providers/rxe: Avoid 32-bit overflow when validating inline send length
[ Upstream commit 665294c5a0dfde1b5e8018a065346a1e23bc6ec7 ]
post_one_send() accumulates the total length of all SGEs of a send work
request into an "unsigned int" before passing it to validate_send_wr(),
which rejects inline work requests whose length exceeds sq->max_inline.
Because each ibv_sge.length is a 32-bit value and the number of SGEs is
only bounded by sq->max_sge, the sum can wrap around 2^32. A caller
posting an IBV_SEND_INLINE work request with several SGEs whose real
total exceeds 4 GiB but whose truncated 32-bit sum is <= max_inline
passes the check. init_send_wqe() then copies each SGE into
wqe->dma.inline_data using its real length, writing past the inline area
of the WQE in the mapped send queue and corrupting adjacent WQEs.
Accumulate the length in a 64-bit variable and validate the untruncated
value. Once validate_send_wr() accepts an inline request its length is
<= max_inline, so the subsequent narrowing to the 32-bit dma.length
field is safe.
Fixes: 311e6f0b4 ("Initial version librxe-1.0.0")
Signed-off-by: Yi Liu <liuy22@mails.tsinghua.edu.cn>
Signed-off-by: Nicolas Morey <nmorey@suse.com>
This is the userspace components for the Linux Kernel's drivers/infiniband subsystem. Specifically this contains the userspace libraries for the following device nodes:
The userspace component of the libibverbs RDMA kernel drivers are included under the providers/ directory. Support for the following Kernel RDMA drivers is included:
Additional service daemons are provided for:
This project uses a cmake based build system. Quick start:
$ bash build.sh
build/bin will contain the sample programs and build/lib will contain the shared libraries. The build is configured to run all the programs ‘in-place’ and cannot be installed.
$ apt-get install build-essential cmake gcc libudev-dev libnl-3-dev libnl-route-3-dev ninja-build pkg-config valgrind python3-dev cython3 python3-docutils pandoc
Supported releases:
$ dnf builddep redhat/rdma-core.spec
NOTE: Fedora Core uses the name ‘ninja-build’ for the ‘ninja’ command.
$ zypper install cmake gcc libnl3-devel libudev-devel ninja pkg-config valgrind-devel python3-devel python3-Cython python3-docutils pandoc
Install required packages:
$ yum install cmake gcc libnl3-devel libudev-devel make pkgconfig valgrind-devel
Developers on CentOS 7 or Amazon Linux 2 are suggested to install more modern tooling for the best experience.
CentOS 7:
$ yum install epel-release $ yum install cmake3 ninja-build pandoc
Amazon Linux 2:
$ amazon-linux-extras install epel $ yum install cmake3 ninja-build pandoc
NOTE: EPEL uses the name ‘ninja-build’ for the ‘ninja’ command, and ‘cmake3’ for the ‘cmake’ command.
To set up software RDMA on an existing interface with either of the available drivers, use the following commands, substituting <DRIVER> with the name of the driver of your choice (rdma_rxe or siw) and <TYPE> with the type corresponding to the driver (rxe or siw).
# modprobe <DRIVER> # rdma link add <NAME> type <TYPE> netdev <DEVICE>
Please note that you need version of iproute2 recent enough is required for the command above to work.
You can use either ibv_devices or rdma link to verify that the device was successfully added.
Bugs should be reported to the linux-rdma@vger.kernel.org mailing list In your bug report, please include:
Information about your system:
How to reproduce the bug.
If the bug is a crash, the exact output printed out when the crash occurred, including any kernel messages produced.
See Contributing to rdma-core.
Stable versions are released regularly with backported fixes (see Documentation/stable.md) The current minimum version still maintained is ‘v30.X’