/* 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 - common header for TCPM drivers */ #ifndef __CROS_EC_USB_PD_TCPM_TCPM_H #define __CROS_EC_USB_PD_TCPM_TCPM_H #ifdef __cplusplus extern "C" { #endif #include "tcpm_driver.h" #include "usb_pd_tcpm.h" #if defined(CONFIG_USB_PD_DUAL_ROLE_AUTO_TOGGLE) && \ !defined(CONFIG_USB_PD_DUAL_ROLE) #error "DRP auto toggle requires board to have DRP support" #error "Please upgrade your board configuration" #endif #ifndef CONFIG_USB_PD_TCPC extern const struct tcpc_config_t tcpc_config[]; /* I2C wrapper functions - get I2C port / slave addr from config struct. */ void tcpc_i2c_init(void); int tcpc_write(int port, int reg, int val); int tcpc_write16(int port, int reg, int val); int tcpc_read(int port, int reg, int *val); int tcpc_read16(int port, int reg, int *val); int tcpc_xfer(int port, const uint8_t *out, int out_size, uint8_t *in, int in_size, int flags); /* TCPM driver wrapper function */ static inline int tcpm_init(int port) { int rv; rv = tcpc_config[port].drv->init(port); if (rv) return rv; /* Board specific post TCPC init */ if (board_tcpc_post_init) rv = board_tcpc_post_init(port); return rv; } static inline int tcpm_release(int port) { return tcpc_config[port].drv->release(port); } static inline int tcpm_get_cc(int port, int *cc1, int *cc2) { return tcpc_config[port].drv->get_cc(port, cc1, cc2); } static inline int tcpm_get_vbus_level(int port) { return tcpc_config[port].drv->get_vbus_level(port); } static inline int tcpm_select_rp_value(int port, int rp) { return tcpc_config[port].drv->select_rp_value(port, rp); } static inline int tcpm_set_cc(int port, int pull) { return tcpc_config[port].drv->set_cc(port, pull); } static inline int tcpm_set_polarity(int port, int polarity) { return tcpc_config[port].drv->set_polarity(port, polarity); } static inline int tcpm_set_vconn(int port, int enable) { return tcpc_config[port].drv->set_vconn(port, enable); } static inline int tcpm_set_msg_header(int port, int power_role, int data_role) { return tcpc_config[port].drv->set_msg_header(port, power_role, data_role); } static inline int tcpm_set_rx_enable(int port, int enable) { return tcpc_config[port].drv->set_rx_enable(port, enable); } static inline int tcpm_get_message(int port, uint32_t *payload, int *head) { return tcpc_config[port].drv->get_message(port, payload, head); } static inline int tcpm_transmit(int port, enum tcpm_transmit_type type, uint16_t header, const uint32_t *data) { return tcpc_config[port].drv->transmit(port, type, header, data); } static inline void tcpc_alert(int port) { tcpc_config[port].drv->tcpc_alert(port); } static inline void tcpc_discharge_vbus(int port, int enable) { tcpc_config[port].drv->tcpc_discharge_vbus(port, enable); } #ifdef CONFIG_USB_PD_DUAL_ROLE_AUTO_TOGGLE static inline int tcpm_auto_toggle_supported(int port) { return !!tcpc_config[port].drv->drp_toggle; } static inline int tcpm_set_drp_toggle(int port, int enable) { return tcpc_config[port].drv->drp_toggle(port, enable); } #endif #ifdef CONFIG_CMD_I2C_STRESS_TEST_TCPC static inline int tcpc_i2c_read(const int port, const int addr, const int reg, int *data) { return tcpc_read(port, reg, data); } static inline int tcpc_i2c_write(const int port, const int addr, const int reg, int data) { return tcpc_write(port, reg, data); } #endif #else /** * Initialize TCPM driver and wait for TCPC readiness. * * @param port Type-C port number * * @return EC_SUCCESS or error */ int tcpm_init(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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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 tcpm_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); #endif #ifdef __cplusplus } #endif #endif