291 lines
12 KiB
Plaintext
291 lines
12 KiB
Plaintext
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----Introduction----
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Usually I2C adapters are implemented in a kernel driver. It is also possible to
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implement an adapter in userspace, through the /dev/i2c-pseudo-controller
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interface. Load module i2c-pseudo for this.
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Use cases for this module include:
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[A] Using local I2C device drivers, particularly i2c-dev, with I2C busses on
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remote systems. For example, interacting with a Device Under Test (DUT)
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connected to a Linux host through a debug interface, or interacting with a
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remote host over a network.
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[B] Support I2C device driver tests that are too complex for the i2c-stub
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module. For example, when simulating an I2C device where its driver might
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issue a sequence of reads and writes without interruption, and the value a
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certain address must change during the sequence.
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Any possible use case could of course be implemented as a kernel driver.
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However, it can be much faster and easier to implement such things in userspace,
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thanks to the far greater code reuse possibilities (libraries), the plethora of
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programming language options for rapid iteration, and not needing to understand
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how to implement Linux kernel drivers.
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This is not intended to replace kernel drivers for actual I2C busses on the
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local host machine.
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----Details----
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Each time /dev/i2c-pseudo-controller is opened, and the correct initialization
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command is written to it (ADAPTER_START), a new I2C adapter is created. The
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adapter will live until its file descriptor is closed. Multiple pseudo adapters
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can co-exist simultaneously, controlled by the same or different userspace
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processes. When an I2C device driver sends an I2C message to a pseudo adapter,
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the message becomes readable from its file descriptor. If a reply is written
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before the adapter timeout expires, that reply will be sent back to the I2C
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device driver.
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Reads and writes are buffered inside i2c-pseudo such that userspace controllers
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may split them up into arbitrarily small chunks. Multiple commands, or portions
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of multiple commands, may be read or written together.
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Blocking I/O is the default. Non-blocking I/O is supported as well, enabled by
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O_NONBLOCK. Polling is supported, with or without non-blocking I/O. A special
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command (ADAPTER_SHUTDOWN) is available to unblock any pollers or blocked
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reads or writes, as a convenience for a multi-threaded or multi-process program
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that wants to exit.
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It is safe to access a single controller fd from multiple threads or processes
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concurrently, though it is up to the controller to ensure proper ordering, and
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to ensure that writes for different commands do not get interleaved. However,
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it is recommended (not required) that controller implementations have only one
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reader thread and one writer thread, which may or may not be the same thread.
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Avoiding multiple readers and multiple writers greatly simplifies controller
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implementation, and there is likely no performance benefit to be gained from
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concurrent reads or concurrent writes due to how i2c-pseudo serializes them
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internally. After all, on a real I2C bus only one I2C message can be active at
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a time.
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Commands are newline-terminated, both those read from the controller device, and
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those written to it.
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----Read Commands----
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The commands that may be read from a pseudo controller device are:
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Read Command: I2C_ADAPTER_NUM <num>
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Example: "I2C_ADAPTER_NUM 5\n"
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Details: This is read in response to the GET_ADAPTER_NUM command being written.
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The number is the I2C adapter number in decimal. This can only occur after
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ADAPTER_START, because before that the number is not known and cannot be
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predicted reliably.
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Read Command: I2C_PSEUDO_ID <num>
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Example: "I2C_PSEUDO_ID 98\n"
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Details: This is read in response to the GET_PSEUDO_ID command being written.
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The number is the pseudo ID in decimal.
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Read Command: I2C_BEGIN_XFER
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Example: "I2C_BEGIN_XFER\n"
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Details: This indicates the start of an I2C transaction request, in other words
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the start of the I2C messages from a single invocation of the I2C adapter's
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master_xfer() callback. This can only occur after ADAPTER_START.
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Read Command: I2C_XFER_REQ <xfer_id> <msg_id> <addr> <flags> <data_len> [<write_byte>[:...]]
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Example: "I2C_XFER_REQ 3 0 0x0070 0x0000 2 AB:9F\n"
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Example: "I2C_XFER_REQ 3 1 0x0070 0x0001 4\n"
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Details: This is a single I2C message that a device driver requested be sent on
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the bus, in other words a single struct i2c_msg from master_xfer() msgs arg.
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The xfer_id is a number representing the whole I2C transaction, thus all
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I2C_XFER_REQ between a I2C_BEGIN_XFER + I2C_COMMIT_XFER pair share an xfer_id.
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The purpose is to ensure replies from the userspace controller are always
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properly matched to the intended master_xfer() request. The first transaction
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has xfer_id 0, and it increases by 1 with each transaction, however it will
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eventually wrap back to 0 if enough transactions happen during the lifetime of a
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pseudo adapter. It is guaranteed to have a large enough maximum value such that
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there can never be multiple outstanding transactions with the same ID, due to an
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internal limit in i2c-pseudo that will block master_xfer() calls when the
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controller is falling behind in its replies.
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The msg_id is a decimal number representing the index of the I2C message within
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its transaction, in other words the index in master_xfer() *msgs array arg.
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This starts at 0 after each I2C_BEGIN_XFER. This is guaranteed to not wrap.
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The addr is the hexadecimal I2C address for this I2C message.
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The flags are the same bitmask flags used in struct i2c_msg, in hexadecimal
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form. Of particular importance to any pseudo controller is the read bit, which
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is guaranteed to be 0x1 per Linux I2C documentation.
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The data_len is the decimal number of either how many bytes to write that will
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follow, or how many bytes to read and reply with if this is a read request.
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If this is a read, data_len will be the final field in this command. If this is
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a write, data_len will be followed by the given number of colon-separated
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hexadecimal byte values, in the format shown in the example above.
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Read Command: I2C_COMMIT_XFER
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Example: "I2C_COMMIT_XFER\n"
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Details: This indicates the end of an I2C transacton request, in other words the
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end of the I2C messages from a single invocation of the I2C adapter's
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master_xfer() callback. This should be read exactly once after each
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I2C_BEGIN_XFER, with a varying number of I2C_XFER_REQ between them.
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----Write Commands----
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The commands that may be written to a pseudo controller device are:
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Write Command: SET_ADAPTER_NAME_SUFFIX <suffix>
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Example: "SET_ADAPTER_NAME_SUFFIX My Adapter\n"
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Details: Sets a suffix to append to the auto-generated I2C adapter name. Only
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valid before ADAPTER_START. A space or other separator character will be placed
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between the auto-generated name and the suffix, so there is no need to include a
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leading separator in the suffix. If the resulting name is too long for the I2C
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adapter name field, it will be quietly truncated.
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Write Command: SET_ADAPTER_TIMEOUT_MS <ms>
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Example: "SET_ADAPTER_TIMEOUT_MS 2000\n"
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Details: Sets the timeout in milliseconds for each I2C transaction, in other
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words for each master_xfer() reply. Only valid before ADAPTER_START. The I2C
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subsystem will automatically time out transactions based on this setting. Set
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to 0 to use the I2C subsystem default timeout. The default timeout for new
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pseudo adapters where this command has not been used is configurable at
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i2c-pseudo module load time, and itself has a default independent from the I2C
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subsystem default. (Though if the i2c-pseudo module level default is set to 0,
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that has the same meaning as here.)
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Write Command: ADAPTER_START
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Example: "ADAPTER_START\n"
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Details: Tells i2c-pseudo the actually create the I2C adapter. Only valid once
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per open controller fd.
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Write Command: GET_ADAPTER_NUM
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Example: "GET_ADAPTER_NUM\n"
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Details: Asks i2c-pseudo for the number assigned to this I2C adapter by the I2C
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subsystem. Only valid after ADAPTER_START, because before that the number
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is not known and cannot be predicted reliably.
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Write Command: GET_PSEUDO_ID
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Example: "GET_PSEUDO_ID\n"
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Details: Asks i2c-pseudo for the pseudo ID of this I2C adapter. The pseudo ID
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will not be reused for the lifetime of the i2c-pseudo module, unless an internal
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counter wraps. I2C clients can use this to track specific instances of pseudo
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adapters, even when adapter numbers have been reused.
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Write Command: I2C_XFER_REPLY <xfer_id> <msg_id> <addr> <flags> <errno> [<read_byte>[:...]]
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Example: "I2C_XFER_REPLY 3 0 0x0070 0x0000 0\n"
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Example: "I2C_XFER_REPLY 3 1 0x0070 0x0001 0 0B 29 02 D9\n"
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Details: This is how a pseudo controller can reply to I2C_XFER_REQ. Only valid
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after I2C_XFER_REQ. A pseudo controller should write one of these for each
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I2C_XFER_REQ it reads, including for failures, so that I2C device drivers need
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not wait for the adapter timeout upon failure (if failure is known sooner).
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The fields in common with I2C_XFER_REQ have their same meanings, and their
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values are expected to exactly match what was read in the I2C_XFER_REQ command
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that this is in reply to.
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The errno field is how the pseudo controller indicates success or failure for
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this I2C message. A 0 value indicates success. A non-zero value indicates a
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failure. Pseudo controllers are encouraged to use errno values to encode some
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meaning in a failure response, but that is not a requirement, and the I2C
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adapter interface does not provide a way to pass per-message errno values to a
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device driver anyways.
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Pseudo controllers are encouraged to reply in the same order as messages were
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received, however i2c-pseudo will properly match up out-of-order replies with
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their original requests.
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Write Command: ADAPTER_SHUTDOWN
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Example: "ADAPTER_SHUTDOWN\n"
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Details: This tells i2c-pseudo that the pseudo controller wants to shutdown and
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intends to close the controller device fd soon. Use of this is OPTIONAL, it is
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perfectly valid to close the controller device fd without ever using this
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command.
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This commands unblocks any blocked controller I/O (reads, writes, or polls), and
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that is its main purpose.
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Any I2C transactions attempted by a device driver after this command will fail,
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and will not be passed on to the userspace controller.
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This DOES NOT delete the I2C adapter. Only closing the fd will do that. That
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MAY CHANGE in the future, such that this does delete the I2C adapter. (However
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this will never be required, it will always be okay to simply close the fd.)
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----Example userspace controller code----
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In C, a simple exchange between i2c-pseudo and userspace might look like the
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example below. Note that for brevity this lacks any error checking and
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handling, which a real pseudo controller implementation should have.
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int fd;
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char buf[1<<12];
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fd = open("/dev/i2c-pseudo-controller", O_RDWR);
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/* Create the I2C adapter. */
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dprintf(fd, "ADAPTER_START\n");
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/*
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* Pretend this I2C adapter number is 5, and the first I2C xfer sent to it was
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* from this command (using its i2c-dev interface):
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* $ i2cset -y 5 0x70 0xC2
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*
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* Then this read would place the following into *buf:
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* "I2C_BEGIN_XFER\n"
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* "I2C_XFER_REQ 0 0 0x0070 0x0000 1 C2\n"
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* "I2C_COMMIT_XFER\n"
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*/
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read(fd, buf, sizeof(buf));
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/* This reply would allow the i2cset command above to exit successfully. */
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dprintf(fd, "I2C_XFER_REPLY 0 0 0x0070 0x0000 0\n");
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/*
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* Now pretend the next I2C xfer sent to this adapter was from:
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* $ i2cget -y 5 0x70 0xAB
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*
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* Then this read would place the following into *buf:
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* "I2C_BEGIN_XFER\n"
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* "I2C_XFER_REQ 1 0 0x0070 0x0000 1 AB\n"
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* "I2C_XFER_REQ 1 1 0x0070 0x0001 1\n'"
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* "I2C_COMMIT_XFER\n"
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*/
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read(fd, buf, sizeof(buf));
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/*
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* These replies would allow the i2cget command above to print the following to
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* stdout and exit successfully:
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* 0x0b
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*
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* Note that it is also valid to write these together in one write().
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*/
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dprintf(fd, "I2C_XFER_REPLY 3 0 0x0070 0x0000 0\n"
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dprintf(fd, "I2C_XFER_REPLY 3 1 0x0070 0x0001 0 0B\n");
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/* Destroy the I2C adapter. */
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close(fd);
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