/* * Copyright (c) 2006-2022, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2022-07-15 Emuzit first version */ #ifndef __CH56X_UART_H__ #define __CH56X_UART_H__ #include "soc.h" #include "ch56x_gpio.h" #ifdef __cplusplus extern "C" { #endif #define UART_RXD0_ALT GET_PIN(A, 5) #define UART_TXD0_ALT GET_PIN(A, 6) #define UART_RXD0_PIN GET_PIN(B, 5) #define UART_TXD0_PIN GET_PIN(B, 6) #define UART_RXD1_PIN GET_PIN(A, 7) #define UART_TXD1_PIN GET_PIN(A, 8) #define UART_RXD2_PIN GET_PIN(A, 2) #define UART_TXD2_PIN GET_PIN(A, 3) #define UART_RXD3_PIN GET_PIN(B, 3) #define UART_TXD3_PIN GET_PIN(B, 4) #ifndef UART_FIFO_SIZE #define UART_FIFO_SIZE 8 #endif #ifndef UART_RECV_RDY_SZ #define UART_RECV_RDY_SZ 7 // FIFO trigger level for rx data available #endif union _uart_mcr { uint8_t reg; struct { uint8_t dtr : 1; // B.0 : RW, DTR output (UART0 only) uint8_t rts : 1; // B.1 : RW, RTS output (UART0 only) uint8_t out1 : 1; // B.2 : RW, user defined modem control (UART0 only) uint8_t int_oe : 1; // B.3 : RW, interrupt output enable / OUT2 uint8_t loop : 1; // B.4 : RW, enable internal loop test (UART0 only) uint8_t au_flow_en : 1; // B.5 : RW, enable CTS/RTS autoflow control uint8_t tnow : 1; // B.6 : RW, enable DTR TNOW output (UART0 only) uint8_t half : 1; // B.7 : RW, enable half-duplex mode (UART0 only) }; }; #define RB_MCR_DTR 0x01 #define RB_MCR_RTS 0x02 #define RB_MCR_OUT1 0x04 #define RB_MCR_OUT2 0x08 #define RB_MCR_INT_OE 0x08 #define RB_MCR_LOOP 0x10 #define RB_MCR_AU_FLOW_EN 0x20 #define RB_MCR_TNOW 0x40 #define RB_MCR_HALF 0x80 union _uart_ier { uint8_t reg; struct { uint8_t recv_rdy : 1; // B.0 : RW, enable rx data ready intr uint8_t thr_empty : 1; // B.1 : RW, enable THR empty intr uint8_t line_stat : 1; // B.2 : RW, enable rx line status intr uint8_t modem_chg : 1; // B.3 : RW, enable modem status change intr (UART0 only) uint8_t dtr_en : 1; // B.4 : RW, DTR/TNOW output pin enable (UART0 only) uint8_t rts_en : 1; // B.5 : RW, RTS output pin enable (UART0 only) uint8_t txd_en : 1; // B.6 : RW, TXD pin enable uint8_t reset : 1; // B.7 : WZ, software reset control, active high, auto clear }; }; #define RB_IER_RECV_RDY 0x01 #define RB_IER_THR_EMPTY 0x02 #define RB_IER_LINE_STAT 0x04 #define RB_IER_MODEM_CHG 0x08 #define RB_IER_DTR_EN 0x10 #define RB_IER_RTS_EN 0x20 #define RB_IER_TXD_EN 0x40 #define RB_IER_RESET 0x80 union _uart_fcr { uint8_t reg; struct { uint8_t fifo_en : 1; // B.0 : RW, FIFO enable uint8_t rx_fifo_clr : 1; // B.1 : WZ, write 1 to clear rx FIFO, auto clear uint8_t tx_fifo_clr : 1; // B.2 : WZ, write 1 to clear tx FIFO, auto clear uint8_t resv_3 : 3; uint8_t fifo_trig : 2; // B.7-6 : RW, rx FIFO trigger level, 1/2/4/7 bytes }; }; #define RB_FCR_FIFO_EN 0x01 #define RB_FCR_RX_FIFO_CLR 0x02 #define RB_FCR_TX_FIFO_CLR 0x04 #define RB_FCR_FIFO_TRIG 0xc0 #define UART_1BYTE_TRIG 0 #define UART_2BYTE_TRIG 1 #define UART_4BYTE_TRIG 2 #define UART_7BYTE_TRIG 3 union _uart_lcr { uint8_t reg; struct { uint8_t word_sz : 2; // B.1-0 : RW, word bit length, 5/6/7/8 bits uint8_t stop_bit : 1; // B.2 : RW, stop bit length, 1/2 bits uint8_t par_en : 1; // B.3 : RW, parity enable uint8_t par_mod : 2; // B.5-4 : RW, parity mode, odd/even/mark/space uint8_t break_en : 1; // B.6 : RW, force BREAK line condition uint8_t dlab : 1; // B.7 : RW, user defined general purpose bit }; }; #define RB_LCR_WORD_SZ 0x03 #define RB_LCR_STOP_BIT 0x04 #define RB_LCR_PAR_EN 0x08 #define RB_LCR_PAR_MOD 0x30 #define RB_LCR_BREAK_EN 0x40 #define RB_LCR_DLAB 0x80 #define RB_LCR_GP_BIT 0x80 #define LCR_DATA_BITS_5 0 #define LCR_DATA_BITS_6 1 #define LCR_DATA_BITS_7 2 #define LCR_DATA_BITS_8 3 #define LCR_STOP_BITS_1 0 #define LCR_STOP_BITS_2 1 #define LCR_PARITY_ODD 0 #define LCR_PARITY_EVEN 1 #define LCR_PARITY_MARK 2 #define LCR_PARITY_SPACE 3 union _uart_iir { uint8_t reg; struct { uint8_t int_mask : 4; // B.3-0 : RO, interrupt mask (intr if B.0 is 0) uint8_t resv_4 : 2; uint8_t fifo_id : 2; // B.7-6 : RO, FIFO enabled flag }; }; #define RB_IIR_NO_INT 0x01 #define RB_IIR_INT_MASK 0x0f #define RB_IIR_FIFO_ID 0xc0 /* RB_IIR_INT_MASK (IIR bits 3:0) definition */ #define UART_II_SLV_ADDR 0x0e // UART0 slave address match interrupt #define UART_II_LINE_STAT 0x06 // rx line status interrupt #define UART_II_RECV_RDY 0x04 // rx data available interrupt #define UART_II_RECV_TOUT 0x0c // rx fifo timeout interrupt #define UART_II_THR_EMPTY 0x02 // THR empty interrupt #define UART_II_MODEM_CHG 0x00 // UART0 modem status change interrupt #define UART_II_NO_INTER 0x01 // no interrupt pending union _uart_lsr { uint8_t reg; struct { uint8_t data_rdy : 1; // B.0 : RO, rx FIFO data ready uint8_t over_err : 1; // B.1 : RZ, rx FIFO data overrun uint8_t par_err : 1; // B.2 : RZ, rx parity error uint8_t frame_err : 1; // B.3 : RZ, rx frame error uint8_t break_err : 1; // B.4 : RZ, rx BREAK detected uint8_t tx_fifo_emp : 1; // B.5 : RO, tx FIFO empty uint8_t tx_all_emp : 1; // B.6 : RO, THR/TSR all empty uint8_t err_rx_fifo : 1; // B.7 : RO, PAR/FRAME/BREAK ERR in rx FIFO }; }; #define RB_LSR_DATA_RDY 0x01 #define RB_LSR_OVER_ERR 0x02 #define RB_LSR_PAR_ERR 0x04 #define RB_LSR_FRAME_ERR 0x08 #define RB_LSR_BREAK_ERR 0x10 #define RB_LSR_TX_FIFO_EMP 0x20 #define RB_LSR_TX_ALL_EMP 0x40 #define RB_LSR_ERR_RX_FIFO 0x80 union _uart_msr { uint8_t reg; struct { uint8_t cts_chg : 1; // B.0 : RZ, CTS input changed uint8_t dsr_chg : 1; // B.1 : RZ, DSR input changed uint8_t ri_chg : 1; // B.2 : RZ, RI input changed uint8_t dcd_chg : 1; // B.3 : RZ, DCD input changed uint8_t cts : 1; // B.4 : RO, CTS action status uint8_t dsr : 1; // B.5 : RO, DSR action status uint8_t ri : 1; // B.6 : RO, RI action status uint8_t dcd : 1; // B.7 : RO, DCD action status }; }; #define RB_MSR_CTS_CHG 0x01 #define RB_MSR_DSR_CHG 0x02 #define RB_MSR_RI_CHG 0x04 #define RB_MSR_DCD_CHG 0x08 #define RB_MSR_CTS 0x10 #define RB_MSR_DSR 0x20 #define RB_MSR_RI 0x40 #define RB_MSR_DCD 0x80 /* * 0x00 R8_UARTx_MCR: Modem Control Register * 0x01 R8_UARTx_IER: Interrupt Enable Register * 0x02 R8_UARTx_FCR: FIFO Control Register * 0x03 R8_UARTx_LCR: Line Control Register * 0x04 R8_UARTx_IIR: Interrupt Identification Register * 0x05 R8_UARTx_LSR: Line Status Register * 0x06 R8_UARTx_MSR: Modem Status Register (UART0 only) * 0x08 R8_UARTx_RBR: Rx Buffer Register * 0x08 R8_UARTx_THR: Tx Hold Register * 0x0a R8_UARTx_RFC: Rx FIFO count register * 0x0b R8_UARTx_TFC: Tx FIFO count register * 0x0c R16_UARTx_DL: Divisor Latch * 0x0e R8_UARTx_DIV: frequency pre divider * 0x0f R8_UARTx_ADR: Address Register (UART0 only) * * CAVEAT: gcc (as of 8.2.0) tends to read 32-bit word for bit field test. * Be careful for those with side effect for read (e.g. RBR, IIR). */ struct uart_registers { union _uart_mcr MCR; union _uart_ier IER; union _uart_fcr FCR; union _uart_lcr LCR; union _uart_iir IIR; union _uart_lsr LSR; union _uart_lsr MSR; uint8_t resv_7; union { uint8_t RBR; uint8_t THR; }; uint8_t resv_9; uint8_t RFC; uint8_t TFC; uint16_t DL; uint8_t DIV; uint8_t ADR; } __packed; CHECK_STRUCT_SIZE(struct uart_registers, 0x10); int rt_hw_uart_init(void); #ifdef __cplusplus } #endif #endif