/* Copyright 2014 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 board configuration */ #ifndef __CROS_EC_USB_PD_CONFIG_H #define __CROS_EC_USB_PD_CONFIG_H #include "board.h" /* Timer selection for baseband PD communication */ #define TIM_CLOCK_PD_TX_C0 17 #define TIM_CLOCK_PD_RX_C0 1 #define TIM_CLOCK_PD_TX(p) TIM_CLOCK_PD_TX_C0 #define TIM_CLOCK_PD_RX(p) TIM_CLOCK_PD_RX_C0 /* Timer channel */ #define TIM_RX_CCR_C0 1 #define TIM_TX_CCR_C0 1 /* RX timer capture/compare register */ #define TIM_CCR_C0 (&STM32_TIM_CCRx(TIM_CLOCK_PD_RX_C0, TIM_RX_CCR_C0)) #define TIM_RX_CCR_REG(p) TIM_CCR_C0 /* TX and RX timer register */ #define TIM_REG_TX_C0 (STM32_TIM_BASE(TIM_CLOCK_PD_TX_C0)) #define TIM_REG_RX_C0 (STM32_TIM_BASE(TIM_CLOCK_PD_RX_C0)) #define TIM_REG_TX(p) TIM_REG_TX_C0 #define TIM_REG_RX(p) TIM_REG_RX_C0 /* use the hardware accelerator for CRC */ #define CONFIG_HW_CRC /* TX is using SPI1 on PA4-7 */ #define SPI_REGS(p) STM32_SPI1_REGS static inline void spi_enable_clock(int port) { STM32_RCC_APB2ENR |= STM32_RCC_PB2_SPI1; } #define DMAC_SPI_TX(p) STM32_DMAC_CH3 /* RX is using COMP1 triggering TIM1 CH1 */ #define CMP1OUTSEL STM32_COMP_CMP1OUTSEL_TIM1_IC1 #define CMP2OUTSEL 0 #define TIM_TX_CCR_IDX(p) TIM_TX_CCR_C0 #define TIM_RX_CCR_IDX(p) TIM_RX_CCR_C0 #define TIM_CCR_CS 1 #define EXTI_COMP_MASK(p) BIT(21) #define IRQ_COMP STM32_IRQ_COMP /* triggers packet detection on comparator falling edge */ #define EXTI_XTSR STM32_EXTI_FTSR #define DMAC_TIM_RX(p) STM32_DMAC_CH2 /* the pins used for communication need to be hi-speed */ static inline void pd_set_pins_speed(int port) { /* 40 MHz pin speed on SPI1 (PA5/6) and CC1_TX_EN (PA3) */ STM32_GPIO_OSPEEDR(GPIO_A) |= 0x00003CC0; /* 40 MHz pin speed on TIM17_CH1 (PB9) and CC2_TX_EN (PB2) */ STM32_GPIO_OSPEEDR(GPIO_B) |= 0x000C0030; } /* Reset SPI peripheral used for TX */ static inline void pd_tx_spi_reset(int port) { /* Reset SPI1 */ STM32_RCC_APB2RSTR |= BIT(12); STM32_RCC_APB2RSTR &= ~BIT(12); } /* Drive the CC line from the TX block */ static inline void pd_tx_enable(int port, int polarity) { /* put SPI function on TX pin */ /* PA6 is SPI1 MISO */ gpio_set_alternate_function(GPIO_A, 0x0040, 0); /* set the polarity */ gpio_set_level(GPIO_USBC_CC1_TX_EN, !polarity); gpio_set_level(GPIO_USBC_CC2_TX_EN, polarity); } /* Put the TX driver in Hi-Z state */ static inline void pd_tx_disable(int port, int polarity) { /* output low on SPI TX to disable the FET */ /* PA6 is SPI1_MISO */ STM32_GPIO_MODER(GPIO_A) = (STM32_GPIO_MODER(GPIO_A) & ~(3 << (2*6))) | (1 << (2*6)); /* put the low level reference in Hi-Z */ gpio_set_level(GPIO_USBC_CC1_TX_EN, 0); gpio_set_level(GPIO_USBC_CC2_TX_EN, 0); } /* we know the plug polarity, do the right configuration */ static inline void pd_select_polarity(int port, int polarity) { /* use the right comparator non inverted input for COMP1 */ STM32_COMP_CSR = (STM32_COMP_CSR & ~STM32_COMP_CMP1INSEL_MASK) | STM32_COMP_CMP1EN | (polarity ? STM32_COMP_CMP1INSEL_INM4 : STM32_COMP_CMP1INSEL_INM6); gpio_set_level(GPIO_USBC_POLARITY, polarity); } /* Initialize pins used for TX and put them in Hi-Z */ static inline void pd_tx_init(void) { /* Configure SCK pin */ gpio_config_module(MODULE_USB_PD, 1); } static inline void pd_set_host_mode(int port, int enable) { board_pd_set_host_mode(enable); } /** * Initialize various GPIOs and interfaces to safe state at start of pd_task. * * These include: * VBUS, charge path based on power role. * Physical layer CC transmit. * VCONNs disabled. * * @param port USB-C port number * @param power_role Power role of device */ static inline void pd_config_init(int port, uint8_t power_role) { /* * Set CC pull resistors, and charge_en and vbus_en GPIOs to match * the initial role. */ pd_set_host_mode(port, power_role); /* Initialize TX pins and put them in Hi-Z */ pd_tx_init(); gpio_set_level(GPIO_USB_CC1_VCONN_EN_L, 1); gpio_set_level(GPIO_USB_CC2_VCONN_EN_L, 1); } static inline int pd_adc_read(int port, int cc) { return board_fake_pd_adc_read(cc); } #endif /* __CROS_EC_USB_PD_CONFIG_H */