/**
* Marlin 3D Printer Firmware
* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*
*/
#include "../../../../inc/MarlinConfigPre.h"
#if BOTH(HAS_TFT_LVGL_UI, MKS_WIFI_MODULE)
#include "draw_ui.h"
#include "wifi_module.h"
#include "wifi_upload.h"
#include "SPI_TFT.h"
#include "../../../../MarlinCore.h"
#include "../../../../module/temperature.h"
#include "../../../../gcode/queue.h"
#include "../../../../gcode/gcode.h"
#include "../../../../lcd/marlinui.h"
#include "../../../../sd/cardreader.h"
#include "../../../../module/planner.h"
#include "../../../../module/servo.h"
#include "../../../../module/probe.h"
#if DISABLED(EMERGENCY_PARSER)
#include "../../../../module/motion.h"
#endif
#if ENABLED(POWER_LOSS_RECOVERY)
#include "../../../../feature/powerloss.h"
#endif
#if ENABLED(PARK_HEAD_ON_PAUSE)
#include "../../../../feature/pause.h"
#endif
#define WIFI_SET() WRITE(WIFI_RESET_PIN, HIGH);
#define WIFI_RESET() WRITE(WIFI_RESET_PIN, LOW);
#define WIFI_IO1_SET() WRITE(WIFI_IO1_PIN, HIGH);
#define WIFI_IO1_RESET() WRITE(WIFI_IO1_PIN, LOW);
extern uint8_t Explore_Disk (char* path , uint8_t recu_level);
extern uint8_t commands_in_queue;
extern uint8_t sel_id;
int usartFifoAvailable(SZ_USART_FIFO *fifo);
int readUsartFifo(SZ_USART_FIFO *fifo, int8_t *buf, int32_t len);
int writeUsartFifo(SZ_USART_FIFO * fifo, int8_t * buf, int32_t len);
extern unsigned int getTickDiff(unsigned int curTick, unsigned int lastTick);
volatile SZ_USART_FIFO WifiRxFifo;
#define WAIT_ESP_TRANS_TIMEOUT_TICK 10500
int cfg_cloud_flag = 0;
extern PRINT_TIME print_time;
char wifi_firm_ver[20] = { 0 };
WIFI_GCODE_BUFFER espGcodeFifo;
extern uint8_t pause_resum;
uint8_t wifi_connect_flg = 0;
extern volatile uint8_t get_temp_flag;
#define WIFI_MODE 2
#define WIFI_AP_MODE 3
int upload_result = 0;
uint32_t upload_time = 0;
uint32_t upload_size = 0;
volatile WIFI_STATE wifi_link_state;
WIFI_PARA wifiPara;
IP_PARA ipPara;
CLOUD_PARA cloud_para;
char wifi_check_time = 0;
extern uint8_t gCurDir[100];
extern uint32_t wifi_loop_cycle;
volatile TRANSFER_STATE esp_state;
uint8_t left_to_send = 0;
uint8_t left_to_save[96] = { 0 };
volatile WIFI_DMA_RCV_FIFO wifiDmaRcvFifo;
volatile WIFI_TRANS_ERROR wifiTransError;
static bool need_ok_later = false;
extern volatile WIFI_STATE wifi_link_state;
extern WIFI_PARA wifiPara;
extern IP_PARA ipPara;
extern CLOUD_PARA cloud_para;
extern bool once_flag, flash_preview_begin, default_preview_flg, gcode_preview_over;
extern bool flash_dma_mode;
uint32_t getWifiTick() { return millis(); }
uint32_t getWifiTickDiff(int32_t lastTick, int32_t curTick) {
if (lastTick <= curTick)
return (curTick - lastTick) * TICK_CYCLE;
else
return (0xFFFFFFFF - lastTick + curTick) * TICK_CYCLE;
}
void wifi_delay(int n) {
uint32_t begin = getWifiTick();
uint32_t end = begin;
while (getWifiTickDiff(begin, end) < (uint32_t)n) {
watchdog_refresh();
end = getWifiTick();
}
}
void wifi_reset() {
uint32_t start, now;
start = getWifiTick();
now = start;
WIFI_RESET();
while (getWifiTickDiff(start, now) < 500)
now = getWifiTick();
WIFI_SET();
}
void mount_file_sys(uint8_t disk_type) {
if (disk_type == FILE_SYS_SD) {
TERN_(SDSUPPORT, card.mount());
}
else if (disk_type == FILE_SYS_USB) {
}
}
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
void changeFlashMode(const bool dmaMode) {
if (flash_dma_mode != dmaMode) {
flash_dma_mode = dmaMode;
if (!flash_dma_mode) {
dma_disable(DMA1, DMA_CH5);
dma_clear_isr_bits(DMA1, DMA_CH4);
}
}
}
static bool longName2DosName(const char *longName, uint8_t *dosName) {
uint8_t i;
for (i = FILENAME_LENGTH; i--;) dosName[i] = '\0';
while (*longName) {
uint8_t c = *longName++;
if (c == '.') { // For a dot...
if (i == 0) return false;
strcat_P((char *)dosName, PSTR(".GCO"));
break;
}
else {
if (c < 0x21 || c == 0x7F) return false; // Check size, non-printable characters
// Fail for illegal characters
PGM_P p = PSTR("|<>^+=?/[];,*\"\\");
while (const uint8_t b = pgm_read_byte(p++)) if (b == c) return false;
dosName[i++] = c + (WITHIN(c, 'a', 'z') ? 'A' - 'a' : 0); // Uppercase required for 8.3 name
}
if (i >= 5) {
strcat_P((char *)dosName, PSTR("~1.GCO"));
break;
}
}
return dosName[0] != '\0'; // Return true if any name was set
}
static int storeRcvData(volatile uint8_t *bufToCpy, int32_t len) {
unsigned char tmpW = wifiDmaRcvFifo.write_cur;
if (len > UDISKBUFLEN) return 0;
if (wifiDmaRcvFifo.state[tmpW] == udisk_buf_empty) {
memcpy((unsigned char *) wifiDmaRcvFifo.bufferAddr[tmpW], (uint8_t *)bufToCpy, len);
wifiDmaRcvFifo.state[tmpW] = udisk_buf_full;
wifiDmaRcvFifo.write_cur = (tmpW + 1) % TRANS_RCV_FIFO_BLOCK_NUM;
return 1;
}
return 0;
}
static void esp_dma_pre() {
dma_channel_reg_map *channel_regs = dma_tube_regs(DMA1, DMA_CH5);
CBI32(channel_regs->CCR, 0);
channel_regs->CMAR = (uint32_t)WIFISERIAL.usart_device->rb->buf;
channel_regs->CNDTR = 0x0000;
channel_regs->CNDTR = UART_RX_BUFFER_SIZE;
DMA1->regs->IFCR = 0xF0000;
SBI32(channel_regs->CCR, 0);
}
static void dma_ch5_irq_handle() {
uint8 status_bits = dma_get_isr_bits(DMA1, DMA_CH5);
dma_clear_isr_bits(DMA1, DMA_CH5);
if (status_bits & 0x8) {
// DMA transmit Error
}
else if (status_bits & 0x2) {
// DMA transmit complete
if (esp_state == TRANSFER_IDLE)
esp_state = TRANSFERING;
if (storeRcvData(WIFISERIAL.usart_device->rb->buf, UART_RX_BUFFER_SIZE)) {
esp_dma_pre();
if (wifiTransError.flag != 0x1)
WIFI_IO1_RESET();
}
else {
WIFI_IO1_SET();
esp_state = TRANSFER_STORE;
}
}
else if (status_bits & 0x4) {
// DMA transmit half
WIFI_IO1_SET();
}
}
static void wifi_usart_dma_init() {
dma_init(DMA1);
uint32_t flags = ( DMA_MINC_MODE | DMA_TRNS_CMPLT | DMA_HALF_TRNS | DMA_TRNS_ERR);
dma_xfer_size dma_bit_size = DMA_SIZE_8BITS;
dma_setup_transfer(DMA1, DMA_CH5, &USART1_BASE->DR, dma_bit_size,
(volatile void*)WIFISERIAL.usart_device->rb->buf, dma_bit_size, flags);// Transmit buffer DMA
dma_set_priority(DMA1, DMA_CH5, DMA_PRIORITY_LOW);
dma_attach_interrupt(DMA1, DMA_CH5, &dma_ch5_irq_handle);
dma_clear_isr_bits(DMA1, DMA_CH5);
dma_set_num_transfers(DMA1, DMA_CH5, UART_RX_BUFFER_SIZE);
bb_peri_set_bit(&USART1_BASE->CR3, USART_CR3_DMAR_BIT, 1);
dma_enable(DMA1, DMA_CH5); // enable transmit
for (uint8_t i = 0; i < TRANS_RCV_FIFO_BLOCK_NUM; i++) {
wifiDmaRcvFifo.bufferAddr[i] = &bmp_public_buf[1024 * i];
wifiDmaRcvFifo.state[i] = udisk_buf_empty;
}
memset(wifiDmaRcvFifo.bufferAddr[0], 0, 1024 * TRANS_RCV_FIFO_BLOCK_NUM);
wifiDmaRcvFifo.read_cur = 0;
wifiDmaRcvFifo.write_cur = 0;
}
void esp_port_begin(uint8_t interrupt) {
WifiRxFifo.uart_read_point = 0;
WifiRxFifo.uart_write_point = 0;
#if 1
#if ENABLED(MKS_WIFI_MODULE)
WIFISERIAL.end();
if (interrupt) {
for (uint16_t i = 0; i < 65535; i++) { /*nada*/ }
WIFISERIAL.begin(WIFI_BAUDRATE);
millis_t serial_connect_timeout = millis() + 1000UL;
while (PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
}
else {
WIFISERIAL.usart_device->regs->CR1 &= ~USART_CR1_RXNEIE;
WIFISERIAL.begin(WIFI_UPLOAD_BAUDRATE);
wifi_usart_dma_init();
}
#endif
#else
#if MKS_WIFI_MODULE
WIFISERIAL.end();
for (uint16_t i = 0; i < 65535; i++) { /*nada*/ }
WIFISERIAL.begin(interrupt ? WIFI_BAUDRATE : WIFI_UPLOAD_BAUDRATE);
millis_t serial_connect_timeout = millis() + 1000UL;
while (PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
#endif
if (!interrupt) wifi_usart_dma_init();
#endif
}
#if ENABLED(MKS_WIFI_MODULE)
int raw_send_to_wifi(uint8_t *buf, int len) {
if (buf == 0 || len <= 0) return 0;
for (int i = 0; i < len; i++)
WIFISERIAL.write(*(buf + i));
return len;
}
#endif
void wifi_ret_ack() {}
uint8_t buf_to_wifi[256];
int index_to_wifi = 0;
int package_to_wifi(WIFI_RET_TYPE type, uint8_t *buf, int len) {
uint8_t wifi_ret_head = 0xA5;
uint8_t wifi_ret_tail = 0xFC;
if (type == WIFI_PARA_SET) {
int data_offset = 4;
int apLen = strlen((const char *)uiCfg.wifi_name);
int keyLen = strlen((const char *)uiCfg.wifi_key);
ZERO(buf_to_wifi);
index_to_wifi = 0;
buf_to_wifi[data_offset] = gCfgItems.wifi_mode_sel;
buf_to_wifi[data_offset + 1] = apLen;
memcpy(&buf_to_wifi[data_offset + 2], (const char *)uiCfg.wifi_name, apLen);
buf_to_wifi[data_offset + apLen + 2] = keyLen;
memcpy(&buf_to_wifi[data_offset + apLen + 3], (const char *)uiCfg.wifi_key, keyLen);
buf_to_wifi[data_offset + apLen + keyLen + 3] = wifi_ret_tail;
index_to_wifi = apLen + keyLen + 3;
buf_to_wifi[0] = wifi_ret_head;
buf_to_wifi[1] = type;
buf_to_wifi[2] = index_to_wifi & 0xFF;
buf_to_wifi[3] = (index_to_wifi >> 8) & 0xFF;
raw_send_to_wifi(buf_to_wifi, 5 + index_to_wifi);
ZERO(buf_to_wifi);
index_to_wifi = 0;
}
else if (type == WIFI_TRANS_INF) {
if (len > (int)(sizeof(buf_to_wifi) - index_to_wifi - 5)) {
ZERO(buf_to_wifi);
index_to_wifi = 0;
return 0;
}
if (len > 0) {
memcpy(&buf_to_wifi[4 + index_to_wifi], buf, len);
index_to_wifi += len;
if (index_to_wifi < 1)
return 0;
if (buf_to_wifi[index_to_wifi + 3] == '\n') {
// mask "wait" "busy" "X:"
if (((buf_to_wifi[4] == 'w') && (buf_to_wifi[5] == 'a') && (buf_to_wifi[6] == 'i') && (buf_to_wifi[7] == 't') )
|| ((buf_to_wifi[4] == 'b') && (buf_to_wifi[5] == 'u') && (buf_to_wifi[6] == 's') && (buf_to_wifi[7] == 'y') )
|| ((buf_to_wifi[4] == 'X') && (buf_to_wifi[5] == ':') )
) {
ZERO(buf_to_wifi);
index_to_wifi = 0;
return 0;
}
buf_to_wifi[0] = wifi_ret_head;
buf_to_wifi[1] = type;
buf_to_wifi[2] = index_to_wifi & 0xFF;
buf_to_wifi[3] = (index_to_wifi >> 8) & 0xFF;
buf_to_wifi[4 + index_to_wifi] = wifi_ret_tail;
raw_send_to_wifi(buf_to_wifi, 5 + index_to_wifi);
ZERO(buf_to_wifi);
index_to_wifi = 0;
}
}
}
else if (type == WIFI_EXCEP_INF) {
ZERO(buf_to_wifi);
buf_to_wifi[0] = wifi_ret_head;
buf_to_wifi[1] = type;
buf_to_wifi[2] = 1;
buf_to_wifi[3] = 0;
buf_to_wifi[4] = *buf;
buf_to_wifi[5] = wifi_ret_tail;
raw_send_to_wifi(buf_to_wifi, 6);
ZERO(buf_to_wifi);
index_to_wifi = 0;
}
else if (type == WIFI_CLOUD_CFG) {
int data_offset = 4;
int urlLen = strlen((const char *)uiCfg.cloud_hostUrl);
ZERO(buf_to_wifi);
index_to_wifi = 0;
buf_to_wifi[data_offset] = gCfgItems.cloud_enable ? 0x0A : 0x05;
buf_to_wifi[data_offset + 1] = urlLen;
memcpy(&buf_to_wifi[data_offset + 2], (const char *)uiCfg.cloud_hostUrl, urlLen);
buf_to_wifi[data_offset + urlLen + 2] = uiCfg.cloud_port & 0xFF;
buf_to_wifi[data_offset + urlLen + 3] = (uiCfg.cloud_port >> 8) & 0xFF;
buf_to_wifi[data_offset + urlLen + 4] = wifi_ret_tail;
index_to_wifi = urlLen + 4;
buf_to_wifi[0] = wifi_ret_head;
buf_to_wifi[1] = type;
buf_to_wifi[2] = index_to_wifi & 0xFF;
buf_to_wifi[3] = (index_to_wifi >> 8) & 0xFF;
raw_send_to_wifi(buf_to_wifi, 5 + index_to_wifi);
ZERO(buf_to_wifi);
index_to_wifi = 0;
}
else if (type == WIFI_CLOUD_UNBIND) {
ZERO(buf_to_wifi);
buf_to_wifi[0] = wifi_ret_head;
buf_to_wifi[1] = type;
buf_to_wifi[2] = 0;
buf_to_wifi[3] = 0;
buf_to_wifi[4] = wifi_ret_tail;
raw_send_to_wifi(buf_to_wifi, 5);
ZERO(buf_to_wifi);
index_to_wifi = 0;
}
return 1;
}
#define SEND_OK_TO_WIFI send_to_wifi((uint8_t *)"ok\r\n", strlen("ok\r\n"))
int send_to_wifi(uint8_t *buf, int len) { return package_to_wifi(WIFI_TRANS_INF, buf, len); }
void set_cur_file_sys(int fileType) { gCfgItems.fileSysType = fileType; }
void get_file_list(char *path) {
if (!path) return;
if (gCfgItems.fileSysType == FILE_SYS_SD) {
TERN_(SDSUPPORT, card.mount());
}
else if (gCfgItems.fileSysType == FILE_SYS_USB) {
// udisk
}
Explore_Disk(path, 0);
}
char wait_ip_back_flag = 0;
typedef struct {
int write_index;
uint8_t saveFileName[30];
uint8_t fileTransfer;
uint32_t fileLen;
uint32_t tick_begin;
uint32_t tick_end;
} FILE_WRITER;
FILE_WRITER file_writer;
int32_t lastFragment = 0;
char saveFilePath[50];
static SdFile upload_file, *upload_curDir;
static filepos_t pos;
int write_to_file(char *buf, int len) {
int i;
int res = 0;
for (i = 0; i < len; i++) {
public_buf[file_writer.write_index++] = buf[i];
if (file_writer.write_index >= 512) {
res = upload_file.write(public_buf, file_writer.write_index);
if (res == -1) {
upload_file.close();
const char * const fname = card.diveToFile(true, upload_curDir, saveFilePath);
if (upload_file.open(upload_curDir, fname, O_WRITE)) {
upload_file.setpos(&pos);
res = upload_file.write(public_buf, file_writer.write_index);
}
}
if (res == -1) return -1;
upload_file.getpos(&pos);
file_writer.write_index = 0;
}
}
if (res == -1) {
ZERO(public_buf);
file_writer.write_index = 0;
return -1;
}
return 0;
}
#define ESP_PROTOC_HEAD (uint8_t)0xA5
#define ESP_PROTOC_TAIL (uint8_t)0xFC
#define ESP_TYPE_NET (uint8_t)0x0
#define ESP_TYPE_GCODE (uint8_t)0x1
#define ESP_TYPE_FILE_FIRST (uint8_t)0x2
#define ESP_TYPE_FILE_FRAGMENT (uint8_t)0x3
#define ESP_TYPE_WIFI_LIST (uint8_t)0x4
uint8_t esp_msg_buf[UART_RX_BUFFER_SIZE] = { 0 };
uint16_t esp_msg_index = 0;
typedef struct {
uint8_t head;
uint8_t type;
uint16_t dataLen;
uint8_t *data;
uint8_t tail;
} ESP_PROTOC_FRAME;
static int cut_msg_head(uint8_t *msg, uint16_t msgLen, uint16_t cutLen) {
if (msgLen < cutLen) return 0;
else if (msgLen == cutLen) {
memset(msg, 0, msgLen);
return 0;
}
for (int i = 0; i < (msgLen - cutLen); i++)
msg[i] = msg[cutLen + i];
memset(&msg[msgLen - cutLen], 0, cutLen);
return msgLen - cutLen;
}
uint8_t Explore_Disk(char* path , uint8_t recu_level) {
char tmp[200];
char Fstream[200];
if (!path) return 0;
const uint8_t fileCnt = card.get_num_Files();
for (uint8_t i = 0; i < fileCnt; i++) {
card.getfilename_sorted(SD_ORDER(i, fileCnt));
ZERO(tmp);
strcpy(tmp, card.filename);
ZERO(Fstream);
strcpy(Fstream, tmp);
if (card.flag.filenameIsDir && recu_level <= 10)
strcat_P(Fstream, PSTR(".DIR"));
strcat_P(Fstream, PSTR("\r\n"));
send_to_wifi((uint8_t*)Fstream, strlen(Fstream));
}
return fileCnt;
}
static void wifi_gcode_exec(uint8_t *cmd_line) {
int8_t tempBuf[100] = { 0 };
uint8_t *tmpStr = 0;
int cmd_value;
volatile int print_rate;
if (strchr((char *)cmd_line, '\n') && (strchr((char *)cmd_line, 'G') || strchr((char *)cmd_line, 'M') || strchr((char *)cmd_line, 'T'))) {
tmpStr = (uint8_t *)strchr((char *)cmd_line, '\n');
if (tmpStr) *tmpStr = '\0';
tmpStr = (uint8_t *)strchr((char *)cmd_line, '\r');
if (tmpStr) *tmpStr = '\0';
tmpStr = (uint8_t *)strchr((char *)cmd_line, '*');
if (tmpStr) *tmpStr = '\0';
tmpStr = (uint8_t *)strchr((char *)cmd_line, 'M');
if (tmpStr) {
cmd_value = atoi((char *)(tmpStr + 1));
tmpStr = (uint8_t *)strchr((char *)tmpStr, ' ');
switch (cmd_value) {
case 20: // M20: Print SD / µdisk file
file_writer.fileTransfer = 0;
if (uiCfg.print_state == IDLE) {
int index = 0;
if (tmpStr == 0) {
gCfgItems.fileSysType = FILE_SYS_SD;
send_to_wifi((uint8_t *)"Begin file list\r\n", strlen("Begin file list\r\n"));
get_file_list((char *)"0:/");
send_to_wifi((uint8_t *)"End file list\r\n", strlen("End file list\r\n"));
SEND_OK_TO_WIFI;
break;
}
while (tmpStr[index] == ' ') index++;
if (gCfgItems.wifi_type == ESP_WIFI) {
char *path = (char *)tempBuf;
if (strlen((char *)&tmpStr[index]) < 80) {
send_to_wifi((uint8_t *)"Begin file list\r\n", strlen("Begin file list\r\n"));
if (strncmp((char *)&tmpStr[index], "1:", 2) == 0)
gCfgItems.fileSysType = FILE_SYS_SD;
else if (strncmp((char *)&tmpStr[index], "0:", 2) == 0)
gCfgItems.fileSysType = FILE_SYS_USB;
strcpy((char *)path, (char *)&tmpStr[index]);
get_file_list(path);
send_to_wifi((uint8_t *)"End file list\r\n", strlen("End file list\r\n"));
}
SEND_OK_TO_WIFI;
}
}
break;
case 21:
/*init sd card*/
SEND_OK_TO_WIFI;
break;
case 23:
/*select the file*/
if (uiCfg.print_state == IDLE) {
int index = 0;
while (tmpStr[index] == ' ') index++;
if (strstr_P((char *)&tmpStr[index], PSTR(".g")) || strstr_P((char *)&tmpStr[index], PSTR(".G"))) {
if (strlen((char *)&tmpStr[index]) < 80) {
ZERO(list_file.file_name[sel_id]);
ZERO(list_file.long_name[sel_id]);
uint8_t has_path_selected = 0;
if (gCfgItems.wifi_type == ESP_WIFI) {
if (strncmp_P((char *)&tmpStr[index], PSTR("1:"), 2) == 0) {
gCfgItems.fileSysType = FILE_SYS_SD;
has_path_selected = 1;
}
else if (strncmp_P((char *)&tmpStr[index], PSTR("0:"), 2) == 0) {
gCfgItems.fileSysType = FILE_SYS_USB;
has_path_selected = 1;
}
else if (tmpStr[index] != '/')
strcat_P((char *)list_file.file_name[sel_id], PSTR("/"));
if (file_writer.fileTransfer == 1) {
uint8_t dosName[FILENAME_LENGTH];
uint8_t fileName[sizeof(list_file.file_name[sel_id])];
fileName[0] = '\0';
if (has_path_selected == 1) {
strcat((char *)fileName, (char *)&tmpStr[index + 3]);
strcat_P((char *)list_file.file_name[sel_id], PSTR("/"));
}
else strcat((char *)fileName, (char *)&tmpStr[index]);
if (!longName2DosName((const char *)fileName, dosName))
strcpy_P(list_file.file_name[sel_id], PSTR("notValid"));
strcat((char *)list_file.file_name[sel_id], (char *)dosName);
strcat((char *)list_file.long_name[sel_id], (char *)dosName);
}
else {
strcat((char *)list_file.file_name[sel_id], (char *)&tmpStr[index]);
strcat((char *)list_file.long_name[sel_id], (char *)&tmpStr[index]);
}
}
else
strcpy(list_file.file_name[sel_id], (char *)&tmpStr[index]);
char *cur_name=strrchr(list_file.file_name[sel_id],'/');
card.openFileRead(cur_name);
if (card.isFileOpen())
send_to_wifi((uint8_t *)"File selected\r\n", strlen("File selected\r\n"));
else {
send_to_wifi((uint8_t *)"file.open failed\r\n", strlen("file.open failed\r\n"));
strcpy_P(list_file.file_name[sel_id], PSTR("notValid"));
}
SEND_OK_TO_WIFI;
}
}
}
break;
case 24:
if (strcmp_P(list_file.file_name[sel_id], PSTR("notValid")) != 0) {
if (uiCfg.print_state == IDLE) {
clear_cur_ui();
reset_print_time();
start_print_time();
preview_gcode_prehandle(list_file.file_name[sel_id]);
uiCfg.print_state = WORKING;
lv_draw_printing();
#if ENABLED(SDSUPPORT)
if (!gcode_preview_over) {
char *cur_name = strrchr(list_file.file_name[sel_id], '/');
card.endFilePrint();
SdFile file;
SdFile *curDir;
card.endFilePrint();
const char * const fname = card.diveToFile(true, curDir, cur_name);
if (!fname) return;
if (file.open(curDir, fname, O_READ)) {
gCfgItems.curFilesize = file.fileSize();
file.close();
update_spi_flash();
}
card.openFileRead(cur_name);
if (card.isFileOpen()) {
//saved_feedrate_percentage = feedrate_percentage;
feedrate_percentage = 100;
planner.flow_percentage[0] = 100;
planner.e_factor[0] = planner.flow_percentage[0] * 0.01f;
#if EXTRUDERS == 2
planner.flow_percentage[1] = 100;
planner.e_factor[1] = planner.flow_percentage[1] * 0.01f;
#endif
card.startFileprint();
TERN_(POWER_LOSS_RECOVERY, recovery.prepare());
once_flag = false;
}
}
#endif
}
else if (uiCfg.print_state == PAUSED) {
uiCfg.print_state = RESUMING;
clear_cur_ui();
start_print_time();
if (gCfgItems.from_flash_pic)
flash_preview_begin = true;
else
default_preview_flg = true;
lv_draw_printing();
}
else if (uiCfg.print_state == REPRINTING) {
uiCfg.print_state = REPRINTED;
clear_cur_ui();
start_print_time();
if (gCfgItems.from_flash_pic)
flash_preview_begin = true;
else
default_preview_flg = true;
lv_draw_printing();
}
}
SEND_OK_TO_WIFI;
break;
case 25:
/*pause print file*/
if (uiCfg.print_state == WORKING) {
stop_print_time();
clear_cur_ui();
#if ENABLED(SDSUPPORT)
card.pauseSDPrint();
uiCfg.print_state = PAUSING;
#endif
if (gCfgItems.from_flash_pic)
flash_preview_begin = true;
else
default_preview_flg = true;
lv_draw_printing();
SEND_OK_TO_WIFI;
}
break;
case 26:
/*stop print file*/
if ((uiCfg.print_state == WORKING) || (uiCfg.print_state == PAUSED) || (uiCfg.print_state == REPRINTING)) {
stop_print_time();
clear_cur_ui();
#if ENABLED(SDSUPPORT)
uiCfg.print_state = IDLE;
card.flag.abort_sd_printing = true;
#endif
lv_draw_ready_print();
SEND_OK_TO_WIFI;
}
break;
case 27:
/*report print rate*/
if ((uiCfg.print_state == WORKING) || (uiCfg.print_state == PAUSED)|| (uiCfg.print_state == REPRINTING)) {
print_rate = uiCfg.totalSend;
ZERO(tempBuf);
sprintf_P((char *)tempBuf, PSTR("M27 %d\r\n"), print_rate);
send_to_wifi((uint8_t *)tempBuf, strlen((char *)tempBuf));
}
break;
case 28:
/*begin to transfer file to filesys*/
if (uiCfg.print_state == IDLE) {
int index = 0;
while (tmpStr[index] == ' ') index++;
if (strstr_P((char *)&tmpStr[index], PSTR(".g")) || strstr_P((char *)&tmpStr[index], PSTR(".G"))) {
strcpy((char *)file_writer.saveFileName, (char *)&tmpStr[index]);
if (gCfgItems.fileSysType == FILE_SYS_SD) {
ZERO(tempBuf);
sprintf_P((char *)tempBuf, PSTR("%s"), file_writer.saveFileName);
}
else if (gCfgItems.fileSysType == FILE_SYS_USB) {
ZERO(tempBuf);
sprintf_P((char *)tempBuf, PSTR("%s"), (char *)file_writer.saveFileName);
}
mount_file_sys(gCfgItems.fileSysType);
#if ENABLED(SDSUPPORT)
char *cur_name = strrchr(list_file.file_name[sel_id], '/');
card.openFileWrite(cur_name);
if (card.isFileOpen()) {
ZERO(file_writer.saveFileName);
strcpy((char *)file_writer.saveFileName, (char *)&tmpStr[index]);
ZERO(tempBuf);
sprintf_P((char *)tempBuf, PSTR("Writing to file: %s\r\n"), (char *)file_writer.saveFileName);
wifi_ret_ack();
send_to_wifi((uint8_t *)tempBuf, strlen((char *)tempBuf));
wifi_link_state = WIFI_WAIT_TRANS_START;
}
else {
wifi_link_state = WIFI_CONNECTED;
clear_cur_ui();
lv_draw_dialog(DIALOG_TRANSFER_NO_DEVICE);
}
#endif
}
}
break;
case 105:
case 991:
ZERO(tempBuf);
if (cmd_value == 105) {
SEND_OK_TO_WIFI;
char *outBuf = (char *)tempBuf;
char str_1[16], tbuf[34];
dtostrf(thermalManager.temp_hotend[0].celsius, 1, 1, tbuf);
strcat_P(tbuf, PSTR(" /"));
strcat(tbuf, dtostrf(thermalManager.temp_hotend[0].target, 1, 1, str_1));
const int tlen = strlen(tbuf);
sprintf_P(outBuf, PSTR("T:%s"), tbuf);
outBuf += 2 + tlen;
strcpy_P(outBuf, PSTR(" B:"));
outBuf += 3;
#if HAS_HEATED_BED
strcpy(outBuf, dtostrf(thermalManager.temp_bed.celsius, 1, 1, str_1));
strcat_P(outBuf, PSTR(" /"));
strcat(outBuf, dtostrf(thermalManager.temp_bed.target, 1, 1, str_1));
#else
strcpy_P(outBuf, PSTR("0 /0"));
#endif
outBuf += 4;
strcat_P(outBuf, PSTR(" T0:"));
strcat(outBuf, tbuf);
outBuf += 4 + tlen;
strcat_P(outBuf, PSTR(" T1:"));
outBuf += 4;
#if HAS_MULTI_HOTEND
strcat(outBuf, dtostrf(thermalManager.temp_hotend[1].celsius, 1, 1, str_1));
strcat_P(outBuf, PSTR(" /"));
strcat(outBuf, dtostrf(thermalManager.temp_hotend[1].target, 1, 1, str_1));
#else
strcat_P(outBuf, PSTR("0 /0"));
#endif
outBuf += 4;
strcat_P(outBuf, PSTR(" @:0 B@:0\r\n"));
}
else {
sprintf_P((char *)tempBuf, PSTR("T:%d /%d B:%d /%d T0:%d /%d T1:%d /%d @:0 B@:0\r\n"),
(int)thermalManager.temp_hotend[0].celsius, (int)thermalManager.temp_hotend[0].target,
#if HAS_HEATED_BED
(int)thermalManager.temp_bed.celsius, (int)thermalManager.temp_bed.target,
#else
0, 0,
#endif
(int)thermalManager.temp_hotend[0].celsius, (int)thermalManager.temp_hotend[0].target,
#if HAS_MULTI_HOTEND
(int)thermalManager.temp_hotend[1].celsius, (int)thermalManager.temp_hotend[1].target
#else
0, 0
#endif
);
}
send_to_wifi((uint8_t *)tempBuf, strlen((char *)tempBuf));
queue.enqueue_one_P(PSTR("M105"));
break;
case 992:
if ((uiCfg.print_state == WORKING) || (uiCfg.print_state == PAUSED)) {
ZERO(tempBuf);
sprintf_P((char *)tempBuf, PSTR("M992 %d%d:%d%d:%d%d\r\n"), print_time.hours/10, print_time.hours%10, print_time.minutes/10, print_time.minutes%10, print_time.seconds/10, print_time.seconds%10);
wifi_ret_ack();
send_to_wifi((uint8_t *)tempBuf, strlen((char *)tempBuf));
}
break;
case 994:
if ((uiCfg.print_state == WORKING) || (uiCfg.print_state == PAUSED)) {
ZERO(tempBuf);
if (strlen((char *)list_file.file_name[sel_id]) > (100 - 1)) return;
sprintf_P((char *)tempBuf, PSTR("M994 %s;%d\n"), list_file.file_name[sel_id], (int)gCfgItems.curFilesize);
wifi_ret_ack();
send_to_wifi((uint8_t *)tempBuf, strlen((char *)tempBuf));
}
break;
case 997:
if (uiCfg.print_state == IDLE) {
wifi_ret_ack();
send_to_wifi((uint8_t *)"M997 IDLE\r\n", strlen("M997 IDLE\r\n"));
}
else if (uiCfg.print_state == WORKING) {
wifi_ret_ack();
send_to_wifi((uint8_t *)"M997 PRINTING\r\n", strlen("M997 PRINTING\r\n"));
}
else if (uiCfg.print_state == PAUSED) {
wifi_ret_ack();
send_to_wifi((uint8_t *)"M997 PAUSE\r\n", strlen("M997 PAUSE\r\n"));
}
else if (uiCfg.print_state == REPRINTING) {
wifi_ret_ack();
send_to_wifi((uint8_t *)"M997 PAUSE\r\n", strlen("M997 PAUSE\r\n"));
}
if (!uiCfg.command_send) get_wifi_list_command_send();
break;
case 998:
if (uiCfg.print_state == IDLE) {
int v = atoi((char *)tmpStr);
if (v == 0)
set_cur_file_sys(0);
else if (v == 1)
set_cur_file_sys(1);
wifi_ret_ack();
}
break;
case 115:
ZERO(tempBuf);
SEND_OK_TO_WIFI;
send_to_wifi((uint8_t *)"FIRMWARE_NAME:Robin_nano\r\n", strlen("FIRMWARE_NAME:Robin_nano\r\n"));
break;
default:
strcat_P((char *)cmd_line, PSTR("\n"));
if (espGcodeFifo.wait_tick > 5) {
uint32_t left;
if (espGcodeFifo.r > espGcodeFifo.w)
left = espGcodeFifo.r - espGcodeFifo.w - 1;
else
left = WIFI_GCODE_BUFFER_SIZE + espGcodeFifo.r - espGcodeFifo.w - 1;
if (left >= strlen((const char *)cmd_line)) {
uint32_t index = 0;
while (index < strlen((const char *)cmd_line)) {
espGcodeFifo.Buffer[espGcodeFifo.w] = cmd_line[index] ;
espGcodeFifo.w = (espGcodeFifo.w + 1) % WIFI_GCODE_BUFFER_SIZE;
index++;
}
if (left - WIFI_GCODE_BUFFER_LEAST_SIZE >= strlen((const char *)cmd_line))
SEND_OK_TO_WIFI;
else
need_ok_later = true;
}
}
break;
}
}
else {
strcat_P((char *)cmd_line, PSTR("\n"));
if (espGcodeFifo.wait_tick > 5) {
uint32_t left_g;
if (espGcodeFifo.r > espGcodeFifo.w)
left_g = espGcodeFifo.r - espGcodeFifo.w - 1;
else
left_g = WIFI_GCODE_BUFFER_SIZE + espGcodeFifo.r - espGcodeFifo.w - 1;
if (left_g >= strlen((const char *)cmd_line)) {
uint32_t index = 0;
while (index < strlen((const char *)cmd_line)) {
espGcodeFifo.Buffer[espGcodeFifo.w] = cmd_line[index] ;
espGcodeFifo.w = (espGcodeFifo.w + 1) % WIFI_GCODE_BUFFER_SIZE;
index++;
}
if (left_g - WIFI_GCODE_BUFFER_LEAST_SIZE >= strlen((const char *)cmd_line))
SEND_OK_TO_WIFI;
else
need_ok_later = true;
}
}
}
}
}
static int32_t charAtArray(const uint8_t *_array, uint32_t _arrayLen, uint8_t _char) {
for (uint32_t i = 0; i < _arrayLen; i++)
if (*(_array + i) == _char) return i;
return -1;
}
void get_wifi_list_command_send() {
uint8_t cmd_wifi_list[] = { 0xA5, 0x07, 0x00, 0x00, 0xFC };
raw_send_to_wifi(cmd_wifi_list, COUNT(cmd_wifi_list));
}
static void net_msg_handle(uint8_t * msg, uint16_t msgLen) {
int wifiNameLen, wifiKeyLen, hostLen, id_len, ver_len;
if (msgLen <= 0) return;
// ip
sprintf_P(ipPara.ip_addr, PSTR("%d.%d.%d.%d"), msg[0], msg[1], msg[2], msg[3]);
// port
// connect state
switch (msg[6]) {
case 0x0A: wifi_link_state = WIFI_CONNECTED; break;
case 0x0E: wifi_link_state = WIFI_EXCEPTION; break;
default: wifi_link_state = WIFI_NOT_CONFIG; break;
}
// mode
wifiPara.mode = msg[7];
// wifi name
wifiNameLen = msg[8];
wifiKeyLen = msg[9 + wifiNameLen];
if (wifiNameLen < 32) {
ZERO(wifiPara.ap_name);
memcpy(wifiPara.ap_name, &msg[9], wifiNameLen);
memset(&wifi_list.wifiConnectedName, 0, sizeof(wifi_list.wifiConnectedName));
memcpy(&wifi_list.wifiConnectedName, &msg[9], wifiNameLen);
// wifi key
if (wifiKeyLen < 64) {
ZERO(wifiPara.keyCode);
memcpy(wifiPara.keyCode, &msg[10 + wifiNameLen], wifiKeyLen);
}
}
cloud_para.state =msg[10 + wifiNameLen + wifiKeyLen];
hostLen = msg[11 + wifiNameLen + wifiKeyLen];
if (cloud_para.state) {
if (hostLen < 96) {
ZERO(cloud_para.hostUrl);
memcpy(cloud_para.hostUrl, &msg[12 + wifiNameLen + wifiKeyLen], hostLen);
}
cloud_para.port = msg[12 + wifiNameLen + wifiKeyLen + hostLen] + (msg[13 + wifiNameLen + wifiKeyLen + hostLen] << 8);
}
// id
id_len = msg[14 + wifiNameLen + wifiKeyLen + hostLen];
if (id_len == 20) {
ZERO(cloud_para.id);
memcpy(cloud_para.id, (const char *)&msg[15 + wifiNameLen + wifiKeyLen + hostLen], id_len);
}
ver_len = msg[15 + wifiNameLen + wifiKeyLen + hostLen + id_len];
if (ver_len < 20) {
ZERO(wifi_firm_ver);
memcpy(wifi_firm_ver, (const char *)&msg[16 + wifiNameLen + wifiKeyLen + hostLen + id_len], ver_len);
}
if (uiCfg.configWifi) {
if ((wifiPara.mode != gCfgItems.wifi_mode_sel)
|| (strncmp(wifiPara.ap_name, (const char *)uiCfg.wifi_name, 32) != 0)
|| (strncmp(wifiPara.keyCode, (const char *)uiCfg.wifi_key, 64) != 0)) {
package_to_wifi(WIFI_PARA_SET, (uint8_t *)0, 0);
}
else uiCfg.configWifi = false;
}
if (cfg_cloud_flag == 1) {
if (((cloud_para.state >> 4) != (char)gCfgItems.cloud_enable)
|| (strncmp(cloud_para.hostUrl, (const char *)uiCfg.cloud_hostUrl, 96) != 0)
|| (cloud_para.port != uiCfg.cloud_port)) {
package_to_wifi(WIFI_CLOUD_CFG, (uint8_t *)0, 0);
}
else cfg_cloud_flag = 0;
}
}
static void wifi_list_msg_handle(uint8_t * msg, uint16_t msgLen) {
int wifiNameLen,wifiMsgIdex = 1;
int8_t wifi_name_is_same = 0;
int8_t i, j;
int8_t wifi_name_num = 0;
uint8_t *str = 0;
int8_t valid_name_num;
if (msgLen <= 0) return;
if (disp_state == KEY_BOARD_UI) return;
wifi_list.getNameNum = msg[0];
if (wifi_list.getNameNum < 20) {
uiCfg.command_send = true;
ZERO(wifi_list.wifiName);
wifi_name_num = wifi_list.getNameNum;
valid_name_num = 0;
str = wifi_list.wifiName[0];
if (wifi_list.getNameNum > 0) wifi_list.currentWifipage = 1;
for (i = 0; i < wifi_list.getNameNum; i++) {
wifiNameLen = msg[wifiMsgIdex++];
if (wifiNameLen < 32) {
memset(str, 0, WIFI_NAME_BUFFER_SIZE);
memcpy(str, &msg[wifiMsgIdex], wifiNameLen);
for (j = 0; j < valid_name_num; j++) {
if (strcmp((const char *)str, (const char *)wifi_list.wifiName[j]) == 0) {
wifi_name_is_same = 1;
break;
}
}
if (wifi_name_is_same != 1 && str[0] > 0x80)
wifi_name_is_same = 1;
if (wifi_name_is_same == 1) {
wifi_name_is_same = 0;
wifiMsgIdex += wifiNameLen;
wifiMsgIdex += 1;
wifi_name_num--;
//i--;
continue;
}
if (i < WIFI_TOTAL_NUMBER - 1)
str = wifi_list.wifiName[++valid_name_num];
}
wifiMsgIdex += wifiNameLen;
wifi_list.RSSI[i] = msg[wifiMsgIdex++];
}
wifi_list.getNameNum = wifi_name_num;
wifi_list.getPage = wifi_list.getNameNum / NUMBER_OF_PAGE + ((wifi_list.getNameNum % NUMBER_OF_PAGE) != 0);
wifi_list.nameIndex = 0;
if (disp_state == WIFI_LIST_UI) disp_wifi_list();
}
}
static void gcode_msg_handle(uint8_t * msg, uint16_t msgLen) {
uint8_t gcodeBuf[100] = { 0 };
char *index_s, *index_e;
if (msgLen <= 0) return;
index_s = (char *)msg;
index_e = (char *)strchr((char *)msg, '\n');
if (*msg == 'N') {
index_s = (char *)strchr((char *)msg, ' ');
while (*index_s == ' ') index_s++;
}
while ((index_e != 0) && ((int)index_s < (int)index_e)) {
if ((int)(index_e - index_s) < (int)sizeof(gcodeBuf)) {
ZERO(gcodeBuf);
memcpy(gcodeBuf, index_s, index_e - index_s + 1);
wifi_gcode_exec(gcodeBuf);
}
while ((*index_e == '\r') || (*index_e == '\n')) index_e++;
index_s = index_e;
index_e = (char *)strchr(index_s, '\n');
}
}
void utf8_2_unicode(uint8_t *source, uint8_t Len) {
uint8_t i = 0, char_i = 0, char_byte_num = 0;
uint16_t u16_h, u16_m, u16_l, u16_value;
uint8_t FileName_unicode[30];
ZERO(FileName_unicode);
while (1) {
char_byte_num = source[i] & 0xF0;
if (source[i] < 0X80) {
//ASCII --1byte
FileName_unicode[char_i] = source[i];
i += 1;
char_i += 1;
}
else if (char_byte_num == 0XC0 || char_byte_num == 0XD0) {
//--2byte
u16_h = (((uint16_t)source[i] << 8) & 0x1F00) >> 2;
u16_l = ((uint16_t)source[i + 1] & 0x003F);
u16_value = (u16_h | u16_l);
FileName_unicode[char_i] = (uint8_t)((u16_value & 0xFF00) >> 8);
FileName_unicode[char_i + 1] = (uint8_t)(u16_value & 0x00FF);
i += 2;
char_i += 2;
}
else if (char_byte_num == 0XE0) {
//--3byte
u16_h = (((uint16_t)source[i] << 8) & 0x0F00) << 4;
u16_m = (((uint16_t)source[i + 1] << 8) & 0x3F00) >> 2;
u16_l = ((uint16_t)source[i + 2] & 0x003F);
u16_value = (u16_h | u16_m | u16_l);
FileName_unicode[char_i] = (uint8_t)((u16_value & 0xFF00) >> 8);
FileName_unicode[char_i + 1] = (uint8_t)(u16_value & 0x00FF);
i += 3;
char_i += 2;
}
else if (char_byte_num == 0XF0) {
//--4byte
i += 4;
//char_i += 3;
}
else
break;
if (i >= Len || i >= 255) break;
}
COPY(source, FileName_unicode);
}
static void file_first_msg_handle(uint8_t * msg, uint16_t msgLen) {
uint8_t fileNameLen = *msg;
if (msgLen != fileNameLen + 5) return;
file_writer.fileLen = *((uint32_t *)(msg + 1));
ZERO(file_writer.saveFileName);
memcpy(file_writer.saveFileName, msg + 5, fileNameLen);
utf8_2_unicode(file_writer.saveFileName,fileNameLen);
ZERO(public_buf);
if (strlen((const char *)file_writer.saveFileName) > sizeof(saveFilePath))
return;
ZERO(saveFilePath);
if (gCfgItems.fileSysType == FILE_SYS_SD) {
TERN_(SDSUPPORT, card.mount());
}
else if (gCfgItems.fileSysType == FILE_SYS_USB) {
}
file_writer.write_index = 0;
lastFragment = -1;
wifiTransError.flag = 0;
wifiTransError.start_tick = 0;
wifiTransError.now_tick = 0;
TERN_(SDSUPPORT, card.closefile());
wifi_delay(1000);
#if ENABLED(SDSUPPORT)
uint8_t dosName[FILENAME_LENGTH];
if (!longName2DosName((const char *)file_writer.saveFileName,dosName)) {
clear_cur_ui();
upload_result = 2;
wifiTransError.flag = 1;
wifiTransError.start_tick = getWifiTick();
lv_draw_dialog(DIALOG_TYPE_UPLOAD_FILE);
return;
}
sprintf_P((char *)saveFilePath, PSTR("%s"), dosName);
card.cdroot();
upload_file.close();
const char * const fname = card.diveToFile(true, upload_curDir, saveFilePath);
if (!upload_file.open(upload_curDir, fname, O_CREAT | O_APPEND | O_WRITE | O_TRUNC)) {
clear_cur_ui();
upload_result = 2;
wifiTransError.flag = 1;
wifiTransError.start_tick = getWifiTick();
lv_draw_dialog(DIALOG_TYPE_UPLOAD_FILE);
return;
}
#endif // SDSUPPORT
wifi_link_state = WIFI_TRANS_FILE;
upload_result = 1;
clear_cur_ui();
lv_draw_dialog(DIALOG_TYPE_UPLOAD_FILE);
lv_task_handler();
file_writer.tick_begin = getWifiTick();
file_writer.fileTransfer = 1;
}
#define FRAG_MASK ~_BV32(31)
static void file_fragment_msg_handle(uint8_t * msg, uint16_t msgLen) {
uint32_t frag = *((uint32_t *)msg);
if ((frag & FRAG_MASK) != (uint32_t)(lastFragment + 1)) {
ZERO(public_buf);
file_writer.write_index = 0;
wifi_link_state = WIFI_CONNECTED;
upload_result = 2;
}
else {
if (write_to_file((char *)msg + 4, msgLen - 4) < 0) {
ZERO(public_buf);
file_writer.write_index = 0;
wifi_link_state = WIFI_CONNECTED;
upload_result = 2;
return;
}
lastFragment = frag;
if ((frag & (~FRAG_MASK)) != 0) {
int res = upload_file.write(public_buf, file_writer.write_index);
if (res == -1) {
upload_file.close();
const char * const fname = card.diveToFile(true, upload_curDir, saveFilePath);
if (upload_file.open(upload_curDir, fname, O_WRITE)) {
upload_file.setpos(&pos);
res = upload_file.write(public_buf, file_writer.write_index);
}
}
upload_file.close();
SdFile file, *curDir;
const char * const fname = card.diveToFile(true, curDir, saveFilePath);
if (file.open(curDir, fname, O_RDWR)) {
gCfgItems.curFilesize = file.fileSize();
file.close();
}
else {
ZERO(public_buf);
file_writer.write_index = 0;
wifi_link_state = WIFI_CONNECTED;
upload_result = 2;
return;
}
ZERO(public_buf);
file_writer.write_index = 0;
file_writer.tick_end = getWifiTick();
upload_time = getWifiTickDiff(file_writer.tick_begin, file_writer.tick_end) / 1000;
upload_size = gCfgItems.curFilesize;
wifi_link_state = WIFI_CONNECTED;
upload_result = 3;
}
}
}
void esp_data_parser(char *cmdRxBuf, int len) {
int32_t head_pos, tail_pos;
uint16_t cpyLen;
int16_t leftLen = len;
bool loop_again = false;
ESP_PROTOC_FRAME esp_frame;
while (leftLen > 0 || loop_again) {
loop_again = false;
if (esp_msg_index != 0) {
head_pos = 0;
cpyLen = (leftLen < (int16_t)((sizeof(esp_msg_buf) - esp_msg_index)) ? leftLen : sizeof(esp_msg_buf) - esp_msg_index);
memcpy(&esp_msg_buf[esp_msg_index], cmdRxBuf + len - leftLen, cpyLen);
esp_msg_index += cpyLen;
leftLen = leftLen - cpyLen;
tail_pos = charAtArray(esp_msg_buf, esp_msg_index, ESP_PROTOC_TAIL);
if (tail_pos == -1) {
if (esp_msg_index >= sizeof(esp_msg_buf)) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
}
return;
}
}
else {
head_pos = charAtArray((uint8_t const *)&cmdRxBuf[len - leftLen], leftLen, ESP_PROTOC_HEAD);
if (head_pos == -1) return;
ZERO(esp_msg_buf);
memcpy(esp_msg_buf, &cmdRxBuf[len - leftLen + head_pos], leftLen - head_pos);
esp_msg_index = leftLen - head_pos;
leftLen = 0;
head_pos = 0;
tail_pos = charAtArray(esp_msg_buf, esp_msg_index, ESP_PROTOC_TAIL);
if (tail_pos == -1) {
if (esp_msg_index >= sizeof(esp_msg_buf)) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
}
return;
}
}
esp_frame.type = esp_msg_buf[1];
if ( esp_frame.type != ESP_TYPE_NET
&& esp_frame.type != ESP_TYPE_GCODE
&& esp_frame.type != ESP_TYPE_FILE_FIRST
&& esp_frame.type != ESP_TYPE_FILE_FRAGMENT
&& esp_frame.type != ESP_TYPE_WIFI_LIST
) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
return;
}
esp_frame.dataLen = esp_msg_buf[2] + (esp_msg_buf[3] << 8);
if ((int)(4 + esp_frame.dataLen) > (int)(sizeof(esp_msg_buf))) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
return;
}
if (esp_msg_buf[4 + esp_frame.dataLen] != ESP_PROTOC_TAIL) {
if (esp_msg_index >= sizeof(esp_msg_buf)) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
}
return;
}
esp_frame.data = &esp_msg_buf[4];
switch (esp_frame.type) {
case ESP_TYPE_NET:
net_msg_handle(esp_frame.data, esp_frame.dataLen);
break;
case ESP_TYPE_GCODE:
gcode_msg_handle(esp_frame.data, esp_frame.dataLen);
break;
case ESP_TYPE_FILE_FIRST:
file_first_msg_handle(esp_frame.data, esp_frame.dataLen);
break;
case ESP_TYPE_FILE_FRAGMENT:
file_fragment_msg_handle(esp_frame.data, esp_frame.dataLen);
break;
case ESP_TYPE_WIFI_LIST:
wifi_list_msg_handle(esp_frame.data, esp_frame.dataLen);
break;
default: break;
}
esp_msg_index = cut_msg_head(esp_msg_buf, esp_msg_index, esp_frame.dataLen + 5);
if (esp_msg_index > 0) {
if (charAtArray(esp_msg_buf, esp_msg_index, ESP_PROTOC_HEAD) == -1) {
ZERO(esp_msg_buf);
esp_msg_index = 0;
return;
}
if ((charAtArray(esp_msg_buf, esp_msg_index, ESP_PROTOC_HEAD) != -1) && (charAtArray(esp_msg_buf, esp_msg_index, ESP_PROTOC_TAIL) != -1))
loop_again = true;
}
}
}
int32_t tick_net_time1, tick_net_time2;
int32_t readWifiFifo(uint8_t *retBuf, uint32_t bufLen) {
unsigned char tmpR = wifiDmaRcvFifo.read_cur;
if (bufLen >= UDISKBUFLEN && wifiDmaRcvFifo.state[tmpR] == udisk_buf_full) {
memcpy(retBuf, (unsigned char *)wifiDmaRcvFifo.bufferAddr[tmpR], UDISKBUFLEN);
wifiDmaRcvFifo.state[tmpR] = udisk_buf_empty;
wifiDmaRcvFifo.read_cur = (tmpR + 1) % TRANS_RCV_FIFO_BLOCK_NUM;
return UDISKBUFLEN;
}
return 0;
}
void stopEspTransfer() {
if (wifi_link_state == WIFI_TRANS_FILE)
wifi_link_state = WIFI_CONNECTED;
TERN_(SDSUPPORT, card.closefile());
if (upload_result != 3) {
wifiTransError.flag = 1;
wifiTransError.start_tick = getWifiTick();
card.removeFile((const char *)saveFilePath);
}
wifi_delay(200);
WIFI_IO1_SET();
// disable dma
dma_clear_isr_bits(DMA1, DMA_CH5);
bb_peri_set_bit(&USART1_BASE->CR3, USART_CR3_DMAR_BIT, 0);
dma_disable(DMA1, DMA_CH5);
wifi_delay(200);
changeFlashMode(true); // Set SPI flash to use DMA mode
esp_port_begin(1);
wifi_delay(200);
W25QXX.init(SPI_QUARTER_SPEED);
TERN_(HAS_TFT_LVGL_UI_SPI, SPI_TFT.spi_init(SPI_FULL_SPEED));
TERN_(HAS_SERVOS, servo_init());
TERN_(HAS_Z_SERVO_PROBE, probe.servo_probe_init());
if (wifiTransError.flag != 0x1) WIFI_IO1_RESET();
}
void wifi_rcv_handle() {
int32_t len = 0;
uint8_t ucStr[(UART_RX_BUFFER_SIZE) + 1] = {0};
int8_t getDataF = 0;
if (wifi_link_state == WIFI_TRANS_FILE) {
#if 0
if (WIFISERIAL.available() == UART_RX_BUFFER_SIZE) {
for (uint16_t i=0;i 0) {
esp_data_parser((char *)ucStr, len);
if (wifi_link_state == WIFI_CONNECTED) {
clear_cur_ui();
lv_draw_dialog(DIALOG_TYPE_UPLOAD_FILE);
stopEspTransfer();
}
getDataF = 1;
}
if (esp_state == TRANSFER_STORE) {
if (storeRcvData(WIFISERIAL.usart_device->rb->buf, UART_RX_BUFFER_SIZE)) {
esp_state = TRANSFERING;
esp_dma_pre();
if (wifiTransError.flag != 0x1) WIFI_IO1_RESET();
}
else
WIFI_IO1_SET();
}
}
else {
len = readWifiBuf((int8_t *)ucStr, UART_RX_BUFFER_SIZE);
if (len > 0) {
esp_data_parser((char *)ucStr, len);
if (wifi_link_state == WIFI_TRANS_FILE) {
changeFlashMode(false); // Set SPI flash to use non-DMA mode
wifi_delay(10);
esp_port_begin(0);
wifi_delay(10);
tick_net_time1 = 0;
}
if (wifiTransError.flag != 0x1) WIFI_IO1_RESET();
getDataF = 1;
}
if (need_ok_later && !queue.ring_buffer.full()) {
need_ok_later = false;
send_to_wifi((uint8_t *)"ok\r\n", strlen("ok\r\n"));
}
}
if (getDataF == 1) {
tick_net_time1 = getWifiTick();
}
else {
tick_net_time2 = getWifiTick();
if (wifi_link_state == WIFI_TRANS_FILE) {
if (tick_net_time1 && getWifiTickDiff(tick_net_time1, tick_net_time2) > 8000) {
wifi_link_state = WIFI_CONNECTED;
upload_result = 2;
clear_cur_ui();
stopEspTransfer();
lv_draw_dialog(DIALOG_TYPE_UPLOAD_FILE);
}
}
if (tick_net_time1 && getWifiTickDiff(tick_net_time1, tick_net_time2) > 10000)
wifi_link_state = WIFI_NOT_CONFIG;
if (tick_net_time1 && getWifiTickDiff(tick_net_time1, tick_net_time2) > 120000) {
wifi_link_state = WIFI_NOT_CONFIG;
wifi_reset();
tick_net_time1 = getWifiTick();
}
}
if (wifiTransError.flag == 0x1) {
wifiTransError.now_tick = getWifiTick();
if (getWifiTickDiff(wifiTransError.start_tick, wifiTransError.now_tick) > WAIT_ESP_TRANS_TIMEOUT_TICK) {
wifiTransError.flag = 0;
WIFI_IO1_RESET();
}
}
}
void wifi_looping() {
do {
wifi_rcv_handle();
watchdog_refresh();
} while (wifi_link_state == WIFI_TRANS_FILE);
}
void mks_esp_wifi_init() {
wifi_link_state = WIFI_NOT_CONFIG;
SET_OUTPUT(WIFI_RESET_PIN);
WIFI_SET();
SET_OUTPUT(WIFI_IO1_PIN);
SET_INPUT_PULLUP(WIFI_IO0_PIN);
WIFI_IO1_SET();
esp_state = TRANSFER_IDLE;
esp_port_begin(1);
wifi_reset();
#if 0
if (update_flag == 0) {
res = f_open(&esp_upload.uploadFile, ESP_WEB_FIRMWARE_FILE, FA_OPEN_EXISTING | FA_READ);
if (res == FR_OK) {
f_close(&esp_upload.uploadFile);
wifi_delay(2000);
if (usartFifoAvailable((SZ_USART_FIFO *)&WifiRxFifo) < 20) {
return;
}
clear_cur_ui();
draw_dialog(DIALOG_TYPE_UPDATE_ESP_FIRMWARE);
if (wifi_upload(1) >= 0) {
f_unlink("1:/MKS_WIFI_CUR");
f_rename(ESP_WEB_FIRMWARE_FILE,"/MKS_WIFI_CUR");
}
draw_return_ui();
update_flag = 1;
}
}
if (update_flag == 0) {
res = f_open(&esp_upload.uploadFile, ESP_WEB_FILE, FA_OPEN_EXISTING | FA_READ);
if (res == FR_OK) {
f_close(&esp_upload.uploadFile);
wifi_delay(2000);
if (usartFifoAvailable((SZ_USART_FIFO *)&WifiRxFifo) < 20) {
return;
}
clear_cur_ui();
draw_dialog(DIALOG_TYPE_UPDATE_ESP_DATA);
if (wifi_upload(2) >= 0) {
f_unlink("1:/MKS_WEB_CONTROL_CUR");
f_rename(ESP_WEB_FILE,"/MKS_WEB_CONTROL_CUR");
}
draw_return_ui();
}
}
#endif
wifiPara.decodeType = WIFI_DECODE_TYPE;
wifiPara.baud = 115200;
wifi_link_state = WIFI_NOT_CONFIG;
}
void mks_wifi_firmware_update() {
card.openFileRead((char *)ESP_FIRMWARE_FILE);
if (card.isFileOpen()) {
card.closefile();
wifi_delay(2000);
if (usartFifoAvailable((SZ_USART_FIFO *)&WifiRxFifo) < 20)
return;
clear_cur_ui();
lv_draw_dialog(DIALOG_TYPE_UPDATE_ESP_FIRMWARE);
lv_task_handler();
watchdog_refresh();
if (wifi_upload(0) >= 0) {
card.removeFile((char *)ESP_FIRMWARE_FILE_RENAME);
SdFile file, *curDir;
const char * const fname = card.diveToFile(true, curDir, ESP_FIRMWARE_FILE);
if (file.open(curDir, fname, O_READ)) {
file.rename(curDir, (char *)ESP_FIRMWARE_FILE_RENAME);
file.close();
}
}
clear_cur_ui();
}
}
#define BUF_INC_POINTER(p) ((p + 1 == UART_FIFO_BUFFER_SIZE) ? 0:(p + 1))
int usartFifoAvailable(SZ_USART_FIFO *fifo) {
return WIFISERIAL.available();
}
void get_wifi_commands() {
static char wifi_line_buffer[MAX_CMD_SIZE];
static bool wifi_comment_mode = false;
static int wifi_read_count = 0;
if (espGcodeFifo.wait_tick > 5) {
while (!queue.ring_buffer.full() && (espGcodeFifo.r != espGcodeFifo.w)) {
espGcodeFifo.wait_tick = 0;
char wifi_char = espGcodeFifo.Buffer[espGcodeFifo.r];
espGcodeFifo.r = (espGcodeFifo.r + 1) % WIFI_GCODE_BUFFER_SIZE;
/**
* If the character ends the line
*/
if (wifi_char == '\n' || wifi_char == '\r') {
wifi_comment_mode = false; // end of line == end of comment
if (!wifi_read_count) continue; // skip empty lines
wifi_line_buffer[wifi_read_count] = 0; // terminate string
wifi_read_count = 0; //reset buffer
char* command = wifi_line_buffer;
while (*command == ' ') command++; // skip any leading spaces
// Movement commands alert when stopped
if (IsStopped()) {
char* gpos = strchr(command, 'G');
if (gpos) {
switch (strtol(gpos + 1, nullptr, 10)) {
case 0 ... 1:
#if ENABLED(ARC_SUPPORT)
case 2 ... 3:
#endif
#if ENABLED(BEZIER_CURVE_SUPPORT)
case 5:
#endif
SERIAL_ECHOLNPGM(STR_ERR_STOPPED);
LCD_MESSAGEPGM(MSG_STOPPED);
break;
}
}
}
#if DISABLED(EMERGENCY_PARSER)
// Process critical commands early
if (strcmp(command, "M108") == 0) {
wait_for_heatup = false;
TERN_(HAS_LCD_MENU, wait_for_user = false);
}
if (strcmp(command, "M112") == 0) kill(M112_KILL_STR, nullptr, true);
if (strcmp(command, "M410") == 0) quickstop_stepper();
#endif
// Add the command to the queue
queue.enqueue_one_P(wifi_line_buffer);
}
else if (wifi_read_count >= MAX_CMD_SIZE - 1) {
}
else { // it's not a newline, carriage return or escape char
if (wifi_char == ';') wifi_comment_mode = true;
if (!wifi_comment_mode) wifi_line_buffer[wifi_read_count++] = wifi_char;
}
}
} // queue has space, serial has data
else
espGcodeFifo.wait_tick++;
}
int readWifiBuf(int8_t *buf, int32_t len) {
int i = 0;
while (i < len && WIFISERIAL.available())
buf[i++] = WIFISERIAL.read();
return i;
}
#endif // HAS_TFT_LVGL_UI && MKS_WIFI_MODULE