5cb23af389
Correct to "stretched" from "streched" in "keeps clock streched on bus A waiting for reply". Signed-off-by: Attreyee Mukherjee <tintinm2017@gmail.com> Acked-by: Randy Dunlap <rdunlap@infradead.org> Signed-off-by: Wolfram Sang <wsa@kernel.org>
97 lines
3.4 KiB
ReStructuredText
97 lines
3.4 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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=======================
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I2C Address Translators
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=======================
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Author: Luca Ceresoli <luca@lucaceresoli.net>
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Author: Tomi Valkeinen <tomi.valkeinen@ideasonboard.com>
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Description
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-----------
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An I2C Address Translator (ATR) is a device with an I2C slave parent
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("upstream") port and N I2C master child ("downstream") ports, and
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forwards transactions from upstream to the appropriate downstream port
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with a modified slave address. The address used on the parent bus is
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called the "alias" and is (potentially) different from the physical
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slave address of the child bus. Address translation is done by the
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hardware.
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An ATR looks similar to an i2c-mux except:
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- the address on the parent and child busses can be different
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- there is normally no need to select the child port; the alias used on the
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parent bus implies it
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The ATR functionality can be provided by a chip with many other features.
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The kernel i2c-atr provides a helper to implement an ATR within a driver.
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The ATR creates a new I2C "child" adapter on each child bus. Adding
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devices on the child bus ends up in invoking the driver code to select
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an available alias. Maintaining an appropriate pool of available aliases
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and picking one for each new device is up to the driver implementer. The
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ATR maintains a table of currently assigned alias and uses it to modify
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all I2C transactions directed to devices on the child buses.
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A typical example follows.
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Topology::
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Slave X @ 0x10
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.-----. |
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.-----. | |---+---- B
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| CPU |--A--| ATR |
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`-----' | |---+---- C
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`-----' |
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Slave Y @ 0x10
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Alias table:
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A, B and C are three physical I2C busses, electrically independent from
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each other. The ATR receives the transactions initiated on bus A and
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propagates them on bus B or bus C or none depending on the device address
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in the transaction and based on the alias table.
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Alias table:
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.. table::
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=============== =====
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Client Alias
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=============== =====
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X (bus B, 0x10) 0x20
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Y (bus C, 0x10) 0x30
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=============== =====
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Transaction:
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- Slave X driver requests a transaction (on adapter B), slave address 0x10
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- ATR driver finds slave X is on bus B and has alias 0x20, rewrites
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messages with address 0x20, forwards to adapter A
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- Physical I2C transaction on bus A, slave address 0x20
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- ATR chip detects transaction on address 0x20, finds it in table,
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propagates transaction on bus B with address translated to 0x10,
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keeps clock stretched on bus A waiting for reply
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- Slave X chip (on bus B) detects transaction at its own physical
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address 0x10 and replies normally
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- ATR chip stops clock stretching and forwards reply on bus A,
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with address translated back to 0x20
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- ATR driver receives the reply, rewrites messages with address 0x10
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as they were initially
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- Slave X driver gets back the msgs[], with reply and address 0x10
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Usage:
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1. In the driver (typically in the probe function) add an ATR by
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calling i2c_atr_new() passing attach/detach callbacks
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2. When the attach callback is called pick an appropriate alias,
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configure it in the chip and return the chosen alias in the
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alias_id parameter
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3. When the detach callback is called, deconfigure the alias from
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the chip and put the alias back in the pool for later usage
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I2C ATR functions and data structures
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-------------------------------------
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.. kernel-doc:: include/linux/i2c-atr.h
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