412 lines
10 KiB
C
412 lines
10 KiB
C
/* Reflow Oven Controller
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*
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* Copyright (C) 2020 Mario Hüttel <mario.huettel@gmx.net>
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*
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* This file is part of the Reflow Oven Controller Project.
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*
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* The reflow oven controller is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*
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* The Reflow Oven Control Firmware is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with the reflow oven controller project.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <reflow-controller/shell.h>
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#include <stm-periph/uart.h>
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#include <string.h>
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#include <reflow-controller/adc-meas.h>
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#include <reflow-controller/digio.h>
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#include <stdlib.h>
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#include <malloc.h>
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#include <helper-macros/helper-macros.h>
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#include <reflow-controller/systick.h>
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#include <stm-periph/unique-id.h>
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#include <reflow-controller/calibration.h>
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#include <reflow-controller/temp-converter.h>
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#include <reflow-controller/stack-check.h>
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#include <reflow-controller/rotary-encoder.h>
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#ifndef GIT_VER
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#define GIT_VER "VERSION NOT SET"
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#endif
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extern struct stm_uart shell_uart;
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static shellmatta_instance_t shell;
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static char shell_buffer[512];
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static char history_buffer[1024];
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static shellmatta_retCode_t shell_cmd_ver(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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uint32_t low_id;
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uint32_t mid_id;
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uint32_t high_id;
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unique_id_get(&high_id, &mid_id, &low_id);
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shellmatta_printf(handle, "Reflow Oven Controller Firmware " xstr(GIT_VER) "\r\n"
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"Compiled: " __DATE__ " at " __TIME__ "\r\n"
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"Serial: %08X-%08X-%08X", high_id, mid_id, low_id);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_digio_get(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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shellmatta_printf(handle,
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"DIGIO0 DIGIO1 DIGIO2 DIGIO3 LED0 LED1 LS\r\n"
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"%d %d %d %d %d %d %d\r\n",
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digio_get(0), digio_get(1), digio_get(2), digio_get(3),
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led_get(0), led_get(1), loudspeaker_get());
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_digio_set(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)length;
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(void)handle;
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int num = 100;
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int state;
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char buff[64];
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char *curr_token;
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strncpy(buff, arguments, sizeof(buff));
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curr_token = strtok(buff, " ");
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curr_token = strtok(NULL, " ");
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if (!curr_token)
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return SHELLMATTA_ERROR;
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num = atoi(curr_token);
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if (!curr_token)
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return SHELLMATTA_ERROR;
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curr_token = strtok(NULL, " ");
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state = atoi(curr_token);
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if (num < 4 && num >= 0)
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digio_set(num, state);
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else if (num >= 4 && num <= 5)
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led_set(num - 4, state);
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else if (num == 6)
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loudspeaker_set(state);
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else
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return SHELLMATTA_ERROR;
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_pt1000_res(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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float resistance;
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int pt1000_status;
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enum adc_pt1000_error pt1000_flags;
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char display_status[100];
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float temp;
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int temp_conv_status;
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const char *temp_prefix;
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display_status[0] = 0;
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pt1000_status = adc_pt1000_get_current_resistance(&resistance);
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if (pt1000_status == 2) {
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strcat(display_status, " UNSTABLE ");
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} else if (pt1000_status) {
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pt1000_flags = adc_pt1000_check_error();
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if (pt1000_flags & ADC_PT1000_INACTIVE)
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strcat(display_status, " DEACTIVATED ");
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else if (pt1000_flags & ADC_PT1000_WATCHDOG_ERROR)
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strcat(display_status, " WATCHDOG ");
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else if (pt1000_flags & ADC_PT1000_OVERFLOW)
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strcat(display_status, " OVERFLOW ");
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} else {
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strcpy(display_status, "VALID");
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}
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temp_conv_status = temp_converter_convert_resistance_to_temp(resistance, &temp);
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switch (temp_conv_status) {
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case 1:
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temp_prefix = ">";
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break;
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case -1:
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temp_prefix = "<";
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break;
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case 0:
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/* FALLTHRU */
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default:
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temp_prefix = "";
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break;
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}
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shellmatta_printf(handle, "PT1000 resistance: %.2f Ohm (%s%.1f °C) [%s]\r\n", resistance, temp_prefix,temp, display_status);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_clear_error_status(const shellmatta_handle_t handle, const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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(void)handle;
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adc_pt1000_clear_error();
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_uptime(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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shellmatta_printf(handle, "Uptime: %llu secs", global_tick_ms/1000);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_cal(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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calibration_sequence_shell_cmd(handle);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_meminfo(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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struct mallinfo mi;
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shellmatta_printf(handle,
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"Stack pointer: %p\r\n"
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"Stack usage: 0x%x bytes\r\n"
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"Lim to heap: 0x%x bytes\r\n",
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read_stack_pointer(),
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stack_check_get_usage(),
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stack_check_get_free());
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mi = mallinfo();
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shellmatta_printf(handle, "\r\nDynamic Memory Management\r\n");
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shellmatta_printf(handle, "Allocated bytes: %d\r\n", mi.arena, mi.arena);
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shellmatta_printf(handle, "Number of free chunks: %d\r\n", mi.ordblks);
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shellmatta_printf(handle, "Top-most, releasable space: %d\r\n", mi.keepcost);
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shellmatta_printf(handle, "Total free space: %d\r\n", mi.fordblks);
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shellmatta_printf(handle, "Total allocated space: %d\r\n", mi.uordblks);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_rot(const shellmatta_handle_t handle,
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const char *arguments,
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uint32_t length)
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{
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(void)arguments;
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(void)length;
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uint32_t rot_val;
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int32_t delta;
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rot_val = rotary_encoder_get_abs_val();
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delta = rotary_encoder_get_change_val();
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shellmatta_printf(handle, "Rotary encoder value: %u, delta: %d\r\n", rot_val, delta);
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return SHELLMATTA_OK;
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}
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static shellmatta_retCode_t shell_cmd_pt1000_res_loop(const shellmatta_handle_t handle, const char *arguments,
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uint32_t length)
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{
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char arg[20];
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size_t arg_len;
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int led_status = 0;
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bool run_loop = true;
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bool single_line = false;
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const char *data;
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size_t len;
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unsigned int i;
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arg_len = (sizeof(arg) < length ? sizeof(arg) : length);
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strncpy(arg, arguments, arg_len);
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if (strstr(arg, "--single-line"))
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single_line = true;
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shellmatta_printf(handle, "\r\n");
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while (run_loop) {
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uart_receive_data_with_dma(&shell_uart, &data , &len);
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for (i = 0; i < len; i++) {
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if (data[i] == '\x03')
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run_loop = false;
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}
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if (single_line)
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shellmatta_printf(handle, "\x1b[1A\x1b[150D\x1b[K");
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shell_cmd_pt1000_res(handle, "", 0UL);
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led_set(0, led_status);
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led_set(1, !led_status);
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led_status ^= 0x1;
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systick_wait_ms(150);
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}
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led_set(0, 0);
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led_set(1, 0);
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return SHELLMATTA_OK;
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}
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//typedef struct shellmatta_cmd
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//{
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// char *cmd; /**< command name */
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// char *cmdAlias; /**< command alias */
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// char *helpText; /**< help text to print in "help" command */
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// char *usageText; /**< usage text to print on parameter error */
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// shellmatta_cmdFct_t cmdFct; /**< pointer to the cmd callack function */
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// struct shellmatta_cmd *next; /**< pointer to next command or NULL */
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//} shellmatta_cmd_t;
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static shellmatta_cmd_t cmd[10] = {
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{
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.cmd = "version",
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.cmdAlias = "ver",
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.helpText = "Print firmware version",
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.usageText = NULL,
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.cmdFct = shell_cmd_ver,
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.next = &cmd[1],
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},
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{
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.cmd = "pt1000",
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.cmdAlias = "pt",
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.helpText = "Get current filtered and calibrated PT1000 resistance",
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.usageText = NULL,
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.cmdFct = shell_cmd_pt1000_res,
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.next = &cmd[2],
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},
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{
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.cmd = "pt1000-dump",
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.cmdAlias = "ptdump",
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.helpText = "Get current filtered and calibrated PT1000 resistance in a loop",
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.usageText = "pt1000-dump [--single-line]",
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.cmdFct = shell_cmd_pt1000_res_loop,
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.next = &cmd[3],
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},
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{
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.cmd = "pt1000-clear-error",
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.cmdAlias = "pt-clear",
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.helpText = "Clear error status of PT1000 reading",
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.usageText = NULL,
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.cmdFct = shell_cmd_clear_error_status,
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.next = &cmd[4],
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},
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{
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.cmd = "digio-get",
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.cmdAlias = "dg",
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.helpText = "Read all digital input/output ports",
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.usageText = NULL,
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.cmdFct = shell_cmd_digio_get,
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.next = &cmd[5],
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},
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{
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.cmd = "digio-set",
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.cmdAlias = "ds",
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.helpText = "Set DIGIO Port",
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.usageText = "digio-set <num> <state>",
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.cmdFct = shell_cmd_digio_set,
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.next = &cmd[6],
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},
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{
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.cmd = "uptime",
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.cmdAlias = "upt",
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.helpText = "Get uptime in seconds",
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.usageText = "",
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.cmdFct = shell_cmd_uptime,
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.next = &cmd[7],
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},
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{
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.cmd = "calibrate",
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.cmdAlias = "cal",
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.helpText = "Calibrate resistance measurement",
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.usageText = "",
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.cmdFct = shell_cmd_cal,
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.next = &cmd[8],
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},
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{
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.cmd = "meminfo",
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.cmdAlias = NULL,
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.helpText = "Get information about memory usage",
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.usageText = "",
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.cmdFct = shell_meminfo,
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.next = &cmd[9],
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},
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{
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.cmd = "rotary-encoder",
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.cmdAlias = "rot",
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.helpText = "Get current rotary encoder value",
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.usageText = "",
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.cmdFct = shell_cmd_rot,
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.next = NULL,
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}
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};
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shellmatta_handle_t shell_init(shellmatta_write_t write_func)
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{
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shellmatta_handle_t handle;
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shellmatta_retCode_t ret;
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ret = shellmatta_doInit(&shell, &handle, shell_buffer, sizeof(shell_buffer), history_buffer, sizeof(history_buffer),
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"\e[1;32mReflow Controller>\e[m ", cmd, write_func);
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if (ret != SHELLMATTA_OK)
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handle = NULL;
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return handle;
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}
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void shell_handle_input(shellmatta_handle_t shell, const char *data, size_t len)
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{
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if (!shell)
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return;
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shellmatta_processData(shell, (char *)data, (uint32_t)len);
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}
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void shell_print_string(shellmatta_handle_t shell, const char *string)
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{
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if (!shell)
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return;
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shellmatta_write(shell, (char *)string, strlen(string));
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}
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