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I2C

Overview

Note

Zephyr recognizes the need to change the terms “master” and “slave” used in the current I2C Specification. This will be done when the conditions identified in Rule A.2: Inclusive Language have been met. Existing documentation, data structures, functions, and value symbols in code are likely to change at that point.

I2C (Inter-Integrated Circuit, pronounced “eye squared see”) is a commonly-used two-signal shared peripheral interface bus. Many system-on-chip solutions provide controllers that communicate on an I2C bus. Devices on the bus can operate in two roles: as a “master” that initiates transactions and controls the clock, or as a “slave” that responds to transaction commands. A I2C controller on a given SoC will generally support the master role, and some will also support the slave mode. Zephyr has API for both roles.

I2C Master API

Zephyr’s I2C master API is used when an I2C peripheral controls the bus, in particularly the start and stop conditions and the clock. This is the most common mode, used to interact with I2C devices like sensors and serial memory.

This API is supported in all in-tree I2C peripheral drivers and is considered stable.

I2C Slave API

Zephyr’s I2C slave API is used when an I2C peripheral responds to transactions initiated by a different controller on the bus. It might be used for a Zephyr application with transducer roles that are controlled by another device such as a host processor.

This API is supported in very few in-tree I2C peripheral drivers. The API is considered experimental, as it is not compatible with the capabilities of all I2C peripherals supported in master mode.

Configuration Options

Related configuration options:

API Reference

group i2c_interface

I2C Interface.

Defines

I2C_SPEED_STANDARD

I2C Standard Speed: 100 kHz

I2C_SPEED_FAST

I2C Fast Speed: 400 kHz

I2C_SPEED_FAST_PLUS

I2C Fast Plus Speed: 1 MHz

I2C_SPEED_HIGH

I2C High Speed: 3.4 MHz

I2C_SPEED_ULTRA

I2C Ultra Fast Speed: 5 MHz

I2C_SPEED_SHIFT
I2C_SPEED_SET(speed)
I2C_SPEED_MASK
I2C_SPEED_GET(cfg)
I2C_ADDR_10_BITS

Use 10-bit addressing. DEPRECATED - Use I2C_MSG_ADDR_10_BITS instead.

I2C_MODE_MASTER

Controller to act as Master.

I2C_DT_SPEC_GET(node_id)

Structure initializer for i2c_dt_spec from devicetree.

This helper macro expands to a static initializer for a struct i2c_dt_spec by reading the relevant bus and address data from the devicetree.

Parameters
  • node_id – Devicetree node identifier for the I2C device whose struct i2c_dt_spec to create an initializer for

I2C_DT_SPEC_INST_GET(inst)

Structure initializer for i2c_dt_spec from devicetree instance.

This is equivalent to I2C_DT_SPEC_GET(DT_DRV_INST(inst)).

Parameters
  • inst – Devicetree instance number

I2C_MSG_WRITE

Write message to I2C bus.

I2C_MSG_READ

Read message from I2C bus.

I2C_MSG_STOP

Send STOP after this message.

I2C_MSG_RESTART

RESTART I2C transaction for this message.

Note

Not all I2C drivers have or require explicit support for this feature. Some drivers require this be present on a read message that follows a write, or vice-versa. Some drivers will merge adjacent fragments into a single transaction using this flag; some will not.

I2C_MSG_ADDR_10_BITS

Use 10-bit addressing for this message.

Note

Not all SoC I2C implementations support this feature.

I2C_SLAVE_FLAGS_ADDR_10_BITS

Slave device responds to 10-bit addressing.

I2C_DECLARE_CLIENT_CONFIG
I2C_CLIENT(_master, _addr)
I2C_GET_MASTER(_conf)
I2C_GET_ADDR(_conf)

Typedefs

typedef int (*i2c_slave_write_requested_cb_t)(struct i2c_slave_config *config)

Function called when a write to the device is initiated.

This function is invoked by the controller when the bus completes a start condition for a write operation to the address associated with a particular device.

A success return shall cause the controller to ACK the next byte received. An error return shall cause the controller to NACK the next byte received.

Parameters
  • config – the configuration structure associated with the device to which the operation is addressed.

Returns

0 if the write is accepted, or a negative error code.

typedef int (*i2c_slave_write_received_cb_t)(struct i2c_slave_config *config, uint8_t val)

Function called when a write to the device is continued.

This function is invoked by the controller when it completes reception of a byte of data in an ongoing write operation to the device.

A success return shall cause the controller to ACK the next byte received. An error return shall cause the controller to NACK the next byte received.

Parameters
  • config – the configuration structure associated with the device to which the operation is addressed.

  • val – the byte received by the controller.

Returns

0 if more data can be accepted, or a negative error code.

typedef int (*i2c_slave_read_requested_cb_t)(struct i2c_slave_config *config, uint8_t *val)

Function called when a read from the device is initiated.

This function is invoked by the controller when the bus completes a start condition for a read operation from the address associated with a particular device.

The value returned in *val will be transmitted. A success return shall cause the controller to react to additional read operations. An error return shall cause the controller to ignore bus operations until a new start condition is received.

Parameters
  • config – the configuration structure associated with the device to which the operation is addressed.

  • val – pointer to storage for the first byte of data to return for the read request.

Returns

0 if more data can be requested, or a negative error code.

typedef int (*i2c_slave_read_processed_cb_t)(struct i2c_slave_config *config, uint8_t *val)

Function called when a read from the device is continued.

This function is invoked by the controller when the bus is ready to provide additional data for a read operation from the address associated with the device device.

The value returned in *val will be transmitted. A success return shall cause the controller to react to additional read operations. An error return shall cause the controller to ignore bus operations until a new start condition is received.

Parameters
  • config – the configuration structure associated with the device to which the operation is addressed.

  • val – pointer to storage for the next byte of data to return for the read request.

Returns

0 if data has been provided, or a negative error code.

typedef int (*i2c_slave_stop_cb_t)(struct i2c_slave_config *config)

Function called when a stop condition is observed after a start condition addressed to a particular device.

This function is invoked by the controller when the bus is ready to provide additional data for a read operation from the address associated with the device device. After the function returns the controller shall enter a state where it is ready to react to new start conditions.

Parameters
  • config – the configuration structure associated with the device to which the operation is addressed.

Returns

Ignored.

Functions

int i2c_configure(const struct device *dev, uint32_t dev_config)

Configure operation of a host controller.

Parameters
  • dev – Pointer to the device structure for the driver instance.

  • dev_config – Bit-packed 32-bit value to the device runtime configuration for the I2C controller.

Returns

  • 0 – If successful.

  • -EIO – General input / output error, failed to configure device.

int i2c_transfer(const struct device *dev, struct i2c_msg *msgs, uint8_t num_msgs, uint16_t addr)

Perform data transfer to another I2C device in master mode.

This routine provides a generic interface to perform data transfer to another I2C device synchronously. Use i2c_read()/i2c_write() for simple read or write.

The array of message msgs must not be NULL. The number of message num_msgs may be zero,in which case no transfer occurs.

Note

Not all scatter/gather transactions can be supported by all drivers. As an example, a gather write (multiple consecutive i2c_msg buffers all configured for I2C_MSG_WRITE) may be packed into a single transaction by some drivers, but others may emit each fragment as a distinct write transaction, which will not produce the same behavior. See the documentation of struct i2c_msg for limitations on support for multi-message bus transactions.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • msgs – Array of messages to transfer.

  • num_msgs – Number of messages to transfer.

  • addr – Address of the I2C target device.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_transfer_dt(const struct i2c_dt_spec *spec, struct i2c_msg *msgs, uint8_t num_msgs)

Perform data transfer to another I2C device in master mode.

This is equivalent to:

i2c_transfer(spec->bus, msgs, num_msgs, spec->addr);

Parameters
  • spec – I2C specification from devicetree.

  • msgs – Array of messages to transfer.

  • num_msgs – Number of messages to transfer.

Returns

a value from i2c_transfer()

int i2c_recover_bus(const struct device *dev)

Recover the I2C bus.

Attempt to recover the I2C bus.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

Returns

  • 0 – If successful

  • -EBUSY – If bus is not clear after recovery attempt.

  • -EIO – General input / output error.

  • -ENOSYS – If bus recovery is not implemented

static inline int i2c_slave_register(const struct device *dev, struct i2c_slave_config *cfg)

Registers the provided config as Slave device of a controller.

Enable I2C slave mode for the ‘dev’ I2C bus driver using the provided ‘config’ struct containing the functions and parameters to send bus events. The I2C slave will be registered at the address provided as ‘address’ struct member. Addressing mode - 7 or 10 bit - depends on the ‘flags’ struct member. Any I2C bus events related to the slave mode will be passed onto I2C slave device driver via a set of callback functions provided in the ‘callbacks’ struct member.

Most of the existing hardware allows simultaneous support for master and slave mode. This is however not guaranteed.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in slave mode.

  • cfg – Config struct with functions and parameters used by the I2C driver to send bus events

Returns

  • 0 – Is successful

  • -EINVAL – If parameters are invalid

  • -EIO – General input / output error.

  • -ENOSYS – If slave mode is not implemented

static inline int i2c_slave_unregister(const struct device *dev, struct i2c_slave_config *cfg)

Unregisters the provided config as Slave device.

This routine disables I2C slave mode for the ‘dev’ I2C bus driver using the provided ‘config’ struct containing the functions and parameters to send bus events.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in slave mode.

  • cfg – Config struct with functions and parameters used by the I2C driver to send bus events

Returns

  • 0 – Is successful

  • -EINVAL – If parameters are invalid

  • -ENOSYS – If slave mode is not implemented

int i2c_slave_driver_register(const struct device *dev)

Instructs the I2C Slave device to register itself to the I2C Controller.

This routine instructs the I2C Slave device to register itself to the I2C Controller via its parent controller’s i2c_slave_register() API.

Parameters
  • dev – Pointer to the device structure for the I2C slave device (not itself an I2C controller).

Returns

  • 0 – Is successful

  • -EINVAL – If parameters are invalid

  • -EIO – General input / output error.

int i2c_slave_driver_unregister(const struct device *dev)

Instructs the I2C Slave device to unregister itself from the I2C Controller.

This routine instructs the I2C Slave device to unregister itself from the I2C Controller via its parent controller’s i2c_slave_register() API.

Parameters
  • dev – Pointer to the device structure for the I2C slave device (not itself an I2C controller).

Returns

  • 0 – Is successful

  • -EINVAL – If parameters are invalid

static inline int i2c_write(const struct device *dev, const uint8_t *buf, uint32_t num_bytes, uint16_t addr)

Write a set amount of data to an I2C device.

This routine writes a set amount of data synchronously.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • buf – Memory pool from which the data is transferred.

  • num_bytes – Number of bytes to write.

  • addr – Address to the target I2C device for writing.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_write_dt(const struct i2c_dt_spec *spec, const uint8_t *buf, uint32_t num_bytes)

Write a set amount of data to an I2C device.

This is equivalent to:

i2c_write(spec->bus, buf, num_bytes, spec->addr);

Parameters
  • spec – I2C specification from devicetree.

  • buf – Memory pool from which the data is transferred.

  • num_bytes – Number of bytes to write.

Returns

a value from i2c_write()

static inline int i2c_read(const struct device *dev, uint8_t *buf, uint32_t num_bytes, uint16_t addr)

Read a set amount of data from an I2C device.

This routine reads a set amount of data synchronously.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • buf – Memory pool that stores the retrieved data.

  • num_bytes – Number of bytes to read.

  • addr – Address of the I2C device being read.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_read_dt(const struct i2c_dt_spec *spec, uint8_t *buf, uint32_t num_bytes)

Read a set amount of data from an I2C device.

This is equivalent to:

i2c_read(spec->bus, buf, num_bytes, spec->addr);

Parameters
  • spec – I2C specification from devicetree.

  • buf – Memory pool that stores the retrieved data.

  • num_bytes – Number of bytes to read.

Returns

a value from i2c_read()

static inline int i2c_write_read(const struct device *dev, uint16_t addr, const void *write_buf, size_t num_write, void *read_buf, size_t num_read)

Write then read data from an I2C device.

This supports the common operation “this is what I want”, “now give

it to me” transaction pair through a combined write-then-read bus transaction.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • addr – Address of the I2C device

  • write_buf – Pointer to the data to be written

  • num_write – Number of bytes to write

  • read_buf – Pointer to storage for read data

  • num_read – Number of bytes to read

Returns

  • 0 – if successful

  • negative – on error.

static inline int i2c_write_read_dt(const struct i2c_dt_spec *spec, const void *write_buf, size_t num_write, void *read_buf, size_t num_read)

Write then read data from an I2C device.

This is equivalent to:

i2c_write_read(spec->bus, spec->addr,
               write_buf, num_write,
               read_buf, num_read);

Parameters
  • spec – I2C specification from devicetree.

  • write_buf – Pointer to the data to be written

  • num_write – Number of bytes to write

  • read_buf – Pointer to storage for read data

  • num_read – Number of bytes to read

Returns

a value from i2c_write_read()

static inline int i2c_burst_read(const struct device *dev, uint16_t dev_addr, uint8_t start_addr, uint8_t *buf, uint32_t num_bytes)

Read multiple bytes from an internal address of an I2C device.

This routine reads multiple bytes from an internal address of an I2C device synchronously.

Instances of this may be replaced by i2c_write_read().

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • dev_addr – Address of the I2C device for reading.

  • start_addr – Internal address from which the data is being read.

  • buf – Memory pool that stores the retrieved data.

  • num_bytes – Number of bytes being read.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_burst_read_dt(const struct i2c_dt_spec *spec, uint8_t start_addr, uint8_t *buf, uint32_t num_bytes)

Read multiple bytes from an internal address of an I2C device.

This is equivalent to:

i2c_burst_read(spec->bus, spec->addr, start_addr, buf, num_bytes);

Parameters
  • spec – I2C specification from devicetree.

  • start_addr – Internal address from which the data is being read.

  • buf – Memory pool that stores the retrieved data.

  • num_bytes – Number of bytes to read.

Returns

a value from i2c_burst_read()

static inline int i2c_burst_write(const struct device *dev, uint16_t dev_addr, uint8_t start_addr, const uint8_t *buf, uint32_t num_bytes)

Write multiple bytes to an internal address of an I2C device.

This routine writes multiple bytes to an internal address of an I2C device synchronously.

Warning

The combined write synthesized by this API may not be supported on all I2C devices. Uses of this API may be made more portable by replacing them with calls to i2c_write() passing a buffer containing the combined address and data.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • dev_addr – Address of the I2C device for writing.

  • start_addr – Internal address to which the data is being written.

  • buf – Memory pool from which the data is transferred.

  • num_bytes – Number of bytes being written.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_burst_write_dt(const struct i2c_dt_spec *spec, uint8_t start_addr, const uint8_t *buf, uint32_t num_bytes)

Write multiple bytes to an internal address of an I2C device.

This is equivalent to:

i2c_burst_write(spec->bus, spec->addr, start_addr, buf, num_bytes);

Parameters
  • spec – I2C specification from devicetree.

  • start_addr – Internal address to which the data is being written.

  • buf – Memory pool from which the data is transferred.

  • num_bytes – Number of bytes being written.

Returns

a value from i2c_burst_write()

static inline int i2c_reg_read_byte(const struct device *dev, uint16_t dev_addr, uint8_t reg_addr, uint8_t *value)

Read internal register of an I2C device.

This routine reads the value of an 8-bit internal register of an I2C device synchronously.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • dev_addr – Address of the I2C device for reading.

  • reg_addr – Address of the internal register being read.

  • value – Memory pool that stores the retrieved register value.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_reg_read_byte_dt(const struct i2c_dt_spec *spec, uint8_t reg_addr, uint8_t *value)

Read internal register of an I2C device.

This is equivalent to:

i2c_reg_read_byte(spec->bus, spec->addr, reg_addr, value);

Parameters
  • spec – I2C specification from devicetree.

  • reg_addr – Address of the internal register being read.

  • value – Memory pool that stores the retrieved register value.

Returns

a value from i2c_reg_read_byte()

static inline int i2c_reg_write_byte(const struct device *dev, uint16_t dev_addr, uint8_t reg_addr, uint8_t value)

Write internal register of an I2C device.

This routine writes a value to an 8-bit internal register of an I2C device synchronously.

Note

This function internally combines the register and value into a single bus transaction.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • dev_addr – Address of the I2C device for writing.

  • reg_addr – Address of the internal register being written.

  • value – Value to be written to internal register.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_reg_write_byte_dt(const struct i2c_dt_spec *spec, uint8_t reg_addr, uint8_t value)

Write internal register of an I2C device.

This is equivalent to:

i2c_reg_write_byte(spec->bus, spec->addr, reg_addr, value);

Parameters
  • spec – I2C specification from devicetree.

  • reg_addr – Address of the internal register being written.

  • value – Value to be written to internal register.

Returns

a value from i2c_reg_write_byte()

static inline int i2c_reg_update_byte(const struct device *dev, uint8_t dev_addr, uint8_t reg_addr, uint8_t mask, uint8_t value)

Update internal register of an I2C device.

This routine updates the value of a set of bits from an 8-bit internal register of an I2C device synchronously.

Note

If the calculated new register value matches the value that was read this function will not generate a write operation.

Parameters
  • dev – Pointer to the device structure for an I2C controller driver configured in master mode.

  • dev_addr – Address of the I2C device for updating.

  • reg_addr – Address of the internal register being updated.

  • mask – Bitmask for updating internal register.

  • value – Value for updating internal register.

Returns

  • 0 – If successful.

  • -EIO – General input / output error.

static inline int i2c_reg_update_byte_dt(const struct i2c_dt_spec *spec, uint8_t reg_addr, uint8_t mask, uint8_t value)

Update internal register of an I2C device.

This is equivalent to:

i2c_reg_update_byte(spec->bus, spec->addr, reg_addr, mask, value);

Parameters
  • spec – I2C specification from devicetree.

  • reg_addr – Address of the internal register being updated.

  • mask – Bitmask for updating internal register.

  • value – Value for updating internal register.

Returns

a value from i2c_reg_update_byte()

void i2c_dump_msgs(const char *name, const struct i2c_msg *msgs, uint8_t num_msgs, uint16_t addr)

Dump out an I2C message.

Dumps out a list of I2C messages. For any that are writes (W), the data is displayed in hex.

It looks something like this (with name “testing”):

D: I2C msg: testing, addr=56 D: W len=01: D: contents: D: 06 |. D: W len=0e: D: contents: D: 00 01 02 03 04 05 06 07 |…….. D: 08 09 0a 0b 0c 0d |……

Parameters
  • name – Name of this dump, displayed at the top.

  • msgs – Array of messages to dump.

  • num_msgs – Number of messages to dump.

  • addr – Address of the I2C target device.

struct i2c_dt_spec
#include <i2c.h>

Complete I2C DT information.

Parameters
  • bus – is the I2C bus

  • addr – is the slave address

struct i2c_msg
#include <i2c.h>

One I2C Message.

This defines one I2C message to transact on the I2C bus.

Note

Some of the configurations supported by this API may not be supported by specific SoC I2C hardware implementations, in particular features related to bus transactions intended to read or write data from different buffers within a single transaction. Invocations of i2c_transfer() may not indicate an error when an unsupported configuration is encountered. In some cases drivers will generate separate transactions for each message fragment, with or without presence of I2C_MSG_RESTART in flags.

Public Members

uint8_t *buf

Data buffer in bytes

uint32_t len

Length of buffer in bytes

uint8_t flags

Flags for this message

struct i2c_slave_callbacks
#include <i2c.h>

Structure providing callbacks to be implemented for devices that supports the I2C slave API.

This structure may be shared by multiple devices that implement the same API at different addresses on the bus.

struct i2c_slave_config
#include <i2c.h>

Structure describing a device that supports the I2C slave API.

Instances of this are passed to the i2c_slave_register() and i2c_slave_unregister() functions to indicate addition and removal of a slave device, respective.

Fields other than node must be initialized by the module that implements the device behavior prior to passing the object reference to i2c_slave_register().

Public Members

sys_snode_t node

Private, do not modify

uint8_t flags

Flags for the slave device defined by I2C_SLAVE_FLAGS_* constants

uint16_t address

Address for this slave device

const struct i2c_slave_callbacks *callbacks

Callback functions

struct i2c_client_config
#include <i2c.h>