#ifndef __USER_CONFIG_H__ #define __USER_CONFIG_H__ // The firmware supports a range of Flash sizes, though 4 Mbyte seems to be // the most common currently. NodeMCU builds include a discovery function // which is enabled by FLASH_AUTOSIZE, but you can override this by commenting // this out and enabling the explicitly size, e.g. FLASH_4M. Valid sizes are // FLASH_512K, FLASH_1M, FLASH_2M, FLASH_4M, FLASH_8M, FLASH_16M. //#define FLASH_AUTOSIZE #define FLASH_4M // The firmware now selects a baudrate of 115,200 by default, but the driver // also includes automatic baud rate detection at start-up. If you want to change // the default rate then vaild rates are 300, 600, 1200, 2400, 4800, 9600, 19200, // 31250, 38400, 57600, 74880, 115200, 230400, 256000, 460800 [, 921600, 1843200, // 368640]. Note that the last 3 rates are not recommended as these might be // unreliable, but 460800 seems to work well for most USB-serial devices. #define BIT_RATE_DEFAULT BIT_RATE_115200 //#define BIT_RATE_AUTOBAUD // Three separate build variants are now supported. The main difference is in the // processing of numeric data types. If LUA_NUMBER_INTEGRAL is defined, then // all numeric calculations are done in integer, with divide being an integer // operations, and decimal fraction constants are illegal. Otherwise all // numeric operations use floating point, though they are exact for integer // expressions < 2^53. // The main advantage of INTEGRAL builds is that the basic internal storage unit, // the TValue, is 8 bytes long. We have now reduced the size of FP TValues to // 12 bytes rather than the previous 16 as this gives a material RAM saving with // no performance loss. However, you can define LUA_DWORD_ALIGNED_TVALUES and // this will force 16 byte TValues on FP builds. //#define LUA_NUMBER_INTEGRAL //#define LUA_DWORD_ALIGNED_TVALUES // The Lua Flash Store (LFS) allows you to store Lua code in Flash memory and // the Lua VMS will execute this code directly from flash without needing any // RAM overhead. You can now configure LFS directly in the System Partition // Table insted of at compile time. However for backwards compatibility setting // LUA_FLASH_STORE defines the default partition size if the NodeMCU partition // tool is not used. //#define LUA_FLASH_STORE 0x10000 // By default Lua executes the file init.lua at start up. The following // define allows you to replace this with an alternative startup. Warning: // you must protect this execution otherwise you will enter a panic loop; // the simplest way is to wrap the action in a function invoked by a pcall. // The example provided executes the LFS module "_init" at startup or fails // through to the interactive prompt. //#define LUA_INIT_STRING "pcall(function() node.flashindex'_init'() end)" // NodeMCU supports two file systems: SPIFFS and FATFS, the first is available // on all ESP8266 modules. The latter requires extra H/W so is less common. // If you use SPIFFS then there are a number of options which impact the // RAM overhead and performance of the file system. // If you use the spiffsimg tool to create your own FS images on your dev PC // then we recommend that you fix the location and size of the FS, allowing // some headroom for rebuilding flash images and LFS. As an alternative to // fixing the size of the FS, you can force the SPIFFS file system to end on // the next 1Mb boundary. This is useful for certain OTA scenarios. In // general, limiting the size of the FS only to what your application needs // gives the fastest start-up and imaging times. // You can now configure SPIFFS size and position directly in the System // Partition Table. However backwards compatibility SPIFFS_MAX_FILESYSTEM_SIZE // can be set and this defines the default SPIFFS partition size if the NodeMCU // partition tool is not used. The value (~0x0) means the maximum size remaining. #define BUILD_SPIFFS #define SPIFFS_CACHE 1 // Enable if you use you SPIFFS in R/W mode //#define SPIFFS_MAX_FILESYSTEM_SIZE 0x20000 #define SPIFFS_MAX_OPEN_FILES 4 // maximum number of open files for SPIFFS #define FS_OBJ_NAME_LEN 31 // maximum length of a filename //#define BUILD_FATFS // The HTTPS stack requires client SSL to be enabled. The SSL buffer size is // used only for espconn-layer secure connections, and is ignored otherwise. // Some HTTPS applications require a larger buffer size to work. See // https://github.com/nodemcu/nodemcu-firmware/issues/1457 for details. // The SHA2 and MD2 libraries are also optionally used by the crypto functions. // The SHA1 and MD5 function are implemented in the ROM BIOS. The MD2 and SHA2 // are by firmware code, and can be enabled if you need this functionality. //#define CLIENT_SSL_ENABLE //#define MD2_ENABLE #define SHA2_ENABLE #define SSL_BUFFER_SIZE 4096 #define SSL_MAX_FRAGMENT_LENGTH_CODE MBEDTLS_SSL_MAX_FRAG_LEN_4096 // GPIO_INTERRUPT_ENABLE needs to be defined if your application uses the // gpio.trig() or related GPIO interrupt service routine code. Likewise the // GPIO interrupt hook is requited for a few modules such as rotary. If you // don't require this functionality, then commenting out these options out // will remove any associated runtime overhead. #define GPIO_INTERRUPT_ENABLE #define GPIO_INTERRUPT_HOOK_ENABLE // If your application uses the light sleep functions and you wish the // firmware to manage timer rescheduling over sleeps (the CPU clock is // suspended so timers get out of sync) then enable the following options //#define TIMER_SUSPEND_ENABLE //#define PMSLEEP_ENABLE // The WiFi module optionally offers an enhanced level of WiFi connection // management, using internal timer callbacks. Whilst many Lua developers // prefer to implement equivalent features in Lua, others will prefer the // Wifi module to do this for them. Uncomment the following to enable // this functionality. See the relevant WiFi module documentation for // further details, as the scope of these changes is not obvious. // Enable the wifi.startsmart() and wifi.stopsmart() //#define WIFI_SMART_ENABLE // Enable wifi.sta.config() event callbacks #define WIFI_SDK_EVENT_MONITOR_ENABLE // Enable creation on the wifi.eventmon.reason table #define WIFI_EVENT_MONITOR_DISCONNECT_REASON_LIST_ENABLE // Enable use of the WiFi.monitor sub-module //#define LUA_USE_MODULES_WIFI_MONITOR // Whilst the DNS client details can be configured through the WiFi API, // the defaults can be exposed temporarily during start-up. The following // WIFI_STA options allow you to configure this in the firmware. If the // WIFI_STA_HOSTNAME is not defined then the hostname will default to // to the last 3 octets (6 hexadecimal digits) of MAC address with the // prefix "NODE-". If it is defined then the hostname must only contain // alphanumeric characters. If you are imaging multiple modules with this // firmware then you must also define WIFI_STA_HOSTNAME_APPEND_MAC to // append the last 3 octets of the MAC address. Note that the total // Hostname MUST be 32 chars or less. //#define WIFI_STA_HOSTNAME "NodeMCU" //#define WIFI_STA_HOSTNAME_APPEND_MAC // If you use the enduser_setup module, then you can also set the default // SSID when this module is running in AP mode. #define ENDUSER_SETUP_AP_SSID "SetupGadget" // I2C software driver partially supports use of GPIO16 (D0) pin for SCL line. // GPIO16 does not support open-drain mode and works in push-pull mode, // so clock stretching will not be possible, because circuit in slave device that // supposed to drive SCL low during stretching will not be capable to hold SCL low. // Also I2C speed will be limited to no more than 400000 Hz (FAST mode). // This define is does not have an effect on an old driver (see I2C_MASTER_OLD_VERSION). //#define I2C_MASTER_GPIO16_ENABLE // For compatibility reasons you can switch to old version of I2C software driver. // It does not support changing speed, have only one bus id = 0, does not support GPIO16 // and works only in Standard(slow) mode with clock speed around 50kHz. #define I2C_MASTER_OLD_VERSION // The following sections are only relevent for those developers who are // developing modules or core Lua changes and configure how extra diagnostics // are enabled in the firmware. These should only be configured if you are // building your own custom firmware and have full access to the firmware // source code. // Enabling DEVELOPMENT_TOOLS adds the asserts in LUA and also some useful // extras to the node module. These are silent in normal operation and so can // be enabled without any harm (except for the code size increase and slight // slowdown). If you want to use the remote GDB to handle breaks and failed // assertions then enable the DEVELOPMENT_USE GDB option. A supplimentary // define DEVELOPMENT_BREAK_ON_STARTUP_PIN allows you to define a GPIO pin, // which if pulled low at start-up will immediately initiate a GDB session. // The DEVELOP_VERSION option enables lots of debug output, and is normally // only used by hardcore developers. // These options can be enabled globally here or you can alternatively use // the DEFINES variable in the relevant Makefile to set these on a per // directory basis. If you do this then you can also set the corresponding // compile options (-O0 -ggdb) on a per directory as well. //#define DEVELOPMENT_TOOLS //#define DEVELOPMENT_USE_GDB //#define DEVELOPMENT_BREAK_ON_STARTUP_PIN 1 //#define DEVELOP_VERSION // *** Heareafter, there be demons *** // The remaining options are advanced configuration options and you should only // change this if you have tracked the implications through the Firmware sources // and understand the these. #define NODEMCU_EAGLEROM_PARTITION 1 #define NODEMCU_IROM0TEXT_PARTITION 2 #define NODEMCU_LFS0_PARTITION 3 #define NODEMCU_LFS1_PARTITION 4 #define NODEMCU_TLSCERT_PARTITION 5 #define NODEMCU_SPIFFS0_PARTITION 6 #define NODEMCU_SPIFFS1_PARTITION 7 #ifndef LUA_FLASH_STORE # define LUA_FLASH_STORE 0x0 #endif #define SPIFFS_FIXED_LOCATION 0x0 #ifndef SPIFFS_MAX_FILESYSTEM_SIZE # define SPIFFS_MAX_FILESYSTEM_SIZE 0xFFFFFFFF #endif //#define SPIFFS_SIZE_1M_BOUNDARY #define LUA_TASK_PRIO USER_TASK_PRIO_0 #define LUA_PROCESS_LINE_SIG 2 #define LUA_OPTIMIZE_DEBUG 2 #define READLINE_INTERVAL 80 #define STRBUF_DEFAULT_INCREMENT 3 #define LUA_USE_BUILTIN_DEBUG_MINIMAL // for debug.getregistry() and debug.traceback() #ifdef DEVELOPMENT_TOOLS #if defined(LUA_CROSS_COMPILER) || !defined(DEVELOPMENT_USE_GDB) extern void luaL_assertfail(const char *file, int line, const char *message); #define lua_assert(x) ((x) ? (void) 0 : luaL_assertfail(__FILE__, __LINE__, #x)) #else extern void luaL_dbgbreak(void); #define lua_assert(x) ((x) ? (void) 0 : luaL_dbgbreak()) #endif #endif #if !defined(LUA_NUMBER_INTEGRAL) && !defined (LUA_DWORD_ALIGNED_TVALUES) #define LUA_PACK_TVALUES #else #undef LUA_PACK_TVALUES #endif #ifdef DEVELOP_VERSION #define NODE_DEBUG #define COAP_DEBUG #endif /* DEVELOP_VERSION */ #ifdef NODE_DEBUG #define NODE_DBG dbg_printf #else #define NODE_DBG #endif /* NODE_DEBUG */ #define NODE_ERROR #ifdef NODE_ERROR #define NODE_ERR dbg_printf #else #define NODE_ERR #endif /* NODE_ERROR */ // #define GPIO_SAFE_NO_INTR_ENABLE #define ICACHE_STORE_TYPEDEF_ATTR __attribute__((aligned(4),packed)) #define ICACHE_STORE_ATTR __attribute__((aligned(4))) #define ICACHE_STRING(x) ICACHE_STRING2(x) #define ICACHE_STRING2(x) #x #define ICACHE_RAM_ATTR \ __attribute__((section(".iram0.text." __FILE__ "." ICACHE_STRING(__LINE__)))) #define ICACHE_FLASH_RESERVED_ATTR \ __attribute__((section(".irom.reserved." __FILE__ "." ICACHE_STRING(__LINE__)),\ used,unused,aligned(INTERNAL_FLASH_SECTOR_SIZE))) #ifdef GPIO_SAFE_NO_INTR_ENABLE #define NO_INTR_CODE ICACHE_RAM_ATTR __attribute__ ((noinline)) #else #define NO_INTR_CODE inline #endif #endif /* __USER_CONFIG_H__ */