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<title>Static Call Graph - [.\Objects\uwb_simple_example.axf]</title></head>
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<body><HR>
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<H1>Static Call Graph for image .\Objects\uwb_simple_example.axf</H1><HR>
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<BR><P>#<CALLGRAPH># ARM Linker, 6140002: Last Updated: Tue Mar 11 14:27:39 2025
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<BR><P>
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<H3>Maximum Stack Usage = 2076 bytes + Unknown(Cycles, Untraceable Function Pointers)</H3><H3>
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Call chain for Maximum Stack Depth:</H3>
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rx_int_callback ⇒ ranging_rx_time_correct ⇒ ranging_rx_time ⇒ sts_first_path_detect ⇒ MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
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<P>
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<H3>
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Mutually Recursive functions
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</H3> <LI><a href="#[1d9]">trace_output</a> ⇒ <a href="#[7c]">trace_printf</a><BR>
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<LI><a href="#[51]">RadioSetPublicNetwork</a> ⇒ <a href="#[3d]">RadioSetModem</a><BR>
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</UL>
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<P>
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<H3>
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Function Pointers
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</H3><UL>
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<LI><a href="#[7]">ACMP0_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[8]">ACMP1_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[f]">ADC_IRQHandler</a> from mk_adc.o(.text.ADC_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[e]">AES_IRQHandler</a> from mk_aes.o(.text.AES_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[6]">BOD_IRQHandler</a> from mk_misc.o(.text.BOD_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[20]">CALIB_IRQHandler</a> from mk_calib.o(.text.CALIB_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[21]">CLK32K_CAL_IRQHandler</a> from mk_rtc.o(.text.CLK32K_CAL_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[c]">DMA_IRQHandler</a> from mk_dma.o(.text.DMA_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[11]">FLASH_CTRL_IRQHandler</a> from mk_flash.o(.text.FLASH_CTRL_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[d]">GPIO_IRQHandler</a> from mk_gpio.o(.text.GPIO_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[2]">HardFault_Handler</a> from mk_trace.o(.text.HardFault_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1b]">I2C0_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[12]">LSP_IRQHandler</a> from mk_lsp.o(.text.LSP_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[33]">Lora_irq_handler</a> from main.o(.text.Lora_irq_handler) referenced from main.o(.text.main)
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<LI><a href="#[a]">MAC_IRQHandler</a> from mk_mac.o(.text.MAC_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1]">NMI_Handler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[27]">OnRxDone</a> from lora_1268.o(.text.OnRxDone) referenced from lora_1268.o(.text.Lora_1268_Init)
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<LI><a href="#[2a]">OnRxError</a> from lora_1268.o(.text.OnRxError) referenced from lora_1268.o(.text.Lora_1268_Init)
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<LI><a href="#[29]">OnRxTimeout</a> from lora_1268.o(.text.OnRxTimeout) referenced from lora_1268.o(.text.Lora_1268_Init)
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<LI><a href="#[26]">OnTxDone</a> from lora_1268.o(.text.OnTxDone) referenced from lora_1268.o(.text.Lora_1268_Init)
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<LI><a href="#[28]">OnTxTimeout</a> from lora_1268.o(.text.OnTxTimeout) referenced from lora_1268.o(.text.Lora_1268_Init)
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<LI><a href="#[b]">PHY_IRQHandler</a> from mk_phy.o(.text.PHY_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[23]">PHY_TIMER_IRQHandler</a> from mk_phy.o(.text.PHY_TIMER_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[16]">PWM_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[4]">PendSV_Handler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[14]">RTC_ALARM_IRQHandler</a> from mk_rtc.o(.text.RTC_ALARM_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[15]">RTC_TICK_IRQHandler</a> from mk_rtc.o(.text.RTC_TICK_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[43]">RadioCheckRfFrequency</a> from radio.o(.text.RadioCheckRfFrequency) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[3c]">RadioGetStatus</a> from radio.o(.text.RadioGetStatus) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[52]">RadioGetWakeupTime</a> from radio.o(.text.RadioGetWakeupTime) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[3b]">RadioInit</a> from radio.o(.text.RadioInit) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[53]">RadioIrqProcess</a> from radio.o(.text.RadioIrqProcess) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[3f]">RadioIsChannelFree</a> from radio.o(.text.RadioIsChannelFree) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[2c]">RadioOnDioIrq</a> from radio.o(.text.RadioOnDioIrq) referenced from radio.o(.text.RadioInit)
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<LI><a href="#[40]">RadioRandom</a> from radio.o(.text.RadioRandom) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4d]">RadioRead</a> from radio.o(.text.RadioRead) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4f]">RadioReadBuffer</a> from radio.o(.text.RadioReadBuffer) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4b]">RadioRssi</a> from radio.o(.text.RadioRssi) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[48]">RadioRx</a> from radio.o(.text.RadioRx) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[54]">RadioRxBoosted</a> from radio.o(.text.RadioRxBoosted) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[45]">RadioSend</a> from radio.o(.text.RadioSend) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[3e]">RadioSetChannel</a> from radio.o(.text.RadioSetChannel) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[50]">RadioSetMaxPayloadLength</a> from radio.o(.text.RadioSetMaxPayloadLength) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[3d]">RadioSetModem</a> from radio.o(.text.RadioSetModem) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[51]">RadioSetPublicNetwork</a> from radio.o(.text.RadioSetPublicNetwork) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[41]">RadioSetRxConfig</a> from radio.o(.text.RadioSetRxConfig) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[55]">RadioSetRxDutyCycle</a> from radio.o(.text.RadioSetRxDutyCycle) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[42]">RadioSetTxConfig</a> from radio.o(.text.RadioSetTxConfig) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4a]">RadioSetTxContinuousWave</a> from radio.o(.text.RadioSetTxContinuousWave) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[46]">RadioSleep</a> from radio.o(.text.RadioSleep) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[47]">RadioStandby</a> from radio.o(.text.RadioStandby) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[49]">RadioStartCad</a> from radio.o(.text.RadioStartCad) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[44]">RadioTimeOnAir</a> from radio.o(.text.RadioTimeOnAir) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4c]">RadioWrite</a> from radio.o(.text.RadioWrite) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[4e]">RadioWriteBuffer</a> from radio.o(.text.RadioWriteBuffer) referenced from radio.o(.rodata.Radio)
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<LI><a href="#[0]">Reset_Handler</a> from startup_mk800x.o(.text.Reset_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[9]">SLEEP_TIMER_IRQHandler</a> from mk_sleep_timer.o(.text.SLEEP_TIMER_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1c]">SPI0_IRQHandler</a> from mk_spi.o(.text.SPI0_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1d]">SPI1_IRQHandler</a> from mk_spi.o(.text.SPI1_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[3]">SVC_Handler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[5]">SysTick_Handler</a> from mk_misc.o(.text.SysTick_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[17]">TIMER0_IRQHandler</a> from mk_timer.o(.text.TIMER0_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[18]">TIMER1_IRQHandler</a> from mk_timer.o(.text.TIMER1_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[19]">TIMER2_IRQHandler</a> from mk_dual_timer.o(.text.TIMER2_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1a]">TIMER3_IRQHandler</a> from mk_dual_timer.o(.text.TIMER3_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[10]">TRNG_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1e]">UART0_IRQHandler</a> from mk_uart.o(.text.UART0_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[1f]">UART1_IRQHandler</a> from mk_uart.o(.text.UART1_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[2b]">UsartParseDataHandler</a> from serial_at_cmd_app.o(.text.UsartParseDataHandler) referenced from main.o(.text.Program_Init)
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<LI><a href="#[22]">WAKEUP_IRQHandler</a> from startup_mk800x.o(.text.Default_Handler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[13]">WDT_IRQHandler</a> from mk_wdt.o(.text.WDT_IRQHandler) referenced from startup_mk800x.o(RESET)
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<LI><a href="#[37]">__main</a> from entry.o(.ARM.Collect$$$$00000000) referenced from startup_mk800x.o(.text.start_main_asm)
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<LI><a href="#[30]">flash_dma_callback</a> from mk_flash.o(.text.flash_dma_callback) referenced from mk_flash.o(.text.flash_dma_callback)
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<LI><a href="#[30]">flash_dma_callback</a> from mk_flash.o(.text.flash_dma_callback) referenced from mk_flash.o(.text.flash_read)
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<LI><a href="#[31]">flash_dma_write_nbytes_callback</a> from mk_flash.o(.text.flash_dma_write_nbytes_callback) referenced from mk_flash.o(.text.flash_dma_write_nbytes_callback)
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<LI><a href="#[31]">flash_dma_write_nbytes_callback</a> from mk_flash.o(.text.flash_dma_write_nbytes_callback) referenced from mk_flash.o(.text.flash_write_nbytes)
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<LI><a href="#[3a]">fputc</a> from fputc.o(i.fputc) referenced from printfa.o(i.__0printf)
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<LI><a href="#[32]">mac_op_timeout_handler</a> from mk_mac.o(.text.mac_op_timeout_handler) referenced from mk_mac.o(.text.mac_init)
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<LI><a href="#[24]">main</a> from main.o(.text.main) referenced from entry9a.o(.ARM.Collect$$$$0000000B)
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<LI><a href="#[34]">pca_handler</a> from main.o(.text.pca_handler) referenced from main.o(.text.main)
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<LI><a href="#[2f]">rx_int_callback</a> from uwb_app.o(.text.rx_int_callback) referenced from uwb_app.o(.text.Uwbinit)
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<LI><a href="#[35]">sleep_timer_callback</a> from main.o(.text.sleep_timer_callback) referenced from main.o(.text.main)
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<LI><a href="#[36]">spi_dma_callback</a> from mk_spi.o(.text.spi_dma_callback) referenced from mk_spi.o(.text.spi_transfer)
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<LI><a href="#[2d]">spi_transfer_callback</a> from sx126x-board.o(.text.spi_transfer_callback) referenced from sx126x-board.o(.text.SpiInOut)
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<LI><a href="#[38]">trace_sending_continue</a> from mk_trace.o(.text.trace_sending_continue) referenced from mk_trace.o(.text.trace_sending)
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<LI><a href="#[2e]">tx_int_callback</a> from uwb_app.o(.text.tx_int_callback) referenced from uwb_app.o(.text.Uwbinit)
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<LI><a href="#[25]">uart0_receive_callback</a> from main.o(.text.uart0_receive_callback) referenced from main.o(.text.Board_gpio_init)
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<LI><a href="#[25]">uart0_receive_callback</a> from main.o(.text.uart0_receive_callback) referenced from main.o(.text.uart0_receive_callback)
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<LI><a href="#[39]">uart_dma_callback</a> from mk_uart.o(.text.uart_dma_callback) referenced from mk_uart.o(.text.uart_send)
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</UL>
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<P>
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<H3>
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Global Symbols
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</H3>
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<P><STRONG><a name="[37]"></a>__main</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry.o(.ARM.Collect$$$$00000000))
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<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(.text.start_main_asm)
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</UL>
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<P><STRONG><a name="[20b]"></a>_main_stk</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry4.o(.ARM.Collect$$$$00000003))
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<P><STRONG><a name="[56]"></a>_main_scatterload</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry5.o(.ARM.Collect$$$$00000004))
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<BR><BR>[Calls]<UL><LI><a href="#[57]">>></a> __scatterload
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</UL>
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<P><STRONG><a name="[79]"></a>__main_after_scatterload</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry5.o(.ARM.Collect$$$$00000004))
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<BR><BR>[Called By]<UL><LI><a href="#[57]">>></a> __scatterload
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</UL>
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<P><STRONG><a name="[20c]"></a>_main_clock</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry7b.o(.ARM.Collect$$$$00000008))
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<P><STRONG><a name="[20d]"></a>_main_cpp_init</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry8b.o(.ARM.Collect$$$$0000000A))
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<P><STRONG><a name="[20e]"></a>_main_init</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry9a.o(.ARM.Collect$$$$0000000B))
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<P><STRONG><a name="[20f]"></a>__rt_final_cpp</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry10a.o(.ARM.Collect$$$$0000000D))
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<P><STRONG><a name="[210]"></a>__rt_final_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, entry11a.o(.ARM.Collect$$$$0000000F))
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<P><STRONG><a name="[99]"></a>__aeabi_uidiv</STRONG> (Thumb, 0 bytes, Stack size 12 bytes, uidiv.o(.text))
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<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = __aeabi_uidiv
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</UL>
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<BR>[Called By]<UL><LI><a href="#[176]">>></a> flash_sector_erase
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<LI><a href="#[180]">>></a> flash_read
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<LI><a href="#[175]">>></a> flash_erase
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<LI><a href="#[16c]">>></a> flash_block_erase
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<LI><a href="#[177]">>></a> flash_init_write_nbytes_cfg
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<LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
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<LI><a href="#[eb]">>></a> rtc_second_to_time
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<LI><a href="#[13a]">>></a> _PrintUnsigned
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<LI><a href="#[e3]">>></a> uwb_rx
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<LI><a href="#[12b]">>></a> spi_transfer
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<LI><a href="#[1c6]">>></a> spi_open
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<LI><a href="#[e9]">>></a> Program_Init
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<LI><a href="#[19c]">>></a> mac_tx_desc_construct
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<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
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<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
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</UL>
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<P><STRONG><a name="[59]"></a>__aeabi_uidivmod</STRONG> (Thumb, 44 bytes, Stack size 12 bytes, uidiv.o(.text))
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<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = __aeabi_uidivmod
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</UL>
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<BR>[Called By]<UL><LI><a href="#[180]">>></a> flash_read
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<LI><a href="#[175]">>></a> flash_erase
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<LI><a href="#[12b]">>></a> spi_transfer
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<LI><a href="#[a]">>></a> MAC_IRQHandler
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<LI><a href="#[1fc]">>></a> _printf_core
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<LI><a href="#[58]">>></a> __aeabi_idivmod
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</UL>
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<P><STRONG><a name="[96]"></a>__aeabi_idiv</STRONG> (Thumb, 0 bytes, Stack size 16 bytes, idiv.o(.text))
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<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __aeabi_idiv
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</UL>
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<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
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<LI><a href="#[eb]">>></a> rtc_second_to_time
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<LI><a href="#[1a5]">>></a> sleep_timer_start
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<LI><a href="#[138]">>></a> _PrintInt
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</UL>
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<P><STRONG><a name="[58]"></a>__aeabi_idivmod</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, idiv.o(.text))
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<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = __aeabi_idivmod ⇒ __aeabi_uidivmod
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</UL>
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<BR>[Calls]<UL><LI><a href="#[59]">>></a> __aeabi_uidivmod
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</UL>
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<BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
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</UL>
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<P><STRONG><a name="[1d7]"></a>abs</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, siabs.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
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</UL>
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<P><STRONG><a name="[81]"></a>__aeabi_memcpy</STRONG> (Thumb, 36 bytes, Stack size 0 bytes, memcpya.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[142]">>></a> aes_open
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<LI><a href="#[1d9]">>></a> trace_output
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<LI><a href="#[1ab]">>></a> phy_params_generate
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<LI><a href="#[12b]">>></a> spi_transfer
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<LI><a href="#[115]">>></a> spi_irq_handler
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<LI><a href="#[2b]">>></a> UsartParseDataHandler
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<LI><a href="#[80]">>></a> Anchor_App
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<LI><a href="#[2f]">>></a> rx_int_callback
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<LI><a href="#[27]">>></a> OnRxDone
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<LI><a href="#[c2]">>></a> LoraSendComMap
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<LI><a href="#[c1]">>></a> LoraRspWriteCommap
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<LI><a href="#[bc]">>></a> LoraReportPoll
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<LI><a href="#[19c]">>></a> mac_tx_desc_construct
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<LI><a href="#[1a9]">>></a> pdoa_ant_delays_set
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</UL>
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<P><STRONG><a name="[1ac]"></a>__aeabi_memcpy4</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memcpya.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
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</UL>
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<P><STRONG><a name="[211]"></a>__aeabi_memcpy8</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memcpya.o(.text), UNUSED)
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<P><STRONG><a name="[5b]"></a>__aeabi_memset</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, memseta.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[5c]">>></a> _memset$wrapper
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<LI><a href="#[5a]">>></a> __aeabi_memclr
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</UL>
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<P><STRONG><a name="[1af]"></a>__aeabi_memset4</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memseta.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
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</UL>
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<P><STRONG><a name="[212]"></a>__aeabi_memset8</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memseta.o(.text), UNUSED)
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<P><STRONG><a name="[5a]"></a>__aeabi_memclr</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, memseta.o(.text))
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<BR><BR>[Calls]<UL><LI><a href="#[5b]">>></a> __aeabi_memset
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</UL>
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<BR>[Called By]<UL><LI><a href="#[7c]">>></a> trace_printf
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<LI><a href="#[1ab]">>></a> phy_params_generate
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<LI><a href="#[2b]">>></a> UsartParseDataHandler
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<LI><a href="#[bc]">>></a> LoraReportPoll
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</UL>
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<P><STRONG><a name="[213]"></a>__aeabi_memclr4</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memseta.o(.text), UNUSED)
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<P><STRONG><a name="[191]"></a>__aeabi_memclr8</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, memseta.o(.text))
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<BR><BR>[Called By]<UL><LI><a href="#[18f]">>></a> mac_init
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</UL>
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<P><STRONG><a name="[5c]"></a>_memset$wrapper</STRONG> (Thumb, 18 bytes, Stack size 8 bytes, memseta.o(.text), UNUSED)
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<BR><BR>[Calls]<UL><LI><a href="#[5b]">>></a> __aeabi_memset
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</UL>
|
|
<P><STRONG><a name="[13e]"></a>strlen</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, strlen.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[5d]"></a>__aeabi_fadd</STRONG> (Thumb, 162 bytes, Stack size 24 bytes, fadd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5f]">>></a> _float_round
|
<LI><a href="#[5e]">>></a> _float_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[60]">>></a> __aeabi_fsub
|
<LI><a href="#[dd]">>></a> MK8000_read_rssi
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[cc]">>></a> derive_scaled_thres
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[61]">>></a> __aeabi_frsub
|
</UL>
|
|
<P><STRONG><a name="[60]"></a>__aeabi_fsub</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, fadd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = __aeabi_fsub ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5d]">>></a> __aeabi_fadd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[61]"></a>__aeabi_frsub</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, fadd.o(.text), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[5d]">>></a> __aeabi_fadd
|
</UL>
|
|
<P><STRONG><a name="[94]"></a>__aeabi_fmul</STRONG> (Thumb, 122 bytes, Stack size 16 bytes, fmul.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __aeabi_fmul
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[1b9]">>></a> ranging_rx_time
|
<LI><a href="#[dd]">>></a> MK8000_read_rssi
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
<LI><a href="#[cc]">>></a> derive_scaled_thres
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[62]"></a>__aeabi_fdiv</STRONG> (Thumb, 124 bytes, Stack size 16 bytes, fdiv.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __aeabi_fdiv
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5f]">>></a> _float_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[d0]">>></a> MK8000_blender_packet
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[63]"></a>__aeabi_dadd</STRONG> (Thumb, 328 bytes, Stack size 48 bytes, dadd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[65]">>></a> __aeabi_lasr
|
<LI><a href="#[64]">>></a> __aeabi_llsl
|
<LI><a href="#[67]">>></a> _double_round
|
<LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[204]">>></a> _fp_digits
|
<LI><a href="#[126]">>></a> pow
|
<LI><a href="#[110]">>></a> floor
|
<LI><a href="#[10e]">>></a> ceil
|
<LI><a href="#[68]">>></a> __aeabi_dsub
|
<LI><a href="#[69]">>></a> __aeabi_drsub
|
<LI><a href="#[1fd]">>></a> __kernel_poly
|
<LI><a href="#[1ff]">>></a> __mathlib_dbl_infnan2
|
</UL>
|
|
<P><STRONG><a name="[68]"></a>__aeabi_dsub</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, dadd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = __aeabi_dsub ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[69]"></a>__aeabi_drsub</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, dadd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = __aeabi_drsub ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
<LI><a href="#[110]">>></a> floor
|
<LI><a href="#[10e]">>></a> ceil
|
</UL>
|
|
<P><STRONG><a name="[6a]"></a>__aeabi_dmul</STRONG> (Thumb, 202 bytes, Stack size 72 bytes, dmul.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 128<LI>Call Chain = __aeabi_dmul ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
<LI><a href="#[204]">>></a> _fp_digits
|
<LI><a href="#[126]">>></a> pow
|
<LI><a href="#[1fd]">>></a> __kernel_poly
|
</UL>
|
|
<P><STRONG><a name="[6b]"></a>__aeabi_ddiv</STRONG> (Thumb, 234 bytes, Stack size 40 bytes, ddiv.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = __aeabi_ddiv ⇒ _double_round
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[67]">>></a> _double_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
<LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
<LI><a href="#[204]">>></a> _fp_digits
|
<LI><a href="#[126]">>></a> pow
|
<LI><a href="#[200]">>></a> __mathlib_dbl_invalid
|
<LI><a href="#[1fe]">>></a> __mathlib_dbl_divzero
|
</UL>
|
|
<P><STRONG><a name="[cb]"></a>__aeabi_fcmple</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, fcmple.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[ce]"></a>__aeabi_fcmplt</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, fcmplt.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[d3]"></a>__aeabi_fcmpge</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, fcmpge.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[cc]">>></a> derive_scaled_thres
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[d0]">>></a> MK8000_blender_packet
|
</UL>
|
|
<P><STRONG><a name="[d2]"></a>__aeabi_fcmpgt</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, fcmpgt.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[d0]">>></a> MK8000_blender_packet
|
</UL>
|
|
<P><STRONG><a name="[10f]"></a>__aeabi_dcmple</STRONG> (Thumb, 44 bytes, Stack size 8 bytes, dcmple.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_dcmple
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
</UL>
|
|
<P><STRONG><a name="[6c]"></a>__aeabi_i2f</STRONG> (Thumb, 22 bytes, Stack size 8 bytes, fflti.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = __aeabi_i2f ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5e]">>></a> _float_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[dd]">>></a> MK8000_read_rssi
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[6d]"></a>__aeabi_ui2f</STRONG> (Thumb, 14 bytes, Stack size 8 bytes, ffltui.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = __aeabi_ui2f ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5e]">>></a> _float_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[cc]">>></a> derive_scaled_thres
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[6e]"></a>__aeabi_i2d</STRONG> (Thumb, 34 bytes, Stack size 16 bytes, dflti.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = __aeabi_i2d ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
<LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[6f]"></a>__aeabi_ui2d</STRONG> (Thumb, 24 bytes, Stack size 16 bytes, dfltui.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = __aeabi_ui2d ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
<LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[cf]"></a>__aeabi_f2iz</STRONG> (Thumb, 50 bytes, Stack size 0 bytes, ffixi.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[1b9]">>></a> ranging_rx_time
|
<LI><a href="#[dd]">>></a> MK8000_read_rssi
|
<LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[95]"></a>__aeabi_f2uiz</STRONG> (Thumb, 40 bytes, Stack size 0 bytes, ffixui.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
</UL>
|
|
<P><STRONG><a name="[70]"></a>__aeabi_d2iz</STRONG> (Thumb, 62 bytes, Stack size 16 bytes, dfixi.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __aeabi_d2iz ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
</UL>
|
|
<P><STRONG><a name="[72]"></a>__aeabi_d2uiz</STRONG> (Thumb, 50 bytes, Stack size 8 bytes, dfixui.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __aeabi_d2uiz ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[44]">>></a> RadioTimeOnAir
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[1ad]"></a>__aeabi_f2d</STRONG> (Thumb, 40 bytes, Stack size 0 bytes, f2d.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
</UL>
|
|
<P><STRONG><a name="[73]"></a>__aeabi_d2f</STRONG> (Thumb, 56 bytes, Stack size 8 bytes, d2f.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_d2f
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5f]">>></a> _float_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
</UL>
|
|
<P><STRONG><a name="[74]"></a>__aeabi_uldivmod</STRONG> (Thumb, 96 bytes, Stack size 48 bytes, uldiv.o(.text), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
<LI><a href="#[64]">>></a> __aeabi_llsl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1fc]">>></a> _printf_core
|
<LI><a href="#[204]">>></a> _fp_digits
|
</UL>
|
|
<P><STRONG><a name="[64]"></a>__aeabi_llsl</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, llshl.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_llsl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[77]">>></a> _drnd
|
<LI><a href="#[74]">>></a> __aeabi_uldivmod
|
<LI><a href="#[66]">>></a> _double_epilogue
|
<LI><a href="#[78]">>></a> __aeabi_d2ulz
|
</UL>
|
|
<P><STRONG><a name="[214]"></a>_ll_shift_l</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, llshl.o(.text), UNUSED)
|
|
<P><STRONG><a name="[71]"></a>__aeabi_llsr</STRONG> (Thumb, 34 bytes, Stack size 8 bytes, llushr.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_llsr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[70]">>></a> __aeabi_d2iz
|
<LI><a href="#[72]">>></a> __aeabi_d2uiz
|
<LI><a href="#[76]">>></a> _dsqrt
|
<LI><a href="#[77]">>></a> _drnd
|
<LI><a href="#[74]">>></a> __aeabi_uldivmod
|
<LI><a href="#[66]">>></a> _double_epilogue
|
<LI><a href="#[78]">>></a> __aeabi_d2ulz
|
</UL>
|
|
<P><STRONG><a name="[215]"></a>_ll_ushift_r</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, llushr.o(.text), UNUSED)
|
|
<P><STRONG><a name="[65]"></a>__aeabi_lasr</STRONG> (Thumb, 38 bytes, Stack size 8 bytes, llsshr.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_lasr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
</UL>
|
|
<P><STRONG><a name="[216]"></a>_ll_sshift_r</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, llsshr.o(.text), UNUSED)
|
|
<P><STRONG><a name="[217]"></a>__I$use$fp</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, iusefp.o(.text), UNUSED)
|
|
<P><STRONG><a name="[5f]"></a>_float_round</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, fepilogue.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[73]">>></a> __aeabi_d2f
|
<LI><a href="#[62]">>></a> __aeabi_fdiv
|
</UL>
|
|
<P><STRONG><a name="[5e]"></a>_float_epilogue</STRONG> (Thumb, 114 bytes, Stack size 12 bytes, fepilogue.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = _float_epilogue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[6c]">>></a> __aeabi_i2f
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
</UL>
|
|
<P><STRONG><a name="[67]"></a>_double_round</STRONG> (Thumb, 26 bytes, Stack size 8 bytes, depilogue.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = _double_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[76]">>></a> _dsqrt
|
<LI><a href="#[77]">>></a> _drnd
|
<LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
|
<P><STRONG><a name="[66]"></a>_double_epilogue</STRONG> (Thumb, 164 bytes, Stack size 48 bytes, depilogue.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[75]">>></a> __ARM_clz
|
<LI><a href="#[71]">>></a> __aeabi_llsr
|
<LI><a href="#[64]">>></a> __aeabi_llsl
|
<LI><a href="#[67]">>></a> _double_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[6e]">>></a> __aeabi_i2d
|
<LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
</UL>
|
|
<P><STRONG><a name="[202]"></a>__ARM_scalbn</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, dscalb.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = __ARM_scalbn
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
<LI><a href="#[203]">>></a> __mathlib_dbl_underflow
|
<LI><a href="#[201]">>></a> __mathlib_dbl_overflow
|
</UL>
|
|
<P><STRONG><a name="[218]"></a>scalbn</STRONG> (Thumb, 0 bytes, Stack size 16 bytes, dscalb.o(.text), UNUSED)
|
|
<P><STRONG><a name="[76]"></a>_dsqrt</STRONG> (Thumb, 162 bytes, Stack size 32 bytes, dsqrt.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = _dsqrt ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
<LI><a href="#[67]">>></a> _double_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[209]">>></a> sqrt
|
</UL>
|
|
<P><STRONG><a name="[77]"></a>_drnd</STRONG> (Thumb, 114 bytes, Stack size 24 bytes, drnd.o(.text))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = _drnd ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
<LI><a href="#[64]">>></a> __aeabi_llsl
|
<LI><a href="#[67]">>></a> _double_round
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[10d]">>></a> rint
|
</UL>
|
|
<P><STRONG><a name="[78]"></a>__aeabi_d2ulz</STRONG> (Thumb, 54 bytes, Stack size 8 bytes, dfixul.o(.text), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[71]">>></a> __aeabi_llsr
|
<LI><a href="#[64]">>></a> __aeabi_llsl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[204]">>></a> _fp_digits
|
</UL>
|
|
<P><STRONG><a name="[205]"></a>__aeabi_cdrcmple</STRONG> (Thumb, 38 bytes, Stack size 0 bytes, cdrcmple.o(.text))
|
<BR><BR>[Called By]<UL><LI><a href="#[204]">>></a> _fp_digits
|
<LI><a href="#[126]">>></a> pow
|
<LI><a href="#[110]">>></a> floor
|
<LI><a href="#[10e]">>></a> ceil
|
</UL>
|
|
<P><STRONG><a name="[57]"></a>__scatterload</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, init.o(.text))
|
<BR><BR>[Calls]<UL><LI><a href="#[79]">>></a> __main_after_scatterload
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[56]">>></a> _main_scatterload
|
</UL>
|
|
<P><STRONG><a name="[219]"></a>__scatterload_rt2</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, init.o(.text), UNUSED)
|
|
<P><STRONG><a name="[21a]"></a>__I$use$semihosting$fputc</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, iusesemip.o(.text), UNUSED)
|
|
<P><STRONG><a name="[21b]"></a>__decompress</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __dczerorl2.o(.text), UNUSED)
|
|
<P><STRONG><a name="[21c]"></a>__decompress1</STRONG> (Thumb, 86 bytes, Stack size unknown bytes, __dczerorl2.o(.text), UNUSED)
|
|
<P><STRONG><a name="[21d]"></a>__semihosting_library_function</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, semi.o(.text), UNUSED)
|
|
<P><STRONG><a name="[f]"></a>ADC_IRQHandler</STRONG> (Thumb, 260 bytes, Stack size 24 bytes, mk_adc.o(.text.ADC_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 780<LI>Call Chain = ADC_IRQHandler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[7a]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[e]"></a>AES_IRQHandler</STRONG> (Thumb, 648 bytes, Stack size 56 bytes, mk_aes.o(.text.AES_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1388<LI>Call Chain = AES_IRQHandler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[7d]"></a>Accelerometer_Init</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, lis3dh_driver.o(.text.Accelerometer_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 220<LI>Call Chain = Accelerometer_Init ⇒ LIS3DH_Data_Init ⇒ LIS3DH_GetWHO_AM_I ⇒ LIS3DH_ReadReg ⇒ LIS3DH_ReadOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7e]">>></a> LIS3DH_GetWHO_AM_I
|
<LI><a href="#[7f]">>></a> LIS3DH_Data_Init
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[80]"></a>Anchor_App</STRONG> (Thumb, 484 bytes, Stack size 56 bytes, uwb_app.o(.text.Anchor_App))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1036<LI>Call Chain = Anchor_App ⇒ Anchor_RecNearPoll ⇒ uwb_tx ⇒ mac_tx ⇒ mac_tx_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[85]">>></a> OpenUWB
|
<LI><a href="#[84]">>></a> ExistInTagList
|
<LI><a href="#[82]">>></a> CmpTagInList
|
<LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[2f]">>></a> rx_int_callback
|
</UL>
|
|
<P><STRONG><a name="[83]"></a>Anchor_RecNearPoll</STRONG> (Thumb, 316 bytes, Stack size 64 bytes, uwb_app.o(.text.Anchor_RecNearPoll))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 980<LI>Call Chain = Anchor_RecNearPoll ⇒ uwb_tx ⇒ mac_tx ⇒ mac_tx_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[8a]">>></a> uwb_tx
|
<LI><a href="#[86]">>></a> phy_timer_count_get
|
<LI><a href="#[87]">>></a> phy_shr_duration
|
<LI><a href="#[89]">>></a> resp_msg_set_ts
|
<LI><a href="#[88]">>></a> ranging_tx_time_correct
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[80]">>></a> Anchor_App
|
</UL>
|
|
<P><STRONG><a name="[6]"></a>BOD_IRQHandler</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, mk_misc.o(.text.BOD_IRQHandler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[8b]"></a>Board_LORA_NVIC_Init</STRONG> (Thumb, 44 bytes, Stack size 24 bytes, main.o(.text.Board_LORA_NVIC_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = Board_LORA_NVIC_Init ⇒ gpio_enable_irq ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[8e]">>></a> gpio_enable_irq
|
<LI><a href="#[8d]">>></a> io_pull_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[8f]"></a>Board_gpio_init</STRONG> (Thumb, 152 bytes, Stack size 32 bytes, main.o(.text.Board_gpio_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1388<LI>Call Chain = Board_gpio_init ⇒ board_debug_console_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[8d]">>></a> io_pull_set
|
<LI><a href="#[90]">>></a> io_pin_mux_set
|
<LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[91]">>></a> board_debug_console_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[20]"></a>CALIB_IRQHandler</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, mk_calib.o(.text.CALIB_IRQHandler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[21]"></a>CLK32K_CAL_IRQHandler</STRONG> (Thumb, 424 bytes, Stack size 80 bytes, mk_rtc.o(.text.CLK32K_CAL_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1412<LI>Call Chain = CLK32K_CAL_IRQHandler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[98]">>></a> clock_disable
|
<LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[97]">>></a> sleep_timer_ppm_set
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[62]">>></a> __aeabi_fdiv
|
<LI><a href="#[95]">>></a> __aeabi_f2uiz
|
<LI><a href="#[96]">>></a> __aeabi_idiv
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[bb]"></a>Checksum_u16</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, serial_at_cmd_app.o(.text.Checksum_u16))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = Checksum_u16
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[27]">>></a> OnRxDone
|
<LI><a href="#[c2]">>></a> LoraSendComMap
|
<LI><a href="#[c1]">>></a> LoraRspWriteCommap
|
<LI><a href="#[bc]">>></a> LoraReportPoll
|
<LI><a href="#[ba]">>></a> LoraHeartBeartPoll
|
</UL>
|
|
<P><STRONG><a name="[9a]"></a>CloseUWB</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, uwb_app.o(.text.CloseUWB))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = CloseUWB ⇒ uwb_rx_force_off ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[9b]">>></a> uwb_rx_force_off
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a6]">>></a> uwb_app_poll
|
</UL>
|
|
<P><STRONG><a name="[82]"></a>CmpTagInList</STRONG> (Thumb, 124 bytes, Stack size 12 bytes, uwb_app.o(.text.CmpTagInList))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = CmpTagInList
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[80]">>></a> Anchor_App
|
</UL>
|
|
<P><STRONG><a name="[c]"></a>DMA_IRQHandler</STRONG> (Thumb, 296 bytes, Stack size 32 bytes, mk_dma.o(.text.DMA_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = DMA_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[7]"></a>ACMP0_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[8]"></a>ACMP1_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[21e]"></a>Default_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler), UNUSED)
|
|
<P><STRONG><a name="[1b]"></a>I2C0_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[1]"></a>NMI_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[16]"></a>PWM_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[4]"></a>PendSV_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[3]"></a>SVC_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[10]"></a>TRNG_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[22]"></a>WAKEUP_IRQHandler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Default_Handler))
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[9d]"></a>Delay_Ms</STRONG> (Thumb, 68 bytes, Stack size 12 bytes, delay.o(.text.Delay_Ms))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = Delay_Ms
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9c]">>></a> HAL_Delay_nMS
|
</UL>
|
|
<P><STRONG><a name="[84]"></a>ExistInTagList</STRONG> (Thumb, 108 bytes, Stack size 12 bytes, uwb_app.o(.text.ExistInTagList))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = ExistInTagList
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[80]">>></a> Anchor_App
|
</UL>
|
|
<P><STRONG><a name="[11]"></a>FLASH_CTRL_IRQHandler</STRONG> (Thumb, 88 bytes, Stack size 20 bytes, mk_flash.o(.text.FLASH_CTRL_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = FLASH_CTRL_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[d]"></a>GPIO_IRQHandler</STRONG> (Thumb, 104 bytes, Stack size 24 bytes, mk_gpio.o(.text.GPIO_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = GPIO_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[9c]"></a>HAL_Delay_nMS</STRONG> (Thumb, 16 bytes, Stack size 16 bytes, delay.o(.text.HAL_Delay_nMS))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = HAL_Delay_nMS ⇒ Delay_Ms
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[9d]">>></a> Delay_Ms
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[46]">>></a> RadioSleep
|
<LI><a href="#[40]">>></a> RadioRandom
|
<LI><a href="#[3f]">>></a> RadioIsChannelFree
|
<LI><a href="#[11f]">>></a> SX126xReset
|
</UL>
|
|
<P><STRONG><a name="[12f]"></a>HIDO_TimerGetTick</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, hido_timer.o(.text.HIDO_TimerGetTick))
|
<BR><BR>[Called By]<UL><LI><a href="#[1a6]">>></a> uwb_app_poll
|
<LI><a href="#[12e]">>></a> UWBIdleTask
|
</UL>
|
|
<P><STRONG><a name="[1c1]"></a>HIDO_TimerTick</STRONG> (Thumb, 36 bytes, Stack size 0 bytes, hido_timer.o(.text.HIDO_TimerTick))
|
<BR><BR>[Called By]<UL><LI><a href="#[35]">>></a> sleep_timer_callback
|
</UL>
|
|
<P><STRONG><a name="[2]"></a>HardFault_Handler</STRONG> (Thumb, 124 bytes, Stack size 0 bytes, mk_trace.o(.text.HardFault_Handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 612<LI>Call Chain = HardFault_Handler ⇒ trace_exception_handler ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[9e]">>></a> trace_exception_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[9f]"></a>IIC2_Ack</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.IIC2_Ack))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_Ack ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
</UL>
|
|
<P><STRONG><a name="[a3]"></a>IIC2_Init</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.IIC2_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = IIC2_Init ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[8d]">>></a> io_pull_set
|
<LI><a href="#[90]">>></a> io_pin_mux_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[a4]"></a>IIC2_NAck</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.IIC2_NAck))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_NAck ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
</UL>
|
|
<P><STRONG><a name="[a5]"></a>IIC2_Read_Byte</STRONG> (Thumb, 134 bytes, Stack size 32 bytes, lis3dh_driver.o(.text.IIC2_Read_Byte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 60<LI>Call Chain = IIC2_Read_Byte ⇒ IIC2_NAck ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a6]">>></a> gpio_pin_get_val
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[a4]">>></a> IIC2_NAck
|
<LI><a href="#[9f]">>></a> IIC2_Ack
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
</UL>
|
|
<P><STRONG><a name="[a7]"></a>IIC2_Read_pca_Byte</STRONG> (Thumb, 178 bytes, Stack size 48 bytes, pca9555.o(.text.IIC2_Read_pca_Byte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 76<LI>Call Chain = IIC2_Read_pca_Byte ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a6]">>></a> gpio_pin_get_val
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[a8]"></a>IIC2_Send_Byte</STRONG> (Thumb, 130 bytes, Stack size 40 bytes, lis3dh_driver.o(.text.IIC2_Send_Byte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = IIC2_Send_Byte ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
<LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
</UL>
|
|
<P><STRONG><a name="[a9]"></a>IIC2_Send_pca_Byte</STRONG> (Thumb, 130 bytes, Stack size 40 bytes, pca9555.o(.text.IIC2_Send_pca_Byte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = IIC2_Send_pca_Byte ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
<LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[aa]"></a>IIC2_Start</STRONG> (Thumb, 46 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.IIC2_Start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_Start ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
<LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
</UL>
|
|
<P><STRONG><a name="[ab]"></a>IIC2_Stop</STRONG> (Thumb, 54 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.IIC2_Stop))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_Stop ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
<LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
</UL>
|
|
<P><STRONG><a name="[ac]"></a>IIC2_Wait_Ack</STRONG> (Thumb, 128 bytes, Stack size 32 bytes, lis3dh_driver.o(.text.IIC2_Wait_Ack))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 60<LI>Call Chain = IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a6]">>></a> gpio_pin_get_val
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
<LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
</UL>
|
|
<P><STRONG><a name="[ad]"></a>IIC2_Wait_pca_Ack</STRONG> (Thumb, 140 bytes, Stack size 40 bytes, pca9555.o(.text.IIC2_Wait_pca_Ack))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a6]">>></a> gpio_pin_get_val
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
<LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[af]"></a>IIC2_pca_Start</STRONG> (Thumb, 46 bytes, Stack size 24 bytes, pca9555.o(.text.IIC2_pca_Start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_pca_Start ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
<LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[ae]"></a>IIC2_pca_Stop</STRONG> (Thumb, 54 bytes, Stack size 24 bytes, pca9555.o(.text.IIC2_pca_Stop))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_pca_Stop ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
<LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
</UL>
|
|
<P><STRONG><a name="[b0]"></a>IIC2_pca_send_Ack</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, pca9555.o(.text.IIC2_pca_send_Ack))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_pca_send_Ack ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[b1]"></a>IIC2_pca_send_NAck</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, pca9555.o(.text.IIC2_pca_send_NAck))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = IIC2_pca_send_NAck ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
|
<P><STRONG><a name="[b2]"></a>IIC_Read_Pca9555</STRONG> (Thumb, 188 bytes, Stack size 64 bytes, pca9555.o(.text.IIC_Read_Pca9555))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 140<LI>Call Chain = IIC_Read_Pca9555 ⇒ IIC2_Read_pca_Byte ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b1]">>></a> IIC2_pca_send_NAck
|
<LI><a href="#[b0]">>></a> IIC2_pca_send_Ack
|
<LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
<LI><a href="#[af]">>></a> IIC2_pca_Start
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a9]">>></a> IIC2_Send_pca_Byte
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e8]">>></a> PCA9555_readdata
|
</UL>
|
|
<P><STRONG><a name="[b3]"></a>IIC_Write_Pca9555</STRONG> (Thumb, 152 bytes, Stack size 80 bytes, pca9555.o(.text.IIC_Write_Pca9555))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 148<LI>Call Chain = IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
<LI><a href="#[af]">>></a> IIC2_pca_Start
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a9]">>></a> IIC2_Send_pca_Byte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e6]">>></a> PCA9555_write_output_port_data
|
<LI><a href="#[e5]">>></a> PCA9555_write_config_port_data
|
</UL>
|
|
<P><STRONG><a name="[b4]"></a>IdleTask</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, main.o(.text.IdleTask))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = IdleTask ⇒ UART0_CheckReceive
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b5]">>></a> UART0_CheckReceive
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[7f]"></a>LIS3DH_Data_Init</STRONG> (Thumb, 144 bytes, Stack size 56 bytes, lis3dh_driver.o(.text.LIS3DH_Data_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 204<LI>Call Chain = LIS3DH_Data_Init ⇒ LIS3DH_GetWHO_AM_I ⇒ LIS3DH_ReadReg ⇒ LIS3DH_ReadOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[b6]">>></a> LIS3DH_WriteReg
|
<LI><a href="#[7e]">>></a> LIS3DH_GetWHO_AM_I
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7d]">>></a> Accelerometer_Init
|
</UL>
|
|
<P><STRONG><a name="[7e]"></a>LIS3DH_GetWHO_AM_I</STRONG> (Thumb, 38 bytes, Stack size 16 bytes, lis3dh_driver.o(.text.LIS3DH_GetWHO_AM_I))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 148<LI>Call Chain = LIS3DH_GetWHO_AM_I ⇒ LIS3DH_ReadReg ⇒ LIS3DH_ReadOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b7]">>></a> LIS3DH_ReadReg
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7f]">>></a> LIS3DH_Data_Init
|
<LI><a href="#[7d]">>></a> Accelerometer_Init
|
</UL>
|
|
<P><STRONG><a name="[b8]"></a>LIS3DH_ReadOneByte</STRONG> (Thumb, 96 bytes, Stack size 48 bytes, lis3dh_driver.o(.text.LIS3DH_ReadOneByte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = LIS3DH_ReadOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
<LI><a href="#[aa]">>></a> IIC2_Start
|
<LI><a href="#[a8]">>></a> IIC2_Send_Byte
|
<LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b7]">>></a> LIS3DH_ReadReg
|
</UL>
|
|
<P><STRONG><a name="[b7]"></a>LIS3DH_ReadReg</STRONG> (Thumb, 30 bytes, Stack size 24 bytes, lis3dh_driver.o(.text.LIS3DH_ReadReg))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 132<LI>Call Chain = LIS3DH_ReadReg ⇒ LIS3DH_ReadOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b8]">>></a> LIS3DH_ReadOneByte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7e]">>></a> LIS3DH_GetWHO_AM_I
|
</UL>
|
|
<P><STRONG><a name="[b9]"></a>LIS3DH_WriteOneByte</STRONG> (Thumb, 86 bytes, Stack size 48 bytes, lis3dh_driver.o(.text.LIS3DH_WriteOneByte))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = LIS3DH_WriteOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
<LI><a href="#[aa]">>></a> IIC2_Start
|
<LI><a href="#[a8]">>></a> IIC2_Send_Byte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b6]">>></a> LIS3DH_WriteReg
|
</UL>
|
|
<P><STRONG><a name="[b6]"></a>LIS3DH_WriteReg</STRONG> (Thumb, 40 bytes, Stack size 32 bytes, lis3dh_driver.o(.text.LIS3DH_WriteReg))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 140<LI>Call Chain = LIS3DH_WriteReg ⇒ LIS3DH_WriteOneByte ⇒ IIC2_Wait_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7f]">>></a> LIS3DH_Data_Init
|
</UL>
|
|
<P><STRONG><a name="[12]"></a>LSP_IRQHandler</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, mk_lsp.o(.text.LSP_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = LSP_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[ba]"></a>LoraHeartBeartPoll</STRONG> (Thumb, 100 bytes, Stack size 16 bytes, lora_1268.o(.text.LoraHeartBeartPoll))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = LoraHeartBeartPoll ⇒ Checksum_u16
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bb]">>></a> Checksum_u16
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[bc]">>></a> LoraReportPoll
|
</UL>
|
|
<P><STRONG><a name="[be]"></a>LoraReportFreqPoll</STRONG> (Thumb, 132 bytes, Stack size 0 bytes, lora_1268.o(.text.LoraReportFreqPoll))
|
<BR><BR>[Called By]<UL><LI><a href="#[bc]">>></a> LoraReportPoll
|
</UL>
|
|
<P><STRONG><a name="[bc]"></a>LoraReportPoll</STRONG> (Thumb, 840 bytes, Stack size 128 bytes, lora_1268.o(.text.LoraReportPoll))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 340<LI>Call Chain = LoraReportPoll ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
<LI><a href="#[bb]">>></a> Checksum_u16
|
<LI><a href="#[bd]">>></a> TagListUpdate
|
<LI><a href="#[bf]">>></a> SwitchLoraSettings
|
<LI><a href="#[be]">>></a> LoraReportFreqPoll
|
<LI><a href="#[ba]">>></a> LoraHeartBeartPoll
|
<LI><a href="#[5a]">>></a> __aeabi_memclr
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[c3]">>></a> Lora_Tx_Poll
|
</UL>
|
|
<P><STRONG><a name="[c1]"></a>LoraRspWriteCommap</STRONG> (Thumb, 152 bytes, Stack size 56 bytes, lora_1268.o(.text.LoraRspWriteCommap))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = LoraRspWriteCommap ⇒ Checksum_u16
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bb]">>></a> Checksum_u16
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[27]">>></a> OnRxDone
|
</UL>
|
|
<P><STRONG><a name="[c2]"></a>LoraSendComMap</STRONG> (Thumb, 160 bytes, Stack size 48 bytes, lora_1268.o(.text.LoraSendComMap))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = LoraSendComMap ⇒ Checksum_u16
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bb]">>></a> Checksum_u16
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[27]">>></a> OnRxDone
|
</UL>
|
|
<P><STRONG><a name="[1a3]"></a>Lora_1268_Init</STRONG> (Thumb, 96 bytes, Stack size 16 bytes, lora_1268.o(.text.Lora_1268_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = Lora_1268_Init
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[c3]"></a>Lora_Tx_Poll</STRONG> (Thumb, 160 bytes, Stack size 8 bytes, lora_1268.o(.text.Lora_Tx_Poll))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 348<LI>Call Chain = Lora_Tx_Poll ⇒ LoraReportPoll ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bc]">>></a> LoraReportPoll
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[a]"></a>MAC_IRQHandler</STRONG> (Thumb, 1404 bytes, Stack size 104 bytes, mk_mac.o(.text.MAC_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1436<LI>Call Chain = MAC_IRQHandler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[c8]">>></a> sys_timer_get
|
<LI><a href="#[c7]">>></a> mac_timer_stop
|
<LI><a href="#[c9]">>></a> ranging_rssi_get
|
<LI><a href="#[c6]">>></a> exit_debug_mode
|
<LI><a href="#[c5]">>></a> phy_dump_mode
|
<LI><a href="#[c4]">>></a> fira_vendor_oui_process
|
<LI><a href="#[59]">>></a> __aeabi_uidivmod
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[ca]"></a>MK8000_all_antenna_FAP</STRONG> (Thumb, 496 bytes, Stack size 168 bytes, mk8000_all_antenna_fap.o(.text.MK8000_all_antenna_FAP))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 276<LI>Call Chain = MK8000_all_antenna_FAP ⇒ enhanced_sts_fap_detect ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[cf]">>></a> __aeabi_f2iz
|
<LI><a href="#[62]">>></a> __aeabi_fdiv
|
<LI><a href="#[cb]">>></a> __aeabi_fcmple
|
<LI><a href="#[cc]">>></a> derive_scaled_thres
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e0]">>></a> MK8000_update_fap_fom
|
<LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
</UL>
|
|
<P><STRONG><a name="[d0]"></a>MK8000_blender_packet</STRONG> (Thumb, 548 bytes, Stack size 64 bytes, mk8000_blender_top.o(.text.MK8000_blender_packet))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 916<LI>Call Chain = MK8000_blender_packet ⇒ lsp_cmplx_inner_product_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[62]">>></a> __aeabi_fdiv
|
<LI><a href="#[d3]">>></a> __aeabi_fcmpge
|
<LI><a href="#[d1]">>></a> lsp_cmplx_inner_product_f32
|
<LI><a href="#[d2]">>></a> __aeabi_fcmpgt
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e0]">>></a> MK8000_update_fap_fom
|
<LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
</UL>
|
|
<P><STRONG><a name="[d4]"></a>MK8000_fap_adjust</STRONG> (Thumb, 180 bytes, Stack size 48 bytes, mk8000_fap_adjust.o(.text.MK8000_fap_adjust))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = MK8000_fap_adjust ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6c]">>></a> __aeabi_i2f
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
<LI><a href="#[d7]">>></a> lsp_inner_product_f32
|
<LI><a href="#[d5]">>></a> lsp_vinverse_f32
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[d2]">>></a> __aeabi_fcmpgt
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
</UL>
|
|
<P><STRONG><a name="[d8]"></a>MK8000_fap_adjust_FLT</STRONG> (Thumb, 196 bytes, Stack size 48 bytes, mk8000_fap_adjust.o(.text.MK8000_fap_adjust_FLT))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[60]">>></a> __aeabi_fsub
|
<LI><a href="#[cb]">>></a> __aeabi_fcmple
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
<LI><a href="#[d7]">>></a> lsp_inner_product_f32
|
<LI><a href="#[d5]">>></a> lsp_vinverse_f32
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[d2]">>></a> __aeabi_fcmpgt
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[d9]"></a>MK8000_fap_adjust_simple</STRONG> (Thumb, 228 bytes, Stack size 48 bytes, mk8000_fap_adjust.o(.text.MK8000_fap_adjust_simple))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = MK8000_fap_adjust_simple ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
<LI><a href="#[d7]">>></a> lsp_inner_product_f32
|
<LI><a href="#[d5]">>></a> lsp_vinverse_f32
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[d2]">>></a> __aeabi_fcmpgt
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
</UL>
|
|
<P><STRONG><a name="[da]"></a>MK8000_preamble_FAP_LSP</STRONG> (Thumb, 3052 bytes, Stack size 160 bytes, mk8000_preamble_fap_lsp.o(.text.MK8000_preamble_FAP_LSP))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1068<LI>Call Chain = MK8000_preamble_FAP_LSP ⇒ MK8000_fap_adjust ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6c]">>></a> __aeabi_i2f
|
<LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[95]">>></a> __aeabi_f2uiz
|
<LI><a href="#[60]">>></a> __aeabi_fsub
|
<LI><a href="#[db]">>></a> lsp_cmplx_mult_cmplx_int8
|
<LI><a href="#[dc]">>></a> lsp_inner_product_int16
|
<LI><a href="#[d5]">>></a> lsp_vinverse_f32
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[d2]">>></a> __aeabi_fcmpgt
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b9]">>></a> ranging_rx_time
|
</UL>
|
|
<P><STRONG><a name="[dd]"></a>MK8000_read_rssi</STRONG> (Thumb, 720 bytes, Stack size 72 bytes, mk8000_read_rssi.o(.text.MK8000_read_rssi))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = MK8000_read_rssi ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6c]">>></a> __aeabi_i2f
|
<LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[cf]">>></a> __aeabi_f2iz
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[c9]">>></a> ranging_rssi_get
|
</UL>
|
|
<P><STRONG><a name="[de]"></a>MK8000_sts_FAP_detect</STRONG> (Thumb, 1834 bytes, Stack size 960 bytes, mk8000_sts_fap_detect.o(.text.MK8000_sts_FAP_detect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1868<LI>Call Chain = MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6c]">>></a> __aeabi_i2f
|
<LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[cf]">>></a> __aeabi_f2iz
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[62]">>></a> __aeabi_fdiv
|
<LI><a href="#[60]">>></a> __aeabi_fsub
|
<LI><a href="#[cb]">>></a> __aeabi_fcmple
|
<LI><a href="#[d1]">>></a> lsp_cmplx_inner_product_f32
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
<LI><a href="#[d7]">>></a> lsp_inner_product_f32
|
<LI><a href="#[cd]">>></a> enhanced_sts_fap_detect
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
</UL>
|
|
<P><STRONG><a name="[df]"></a>MK8000_sts_first_patch_detect</STRONG> (Thumb, 160 bytes, Stack size 64 bytes, mk8000_spotter_top.o(.text.MK8000_sts_first_patch_detect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1932<LI>Call Chain = MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[cf]">>></a> __aeabi_f2iz
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[d0]">>></a> MK8000_blender_packet
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ba]">>></a> sts_first_path_detect
|
</UL>
|
|
<P><STRONG><a name="[e0]"></a>MK8000_update_fap_fom</STRONG> (Thumb, 108 bytes, Stack size 56 bytes, mk8000_spotter_top.o(.text.MK8000_update_fap_fom))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 972<LI>Call Chain = MK8000_update_fap_fom ⇒ MK8000_blender_packet ⇒ lsp_cmplx_inner_product_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[d0]">>></a> MK8000_blender_packet
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b9]">>></a> ranging_rx_time
|
</UL>
|
|
<P><STRONG><a name="[27]"></a>OnRxDone</STRONG> (Thumb, 544 bytes, Stack size 88 bytes, lora_1268.o(.text.OnRxDone))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1532<LI>Call Chain = OnRxDone ⇒ save_com_map_to_flash ⇒ flash_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[e1]">>></a> save_com_map_to_flash
|
<LI><a href="#[bb]">>></a> Checksum_u16
|
<LI><a href="#[bf]">>></a> SwitchLoraSettings
|
<LI><a href="#[c2]">>></a> LoraSendComMap
|
<LI><a href="#[c1]">>></a> LoraRspWriteCommap
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> lora_1268.o(.text.Lora_1268_Init)
|
</UL>
|
<P><STRONG><a name="[2a]"></a>OnRxError</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, lora_1268.o(.text.OnRxError))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = OnRxError ⇒ SwitchLoraSettings
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bf]">>></a> SwitchLoraSettings
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> lora_1268.o(.text.Lora_1268_Init)
|
</UL>
|
<P><STRONG><a name="[29]"></a>OnRxTimeout</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, lora_1268.o(.text.OnRxTimeout))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = OnRxTimeout ⇒ SwitchLoraSettings
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bf]">>></a> SwitchLoraSettings
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> lora_1268.o(.text.Lora_1268_Init)
|
</UL>
|
<P><STRONG><a name="[26]"></a>OnTxDone</STRONG> (Thumb, 120 bytes, Stack size 16 bytes, lora_1268.o(.text.OnTxDone))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 228<LI>Call Chain = OnTxDone ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
<LI><a href="#[e2]">>></a> printf
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> lora_1268.o(.text.Lora_1268_Init)
|
</UL>
|
<P><STRONG><a name="[28]"></a>OnTxTimeout</STRONG> (Thumb, 72 bytes, Stack size 16 bytes, lora_1268.o(.text.OnTxTimeout))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = OnTxTimeout ⇒ SwitchLoraSettings
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bf]">>></a> SwitchLoraSettings
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> lora_1268.o(.text.Lora_1268_Init)
|
</UL>
|
<P><STRONG><a name="[85]"></a>OpenUWB</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, uwb_app.o(.text.OpenUWB))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 924<LI>Call Chain = OpenUWB ⇒ uwb_rx ⇒ mac_rx ⇒ mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a6]">>></a> uwb_app_poll
|
<LI><a href="#[24]">>></a> main
|
<LI><a href="#[80]">>></a> Anchor_App
|
<LI><a href="#[2e]">>></a> tx_int_callback
|
<LI><a href="#[2f]">>></a> rx_int_callback
|
</UL>
|
|
<P><STRONG><a name="[e4]"></a>PCA9555_Set_One_Value_Config</STRONG> (Thumb, 168 bytes, Stack size 16 bytes, pca9555.o(.text.PCA9555_Set_One_Value_Config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 212<LI>Call Chain = PCA9555_Set_One_Value_Config ⇒ PCA9555_write_config_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[e5]">>></a> PCA9555_write_config_port_data
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e7]">>></a> PCA9555_init
|
</UL>
|
|
<P><STRONG><a name="[c0]"></a>PCA9555_Set_One_Value_Output</STRONG> (Thumb, 168 bytes, Stack size 16 bytes, pca9555.o(.text.PCA9555_Set_One_Value_Output))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 212<LI>Call Chain = PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[e6]">>></a> PCA9555_write_output_port_data
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[157]">>></a> move_handler
|
<LI><a href="#[114]">>></a> SOS_irq_callback
|
<LI><a href="#[e7]">>></a> PCA9555_init
|
<LI><a href="#[1a6]">>></a> uwb_app_poll
|
<LI><a href="#[26]">>></a> OnTxDone
|
<LI><a href="#[bc]">>></a> LoraReportPoll
|
<LI><a href="#[11f]">>></a> SX126xReset
|
</UL>
|
|
<P><STRONG><a name="[e7]"></a>PCA9555_init</STRONG> (Thumb, 188 bytes, Stack size 40 bytes, pca9555.o(.text.PCA9555_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 252<LI>Call Chain = PCA9555_init ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[e8]">>></a> PCA9555_readdata
|
<LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
<LI><a href="#[e4]">>></a> PCA9555_Set_One_Value_Config
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[e8]"></a>PCA9555_readdata</STRONG> (Thumb, 40 bytes, Stack size 24 bytes, pca9555.o(.text.PCA9555_readdata))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 164<LI>Call Chain = PCA9555_readdata ⇒ IIC_Read_Pca9555 ⇒ IIC2_Read_pca_Byte ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b2]">>></a> IIC_Read_Pca9555
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e7]">>></a> PCA9555_init
|
<LI><a href="#[34]">>></a> pca_handler
|
</UL>
|
|
<P><STRONG><a name="[e5]"></a>PCA9555_write_config_port_data</STRONG> (Thumb, 72 bytes, Stack size 48 bytes, pca9555.o(.text.PCA9555_write_config_port_data))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 196<LI>Call Chain = PCA9555_write_config_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e4]">>></a> PCA9555_Set_One_Value_Config
|
</UL>
|
|
<P><STRONG><a name="[e6]"></a>PCA9555_write_output_port_data</STRONG> (Thumb, 72 bytes, Stack size 48 bytes, pca9555.o(.text.PCA9555_write_output_port_data))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 196<LI>Call Chain = PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[b3]">>></a> IIC_Write_Pca9555
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
</UL>
|
|
<P><STRONG><a name="[b]"></a>PHY_IRQHandler</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, mk_phy.o(.text.PHY_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = PHY_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[23]"></a>PHY_TIMER_IRQHandler</STRONG> (Thumb, 56 bytes, Stack size 8 bytes, mk_phy.o(.text.PHY_TIMER_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 764<LI>Call Chain = PHY_TIMER_IRQHandler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[e9]"></a>Program_Init</STRONG> (Thumb, 492 bytes, Stack size 96 bytes, main.o(.text.Program_Init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1564<LI>Call Chain = Program_Init ⇒ parameter_init_anchor ⇒ save_com_map_to_flash ⇒ flash_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[ea]">>></a> parameter_init_anchor
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[14]"></a>RTC_ALARM_IRQHandler</STRONG> (Thumb, 124 bytes, Stack size 40 bytes, mk_rtc.o(.text.RTC_ALARM_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 160<LI>Call Chain = RTC_ALARM_IRQHandler ⇒ rtc_second_to_time ⇒ rtc_month_days ⇒ is_leap_year
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[eb]">>></a> rtc_second_to_time
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[15]"></a>RTC_TICK_IRQHandler</STRONG> (Thumb, 132 bytes, Stack size 40 bytes, mk_rtc.o(.text.RTC_TICK_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 160<LI>Call Chain = RTC_TICK_IRQHandler ⇒ rtc_second_to_time ⇒ rtc_month_days ⇒ is_leap_year
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[eb]">>></a> rtc_second_to_time
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[43]"></a>RadioCheckRfFrequency</STRONG> (Thumb, 10 bytes, Stack size 4 bytes, radio.o(.text.RadioCheckRfFrequency))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = RadioCheckRfFrequency
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[3c]"></a>RadioGetStatus</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, radio.o(.text.RadioGetStatus))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = RadioGetStatus
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ec]">>></a> SX126xGetOperatingMode
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[52]"></a>RadioGetWakeupTime</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, radio.o(.text.RadioGetWakeupTime))
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[3b]"></a>RadioInit</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, radio.o(.text.RadioInit))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1804<LI>Call Chain = RadioInit ⇒ SX126xSetTxParams ⇒ SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ef]">>></a> SX126xSetRegulatorMode
|
<LI><a href="#[f2]">>></a> SX126xSetDioIrqParams
|
<LI><a href="#[f0]">>></a> SX126xSetBufferBaseAddress
|
<LI><a href="#[ed]">>></a> SX126xInit
|
<LI><a href="#[f1]">>></a> SX126xSetTxParams
|
<LI><a href="#[ee]">>></a> SX126xSetStandby
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[53]"></a>RadioIrqProcess</STRONG> (Thumb, 500 bytes, Stack size 40 bytes, radio.o(.text.RadioIrqProcess))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1836<LI>Call Chain = RadioIrqProcess ⇒ SX126xGetPayload ⇒ SX126xGetRxBufferStatus ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a6]">>></a> gpio_pin_get_val
|
<LI><a href="#[f5]">>></a> SX126xGetPayload
|
<LI><a href="#[f6]">>></a> SX126xGetPacketStatus
|
<LI><a href="#[ec]">>></a> SX126xGetOperatingMode
|
<LI><a href="#[f3]">>></a> SX126xGetIrqStatus
|
<LI><a href="#[f4]">>></a> SX126xClearIrqStatus
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[33]">>></a> Lora_irq_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[3f]"></a>RadioIsChannelFree</STRONG> (Thumb, 72 bytes, Stack size 40 bytes, radio.o(.text.RadioIsChannelFree))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1820<LI>Call Chain = RadioIsChannelFree ⇒ RadioSetModem ⇒ RadioSetPublicNetwork ⇒ RadioSetModem (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[46]">>></a> RadioSleep
|
<LI><a href="#[3d]">>></a> RadioSetModem
|
<LI><a href="#[3e]">>></a> RadioSetChannel
|
<LI><a href="#[48]">>></a> RadioRx
|
<LI><a href="#[9c]">>></a> HAL_Delay_nMS
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[2c]"></a>RadioOnDioIrq</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, radio.o(.text.RadioOnDioIrq))
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.text.RadioInit)
|
</UL>
|
<P><STRONG><a name="[40]"></a>RadioRandom</STRONG> (Thumb, 92 bytes, Stack size 24 bytes, radio.o(.text.RadioRandom))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1804<LI>Call Chain = RadioRandom ⇒ RadioSetModem ⇒ RadioSetPublicNetwork ⇒ RadioSetModem (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f7]">>></a> SX126xSetRx
|
<LI><a href="#[f8]">>></a> SX126xGetRssiInst
|
<LI><a href="#[46]">>></a> RadioSleep
|
<LI><a href="#[3d]">>></a> RadioSetModem
|
<LI><a href="#[9c]">>></a> HAL_Delay_nMS
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4d]"></a>RadioRead</STRONG> (Thumb, 22 bytes, Stack size 16 bytes, radio.o(.text.RadioRead))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = RadioRead ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f9]">>></a> SX126xReadRegister
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4f]"></a>RadioReadBuffer</STRONG> (Thumb, 44 bytes, Stack size 40 bytes, radio.o(.text.RadioReadBuffer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = RadioReadBuffer ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fa]">>></a> SX126xReadRegisters
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4b]"></a>RadioRssi</STRONG> (Thumb, 14 bytes, Stack size 16 bytes, radio.o(.text.RadioRssi))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1724<LI>Call Chain = RadioRssi ⇒ SX126xGetRssiInst ⇒ SX126xReadCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f8]">>></a> SX126xGetRssiInst
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[48]"></a>RadioRx</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, radio.o(.text.RadioRx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1780<LI>Call Chain = RadioRx ⇒ SX126xSetDioIrqParams ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f7]">>></a> SX126xSetRx
|
<LI><a href="#[f2]">>></a> SX126xSetDioIrqParams
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3f]">>></a> RadioIsChannelFree
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[54]"></a>RadioRxBoosted</STRONG> (Thumb, 72 bytes, Stack size 24 bytes, radio.o(.text.RadioRxBoosted))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1788<LI>Call Chain = RadioRxBoosted ⇒ SX126xSetDioIrqParams ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fb]">>></a> SX126xSetRxBoosted
|
<LI><a href="#[f2]">>></a> SX126xSetDioIrqParams
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[45]"></a>RadioSend</STRONG> (Thumb, 92 bytes, Stack size 32 bytes, radio.o(.text.RadioSend))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1796<LI>Call Chain = RadioSend ⇒ SX126xSetPacketParams ⇒ SX126xSetCrcSeed ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
<LI><a href="#[f2]">>></a> SX126xSetDioIrqParams
|
<LI><a href="#[fe]">>></a> SX126xSendPayload
|
<LI><a href="#[fc]">>></a> SX126xGetPacketType
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[3e]"></a>RadioSetChannel</STRONG> (Thumb, 16 bytes, Stack size 16 bytes, radio.o(.text.RadioSetChannel))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1764<LI>Call Chain = RadioSetChannel ⇒ SX126xSetRfFrequency ⇒ SX126xCalibrateImage ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3f]">>></a> RadioIsChannelFree
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[50]"></a>RadioSetMaxPayloadLength</STRONG> (Thumb, 76 bytes, Stack size 16 bytes, radio.o(.text.RadioSetMaxPayloadLength))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1780<LI>Call Chain = RadioSetMaxPayloadLength ⇒ SX126xSetPacketParams ⇒ SX126xSetCrcSeed ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[3d]"></a>RadioSetModem</STRONG> (Thumb, 96 bytes, Stack size 24 bytes, radio.o(.text.RadioSetModem))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1780<LI>Call Chain = RadioSetModem ⇒ RadioSetPublicNetwork ⇒ RadioSetModem (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[100]">>></a> SX126xSetPacketType
|
<LI><a href="#[51]">>></a> RadioSetPublicNetwork
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
<LI><a href="#[51]">>></a> RadioSetPublicNetwork
|
<LI><a href="#[40]">>></a> RadioRandom
|
<LI><a href="#[3f]">>></a> RadioIsChannelFree
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[51]"></a>RadioSetPublicNetwork</STRONG> (Thumb, 96 bytes, Stack size 24 bytes, radio.o(.text.RadioSetPublicNetwork))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1804 + In Cycle
|
<LI>Call Chain = RadioSetPublicNetwork ⇒ RadioSetModem (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[3d]">>></a> RadioSetModem
|
<LI><a href="#[101]">>></a> SX126xWriteRegister
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3d]">>></a> RadioSetModem
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[41]"></a>RadioSetRxConfig</STRONG> (Thumb, 700 bytes, Stack size 176 bytes, radio.o(.text.RadioSetRxConfig))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1964<LI>Call Chain = RadioSetRxConfig ⇒ SX126xSetModulationParams ⇒ SX126xSetPacketType ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6e]">>></a> __aeabi_i2d
|
<LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[107]">>></a> SX126xSetLoRaSymbNumTimeout
|
<LI><a href="#[47]">>></a> RadioStandby
|
<LI><a href="#[3d]">>></a> RadioSetModem
|
<LI><a href="#[103]">>></a> RadioGetFskBandwidthRegValue
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
<LI><a href="#[72]">>></a> __aeabi_d2uiz
|
<LI><a href="#[106]">>></a> SX126xSetWhiteningSeed
|
<LI><a href="#[105]">>></a> SX126xSetSyncWord
|
<LI><a href="#[102]">>></a> SX126xSetStopRxTimerOnPreambleDetect
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[55]"></a>RadioSetRxDutyCycle</STRONG> (Thumb, 20 bytes, Stack size 16 bytes, radio.o(.text.RadioSetRxDutyCycle))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1724<LI>Call Chain = RadioSetRxDutyCycle ⇒ SX126xSetRxDutyCycle ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[108]">>></a> SX126xSetRxDutyCycle
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[42]"></a>RadioSetTxConfig</STRONG> (Thumb, 548 bytes, Stack size 144 bytes, radio.o(.text.RadioSetTxConfig))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1940<LI>Call Chain = RadioSetTxConfig ⇒ SX126xSetRfTxPower ⇒ SX126xSetTxParams ⇒ SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[109]">>></a> SX126xSetRfTxPower
|
<LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[47]">>></a> RadioStandby
|
<LI><a href="#[3d]">>></a> RadioSetModem
|
<LI><a href="#[103]">>></a> RadioGetFskBandwidthRegValue
|
<LI><a href="#[106]">>></a> SX126xSetWhiteningSeed
|
<LI><a href="#[105]">>></a> SX126xSetSyncWord
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4a]"></a>RadioSetTxContinuousWave</STRONG> (Thumb, 50 bytes, Stack size 32 bytes, radio.o(.text.RadioSetTxContinuousWave))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1828<LI>Call Chain = RadioSetTxContinuousWave ⇒ SX126xSetRfTxPower ⇒ SX126xSetTxParams ⇒ SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[109]">>></a> SX126xSetRfTxPower
|
<LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[10a]">>></a> SX126xSetTxContinuousWave
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[46]"></a>RadioSleep</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, radio.o(.text.RadioSleep))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1716<LI>Call Chain = RadioSleep ⇒ SX126xSetSleep ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[9c]">>></a> HAL_Delay_nMS
|
<LI><a href="#[10b]">>></a> SX126xSetSleep
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[40]">>></a> RadioRandom
|
<LI><a href="#[3f]">>></a> RadioIsChannelFree
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[47]"></a>RadioStandby</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, radio.o(.text.RadioStandby))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = RadioStandby ⇒ SX126xSetStandby ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ee]">>></a> SX126xSetStandby
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[49]"></a>RadioStartCad</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, radio.o(.text.RadioStartCad))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = RadioStartCad ⇒ SX126xSetCad ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[10c]">>></a> SX126xSetCad
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[44]"></a>RadioTimeOnAir</STRONG> (Thumb, 580 bytes, Stack size 216 bytes, radio.o(.text.RadioTimeOnAir))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 352<LI>Call Chain = RadioTimeOnAir ⇒ floor ⇒ __aeabi_drsub ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6e]">>></a> __aeabi_i2d
|
<LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
<LI><a href="#[10f]">>></a> __aeabi_dcmple
|
<LI><a href="#[72]">>></a> __aeabi_d2uiz
|
<LI><a href="#[10d]">>></a> rint
|
<LI><a href="#[110]">>></a> floor
|
<LI><a href="#[10e]">>></a> ceil
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4c]"></a>RadioWrite</STRONG> (Thumb, 38 bytes, Stack size 32 bytes, radio.o(.text.RadioWrite))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1764<LI>Call Chain = RadioWrite ⇒ SX126xWriteRegister ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[101]">>></a> SX126xWriteRegister
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[4e]"></a>RadioWriteBuffer</STRONG> (Thumb, 44 bytes, Stack size 40 bytes, radio.o(.text.RadioWriteBuffer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1740<LI>Call Chain = RadioWriteBuffer ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[111]">>></a> SX126xWriteRegisters
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> radio.o(.rodata.Radio)
|
</UL>
|
<P><STRONG><a name="[0]"></a>Reset_Handler</STRONG> (Thumb, 32 bytes, Stack size 0 bytes, startup_mk800x.o(.text.Reset_Handler))
|
<BR><BR>[Calls]<UL><LI><a href="#[113]">>></a> start_main_asm
|
<LI><a href="#[112]">>></a> SystemInit
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[9]"></a>SLEEP_TIMER_IRQHandler</STRONG> (Thumb, 128 bytes, Stack size 24 bytes, mk_sleep_timer.o(.text.SLEEP_TIMER_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 780<LI>Call Chain = SLEEP_TIMER_IRQHandler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[114]"></a>SOS_irq_callback</STRONG> (Thumb, 48 bytes, Stack size 8 bytes, pca9555.o(.text.SOS_irq_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 220<LI>Call Chain = SOS_irq_callback ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[156]">>></a> check_input_change
|
</UL>
|
|
<P><STRONG><a name="[1c]"></a>SPI0_IRQHandler</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, mk_spi.o(.text.SPI0_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1444<LI>Call Chain = SPI0_IRQHandler ⇒ spi_irq_handler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[115]">>></a> spi_irq_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[1d]"></a>SPI1_IRQHandler</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, mk_spi.o(.text.SPI1_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1444<LI>Call Chain = SPI1_IRQHandler ⇒ spi_irq_handler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[115]">>></a> spi_irq_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[129]"></a>SX126xAntSwOff</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, sx126x-board.o(.text.SX126xAntSwOff))
|
<BR><BR>[Called By]<UL><LI><a href="#[10b]">>></a> SX126xSetSleep
|
</UL>
|
|
<P><STRONG><a name="[11a]"></a>SX126xAntSwOn</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, sx126x-board.o(.text.SX126xAntSwOn))
|
<BR><BR>[Called By]<UL><LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
|
<P><STRONG><a name="[116]"></a>SX126xCalibrateImage</STRONG> (Thumb, 160 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xCalibrateImage))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xCalibrateImage ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
</UL>
|
|
<P><STRONG><a name="[118]"></a>SX126xCheckDeviceReady</STRONG> (Thumb, 38 bytes, Stack size 8 bytes, sx126x.o(.text.SX126xCheckDeviceReady))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1644<LI>Call Chain = SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[ec]">>></a> SX126xGetOperatingMode
|
<LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[11a]">>></a> SX126xAntSwOn
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fa]">>></a> SX126xReadRegisters
|
<LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
<LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
|
<P><STRONG><a name="[f4]"></a>SX126xClearIrqStatus</STRONG> (Thumb, 38 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xClearIrqStatus))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = SX126xClearIrqStatus ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
</UL>
|
|
<P><STRONG><a name="[f3]"></a>SX126xGetIrqStatus</STRONG> (Thumb, 30 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xGetIrqStatus))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = SX126xGetIrqStatus ⇒ SX126xReadCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[11c]">>></a> SX126xReadCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
</UL>
|
|
<P><STRONG><a name="[ec]"></a>SX126xGetOperatingMode</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, sx126x.o(.text.SX126xGetOperatingMode))
|
<BR><BR>[Called By]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
<LI><a href="#[3c]">>></a> RadioGetStatus
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
|
<P><STRONG><a name="[12a]"></a>SX126xGetPaSelect</STRONG> (Thumb, 10 bytes, Stack size 4 bytes, sx126x-board.o(.text.SX126xGetPaSelect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = SX126xGetPaSelect
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f1]">>></a> SX126xSetTxParams
|
</UL>
|
|
<P><STRONG><a name="[f6]"></a>SX126xGetPacketStatus</STRONG> (Thumb, 192 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xGetPacketStatus))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xGetPacketStatus ⇒ SX126xReadCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fc]">>></a> SX126xGetPacketType
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
</UL>
|
|
<P><STRONG><a name="[fc]"></a>SX126xGetPacketType</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, sx126x.o(.text.SX126xGetPacketType))
|
<BR><BR>[Called By]<UL><LI><a href="#[f6]">>></a> SX126xGetPacketStatus
|
<LI><a href="#[45]">>></a> RadioSend
|
<LI><a href="#[125]">>></a> SX126xSetCrcSeed
|
<LI><a href="#[124]">>></a> SX126xSetCrcPolynomial
|
<LI><a href="#[11d]">>></a> SX126xGetRxBufferStatus
|
<LI><a href="#[106]">>></a> SX126xSetWhiteningSeed
|
</UL>
|
|
<P><STRONG><a name="[f5]"></a>SX126xGetPayload</STRONG> (Thumb, 84 bytes, Stack size 40 bytes, sx126x.o(.text.SX126xGetPayload))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1796<LI>Call Chain = SX126xGetPayload ⇒ SX126xGetRxBufferStatus ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[11d]">>></a> SX126xGetRxBufferStatus
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
</UL>
|
|
<P><STRONG><a name="[f8]"></a>SX126xGetRssiInst</STRONG> (Thumb, 50 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xGetRssiInst))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xGetRssiInst ⇒ SX126xReadCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[11c]">>></a> SX126xReadCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4b]">>></a> RadioRssi
|
<LI><a href="#[40]">>></a> RadioRandom
|
</UL>
|
|
<P><STRONG><a name="[11d]"></a>SX126xGetRxBufferStatus</STRONG> (Thumb, 84 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xGetRxBufferStatus))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1756<LI>Call Chain = SX126xGetRxBufferStatus ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f9]">>></a> SX126xReadRegister
|
<LI><a href="#[fc]">>></a> SX126xGetPacketType
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f5]">>></a> SX126xGetPayload
|
</UL>
|
|
<P><STRONG><a name="[ed]"></a>SX126xInit</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xInit))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xInit ⇒ SX126xSetDio2AsRfSwitchCtrl ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[120]">>></a> SX126xSetDio2AsRfSwitchCtrl
|
<LI><a href="#[11f]">>></a> SX126xReset
|
<LI><a href="#[ee]">>></a> SX126xSetStandby
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[11e]"></a>SX126xReadBuffer</STRONG> (Thumb, 126 bytes, Stack size 56 bytes, sx126x-board.o(.text.SX126xReadBuffer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = SX126xReadBuffer ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f5]">>></a> SX126xGetPayload
|
</UL>
|
|
<P><STRONG><a name="[11c]"></a>SX126xReadCommand</STRONG> (Thumb, 108 bytes, Stack size 40 bytes, sx126x-board.o(.text.SX126xReadCommand))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1684<LI>Call Chain = SX126xReadCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f8]">>></a> SX126xGetRssiInst
|
<LI><a href="#[f6]">>></a> SX126xGetPacketStatus
|
<LI><a href="#[f3]">>></a> SX126xGetIrqStatus
|
<LI><a href="#[11d]">>></a> SX126xGetRxBufferStatus
|
</UL>
|
|
<P><STRONG><a name="[f9]"></a>SX126xReadRegister</STRONG> (Thumb, 36 bytes, Stack size 24 bytes, sx126x-board.o(.text.SX126xReadRegister))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1732<LI>Call Chain = SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fa]">>></a> SX126xReadRegisters
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4d]">>></a> RadioRead
|
<LI><a href="#[11d]">>></a> SX126xGetRxBufferStatus
|
<LI><a href="#[106]">>></a> SX126xSetWhiteningSeed
|
</UL>
|
|
<P><STRONG><a name="[fa]"></a>SX126xReadRegisters</STRONG> (Thumb, 138 bytes, Stack size 64 bytes, sx126x-board.o(.text.SX126xReadRegisters))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f9]">>></a> SX126xReadRegister
|
<LI><a href="#[4f]">>></a> RadioReadBuffer
|
</UL>
|
|
<P><STRONG><a name="[11f]"></a>SX126xReset</STRONG> (Thumb, 52 bytes, Stack size 24 bytes, sx126x-board.o(.text.SX126xReset))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 236<LI>Call Chain = SX126xReset ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
<LI><a href="#[9c]">>></a> HAL_Delay_nMS
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ed]">>></a> SX126xInit
|
</UL>
|
|
<P><STRONG><a name="[fe]"></a>SX126xSendPayload</STRONG> (Thumb, 40 bytes, Stack size 32 bytes, sx126x.o(.text.SX126xSendPayload))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = SX126xSendPayload ⇒ SX126xSetPayload ⇒ SX126xWriteBuffer ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[122]">>></a> SX126xSetPayload
|
<LI><a href="#[123]">>></a> SX126xSetTx
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[45]">>></a> RadioSend
|
</UL>
|
|
<P><STRONG><a name="[f0]"></a>SX126xSetBufferBaseAddress</STRONG> (Thumb, 44 bytes, Stack size 32 bytes, sx126x.o(.text.SX126xSetBufferBaseAddress))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xSetBufferBaseAddress ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[10c]"></a>SX126xSetCad</STRONG> (Thumb, 32 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetCad))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetCad ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[49]">>></a> RadioStartCad
|
</UL>
|
|
<P><STRONG><a name="[124]"></a>SX126xSetCrcPolynomial</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xSetCrcPolynomial))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1724<LI>Call Chain = SX126xSetCrcPolynomial ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fc]">>></a> SX126xGetPacketType
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
</UL>
|
|
<P><STRONG><a name="[125]"></a>SX126xSetCrcSeed</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xSetCrcSeed))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1724<LI>Call Chain = SX126xSetCrcSeed ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[fc]">>></a> SX126xGetPacketType
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
</UL>
|
|
<P><STRONG><a name="[120]"></a>SX126xSetDio2AsRfSwitchCtrl</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetDio2AsRfSwitchCtrl))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetDio2AsRfSwitchCtrl ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ed]">>></a> SX126xInit
|
</UL>
|
|
<P><STRONG><a name="[f2]"></a>SX126xSetDioIrqParams</STRONG> (Thumb, 110 bytes, Stack size 88 bytes, sx126x.o(.text.SX126xSetDioIrqParams))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1764<LI>Call Chain = SX126xSetDioIrqParams ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[45]">>></a> RadioSend
|
<LI><a href="#[54]">>></a> RadioRxBoosted
|
<LI><a href="#[48]">>></a> RadioRx
|
<LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[107]"></a>SX126xSetLoRaSymbNumTimeout</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetLoRaSymbNumTimeout))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetLoRaSymbNumTimeout ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[104]"></a>SX126xSetModulationParams</STRONG> (Thumb, 336 bytes, Stack size 96 bytes, sx126x.o(.text.SX126xSetModulationParams))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1788<LI>Call Chain = SX126xSetModulationParams ⇒ SX126xSetPacketType ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[100]">>></a> SX126xSetPacketType
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
<LI><a href="#[72]">>></a> __aeabi_d2uiz
|
<LI><a href="#[126]">>></a> pow
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[127]"></a>SX126xSetPaConfig</STRONG> (Thumb, 84 bytes, Stack size 72 bytes, sx126x.o(.text.SX126xSetPaConfig))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f1]">>></a> SX126xSetTxParams
|
</UL>
|
|
<P><STRONG><a name="[fd]"></a>SX126xSetPacketParams</STRONG> (Thumb, 296 bytes, Stack size 40 bytes, sx126x.o(.text.SX126xSetPacketParams))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1764<LI>Call Chain = SX126xSetPacketParams ⇒ SX126xSetCrcSeed ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[100]">>></a> SX126xSetPacketType
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[125]">>></a> SX126xSetCrcSeed
|
<LI><a href="#[124]">>></a> SX126xSetCrcPolynomial
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
<LI><a href="#[50]">>></a> RadioSetMaxPayloadLength
|
<LI><a href="#[45]">>></a> RadioSend
|
</UL>
|
|
<P><STRONG><a name="[100]"></a>SX126xSetPacketType</STRONG> (Thumb, 32 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetPacketType))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetPacketType ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[3d]">>></a> RadioSetModem
|
</UL>
|
|
<P><STRONG><a name="[122]"></a>SX126xSetPayload</STRONG> (Thumb, 36 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xSetPayload))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1716<LI>Call Chain = SX126xSetPayload ⇒ SX126xWriteBuffer ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fe]">>></a> SX126xSendPayload
|
</UL>
|
|
<P><STRONG><a name="[ef]"></a>SX126xSetRegulatorMode</STRONG> (Thumb, 20 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetRegulatorMode))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetRegulatorMode ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[ff]"></a>SX126xSetRfFrequency</STRONG> (Thumb, 168 bytes, Stack size 56 bytes, sx126x.o(.text.SX126xSetRfFrequency))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = SX126xSetRfFrequency ⇒ SX126xCalibrateImage ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[116]">>></a> SX126xCalibrateImage
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
<LI><a href="#[72]">>></a> __aeabi_d2uiz
|
<LI><a href="#[126]">>></a> pow
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4a]">>></a> RadioSetTxContinuousWave
|
<LI><a href="#[3e]">>></a> RadioSetChannel
|
</UL>
|
|
<P><STRONG><a name="[109]"></a>SX126xSetRfTxPower</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, sx126x-board.o(.text.SX126xSetRfTxPower))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1796<LI>Call Chain = SX126xSetRfTxPower ⇒ SX126xSetTxParams ⇒ SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f1]">>></a> SX126xSetTxParams
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4a]">>></a> RadioSetTxContinuousWave
|
<LI><a href="#[42]">>></a> RadioSetTxConfig
|
</UL>
|
|
<P><STRONG><a name="[f7]"></a>SX126xSetRx</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetRx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetRx ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[48]">>></a> RadioRx
|
<LI><a href="#[40]">>></a> RadioRandom
|
</UL>
|
|
<P><STRONG><a name="[fb]"></a>SX126xSetRxBoosted</STRONG> (Thumb, 56 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetRxBoosted))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1748<LI>Call Chain = SX126xSetRxBoosted ⇒ SX126xWriteRegister ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[101]">>></a> SX126xWriteRegister
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[54]">>></a> RadioRxBoosted
|
</UL>
|
|
<P><STRONG><a name="[108]"></a>SX126xSetRxDutyCycle</STRONG> (Thumb, 64 bytes, Stack size 32 bytes, sx126x.o(.text.SX126xSetRxDutyCycle))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1708<LI>Call Chain = SX126xSetRxDutyCycle ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[55]">>></a> RadioSetRxDutyCycle
|
</UL>
|
|
<P><STRONG><a name="[10b]"></a>SX126xSetSleep</STRONG> (Thumb, 40 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xSetSleep))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = SX126xSetSleep ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[129]">>></a> SX126xAntSwOff
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[46]">>></a> RadioSleep
|
</UL>
|
|
<P><STRONG><a name="[ee]"></a>SX126xSetStandby</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetStandby))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetStandby ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ed]">>></a> SX126xInit
|
<LI><a href="#[47]">>></a> RadioStandby
|
<LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[102]"></a>SX126xSetStopRxTimerOnPreambleDetect</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetStopRxTimerOnPreambleDetect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetStopRxTimerOnPreambleDetect ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[105]"></a>SX126xSetSyncWord</STRONG> (Thumb, 24 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetSyncWord))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1716<LI>Call Chain = SX126xSetSyncWord ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[111]">>></a> SX126xWriteRegisters
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[123]"></a>SX126xSetTx</STRONG> (Thumb, 48 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetTx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetTx ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fe]">>></a> SX126xSendPayload
|
</UL>
|
|
<P><STRONG><a name="[10a]"></a>SX126xSetTxContinuousWave</STRONG> (Thumb, 20 bytes, Stack size 16 bytes, sx126x.o(.text.SX126xSetTxContinuousWave))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xSetTxContinuousWave ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4a]">>></a> RadioSetTxContinuousWave
|
</UL>
|
|
<P><STRONG><a name="[f1]"></a>SX126xSetTxParams</STRONG> (Thumb, 220 bytes, Stack size 32 bytes, sx126x.o(.text.SX126xSetTxParams))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1780<LI>Call Chain = SX126xSetTxParams ⇒ SX126xSetPaConfig ⇒ SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[127]">>></a> SX126xSetPaConfig
|
<LI><a href="#[12a]">>></a> SX126xGetPaSelect
|
<LI><a href="#[101]">>></a> SX126xWriteRegister
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[109]">>></a> SX126xSetRfTxPower
|
<LI><a href="#[3b]">>></a> RadioInit
|
</UL>
|
|
<P><STRONG><a name="[106]"></a>SX126xSetWhiteningSeed</STRONG> (Thumb, 88 bytes, Stack size 24 bytes, sx126x.o(.text.SX126xSetWhiteningSeed))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1756<LI>Call Chain = SX126xSetWhiteningSeed ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[f9]">>></a> SX126xReadRegister
|
<LI><a href="#[fc]">>></a> SX126xGetPacketType
|
<LI><a href="#[101]">>></a> SX126xWriteRegister
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[11b]"></a>SX126xWaitOnBusy</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, sx126x-board.o(.text.SX126xWaitOnBusy))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = SX126xWaitOnBusy ⇒ gpio_pin_get_val
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a6]">>></a> gpio_pin_get_val
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fa]">>></a> SX126xReadRegisters
|
<LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
<LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
|
<P><STRONG><a name="[119]"></a>SX126xWakeup</STRONG> (Thumb, 46 bytes, Stack size 24 bytes, sx126x-board.o(.text.SX126xWakeup))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1636<LI>Call Chain = SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ed]">>></a> SX126xInit
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
|
<P><STRONG><a name="[128]"></a>SX126xWriteBuffer</STRONG> (Thumb, 112 bytes, Stack size 48 bytes, sx126x-board.o(.text.SX126xWriteBuffer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1692<LI>Call Chain = SX126xWriteBuffer ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[122]">>></a> SX126xSetPayload
|
</UL>
|
|
<P><STRONG><a name="[117]"></a>SX126xWriteCommand</STRONG> (Thumb, 104 bytes, Stack size 32 bytes, sx126x-board.o(.text.SX126xWriteCommand))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1676<LI>Call Chain = SX126xWriteCommand ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[108]">>></a> SX126xSetRxDutyCycle
|
<LI><a href="#[fb]">>></a> SX126xSetRxBoosted
|
<LI><a href="#[f7]">>></a> SX126xSetRx
|
<LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[ef]">>></a> SX126xSetRegulatorMode
|
<LI><a href="#[100]">>></a> SX126xSetPacketType
|
<LI><a href="#[fd]">>></a> SX126xSetPacketParams
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
<LI><a href="#[107]">>></a> SX126xSetLoRaSymbNumTimeout
|
<LI><a href="#[f2]">>></a> SX126xSetDioIrqParams
|
<LI><a href="#[10c]">>></a> SX126xSetCad
|
<LI><a href="#[f0]">>></a> SX126xSetBufferBaseAddress
|
<LI><a href="#[f4]">>></a> SX126xClearIrqStatus
|
<LI><a href="#[127]">>></a> SX126xSetPaConfig
|
<LI><a href="#[120]">>></a> SX126xSetDio2AsRfSwitchCtrl
|
<LI><a href="#[116]">>></a> SX126xCalibrateImage
|
<LI><a href="#[f1]">>></a> SX126xSetTxParams
|
<LI><a href="#[10a]">>></a> SX126xSetTxContinuousWave
|
<LI><a href="#[123]">>></a> SX126xSetTx
|
<LI><a href="#[102]">>></a> SX126xSetStopRxTimerOnPreambleDetect
|
<LI><a href="#[ee]">>></a> SX126xSetStandby
|
<LI><a href="#[10b]">>></a> SX126xSetSleep
|
</UL>
|
|
<P><STRONG><a name="[101]"></a>SX126xWriteRegister</STRONG> (Thumb, 40 bytes, Stack size 32 bytes, sx126x-board.o(.text.SX126xWriteRegister))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1732<LI>Call Chain = SX126xWriteRegister ⇒ SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[111]">>></a> SX126xWriteRegisters
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fb]">>></a> SX126xSetRxBoosted
|
<LI><a href="#[4c]">>></a> RadioWrite
|
<LI><a href="#[51]">>></a> RadioSetPublicNetwork
|
<LI><a href="#[106]">>></a> SX126xSetWhiteningSeed
|
<LI><a href="#[f1]">>></a> SX126xSetTxParams
|
</UL>
|
|
<P><STRONG><a name="[111]"></a>SX126xWriteRegisters</STRONG> (Thumb, 124 bytes, Stack size 56 bytes, sx126x-board.o(.text.SX126xWriteRegisters))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1700<LI>Call Chain = SX126xWriteRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
<LI><a href="#[121]">>></a> SpiInOut
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
<LI><a href="#[118]">>></a> SX126xCheckDeviceReady
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[4e]">>></a> RadioWriteBuffer
|
<LI><a href="#[125]">>></a> SX126xSetCrcSeed
|
<LI><a href="#[124]">>></a> SX126xSetCrcPolynomial
|
<LI><a href="#[101]">>></a> SX126xWriteRegister
|
<LI><a href="#[105]">>></a> SX126xSetSyncWord
|
</UL>
|
|
<P><STRONG><a name="[121]"></a>SpiInOut</STRONG> (Thumb, 56 bytes, Stack size 32 bytes, sx126x-board.o(.text.SpiInOut))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1612<LI>Call Chain = SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[12b]">>></a> spi_transfer
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[fa]">>></a> SX126xReadRegisters
|
<LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
<LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
|
<P><STRONG><a name="[bf]"></a>SwitchLoraSettings</STRONG> (Thumb, 184 bytes, Stack size 120 bytes, lora_1268.o(.text.SwitchLoraSettings))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = SwitchLoraSettings
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
<LI><a href="#[28]">>></a> OnTxTimeout
|
<LI><a href="#[29]">>></a> OnRxTimeout
|
<LI><a href="#[2a]">>></a> OnRxError
|
<LI><a href="#[27]">>></a> OnRxDone
|
<LI><a href="#[bc]">>></a> LoraReportPoll
|
</UL>
|
|
<P><STRONG><a name="[5]"></a>SysTick_Handler</STRONG> (Thumb, 36 bytes, Stack size 8 bytes, mk_misc.o(.text.SysTick_Handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = SysTick_Handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[112]"></a>SystemInit</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, system_mk800x.o(.text.SystemInit))
|
<BR><BR>[Called By]<UL><LI><a href="#[0]">>></a> Reset_Handler
|
</UL>
|
|
<P><STRONG><a name="[17]"></a>TIMER0_IRQHandler</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, mk_timer.o(.text.TIMER0_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIMER0_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[18]"></a>TIMER1_IRQHandler</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, mk_timer.o(.text.TIMER1_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIMER1_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[19]"></a>TIMER2_IRQHandler</STRONG> (Thumb, 56 bytes, Stack size 16 bytes, mk_dual_timer.o(.text.TIMER2_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIMER2_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[1a]"></a>TIMER3_IRQHandler</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, mk_dual_timer.o(.text.TIMER3_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIMER3_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[bd]"></a>TagListUpdate</STRONG> (Thumb, 224 bytes, Stack size 76 bytes, uwb_app.o(.text.TagListUpdate))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 76<LI>Call Chain = TagListUpdate
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[130]">>></a> UWBOneSecondTask
|
<LI><a href="#[bc]">>></a> LoraReportPoll
|
</UL>
|
|
<P><STRONG><a name="[b5]"></a>UART0_CheckReceive</STRONG> (Thumb, 236 bytes, Stack size 40 bytes, usart.o(.text.UART0_CheckReceive))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = UART0_CheckReceive
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[12c]">>></a> get_uart0_dma_cndtr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[b4]">>></a> IdleTask
|
</UL>
|
|
<P><STRONG><a name="[1e]"></a>UART0_IRQHandler</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, mk_uart.o(.text.UART0_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = UART0_IRQHandler ⇒ uart_irq_handler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[12d]">>></a> uart_irq_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[1f]"></a>UART1_IRQHandler</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, mk_uart.o(.text.UART1_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = UART1_IRQHandler ⇒ uart_irq_handler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[12d]">>></a> uart_irq_handler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[12e]"></a>UWBIdleTask</STRONG> (Thumb, 40 bytes, Stack size 8 bytes, uwb_app.o(.text.UWBIdleTask))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 92<LI>Call Chain = UWBIdleTask ⇒ UWBOneSecondTask ⇒ TagListUpdate
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[12f]">>></a> HIDO_TimerGetTick
|
<LI><a href="#[130]">>></a> UWBOneSecondTask
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a6]">>></a> uwb_app_poll
|
</UL>
|
|
<P><STRONG><a name="[130]"></a>UWBOneSecondTask</STRONG> (Thumb, 48 bytes, Stack size 8 bytes, uwb_app.o(.text.UWBOneSecondTask))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 84<LI>Call Chain = UWBOneSecondTask ⇒ TagListUpdate
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[bd]">>></a> TagListUpdate
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[12e]">>></a> UWBIdleTask
|
</UL>
|
|
<P><STRONG><a name="[2b]"></a>UsartParseDataHandler</STRONG> (Thumb, 280 bytes, Stack size 1088 bytes, serial_at_cmd_app.o(.text.UsartParseDataHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1088<LI>Call Chain = UsartParseDataHandler
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[5a]">>></a> __aeabi_memclr
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> main.o(.text.Program_Init)
|
</UL>
|
<P><STRONG><a name="[131]"></a>Uwbinit</STRONG> (Thumb, 164 bytes, Stack size 56 bytes, uwb_app.o(.text.Uwbinit))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1636<LI>Call Chain = Uwbinit ⇒ uwb_configure ⇒ phy_params_generate ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[132]">>></a> uwb_open
|
<LI><a href="#[135]">>></a> uwb_configure
|
<LI><a href="#[133]">>></a> uwb_calibration_params_set
|
<LI><a href="#[136]">>></a> ranging_frame_type_set
|
<LI><a href="#[134]">>></a> phy_adv_params_configure
|
<LI><a href="#[137]">>></a> mac_register_process_handler
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[13]"></a>WDT_IRQHandler</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, mk_wdt.o(.text.WDT_IRQHandler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = WDT_IRQHandler
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> startup_mk800x.o(RESET)
|
</UL>
|
<P><STRONG><a name="[142]"></a>aes_open</STRONG> (Thumb, 164 bytes, Stack size 32 bytes, mk_aes.o(.text.aes_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = aes_open ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[145]">>></a> __NVIC_SetPriority
|
<LI><a href="#[147]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[146]">>></a> __NVIC_ClearPendingIRQ
|
<LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[1aa]"></a>aoa_param_dynamic_port_sel</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, lib_aoa.o(.text.aoa_param_dynamic_port_sel))
|
<BR><BR>[Called By]<UL><LI><a href="#[134]">>></a> phy_adv_params_configure
|
</UL>
|
|
<P><STRONG><a name="[148]"></a>board_clock_run</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, board.o(.text.board_clock_run))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 860<LI>Call Chain = board_clock_run ⇒ sys_timer_open ⇒ dual_timer_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[14e]">>></a> clock_set_divider
|
<LI><a href="#[149]">>></a> clock_attach
|
<LI><a href="#[14b]">>></a> calib_start
|
<LI><a href="#[14a]">>></a> calib_open
|
<LI><a href="#[14d]">>></a> calib_close
|
<LI><a href="#[14c]">>></a> calib_check
|
<LI><a href="#[150]">>></a> sys_timer_open
|
<LI><a href="#[14f]">>></a> sys_tick_start
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[91]"></a>board_debug_console_open</STRONG> (Thumb, 68 bytes, Stack size 24 bytes, board.o(.text.board_debug_console_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = board_debug_console_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[151]">>></a> trace_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8f]">>></a> Board_gpio_init
|
</UL>
|
|
<P><STRONG><a name="[14c]"></a>calib_check</STRONG> (Thumb, 28 bytes, Stack size 4 bytes, mk_calib.o(.text.calib_check))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = calib_check
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[152]"></a>calib_chip</STRONG> (Thumb, 544 bytes, Stack size 24 bytes, mk_calib.o(.text.calib_chip))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1380<LI>Call Chain = calib_chip ⇒ calib_xtal38m4_load_cap_set ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[155]">>></a> mk_chip_id
|
<LI><a href="#[153]">>></a> calib_xtal38m4_load_cap_set
|
<LI><a href="#[154]">>></a> calib_xtal32k_load_cap_set
|
<LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[14d]"></a>calib_close</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, mk_calib.o(.text.calib_close))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = calib_close ⇒ clock_disable
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[98]">>></a> clock_disable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[14a]"></a>calib_open</STRONG> (Thumb, 24 bytes, Stack size 16 bytes, mk_calib.o(.text.calib_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = calib_open ⇒ reset_module
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[14b]"></a>calib_start</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_calib.o(.text.calib_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = calib_start
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[154]"></a>calib_xtal32k_load_cap_set</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, mk_calib.o(.text.calib_xtal32k_load_cap_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = calib_xtal32k_load_cap_set ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[152]">>></a> calib_chip
|
</UL>
|
|
<P><STRONG><a name="[153]"></a>calib_xtal38m4_load_cap_set</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, mk_calib.o(.text.calib_xtal38m4_load_cap_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = calib_xtal38m4_load_cap_set ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[152]">>></a> calib_chip
|
</UL>
|
|
<P><STRONG><a name="[156]"></a>check_input_change</STRONG> (Thumb, 76 bytes, Stack size 16 bytes, pca9555.o(.text.check_input_change))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 236<LI>Call Chain = check_input_change ⇒ move_handler ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[157]">>></a> move_handler
|
<LI><a href="#[114]">>></a> SOS_irq_callback
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[34]">>></a> pca_handler
|
</UL>
|
|
<P><STRONG><a name="[149]"></a>clock_attach</STRONG> (Thumb, 82 bytes, Stack size 24 bytes, mk_clock.o(.text.clock_attach))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = clock_attach ⇒ clock_sys_clk_config ⇒ clock_xtal38m4_injection_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[15b]">>></a> clock_wdt_clk_config
|
<LI><a href="#[15a]">>></a> clock_sys_clk_config
|
<LI><a href="#[158]">>></a> clock_32K_clk_config
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[98]"></a>clock_disable</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_clock.o(.text.clock_disable))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = clock_disable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[14d]">>></a> calib_close
|
<LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[1a0]">>></a> wdt_close
|
</UL>
|
|
<P><STRONG><a name="[143]"></a>clock_enable</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_clock.o(.text.clock_enable))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = clock_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[14a]">>></a> calib_open
|
<LI><a href="#[152]">>></a> calib_chip
|
<LI><a href="#[142]">>></a> aes_open
|
<LI><a href="#[187]">>></a> gpio_open
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[168]">>></a> dual_timer_open
|
<LI><a href="#[1a4]">>></a> sleep_timer_open
|
<LI><a href="#[1d8]">>></a> uart_open
|
<LI><a href="#[18f]">>></a> mac_init
|
<LI><a href="#[18c]">>></a> lsp_open
|
<LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[93]"></a>clock_get_frequency</STRONG> (Thumb, 88 bytes, Stack size 24 bytes, mk_clock.o(.text.clock_get_frequency))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = clock_get_frequency ⇒ clock_get_wdt_clk_freq ⇒ clock_get_apb_clk_freq ⇒ clock_get_ahb_clk_freq ⇒ clock_get_sys_clk_freq
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[160]">>></a> clock_get_wdt_clk_freq
|
<LI><a href="#[15d]">>></a> clock_get_sys_clk_freq
|
<LI><a href="#[15f]">>></a> clock_get_flash_clk_freq
|
<LI><a href="#[15e]">>></a> clock_get_apb_clk_freq
|
<LI><a href="#[15c]">>></a> clock_get_ahb_clk_freq
|
<LI><a href="#[161]">>></a> clock_get_32k_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[14e]"></a>clock_set_divider</STRONG> (Thumb, 144 bytes, Stack size 12 bytes, mk_clock.o(.text.clock_set_divider))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = clock_set_divider
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[1dd]">>></a> uart_baud_set
|
<LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[159]"></a>clock_xtal32k_injection_set</STRONG> (Thumb, 40 bytes, Stack size 8 bytes, mk_clock.o(.text.clock_xtal32k_injection_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = clock_xtal32k_injection_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[158]">>></a> clock_32K_clk_config
|
</UL>
|
|
<P><STRONG><a name="[162]"></a>clock_xtal38m4_injection_set</STRONG> (Thumb, 84 bytes, Stack size 8 bytes, mk_clock.o(.text.clock_xtal38m4_injection_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = clock_xtal38m4_injection_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[15a]">>></a> clock_sys_clk_config
|
</UL>
|
|
<P><STRONG><a name="[a1]"></a>delay_us</STRONG> (Thumb, 34 bytes, Stack size 4 bytes, mk_misc.o(.text.delay_us))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = delay_us
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[170]">>></a> flash_wait_done
|
<LI><a href="#[31]">>></a> flash_dma_write_nbytes_callback
|
<LI><a href="#[1dd]">>></a> uart_baud_set
|
<LI><a href="#[1f8]">>></a> uwb_tx_power_set
|
<LI><a href="#[1ee]">>></a> uwb_rx_init
|
<LI><a href="#[b1]">>></a> IIC2_pca_send_NAck
|
<LI><a href="#[b0]">>></a> IIC2_pca_send_Ack
|
<LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
<LI><a href="#[af]">>></a> IIC2_pca_Start
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a9]">>></a> IIC2_Send_pca_Byte
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
<LI><a href="#[148]">>></a> board_clock_run
|
<LI><a href="#[b9]">>></a> LIS3DH_WriteOneByte
|
<LI><a href="#[7f]">>></a> LIS3DH_Data_Init
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
<LI><a href="#[aa]">>></a> IIC2_Start
|
<LI><a href="#[a8]">>></a> IIC2_Send_Byte
|
<LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
<LI><a href="#[a4]">>></a> IIC2_NAck
|
<LI><a href="#[9f]">>></a> IIC2_Ack
|
<LI><a href="#[11f]">>></a> SX126xReset
|
</UL>
|
|
<P><STRONG><a name="[cc]"></a>derive_scaled_thres</STRONG> (Thumb, 196 bytes, Stack size 32 bytes, mk8000_all_antenna_fap.o(.text.derive_scaled_thres))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = derive_scaled_thres ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[6d]">>></a> __aeabi_ui2f
|
<LI><a href="#[d3]">>></a> __aeabi_fcmpge
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[163]"></a>dma_open</STRONG> (Thumb, 212 bytes, Stack size 32 bytes, mk_dma.o(.text.dma_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = dma_open ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[164]">>></a> __NVIC_SetPriority
|
<LI><a href="#[166]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[165]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[1dc]">>></a> uart_send
|
<LI><a href="#[12b]">>></a> spi_transfer
|
</UL>
|
|
<P><STRONG><a name="[167]"></a>dma_transfer</STRONG> (Thumb, 188 bytes, Stack size 32 bytes, mk_dma.o(.text.dma_transfer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 788<LI>Call Chain = dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[31]">>></a> flash_dma_write_nbytes_callback
|
<LI><a href="#[30]">>></a> flash_dma_callback
|
<LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[1dc]">>></a> uart_send
|
<LI><a href="#[12b]">>></a> spi_transfer
|
</UL>
|
|
<P><STRONG><a name="[1d1]"></a>dual_timer_get</STRONG> (Thumb, 20 bytes, Stack size 4 bytes, mk_dual_timer.o(.text.dual_timer_get))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = dual_timer_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[c8]">>></a> sys_timer_get
|
</UL>
|
|
<P><STRONG><a name="[168]"></a>dual_timer_open</STRONG> (Thumb, 304 bytes, Stack size 32 bytes, mk_dual_timer.o(.text.dual_timer_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 788<LI>Call Chain = dual_timer_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[169]">>></a> __NVIC_SetPriority
|
<LI><a href="#[16b]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[16a]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[150]">>></a> sys_timer_open
|
<LI><a href="#[190]">>></a> mac_timer_open
|
</UL>
|
|
<P><STRONG><a name="[199]"></a>dual_timer_start</STRONG> (Thumb, 36 bytes, Stack size 8 bytes, mk_dual_timer.o(.text.dual_timer_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = dual_timer_start
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[150]">>></a> sys_timer_open
|
<LI><a href="#[194]">>></a> mac_timer_start
|
</UL>
|
|
<P><STRONG><a name="[19a]"></a>dual_timer_stop</STRONG> (Thumb, 28 bytes, Stack size 4 bytes, mk_dual_timer.o(.text.dual_timer_stop))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = dual_timer_stop
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[c7]">>></a> mac_timer_stop
|
</UL>
|
|
<P><STRONG><a name="[cd]"></a>enhanced_sts_fap_detect</STRONG> (Thumb, 434 bytes, Stack size 72 bytes, mk8000_sts_fap_detect.o(.text.enhanced_sts_fap_detect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = enhanced_sts_fap_detect ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[5d]">>></a> __aeabi_fadd
|
<LI><a href="#[d3]">>></a> __aeabi_fcmpge
|
<LI><a href="#[cb]">>></a> __aeabi_fcmple
|
<LI><a href="#[ce]">>></a> __aeabi_fcmplt
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[ca]">>></a> MK8000_all_antenna_FAP
|
</UL>
|
|
<P><STRONG><a name="[c6]"></a>exit_debug_mode</STRONG> (Thumb, 44 bytes, Stack size 0 bytes, mk_phy.o(.text.exit_debug_mode))
|
<BR><BR>[Called By]<UL><LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[c4]"></a>fira_vendor_oui_process</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, mk_mac.o(.text.fira_vendor_oui_process))
|
<BR><BR>[Called By]<UL><LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[16c]"></a>flash_block_erase</STRONG> (Thumb, 272 bytes, Stack size 40 bytes, mk_flash.o(.text.flash_block_erase))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 796<LI>Call Chain = flash_block_erase ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[170]">>></a> flash_wait_done
|
<LI><a href="#[16d]">>></a> flash_state_update
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[175]">>></a> flash_erase
|
</UL>
|
|
<P><STRONG><a name="[172]"></a>flash_check_busy</STRONG> (Thumb, 316 bytes, Stack size 40 bytes, mk_flash.o(.text.flash_check_busy))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 140<LI>Call Chain = flash_check_busy ⇒ flash_read_status ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[173]">>></a> flash_read_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[175]">>></a> flash_erase
|
</UL>
|
|
<P><STRONG><a name="[175]"></a>flash_erase</STRONG> (Thumb, 568 bytes, Stack size 96 bytes, mk_flash.o(.text.flash_erase))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 892<LI>Call Chain = flash_erase ⇒ flash_sector_erase ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[172]">>></a> flash_check_busy
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
<LI><a href="#[59]">>></a> __aeabi_uidivmod
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e1]">>></a> save_com_map_to_flash
|
</UL>
|
|
<P><STRONG><a name="[178]"></a>flash_open</STRONG> (Thumb, 664 bytes, Stack size 72 bytes, mk_flash.o(.text.flash_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1404<LI>Call Chain = flash_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[14e]">>></a> clock_set_divider
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[17a]">>></a> flash_write_quad_mode
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[179]">>></a> flash_wait_status
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[17b]">>></a> flash_read_status1
|
<LI><a href="#[17c]">>></a> __NVIC_SetPriority
|
<LI><a href="#[17e]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[17d]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e1]">>></a> save_com_map_to_flash
|
<LI><a href="#[ea]">>></a> parameter_init_anchor
|
</UL>
|
|
<P><STRONG><a name="[180]"></a>flash_read</STRONG> (Thumb, 816 bytes, Stack size 136 bytes, mk_flash.o(.text.flash_read))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 924<LI>Call Chain = flash_read ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[16d]">>></a> flash_state_update
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[59]">>></a> __aeabi_uidivmod
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ea]">>></a> parameter_init_anchor
|
</UL>
|
|
<P><STRONG><a name="[176]"></a>flash_sector_erase</STRONG> (Thumb, 276 bytes, Stack size 40 bytes, mk_flash.o(.text.flash_sector_erase))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 796<LI>Call Chain = flash_sector_erase ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[170]">>></a> flash_wait_done
|
<LI><a href="#[16d]">>></a> flash_state_update
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[175]">>></a> flash_erase
|
</UL>
|
|
<P><STRONG><a name="[183]"></a>flash_write_nbytes</STRONG> (Thumb, 980 bytes, Stack size 144 bytes, mk_flash.o(.text.flash_write_nbytes))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 932<LI>Call Chain = flash_write_nbytes ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[174]">>></a> flash_write_variable_len_cmd
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[16d]">>></a> flash_state_update
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[17f]">>></a> flash_page_write_nbytes
|
<LI><a href="#[177]">>></a> flash_init_write_nbytes_cfg
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e1]">>></a> save_com_map_to_flash
|
</UL>
|
|
<P><STRONG><a name="[12c]"></a>get_uart0_dma_cndtr</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, mk_dma.o(.text.get_uart0_dma_cndtr))
|
<BR><BR>[Called By]<UL><LI><a href="#[b5]">>></a> UART0_CheckReceive
|
</UL>
|
|
<P><STRONG><a name="[8e]"></a>gpio_enable_irq</STRONG> (Thumb, 212 bytes, Stack size 32 bytes, mk_gpio.o(.text.gpio_enable_irq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = gpio_enable_irq ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[184]">>></a> __NVIC_SetPriority
|
<LI><a href="#[186]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[185]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a2]">>></a> pca_input_detection_init
|
<LI><a href="#[8b]">>></a> Board_LORA_NVIC_Init
|
</UL>
|
|
<P><STRONG><a name="[187]"></a>gpio_open</STRONG> (Thumb, 24 bytes, Stack size 16 bytes, mk_gpio.o(.text.gpio_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = gpio_open ⇒ reset_module
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[a0]"></a>gpio_pin_clr</STRONG> (Thumb, 28 bytes, Stack size 4 bytes, mk_gpio.o(.text.gpio_pin_clr))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[b1]">>></a> IIC2_pca_send_NAck
|
<LI><a href="#[b0]">>></a> IIC2_pca_send_Ack
|
<LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
<LI><a href="#[af]">>></a> IIC2_pca_Start
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a9]">>></a> IIC2_Send_pca_Byte
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
<LI><a href="#[aa]">>></a> IIC2_Start
|
<LI><a href="#[a8]">>></a> IIC2_Send_Byte
|
<LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
<LI><a href="#[a4]">>></a> IIC2_NAck
|
<LI><a href="#[9f]">>></a> IIC2_Ack
|
<LI><a href="#[fa]">>></a> SX126xReadRegisters
|
<LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
<LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
|
<P><STRONG><a name="[a6]"></a>gpio_pin_get_val</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_gpio.o(.text.gpio_pin_get_val))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = gpio_pin_get_val
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
<LI><a href="#[53]">>></a> RadioIrqProcess
|
<LI><a href="#[11b]">>></a> SX126xWaitOnBusy
|
</UL>
|
|
<P><STRONG><a name="[a2]"></a>gpio_pin_set</STRONG> (Thumb, 28 bytes, Stack size 4 bytes, mk_gpio.o(.text.gpio_pin_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = gpio_pin_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[b1]">>></a> IIC2_pca_send_NAck
|
<LI><a href="#[b0]">>></a> IIC2_pca_send_Ack
|
<LI><a href="#[ae]">>></a> IIC2_pca_Stop
|
<LI><a href="#[af]">>></a> IIC2_pca_Start
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a9]">>></a> IIC2_Send_pca_Byte
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[ab]">>></a> IIC2_Stop
|
<LI><a href="#[aa]">>></a> IIC2_Start
|
<LI><a href="#[a8]">>></a> IIC2_Send_Byte
|
<LI><a href="#[a5]">>></a> IIC2_Read_Byte
|
<LI><a href="#[a4]">>></a> IIC2_NAck
|
<LI><a href="#[9f]">>></a> IIC2_Ack
|
<LI><a href="#[fa]">>></a> SX126xReadRegisters
|
<LI><a href="#[11e]">>></a> SX126xReadBuffer
|
<LI><a href="#[117]">>></a> SX126xWriteCommand
|
<LI><a href="#[119]">>></a> SX126xWakeup
|
<LI><a href="#[11c]">>></a> SX126xReadCommand
|
<LI><a href="#[111]">>></a> SX126xWriteRegisters
|
<LI><a href="#[128]">>></a> SX126xWriteBuffer
|
</UL>
|
|
<P><STRONG><a name="[8c]"></a>gpio_pin_set_dir</STRONG> (Thumb, 140 bytes, Stack size 24 bytes, mk_gpio.o(.text.gpio_pin_set_dir))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a2]">>></a> gpio_pin_set
|
<LI><a href="#[a0]">>></a> gpio_pin_clr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a2]">>></a> pca_input_detection_init
|
<LI><a href="#[ad]">>></a> IIC2_Wait_pca_Ack
|
<LI><a href="#[a7]">>></a> IIC2_Read_pca_Byte
|
<LI><a href="#[ac]">>></a> IIC2_Wait_Ack
|
<LI><a href="#[a3]">>></a> IIC2_Init
|
<LI><a href="#[8f]">>></a> Board_gpio_init
|
<LI><a href="#[8b]">>></a> Board_LORA_NVIC_Init
|
</UL>
|
|
<P><STRONG><a name="[90]"></a>io_pin_mux_set</STRONG> (Thumb, 124 bytes, Stack size 16 bytes, mk_io.o(.text.io_pin_mux_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = io_pin_mux_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[a3]">>></a> IIC2_Init
|
<LI><a href="#[8f]">>></a> Board_gpio_init
|
</UL>
|
|
<P><STRONG><a name="[8d]"></a>io_pull_set</STRONG> (Thumb, 164 bytes, Stack size 16 bytes, mk_io.o(.text.io_pull_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = io_pull_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a2]">>></a> pca_input_detection_init
|
<LI><a href="#[a3]">>></a> IIC2_Init
|
<LI><a href="#[8f]">>></a> Board_gpio_init
|
<LI><a href="#[8b]">>></a> Board_LORA_NVIC_Init
|
</UL>
|
|
<P><STRONG><a name="[d1]"></a>lsp_cmplx_inner_product_f32</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, mk_lsp.o(.text.lsp_cmplx_inner_product_f32))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = lsp_cmplx_inner_product_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[188]">>></a> lsp_g_op_f32
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
<LI><a href="#[d0]">>></a> MK8000_blender_packet
|
</UL>
|
|
<P><STRONG><a name="[db]"></a>lsp_cmplx_mult_cmplx_int8</STRONG> (Thumb, 32 bytes, Stack size 32 bytes, mk_lsp.o(.text.lsp_cmplx_mult_cmplx_int8))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 876<LI>Call Chain = lsp_cmplx_mult_cmplx_int8 ⇒ lsp_g_op_int8 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[189]">>></a> lsp_g_op_int8
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
</UL>
|
|
<P><STRONG><a name="[d7]"></a>lsp_inner_product_f32</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, mk_lsp.o(.text.lsp_inner_product_f32))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = lsp_inner_product_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[188]">>></a> lsp_g_op_f32
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[dc]"></a>lsp_inner_product_int16</STRONG> (Thumb, 30 bytes, Stack size 24 bytes, mk_lsp.o(.text.lsp_inner_product_int16))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 868<LI>Call Chain = lsp_inner_product_int16 ⇒ lsp_g_op_int16 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[18b]">>></a> lsp_g_op_int16
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
</UL>
|
|
<P><STRONG><a name="[18c]"></a>lsp_open</STRONG> (Thumb, 68 bytes, Stack size 16 bytes, mk_lsp.o(.text.lsp_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = lsp_open ⇒ reset_module
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[d6]"></a>lsp_scale_f32</STRONG> (Thumb, 80 bytes, Stack size 24 bytes, mk_lsp.o(.text.lsp_scale_f32))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 860<LI>Call Chain = lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[188]">>></a> lsp_g_op_f32
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
<LI><a href="#[de]">>></a> MK8000_sts_FAP_detect
|
</UL>
|
|
<P><STRONG><a name="[d5]"></a>lsp_vinverse_f32</STRONG> (Thumb, 26 bytes, Stack size 16 bytes, mk_lsp.o(.text.lsp_vinverse_f32))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = lsp_vinverse_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[188]">>></a> lsp_g_op_f32
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[d8]">>></a> MK8000_fap_adjust_FLT
|
<LI><a href="#[d4]">>></a> MK8000_fap_adjust
|
<LI><a href="#[d9]">>></a> MK8000_fap_adjust_simple
|
</UL>
|
|
<P><STRONG><a name="[1ef]"></a>mac_crc_mode_configure</STRONG> (Thumb, 36 bytes, Stack size 0 bytes, mk_mac.o(.text.mac_crc_mode_configure))
|
<BR><BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[18d]"></a>mac_cs_construct</STRONG> (Thumb, 192 bytes, Stack size 32 bytes, mk_mac.o(.text.mac_cs_construct))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 788<LI>Call Chain = mac_cs_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[86]">>></a> phy_timer_count_get
|
<LI><a href="#[18e]">>></a> phy_crypto_sts_index_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[19b]">>></a> mac_tx
|
<LI><a href="#[196]">>></a> mac_rx
|
</UL>
|
|
<P><STRONG><a name="[1f7]"></a>mac_current_rx_report_discard</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_mac.o(.text.mac_current_rx_report_discard))
|
<BR><BR>[Called By]<UL><LI><a href="#[9b]">>></a> uwb_rx_force_off
|
</UL>
|
|
<P><STRONG><a name="[18f]"></a>mac_init</STRONG> (Thumb, 168 bytes, Stack size 24 bytes, mk_mac.o(.text.mac_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 860<LI>Call Chain = mac_init ⇒ mac_timer_open ⇒ dual_timer_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[190]">>></a> mac_timer_open
|
<LI><a href="#[192]">>></a> mac_regs_init
|
<LI><a href="#[191]">>></a> __aeabi_memclr8
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[193]"></a>mac_link_desc_construct</STRONG> (Thumb, 176 bytes, Stack size 32 bytes, mk_mac.o(.text.mac_link_desc_construct))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 788<LI>Call Chain = mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[19b]">>></a> mac_tx
|
<LI><a href="#[196]">>></a> mac_rx
|
</UL>
|
|
<P><STRONG><a name="[137]"></a>mac_register_process_handler</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, mk_mac.o(.text.mac_register_process_handler))
|
<BR><BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[192]"></a>mac_regs_init</STRONG> (Thumb, 280 bytes, Stack size 24 bytes, mk_mac.o(.text.mac_regs_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = mac_regs_init
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[195]">>></a> phy_cca_config
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[18f]">>></a> mac_init
|
</UL>
|
|
<P><STRONG><a name="[1f0]"></a>mac_rssi_calculation_en</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, mk_mac.o(.text.mac_rssi_calculation_en))
|
<BR><BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[196]"></a>mac_rx</STRONG> (Thumb, 384 bytes, Stack size 64 bytes, mk_mac.o(.text.mac_rx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 852<LI>Call Chain = mac_rx ⇒ mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[193]">>></a> mac_link_desc_construct
|
<LI><a href="#[18d]">>></a> mac_cs_construct
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
|
<P><STRONG><a name="[197]"></a>mac_start</STRONG> (Thumb, 124 bytes, Stack size 8 bytes, mk_mac.o(.text.mac_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = mac_start ⇒ mac_timer_start ⇒ dual_timer_start
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[194]">>></a> mac_timer_start
|
<LI><a href="#[198]">>></a> phy_time_gap
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8a]">>></a> uwb_tx
|
<LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
|
<P><STRONG><a name="[190]"></a>mac_timer_open</STRONG> (Thumb, 40 bytes, Stack size 48 bytes, mk_misc.o(.text.mac_timer_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 836<LI>Call Chain = mac_timer_open ⇒ dual_timer_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[168]">>></a> dual_timer_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[18f]">>></a> mac_init
|
</UL>
|
|
<P><STRONG><a name="[194]"></a>mac_timer_start</STRONG> (Thumb, 18 bytes, Stack size 16 bytes, mk_misc.o(.text.mac_timer_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = mac_timer_start ⇒ dual_timer_start
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[199]">>></a> dual_timer_start
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[197]">>></a> mac_start
|
<LI><a href="#[32]">>></a> mac_op_timeout_handler
|
</UL>
|
|
<P><STRONG><a name="[c7]"></a>mac_timer_stop</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, mk_misc.o(.text.mac_timer_stop))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = mac_timer_stop ⇒ dual_timer_stop
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[19a]">>></a> dual_timer_stop
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[a]">>></a> MAC_IRQHandler
|
<LI><a href="#[32]">>></a> mac_op_timeout_handler
|
</UL>
|
|
<P><STRONG><a name="[19b]"></a>mac_tx</STRONG> (Thumb, 332 bytes, Stack size 48 bytes, mk_mac.o(.text.mac_tx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 860<LI>Call Chain = mac_tx ⇒ mac_tx_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[193]">>></a> mac_link_desc_construct
|
<LI><a href="#[18d]">>></a> mac_cs_construct
|
<LI><a href="#[19c]">>></a> mac_tx_desc_construct
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8a]">>></a> uwb_tx
|
</UL>
|
|
<P><STRONG><a name="[19c]"></a>mac_tx_desc_construct</STRONG> (Thumb, 328 bytes, Stack size 56 bytes, mk_mac.o(.text.mac_tx_desc_construct))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 812<LI>Call Chain = mac_tx_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[19d]">>></a> phy_en_conv_encode
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[19b]">>></a> mac_tx
|
</UL>
|
|
<P><STRONG><a name="[24]"></a>main</STRONG> (Thumb, 160 bytes, Stack size 48 bytes, main.o(.text.main))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1684<LI>Call Chain = main ⇒ Uwbinit ⇒ uwb_configure ⇒ phy_params_generate ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[152]">>></a> calib_chip
|
<LI><a href="#[187]">>></a> gpio_open
|
<LI><a href="#[1a4]">>></a> sleep_timer_open
|
<LI><a href="#[19e]">>></a> reset_cause_get
|
<LI><a href="#[19f]">>></a> reset_cause_clear
|
<LI><a href="#[1a5]">>></a> sleep_timer_start
|
<LI><a href="#[1a0]">>></a> wdt_close
|
<LI><a href="#[1a2]">>></a> pca_input_detection_init
|
<LI><a href="#[e7]">>></a> PCA9555_init
|
<LI><a href="#[148]">>></a> board_clock_run
|
<LI><a href="#[a3]">>></a> IIC2_Init
|
<LI><a href="#[7d]">>></a> Accelerometer_Init
|
<LI><a href="#[1a6]">>></a> uwb_app_poll
|
<LI><a href="#[1a1]">>></a> spi_init
|
<LI><a href="#[131]">>></a> Uwbinit
|
<LI><a href="#[bf]">>></a> SwitchLoraSettings
|
<LI><a href="#[e9]">>></a> Program_Init
|
<LI><a href="#[85]">>></a> OpenUWB
|
<LI><a href="#[c3]">>></a> Lora_Tx_Poll
|
<LI><a href="#[1a3]">>></a> Lora_1268_Init
|
<LI><a href="#[b4]">>></a> IdleTask
|
<LI><a href="#[8f]">>></a> Board_gpio_init
|
<LI><a href="#[8b]">>></a> Board_LORA_NVIC_Init
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> entry9a.o(.ARM.Collect$$$$0000000B)
|
</UL>
|
<P><STRONG><a name="[155]"></a>mk_chip_id</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_misc.o(.text.mk_chip_id))
|
<BR><BR>[Called By]<UL><LI><a href="#[152]">>></a> calib_chip
|
</UL>
|
|
<P><STRONG><a name="[140]"></a>mk_snprintf</STRONG> (Thumb, 50 bytes, Stack size 32 bytes, mk_trace.o(.text.mk_snprintf))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 316<LI>Call Chain = mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1a7]">>></a> trace_format
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[9e]">>></a> trace_exception_handler
|
<LI><a href="#[141]">>></a> trace_print_backtrace
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[157]"></a>move_handler</STRONG> (Thumb, 56 bytes, Stack size 8 bytes, pca9555.o(.text.move_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 220<LI>Call Chain = move_handler ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[156]">>></a> check_input_change
|
</UL>
|
|
<P><STRONG><a name="[1c0]"></a>parameter_check</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, global_param.o(.text.parameter_check))
|
<BR><BR>[Called By]<UL><LI><a href="#[e1]">>></a> save_com_map_to_flash
|
</UL>
|
|
<P><STRONG><a name="[ea]"></a>parameter_init_anchor</STRONG> (Thumb, 172 bytes, Stack size 24 bytes, global_param.o(.text.parameter_init_anchor))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1468<LI>Call Chain = parameter_init_anchor ⇒ save_com_map_to_flash ⇒ flash_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[e1]">>></a> save_com_map_to_flash
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[e9]">>></a> Program_Init
|
</UL>
|
|
<P><STRONG><a name="[1a2]"></a>pca_input_detection_init</STRONG> (Thumb, 52 bytes, Stack size 24 bytes, pca9555.o(.text.pca_input_detection_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = pca_input_detection_init ⇒ gpio_enable_irq ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[8c]">>></a> gpio_pin_set_dir
|
<LI><a href="#[8e]">>></a> gpio_enable_irq
|
<LI><a href="#[8d]">>></a> io_pull_set
|
<LI><a href="#[1a8]">>></a> power_wakeup_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[1e8]"></a>pdoa_angle_offset_set</STRONG> (Thumb, 10 bytes, Stack size 4 bytes, mk_uwb.o(.text.pdoa_angle_offset_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = pdoa_angle_offset_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[133]">>></a> uwb_calibration_params_set
|
</UL>
|
|
<P><STRONG><a name="[1a9]"></a>pdoa_ant_delays_set</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, mk8000_get_loc_params.o(.text.pdoa_ant_delays_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = pdoa_ant_delays_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[133]">>></a> uwb_calibration_params_set
|
</UL>
|
|
<P><STRONG><a name="[1e7]"></a>pdoa_ant_space_set</STRONG> (Thumb, 20 bytes, Stack size 0 bytes, mk8000_get_loc_params.o(.text.pdoa_ant_space_set))
|
<BR><BR>[Called By]<UL><LI><a href="#[133]">>></a> uwb_calibration_params_set
|
</UL>
|
|
<P><STRONG><a name="[1e6]"></a>pdoa_gain_set</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, mk_uwb.o(.text.pdoa_gain_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = pdoa_gain_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[133]">>></a> uwb_calibration_params_set
|
</UL>
|
|
<P><STRONG><a name="[134]"></a>phy_adv_params_configure</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, mk_phy.o(.text.phy_adv_params_configure))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = phy_adv_params_configure
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1aa]">>></a> aoa_param_dynamic_port_sel
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[195]"></a>phy_cca_config</STRONG> (Thumb, 20 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_cca_config))
|
<BR><BR>[Called By]<UL><LI><a href="#[192]">>></a> mac_regs_init
|
</UL>
|
|
<P><STRONG><a name="[18e]"></a>phy_crypto_sts_index_get</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_crypto_sts_index_get))
|
<BR><BR>[Called By]<UL><LI><a href="#[18d]">>></a> mac_cs_construct
|
</UL>
|
|
<P><STRONG><a name="[c5]"></a>phy_dump_mode</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_dump_mode))
|
<BR><BR>[Called By]<UL><LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[19d]"></a>phy_en_conv_encode</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_en_conv_encode))
|
<BR><BR>[Called By]<UL><LI><a href="#[19c]">>></a> mac_tx_desc_construct
|
</UL>
|
|
<P><STRONG><a name="[1f1]"></a>phy_init</STRONG> (Thumb, 36 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_init))
|
<BR><BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[1ab]"></a>phy_params_generate</STRONG> (Thumb, 2288 bytes, Stack size 184 bytes, mk_phy.o(.text.phy_params_generate))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1516<LI>Call Chain = phy_params_generate ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1ad]">>></a> __aeabi_f2d
|
<LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[70]">>></a> __aeabi_d2iz
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[6f]">>></a> __aeabi_ui2d
|
<LI><a href="#[1ae]">>></a> phy_sts_related_params_update
|
<LI><a href="#[5a]">>></a> __aeabi_memclr
|
<LI><a href="#[1af]">>></a> __aeabi_memset4
|
<LI><a href="#[1ac]">>></a> __aeabi_memcpy4
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[1f3]"></a>phy_params_sets_enable</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_params_sets_enable))
|
<BR><BR>[Called By]<UL><LI><a href="#[1ec]">>></a> uwb_params_sets_switch
|
</UL>
|
|
<P><STRONG><a name="[1f4]"></a>phy_rx_regs_config</STRONG> (Thumb, 1456 bytes, Stack size 44 bytes, mk_phy.o(.text.phy_rx_regs_config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = phy_rx_regs_config
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ec]">>></a> uwb_params_sets_switch
|
</UL>
|
|
<P><STRONG><a name="[87]"></a>phy_shr_duration</STRONG> (Thumb, 20 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_shr_duration))
|
<BR><BR>[Called By]<UL><LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
<LI><a href="#[2f]">>></a> rx_int_callback
|
</UL>
|
|
<P><STRONG><a name="[198]"></a>phy_time_gap</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_time_gap))
|
<BR><BR>[Called By]<UL><LI><a href="#[197]">>></a> mac_start
|
</UL>
|
|
<P><STRONG><a name="[86]"></a>phy_timer_count_get</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, mk_phy.o(.text.phy_timer_count_get))
|
<BR><BR>[Called By]<UL><LI><a href="#[9b]">>></a> uwb_rx_force_off
|
<LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
<LI><a href="#[2e]">>></a> tx_int_callback
|
<LI><a href="#[2f]">>></a> rx_int_callback
|
<LI><a href="#[18d]">>></a> mac_cs_construct
|
<LI><a href="#[32]">>></a> mac_op_timeout_handler
|
</UL>
|
|
<P><STRONG><a name="[1f2]"></a>phy_timer_open</STRONG> (Thumb, 72 bytes, Stack size 16 bytes, mk_phy.o(.text.phy_timer_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = phy_timer_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[132]">>></a> uwb_open
|
</UL>
|
|
<P><STRONG><a name="[1b0]"></a>phy_tx_regs_config</STRONG> (Thumb, 780 bytes, Stack size 88 bytes, mk_phy.o(.text.phy_tx_regs_config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1420<LI>Call Chain = phy_tx_regs_config ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ec]">>></a> uwb_params_sets_switch
|
</UL>
|
|
<P><STRONG><a name="[1b7]"></a>power_fem_rx_ctrl</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, mk_power.o(.text.power_fem_rx_ctrl))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = power_fem_rx_ctrl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b8]">>></a> power_on_radio
|
<LI><a href="#[1b5]">>></a> power_off_radio
|
</UL>
|
|
<P><STRONG><a name="[1b6]"></a>power_fem_tx_ctrl</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, mk_power.o(.text.power_fem_tx_ctrl))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = power_fem_tx_ctrl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b8]">>></a> power_on_radio
|
<LI><a href="#[1b5]">>></a> power_off_radio
|
</UL>
|
|
<P><STRONG><a name="[1b1]"></a>power_mode_clear</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, mk_power.o(.text.power_mode_clear))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = power_mode_clear ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b3]">>></a> int_unlock
|
<LI><a href="#[1b2]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b5]">>></a> power_off_radio
|
</UL>
|
|
<P><STRONG><a name="[1b4]"></a>power_mode_request</STRONG> (Thumb, 84 bytes, Stack size 24 bytes, mk_power.o(.text.power_mode_request))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = power_mode_request ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b3]">>></a> int_unlock
|
<LI><a href="#[1b2]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b8]">>></a> power_on_radio
|
</UL>
|
|
<P><STRONG><a name="[1b5]"></a>power_off_radio</STRONG> (Thumb, 56 bytes, Stack size 16 bytes, mk_power.o(.text.power_off_radio))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = power_off_radio ⇒ power_mode_clear ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b1]">>></a> power_mode_clear
|
<LI><a href="#[1b6]">>></a> power_fem_tx_ctrl
|
<LI><a href="#[1b7]">>></a> power_fem_rx_ctrl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[2e]">>></a> tx_int_callback
|
<LI><a href="#[2f]">>></a> rx_int_callback
|
</UL>
|
|
<P><STRONG><a name="[1b8]"></a>power_on_radio</STRONG> (Thumb, 92 bytes, Stack size 40 bytes, mk_power.o(.text.power_on_radio))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 76<LI>Call Chain = power_on_radio ⇒ power_mode_request ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b4]">>></a> power_mode_request
|
<LI><a href="#[1b6]">>></a> power_fem_tx_ctrl
|
<LI><a href="#[1b7]">>></a> power_fem_rx_ctrl
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8a]">>></a> uwb_tx
|
<LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
|
<P><STRONG><a name="[1a8]"></a>power_wakeup_enable</STRONG> (Thumb, 88 bytes, Stack size 8 bytes, mk_power.o(.text.power_wakeup_enable))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = power_wakeup_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a4]">>></a> sleep_timer_open
|
<LI><a href="#[1a2]">>></a> pca_input_detection_init
|
</UL>
|
|
<P><STRONG><a name="[1bc]"></a>ranging_ant_delays_get</STRONG> (Thumb, 20 bytes, Stack size 0 bytes, lib_ranging.o(.text.ranging_ant_delays_get))
|
<BR><BR>[Called By]<UL><LI><a href="#[88]">>></a> ranging_tx_time_correct
|
<LI><a href="#[1bb]">>></a> ranging_rx_time_correct
|
</UL>
|
|
<P><STRONG><a name="[1e5]"></a>ranging_ant_delays_set</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, lib_ranging.o(.text.ranging_ant_delays_set))
|
<BR><BR>[Called By]<UL><LI><a href="#[133]">>></a> uwb_calibration_params_set
|
</UL>
|
|
<P><STRONG><a name="[136]"></a>ranging_frame_type_set</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, lib_ranging.o(.text.ranging_frame_type_set))
|
<BR><BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[c9]"></a>ranging_rssi_get</STRONG> (Thumb, 72 bytes, Stack size 40 bytes, lib_ranging.o(.text.ranging_rssi_get))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 148<LI>Call Chain = ranging_rssi_get ⇒ MK8000_read_rssi ⇒ __aeabi_fadd ⇒ _float_epilogue
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[dd]">>></a> MK8000_read_rssi
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[1b9]"></a>ranging_rx_time</STRONG> (Thumb, 524 bytes, Stack size 64 bytes, lib_ranging.o(.text.ranging_rx_time))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 2012<LI>Call Chain = ranging_rx_time ⇒ sts_first_path_detect ⇒ MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[cf]">>></a> __aeabi_f2iz
|
<LI><a href="#[e0]">>></a> MK8000_update_fap_fom
|
<LI><a href="#[da]">>></a> MK8000_preamble_FAP_LSP
|
<LI><a href="#[1ba]">>></a> sts_first_path_detect
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1bb]">>></a> ranging_rx_time_correct
|
</UL>
|
|
<P><STRONG><a name="[1bd]"></a>ranging_tx_time</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, lib_ranging.o(.text.ranging_tx_time))
|
<BR><BR>[Called By]<UL><LI><a href="#[88]">>></a> ranging_tx_time_correct
|
</UL>
|
|
<P><STRONG><a name="[19f]"></a>reset_cause_clear</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, mk_reset.o(.text.reset_cause_clear))
|
<BR><BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[19e]"></a>reset_cause_get</STRONG> (Thumb, 316 bytes, Stack size 24 bytes, mk_reset.o(.text.reset_cause_get))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = reset_cause_get ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[144]"></a>reset_module</STRONG> (Thumb, 64 bytes, Stack size 4 bytes, mk_reset.o(.text.reset_module))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = reset_module
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[14a]">>></a> calib_open
|
<LI><a href="#[142]">>></a> aes_open
|
<LI><a href="#[187]">>></a> gpio_open
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[1d8]">>></a> uart_open
|
<LI><a href="#[1d4]">>></a> trace_end
|
<LI><a href="#[132]">>></a> uwb_open
|
<LI><a href="#[18f]">>></a> mac_init
|
<LI><a href="#[18c]">>></a> lsp_open
|
<LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[e1]"></a>save_com_map_to_flash</STRONG> (Thumb, 112 bytes, Stack size 40 bytes, global_param.o(.text.save_com_map_to_flash))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1444<LI>Call Chain = save_com_map_to_flash ⇒ flash_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[175]">>></a> flash_erase
|
<LI><a href="#[1c0]">>></a> parameter_check
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ea]">>></a> parameter_init_anchor
|
<LI><a href="#[27]">>></a> OnRxDone
|
</UL>
|
|
<P><STRONG><a name="[1a4]"></a>sleep_timer_open</STRONG> (Thumb, 96 bytes, Stack size 32 bytes, mk_sleep_timer.o(.text.sleep_timer_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = sleep_timer_open ⇒ __NVIC_SetPriority
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[1c2]">>></a> __NVIC_SetPriority
|
<LI><a href="#[1c4]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[1c3]">>></a> __NVIC_ClearPendingIRQ
|
<LI><a href="#[1a8]">>></a> power_wakeup_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[97]"></a>sleep_timer_ppm_set</STRONG> (Thumb, 16 bytes, Stack size 4 bytes, mk_sleep_timer.o(.text.sleep_timer_ppm_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = sleep_timer_ppm_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[1a5]"></a>sleep_timer_start</STRONG> (Thumb, 72 bytes, Stack size 24 bytes, mk_sleep_timer.o(.text.sleep_timer_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = sleep_timer_start ⇒ __aeabi_idiv
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[96]">>></a> __aeabi_idiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[1a1]"></a>spi_init</STRONG> (Thumb, 32 bytes, Stack size 16 bytes, main.o(.text.spi_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 844<LI>Call Chain = spi_init ⇒ spi_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[1c6]"></a>spi_open</STRONG> (Thumb, 768 bytes, Stack size 72 bytes, mk_spi.o(.text.spi_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 828<LI>Call Chain = spi_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[1c8]">>></a> __NVIC_SetPriority
|
<LI><a href="#[1ca]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[1c9]">>></a> __NVIC_ClearPendingIRQ
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a1]">>></a> spi_init
|
</UL>
|
|
<P><STRONG><a name="[12b]"></a>spi_transfer</STRONG> (Thumb, 1132 bytes, Stack size 248 bytes, mk_spi.o(.text.spi_transfer))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1580<LI>Call Chain = spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1cd]">>></a> spi_state_set
|
<LI><a href="#[1c5]">>></a> spi_state_clear
|
<LI><a href="#[1c7]">>></a> spi_get_frame_size
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
<LI><a href="#[59]">>></a> __aeabi_uidivmod
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[121]">>></a> SpiInOut
|
</UL>
|
|
<P><STRONG><a name="[2d]"></a>spi_transfer_callback</STRONG> (Thumb, 10 bytes, Stack size 8 bytes, sx126x-board.o(.text.spi_transfer_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = spi_transfer_callback
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> sx126x-board.o(.text.SpiInOut)
|
</UL>
|
<P><STRONG><a name="[113]"></a>start_main_asm</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, startup_mk800x.o(.text.start_main_asm))
|
<BR><BR>[Called By]<UL><LI><a href="#[0]">>></a> Reset_Handler
|
</UL>
|
|
<P><STRONG><a name="[1ba]"></a>sts_first_path_detect</STRONG> (Thumb, 24 bytes, Stack size 16 bytes, lib_aoa.o(.text.sts_first_path_detect))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1948<LI>Call Chain = sts_first_path_detect ⇒ MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[df]">>></a> MK8000_sts_first_patch_detect
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b9]">>></a> ranging_rx_time
|
</UL>
|
|
<P><STRONG><a name="[14f]"></a>sys_tick_start</STRONG> (Thumb, 96 bytes, Stack size 24 bytes, mk_misc.o(.text.sys_tick_start))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 780<LI>Call Chain = sys_tick_start ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[1ce]">>></a> __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[13f]"></a>sys_tick_us</STRONG> (Thumb, 128 bytes, Stack size 32 bytes, mk_misc.o(.text.sys_tick_us))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = sys_tick_us ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1d0]">>></a> int_unlock
|
<LI><a href="#[1cf]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[9e]">>></a> trace_exception_handler
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[c8]"></a>sys_timer_get</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, mk_misc.o(.text.sys_timer_get))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1d1]">>></a> dual_timer_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[179]">>></a> flash_wait_status
|
<LI><a href="#[170]">>></a> flash_wait_done
|
<LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[150]"></a>sys_timer_open</STRONG> (Thumb, 48 bytes, Stack size 48 bytes, mk_misc.o(.text.sys_timer_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 836<LI>Call Chain = sys_timer_open ⇒ dual_timer_open ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[199]">>></a> dual_timer_start
|
<LI><a href="#[168]">>></a> dual_timer_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[148]">>></a> board_clock_run
|
</UL>
|
|
<P><STRONG><a name="[7b]"></a>trace_assert_dump</STRONG> (Thumb, 108 bytes, Stack size 64 bytes, mk_trace.o(.text.trace_assert_dump))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 756<LI>Call Chain = trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[1d4]">>></a> trace_end
|
<LI><a href="#[1d3]">>></a> trace_crash_dump_callback
|
<LI><a href="#[1d2]">>></a> int_lock
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[f]">>></a> ADC_IRQHandler
|
<LI><a href="#[e]">>></a> AES_IRQHandler
|
<LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
<LI><a href="#[31]">>></a> flash_dma_write_nbytes_callback
|
<LI><a href="#[30]">>></a> flash_dma_callback
|
<LI><a href="#[168]">>></a> dual_timer_open
|
<LI><a href="#[14f]">>></a> sys_tick_start
|
<LI><a href="#[9]">>></a> SLEEP_TIMER_IRQHandler
|
<LI><a href="#[12d]">>></a> uart_irq_handler
|
<LI><a href="#[1dd]">>></a> uart_baud_set
|
<LI><a href="#[39]">>></a> uart_dma_callback
|
<LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[19b]">>></a> mac_tx
|
<LI><a href="#[196]">>></a> mac_rx
|
<LI><a href="#[18f]">>></a> mac_init
|
<LI><a href="#[1c6]">>></a> spi_open
|
<LI><a href="#[36]">>></a> spi_dma_callback
|
<LI><a href="#[18b]">>></a> lsp_g_op_int16
|
<LI><a href="#[189]">>></a> lsp_g_op_int8
|
<LI><a href="#[18a]">>></a> lsp_engine_run
|
<LI><a href="#[188]">>></a> lsp_g_op_f32
|
<LI><a href="#[23]">>></a> PHY_TIMER_IRQHandler
|
<LI><a href="#[193]">>></a> mac_link_desc_construct
|
<LI><a href="#[18d]">>></a> mac_cs_construct
|
<LI><a href="#[19c]">>></a> mac_tx_desc_construct
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
</UL>
|
|
<P><STRONG><a name="[1d4]"></a>trace_end</STRONG> (Thumb, 44 bytes, Stack size 8 bytes, mk_trace.o(.text.trace_end))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = trace_end ⇒ trace_output_blocking
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[13d]">>></a> trace_output_blocking
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[9e]">>></a> trace_exception_handler
|
</UL>
|
|
<P><STRONG><a name="[9e]"></a>trace_exception_handler</STRONG> (Thumb, 1164 bytes, Stack size 216 bytes, mk_trace.o(.text.trace_exception_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 612<LI>Call Chain = trace_exception_handler ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[13f]">>></a> sys_tick_us
|
<LI><a href="#[13c]">>></a> trace_flush
|
<LI><a href="#[1d4]">>></a> trace_end
|
<LI><a href="#[140]">>></a> mk_snprintf
|
<LI><a href="#[141]">>></a> trace_print_backtrace
|
<LI><a href="#[13d]">>></a> trace_output_blocking
|
<LI><a href="#[1d3]">>></a> trace_crash_dump_callback
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[2]">>></a> HardFault_Handler
|
</UL>
|
|
<P><STRONG><a name="[13c]"></a>trace_flush</STRONG> (Thumb, 264 bytes, Stack size 48 bytes, mk_trace.o(.text.trace_flush))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = trace_flush ⇒ trace_output_blocking
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1d5]">>></a> uart_tx_in_progress
|
<LI><a href="#[13d]">>></a> trace_output_blocking
|
<LI><a href="#[1d6]">>></a> int_unlock
|
<LI><a href="#[1d2]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9e]">>></a> trace_exception_handler
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[1a7]"></a>trace_format</STRONG> (Thumb, 1040 bytes, Stack size 112 bytes, mk_trace.o(.text.trace_format))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 284<LI>Call Chain = trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[94]">>></a> __aeabi_fmul
|
<LI><a href="#[cf]">>></a> __aeabi_f2iz
|
<LI><a href="#[73]">>></a> __aeabi_d2f
|
<LI><a href="#[d3]">>></a> __aeabi_fcmpge
|
<LI><a href="#[139]">>></a> _StoreChar
|
<LI><a href="#[13a]">>></a> _PrintUnsigned
|
<LI><a href="#[138]">>></a> _PrintInt
|
<LI><a href="#[1d7]">>></a> abs
|
<LI><a href="#[58]">>></a> __aeabi_idivmod
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[140]">>></a> mk_snprintf
|
</UL>
|
|
<P><STRONG><a name="[151]"></a>trace_open</STRONG> (Thumb, 176 bytes, Stack size 64 bytes, mk_trace.o(.text.trace_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = trace_open ⇒ uart_open ⇒ uart_baud_set ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1d8]">>></a> uart_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[91]">>></a> board_debug_console_open
|
</UL>
|
|
<P><STRONG><a name="[1d9]"></a>trace_output</STRONG> (Thumb, 508 bytes, Stack size 48 bytes, mk_trace.o(.text.trace_output))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 972 + In Cycle
|
<LI>Call Chain = trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1da]">>></a> trace_sending
|
<LI><a href="#[1d6]">>></a> int_unlock
|
<LI><a href="#[1d2]">>></a> int_lock
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
|
<P><STRONG><a name="[7c]"></a>trace_printf</STRONG> (Thumb, 428 bytes, Stack size 360 bytes, mk_trace.o(.text.trace_printf))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1332<LI>Call Chain = trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[13f]">>></a> sys_tick_us
|
<LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[140]">>></a> mk_snprintf
|
<LI><a href="#[13e]">>></a> strlen
|
<LI><a href="#[5a]">>></a> __aeabi_memclr
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[153]">>></a> calib_xtal38m4_load_cap_set
|
<LI><a href="#[154]">>></a> calib_xtal32k_load_cap_set
|
<LI><a href="#[152]">>></a> calib_chip
|
<LI><a href="#[e]">>></a> AES_IRQHandler
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[21]">>></a> CLK32K_CAL_IRQHandler
|
<LI><a href="#[19e]">>></a> reset_cause_get
|
<LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[38]">>></a> trace_sending_continue
|
<LI><a href="#[1a0]">>></a> wdt_close
|
<LI><a href="#[132]">>></a> uwb_open
|
<LI><a href="#[135]">>></a> uwb_configure
|
<LI><a href="#[133]">>></a> uwb_calibration_params_set
|
<LI><a href="#[1b0]">>></a> phy_tx_regs_config
|
<LI><a href="#[1ab]">>></a> phy_params_generate
|
<LI><a href="#[1ed]">>></a> uwb_tx_init
|
<LI><a href="#[1ee]">>></a> uwb_rx_init
|
<LI><a href="#[12b]">>></a> spi_transfer
|
<LI><a href="#[115]">>></a> spi_irq_handler
|
<LI><a href="#[91]">>></a> board_debug_console_open
|
<LI><a href="#[e9]">>></a> Program_Init
|
<LI><a href="#[a]">>></a> MAC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[25]"></a>uart0_receive_callback</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, main.o(.text.uart0_receive_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 916<LI>Call Chain = uart0_receive_callback ⇒ uart_receive ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[92]">>></a> uart_receive
|
</UL>
|
<BR>[Address Reference Count : 2]<UL><LI> main.o(.text.uart0_receive_callback)
|
<LI> main.o(.text.Board_gpio_init)
|
</UL>
|
<P><STRONG><a name="[1dd]"></a>uart_baud_set</STRONG> (Thumb, 184 bytes, Stack size 48 bytes, mk_uart.o(.text.uart_baud_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 804<LI>Call Chain = uart_baud_set ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[14e]">>></a> clock_set_divider
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d8]">>></a> uart_open
|
</UL>
|
|
<P><STRONG><a name="[12d]"></a>uart_irq_handler</STRONG> (Thumb, 1020 bytes, Stack size 88 bytes, mk_uart.o(.text.uart_irq_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 844<LI>Call Chain = uart_irq_handler ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1f]">>></a> UART1_IRQHandler
|
<LI><a href="#[1e]">>></a> UART0_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[1d8]"></a>uart_open</STRONG> (Thumb, 604 bytes, Stack size 40 bytes, mk_uart.o(.text.uart_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 844<LI>Call Chain = uart_open ⇒ uart_baud_set ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[143]">>></a> clock_enable
|
<LI><a href="#[1dd]">>></a> uart_baud_set
|
<LI><a href="#[1df]">>></a> __NVIC_SetPriority
|
<LI><a href="#[1e1]">>></a> __NVIC_EnableIRQ
|
<LI><a href="#[1e0]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[151]">>></a> trace_open
|
</UL>
|
|
<P><STRONG><a name="[92]"></a>uart_receive</STRONG> (Thumb, 616 bytes, Stack size 120 bytes, mk_uart.o(.text.uart_receive))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = uart_receive ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[1e2]">>></a> uart_state_set
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
<LI><a href="#[1e0]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[25]">>></a> uart0_receive_callback
|
<LI><a href="#[8f]">>></a> Board_gpio_init
|
</UL>
|
|
<P><STRONG><a name="[1dc]"></a>uart_send</STRONG> (Thumb, 608 bytes, Stack size 112 bytes, mk_uart.o(.text.uart_send))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 900<LI>Call Chain = uart_send ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[163]">>></a> dma_open
|
<LI><a href="#[1e2]">>></a> uart_state_set
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1da]">>></a> trace_sending
|
</UL>
|
|
<P><STRONG><a name="[1d5]"></a>uart_tx_in_progress</STRONG> (Thumb, 64 bytes, Stack size 8 bytes, mk_uart.o(.text.uart_tx_in_progress))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = uart_tx_in_progress
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[13c]">>></a> trace_flush
|
</UL>
|
|
<P><STRONG><a name="[1a6]"></a>uwb_app_poll</STRONG> (Thumb, 364 bytes, Stack size 24 bytes, uwb_app.o(.text.uwb_app_poll))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 948<LI>Call Chain = uwb_app_poll ⇒ OpenUWB ⇒ uwb_rx ⇒ mac_rx ⇒ mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c0]">>></a> PCA9555_Set_One_Value_Output
|
<LI><a href="#[12f]">>></a> HIDO_TimerGetTick
|
<LI><a href="#[85]">>></a> OpenUWB
|
<LI><a href="#[12e]">>></a> UWBIdleTask
|
<LI><a href="#[9a]">>></a> CloseUWB
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[133]"></a>uwb_calibration_params_set</STRONG> (Thumb, 420 bytes, Stack size 136 bytes, mk_uwb.o(.text.uwb_calibration_params_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1468<LI>Call Chain = uwb_calibration_params_set ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1e6]">>></a> pdoa_gain_set
|
<LI><a href="#[1e8]">>></a> pdoa_angle_offset_set
|
<LI><a href="#[1e5]">>></a> ranging_ant_delays_set
|
<LI><a href="#[1e7]">>></a> pdoa_ant_space_set
|
<LI><a href="#[1a9]">>></a> pdoa_ant_delays_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[1e9]"></a>uwb_channel_switch</STRONG> (Thumb, 232 bytes, Stack size 16 bytes, mk_uwb.o(.text.uwb_channel_switch))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = uwb_channel_switch
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[135]"></a>uwb_configure</STRONG> (Thumb, 188 bytes, Stack size 64 bytes, mk_uwb.o(.text.uwb_configure))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1580<LI>Call Chain = uwb_configure ⇒ phy_params_generate ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1eb]">>></a> uwb_rx_antenna_open
|
<LI><a href="#[1ea]">>></a> uwb_pulse_shape_set
|
<LI><a href="#[1ec]">>></a> uwb_params_sets_switch
|
<LI><a href="#[1e9]">>></a> uwb_channel_switch
|
<LI><a href="#[1ab]">>></a> phy_params_generate
|
<LI><a href="#[1ef]">>></a> mac_crc_mode_configure
|
<LI><a href="#[1ed]">>></a> uwb_tx_init
|
<LI><a href="#[1ee]">>></a> uwb_rx_init
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[132]"></a>uwb_open</STRONG> (Thumb, 112 bytes, Stack size 48 bytes, mk_uwb.o(.text.uwb_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1380<LI>Call Chain = uwb_open ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[144]">>></a> reset_module
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[142]">>></a> aes_open
|
<LI><a href="#[1f2]">>></a> phy_timer_open
|
<LI><a href="#[1f1]">>></a> phy_init
|
<LI><a href="#[1f0]">>></a> mac_rssi_calculation_en
|
<LI><a href="#[18f]">>></a> mac_init
|
<LI><a href="#[18c]">>></a> lsp_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[131]">>></a> Uwbinit
|
</UL>
|
|
<P><STRONG><a name="[1ec]"></a>uwb_params_sets_switch</STRONG> (Thumb, 66 bytes, Stack size 24 bytes, mk_uwb.o(.text.uwb_params_sets_switch))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1444<LI>Call Chain = uwb_params_sets_switch ⇒ phy_tx_regs_config ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b0]">>></a> phy_tx_regs_config
|
<LI><a href="#[1f4]">>></a> phy_rx_regs_config
|
<LI><a href="#[1f3]">>></a> phy_params_sets_enable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[1ea]"></a>uwb_pulse_shape_set</STRONG> (Thumb, 60 bytes, Stack size 8 bytes, mk_uwb.o(.text.uwb_pulse_shape_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = uwb_pulse_shape_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[e3]"></a>uwb_rx</STRONG> (Thumb, 144 bytes, Stack size 56 bytes, mk_uwb.o(.text.uwb_rx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 908<LI>Call Chain = uwb_rx ⇒ mac_rx ⇒ mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b8]">>></a> power_on_radio
|
<LI><a href="#[197]">>></a> mac_start
|
<LI><a href="#[196]">>></a> mac_rx
|
<LI><a href="#[1f6]">>></a> int_unlock
|
<LI><a href="#[1f5]">>></a> int_lock
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[85]">>></a> OpenUWB
|
</UL>
|
|
<P><STRONG><a name="[1eb]"></a>uwb_rx_antenna_open</STRONG> (Thumb, 52 bytes, Stack size 4 bytes, mk_uwb.o(.text.uwb_rx_antenna_open))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = uwb_rx_antenna_open
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[9b]"></a>uwb_rx_force_off</STRONG> (Thumb, 100 bytes, Stack size 24 bytes, mk_uwb.o(.text.uwb_rx_force_off))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = uwb_rx_force_off ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[86]">>></a> phy_timer_count_get
|
<LI><a href="#[1f7]">>></a> mac_current_rx_report_discard
|
<LI><a href="#[1f6]">>></a> int_unlock
|
<LI><a href="#[1f5]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9a]">>></a> CloseUWB
|
</UL>
|
|
<P><STRONG><a name="[8a]"></a>uwb_tx</STRONG> (Thumb, 150 bytes, Stack size 56 bytes, mk_uwb.o(.text.uwb_tx))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 916<LI>Call Chain = uwb_tx ⇒ mac_tx ⇒ mac_tx_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b8]">>></a> power_on_radio
|
<LI><a href="#[19b]">>></a> mac_tx
|
<LI><a href="#[197]">>></a> mac_start
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
</UL>
|
|
<P><STRONG><a name="[1f8]"></a>uwb_tx_power_set</STRONG> (Thumb, 212 bytes, Stack size 56 bytes, mk_uwb.o(.text.uwb_tx_power_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 60<LI>Call Chain = uwb_tx_power_set ⇒ delay_us
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ed]">>></a> uwb_tx_init
|
</UL>
|
|
<P><STRONG><a name="[1a0]"></a>wdt_close</STRONG> (Thumb, 148 bytes, Stack size 40 bytes, mk_wdt.o(.text.wdt_close))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1372<LI>Call Chain = wdt_close ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[98]">>></a> clock_disable
|
<LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1f9]">>></a> __NVIC_DisableIRQ
|
<LI><a href="#[1fa]">>></a> __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[24]">>></a> main
|
</UL>
|
|
<P><STRONG><a name="[1fb]"></a>__0printf</STRONG> (Thumb, 24 bytes, Stack size 24 bytes, printfa.o(i.__0printf), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[1fc]">>></a> _printf_core
|
</UL>
|
|
<P><STRONG><a name="[21f]"></a>__1printf</STRONG> (Thumb, 0 bytes, Stack size 24 bytes, printfa.o(i.__0printf), UNUSED)
|
|
<P><STRONG><a name="[220]"></a>__2printf</STRONG> (Thumb, 0 bytes, Stack size 24 bytes, printfa.o(i.__0printf), UNUSED)
|
|
<P><STRONG><a name="[221]"></a>__c89printf</STRONG> (Thumb, 0 bytes, Stack size 24 bytes, printfa.o(i.__0printf), UNUSED)
|
|
<P><STRONG><a name="[e2]"></a>printf</STRONG> (Thumb, 0 bytes, Stack size 24 bytes, printfa.o(i.__0printf))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[26]">>></a> OnTxDone
|
</UL>
|
|
<P><STRONG><a name="[75]"></a>__ARM_clz</STRONG> (Thumb, 46 bytes, Stack size 0 bytes, depilogue.o(i.__ARM_clz))
|
<BR><BR>[Called By]<UL><LI><a href="#[66]">>></a> _double_epilogue
|
</UL>
|
|
<P><STRONG><a name="[20a]"></a>__ARM_fpclassify</STRONG> (Thumb, 40 bytes, Stack size 0 bytes, fpclassify.o(i.__ARM_fpclassify))
|
<BR><BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[1fd]"></a>__kernel_poly</STRONG> (Thumb, 172 bytes, Stack size 24 bytes, poly.o(i.__kernel_poly))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 152<LI>Call Chain = __kernel_poly ⇒ __aeabi_dmul ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[63]">>></a> __aeabi_dadd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[1fe]"></a>__mathlib_dbl_divzero</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, dunder.o(i.__mathlib_dbl_divzero))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = __mathlib_dbl_divzero ⇒ __aeabi_ddiv ⇒ _double_round
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6b]">>></a> __aeabi_ddiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[1ff]"></a>__mathlib_dbl_infnan2</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, dunder.o(i.__mathlib_dbl_infnan2))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = __mathlib_dbl_infnan2 ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[200]"></a>__mathlib_dbl_invalid</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, dunder.o(i.__mathlib_dbl_invalid))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = __mathlib_dbl_invalid ⇒ __aeabi_ddiv ⇒ _double_round
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6b]">>></a> __aeabi_ddiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[201]"></a>__mathlib_dbl_overflow</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, dunder.o(i.__mathlib_dbl_overflow))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __mathlib_dbl_overflow ⇒ __ARM_scalbn
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[202]">>></a> __ARM_scalbn
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[203]"></a>__mathlib_dbl_underflow</STRONG> (Thumb, 14 bytes, Stack size 8 bytes, dunder.o(i.__mathlib_dbl_underflow))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __mathlib_dbl_underflow ⇒ __ARM_scalbn
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[202]">>></a> __ARM_scalbn
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[222]"></a>__scatterload_copy</STRONG> (Thumb, 14 bytes, Stack size unknown bytes, handlers.o(i.__scatterload_copy), UNUSED)
|
|
<P><STRONG><a name="[223]"></a>__scatterload_null</STRONG> (Thumb, 2 bytes, Stack size unknown bytes, handlers.o(i.__scatterload_null), UNUSED)
|
|
<P><STRONG><a name="[224]"></a>__scatterload_zeroinit</STRONG> (Thumb, 14 bytes, Stack size unknown bytes, handlers.o(i.__scatterload_zeroinit), UNUSED)
|
|
<P><STRONG><a name="[208]"></a>__set_errno</STRONG> (Thumb, 6 bytes, Stack size 0 bytes, errno.o(i.__set_errno))
|
<BR><BR>[Called By]<UL><LI><a href="#[209]">>></a> sqrt
|
<LI><a href="#[126]">>></a> pow
|
</UL>
|
|
<P><STRONG><a name="[10e]"></a>ceil</STRONG> (Thumb, 180 bytes, Stack size 24 bytes, ceil.o(i.ceil))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = ceil ⇒ __aeabi_drsub ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[205]">>></a> __aeabi_cdrcmple
|
<LI><a href="#[69]">>></a> __aeabi_drsub
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
</UL>
|
|
<P><STRONG><a name="[110]"></a>floor</STRONG> (Thumb, 180 bytes, Stack size 24 bytes, floor.o(i.floor))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = floor ⇒ __aeabi_drsub ⇒ __aeabi_dadd ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[205]">>></a> __aeabi_cdrcmple
|
<LI><a href="#[69]">>></a> __aeabi_drsub
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
</UL>
|
|
<P><STRONG><a name="[3a]"></a>fputc</STRONG> (Thumb, 18 bytes, Stack size 16 bytes, fputc.o(i.fputc))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = fputc
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> printfa.o(i.__0printf)
|
</UL>
|
<P><STRONG><a name="[126]"></a>pow</STRONG> (Thumb, 2548 bytes, Stack size 128 bytes, pow.o(i.pow))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 280<LI>Call Chain = pow ⇒ __kernel_poly ⇒ __aeabi_dmul ⇒ _double_epilogue ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[6e]">>></a> __aeabi_i2d
|
<LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[209]">>></a> sqrt
|
<LI><a href="#[205]">>></a> __aeabi_cdrcmple
|
<LI><a href="#[68]">>></a> __aeabi_dsub
|
<LI><a href="#[69]">>></a> __aeabi_drsub
|
<LI><a href="#[202]">>></a> __ARM_scalbn
|
<LI><a href="#[208]">>></a> __set_errno
|
<LI><a href="#[1fd]">>></a> __kernel_poly
|
<LI><a href="#[20a]">>></a> __ARM_fpclassify
|
<LI><a href="#[203]">>></a> __mathlib_dbl_underflow
|
<LI><a href="#[201]">>></a> __mathlib_dbl_overflow
|
<LI><a href="#[200]">>></a> __mathlib_dbl_invalid
|
<LI><a href="#[1ff]">>></a> __mathlib_dbl_infnan2
|
<LI><a href="#[1fe]">>></a> __mathlib_dbl_divzero
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[ff]">>></a> SX126xSetRfFrequency
|
<LI><a href="#[104]">>></a> SX126xSetModulationParams
|
</UL>
|
|
<P><STRONG><a name="[10d]"></a>rint</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, rint.o(i.rint))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = rint ⇒ _drnd ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[77]">>></a> _drnd
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[44]">>></a> RadioTimeOnAir
|
</UL>
|
|
<P><STRONG><a name="[209]"></a>sqrt</STRONG> (Thumb, 66 bytes, Stack size 24 bytes, sqrt.o(i.sqrt))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = sqrt ⇒ _dsqrt ⇒ __aeabi_llsr
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[76]">>></a> _dsqrt
|
<LI><a href="#[208]">>></a> __set_errno
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[126]">>></a> pow
|
</UL>
|
<P>
|
<H3>
|
Local Symbols
|
</H3>
|
<P><STRONG><a name="[7a]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_adc.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[f]">>></a> ADC_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[146]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_aes.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[142]">>></a> aes_open
|
</UL>
|
|
<P><STRONG><a name="[147]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_aes.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[142]">>></a> aes_open
|
</UL>
|
|
<P><STRONG><a name="[145]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_aes.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[142]">>></a> aes_open
|
</UL>
|
|
<P><STRONG><a name="[158]"></a>clock_32K_clk_config</STRONG> (Thumb, 116 bytes, Stack size 24 bytes, mk_clock.o(.text.clock_32K_clk_config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = clock_32K_clk_config ⇒ clock_xtal32k_injection_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[159]">>></a> clock_xtal32k_injection_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[149]">>></a> clock_attach
|
</UL>
|
|
<P><STRONG><a name="[161]"></a>clock_get_32k_clk_freq</STRONG> (Thumb, 20 bytes, Stack size 4 bytes, mk_clock.o(.text.clock_get_32k_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = clock_get_32k_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[160]">>></a> clock_get_wdt_clk_freq
|
</UL>
|
|
<P><STRONG><a name="[15c]"></a>clock_get_ahb_clk_freq</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, mk_clock.o(.text.clock_get_ahb_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = clock_get_ahb_clk_freq ⇒ clock_get_sys_clk_freq
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[15d]">>></a> clock_get_sys_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[15e]">>></a> clock_get_apb_clk_freq
|
</UL>
|
|
<P><STRONG><a name="[15e]"></a>clock_get_apb_clk_freq</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, mk_clock.o(.text.clock_get_apb_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = clock_get_apb_clk_freq ⇒ clock_get_ahb_clk_freq ⇒ clock_get_sys_clk_freq
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[15c]">>></a> clock_get_ahb_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[160]">>></a> clock_get_wdt_clk_freq
|
</UL>
|
|
<P><STRONG><a name="[15f]"></a>clock_get_flash_clk_freq</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, mk_clock.o(.text.clock_get_flash_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = clock_get_flash_clk_freq ⇒ clock_get_sys_clk_freq
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[15d]">>></a> clock_get_sys_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
</UL>
|
|
<P><STRONG><a name="[15d]"></a>clock_get_sys_clk_freq</STRONG> (Thumb, 68 bytes, Stack size 12 bytes, mk_clock.o(.text.clock_get_sys_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = clock_get_sys_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
<LI><a href="#[15f]">>></a> clock_get_flash_clk_freq
|
<LI><a href="#[15c]">>></a> clock_get_ahb_clk_freq
|
</UL>
|
|
<P><STRONG><a name="[160]"></a>clock_get_wdt_clk_freq</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, mk_clock.o(.text.clock_get_wdt_clk_freq))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = clock_get_wdt_clk_freq ⇒ clock_get_apb_clk_freq ⇒ clock_get_ahb_clk_freq ⇒ clock_get_sys_clk_freq
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[15e]">>></a> clock_get_apb_clk_freq
|
<LI><a href="#[161]">>></a> clock_get_32k_clk_freq
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[93]">>></a> clock_get_frequency
|
</UL>
|
|
<P><STRONG><a name="[15a]"></a>clock_sys_clk_config</STRONG> (Thumb, 164 bytes, Stack size 24 bytes, mk_clock.o(.text.clock_sys_clk_config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = clock_sys_clk_config ⇒ clock_xtal38m4_injection_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[162]">>></a> clock_xtal38m4_injection_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[149]">>></a> clock_attach
|
</UL>
|
|
<P><STRONG><a name="[15b]"></a>clock_wdt_clk_config</STRONG> (Thumb, 52 bytes, Stack size 4 bytes, mk_clock.o(.text.clock_wdt_clk_config))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = clock_wdt_clk_config
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[149]">>></a> clock_attach
|
</UL>
|
|
<P><STRONG><a name="[165]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_dma.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[163]">>></a> dma_open
|
</UL>
|
|
<P><STRONG><a name="[166]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_dma.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[163]">>></a> dma_open
|
</UL>
|
|
<P><STRONG><a name="[164]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_dma.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[163]">>></a> dma_open
|
</UL>
|
|
<P><STRONG><a name="[16a]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_dual_timer.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[168]">>></a> dual_timer_open
|
</UL>
|
|
<P><STRONG><a name="[16b]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_dual_timer.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[168]">>></a> dual_timer_open
|
</UL>
|
|
<P><STRONG><a name="[169]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_dual_timer.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[168]">>></a> dual_timer_open
|
</UL>
|
|
<P><STRONG><a name="[17d]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_flash.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
</UL>
|
|
<P><STRONG><a name="[17e]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_flash.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
</UL>
|
|
<P><STRONG><a name="[17c]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_flash.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
</UL>
|
|
<P><STRONG><a name="[30]"></a>flash_dma_callback</STRONG> (Thumb, 588 bytes, Stack size 80 bytes, mk_flash.o(.text.flash_dma_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 868<LI>Call Chain = flash_dma_callback ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
</UL>
|
<BR>[Address Reference Count : 2]<UL><LI> mk_flash.o(.text.flash_dma_callback)
|
<LI> mk_flash.o(.text.flash_read)
|
</UL>
|
<P><STRONG><a name="[31]"></a>flash_dma_write_nbytes_callback</STRONG> (Thumb, 580 bytes, Stack size 72 bytes, mk_flash.o(.text.flash_dma_write_nbytes_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 860<LI>Call Chain = flash_dma_write_nbytes_callback ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[167]">>></a> dma_transfer
|
<LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[174]">>></a> flash_write_variable_len_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
</UL>
|
<BR>[Address Reference Count : 2]<UL><LI> mk_flash.o(.text.flash_write_nbytes)
|
<LI> mk_flash.o(.text.flash_dma_write_nbytes_callback)
|
</UL>
|
<P><STRONG><a name="[177]"></a>flash_init_write_nbytes_cfg</STRONG> (Thumb, 316 bytes, Stack size 56 bytes, mk_flash.o(.text.flash_init_write_nbytes_cfg))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = flash_init_write_nbytes_cfg ⇒ __aeabi_uidiv
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
</UL>
|
|
<P><STRONG><a name="[17f]"></a>flash_page_write_nbytes</STRONG> (Thumb, 108 bytes, Stack size 32 bytes, mk_flash.o(.text.flash_page_write_nbytes))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 156<LI>Call Chain = flash_page_write_nbytes ⇒ flash_wait_done ⇒ flash_read_status ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[174]">>></a> flash_write_variable_len_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[170]">>></a> flash_wait_done
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
</UL>
|
|
<P><STRONG><a name="[173]"></a>flash_read_status</STRONG> (Thumb, 52 bytes, Stack size 16 bytes, mk_flash.o(.text.flash_read_status))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 100<LI>Call Chain = flash_read_status ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[172]">>></a> flash_check_busy
|
<LI><a href="#[170]">>></a> flash_wait_done
|
</UL>
|
|
<P><STRONG><a name="[17b]"></a>flash_read_status1</STRONG> (Thumb, 52 bytes, Stack size 16 bytes, mk_flash.o(.text.flash_read_status1))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 100<LI>Call Chain = flash_read_status1 ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
</UL>
|
|
<P><STRONG><a name="[16e]"></a>flash_reset_cmd</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, mk_flash.o(.text.flash_reset_cmd))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = flash_reset_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
<LI><a href="#[30]">>></a> flash_dma_callback
|
</UL>
|
|
<P><STRONG><a name="[16d]"></a>flash_state_update</STRONG> (Thumb, 112 bytes, Stack size 32 bytes, mk_flash.o(.text.flash_state_update))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = flash_state_update ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[182]">>></a> int_unlock
|
<LI><a href="#[181]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
</UL>
|
|
<P><STRONG><a name="[170]"></a>flash_wait_done</STRONG> (Thumb, 60 bytes, Stack size 24 bytes, mk_flash.o(.text.flash_wait_done))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 124<LI>Call Chain = flash_wait_done ⇒ flash_read_status ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[c8]">>></a> sys_timer_get
|
<LI><a href="#[173]">>></a> flash_read_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
<LI><a href="#[17a]">>></a> flash_write_quad_mode
|
<LI><a href="#[17f]">>></a> flash_page_write_nbytes
|
</UL>
|
|
<P><STRONG><a name="[179]"></a>flash_wait_status</STRONG> (Thumb, 80 bytes, Stack size 24 bytes, mk_flash.o(.text.flash_wait_status))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c8]">>></a> sys_timer_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[174]">>></a> flash_write_variable_len_cmd
|
<LI><a href="#[171]">>></a> flash_write_mem_cmd
|
<LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[16e]">>></a> flash_reset_cmd
|
<LI><a href="#[17b]">>></a> flash_read_status1
|
<LI><a href="#[173]">>></a> flash_read_status
|
</UL>
|
|
<P><STRONG><a name="[16f]"></a>flash_write_cmd</STRONG> (Thumb, 316 bytes, Stack size 48 bytes, mk_flash.o(.text.flash_write_cmd))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 84<LI>Call Chain = flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
<LI><a href="#[17a]">>></a> flash_write_quad_mode
|
<LI><a href="#[17b]">>></a> flash_read_status1
|
<LI><a href="#[173]">>></a> flash_read_status
|
<LI><a href="#[17f]">>></a> flash_page_write_nbytes
|
<LI><a href="#[31]">>></a> flash_dma_write_nbytes_callback
|
<LI><a href="#[30]">>></a> flash_dma_callback
|
</UL>
|
|
<P><STRONG><a name="[171]"></a>flash_write_mem_cmd</STRONG> (Thumb, 100 bytes, Stack size 24 bytes, mk_flash.o(.text.flash_write_mem_cmd))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 60<LI>Call Chain = flash_write_mem_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[176]">>></a> flash_sector_erase
|
<LI><a href="#[180]">>></a> flash_read
|
<LI><a href="#[178]">>></a> flash_open
|
<LI><a href="#[172]">>></a> flash_check_busy
|
<LI><a href="#[16c]">>></a> flash_block_erase
|
</UL>
|
|
<P><STRONG><a name="[17a]"></a>flash_write_quad_mode</STRONG> (Thumb, 188 bytes, Stack size 24 bytes, mk_flash.o(.text.flash_write_quad_mode))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 148<LI>Call Chain = flash_write_quad_mode ⇒ flash_wait_done ⇒ flash_read_status ⇒ flash_write_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[16f]">>></a> flash_write_cmd
|
<LI><a href="#[170]">>></a> flash_wait_done
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[178]">>></a> flash_open
|
</UL>
|
|
<P><STRONG><a name="[174]"></a>flash_write_variable_len_cmd</STRONG> (Thumb, 224 bytes, Stack size 32 bytes, mk_flash.o(.text.flash_write_variable_len_cmd))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = flash_write_variable_len_cmd ⇒ flash_wait_status ⇒ sys_timer_get ⇒ dual_timer_get
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[179]">>></a> flash_wait_status
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[183]">>></a> flash_write_nbytes
|
<LI><a href="#[17f]">>></a> flash_page_write_nbytes
|
<LI><a href="#[31]">>></a> flash_dma_write_nbytes_callback
|
</UL>
|
|
<P><STRONG><a name="[181]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_flash.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[16d]">>></a> flash_state_update
|
</UL>
|
|
<P><STRONG><a name="[182]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_flash.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[16d]">>></a> flash_state_update
|
</UL>
|
|
<P><STRONG><a name="[185]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_gpio.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8e]">>></a> gpio_enable_irq
|
</UL>
|
|
<P><STRONG><a name="[186]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_gpio.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8e]">>></a> gpio_enable_irq
|
</UL>
|
|
<P><STRONG><a name="[184]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_gpio.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[8e]">>></a> gpio_enable_irq
|
</UL>
|
|
<P><STRONG><a name="[1ce]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_misc.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[14f]">>></a> sys_tick_start
|
</UL>
|
|
<P><STRONG><a name="[1cf]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_misc.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[13f]">>></a> sys_tick_us
|
</UL>
|
|
<P><STRONG><a name="[1d0]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_misc.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[13f]">>></a> sys_tick_us
|
</UL>
|
|
<P><STRONG><a name="[1b2]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_power.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b4]">>></a> power_mode_request
|
<LI><a href="#[1b1]">>></a> power_mode_clear
|
</UL>
|
|
<P><STRONG><a name="[1b3]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_power.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1b4]">>></a> power_mode_request
|
<LI><a href="#[1b1]">>></a> power_mode_clear
|
</UL>
|
|
<P><STRONG><a name="[1bf]"></a>is_leap_year</STRONG> (Thumb, 112 bytes, Stack size 16 bytes, mk_rtc.o(.text.is_leap_year))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = is_leap_year
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[eb]">>></a> rtc_second_to_time
|
<LI><a href="#[1be]">>></a> rtc_month_days
|
</UL>
|
|
<P><STRONG><a name="[1be]"></a>rtc_month_days</STRONG> (Thumb, 84 bytes, Stack size 32 bytes, mk_rtc.o(.text.rtc_month_days))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = rtc_month_days ⇒ is_leap_year
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1bf]">>></a> is_leap_year
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[eb]">>></a> rtc_second_to_time
|
</UL>
|
|
<P><STRONG><a name="[eb]"></a>rtc_second_to_time</STRONG> (Thumb, 316 bytes, Stack size 72 bytes, mk_rtc.o(.text.rtc_second_to_time))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = rtc_second_to_time ⇒ rtc_month_days ⇒ is_leap_year
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1be]">>></a> rtc_month_days
|
<LI><a href="#[1bf]">>></a> is_leap_year
|
<LI><a href="#[96]">>></a> __aeabi_idiv
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[15]">>></a> RTC_TICK_IRQHandler
|
<LI><a href="#[14]">>></a> RTC_ALARM_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[1c3]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_sleep_timer.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a4]">>></a> sleep_timer_open
|
</UL>
|
|
<P><STRONG><a name="[1c4]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_sleep_timer.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a4]">>></a> sleep_timer_open
|
</UL>
|
|
<P><STRONG><a name="[1c2]"></a>__NVIC_SetPriority</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, mk_sleep_timer.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a4]">>></a> sleep_timer_open
|
</UL>
|
|
<P><STRONG><a name="[138]"></a>_PrintInt</STRONG> (Thumb, 482 bytes, Stack size 80 bytes, mk_trace.o(.text._PrintInt))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 172<LI>Call Chain = _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[139]">>></a> _StoreChar
|
<LI><a href="#[13a]">>></a> _PrintUnsigned
|
<LI><a href="#[96]">>></a> __aeabi_idiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
</UL>
|
|
<P><STRONG><a name="[13a]"></a>_PrintUnsigned</STRONG> (Thumb, 456 bytes, Stack size 80 bytes, mk_trace.o(.text._PrintUnsigned))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 92<LI>Call Chain = _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[139]">>></a> _StoreChar
|
<LI><a href="#[99]">>></a> __aeabi_uidiv
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[138]">>></a> _PrintInt
|
</UL>
|
|
<P><STRONG><a name="[139]"></a>_StoreChar</STRONG> (Thumb, 62 bytes, Stack size 12 bytes, mk_trace.o(.text._StoreChar))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = _StoreChar
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a7]">>></a> trace_format
|
<LI><a href="#[13a]">>></a> _PrintUnsigned
|
<LI><a href="#[138]">>></a> _PrintInt
|
</UL>
|
|
<P><STRONG><a name="[13b]"></a>_trace_assert_dump</STRONG> (Thumb, 832 bytes, Stack size 296 bytes, mk_trace.o(.text._trace_assert_dump))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 692<LI>Call Chain = _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[13f]">>></a> sys_tick_us
|
<LI><a href="#[13c]">>></a> trace_flush
|
<LI><a href="#[140]">>></a> mk_snprintf
|
<LI><a href="#[141]">>></a> trace_print_backtrace
|
<LI><a href="#[13d]">>></a> trace_output_blocking
|
<LI><a href="#[13e]">>></a> strlen
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[1d2]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_trace.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[13c]">>></a> trace_flush
|
<LI><a href="#[38]">>></a> trace_sending_continue
|
<LI><a href="#[1da]">>></a> trace_sending
|
</UL>
|
|
<P><STRONG><a name="[1d6]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_trace.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[13c]">>></a> trace_flush
|
<LI><a href="#[38]">>></a> trace_sending_continue
|
<LI><a href="#[1da]">>></a> trace_sending
|
</UL>
|
|
<P><STRONG><a name="[1db]"></a>trace_address_executable</STRONG> (Thumb, 92 bytes, Stack size 8 bytes, mk_trace.o(.text.trace_address_executable))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = trace_address_executable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[141]">>></a> trace_print_backtrace
|
</UL>
|
|
<P><STRONG><a name="[1d3]"></a>trace_crash_dump_callback</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, mk_trace.o(.text.trace_crash_dump_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = trace_crash_dump_callback
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[9e]">>></a> trace_exception_handler
|
</UL>
|
|
<P><STRONG><a name="[13d]"></a>trace_output_blocking</STRONG> (Thumb, 128 bytes, Stack size 20 bytes, mk_trace.o(.text.trace_output_blocking))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = trace_output_blocking
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[13c]">>></a> trace_flush
|
<LI><a href="#[9e]">>></a> trace_exception_handler
|
<LI><a href="#[1d4]">>></a> trace_end
|
<LI><a href="#[141]">>></a> trace_print_backtrace
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[141]"></a>trace_print_backtrace</STRONG> (Thumb, 200 bytes, Stack size 80 bytes, mk_trace.o(.text.trace_print_backtrace))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 396<LI>Call Chain = trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[140]">>></a> mk_snprintf
|
<LI><a href="#[13d]">>></a> trace_output_blocking
|
<LI><a href="#[1db]">>></a> trace_address_executable
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9e]">>></a> trace_exception_handler
|
<LI><a href="#[13b]">>></a> _trace_assert_dump
|
</UL>
|
|
<P><STRONG><a name="[1da]"></a>trace_sending</STRONG> (Thumb, 240 bytes, Stack size 24 bytes, mk_trace.o(.text.trace_sending))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 924<LI>Call Chain = trace_sending ⇒ uart_send ⇒ dma_transfer ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1dc]">>></a> uart_send
|
<LI><a href="#[1d6]">>></a> int_unlock
|
<LI><a href="#[1d2]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d9]">>></a> trace_output
|
<LI><a href="#[38]">>></a> trace_sending_continue
|
</UL>
|
|
<P><STRONG><a name="[38]"></a>trace_sending_continue</STRONG> (Thumb, 132 bytes, Stack size 24 bytes, mk_trace.o(.text.trace_sending_continue))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = trace_sending_continue ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1da]">>></a> trace_sending
|
<LI><a href="#[1d6]">>></a> int_unlock
|
<LI><a href="#[1d2]">>></a> int_lock
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> mk_trace.o(.text.trace_sending)
|
</UL>
|
<P><STRONG><a name="[1e0]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_uart.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[1d8]">>></a> uart_open
|
</UL>
|
|
<P><STRONG><a name="[1e1]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_uart.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d8]">>></a> uart_open
|
</UL>
|
|
<P><STRONG><a name="[1df]"></a>__NVIC_SetPriority</STRONG> (Thumb, 116 bytes, Stack size 24 bytes, mk_uart.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d8]">>></a> uart_open
|
</UL>
|
|
<P><STRONG><a name="[1e3]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_uart.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1e2]">>></a> uart_state_set
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
</UL>
|
|
<P><STRONG><a name="[1e4]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_uart.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1e2]">>></a> uart_state_set
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
</UL>
|
|
<P><STRONG><a name="[39]"></a>uart_dma_callback</STRONG> (Thumb, 540 bytes, Stack size 40 bytes, mk_uart.o(.text.uart_dma_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 796<LI>Call Chain = uart_dma_callback ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[1de]">>></a> uart_state_clear
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> mk_uart.o(.text.uart_send)
|
</UL>
|
<P><STRONG><a name="[1de]"></a>uart_state_clear</STRONG> (Thumb, 80 bytes, Stack size 24 bytes, mk_uart.o(.text.uart_state_clear))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = uart_state_clear ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1e4]">>></a> int_unlock
|
<LI><a href="#[1e3]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[12d]">>></a> uart_irq_handler
|
<LI><a href="#[39]">>></a> uart_dma_callback
|
<LI><a href="#[1dc]">>></a> uart_send
|
</UL>
|
|
<P><STRONG><a name="[1e2]"></a>uart_state_set</STRONG> (Thumb, 196 bytes, Stack size 32 bytes, mk_uart.o(.text.uart_state_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = uart_state_set ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1e4]">>></a> int_unlock
|
<LI><a href="#[1e3]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[92]">>></a> uart_receive
|
<LI><a href="#[1dc]">>></a> uart_send
|
</UL>
|
|
<P><STRONG><a name="[1f5]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_uwb.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9b]">>></a> uwb_rx_force_off
|
<LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
|
<P><STRONG><a name="[1f6]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_uwb.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[9b]">>></a> uwb_rx_force_off
|
<LI><a href="#[e3]">>></a> uwb_rx
|
</UL>
|
|
<P><STRONG><a name="[1ee]"></a>uwb_rx_init</STRONG> (Thumb, 152 bytes, Stack size 24 bytes, mk_uwb.o(.text.uwb_rx_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = uwb_rx_init ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[a1]">>></a> delay_us
|
<LI><a href="#[7c]">>></a> trace_printf
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[1ed]"></a>uwb_tx_init</STRONG> (Thumb, 144 bytes, Stack size 24 bytes, mk_uwb.o(.text.uwb_tx_init))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1356<LI>Call Chain = uwb_tx_init ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1f8]">>></a> uwb_tx_power_set
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[135]">>></a> uwb_configure
|
</UL>
|
|
<P><STRONG><a name="[1fa]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 32 bytes, Stack size 4 bytes, mk_wdt.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a0]">>></a> wdt_close
|
</UL>
|
|
<P><STRONG><a name="[1f9]"></a>__NVIC_DisableIRQ</STRONG> (Thumb, 44 bytes, Stack size 4 bytes, mk_wdt.o(.text.__NVIC_DisableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_DisableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1a0]">>></a> wdt_close
|
</UL>
|
|
<P><STRONG><a name="[1c9]"></a>__NVIC_ClearPendingIRQ</STRONG> (Thumb, 36 bytes, Stack size 4 bytes, mk_spi.o(.text.__NVIC_ClearPendingIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_ClearPendingIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[1ca]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 36 bytes, Stack size 4 bytes, mk_spi.o(.text.__NVIC_EnableIRQ))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[1c8]"></a>__NVIC_SetPriority</STRONG> (Thumb, 120 bytes, Stack size 24 bytes, mk_spi.o(.text.__NVIC_SetPriority))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = __NVIC_SetPriority
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1c6]">>></a> spi_open
|
</UL>
|
|
<P><STRONG><a name="[1cb]"></a>int_lock</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, mk_spi.o(.text.int_lock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1cd]">>></a> spi_state_set
|
<LI><a href="#[1c5]">>></a> spi_state_clear
|
</UL>
|
|
<P><STRONG><a name="[1cc]"></a>int_unlock</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, mk_spi.o(.text.int_unlock))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = int_unlock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1cd]">>></a> spi_state_set
|
<LI><a href="#[1c5]">>></a> spi_state_clear
|
</UL>
|
|
<P><STRONG><a name="[36]"></a>spi_dma_callback</STRONG> (Thumb, 460 bytes, Stack size 32 bytes, mk_spi.o(.text.spi_dma_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 788<LI>Call Chain = spi_dma_callback ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[1c5]">>></a> spi_state_clear
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> mk_spi.o(.text.spi_transfer)
|
</UL>
|
<P><STRONG><a name="[1c7]"></a>spi_get_frame_size</STRONG> (Thumb, 60 bytes, Stack size 12 bytes, mk_spi.o(.text.spi_get_frame_size))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = spi_get_frame_size
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[12b]">>></a> spi_transfer
|
<LI><a href="#[115]">>></a> spi_irq_handler
|
</UL>
|
|
<P><STRONG><a name="[115]"></a>spi_irq_handler</STRONG> (Thumb, 840 bytes, Stack size 104 bytes, mk_spi.o(.text.spi_irq_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1436<LI>Call Chain = spi_irq_handler ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7c]">>></a> trace_printf
|
<LI><a href="#[1c5]">>></a> spi_state_clear
|
<LI><a href="#[1c7]">>></a> spi_get_frame_size
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1d]">>></a> SPI1_IRQHandler
|
<LI><a href="#[1c]">>></a> SPI0_IRQHandler
|
</UL>
|
|
<P><STRONG><a name="[1c5]"></a>spi_state_clear</STRONG> (Thumb, 72 bytes, Stack size 24 bytes, mk_spi.o(.text.spi_state_clear))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = spi_state_clear ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1cc]">>></a> int_unlock
|
<LI><a href="#[1cb]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[12b]">>></a> spi_transfer
|
<LI><a href="#[115]">>></a> spi_irq_handler
|
<LI><a href="#[36]">>></a> spi_dma_callback
|
</UL>
|
|
<P><STRONG><a name="[1cd]"></a>spi_state_set</STRONG> (Thumb, 188 bytes, Stack size 32 bytes, mk_spi.o(.text.spi_state_set))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = spi_state_set ⇒ int_lock
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1cc]">>></a> int_unlock
|
<LI><a href="#[1cb]">>></a> int_lock
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[12b]">>></a> spi_transfer
|
</UL>
|
|
<P><STRONG><a name="[33]"></a>Lora_irq_handler</STRONG> (Thumb, 14 bytes, Stack size 16 bytes, main.o(.text.Lora_irq_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 1852<LI>Call Chain = Lora_irq_handler ⇒ RadioIrqProcess ⇒ SX126xGetPayload ⇒ SX126xGetRxBufferStatus ⇒ SX126xReadRegister ⇒ SX126xReadRegisters ⇒ SX126xCheckDeviceReady ⇒ SX126xWakeup ⇒ SpiInOut ⇒ spi_transfer ⇒ trace_printf ⇒ trace_output ⇒ trace_printf (Cycle)
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[53]">>></a> RadioIrqProcess
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> main.o(.text.main)
|
</UL>
|
<P><STRONG><a name="[34]"></a>pca_handler</STRONG> (Thumb, 28 bytes, Stack size 16 bytes, main.o(.text.pca_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 252<LI>Call Chain = pca_handler ⇒ check_input_change ⇒ move_handler ⇒ PCA9555_Set_One_Value_Output ⇒ PCA9555_write_output_port_data ⇒ IIC_Write_Pca9555 ⇒ IIC2_Wait_pca_Ack ⇒ gpio_pin_set_dir ⇒ gpio_pin_set
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[156]">>></a> check_input_change
|
<LI><a href="#[e8]">>></a> PCA9555_readdata
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> main.o(.text.main)
|
</UL>
|
<P><STRONG><a name="[35]"></a>sleep_timer_callback</STRONG> (Thumb, 140 bytes, Stack size 16 bytes, main.o(.text.sleep_timer_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = sleep_timer_callback
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1c1]">>></a> HIDO_TimerTick
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> main.o(.text.main)
|
</UL>
|
<P><STRONG><a name="[1bb]"></a>ranging_rx_time_correct</STRONG> (Thumb, 52 bytes, Stack size 24 bytes, uwb_app.o(.text.ranging_rx_time_correct))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 2036<LI>Call Chain = ranging_rx_time_correct ⇒ ranging_rx_time ⇒ sts_first_path_detect ⇒ MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b9]">>></a> ranging_rx_time
|
<LI><a href="#[1bc]">>></a> ranging_ant_delays_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[2f]">>></a> rx_int_callback
|
</UL>
|
|
<P><STRONG><a name="[88]"></a>ranging_tx_time_correct</STRONG> (Thumb, 56 bytes, Stack size 24 bytes, uwb_app.o(.text.ranging_tx_time_correct))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = ranging_tx_time_correct
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1bd]">>></a> ranging_tx_time
|
<LI><a href="#[1bc]">>></a> ranging_ant_delays_get
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
</UL>
|
|
<P><STRONG><a name="[89]"></a>resp_msg_set_ts</STRONG> (Thumb, 60 bytes, Stack size 32 bytes, uwb_app.o(.text.resp_msg_set_ts))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = resp_msg_set_ts
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[83]">>></a> Anchor_RecNearPoll
|
</UL>
|
|
<P><STRONG><a name="[2f]"></a>rx_int_callback</STRONG> (Thumb, 248 bytes, Stack size 40 bytes, uwb_app.o(.text.rx_int_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 2076<LI>Call Chain = rx_int_callback ⇒ ranging_rx_time_correct ⇒ ranging_rx_time ⇒ sts_first_path_detect ⇒ MK8000_sts_first_patch_detect ⇒ MK8000_sts_FAP_detect ⇒ MK8000_fap_adjust_FLT ⇒ lsp_scale_f32 ⇒ lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b5]">>></a> power_off_radio
|
<LI><a href="#[86]">>></a> phy_timer_count_get
|
<LI><a href="#[85]">>></a> OpenUWB
|
<LI><a href="#[87]">>></a> phy_shr_duration
|
<LI><a href="#[80]">>></a> Anchor_App
|
<LI><a href="#[1bb]">>></a> ranging_rx_time_correct
|
<LI><a href="#[81]">>></a> __aeabi_memcpy
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> uwb_app.o(.text.Uwbinit)
|
</UL>
|
<P><STRONG><a name="[2e]"></a>tx_int_callback</STRONG> (Thumb, 80 bytes, Stack size 16 bytes, uwb_app.o(.text.tx_int_callback))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 940<LI>Call Chain = tx_int_callback ⇒ OpenUWB ⇒ uwb_rx ⇒ mac_rx ⇒ mac_link_desc_construct ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[1b5]">>></a> power_off_radio
|
<LI><a href="#[86]">>></a> phy_timer_count_get
|
<LI><a href="#[85]">>></a> OpenUWB
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> uwb_app.o(.text.Uwbinit)
|
</UL>
|
<P><STRONG><a name="[103]"></a>RadioGetFskBandwidthRegValue</STRONG> (Thumb, 124 bytes, Stack size 12 bytes, radio.o(.text.RadioGetFskBandwidthRegValue))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = RadioGetFskBandwidthRegValue
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[42]">>></a> RadioSetTxConfig
|
<LI><a href="#[41]">>></a> RadioSetRxConfig
|
</UL>
|
|
<P><STRONG><a name="[188]"></a>lsp_g_op_f32</STRONG> (Thumb, 192 bytes, Stack size 64 bytes, mk_lsp.o(.text.lsp_g_op_f32))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 836<LI>Call Chain = lsp_g_op_f32 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[18a]">>></a> lsp_engine_run
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[d1]">>></a> lsp_cmplx_inner_product_f32
|
<LI><a href="#[d6]">>></a> lsp_scale_f32
|
<LI><a href="#[d7]">>></a> lsp_inner_product_f32
|
<LI><a href="#[d5]">>></a> lsp_vinverse_f32
|
</UL>
|
|
<P><STRONG><a name="[18a]"></a>lsp_engine_run</STRONG> (Thumb, 204 bytes, Stack size 16 bytes, mk_lsp.o(.text.lsp_engine_run))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 772<LI>Call Chain = lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[18b]">>></a> lsp_g_op_int16
|
<LI><a href="#[189]">>></a> lsp_g_op_int8
|
<LI><a href="#[188]">>></a> lsp_g_op_f32
|
</UL>
|
|
<P><STRONG><a name="[189]"></a>lsp_g_op_int8</STRONG> (Thumb, 224 bytes, Stack size 72 bytes, mk_lsp.o(.text.lsp_g_op_int8))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 844<LI>Call Chain = lsp_g_op_int8 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[18a]">>></a> lsp_engine_run
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[db]">>></a> lsp_cmplx_mult_cmplx_int8
|
</UL>
|
|
<P><STRONG><a name="[18b]"></a>lsp_g_op_int16</STRONG> (Thumb, 220 bytes, Stack size 72 bytes, mk_lsp.o(.text.lsp_g_op_int16))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 844<LI>Call Chain = lsp_g_op_int16 ⇒ lsp_engine_run ⇒ trace_assert_dump ⇒ _trace_assert_dump ⇒ trace_print_backtrace ⇒ mk_snprintf ⇒ trace_format ⇒ _PrintInt ⇒ _PrintUnsigned ⇒ _StoreChar
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[7b]">>></a> trace_assert_dump
|
<LI><a href="#[18a]">>></a> lsp_engine_run
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[dc]">>></a> lsp_inner_product_int16
|
</UL>
|
|
<P><STRONG><a name="[32]"></a>mac_op_timeout_handler</STRONG> (Thumb, 108 bytes, Stack size 16 bytes, mk_mac.o(.text.mac_op_timeout_handler))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = mac_op_timeout_handler ⇒ mac_timer_start ⇒ dual_timer_start
|
</UL>
|
<BR>[Calls]<UL><LI><a href="#[c7]">>></a> mac_timer_stop
|
<LI><a href="#[194]">>></a> mac_timer_start
|
<LI><a href="#[86]">>></a> phy_timer_count_get
|
</UL>
|
<BR>[Address Reference Count : 1]<UL><LI> mk_mac.o(.text.mac_init)
|
</UL>
|
<P><STRONG><a name="[1ae]"></a>phy_sts_related_params_update</STRONG> (Thumb, 176 bytes, Stack size 8 bytes, mk_phy.o(.text.phy_sts_related_params_update))
|
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = phy_sts_related_params_update
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1ab]">>></a> phy_params_generate
|
</UL>
|
|
<P><STRONG><a name="[204]"></a>_fp_digits</STRONG> (Thumb, 344 bytes, Stack size 64 bytes, printfa.o(i._fp_digits), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[6a]">>></a> __aeabi_dmul
|
<LI><a href="#[63]">>></a> __aeabi_dadd
|
<LI><a href="#[6b]">>></a> __aeabi_ddiv
|
<LI><a href="#[205]">>></a> __aeabi_cdrcmple
|
<LI><a href="#[74]">>></a> __aeabi_uldivmod
|
<LI><a href="#[78]">>></a> __aeabi_d2ulz
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1fc]">>></a> _printf_core
|
</UL>
|
|
<P><STRONG><a name="[1fc]"></a>_printf_core</STRONG> (Thumb, 1754 bytes, Stack size 128 bytes, printfa.o(i._printf_core), UNUSED)
|
<BR><BR>[Calls]<UL><LI><a href="#[206]">>></a> _printf_pre_padding
|
<LI><a href="#[207]">>></a> _printf_post_padding
|
<LI><a href="#[204]">>></a> _fp_digits
|
<LI><a href="#[59]">>></a> __aeabi_uidivmod
|
<LI><a href="#[74]">>></a> __aeabi_uldivmod
|
</UL>
|
<BR>[Called By]<UL><LI><a href="#[1fb]">>></a> __0printf
|
</UL>
|
|
<P><STRONG><a name="[207]"></a>_printf_post_padding</STRONG> (Thumb, 32 bytes, Stack size 24 bytes, printfa.o(i._printf_post_padding), UNUSED)
|
<BR><BR>[Called By]<UL><LI><a href="#[1fc]">>></a> _printf_core
|
</UL>
|
|
<P><STRONG><a name="[206]"></a>_printf_pre_padding</STRONG> (Thumb, 44 bytes, Stack size 40 bytes, printfa.o(i._printf_pre_padding), UNUSED)
|
<BR><BR>[Called By]<UL><LI><a href="#[1fc]">>></a> _printf_core
|
</UL>
|
<P>
|
<H3>
|
Undefined Global Symbols
|
</H3><HR></body></html>
|
