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Table Of Contents

  • STM32CubeMX documentation
  • CubeMX User Manual
    • 1 STM32Cube overview
    • 2 Getting started with STM32CubeMX
    • 3 Installing and running STM32CubeMX
    • 4 STM32CubeMX user interface
    • 5 STM32CubeMX tools
    • 6 STM32CubeMX C Code generation overview
    • 7 Code generation for dual-core MCUs (STM32H7 dual-core product lines only)
    • 8 Code generation with TrustZone enabled (STM32L5 series only)
    • 9 Device tree generation (STM32MPUs only)
    • 10 Support of additional software components using CMSIS-Pack standard
    • 11 Tutorial 1: From pinout to project C code generation using an MCU of the STM32F4 series
    • 12 Tutorial 2 - Example of FatFs on an SD card using STM32429I-EVAL evaluation board
    • 13 Tutorial 3 - Using the Power Consumption Calculator to optimize the embedded application consumption and more
    • 14 Tutorial 4 - Example of UART communications with an STM32L053xx Nucleo board
    • 15 Tutorial 5: Exporting current project configuration to a compatible MCU
    • 16 Tutorial 6 - Adding embedded software packs to user projects
    • 17 Tutorial 7 - Using the X-Cube-BLE1 software pack
    • 18 Creating LPBAM projects
    • Appendix A STM32CubeMX pin assignment rules
    • Appendix B STM32CubeMX C code generation design choices and limitations
    • Appendix C STM32 microcontrollers power consumption parameters
    • Appendix D STM32Cube embedded software packages
    • Revision history
  • Release Notes
    • Release details
    • Release fixes
    • Known limitations
      • Miscellaneous
      • 2.1. When selecting microcontrollers in the STM32C0 series
      • 2.2. When selecting microcontrollers in the STM32G0 series
      • 2.3. When selecting microcontrollers in the STM32G4 series
      • 2.4. When selecting microcontrollers in the STM32H5 series
      • 2.5. When selecting microcontrollers in the STM32H7 series
      • 2.6. When selecting dual-core microcontrollers in the STM32H7 series
      • 2.7. When selecting microcontrollers in the STM32L5 series
      • 3.4. How to improve the wake-up from Stop sequences without relying on the global SystemClock_Config()
      • 3.3. List pinout-compatible microcontrollers
      • 3.2. DDR binaries for the STM32MP1 boards
      • 3.1. Command line authentication required
      • 2.21. Symbolic links on Ubuntu
      • 2.20. User manual
      • 2.19. DDR test suite
      • 2.18. STM32CubeIDE toolchain
      • 2.13. When selecting microcontrollers in the STM32WL series
      • 2.11. When selecting microcontrollers in the STM32WB series
      • 2.17. When using additional software packs
      • 2.16. When using the Example Selector
      • 2.15. When using the Memory Management Tool
      • 2.14. When selecting microprocessors in the STM32MP1 series
      • 2.11.1. When selecting microcontrollers in the STM32WB0 product lines
      • 2.12. When selecting microcontrollers in the STM32WBA series
      • 2.13.1. When selecting microcontrollers in the STM32WL33 product lines
      • 2.10. When selecting microcontrollers in the STM32U5 series
      • 2.9. When selecting microcontrollers in the STM32U3 series
      • 2.8. When selecting microcontrollers in the STM32N6 series
  • Running STM32CubeMX in command-line mode
  • FAQ
  • Community
  1. STM32CubeMX /
  2. Release Notes /
  3. Known limitations /
  4. 2.21. Symbolic links on Ubuntu

2.21. Symbolic links on Ubuntu ¶

When using Ubuntu 20.04 and a symbolic link for the “Firmware Relative Path” in the STM32CubeMX Project Manager tab, it will be translated to the absolute path before saving.

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3.1. Command line authentication required
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2.20. User manual

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