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USB-C device stack

The USB-C device stack is a hardware independent interface between a Type-C Port Controller (TCPC) and customer applications. It is a port of the Google ChromeOS Type-C Port Manager (TCPM) stack. It provides the following functionalities:

  • Uses the APIs provided by the Type-C Port Controller drivers to interact with the Type-C Port Controller.

  • Provides a programming interface that’s used by a customer applications. The APIs is described in include/zephyr/usb_c/usbc.h

Currently the device stack supports implementation of Sink only and Source only devices. Dual Role Power (DRP) devices are not yet supported.

List of samples for different purposes.

Implementing a Sink Type-C and Power Delivery USB-C device

The configuration of a USB-C Device is done in the stack layer and devicetree.

The following devicetree, structures and callbacks need to be defined:

  • Devicetree usb-c-connector node referencing a TCPC

  • Devicetree vbus node referencing a VBUS measurment device

  • User defined structure that encapsulates application specific data

  • Policy callbacks

For example, for the Sample USB-C Sink application:

Each Physical Type-C port is represented in the devicetree by a usb-c-connector compatible node:

1		port1: usbc-port@1 {
2			compatible = "usb-c-connector";
3			reg = <1>;
4			tcpc = <&ucpd1>;
5			vbus = <&vbus1>;
6			power-role = "sink";
7			sink-pdos = <PDO_FIXED(5000, 100, 0)>;
8		};

VBUS is measured by a device that’s referenced in the devicetree by a usb-c-vbus-adc compatible node:

1	vbus1: vbus {
2		compatible = "zephyr,usb-c-vbus-adc";
3		io-channels = <&adc2 8>;
4		output-ohms = <49900>;
5		full-ohms = <(330000 + 49900)>;
6	};

A user defined structure is defined and later registered with the subsystem and can be accessed from callback through an API:

 1/**
 2 * @brief A structure that encapsulates Port data.
 3 */
 4static struct port1_data_t {
 5	/** Sink Capabilities */
 6	uint32_t snk_caps[DT_PROP_LEN(DT_NODELABEL(port1), sink_pdos)];
 7	/** Number of Sink Capabilities */
 8	int snk_cap_cnt;
 9	/** Source Capabilities */
10	uint32_t src_caps[PDO_MAX_DATA_OBJECTS];
11	/** Number of Source Capabilities */
12	int src_cap_cnt;
13	/* Power Supply Ready flag */
14	atomic_t ps_ready;
15} port1_data = {
16	.snk_caps = {DT_FOREACH_PROP_ELEM(DT_NODELABEL(port1), sink_pdos, SINK_PDO)},
17	.snk_cap_cnt = DT_PROP_LEN(DT_NODELABEL(port1), sink_pdos),
18	.src_caps = {0},
19	.src_cap_cnt = 0,
20	.ps_ready = 0
21};
22

These callbacks are used by the subsystem to set or get application specific data:

 1static int port1_policy_cb_get_snk_cap(const struct device *dev,
 2					    uint32_t **pdos,
 3					    int *num_pdos)
 4{
 5	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 6
 7	*pdos = dpm_data->snk_caps;
 8	*num_pdos = dpm_data->snk_cap_cnt;
 9
10	return 0;
11}
12
13static void port1_policy_cb_set_src_cap(const struct device *dev,
14					     const uint32_t *pdos,
15					     const int num_pdos)
16{
17	struct port1_data_t *dpm_data;
18	int num;
19	int i;
20
21	dpm_data = usbc_get_dpm_data(dev);
22
23	num = num_pdos;
24	if (num > PDO_MAX_DATA_OBJECTS) {
25		num = PDO_MAX_DATA_OBJECTS;
26	}
27
28	for (i = 0; i < num; i++) {
29		dpm_data->src_caps[i] = *(pdos + i);
30	}
31
32	dpm_data->src_cap_cnt = num;
33}
34
35static uint32_t port1_policy_cb_get_rdo(const struct device *dev)
36{
37	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
38
39	return build_rdo(dpm_data);
40}

This callback is used by the subsystem to query if a certain action can be taken:

 1bool port1_policy_check(const struct device *dev,
 2			const enum usbc_policy_check_t policy_check)
 3{
 4	switch (policy_check) {
 5	case CHECK_POWER_ROLE_SWAP:
 6		/* Reject power role swaps */
 7		return false;
 8	case CHECK_DATA_ROLE_SWAP_TO_DFP:
 9		/* Reject data role swap to DFP */
10		return false;
11	case CHECK_DATA_ROLE_SWAP_TO_UFP:
12		/* Accept data role swap to UFP */
13		return true;
14	case CHECK_SNK_AT_DEFAULT_LEVEL:
15		/* This device is always at the default power level */
16		return true;
17	default:
18		/* Reject all other policy checks */
19		return false;
20
21	}
22}

This callback is used by the subsystem to notify the application of an event:

 1static void port1_notify(const struct device *dev,
 2			      const enum usbc_policy_notify_t policy_notify)
 3{
 4	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 5
 6	switch (policy_notify) {
 7	case PROTOCOL_ERROR:
 8		break;
 9	case MSG_DISCARDED:
10		break;
11	case MSG_ACCEPT_RECEIVED:
12		break;
13	case MSG_REJECTED_RECEIVED:
14		break;
15	case MSG_NOT_SUPPORTED_RECEIVED:
16		break;
17	case TRANSITION_PS:
18		atomic_set_bit(&dpm_data->ps_ready, 0);
19		break;
20	case PD_CONNECTED:
21		break;
22	case NOT_PD_CONNECTED:
23		break;
24	case POWER_CHANGE_0A0:
25		LOG_INF("PWR 0A");
26		break;
27	case POWER_CHANGE_DEF:
28		LOG_INF("PWR DEF");
29		break;
30	case POWER_CHANGE_1A5:
31		LOG_INF("PWR 1A5");
32		break;
33	case POWER_CHANGE_3A0:
34		LOG_INF("PWR 3A0");
35		break;
36	case DATA_ROLE_IS_UFP:
37		break;
38	case DATA_ROLE_IS_DFP:
39		break;
40	case PORT_PARTNER_NOT_RESPONSIVE:
41		LOG_INF("Port Partner not PD Capable");
42		break;
43	case SNK_TRANSITION_TO_DEFAULT:
44		break;
45	case HARD_RESET_RECEIVED:
46		break;
47	case SENDER_RESPONSE_TIMEOUT:
48		break;
49	case SOURCE_CAPABILITIES_RECEIVED:
50		break;
51	}
52}

Registering the callbacks:

 1	/* Register USB-C Callbacks */
 2
 3	/* Register Policy Check callback */
 4	usbc_set_policy_cb_check(usbc_port1, port1_policy_check);
 5	/* Register Policy Notify callback */
 6	usbc_set_policy_cb_notify(usbc_port1, port1_notify);
 7	/* Register Policy Get Sink Capabilities callback */
 8	usbc_set_policy_cb_get_snk_cap(usbc_port1, port1_policy_cb_get_snk_cap);
 9	/* Register Policy Set Source Capabilities callback */
10	usbc_set_policy_cb_set_src_cap(usbc_port1, port1_policy_cb_set_src_cap);
11	/* Register Policy Get Request Data Object callback */
12	usbc_set_policy_cb_get_rdo(usbc_port1, port1_policy_cb_get_rdo);

Register the user defined structure:

1	/* Set Application port data object. This object is passed to the policy callbacks */
2	port1_data.ps_ready = ATOMIC_INIT(0);
3	usbc_set_dpm_data(usbc_port1, &port1_data);

Start the USB-C subsystem:

1	/* Start the USB-C Subsystem */
2	usbc_start(usbc_port1);

Implementing a Source Type-C and Power Delivery USB-C device

The configuration of a USB-C Device is done in the stack layer and devicetree.

Define the following devicetree, structures and callbacks:

  • Devicetree usb-c-connector node referencing a TCPC

  • Devicetree vbus node referencing a VBUS measurment device

  • User defined structure that encapsulates application specific data

  • Policy callbacks

For example, for the Sample USB-C Source application:

Each Physical Type-C port is represented in the devicetree by a usb-c-connector compatible node:

1		port1: usbc-port@1 {
2			compatible = "usb-c-connector";
3			reg = <1>;
4			tcpc = <&ucpd1>;
5			vbus = <&vbus1>;
6			power-role = "source";
7			typec-power-opmode = "3.0A";
8			source-pdos = <PDO_FIXED(5000, 100, 0) PDO_FIXED(9000, 100, 0) PDO_FIXED(15000, 100, 0)>;
9		};

VBUS is measured by a device that’s referenced in the devicetree by a usb-c-vbus-adc compatible node:

1	vbus1: vbus {
2		compatible = "zephyr,usb-c-vbus-adc";
3		io-channels = <&adc1 9>;
4		output-ohms = <49900>;
5		full-ohms = <(330000 + 49900)>;
6
7		/* Pin B13 is used to control VBUS Discharge for Port1 */
8		discharge-gpios = <&gpiob 13 GPIO_ACTIVE_HIGH>;
9	};

A user defined structure is defined and later registered with the subsystem and can be accessed from callback through an API:

 1/**
 2 * @brief A structure that encapsulates Port data.
 3 */
 4static struct port1_data_t {
 5	/** Source Capabilities */
 6	uint32_t src_caps[DT_PROP_LEN(DT_NODELABEL(port1), source_pdos)];
 7	/** Number of Source Capabilities */
 8	int src_cap_cnt;
 9	/** CC Rp value */
10	int rp;
11	/** Sink Request RDO */
12	union pd_rdo sink_request;
13	/** Requested Object Pos */
14	int obj_pos;
15	/** VCONN CC line*/
16	enum tc_cc_polarity vconn_pol;
17	/** True if power supply is ready */
18	bool ps_ready;
19	/** True if power supply should transition to a new level */
20	bool ps_tran_start;
21	/** Log Sink Requested RDO to console */
22	atomic_t show_sink_request;
23} port1_data = {
24	.rp = DT_ENUM_IDX(DT_NODELABEL(port1), typec_power_opmode),
25	.src_caps = {DT_FOREACH_PROP_ELEM(DT_NODELABEL(port1), source_pdos, SOURCE_PDO)},
26	.src_cap_cnt = DT_PROP_LEN(DT_NODELABEL(port1), source_pdos),
27};
28

These callbacks are used by the subsystem to set or get application specific data:

  1/**
  2 * @brief PE calls this function when it needs to set the Rp on CC
  3 */
  4int port1_policy_cb_get_src_rp(const struct device *dev,
  5			       enum tc_rp_value *rp)
  6{
  7	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
  8
  9	*rp = dpm_data->rp;
 10
 11	return 0;
 12}
 13
 14/**
 15 * @brief PE calls this function to Enable (5V) or Disable (0V) the
 16 *	  Power Supply
 17 */
 18int port1_policy_cb_src_en(const struct device *dev, bool en)
 19{
 20	source_ctrl_set(en ? SOURCE_5V : SOURCE_0V);
 21
 22	return 0;
 23}
 24
 25/**
 26 * @brief PE calls this function to Enable or Disable VCONN
 27 */
 28int port1_policy_cb_vconn_en(const struct device *dev, enum tc_cc_polarity pol, bool en)
 29{
 30	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 31
 32	dpm_data->vconn_pol = pol;
 33
 34	if (en == false) {
 35		/* Disable VCONN on CC1 and CC2 */
 36		vconn_ctrl_set(VCONN_OFF);
 37	} else if (pol == TC_POLARITY_CC1) {
 38		/* set VCONN on CC1 */
 39		vconn_ctrl_set(VCONN1_ON);
 40	} else {
 41		/* set VCONN on CC2 */
 42		vconn_ctrl_set(VCONN2_ON);
 43	}
 44
 45	return 0;
 46}
 47
 48/**
 49 * @brief PE calls this function to get the Source Caps that will be sent
 50 *	  to the Sink
 51 */
 52int port1_policy_cb_get_src_caps(const struct device *dev,
 53			const uint32_t **pdos, uint32_t *num_pdos)
 54{
 55	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 56
 57	*pdos = dpm_data->src_caps;
 58	*num_pdos = dpm_data->src_cap_cnt;
 59
 60	return 0;
 61}
 62
 63/**
 64 * @brief PE calls this function to verify that a Sink's request if valid
 65 */
 66static enum usbc_snk_req_reply_t port1_policy_cb_check_sink_request(const struct device *dev,
 67					const uint32_t request_msg)
 68{
 69	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 70	union pd_fixed_supply_pdo_source pdo;
 71	uint32_t obj_pos;
 72	uint32_t op_current;
 73
 74	dpm_data->sink_request.raw_value = request_msg;
 75	obj_pos = dpm_data->sink_request.fixed.object_pos;
 76	op_current =
 77		PD_CONVERT_FIXED_PDO_CURRENT_TO_MA(dpm_data->sink_request.fixed.operating_current);
 78
 79	if (obj_pos == 0 || obj_pos > dpm_data->src_cap_cnt) {
 80		return SNK_REQUEST_REJECT;
 81	}
 82
 83	pdo.raw_value = dpm_data->src_caps[obj_pos - 1];
 84
 85	if (dpm_data->sink_request.fixed.operating_current > pdo.max_current) {
 86		return SNK_REQUEST_REJECT;
 87	}
 88
 89	dpm_data->obj_pos = obj_pos;
 90
 91	atomic_set_bit(&port1_data.show_sink_request, 0);
 92
 93	/*
 94	 * Clear PS ready. This will be set to true after PS is ready after
 95	 * it transitions to the new level.
 96	 */
 97	port1_data.ps_ready = false;
 98
 99	return SNK_REQUEST_VALID;
100}
101
102/**
103 * @brief PE calls this function to check if the Power Supply is at the requested
104 *	  level
105 */
106static bool port1_policy_cb_is_ps_ready(const struct device *dev)
107{
108	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
109
110
111	/* Return true to inform that the Power Supply is ready */
112	return dpm_data->ps_ready;
113}
114
115/**
116 * @brief PE calls this function to check if the Present Contract is still
117 *	  valid
118 */
119static bool port1_policy_cb_present_contract_is_valid(const struct device *dev,
120					const uint32_t present_contract)
121{
122	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
123	union pd_fixed_supply_pdo_source pdo;
124	union pd_rdo request;
125	uint32_t obj_pos;
126	uint32_t op_current;
127
128	request.raw_value = present_contract;
129	obj_pos = request.fixed.object_pos;
130	op_current = PD_CONVERT_FIXED_PDO_CURRENT_TO_MA(request.fixed.operating_current);
131
132	if (obj_pos == 0 || obj_pos > dpm_data->src_cap_cnt) {
133		return false;
134	}
135
136	pdo.raw_value = dpm_data->src_caps[obj_pos - 1];
137
138	if (request.fixed.operating_current > pdo.max_current) {
139		return false;
140	}
141
142	return true;
143}
144

This callback is used by the subsystem to query if a certain action can be taken:

 1bool port1_policy_check(const struct device *dev,
 2			const enum usbc_policy_check_t policy_check)
 3{
 4	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 5
 6	switch (policy_check) {
 7	case CHECK_POWER_ROLE_SWAP:
 8		/* Reject power role swaps */
 9		return false;
10	case CHECK_DATA_ROLE_SWAP_TO_DFP:
11		/* Accept data role swap to DFP */
12		return true;
13	case CHECK_DATA_ROLE_SWAP_TO_UFP:
14		/* Reject data role swap to UFP */
15		return false;
16	case CHECK_SRC_PS_AT_DEFAULT_LEVEL:
17		/*
18		 * This check is sent from the PE_SRC_Transition_to_default
19		 * state and requires the following:
20		 *	1: Vconn should be turned ON
21		 *	2: Return TRUE when Power Supply is at default level
22		 */
23
24		/* Power on VCONN */
25		vconn_ctrl_set(dpm_data->vconn_pol);
26
27		/* PS should be at default level after receiving a Hard Reset */
28		return true;
29	default:
30		/* Reject all other policy checks */
31		return false;
32
33	}
34}

This callback is used by the subsystem to notify the application of an event:

 1static void port1_notify(const struct device *dev,
 2			      const enum usbc_policy_notify_t policy_notify)
 3{
 4	struct port1_data_t *dpm_data = usbc_get_dpm_data(dev);
 5
 6	switch (policy_notify) {
 7	case PROTOCOL_ERROR:
 8		break;
 9	case MSG_DISCARDED:
10		break;
11	case MSG_ACCEPT_RECEIVED:
12		break;
13	case MSG_REJECTED_RECEIVED:
14		break;
15	case MSG_NOT_SUPPORTED_RECEIVED:
16		break;
17	case TRANSITION_PS:
18		dpm_data->ps_tran_start = true;
19		break;
20	case PD_CONNECTED:
21		break;
22	case NOT_PD_CONNECTED:
23		break;
24	case DATA_ROLE_IS_UFP:
25		break;
26	case DATA_ROLE_IS_DFP:
27		break;
28	case PORT_PARTNER_NOT_RESPONSIVE:
29		LOG_INF("Port Partner not PD Capable");
30		break;
31	case HARD_RESET_RECEIVED:
32		/*
33		 * This notification is sent from the PE_SRC_Transition_to_default
34		 * state and requires the following:
35		 *	1: Vconn should be turned OFF
36		 *	2: Reset of the local hardware
37		 */
38
39		/* Power off VCONN */
40		vconn_ctrl_set(VCONN_OFF);
41		/* Transition PS to Default level */
42		source_ctrl_set(SOURCE_5V);
43		break;
44	default:
45	}
46}

Registering the callbacks:

 1	/* Register USB-C Callbacks */
 2
 3	/* Register Policy Check callback */
 4	usbc_set_policy_cb_check(usbc_port1, port1_policy_check);
 5	/* Register Policy Notify callback */
 6	usbc_set_policy_cb_notify(usbc_port1, port1_notify);
 7	/* Register Policy callback to set the Rp on CC lines */
 8	usbc_set_policy_cb_get_src_rp(usbc_port1, port1_policy_cb_get_src_rp);
 9	/* Register Policy callback to enable or disable power supply */
10	usbc_set_policy_cb_src_en(usbc_port1, port1_policy_cb_src_en);
11	/* Register Policy callback to enable or disable vconn */
12	usbc_set_vconn_control_cb(usbc_port1, port1_policy_cb_vconn_en);
13	/* Register Policy callback to send the source caps to the sink */
14	usbc_set_policy_cb_get_src_caps(usbc_port1, port1_policy_cb_get_src_caps);
15	/* Register Policy callback to check if the sink request is valid */
16	usbc_set_policy_cb_check_sink_request(usbc_port1, port1_policy_cb_check_sink_request);
17	/* Register Policy callback to check if the power supply is ready */
18	usbc_set_policy_cb_is_ps_ready(usbc_port1, port1_policy_cb_is_ps_ready);
19	/* Register Policy callback to check if Present Contract is still valid */
20	usbc_set_policy_cb_present_contract_is_valid(usbc_port1,
21				port1_policy_cb_present_contract_is_valid);
22

Register the user defined structure:

1	/* Set Application port data object. This object is passed to the policy callbacks */
2	usbc_set_dpm_data(usbc_port1, &port1_data);

Start the USB-C subsystem:

1	/* Start the USB-C Subsystem */
2	usbc_start(usbc_port1);

API reference

group _usbc_device_api

USB-C Device APIs.

Defines

FIXED_5V_100MA_RDO

This Request Data Object (RDO) value can be returned from the policy_cb_get_rdo if 5V@100mA with the following options are sufficient for the Sink to operate.

The RDO is configured as follows: Maximum operating current 100mA Operating current 100mA Unchunked Extended Messages Not Supported No USB Suspend Not USB Communications Capable No capability mismatch Don’t giveback Object position 1 (5V PDO)

Enums

enum usbc_policy_request_t

Device Policy Manager requests.

Values:

enumerator REQUEST_NOP

No request

enumerator REQUEST_TC_DISABLED

Request Type-C layer to transition to Disabled State

enumerator REQUEST_TC_ERROR_RECOVERY

Request Type-C layer to transition to Error Recovery State

enumerator REQUEST_TC_END

End of Type-C requests

enumerator REQUEST_PE_DR_SWAP

Request Policy Engine layer to perform a Data Role Swap

enumerator REQUEST_PE_HARD_RESET_SEND

Request Policy Engine layer to send a hard reset

enumerator REQUEST_PE_SOFT_RESET_SEND

Request Policy Engine layer to send a soft reset

enumerator REQUEST_PE_GET_SRC_CAPS

Request Policy Engine layer to get Source Capabilities from port partner

enumerator REQUEST_GET_SNK_CAPS

Request Policy Engine to get Sink Capabilities from port partner

enumerator REQUEST_PE_GOTO_MIN

Request Policy Engine to request the port partner to source minimum power

enum usbc_policy_notify_t

Device Policy Manager notifications.

Values:

enumerator MSG_ACCEPT_RECEIVED

Power Delivery Accept message was received

enumerator MSG_REJECTED_RECEIVED

Power Delivery Reject message was received

enumerator MSG_DISCARDED

Power Delivery discarded the message being transmited

enumerator MSG_NOT_SUPPORTED_RECEIVED

Power Delivery Not Supported message was received

enumerator DATA_ROLE_IS_UFP

Data Role has been set to Upstream Facing Port (UFP)

enumerator DATA_ROLE_IS_DFP

Data Role has been set to Downstream Facing Port (DFP)

enumerator PD_CONNECTED

A PD Explicit Contract is in place

enumerator NOT_PD_CONNECTED

No PD Explicit Contract is in place

enumerator TRANSITION_PS

Transition the Power Supply

enumerator PORT_PARTNER_NOT_RESPONSIVE

Port partner is not responsive

enumerator PROTOCOL_ERROR

Protocol Error occurred

enumerator SNK_TRANSITION_TO_DEFAULT

Transition the Sink to default

enumerator HARD_RESET_RECEIVED

Hard Reset Received

enumerator POWER_CHANGE_0A0

Sink SubPower state at 0V

enumerator POWER_CHANGE_DEF

Sink SubPower state a 5V / 500mA

enumerator POWER_CHANGE_1A5

Sink SubPower state a 5V / 1.5A

enumerator POWER_CHANGE_3A0

Sink SubPower state a 5V / 3A

enumerator SENDER_RESPONSE_TIMEOUT

Sender Response Timeout

enumerator SOURCE_CAPABILITIES_RECEIVED

Source Capabilities Received

enum usbc_policy_check_t

Device Policy Manager checks.

Values:

enumerator CHECK_POWER_ROLE_SWAP

Check if Power Role Swap is allowed

enumerator CHECK_DATA_ROLE_SWAP_TO_DFP

Check if Data Role Swap to DFP is allowed

enumerator CHECK_DATA_ROLE_SWAP_TO_UFP

Check if Data Role Swap to UFP is allowed

enumerator CHECK_SNK_AT_DEFAULT_LEVEL

Check if Sink is at default level

enumerator CHECK_VCONN_CONTROL

Check if should control VCONN

enumerator CHECK_SRC_PS_AT_DEFAULT_LEVEL

Check if Source Power Supply is at default level

enum usbc_policy_wait_t

Device Policy Manager Wait message notifications.

Values:

enumerator WAIT_SINK_REQUEST

The port partner is unable to meet the sink request at this time

enumerator WAIT_POWER_ROLE_SWAP

The port partner is unable to do a Power Role Swap at this time

enumerator WAIT_DATA_ROLE_SWAP

The port partner is unable to do a Data Role Swap at this time

enumerator WAIT_VCONN_SWAP

The port partner is unable to do a VCONN Swap at this time

enum usbc_snk_req_reply_t

Device Policy Manager’s response to a Sink Request.

Values:

enumerator SNK_REQUEST_VALID

The sink port partner’s request can be met

enumerator SNK_REQUEST_REJECT

The sink port partner’s request can not be met

enumerator SNK_REQUEST_WAIT

The sink port partner’s request can be met at a later time

Functions

int usbc_start(const struct device *dev)

Start the USB-C Subsystem.

Parameters:
  • dev – Runtime device structure

Return values:

0 – on success

int usbc_suspend(const struct device *dev)

Suspend the USB-C Subsystem.

Parameters:
  • dev – Runtime device structure

Return values:

0 – on success

int usbc_request(const struct device *dev, const enum usbc_policy_request_t req)

Make a request of the USB-C Subsystem.

Parameters:
  • dev – Runtime device structure

  • req – request

Return values:

0 – on success

void usbc_set_dpm_data(const struct device *dev, void *dpm_data)

Set pointer to Device Policy Manager (DPM) data.

Parameters:
  • dev – Runtime device structure

  • dpm_data – pointer to dpm data

void *usbc_get_dpm_data(const struct device *dev)

Get pointer to Device Policy Manager (DPM) data.

Parameters:
  • dev – Runtime device structure

Return values:
  • pointer – to dpm data that was set with usbc_set_dpm_data

  • NULL – if dpm data was not set

void usbc_set_vconn_control_cb(const struct device *dev, const tcpc_vconn_control_cb_t cb)

Set the callback used to set VCONN control.

Parameters:
  • dev – Runtime device structure

  • cb – VCONN control callback

void usbc_set_vconn_discharge_cb(const struct device *dev, const tcpc_vconn_discharge_cb_t cb)

Set the callback used to discharge VCONN.

Parameters:
  • dev – Runtime device structure

  • cb – VCONN discharge callback

void usbc_set_policy_cb_check(const struct device *dev, const policy_cb_check_t cb)

Set the callback used to check a policy.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_notify(const struct device *dev, const policy_cb_notify_t cb)

Set the callback used to notify Device Policy Manager of a policy change.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_wait_notify(const struct device *dev, const policy_cb_wait_notify_t cb)

Set the callback used to notify Device Policy Manager of WAIT message reception.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_get_snk_cap(const struct device *dev, const policy_cb_get_snk_cap_t cb)

Set the callback used to get the Sink Capabilities.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_set_src_cap(const struct device *dev, const policy_cb_set_src_cap_t cb)

Set the callback used to store the received Port Partner’s Source Capabilities.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_get_rdo(const struct device *dev, const policy_cb_get_rdo_t cb)

Set the callback used to get the Request Data Object (RDO)

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_is_snk_at_default(const struct device *dev, const policy_cb_is_snk_at_default_t cb)

Set the callback used to check if the sink power supply is at the default level.

Parameters:
  • dev – Runtime device structure

  • cb – callback

void usbc_set_policy_cb_get_src_rp(const struct device *dev, const policy_cb_get_src_rp_t cb)

Set the callback used to get the Rp value that should be placed on the CC lines.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_src_en(const struct device *dev, const policy_cb_src_en_t cb)

Set the callback used to enable VBUS.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_get_src_caps(const struct device *dev, const policy_cb_get_src_caps_t cb)

Set the callback used to get the Source Capabilities from the Device Policy Manager.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_check_sink_request(const struct device *dev, const policy_cb_check_sink_request_t cb)

Set the callback used to check if Sink request is valid.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_is_ps_ready(const struct device *dev, const policy_cb_is_ps_ready_t cb)

Set the callback used to check if Source Power Supply is ready.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_present_contract_is_valid(const struct device *dev, const policy_cb_present_contract_is_valid_t cb)

Set the callback to check if present Contract is still valid.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_change_src_caps(const struct device *dev, const policy_cb_change_src_caps_t cb)

Set the callback used to request that a different set of Source Caps be sent to the Sink.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

void usbc_set_policy_cb_set_port_partner_snk_cap(const struct device *dev, const policy_cb_set_port_partner_snk_cap_t cb)

Set the callback used to store the Capabilities received from a Sink Port Partner.

Parameters:
  • dev – USB-C Connector Instance

  • cb – callback

SINK callback reference

group sink_callbacks

Typedefs

typedef int (*policy_cb_get_snk_cap_t)(const struct device *dev, uint32_t **pdos, int *num_pdos)

Callback type used to get the Sink Capabilities.

Param dev:

USB-C Connector Instance

Param pdos:

pointer where pdos are stored

Param num_pdos:

pointer where number of pdos is stored

Return:

0 on success

typedef void (*policy_cb_set_src_cap_t)(const struct device *dev, const uint32_t *pdos, const int num_pdos)

Callback type used to report the received Port Partner’s Source Capabilities.

Param dev:

USB-C Connector Instance

Param pdos:

pointer to the partner’s source pdos

Param num_pdos:

number of source pdos

typedef bool (*policy_cb_check_t)(const struct device *dev, const enum usbc_policy_check_t policy_check)

Callback type used to check a policy.

Param dev:

USB-C Connector Instance

Param policy_check:

policy to check

Return:

true if policy is currently allowed by the device policy manager

typedef bool (*policy_cb_wait_notify_t)(const struct device *dev, const enum usbc_policy_wait_t wait_notify)

Callback type used to notify Device Policy Manager of WAIT message reception.

Param dev:

USB-C Connector Instance

Param wait_notify:

wait notification

Return:

return true if the PE should wait and resend the message

typedef void (*policy_cb_notify_t)(const struct device *dev, const enum usbc_policy_notify_t policy_notify)

Callback type used to notify Device Policy Manager of a policy change.

Param dev:

USB-C Connector Instance

Param policy_notify:

policy notification

typedef uint32_t (*policy_cb_get_rdo_t)(const struct device *dev)

Callback type used to get the Request Data Object (RDO)

Param dev:

USB-C Connector Instance

Return:

RDO

typedef bool (*policy_cb_is_snk_at_default_t)(const struct device *dev)

Callback type used to check if the sink power supply is at the default level.

Param dev:

USB-C Connector Instance

Return:

true if power supply is at default level

SOURCE callback reference

group source_callbacks

Typedefs

typedef int (*policy_cb_get_src_caps_t)(const struct device *dev, const uint32_t **pdos, uint32_t *num_pdos)

Callback type used to get the Source Capabilities from the Device Policy Manager.

Param dev:

USB-C Connector Instance

Param pdos:

pointer to source capability pdos

Param num_pdos:

pointer to number of source capability pdos

Return:

0 on success

typedef enum usbc_snk_req_reply_t (*policy_cb_check_sink_request_t)(const struct device *dev, const uint32_t request_msg)

Callback type used to check if Sink request is valid.

Param dev:

USB-C Connector Instance

Param request_msg:

request message to check

Return:

sink request reply

typedef bool (*policy_cb_is_ps_ready_t)(const struct device *dev)

Callback type used to check if Source Power Supply is ready.

Param dev:

USB-C Connector Instance

Return:

true if power supply is ready, else false

typedef bool (*policy_cb_present_contract_is_valid_t)(const struct device *dev, const uint32_t present_contract)

Callback type used to check if present Contract is still valid.

Param dev:

USB-C Connector Instance

Param present_contract:

present contract

Return:

true if present contract is still valid

typedef bool (*policy_cb_change_src_caps_t)(const struct device *dev)

Callback type used to request that a different set of Source Caps be sent to the Sink.

Param dev:

USB-C Connector Instance

Return:

true if a different set of Cource Caps is available

typedef void (*policy_cb_set_port_partner_snk_cap_t)(const struct device *dev, const uint32_t *pdos, const int num_pdos)

Callback type used to report the Capabilities received from a Sink Port Partner.

Param dev:

USB-C Connector Instance

Param pdos:

pointer to sink cap pdos

Param num_pdos:

number of sink cap pdos

typedef int (*policy_cb_get_src_rp_t)(const struct device *dev, enum tc_rp_value *rp)

Callback type used to get the Rp value that should be placed on the CC lines.

Param dev:

USB-C Connector Instance

Param rp:

rp value

Return:

0 on success

typedef int (*policy_cb_src_en_t)(const struct device *dev, bool en)

Callback type used to enable VBUS.

Param dev:

USB-C Connector Instance

Param en:

true if VBUS should be enabled, else false to disable it

Return:

0 on success