/* * Early debug UART support * * (C) Copyright 2014 Google, Inc * Writte by Simon Glass * * SPDX-License-Identifier: GPL-2.0+ */ #ifndef _DEBUG_UART_H #define _DEBUG_UART_H /* * The debug UART is intended for use very early in U-Boot to debug problems * when an ICE or other debug mechanism is not available. * * To use it you should: * - Make sure your UART supports this interface * - Enable CONFIG_DEBUG_UART * - Enable the CONFIG for your UART to tell it to provide this interface * (e.g. CONFIG_DEBUG_UART_NS16550) * - Define the required settings as needed (see below) * - Call debug_uart_init() before use * - Call printch() to output a character * * Depending on your platform it may be possible to use this UART before a * stack is available. * * If your UART does not support this interface you can probably add support * quite easily. Remember that you cannot use driver model and it is preferred * to use no stack. * * You must not use this UART once driver model is working and the serial * drivers are up and running (done in serial_init()). Otherwise the drivers * may conflict and you will get strange output. * * * To enable the debug UART in your serial driver: * * - #include * - Define _debug_uart_init(), trying to avoid using the stack * - Define _debug_uart_putc() as static inline (avoiding stack usage) * - Immediately afterwards, add DEBUG_UART_FUNCS to define the rest of the * functionality (printch(), etc.) * * If your board needs additional init for the UART to work, enable * CONFIG_DEBUG_UART_BOARD_INIT and write a function called * board_debug_uart_init() to perform that init. When debug_uart_init() is * called, the init will happen automatically. */ /** * debug_uart_init() - Set up the debug UART ready for use * * This sets up the UART with the correct baud rate, etc. * * Available CONFIG is: * * - CONFIG_DEBUG_UART_BASE: Base address of UART * - CONFIG_BAUDRATE: Requested baud rate * - CONFIG_DEBUG_UART_CLOCK: Input clock for UART */ void debug_uart_init(void); #ifdef CONFIG_DEBUG_UART_BOARD_INIT void board_debug_uart_init(void); #else static inline void board_debug_uart_init(void) { } #endif /** * printch() - Output a character to the debug UART * * @ch: Character to output */ void printch(int ch); /** * printascii() - Output an ASCII string to the debug UART * * @str: String to output */ void printascii(const char *str); /** * printhex2() - Output a 2-digit hex value * * @value: Value to output */ void printhex2(uint value); /** * printhex4() - Output a 4-digit hex value * * @value: Value to output */ void printhex4(uint value); /** * printhex8() - Output a 8-digit hex value * * @value: Value to output */ void printhex8(uint value); #ifdef CONFIG_DEBUG_UART_ANNOUNCE #define _DEBUG_UART_ANNOUNCE printascii(" "); #else #define _DEBUG_UART_ANNOUNCE #endif /* * Now define some functions - this should be inserted into the serial driver */ #define DEBUG_UART_FUNCS \ void printch(int ch) \ { \ if (ch == '\n') \ _debug_uart_putc('\r'); \ _debug_uart_putc(ch); \ } \ \ void printascii(const char *str) \ { \ while (*str) \ printch(*str++); \ } \ \ static inline void printhex1(uint digit) \ { \ digit &= 0xf; \ _debug_uart_putc(digit > 9 ? digit - 10 + 'a' : digit + '0'); \ } \ \ static inline void printhex(uint value, int digits) \ { \ while (digits-- > 0) \ printhex1(value >> (4 * digits)); \ } \ \ void printhex2(uint value) \ { \ printhex(value, 2); \ } \ \ void printhex4(uint value) \ { \ printhex(value, 4); \ } \ \ void printhex8(uint value) \ { \ printhex(value, 8); \ } \ \ void debug_uart_init(void) \ { \ board_debug_uart_init(); \ _debug_uart_init(); \ _DEBUG_UART_ANNOUNCE \ } \ #endif