one-liner.
*/
#define CATCH(x) \
if (except_state == 0 && exc != 0 && \
exc->except_id.except_code == (x) && \
(except_state |= EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH2(x,y) \
if (except_state == 0 && exc != 0 && \
(exc->except_id.except_code == (x) || \
exc->except_id.except_code == (y)) && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH3(x,y,z) \
if (except_state == 0 && exc != 0 && \
(exc->except_id.except_code == (x) || \
exc->except_id.except_code == (y) || \
exc->except_id.except_code == (z)) && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH4(w,x,y,z) \
if (except_state == 0 && exc != 0 && \
(exc->except_id.except_code == (w) || \
exc->except_id.except_code == (x) || \
exc->except_id.except_code == (y) || \
exc->except_id.except_code == (z)) && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH5(v,w,x,y,z) \
if (except_state == 0 && exc != 0 && \
(exc->except_id.except_code == (v) || \
exc->except_id.except_code == (w) || \
exc->except_id.except_code == (x) || \
exc->except_id.except_code == (y) || \
exc->except_id.except_code == (z)) && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH6(u,v,w,x,y,z) \
if (except_state == 0 && exc != 0 && \
(exc->except_id.except_code == (u) || \
exc->except_id.except_code == (v) || \
exc->except_id.except_code == (w) || \
exc->except_id.except_code == (x) || \
exc->except_id.except_code == (y) || \
exc->except_id.except_code == (z)) && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define CATCH_ALL \
if (except_state == 0 && exc != 0 && \
(except_state|=EXCEPT_CAUGHT)) \
/* user's code goes here */
#define FINALLY \
if( !(except_state & EXCEPT_FINALLY) && (except_state|=EXCEPT_FINALLY)) \
/* user's code goes here */
#define THROW(x) \
except_throw(XCEPT_GROUP_WIRESHARK, (x), NULL)
#define THROW_ON(cond, x) G_STMT_START { \
if ((cond)) \
except_throw(XCEPT_GROUP_WIRESHARK, (x), NULL); \
} G_STMT_END
#define THROW_MESSAGE(x, y) \
except_throw(XCEPT_GROUP_WIRESHARK, (x), (y))
#define THROW_MESSAGE_ON(cond, x, y) G_STMT_START { \
if ((cond)) \
except_throw(XCEPT_GROUP_WIRESHARK, (x), (y)); \
} G_STMT_END
/* Throws a formatted message, its memory is cleared after catching it. */
#define THROW_FORMATTED(x, ...) \
except_throwf(XCEPT_GROUP_WIRESHARK, (x), __VA_ARGS__)
#define GET_MESSAGE except_message(exc)
#define RETHROW \
{ \
/* check we're in a catch block */ \
g_assert(except_state == EXCEPT_CAUGHT); \
/* we can't use except_rethrow here, as that pops a catch block \
* off the stack, and we don't want to do that, because we want to \
* excecute the FINALLY {} block first. \
* except_throw doesn't provide an interface to rethrow an existing \
* exception; however, longjmping back to except_try_push() has the \
* desired effect. \
* \
* Note also that THROW and RETHROW should provide much the same \
* functionality in terms of which blocks to enter, so any messing \
* about with except_state in here would indicate that THROW is \
* doing the wrong thing. \
*/ \
longjmp(except_ch.except_jmp,1); \
}
#define EXCEPT_CODE except_code(exc)
/* Register cleanup functions in case an exception is thrown and not caught.
* From the Kazlib documentation, with modifications for use with the
* Wireshark-specific macros:
*
* CLEANUP_PUSH(func, arg)
*
* The call to CLEANUP_PUSH shall be matched with a call to
* CLEANUP_CALL_AND_POP or CLEANUP_POP which must occur in the same
* statement block at the same level of nesting. This requirement allows
* an implementation to provide a CLEANUP_PUSH macro which opens up a
* statement block and a CLEANUP_POP which closes the statement block.
* The space for the registered pointers can then be efficiently
* allocated from automatic storage.
*
* The CLEANUP_PUSH macro registers a cleanup handler that will be
* called if an exception subsequently occurs before the matching
* CLEANUP_[CALL_AND_]POP is executed, and is not intercepted and
* handled by a try-catch region that is nested between the two.
*
* The first argument to CLEANUP_PUSH is a pointer to the cleanup
* handler, a function that returns nothing and takes a single
* argument of type void*. The second argument is a void* value that
* is registered along with the handler. This value is what is passed
* to the registered handler, should it be called.
*
* Cleanup handlers are called in the reverse order of their nesting:
* inner handlers are called before outer handlers.
*
* The program shall not leave the cleanup region between
* the call to the macro CLEANUP_PUSH and the matching call to
* CLEANUP_[CALL_AND_]POP by means other than throwing an exception,
* or calling CLEANUP_[CALL_AND_]POP.
*
* Within the call to the cleanup handler, it is possible that new
* exceptions may happen. Such exceptions must be handled before the
* cleanup handler terminates. If the call to the cleanup handler is
* terminated by an exception, the behavior is undefined. The exception
* which triggered the cleanup is not yet caught; thus the program
* would be effectively trying to replace an exception with one that
* isn't in a well-defined state.
*
*
* CLEANUP_POP and CLEANUP_CALL_AND_POP
*
* A call to the CLEANUP_POP or CLEANUP_CALL_AND_POP macro shall match
* each call to CLEANUP_PUSH which shall be in the same statement block
* at the same nesting level. It shall match the most recent such a
* call that is not matched by a previous CLEANUP_[CALL_AND_]POP at
* the same level.
*
* These macros causes the registered cleanup handler to be removed. If
* CLEANUP_CALL_AND_POP is called, the cleanup handler is called.
* In that case, the registered context pointer is passed to the cleanup
* handler. If CLEANUP_POP is called, the cleanup handler is not called.
*
* The program shall not leave the region between the call to the
* macro CLEANUP_PUSH and the matching call to CLEANUP_[CALL_AND_]POP
* other than by throwing an exception, or by executing the
* CLEANUP_CALL_AND_POP.
*
*/
#define CLEANUP_PUSH(f,a) except_cleanup_push((f),(a))
#define CLEANUP_POP except_cleanup_pop(0)
#define CLEANUP_CALL_AND_POP except_cleanup_pop(1)
/* Variants to allow nesting of except_cleanup_push w/o "shadowing" variables */
#define CLEANUP_PUSH_PFX(pfx,f,a) except_cleanup_push_pfx(pfx,(f),(a))
#define CLEANUP_POP_PFX(pfx) except_cleanup_pop_pfx(pfx,0)
#define CLEANUP_CALL_AND_POP_PFX(pfx) except_cleanup_pop_pfx(pfx,1)
#endif /* __EXCEPTIONS_H__ */
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