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libplatsupport: separate drivers from platforms
Signed-off-by: Axel Heider <[email protected]>
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Axel Heider
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Jan 11, 2024
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libplatsupport/include/platsupport/driver/uart_ns16550.h
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/* | ||
* Copyright 2022, HENSOLDT Cyber GmbH | ||
* | ||
* SPDX-License-Identifier: BSD-2-Clause | ||
* | ||
* Driver for a 16550 compatible UART. | ||
*/ | ||
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#pragma once | ||
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#include <stdio.h> | ||
#include <stdint.h> | ||
#include <stdbool.h> | ||
#include <utils/arith.h> | ||
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#define NS16550_IER_ERBFI BIT(0) /* Enable Received Data Available Interrupt */ | ||
#define NS16550_IER_ETBEI BIT(1) /* Enable Transmitter Holding Register Empty Interrupt */ | ||
#define NS16550_IER_ELSI BIT(2) /* Enable Receiver Line Status Interrupt */ | ||
#define NS16550_IER_EDSSI BIT(3) /* Enable MODEM Status Interrupt */ | ||
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#define NS16550_FCR_ENABLE_FIFOS BIT(0) | ||
#define NS16550_FCR_RESET_RX_FIFO BIT(1) | ||
#define NS16550_FCR_RESET_TX_FIFO BIT(2) | ||
#define NS16550_FCR_TRIGGER_1 (0u << 6) | ||
#define NS16550_FCR_TRIGGER_4 (1u << 6) | ||
#define NS16550_FCR_TRIGGER_8 (2u << 6) | ||
#define NS16550_FCR_TRIGGER_14 (3u << 6) | ||
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#define NS16550_LCR_DLAB BIT(7) /* Divisor Latch Access */ | ||
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#define NS16550_LSR_DR BIT(0) /* Data Ready */ | ||
#define NS16550_LSR_THRE BIT(5) /* Transmitter Holding Register Empty */ | ||
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/* There are different NS16550 hardware implementations. The classic size of | ||
* each register is just one byte, but some implementations started to use | ||
* 32-bit registers, as this fits better with the natural alignment. | ||
*/ | ||
#if defined(NS16550_WITH_REG32) | ||
typedef volatile uint32_t ns16550_reg_t; | ||
#elif defined(NS16550_WITH_REG8) | ||
typedef volatile uint8_t ns16550_reg_t; | ||
#else | ||
#error "define NS16550_WITH_REG[8|32]" | ||
#endif | ||
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typedef struct { | ||
/* 0x00 */ | ||
ns16550_reg_t rbr_dll_thr; /* Receiver Buffer Register (Read Only) | ||
* Divisor Latch (LSB) | ||
* Transmitter Holding Register (Write Only) | ||
*/ | ||
/* 0x01 or 0x04 */ | ||
ns16550_reg_t dlm_ier; /* Divisor Latch (MSB) | ||
* Interrupt Enable Register | ||
*/ | ||
/* 0x02 or 0x08 */ | ||
ns16550_reg_t iir_fcr; /* Interrupt Identification Register (Read Only) | ||
* FIFO Control Register (Write Only) | ||
*/ | ||
/* 0x03 or 0x0c */ | ||
ns16550_reg_t lcr; /* Line Control Register */ | ||
/* 0x04 or 0x10 */ | ||
ns16550_reg_t mcr; /* MODEM Control Register */ | ||
/* 0x05 or 0x14 */ | ||
ns16550_reg_t lsr; /* Line Status Register */ | ||
/* 0x06 or 0x18 */ | ||
ns16550_reg_t msr; /* MODEM Status Register */ | ||
/* 0x07 or 0x1c */ | ||
} ns16550_regs_t; | ||
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/* | ||
******************************************************************************* | ||
* UART access primitives | ||
******************************************************************************* | ||
*/ | ||
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static bool ns16550_is_tx_empty(ns16550_regs_t *regs) | ||
{ | ||
/* The THRE bit is set when the FIFO is fully empty. There seems no way to | ||
* detect if the FIFO is partially empty only, so we can't implement a | ||
* "tx_ready" check. | ||
*/ | ||
return (0 != (regs->lsr & NS16550_LSR_THRE)); | ||
} | ||
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static void ns16550_tx_byte(ns16550_regs_t *regs, uint8_t byte) | ||
{ | ||
/* Caller has to ensure TX FIFO is ready */ | ||
regs->rbr_dll_thr = byte; | ||
} | ||
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static bool ns16550_is_rx_empty(ns16550_regs_t *regs) | ||
{ | ||
return (0 == (regs->lsr & NS16550_LSR_DR)); | ||
} | ||
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static int ns16550_rx_byte(ns16550_regs_t *regs) | ||
{ | ||
/* Caller has to ensure RX FIFO has data */ | ||
return regs->rbr_dll_thr; | ||
} | ||
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/* | ||
******************************************************************************* | ||
* UART access helpers | ||
******************************************************************************* | ||
*/ | ||
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/* | ||
* Returns a char from the TX FIFO or EOF if the FIFO is empty. | ||
*/ | ||
static int ns16550_get_char_or_EOF(ns16550_regs_t *regs) | ||
{ | ||
return ns16550_is_rx_empty(regs) ? EOF : ns16550_rx_byte(regs); | ||
} |
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/* | ||
* Copyright 2022, HENSOLDT Cyber GmbH | ||
* Copyright 2017, Data61, CSIRO (ABN 41 687 119 230) | ||
* | ||
* SPDX-License-Identifier: BSD-2-Clause | ||
* | ||
* Driver for a ARM PL011 UART. | ||
*/ | ||
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#pragma once | ||
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#include <stdio.h> | ||
#include <stdint.h> | ||
#include <stdbool.h> | ||
#include <utils/arith.h> | ||
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#define PL011_FR_BUSY BIT(3) /* UART busy */ | ||
#define PL011_FR_RXFE BIT(4) /* Receive FIFO empty */ | ||
#define PL011_FR_TXFF BIT(5) /* Transmit FIFO full */ | ||
#define PL011_FR_RXFF BIT(6) /* Receive FIFO full */ | ||
#define PL011_FR_TXFE BIT(7) /* Transmit FIFO empty */ | ||
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#define PL011_IMSC_RXIM BIT(4) /* RX interrupt */ | ||
#define PL011_IMSC_TXIM BIT(5) /* TX interrupt */ | ||
#define PL011_IMSC_RTIM BIT(6) /* RX timeout interrupt */ | ||
#define PL011_IMSC_OEIM BIT(10) /* Overrun timeout */ | ||
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#define PL011_CR_UARTEN BIT(0) /* UART enable */ | ||
#define PL011_CR_TXE BIT(8) /* Transmit enable */ | ||
#define PL011_CR_RXE BIT(9) /* Receive enable */ | ||
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// 0111 1111 0000 | ||
#define PL011_ICR_RXIC BIT(4) | ||
#define PL011_ICR_TXIC BIT(5) | ||
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typedef volatile struct { | ||
uint32_t dr; /* 0x00 */ | ||
uint32_t _rfu_04; /* 0x04 */ | ||
uint32_t _rfu_08; /* 0x08 */ | ||
uint32_t _rfu_0c; /* 0x0c */ | ||
uint32_t _rfu_10; /* 0x10 */ | ||
uint32_t _rfu_14; /* 0x14 */ | ||
uint32_t fr; /* 0x18 */ | ||
uint32_t _rfu_1c; /* 0x1c */ | ||
uint32_t _rfu_20; /* 0x20 */ | ||
uint32_t _rfu_24; /* 0x24 */ | ||
uint32_t _rfu_28; /* 0x28 */ | ||
uint32_t _rfu_2c; /* 0x2c */ | ||
uint32_t _rfu_30; /* 0x30 */ | ||
uint32_t _rfu_34; /* 0x34 */ | ||
uint32_t imsc; /* 0x38 */ | ||
uint32_t _rfu_3c; /* 0x3c */ | ||
uint32_t _rfu_40; /* 0x40 */ | ||
uint32_t icr; /* 0x44 */ | ||
uint32_t _rfu_48; /* 0x48 */ | ||
uint32_t _rfu_4c; /* 0x4c */ | ||
} pl011_regs_t; | ||
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/* | ||
******************************************************************************* | ||
* UART access primitives | ||
******************************************************************************* | ||
*/ | ||
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static bool pl011_is_rx_fifo_empty(pl011_regs_t *regs) | ||
{ | ||
return (0 != (regs->fr & PL011_FR_RXFE)); | ||
} | ||
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static bool pl011_is_tx_fifo_full(pl011_regs_t *regs) | ||
{ | ||
return (0 != (regs->fr & PL011_FR_TXFF)); | ||
} | ||
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static void pl011_tx_byte(pl011_regs_t *regs, uint8_t c) | ||
{ | ||
/* Caller has to ensure TX FIFO has space */ | ||
regs->dr = c; | ||
} | ||
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static uint8_t pl011_rx_byte(pl011_regs_t *regs) | ||
{ | ||
return (uint8_t)(regs->dr & 0xFF); | ||
} | ||
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static void pl011_clear_interrupt(pl011_regs_t *regs) | ||
{ | ||
regs->icr = 0x7f0; | ||
} | ||
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/* | ||
******************************************************************************* | ||
* UART access helpers | ||
******************************************************************************* | ||
*/ | ||
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/* | ||
* Returns a char from the TX FIFO or EOF if the FIFO is empty. | ||
*/ | ||
static int pl011_get_char_or_EOF(pl011_regs_t *regs) | ||
{ | ||
return pl011_is_rx_fifo_empty(regs) ? EOF : pl011_rx_byte(regs); | ||
} | ||
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/* | ||
* Block until there is space in the TX FIFO, then outputs the char. | ||
*/ | ||
static void pl011_put_char_blocking(pl011_regs_t *regs, uint8_t c) | ||
{ | ||
while (pl011_is_tx_fifo_full(regs)) { | ||
/* busy loop */ | ||
} | ||
pl011_tx_byte(regs, c); | ||
} | ||
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/* | ||
* Block until there is space in the TX FIFO, then outputs the char. Optionally | ||
* output a CR (\r) first in case of LF (\n) to support the terminal use case. | ||
*/ | ||
static void pl011_put_char_blocking_auto_cr(pl011_regs_t *regs, uint8_t c, | ||
bool is_auto_cr) | ||
{ | ||
if ((c == '\n') && is_auto_cr) { | ||
pl011_put_char_blocking('\r') | ||
} | ||
pl011_put_char_blocking(c) | ||
} |
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