Consoles and terminals
eLua consoles and terminals
In eLua, a console and a terminal serve two related but different purposes:
- the console takes care of basic user input/output. They come in two flavours: serial consoles and TCP/IP consoles (note that the two can't coexist at the same time).
- the terminal enhances the console in order to take advantage of ANSI terminals and their advanced control functions like explicit cursor positioning, clear screen, and others. At this time, terminals work only over serial connections and not over TCP/IP (like consoles).
Both components can be enabled and disabled as needed (they don't rely on each other). See building eLua for details on how to enable and disable components.
Serial consoles
The serial console input/output is handled by a generic layer (src/newlib/genstd.c) that can be used to easily adapt the console subsystem to a variety of input/output devices. It needs just two functions, one for displaying characters and another one for receiving input with a timeout:
// Send/receive function types
typedef void ( *p_std_send_char )( int fd, char c );
typedef int ( *p_std_get_char )( s32 to );
(the send function gets an additional fd parameter that you can use to differentiate between the standard C stdout and stderr output streams).
To set them, use std_set_send_func and std_set_get_func, both are defined in inc/newlib/genstd.h. Usually they are called from src/common.c and configured to work over the UART by default:
// *****************************************************************************
// std functions and platform initialization
static void uart_send( int fd, char c )
{
fd = fd;
platform_uart_send( CON_UART_ID, c );
}
static int uart_recv( s32 to )
{
return platform_uart_recv( CON_UART_ID, TERM_TIMER_ID, to );
}
void cmn_platform_init()
{
// Set the send/recv functions
std_set_send_func( uart_send );
std_set_get_func( uart_recv );
}
If you need another type of serial console device (for example, a dedicated console running over a SPI connection) just call std_set_send_func/std_set_get_func with the appropriate function pointers.
To enable serial consoles, define the BUILD_CON_GENERIC macro in your platform's platform_conf.h file.
TCP/IP consoles
TCP/IP consoles have the same functionality as serial consoles, but they work over a TCP/IP connection using the telnet protocol. As they integrate directly with the TCP/IP subsystem, they don't have the same generic function based mechanism as serial consoles. To enable TCP/IP consoles, define the BUILD_CON_TCP macro in your platform's platform_conf.h file.
Terminals
Besides standard stdio/stdout/stderr support provided by consoles, eLua uses the "term" module to access ANSI compatible terminal emulators. It is designed to be as flexible as possible, thus allowing a large number of terminal emulators to be used. To enable terminal support, add BUILD_TERM in your platform's platform_conf.h file. To use it, initialize it with a call to term_init:
...........................
// Terminal output function
typedef void ( *p_term_out )( u8 );
// Terminal input function
typedef int ( *p_term_in )( int );
// Terminal translate input function
typedef int ( *p_term_translate )( u8 );
...........................
// Terminal initialization
void term_init( unsigned lines, unsigned cols, p_term_out term_out_func,
p_term_in term_in_func, p_term_translate term_translate_func );
The initialization function takes the physical size of the terminal emulator window (usually 80 lines and 25 cols) and three function pointers:
- p_term_out: this function will be called to output characters to the terminal. It receives the character to output as its single parameter.
- p_term_in: this function will be called to read a character from the terminal. It receives a parameter that can be either TERM_INPUT_DONT_WAIT (in which case the function returns -1 immediately if no character is available) or TERM_INPUT_WAIT (in which case the function will wait for the character).
- p_term_translate: this function translates terminal-specific codes to "term" codes. The "term" codes are defined in an enum from inc/term.h:
By using this function, it is possible to adapt a very large number of "term emulators" to eLua. For example, you might want to run eLua in a "standalone mode" that does not require a PC at all, just an external LCD display and maybe a keyboard for data input. Your eLua board can connect to this standalone terminal using its I/O pins or built in peripherals, for example via SPI. By writing the three functions described above, the effort of making eLua work with this new type of device is minimal, and also writing an "ANSI emulator" for your terminal device is not hard............................ _D( KC_UP ),\ _D( KC_DOWN ),\ _D( KC_LEFT ),\ ........................... _D( KC_ESC ),\ _D( KC_UNKNOWN ) ...........................
For an example, see src/main.c, where these functions are implemented for an UART connection with a terminal emulator program running on PC.
eLua also provides a Lua module (called term) that can be used to access ANSI terminal. See the term module API for a full description of this module.