; *** ESP32 Tasmota version *** [esp32_defaults] build_unflags = ${esp_defaults.build_unflags} -Wswitch-unreachable -Wstringop-overflow -Wincompatible-pointer-types -Wnonnull-compare -fexceptions -fno-lto -Wpointer-arith build_flags = ${esp_defaults.build_flags} -Wno-switch-unreachable -Wno-stringop-overflow -fno-exceptions -flto -DBUFFER_LENGTH=128 -DHTTP_UPLOAD_BUFLEN=2048 -DMQTT_MAX_PACKET_SIZE=1200 -Duint32=uint32_t -Duint16=uint16_t -Duint8=uint8_t -Dsint8_t=int8_t -Dsint32_t=int32_t -Dsint16_t=int16_t -Dmemcpy_P=memcpy -Dmemcmp_P=memcmp ;for TLS we can afford compiling for 4K RSA keys -DUSE_4K_RSA -I$PROJECT_DIR/include -include "sdkconfig.h" -include "esp32x_fixes.h" ; wrappers for the crash-recorder -Wl,--wrap=panicHandler -Wl,--wrap=xt_unhandled_exception -Wl,--wrap=_Z11analogWritehi ; `analogWrite(unsigned char, int)` use the Tasmota version of analogWrite for deeper integration and phase control extra_scripts = pre:pio-tools/add_c_flags.py post:pio-tools/post_esp32.py ${esp_defaults.extra_scripts} [core32] platform = https://github.com/tasmota/platform-espressif32/releases/download/v2.0.4/platform-espressif32-2.0.4.zip platform_packages = build_unflags = ${esp32_defaults.build_unflags} build_flags = ${esp32_defaults.build_flags} [core32solo1] platform = https://github.com/tasmota/platform-espressif32/releases/download/v2.0.4/platform-espressif32-solo1-2.0.4.zip platform_packages = build_unflags = ${esp32_defaults.build_unflags} build_flags = ${esp32_defaults.build_flags} [core32itead] platform = https://github.com/tasmota/platform-espressif32/releases/download/v2.0.4/platform-espressif32-ITEAD-2.0.4.zip platform_packages = build_unflags = ${esp32_defaults.build_unflags} build_flags = ${esp32_defaults.build_flags}