ryantimwilson / rpms / systemd

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From bc2d7df4fc21e9e54413169d5aad21616314d65e Mon Sep 17 00:00:00 2001
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From: Lennart Poettering <lennart@poettering.net>
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Date: Thu, 17 Jan 2019 18:18:54 +0100
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Subject: [PATCH] bus-message: introduce two kinds of references to bus
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 messages
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Before this commit bus messages had a single reference count: when it
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reached zero the message would be freed. This simple approach meant a
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cyclic dependency was typically seen: a message that was enqueued in a
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bus connection object would reference the bus connection object but also
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itself be referenced by the bus connection object. So far out strategy
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to avoid cases like this was: make sure to process the bus connection
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regularly so that messages don#t stay queued, and at exit flush/close
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the connection so that the message queued would be emptied, and thus the
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cyclic dependencies resolved. Im many cases this isn't done properly
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however.
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With this change, let's address the issue more systematically: let's
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break the reference cycle. Specifically, there are now two types of
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references to a bus message:
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1. A regular one, which keeps both the message and the bus object it is
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   associated with pinned.
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2. A "queue" reference, which is weaker: it pins the message, but not
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   the bus object it is associated with.
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The idea is then that regular user handling uses regular references, but
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when a message is enqueued on its connection, then this takes a "queue"
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reference instead. This then means that a queued message doesn't imply
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the connection itself remains pinned, only regular references to the
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connection or a message associated with it do. Thus, if we end up in the
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situation where a user allocates a bus and a message and enqueues the
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latter in the former and drops all refs to both, then this will detect
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this case and free both.
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Note that this scheme isn't perfect, it only covers references between
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messages and the busses they are associated with. If OTOH a bus message
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is enqueued on a different bus than it is associated with cyclic deps
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cannot be recognized with this simple algorithm, and thus if you enqueue
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a message associated with a bus A on a bus B, and another message
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associated with bus B on a bus A, a cyclic ref will be in effect and not
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be discovered. However, given that this is an exotic case (though one
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that happens, consider systemd-bus-stdio-bridge), it should be OK not to
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cover with this, and people have to explicit flush all queues on exit in
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that case.
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Note that this commit only establishes the separate reference counters
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per message. A follow-up commit will start making use of this from the
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bus connection object.
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(cherry picked from commit 1b3f9dd759ca0ea215e7b89f8ce66d1b724497b9)
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Related: CVE-2020-1712
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---
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 src/libsystemd/sd-bus/bus-message.c | 60 ++++++++++++++++++++++++++---
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 src/libsystemd/sd-bus/bus-message.h | 14 ++++++-
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 2 files changed, 68 insertions(+), 6 deletions(-)
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diff --git a/src/libsystemd/sd-bus/bus-message.c b/src/libsystemd/sd-bus/bus-message.c
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index 306b6d6816..7fe8929f82 100644
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--- a/src/libsystemd/sd-bus/bus-message.c
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+++ b/src/libsystemd/sd-bus/bus-message.c
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@@ -120,7 +120,8 @@ static sd_bus_message* message_free(sd_bus_message *m) {
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         message_reset_parts(m);
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-        sd_bus_unref(m->bus);
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+        /* Note that we don't unref m->bus here. That's already done by sd_bus_message_unref() as each user
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+         * reference to the bus message also is considered a reference to the bus connection itself. */
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         if (m->free_fds) {
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                 close_many(m->fds, m->n_fds);
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@@ -893,27 +894,76 @@ int bus_message_new_synthetic_error(
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 }
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 _public_ sd_bus_message* sd_bus_message_ref(sd_bus_message *m) {
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-
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         if (!m)
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                 return NULL;
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-        assert(m->n_ref > 0);
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+        /* We are fine if this message so far was either explicitly reffed or not reffed but queued into at
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+         * least one bus connection object. */
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+        assert(m->n_ref > 0 || m->n_queued > 0);
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+
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         m->n_ref++;
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+        /* Each user reference to a bus message shall also be considered a ref on the bus */
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+        sd_bus_ref(m->bus);
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         return m;
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 }
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 _public_ sd_bus_message* sd_bus_message_unref(sd_bus_message *m) {
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-
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         if (!m)
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                 return NULL;
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         assert(m->n_ref > 0);
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+
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+        sd_bus_unref(m->bus); /* Each regular ref is also a ref on the bus connection. Let's hence drop it
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+                               * here. Note we have to do this before decrementing our own n_ref here, since
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+                               * otherwise, if this message is currently queued sd_bus_unref() might call
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+                               * bus_message_unref_queued() for this which might then destroy the message
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+                               * while we are still processing it. */
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         m->n_ref--;
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-        if (m->n_ref > 0)
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+        if (m->n_ref > 0 || m->n_queued > 0)
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                 return NULL;
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+        /* Unset the bus field if neither the user has a reference nor this message is queued. We are careful
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+         * to reset the field only after the last reference to the bus is dropped, after all we might keep
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+         * multiple references to the bus, once for each reference kept on outselves. */
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+        m->bus = NULL;
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+
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+        return message_free(m);
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+}
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+
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+sd_bus_message* bus_message_ref_queued(sd_bus_message *m, sd_bus *bus) {
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+        if (!m)
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+                return NULL;
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+
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+        /* If this is a different bus than the message is associated with, then implicitly turn this into a
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+         * regular reference. This means that you can create a memory leak by enqueuing a message generated
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+         * on one bus onto another at the same time as enqueueing a message from the second one on the first,
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+         * as we'll not detect the cyclic references there. */
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+        if (bus != m->bus)
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+                return sd_bus_message_ref(m);
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+
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+        assert(m->n_ref > 0 || m->n_queued > 0);
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+        m->n_queued++;
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+
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+        return m;
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+}
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+
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+sd_bus_message* bus_message_unref_queued(sd_bus_message *m, sd_bus *bus) {
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+        if (!m)
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+                return NULL;
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+
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+        if (bus != m->bus)
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+                return sd_bus_message_unref(m);
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+
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+        assert(m->n_queued > 0);
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+        m->n_queued--;
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+
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+        if (m->n_ref > 0 || m->n_queued > 0)
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+                return NULL;
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+
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+        m->bus = NULL;
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+
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         return message_free(m);
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 }
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diff --git a/src/libsystemd/sd-bus/bus-message.h b/src/libsystemd/sd-bus/bus-message.h
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index 97f6060e30..ded88005e2 100644
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--- a/src/libsystemd/sd-bus/bus-message.h
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+++ b/src/libsystemd/sd-bus/bus-message.h
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@@ -51,7 +51,16 @@ struct bus_body_part {
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 };
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 struct sd_bus_message {
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-        unsigned n_ref;
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+        /* Caveat: a message can be referenced in two different ways: the main (user-facing) way will also
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+         * pin the bus connection object the message is associated with. The secondary way ("queued") is used
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+         * when a message is in the read or write queues of the bus connection object, which will not pin the
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+         * bus connection object. This is necessary so that we don't have to have a pair of cyclic references
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+         * between a message that is queued and its connection: as soon as a message is only referenced by
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+         * the connection (by means of being queued) and the connection itself has no other references it
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+         * will be freed. */
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+
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+        unsigned n_ref;     /* Counter of references that pin the connection */
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+        unsigned n_queued;  /* Counter of references that do not pin the connection */
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         sd_bus *bus;
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@@ -216,3 +225,6 @@ int bus_message_append_sender(sd_bus_message *m, const char *sender);
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 void bus_message_set_sender_driver(sd_bus *bus, sd_bus_message *m);
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 void bus_message_set_sender_local(sd_bus *bus, sd_bus_message *m);
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+
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+sd_bus_message* bus_message_ref_queued(sd_bus_message *m, sd_bus *bus);
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+sd_bus_message* bus_message_unref_queued(sd_bus_message *m, sd_bus *bus);