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+================================
+I2C muxes and complex topologies
+================================
+
+There are a couple of reasons for building more complex I2C topologies
+than a straight-forward I2C bus with one adapter and one or more devices.
+
+1. A mux may be needed on the bus to prevent address collisions.
+
+2. The bus may be accessible from some external bus master, and arbitration
+ may be needed to determine if it is ok to access the bus.
+
+3. A device (particularly RF tuners) may want to avoid the digital noise
+ from the I2C bus, at least most of the time, and sits behind a gate
+ that has to be operated before the device can be accessed.
+
+Etc
+===
+
+These constructs are represented as I2C adapter trees by Linux, where
+each adapter has a parent adapter (except the root adapter) and zero or
+more child adapters. The root adapter is the actual adapter that issues
+I2C transfers, and all adapters with a parent are part of an "i2c-mux"
+object (quoted, since it can also be an arbitrator or a gate).
+
+Depending of the particular mux driver, something happens when there is
+an I2C transfer on one of its child adapters. The mux driver can
+obviously operate a mux, but it can also do arbitration with an external
+bus master or open a gate. The mux driver has two operations for this,
+select and deselect. select is called before the transfer and (the
+optional) deselect is called after the transfer.
+
+
+Locking
+=======
+
+There are two variants of locking available to I2C muxes, they can be
+mux-locked or parent-locked muxes. As is evident from below, it can be
+useful to know if a mux is mux-locked or if it is parent-locked. The
+following list was correct at the time of writing:
+
+In drivers/i2c/muxes/:
+
+====================== =============================================
+i2c-arb-gpio-challenge Parent-locked
+i2c-mux-gpio Normally parent-locked, mux-locked iff
+ all involved gpio pins are controlled by the
+ same I2C root adapter that they mux.
+i2c-mux-gpmux Normally parent-locked, mux-locked iff
+ specified in device-tree.
+i2c-mux-ltc4306 Mux-locked
+i2c-mux-mlxcpld Parent-locked
+i2c-mux-pca9541 Parent-locked
+i2c-mux-pca954x Parent-locked
+i2c-mux-pinctrl Normally parent-locked, mux-locked iff
+ all involved pinctrl devices are controlled
+ by the same I2C root adapter that they mux.
+i2c-mux-reg Parent-locked
+====================== =============================================
+
+In drivers/iio/:
+
+====================== =============================================
+gyro/mpu3050 Mux-locked
+imu/inv_mpu6050/ Mux-locked
+====================== =============================================
+
+In drivers/media/:
+
+======================= =============================================
+dvb-frontends/lgdt3306a Mux-locked
+dvb-frontends/m88ds3103 Parent-locked
+dvb-frontends/rtl2830 Parent-locked
+dvb-frontends/rtl2832 Mux-locked
+dvb-frontends/si2168 Mux-locked
+usb/cx231xx/ Parent-locked
+======================= =============================================
+
+
+Mux-locked muxes
+----------------
+
+Mux-locked muxes does not lock the entire parent adapter during the
+full select-transfer-deselect transaction, only the muxes on the parent
+adapter are locked. Mux-locked muxes are mostly interesting if the
+select and/or deselect operations must use I2C transfers to complete
+their tasks. Since the parent adapter is not fully locked during the
+full transaction, unrelated I2C transfers may interleave the different
+stages of the transaction. This has the benefit that the mux driver
+may be easier and cleaner to implement, but it has some caveats.
+
+==== =====================================================================
+ML1. If you build a topology with a mux-locked mux being the parent
+ of a parent-locked mux, this might break the expectation from the
+ parent-locked mux that the root adapter is locked during the
+ transaction.
+
+ML2. It is not safe to build arbitrary topologies with two (or more)
+ mux-locked muxes that are not siblings, when there are address
+ collisions between the devices on the child adapters of these
+ non-sibling muxes.
+
+ I.e. the select-transfer-deselect transaction targeting e.g. device
+ address 0x42 behind mux-one may be interleaved with a similar
+ operation targeting device address 0x42 behind mux-two. The
+ intension with such a topology would in this hypothetical example
+ be that mux-one and mux-two should not be selected simultaneously,
+ but mux-locked muxes do not guarantee that in all topologies.
+
+ML3. A mux-locked mux cannot be used by a driver for auto-closing
+ gates/muxes, i.e. something that closes automatically after a given
+ number (one, in most cases) of I2C transfers. Unrelated I2C transfers
+ may creep in and close prematurely.
+
+ML4. If any non-I2C operation in the mux driver changes the I2C mux state,
+ the driver has to lock the root adapter during that operation.
+ Otherwise garbage may appear on the bus as seen from devices
+ behind the mux, when an unrelated I2C transfer is in flight during
+ the non-I2C mux-changing operation.
+==== =====================================================================
+
+
+Mux-locked Example
+------------------
+
+
+::
+
+ .----------. .--------.
+ .--------. | mux- |-----| dev D1 |
+ | root |--+--| locked | '--------'
+ '--------' | | mux M1 |--. .--------.
+ | '----------' '--| dev D2 |
+ | .--------. '--------'
+ '--| dev D3 |
+ '--------'
+
+When there is an access to D1, this happens:
+
+ 1. Someone issues an I2C transfer to D1.
+ 2. M1 locks muxes on its parent (the root adapter in this case).
+ 3. M1 calls ->select to ready the mux.
+ 4. M1 (presumably) does some I2C transfers as part of its select.
+ These transfers are normal I2C transfers that locks the parent
+ adapter.
+ 5. M1 feeds the I2C transfer from step 1 to its parent adapter as a
+ normal I2C transfer that locks the parent adapter.
+ 6. M1 calls ->deselect, if it has one.
+ 7. Same rules as in step 4, but for ->deselect.
+ 8. M1 unlocks muxes on its parent.
+
+This means that accesses to D2 are lockout out for the full duration
+of the entire operation. But accesses to D3 are possibly interleaved
+at any point.
+
+
+Parent-locked muxes
+-------------------
+
+Parent-locked muxes lock the parent adapter during the full select-
+transfer-deselect transaction. The implication is that the mux driver
+has to ensure that any and all I2C transfers through that parent
+adapter during the transaction are unlocked I2C transfers (using e.g.
+__i2c_transfer), or a deadlock will follow. There are a couple of
+caveats.
+
+==== ====================================================================
+PL1. If you build a topology with a parent-locked mux being the child
+ of another mux, this might break a possible assumption from the
+ child mux that the root adapter is unused between its select op
+ and the actual transfer (e.g. if the child mux is auto-closing
+ and the parent mux issues I2C transfers as part of its select).
+ This is especially the case if the parent mux is mux-locked, but
+ it may also happen if the parent mux is parent-locked.
+
+PL2. If select/deselect calls out to other subsystems such as gpio,
+ pinctrl, regmap or iio, it is essential that any I2C transfers
+ caused by these subsystems are unlocked. This can be convoluted to
+ accomplish, maybe even impossible if an acceptably clean solution
+ is sought.
+==== ====================================================================
+
+
+Parent-locked Example
+---------------------
+
+::
+
+ .----------. .--------.
+ .--------. | parent- |-----| dev D1 |
+ | root |--+--| locked | '--------'
+ '--------' | | mux M1 |--. .--------.
+ | '----------' '--| dev D2 |
+ | .--------. '--------'
+ '--| dev D3 |
+ '--------'
+
+When there is an access to D1, this happens:
+
+ 1. Someone issues an I2C transfer to D1.
+ 2. M1 locks muxes on its parent (the root adapter in this case).
+ 3. M1 locks its parent adapter.
+ 4. M1 calls ->select to ready the mux.
+ 5. If M1 does any I2C transfers (on this root adapter) as part of
+ its select, those transfers must be unlocked I2C transfers so
+ that they do not deadlock the root adapter.
+ 6. M1 feeds the I2C transfer from step 1 to the root adapter as an
+ unlocked I2C transfer, so that it does not deadlock the parent
+ adapter.
+ 7. M1 calls ->deselect, if it has one.
+ 8. Same rules as in step 5, but for ->deselect.
+ 9. M1 unlocks its parent adapter.
+ 10. M1 unlocks muxes on its parent.
+
+
+This means that accesses to both D2 and D3 are locked out for the full
+duration of the entire operation.
+
+
+Complex Examples
+================
+
+Parent-locked mux as parent of parent-locked mux
+------------------------------------------------
+
+This is a useful topology, but it can be bad::
+
+ .----------. .----------. .--------.
+ .--------. | parent- |-----| parent- |-----| dev D1 |
+ | root |--+--| locked | | locked | '--------'
+ '--------' | | mux M1 |--. | mux M2 |--. .--------.
+ | '----------' | '----------' '--| dev D2 |
+ | .--------. | .--------. '--------'
+ '--| dev D4 | '--| dev D3 |
+ '--------' '--------'
+
+When any device is accessed, all other devices are locked out for
+the full duration of the operation (both muxes lock their parent,
+and specifically when M2 requests its parent to lock, M1 passes
+the buck to the root adapter).
+
+This topology is bad if M2 is an auto-closing mux and M1->select
+issues any unlocked I2C transfers on the root adapter that may leak
+through and be seen by the M2 adapter, thus closing M2 prematurely.
+
+
+Mux-locked mux as parent of mux-locked mux
+------------------------------------------
+
+This is a good topology::
+
+ .----------. .----------. .--------.
+ .--------. | mux- |-----| mux- |-----| dev D1 |
+ | root |--+--| locked | | locked | '--------'
+ '--------' | | mux M1 |--. | mux M2 |--. .--------.
+ | '----------' | '----------' '--| dev D2 |
+ | .--------. | .--------. '--------'
+ '--| dev D4 | '--| dev D3 |
+ '--------' '--------'
+
+When device D1 is accessed, accesses to D2 are locked out for the
+full duration of the operation (muxes on the top child adapter of M1
+are locked). But accesses to D3 and D4 are possibly interleaved at
+any point. Accesses to D3 locks out D1 and D2, but accesses to D4
+are still possibly interleaved.
+
+
+Mux-locked mux as parent of parent-locked mux
+---------------------------------------------
+
+This is probably a bad topology::
+
+ .----------. .----------. .--------.
+ .--------. | mux- |-----| parent- |-----| dev D1 |
+ | root |--+--| locked | | locked | '--------'
+ '--------' | | mux M1 |--. | mux M2 |--. .--------.
+ | '----------' | '----------' '--| dev D2 |
+ | .--------. | .--------. '--------'
+ '--| dev D4 | '--| dev D3 |
+ '--------' '--------'
+
+When device D1 is accessed, accesses to D2 and D3 are locked out
+for the full duration of the operation (M1 locks child muxes on the
+root adapter). But accesses to D4 are possibly interleaved at any
+point.
+
+This kind of topology is generally not suitable and should probably
+be avoided. The reason is that M2 probably assumes that there will
+be no I2C transfers during its calls to ->select and ->deselect, and
+if there are, any such transfers might appear on the slave side of M2
+as partial I2C transfers, i.e. garbage or worse. This might cause
+device lockups and/or other problems.
+
+The topology is especially troublesome if M2 is an auto-closing
+mux. In that case, any interleaved accesses to D4 might close M2
+prematurely, as might any I2C transfers part of M1->select.
+
+But if M2 is not making the above stated assumption, and if M2 is not
+auto-closing, the topology is fine.
+
+
+Parent-locked mux as parent of mux-locked mux
+---------------------------------------------
+
+This is a good topology::
+
+ .----------. .----------. .--------.
+ .--------. | parent- |-----| mux- |-----| dev D1 |
+ | root |--+--| locked | | locked | '--------'
+ '--------' | | mux M1 |--. | mux M2 |--. .--------.
+ | '----------' | '----------' '--| dev D2 |
+ | .--------. | .--------. '--------'
+ '--| dev D4 | '--| dev D3 |
+ '--------' '--------'
+
+When D1 is accessed, accesses to D2 are locked out for the full
+duration of the operation (muxes on the top child adapter of M1
+are locked). Accesses to D3 and D4 are possibly interleaved at
+any point, just as is expected for mux-locked muxes.
+
+When D3 or D4 are accessed, everything else is locked out. For D3
+accesses, M1 locks the root adapter. For D4 accesses, the root
+adapter is locked directly.
+
+
+Two mux-locked sibling muxes
+----------------------------
+
+This is a good topology::
+
+ .--------.
+ .----------. .--| dev D1 |
+ | mux- |--' '--------'
+ .--| locked | .--------.
+ | | mux M1 |-----| dev D2 |
+ | '----------' '--------'
+ | .----------. .--------.
+ .--------. | | mux- |-----| dev D3 |
+ | root |--+--| locked | '--------'
+ '--------' | | mux M2 |--. .--------.
+ | '----------' '--| dev D4 |
+ | .--------. '--------'
+ '--| dev D5 |
+ '--------'
+
+When D1 is accessed, accesses to D2, D3 and D4 are locked out. But
+accesses to D5 may be interleaved at any time.
+
+
+Two parent-locked sibling muxes
+-------------------------------
+
+This is a good topology::
+
+ .--------.
+ .----------. .--| dev D1 |
+ | parent- |--' '--------'
+ .--| locked | .--------.
+ | | mux M1 |-----| dev D2 |
+ | '----------' '--------'
+ | .----------. .--------.
+ .--------. | | parent- |-----| dev D3 |
+ | root |--+--| locked | '--------'
+ '--------' | | mux M2 |--. .--------.
+ | '----------' '--| dev D4 |
+ | .--------. '--------'
+ '--| dev D5 |
+ '--------'
+
+When any device is accessed, accesses to all other devices are locked
+out.
+
+
+Mux-locked and parent-locked sibling muxes
+------------------------------------------
+
+This is a good topology::
+
+ .--------.
+ .----------. .--| dev D1 |
+ | mux- |--' '--------'
+ .--| locked | .--------.
+ | | mux M1 |-----| dev D2 |
+ | '----------' '--------'
+ | .----------. .--------.
+ .--------. | | parent- |-----| dev D3 |
+ | root |--+--| locked | '--------'
+ '--------' | | mux M2 |--. .--------.
+ | '----------' '--| dev D4 |
+ | .--------. '--------'
+ '--| dev D5 |
+ '--------'
+
+When D1 or D2 are accessed, accesses to D3 and D4 are locked out while
+accesses to D5 may interleave. When D3 or D4 are accessed, accesses to
+all other devices are locked out.