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If any error occurred while we were in the middle of reading a protocol message from the client, we could lose sync, and incorrectly try to interpret a part of another message as a new protocol message. That will usually lead to an "invalid frontend message" error that terminates the connection. However, this is a security issue because an attacker might be able to deliberately cause an error, inject a Query message in what's supposed to be just user data, and have the server execute it. We were quite careful to not have CHECK_FOR_INTERRUPTS() calls or other operations that could ereport(ERROR) in the middle of processing a message, but a query cancel interrupt or statement timeout could nevertheless cause it to happen. Also, the V2 fastpath and COPY handling were not so careful. It's very difficult to recover in the V2 COPY protocol, so we will just terminate the connection on error. In practice, that's what happened previously anyway, as we lost protocol sync. To fix, add a new variable in pqcomm.c, PqCommReadingMsg, that is set whenever we're in the middle of reading a message. When it's set, we cannot safely ERROR out and continue running, because we might've read only part of a message. PqCommReadingMsg acts somewhat similarly to critical sections in that if an error occurs while it's set, the error handler will force the connection to be terminated, as if the error was FATAL. It's not implemented by promoting ERROR to FATAL in elog.c, like ERROR is promoted to PANIC in critical sections, because we want to be able to use PG_TRY/CATCH to recover and regain protocol sync. pq_getmessage() takes advantage of that to prevent an OOM error from terminating the connection. To prevent unnecessary connection terminations, add a holdoff mechanism similar to HOLD/RESUME_INTERRUPTS() that can be used hold off query cancel interrupts, but still allow die interrupts. The rules on which interrupts are processed when are now a bit more complicated, so refactor ProcessInterrupts() and the calls to it in signal handlers so that the signal handlers always call it if ImmediateInterruptOK is set, and ProcessInterrupts() can decide to not do anything if the other conditions are not met. Reported by Emil Lenngren. Patch reviewed by Noah Misch and Andres Freund. Backpatch to all supported versions. Security: CVE-2015-0244 |
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PostgreSQL Database Management System ===================================== This directory contains the source code distribution of the PostgreSQL database management system. PostgreSQL is an advanced object-relational database management system that supports an extended subset of the SQL standard, including transactions, foreign keys, subqueries, triggers, user-defined types and functions. This distribution also contains C language bindings. PostgreSQL has many language interfaces, many of which are listed here: http://www.postgresql.org/download See the file INSTALL for instructions on how to build and install PostgreSQL. That file also lists supported operating systems and hardware platforms and contains information regarding any other software packages that are required to build or run the PostgreSQL system. Copyright and license information can be found in the file COPYRIGHT. A comprehensive documentation set is included in this distribution; it can be read as described in the installation instructions. The latest version of this software may be obtained at http://www.postgresql.org/download/. For more information look at our web site located at http://www.postgresql.org/.