glider/fw/usb_pd_tcpm.h

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2022-09-04 19:16:18 +00:00
/* Copyright 2015 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* USB Power delivery port management */
#ifndef __CROS_EC_USB_PD_TCPM_H
#define __CROS_EC_USB_PD_TCPM_H
#ifdef __cplusplus
extern "C" {
#endif
/* List of common error codes that can be returned */
enum ec_error_list {
/* Success - no error */
EC_SUCCESS = 0,
/* Unknown error */
EC_ERROR_UNKNOWN = 1,
/* Function not implemented yet */
EC_ERROR_UNIMPLEMENTED = 2,
/* Overflow error; too much input provided. */
EC_ERROR_OVERFLOW = 3,
/* Timeout */
EC_ERROR_TIMEOUT = 4,
/* Invalid argument */
EC_ERROR_INVAL = 5,
/* Already in use, or not ready yet */
EC_ERROR_BUSY = 6,
/* Access denied */
EC_ERROR_ACCESS_DENIED = 7,
/* Failed because component does not have power */
EC_ERROR_NOT_POWERED = 8,
/* Failed because component is not calibrated */
EC_ERROR_NOT_CALIBRATED = 9,
/* Failed because CRC error */
EC_ERROR_CRC = 10,
/* Invalid console command param (PARAMn means parameter n is bad) */
EC_ERROR_PARAM1 = 11,
EC_ERROR_PARAM2 = 12,
EC_ERROR_PARAM3 = 13,
EC_ERROR_PARAM4 = 14,
EC_ERROR_PARAM5 = 15,
EC_ERROR_PARAM6 = 16,
EC_ERROR_PARAM7 = 17,
EC_ERROR_PARAM8 = 18,
EC_ERROR_PARAM9 = 19,
/* Wrong number of params */
EC_ERROR_PARAM_COUNT = 20,
/* Interrupt event not handled */
EC_ERROR_NOT_HANDLED = 21,
/* Data has not changed */
EC_ERROR_UNCHANGED = 22,
/* Memory allocation */
EC_ERROR_MEMORY_ALLOCATION = 23,
/* Verified boot errors */
EC_ERROR_VBOOT_SIGNATURE = 0x1000, /* 4096 */
EC_ERROR_VBOOT_SIG_MAGIC = 0x1001,
EC_ERROR_VBOOT_SIG_SIZE = 0x1002,
EC_ERROR_VBOOT_SIG_ALGORITHM = 0x1003,
EC_ERROR_VBOOT_HASH_ALGORITHM = 0x1004,
EC_ERROR_VBOOT_SIG_OFFSET = 0x1005,
EC_ERROR_VBOOT_DATA_SIZE = 0x1006,
/* Verified boot key errors */
EC_ERROR_VBOOT_KEY = 0x1100,
EC_ERROR_VBOOT_KEY_MAGIC = 0x1101,
EC_ERROR_VBOOT_KEY_SIZE = 0x1102,
/* Verified boot data errors */
EC_ERROR_VBOOT_DATA = 0x1200,
EC_ERROR_VBOOT_DATA_VERIFY = 0x1201,
/* Module-internal error codes may use this range. */
EC_ERROR_INTERNAL_FIRST = 0x10000,
EC_ERROR_INTERNAL_LAST = 0x1FFFF
};
/* Flags for i2c_xfer() */
#define I2C_XFER_START (1 << 0) /* Start smbus session from idle state */
#define I2C_XFER_STOP (1 << 1) /* Terminate smbus session with stop bit */
#define I2C_XFER_SINGLE (I2C_XFER_START | I2C_XFER_STOP) /* One transaction */
/* Default retry count for transmitting */
#define PD_RETRY_COUNT 3
/* Time to wait for TCPC to complete transmit */
#define PD_T_TCPC_TX_TIMEOUT (100*MSEC_US)
enum tcpc_cc_voltage_status {
TYPEC_CC_VOLT_OPEN = 0,
TYPEC_CC_VOLT_RA = 1,
TYPEC_CC_VOLT_RD = 2,
TYPEC_CC_VOLT_SNK_DEF = 5,
TYPEC_CC_VOLT_SNK_1_5 = 6,
TYPEC_CC_VOLT_SNK_3_0 = 7,
};
enum tcpc_cc_pull {
TYPEC_CC_RA = 0,
TYPEC_CC_RP = 1,
TYPEC_CC_RD = 2,
TYPEC_CC_OPEN = 3,
};
enum tcpc_rp_value {
TYPEC_RP_USB = 0,
TYPEC_RP_1A5 = 1,
TYPEC_RP_3A0 = 2,
TYPEC_RP_RESERVED = 3,
};
enum tcpm_transmit_type {
TCPC_TX_SOP = 0,
TCPC_TX_SOP_PRIME = 1,
TCPC_TX_SOP_PRIME_PRIME = 2,
TCPC_TX_SOP_DEBUG_PRIME = 3,
TCPC_TX_SOP_DEBUG_PRIME_PRIME = 4,
TCPC_TX_HARD_RESET = 5,
TCPC_TX_CABLE_RESET = 6,
TCPC_TX_BIST_MODE_2 = 7
};
enum tcpc_transmit_complete {
TCPC_TX_COMPLETE_SUCCESS = 0,
TCPC_TX_COMPLETE_DISCARDED = 1,
TCPC_TX_COMPLETE_FAILED = 2,
};
struct tcpm_drv {
/**
* Initialize TCPM driver and wait for TCPC readiness.
*
* @param port Type-C port number
*
* @return EC_SUCCESS or error
*/
int (*init)(int port);
/**
* Release the TCPM hardware and disconnect the driver.
* Only .init() can be called after .release().
*
* @param port Type-C port number
*
* @return EC_SUCCESS or error
*/
int (*release)(int port);
/**
* Read the CC line status.
*
* @param port Type-C port number
* @param cc1 pointer to CC status for CC1
* @param cc2 pointer to CC status for CC2
*
* @return EC_SUCCESS or error
*/
int (*get_cc)(int port, int *cc1, int *cc2);
/**
* Read VBUS
*
* @param port Type-C port number
*
* @return 0 => VBUS not detected, 1 => VBUS detected
*/
int (*get_vbus_level)(int port);
/**
* Set the value of the CC pull-up used when we are a source.
*
* @param port Type-C port number
* @param rp One of enum tcpc_rp_value
*
* @return EC_SUCCESS or error
*/
int (*select_rp_value)(int port, int rp);
/**
* Set the CC pull resistor. This sets our role as either source or sink.
*
* @param port Type-C port number
* @param pull One of enum tcpc_cc_pull
*
* @return EC_SUCCESS or error
*/
int (*set_cc)(int port, int pull);
/**
* Set polarity
*
* @param port Type-C port number
* @param polarity 0=> transmit on CC1, 1=> transmit on CC2
*
* @return EC_SUCCESS or error
*/
int (*set_polarity)(int port, int polarity);
/**
* Set Vconn.
*
* @param port Type-C port number
* @param polarity Polarity of the CC line to read
*
* @return EC_SUCCESS or error
*/
int (*set_vconn)(int port, int enable);
/**
* Set PD message header to use for goodCRC
*
* @param port Type-C port number
* @param power_role Power role to use in header
* @param data_role Data role to use in header
*
* @return EC_SUCCESS or error
*/
int (*set_msg_header)(int port, int power_role, int data_role);
/**
* Set RX enable flag
*
* @param port Type-C port number
* @enable true for enable, false for disable
*
* @return EC_SUCCESS or error
*/
int (*set_rx_enable)(int port, int enable);
/**
* Read last received PD message.
*
* @param port Type-C port number
* @param payload Pointer to location to copy payload of message
* @param header of message
*
* @return EC_SUCCESS or error
*/
int (*get_message)(int port, uint32_t *payload, int *head);
/**
* Transmit PD message
*
* @param port Type-C port number
* @param type Transmit type
* @param header Packet header
* @param cnt Number of bytes in payload
* @param data Payload
*
* @return EC_SUCCESS or error
*/
int (*transmit)(int port, enum tcpm_transmit_type type, uint16_t header,
const uint32_t *data);
/**
* TCPC is asserting alert
*
* @param port Type-C port number
*/
void (*tcpc_alert)(int port);
/**
* Discharge PD VBUS on src/sink disconnect & power role swap
*
* @param port Type-C port number
* @param enable Discharge enable or disable
*/
void (*tcpc_discharge_vbus)(int port, int enable);
#ifdef CONFIG_USB_PD_DUAL_ROLE_AUTO_TOGGLE
/**
* Enable TCPC auto DRP toggling.
*
* @param port Type-C port number
* @param enable 1: Enable 0: Disable
*
* @return EC_SUCCESS or error
*/
int (*drp_toggle)(int port, int enable);
#endif
};
enum tcpc_alert_polarity {
TCPC_ALERT_ACTIVE_LOW,
TCPC_ALERT_ACTIVE_HIGH,
};
struct tcpc_config_t {
int i2c_host_port;
int i2c_slave_addr;
const struct tcpm_drv *drv;
enum tcpc_alert_polarity pol;
};
/**
* Returns the PD_STATUS_TCPC_ALERT_* mask corresponding to the TCPC ports
* that are currently asserting ALERT.
*
* @return PD_STATUS_TCPC_ALERT_* mask.
*/
uint16_t tcpc_get_alert_status(void);
/**
* Optional, set the TCPC power mode.
*
* @param port Type-C port number
* @param mode 0: off/sleep, 1: on/awake
*/
void board_set_tcpc_power_mode(int port, int mode) __attribute__((weak));
/**
* Initialize TCPC.
*
* @param port Type-C port number
*/
void tcpc_init(int port);
/**
* TCPC is asserting alert
*
* @param port Type-C port number
*/
void tcpc_alert_clear(int port);
/**
* Run TCPC task once. This checks for incoming messages, processes
* any outgoing messages, and reads CC lines.
*
* @param port Type-C port number
* @param evt Event type that woke up this task
*/
int tcpc_run(int port, int evt);
/**
* Initialize board specific TCPC functions post TCPC initialization.
*
* @param port Type-C port number
*
* @return EC_SUCCESS or error
*/
int board_tcpc_post_init(int port) __attribute__((weak));
#ifdef __cplusplus
}
#endif
#endif /* __CROS_EC_USB_PD_TCPM_H */