nodemcu-firmware/app/driver/input.c

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#include "platform.h"
#include "driver/uart.h"
#include "driver/input.h"
#include <stdint.h>
#include "mem.h"
static void input_handler(platform_task_param_t flag, uint8 priority);
static struct input_state {
char *data;
int line_pos;
size_t len;
const char *prompt;
uart_cb_t uart_cb;
platform_task_handle_t input_sig;
int data_len;
bool run_input;
bool uart_echo;
char last_char;
char end_char;
uint8 input_sig_flag;
} ins = {0};
#define NUL '\0'
#define BS '\010'
#define CR '\r'
#define LF '\n'
#define DEL 0x7f
#define BS_OVER "\010 \010"
#define sendStr(s) uart0_sendStr(s)
#define putc(c) uart0_putc(c)
// UartDev is defined and initialized in rom code.
extern UartDevice UartDev;
static bool uart_getc(char *c){
RcvMsgBuff *pRxBuff = &(UartDev.rcv_buff);
if(pRxBuff->pWritePos == pRxBuff->pReadPos){ // empty
return false;
}
// ETS_UART_INTR_DISABLE();
ETS_INTR_LOCK();
*c = (char)*(pRxBuff->pReadPos);
if (pRxBuff->pReadPos == (pRxBuff->pRcvMsgBuff + RX_BUFF_SIZE)) {
pRxBuff->pReadPos = pRxBuff->pRcvMsgBuff ;
} else {
pRxBuff->pReadPos++;
}
// ETS_UART_INTR_ENABLE();
ETS_INTR_UNLOCK();
return true;
}
/*
** input_handler at high-priority is a system post task used to process pending Rx
** data on UART0. The flag is used as a latch to stop the interrupt handler posting
** multiple pending requests. At low priority it is used the trigger interactive
** compile.
**
** The ins.data check detects up the first task call which used to initialise
** everything.
*/
extern int lua_main (void);
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static bool input_readline(void);
static void input_handler(platform_task_param_t flag, uint8 priority) {
(void) priority;
if (!ins.data) {
lua_main();
return;
}
ins.input_sig_flag = flag & 0x1;
while (input_readline()) {}
}
/*
** The input state (ins) is private, so input_setup() exposes the necessary
** access to public properties and is called in user_init() before the Lua
** enviroment is initialised. The second routine input_setup_receive() is
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** called in lua.c after the Lua environment is available to bind the Lua
** input handler. Any UART input before this receive setup is ignored.
*/
void input_setup(int bufsize, const char *prompt) {
// Initialise non-zero elements
ins.run_input = true;
ins.uart_echo = true;
ins.data = os_malloc(bufsize);
ins.len = bufsize;
ins.prompt = prompt;
ins.input_sig = platform_task_get_id(input_handler);
// pass the task CB parameters to the uart driver
uart_init_task(ins.input_sig, &ins.input_sig_flag);
ETS_UART_INTR_ENABLE();
}
void input_setup_receive(uart_cb_t uart_on_data_cb, int data_len, char end_char, bool run_input) {
ins.uart_cb = uart_on_data_cb;
ins.data_len = data_len;
ins.end_char = end_char;
ins.run_input = run_input;
}
void input_setecho (bool flag) {
ins.uart_echo = flag;
}
void input_setprompt (const char *prompt) {
ins.prompt = prompt;
}
/*
** input_readline() is called from the input_handler() event routine which is
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** posted by the UART Rx ISR posts. This works in one of two modes depending on
** the bool ins.run_input.
** - TRUE: it clears the UART FIFO up to EOL, doing any callback and sending
** the line to Lua.
** - FALSE: it clears the UART FIFO doing callbacks according to the data_len
** or end_char break.
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*/
extern void lua_input_string (const char *line, int len);
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static bool input_readline(void) {
char ch = NUL;
if (ins.run_input) {
while (uart_getc(&ch)) {
/* handle CR & LF characters and aggregate \n\r and \r\n pairs */
if ((ch == CR && ins.last_char == LF) ||
(ch == LF && ins.last_char == CR)) {
ins.last_char = NUL;
continue;
}
/* backspace key */
if (ch == DEL || ch == BS) {
if (ins.line_pos > 0) {
if(ins.uart_echo) sendStr(BS_OVER);
ins.line_pos--;
}
ins.data[ins.line_pos] = 0;
ins.last_char = NUL;
continue;
}
ins.last_char = ch;
/* end of data */
if (ch == CR || ch == LF) {
if (ins.uart_echo) putc(LF);
if (ins.uart_cb) ins.uart_cb(ins.data, ins.line_pos);
if (ins.line_pos == 0) {
/* Get a empty data, then go to get a new data */
sendStr(ins.prompt);
continue;
} else {
ins.data[ins.line_pos++] = LF;
lua_input_string(ins.data, ins.line_pos);
ins.line_pos = 0;
return true;
}
}
if(ins.uart_echo) putc(ch);
/* it's a large data, discard it */
if ( ins.line_pos + 1 >= ins.len ){
ins.line_pos = 0;
}
ins.data[ins.line_pos++] = ch;
}
} else {
if (!ins.uart_cb) {
while (uart_getc(&ch)) {}
} else if (ins.data_len == 0) {
while (uart_getc(&ch)) {
ins.uart_cb(&ch, 1);
}
} else {
while (uart_getc(&ch)) {
ins.data[ins.line_pos++] = ch;
if( ins.line_pos >= ins.len ||
(ins.data_len >= 0 && ins.line_pos >= ins.data_len) ||
(ins.data_len < 0 && ch == ins.end_char )) {
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ins.uart_cb(ins.data, ins.line_pos);
ins.line_pos = 0;
}
}
}
}
return false;
}