#include "FreeRTOS.h" #include "task.h" #include #include #include #include #include #include #include "espressif/esp_common.h" #include "esp/uart.h" #define CMD_BUF_SIZE 5000 const int status_base = -6; const char *status_messages[] = { "SYSPARAM_ERR_NOMEM", "SYSPARAM_ERR_CORRUPT", "SYSPARAM_ERR_IO", "SYSPARAM_ERR_FULL", "SYSPARAM_ERR_BADVALUE", "SYSPARAM_ERR_NOINIT", "SYSPARAM_OK", "SYSPARAM_NOTFOUND", "SYSPARAM_PARSEFAILED", }; void usage(void) { printf( "Available commands:\n" " ? -- Query the value of \n" " = -- Set to text \n" " : -- Set to binary value represented as hex\n" " dump -- Show all currently set keys/values\n" " compact -- Compact the sysparam area\n" " reformat -- Reinitialize (clear) the sysparam area\n" " echo-off -- Disable input echo\n" " echo-on -- Enable input echo\n" " help -- Show this help screen\n" ); } size_t tty_readline(char *buffer, size_t buf_size, bool echo) { size_t i = 0; char c; while (true) { read(0, (void *)&c, 1); if (c == '\r' || c == '\n') { if (echo) printf("\n"); break; } else if (c == '\b' || c == 0x7f) { if (i) { if (echo) printf("\b \b"); i--; } } else if (c < 0x20) { /* Ignore other control characters */ } else if (i >= buf_size - 1) { if (echo) printf("\a"); } else { buffer[i++] = c; if (echo) printf("%c", c); } fflush(stdout); } fflush(stdout); buffer[i] = 0; return i; } void print_text_value(char *key, char *value) { printf(" '%s' = '%s'\n", key, value); } void print_binary_value(char *key, uint8_t *value, size_t len) { size_t i; printf(" %s:", key); for (i = 0; i < len; i++) { if (!(i & 0x0f)) { printf("\n "); } printf(" %02x", value[i]); } printf("\n"); } sysparam_status_t dump_params(void) { sysparam_status_t status; sysparam_iter_t iter; status = sysparam_iter_start(&iter); if (status < 0) return status; while (true) { status = sysparam_iter_next(&iter); if (status != SYSPARAM_OK) break; if (!iter.binary) { print_text_value(iter.key, (char *)iter.value); } else { print_binary_value(iter.key, iter.value, iter.value_len); } } sysparam_iter_end(&iter); if (status == SYSPARAM_NOTFOUND) { // This is the normal status when we've reached the end of all entries. return SYSPARAM_OK; } else { // Something apparently went wrong return status; } } uint8_t *parse_hexdata(char *string, size_t *result_length) { size_t string_len = strlen(string); uint8_t *buf = malloc(string_len / 2); uint8_t c; int i, j; bool digit = false; j = 0; for (i = 0; string[i]; i++) { c = string[i]; if (c >= 0x30 && c <= 0x39) { c &= 0x0f; } else if (c >= 0x41 && c <= 0x46) { c -= 0x37; } else if (c >= 0x61 && c <= 0x66) { c -= 0x57; } else if (c == ' ') { continue; } else { free(buf); return NULL; } if (!digit) { buf[j] = c << 4; } else { buf[j++] |= c; } digit = !digit; } if (digit) { free(buf); return NULL; } *result_length = j; return buf; } void sysparam_editor_task(void *pvParameters) { char *cmd_buffer = malloc(CMD_BUF_SIZE); sysparam_status_t status; char *value; uint8_t *bin_value; size_t len; uint8_t *data; uint32_t base_addr, num_sectors; bool echo = true; if (!cmd_buffer) { printf("ERROR: Cannot allocate command buffer!\n"); return; } printf("\nWelcome to the system parameter editor! Enter 'help' for more information.\n\n"); status = sysparam_get_info(&base_addr, &num_sectors); if (status == SYSPARAM_OK) { printf("[current sysparam region is at 0x%08x (%d sectors)]\n", base_addr, num_sectors); } else { printf("[NOTE: No current sysparam region (initialization problem during boot?)]\n"); // Default to the same place/size as the normal system initialization // stuff, so if the user uses this utility to reformat it, it will put // it somewhere the system will find it later num_sectors = DEFAULT_SYSPARAM_SECTORS; base_addr = sdk_flashchip.chip_size - (5 + num_sectors) * sdk_flashchip.sector_size; } fflush(stdout); while (true) { printf("==> "); fflush(stdout); len = tty_readline(cmd_buffer, CMD_BUF_SIZE, echo); status = 0; if (!len) continue; if (cmd_buffer[len - 1] == '?') { cmd_buffer[len - 1] = 0; printf("Querying '%s'...\n", cmd_buffer); status = sysparam_get_string(cmd_buffer, &value); if (status == SYSPARAM_OK) { print_text_value(cmd_buffer, value); free(value); } else if (status == SYSPARAM_PARSEFAILED) { // This means it's actually a binary value status = sysparam_get_data(cmd_buffer, &bin_value, &len, NULL); if (status == SYSPARAM_OK) { print_binary_value(cmd_buffer, bin_value, len); free(value); } } } else if ((value = strchr(cmd_buffer, '='))) { *value++ = 0; printf("Setting '%s' to '%s'...\n", cmd_buffer, value); status = sysparam_set_string(cmd_buffer, value); } else if ((value = strchr(cmd_buffer, ':'))) { *value++ = 0; data = parse_hexdata(value, &len); if (value) { printf("Setting '%s' to binary data...\n", cmd_buffer); status = sysparam_set_data(cmd_buffer, data, len, true); free(data); } else { printf("Error: Unable to parse hex data\n"); } } else if (!strcmp(cmd_buffer, "dump")) { printf("Dumping all params:\n"); status = dump_params(); } else if (!strcmp(cmd_buffer, "compact")) { printf("Compacting...\n"); status = sysparam_compact(); } else if (!strcmp(cmd_buffer, "reformat")) { printf("Re-initializing region...\n"); status = sysparam_create_area(base_addr, num_sectors, true); if (status == SYSPARAM_OK) { // We need to re-init after wiping out the region we've been // using. status = sysparam_init(base_addr, 0); } } else if (!strcmp(cmd_buffer, "echo-on")) { echo = true; printf("Echo on\n"); } else if (!strcmp(cmd_buffer, "echo-off")) { echo = false; printf("Echo off\n"); } else if (!strcmp(cmd_buffer, "help")) { usage(); } else { printf("Unrecognized command.\n\n"); usage(); } if (status != SYSPARAM_OK) { printf("! Operation returned status: %d (%s)\n", status, status_messages[status - status_base]); } fflush(stdout); } } void user_init(void) { uart_set_baud(0, 115200); sdk_wifi_set_opmode(NULL_MODE); xTaskCreate(sysparam_editor_task, "sysparam_editor_task", 512, NULL, 2, NULL); }