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1. Overview of Nios® V Embedded Processor Development
2. Getting Started from the Command Line
3. Nios® V Processor Software Development and Implementation
4. Nios® V Processor Board Support Package Editor
5. Overview of the Hardware Abstraction Layer
6. Developing Programs Using the Hardware Abstraction Layer
7. Developing Device Drivers for the Hardware Abstraction Layer
8. Exception Handling
9. MicroC/OS-II Real-Time Operating System
10. MicroC/TCP-IP Protocol Stack
11. FreeRTOS* Real-Time Operating System
12. Publishing Component Information to Embedded Software
13. Nios® V Processor Appendix
A. Nios® V Processor Software Developer Handbook Archives
14. Revision History for Nios® V Processor Software Developer Handbook
3.3.2.1. Selecting the Operating System
3.3.2.2. Intel HAL Configuration Tips
3.3.2.3. Micrium MicroC/OS-II Configuration tips
3.3.2.4. Configuring FreeRTOS*
3.3.2.5. Adding Software Package
3.3.2.6. Using Tcl Script with BSP Editor
3.3.2.7. Exporting Tcl Scripts with BSP Editor
3.3.2.8. Importing Tcl Script to Create a New BSP
6.1. HAL BSP Settings
6.2. The Nios® V Processor Embedded Project Structure
6.3. The system.h System Description File
6.4. Data Widths and the HAL Type Definitions
6.5. UNIX-Style Interface
6.6. Using Character-Mode Devices
6.7. Using Timer Devices
6.8. Using Flash Devices
6.9. Using DMA Devices
6.10. Interrupt Controllers
6.11. Reducing Code Footprint in Embedded Systems
6.12. Boot Sequence and Entry Point
6.13. Memory Usage
6.14. Working with HAL Source Files
6.11.1. Apply Compiler Flags
6.11.2. Use Small Variant Device Drivers
6.11.3. Reduce the File Descriptor Pool
6.11.4. Use /dev/null
6.11.5. Use a Smaller File I/O Library
6.11.6. Use the Minimal Character-Mode API
6.11.7. Eliminate Unused Device Drivers
6.11.8. Use the Picolibc Library
6.11.9. Eliminate Unused alt_load()
6.11.10. Eliminate Unneeded Exit Code
7.1. Driver Integration in the HAL API
7.2. The HAL Peripheral-Specific API
7.3. Preparing for HAL Driver Development
7.4. Development Flow for Creating Device Drivers
7.5. Nios® V Processor Hardware Design Concepts
7.6. Accessing Hardware
7.7. Creating Embedded Drivers for HAL Device Classes
7.8. Integrating a Device Driver in the HAL
7.9. Creating a Custom Device Driver for the HAL
7.10. Reducing Code Footprint in HAL Embedded Drivers
7.11. HAL Namespace Allocation
7.12. Overriding the HAL Default Device Drivers
7.8.5.2.1. Creating and Naming the Driver or Package
7.8.5.2.2. Identifying the Hardware Component Class
7.8.5.2.3. Setting the BSP Type
7.8.5.2.4. Specifying an Operating System
7.8.5.2.5. Specifying Source Files
7.8.5.2.6. Specifying a Subdirectory
7.8.5.2.7. Enabling Software Initialization
7.8.5.2.8. Adding Include Paths
7.8.5.2.9. Version Compatibility
8.1. Nios® V Processor Exception Handling Overview
8.2. Nios® V Processor Hardware Interrupt Service Routines
8.3. Nios® V Processor Software Interrupt Service Routines
8.4. Improving Nios® V Processor ISR Performance
8.5. Debugging Nios® V Processor ISRs
8.6. HAL Exception Handling System Implementation
8.7. Nios® V Processor Instruction-Related Exception Handler
8.4.1.1. Execute Time-Intensive Algorithms in the Application Context
8.4.1.2. Implement Time-Intensive Algorithms in Hardware
8.4.1.3. Increase Buffer Size
8.4.1.4. Use Double Buffering
8.4.1.5. Keep Interrupts Enabled
8.4.1.6. Use Fast Memory
8.4.1.7. Use a Separate Exception Stack
8.4.1.8. Use Nested Hardware Interrupts
8.4.1.9. Use Compiler Optimization
10.1. Overview of the MicroC/TCP-IP Protocol Stack
10.2. Support and Licensing
10.3. Prerequisites for Understanding the MicroC/TCP-IP Protocol Stack
10.4. Introduction to the MicroC/TCP-IP Protocol Stack - Nios® V Processor Edition
10.5. The MicroC/TCP-IP Protocol Stack Files and Directories
10.6. Enabling MicroC/TCP-IP Protocol Stack
10.7. Using the MicroC/TCP-IP Protocol Stack
13.1.1.1. _exit()
13.1.1.2. _rename()
13.1.1.3. alt_dcache_flush()
13.1.1.4. alt_dcache_flush_all()
13.1.1.5. alt_icache_flush_all()
13.1.1.6. alt_dcache_flush_no_writeback()
13.1.1.7. alt_uncached_malloc()
13.1.1.8. alt_uncached_free()
13.1.1.9. alt_remap_uncached()
13.1.1.10. alt_remap_cached()
13.1.1.11. alt_icache_flush_all()
13.1.1.12. alt_icache_flush()
13.1.1.13. alt_alarm_start()
13.1.1.14. alt_alarm_stop()
13.1.1.15. alt_dma_rxchan_depth()
13.1.1.16. alt_dma_rxchan_close()
13.1.1.17. alt_dev_reg()
13.1.1.18. alt_dma_rxchan_open()
13.1.1.19. alt_dma_rxchan_prepare()
13.1.1.20. alt_dma_rxchan_reg()
13.1.1.21. alt_dma_txchan_close()
13.1.1.22. alt_dma_txchan_ioctl()
13.1.1.23. alt_dma_txchan_open()
13.1.1.24. alt_dma_txchan_reg()
13.1.1.25. alt_flash_close_dev()
13.1.1.26. alt_exception_cause_generated_bad_addr()
13.1.1.27. alt_erase_flash_block()
13.1.1.28. alt_dma_rxchan_ioctl()
13.1.1.29. alt_dma_txchan_space()
13.1.1.30. alt_dma_txchan_send()
13.1.1.31. alt_flash_open_dev()
13.1.1.32. alt_fs_reg()
13.1.1.33. alt_get_flash_info()
13.1.1.34. alt_ic_irq_disable()
13.1.1.35. alt_ic_irq_enabled()
13.1.1.36. alt_ic_isr_register()
13.1.1.37. alt_ic_irq_enable()
13.1.1.38. alt_instruction_exception_register()
13.1.1.39. alt_irq_cpu_enable_interrupts ()
13.1.1.40. alt_irq_disable_all()
13.1.1.41. alt_irq_enable_all()
13.1.1.42. alt_irq_enabled()
13.1.1.43. alt_irq_init()
13.1.1.44. alt_irq_pending ()
13.1.1.45. alt_llist_insert()
13.1.1.46. alt_llist_remove()
13.1.1.47. alt_load_section()
13.1.1.48. alt_nticks()
13.1.1.49. alt_read_flash()
13.1.1.50. alt_tick()
13.1.1.51. alt_ticks_per_second()
13.1.1.52. alt_timestamp()
13.1.1.53. alt_timestamp_freq()
13.1.1.54. alt_timestamp_start()
13.1.1.55. alt_write_flash()
13.1.1.56. alt_write_flash_block()
13.1.1.57. close()
13.1.1.58. fstat()
13.1.1.59. fork()
13.1.1.60. fcntl()
13.1.1.61. execve()
13.1.1.62. getpid()
13.1.1.63. kill()
13.1.1.64. stat()
13.1.1.65. settimeofday()
13.1.1.66. wait()
13.1.1.67. unlink()
13.1.1.68. sbrk()
13.1.1.69. link()
13.1.1.70. lseek()
13.1.1.71. open()
13.1.1.72. alt_sysclk_init()
13.1.1.73. times()
13.1.1.74. read()
13.1.1.75. write()
13.1.1.76. usleep()
13.1.1.77. alt_lock_flash()
13.1.1.78. gettimeofday()
13.1.1.79. ioctl()
13.1.1.80. isatty()
13.1.1.81. alt_niosv_enable_msw_interrupt()
13.1.1.82. alt_niosv_disable_msw_interrupt()
13.1.1.83. alt_niosv_is_msw_interrupt_enabled()
13.1.1.84. alt_niosv_trigger_msw_interrupt()
13.1.1.85. alt_niosv_clear_msw_interrupt()
13.1.1.86. alt_niosv_register_msw_interrupt_handler()
13.5.2.1. add_memory_device
13.5.2.2. add_memory_region
13.5.2.3. add_section_mapping
13.5.2.4. are_same_resource
13.5.2.5. delete_memory_region
13.5.2.6. delete_section_mapping
13.5.2.7. disable_sw_package
13.5.2.8. enable_sw_package
13.5.2.9. get_addr_span
13.5.2.10. get_assignment
13.5.2.11. get_available_drivers
13.5.2.12. get_available_sw_packages
13.5.2.13. get_base_addr
13.5.2.14. get_break_offset
13.5.2.15. get_break_slave_desc
13.5.2.16. get_cpu_name
13.5.2.17. get_current_memory_regions
13.5.2.18. get_current_section_mappings
13.5.2.19. get_default_memory_regions
13.5.2.20. get_driver
13.5.2.21. get_enabled_sw_packages
13.5.2.22. get_exception_offset
13.5.2.23. get_exception_slave_desc
13.5.2.24. get_fast_tlb_miss_exception_offset
13.5.2.25. get_fast_tlb_miss_exception_slave_desc
13.5.2.26. get_interrupt_controller_id
13.5.2.27. get_irq_interrupt_controller_id
13.5.2.28. get_irq_number
13.5.2.29. get_memory_region
13.5.2.30. get_module_class_name
13.5.2.31. get_module_name
13.5.2.32. get_reset_offset
13.5.2.33. get_reset_slave_desc
13.5.2.34. get_section_mapping
13.5.2.35. get_setting
13.5.2.36. get_setting_desc
13.5.2.37. get_slave_descs
13.5.2.38. is_char_device
13.5.2.39. is_connected_interrupt_controller_device
13.5.2.40. is_connected_to_data_master
13.5.2.41. is_connected_to_instruction_master
13.5.2.42. is_ethernet_mac_device
13.5.2.43. is_flash
13.5.2.44. is_memory_device
13.5.2.45. is_non_volatile_storage
13.5.2.46. is_timer_device
13.5.2.47. log_debug
13.5.2.48. log_default
13.5.2.49. log_error
13.5.2.50. log_verbose
13.5.2.51. set_driver
13.5.2.52. set_ignore_file
13.5.2.53. set_setting
13.5.2.54. update_memory_region
13.5.2.55. update_section_mapping
13.5.2.56. add_default_memory_regions
13.5.2.57. create_bsp
13.5.2.58. generate_bsp
13.5.2.59. get_available_bsp_type_versions
13.5.2.60. get_available_bsp_types
13.5.2.61. get_available_cpu_architectures
13.5.2.62. get_available_cpu_names
13.5.2.63. get_available_software
13.5.2.64. get_available_software_setting_properties
13.5.2.65. get_available_software_settings
13.5.2.66. get_bsp_version
13.5.2.67. get_cpu_architecture
13.5.2.68. get_sopcinfo_file
13.5.2.69. get_supported_bsp_types
13.5.2.70. is_bsp_hal_extension
13.5.2.71. open_bsp
13.5.2.72. save_bsp
13.5.2.73. set_bsp_version
13.5.2.74. set_logging_mode
13.5.3.1. add_class_sw_setting
13.5.3.2. add_class_systemh_line
13.5.3.3. add_module_sw_property
13.5.3.4. add_module_sw_setting
13.5.3.5. add_module_systemh_line
13.5.3.6. add_systemh_line
13.5.3.7. get_class_peripheral
13.5.3.8. get_module_assignment
13.5.3.9. get_module_name
13.5.3.10. get_module_peripheral
13.5.3.11. get_module_sw_setting_value
13.5.3.12. get_peripheral_property
13.5.3.13. remove_class_systemh_line
13.5.3.14. remove_module_systemh_line
13.5.3.15. set_class_sw_setting_property
13.5.3.16. set_module_sw_setting_property
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6.6.6.2. Extra Logging Options
In addition to the default boot messages, logging options are incorporated in Intel FPGA logging. Each option is controlled by a C preprocessor symbol.
Name | Description | |
---|---|---|
System clock log | Purpose | Prints out a message from the system clock interrupt handler at a specified interval. This indicates that the system is still running. The default interval is every 1 second. |
Preprocessor symbol | ALT_LOG_SYS_CLK_ON_FLAG_SETTING | |
Modifiers | The system clock log has two modifiers, providing two different ways to specify the logging interval.
|
|
Sample Output | System Clock On 0 System Clock On 1 |
|
Write echo | Purpose | Every time alt_write() is called (normally, whenever characters are sent to stdout), the first <n> characters are echoed to a logging message. The message starts with the string "Write Echo:". <n> is specified with ALT_LOG_WRITE_ECHO_LEN. The default is 15 characters. |
Preprocessor symbol | ALT_LOG_WRITE_ON_FLAG_SETTING | |
Modifiers | ALT_LOG_WRITE_ECHO_LEN—Number of characters to echo. Default is 15. | |
Sample Output | Write Echo: Hello from Nios V | |
JTAG startup log | Purpose | At JTAG UART driver initialization, print out a line with the number of characters in the software transmit buffer followed by the JTAG UART control register contents. The number of characters, prefaced by the string "SW CirBuf", might be negative, because it is computed as (<tail_pointer> – <head_pointer>) on a circular buffer. For more information about the JTAG UART control register fields, refer to the Embedded Peripherals IP User Guide. |
Preprocessor symbol | ALT_LOG_JTAG_UART_STARTUP_INFO_ON_FLAG_SETTING | |
Modifiers | None | |
Sample Output | JTAG Startup Info: SW CirBuf = 0, HW FIFO wspace=64 AC=0 WI=0 RI=0 WE=0 RE=1 | |
JTAG interval log | Purpose | Creates an alarm object to print out the same JTAG UART information as the JTAG startup log, but at a repeated interval. Default interval is 0.1 second, or 10 messages a second. |
Preprocessor symbol | ALT_LOG_JTAG_UART_ALARM_ON_FLAG_SETTING | |
Modifiers | The JTAG interval log has two modifiers, providing two different ways to specify the logging interval.
|
|
Sample Output | JTAG Alarm: SW CirBuf = 0, HW FIFO wspace=45 AC=0 WI=0 RI=0 WE=0 RE=1 | |
JTAG interrupt service routine (ISR) log | Purpose | Prints out a message every time the JTAG UART near-empty interrupt triggers. Message contains the same JTAG UART information as in the JTAG startup log. |
Preprocessor symbol | ALT_LOG_JTAG_UART_ISR_ON_FLAG_SETTING | |
Modifiers | None | |
Sample Output | JTAG IRQ: SW CirBuf = -20, HW FIFO wspace=64 AC=0 WI=1 RI=0 WE=1 RE=1 | |
Boot log | Purpose | Prints out messages tracing the software boot process. The boot log is turned on by default when Intel FPGA logging is enabled. |
Preprocessor symbol | ALT_LOG_BOOT_ON_FLAG_SETTING | |
Modifiers | None | |
Sample Output | For more information, refer to Enabling Logging. |
Note: An option’s modifiers are meaningful only when the option is enabled.
Setting a preprocessor flag to 1 enables the corresponding option. Any value other than 1 disables the option.
Several options have modifiers, which are additional preprocessor symbols controlling details of how the options work. For example, the system clock log’s modifiers control the logging interval.
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