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Subject[RELEASE] LTTng-modules 2.13.7, 2.12.11 and LTTng-UST 2.13.5, 2.12.7
Hi,

These bug fix releases of the LTTng kernel and user-space tracers
contain security fixes which address memory disclosure and denial of
service issues. Those are of relatively low severity mainly because they
involve specific uses of the tracer by users that belong to the
`tracing` group.

Here is the explanation of the impact for each issue corrected. The
issues that have a security impact are tagged with [security].

The issues that were corrected in LTTng 2.12 were likely present in
older versions, which are not maintained anymore. All users of
LTTng-modules and LTTng-UST should upgrade.

* Kernel tracer (LTTng-modules) 2.13.7:

[security] A user belonging to the `tracing` group can use the event
notification capture or the filtering features to target a userspace
string (e.g. pathname input field of the openat system call) while any
user on the system feeds an invalid pointer or a pointer to kernel
memory to the instrumented system call. This results in a kernel OOPS in
case of an invalid pointer, or disclosure of kernel memory to the
tracing group if the pointer targets a kernel memory address. This is
corrected by properly keeping track of user pointers and using the
appropriate methods to access userspace memory.

[security] A user belonging to the `tracing` group can use the event
notification capture or the filtering features to target a userspace
array of integers (e.g. fildes output field of the pipe2 system call)
while any user on the system feeds an invalid pointer or a pointer to
kernel memory to the instrumented system call. This results in a kernel
OOPS in case of an invalid pointer, or disclosure of kernel memory to
the tracing group if the pointer targets a kernel memory address. This
is corrected by properly keeping track of user pointers and using the
appropriate methods to access userspace memory.

[security] A `tracing` group user crafting an ill-intended event
notification capture or filter bytecode can emit load and load-field-ref
instructions which are already specialized for the wrong field type,
thus bypassing the instruction selection performed by the bytecode
linker and bytecode specialization phases. When combined with passing
invalid or kernel memory pointers to userspace memory arguments (e.g.
pathname input field of openat or fildes output field of pipe2), this
can result in a kernel OOPS in case of an invalid pointer, or a
disclosure of kernel memory to the tracing group if the pointer targets
a kernel memory address. This is corrected by rejecting specialized load
and load-field-ref instructions in the bytecode validation phase.

Event notification capture fields that end up using more than 512 bytes
of msgpack buffer space for a single event notification emit warnings in
the kernel console and result in a corrupted msgpack buffer. This is
fixed by emitting a "NIL" msgpack field rather than the field that would
require too much space.

When an event notification capture for a userspace string or a userspace
integer triggers a page fault, emit a "NIL" msgpack field rather than an
empty string or a zero-value integer.

Fix a kernel OOPS on powerpc64 when the lttng_tracer module initializes,
because the do_get_kallsyms LTTng wrapper returns the address of the
local entry point rather than the global entry point. This is corrected
by adjusting the offset (+4 and then -4) to get the global entry point
on PPC64_ELF_ABI_v2.


* Kernel tracer (LTTng-modules) 2.12.11:

[security] A user belonging to the `tracing` group can use the filtering
feature to target a userspace array of integers (e.g. fildes output
field of the pipe2 system call) while any user on the system feeds an
invalid pointer or a pointer to kernel memory to the instrumented system
call. This results in a kernel OOPS in case of an invalid pointer, or
disclosure of kernel memory to the tracing group if the pointer targets
a kernel memory address. This is corrected by properly keeping track of
user pointers and using the appropriate methods to access userspace memory.

[security] A `tracing` group user crafting an ill-intended filter
bytecode can emit load and load-field-ref instructions which are already
specialized for the wrong field type, thus bypassing the instruction
selection performed by the bytecode linker and bytecode specialization
phases. When combined with passing invalid or kernel memory pointers to
userspace memory arguments (e.g. pathname input field of openat or
fildes output field of pipe2), this can result in a kernel OOPS in case
of an invalid pointer, or a disclosure of kernel memory to the tracing
group if the pointer targets a kernel memory address. This is corrected
by rejecting specialized load and load-field-ref instructions in the
bytecode validation phase.

Fix a kernel OOPS on powerpc64 when the lttng_tracer module initializes,
because the do_get_kallsyms LTTng wrapper returns the address of the
local entry point rather than the global entry point. This is corrected
by adjusting the offset (+4 and then -4) to get the global entry point
on PPC64_ELF_ABI_v2.

The filter bytecode interpreter leaves context field byte order
uninitialized, which can cause erratic filtering behavior when targeting
context fields. This is not currently observable because current
lttng-tools do not currently emit BYTECODE_OP_GET_SYMBOL instructions to
load the context value for filtering. Fix this by initializing the byte
order field.


* Application tracer (LTTng-UST) 2.13.5:

[security] A `tracing` group user crafting an ill-intended event
notification capture or filter bytecode can emit load and load-field-ref
instructions which are already specialized for the wrong field type,
thus bypassing the instruction selection performed by the bytecode
linker and bytecode specialization phases. This can result in a
disclosure of application memory to the tracing group if the type
expected by the instrumentation is larger than the instrumented type, or
application crash if a string is expected but the top of interpreter
stack does not point to a valid address. This is corrected by rejecting
specialized load and load-field-ref instructions in the bytecode
validation phase.

Event notification capture fields that end up using more than the number
of bytes allocated for the msgpack buffer space for a single event
notification can cause the resulting msgpack buffer to be corrupted.
This is fixed by emitting a "NIL" msgpack field rather than the field
that would require too much space.

When getting the shared memory area at initialization time, wait(3) is
used to wait on the forked child process to exit, which can cause the
library to wait on any child process of the application. Use waitpid(3)
instead to make sure the right child is waited for, and therefore don't
wait for unrelated, unreaped, child processes.


* Application tracer (LTTng-UST) 2.12.7:

[security] A `tracing` group user crafting an ill-intended event
notification capture or filter bytecode can emit load and load-field-ref
instructions which are already specialized for the wrong field type,
thus bypassing the instruction selection performed by the bytecode
linker and bytecode specialization phases. This can result in a
disclosure of application memory to the tracing group if the type
expected by the instrumentation is larger than the instrumented type, or
application crash if a string is expected but the top of interpreter
stack does not point to a valid address. This is corrected by rejecting
specialized load and load-field-ref instructions in the bytecode
validation phase.

When getting the shared memory area at initialization time, wait(3) is
used to wait on the forked child process to exit, which can cause the
library to wait on any child process of the application. Use waitpid(3)
instead to make sure the right child is waited for, and therefore don't
wait for unrelated, unreaped, child processes.

Project website: https://lttng.org
Documentation: https://lttng.org/docs
Download link: https://lttng.org/download

--
Mathieu Desnoyers
EfficiOS Inc.
https://www.efficios.com

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