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view libs/STM32F10x_StdPeriph_Lib_V3.5.0/Project/STM32F10x_StdPeriph_Examples/FLASH/Dual_Boot/HiTOP/STM3210X-XL_BANK1/Settings/STM32F10x_XL_Bank1.lsl @ 85:18b154c447bb
Add note about 1-wire wiring
| author | Daniel O'Connor <darius@dons.net.au> |
|---|---|
| date | Thu, 12 Mar 2015 23:22:11 +1030 |
| parents | c59513fd84fb |
| children |
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//////////////////////////////////////////////////////////////////////////// // // File : stm32f103_cmsis.lsl // // Version : @(#)stm32f103_cmsis.lsl 1.2 09/06/04 // // Description : LSL file for the STMicroelectronics STM32F103, CMSIS version // // Copyright 2009 Altium BV // // NOTE: // This file is derived from cm3.lsl and stm32f103.lsl. // It is assumed that the user works with the ARMv7M architecture. // Other architectures will not work with this lsl file. // //////////////////////////////////////////////////////////////////////////// // // We do not want the vectors as defined in arm_arch.lsl // #define __NO_DEFAULT_AUTO_VECTORS 1 #define __NR_OF_VECTORS 76 #ifndef __STACK # define __STACK 2k #endif #ifndef __HEAP # define __HEAP 2k #endif #ifndef __VECTOR_TABLE_ROM_ADDR # define __VECTOR_TABLE_ROM_ADDR 0x08000000 #endif #ifndef __XVWBUF #define __XVWBUF 256 /* buffer used by CrossView */ #endif #include <arm_arch.lsl> //////////////////////////////////////////////////////////////////////////// // // In the STM32F10x, 3 different boot modes can be selected // - User Flash memory is selected as boot space // - SystemMemory is selected as boot space // - Embedded SRAM is selected as boot space // // This aliases the physical memory associated with each boot mode to Block // 000 (0x00000000 boot memory). Even when aliased in the boot memory space, // the related memory (Flash memory or SRAM) is still accessible at its // original memory space. // // If no memory is defined yet use the following memory settings // #ifndef __MEMORY memory stm32f103flash { mau = 8; type = rom; size = 512k; map ( size = 512k, dest_offset=0x08000000, dest=bus:ARM:local_bus); } memory stm32f103ram { mau = 8; type = ram; size = 96k; map ( size = 96k, dest_offset=0x20000000, dest=bus:ARM:local_bus); } #endif /* __MEMORY */ section_layout ::linear { group( contiguous ) { select ".bss.stack"; select "stack"; } } // // Custom vector table defines interrupts according to CMSIS standard // # if defined(__CPU_ARMV7M__) section_setup ::linear { // vector table with handler addresses vector_table "vector_table" ( vector_size = 4, size = __NR_OF_VECTORS, run_addr = __VECTOR_TABLE_ROM_ADDR, template = ".text.handler_address", template_symbol = "_lc_vector_handler", vector_prefix = "_vector_", fill = loop, no_inline ) { vector ( id = 0, fill = "_stacklabel" ); // FIXME: "_lc_ub_stack" does not work vector ( id = 1, fill = "_START" ); vector ( id = 2, optional, fill = "NMI_Handler" ); vector ( id = 3, optional, fill = "HardFault_Handler" ); vector ( id = 4, optional, fill = "MemManage_Handler" ); vector ( id = 5, optional, fill = "BusFault_Handler" ); vector ( id = 6, optional, fill = "UsageFault_Handler" ); vector ( id = 11, optional, fill = "SVC_Handler" ); vector ( id = 12, optional, fill = "DebugMon_Handler" ); vector ( id = 14, optional, fill = "PendSV_Handler" ); vector ( id = 15, optional, fill = "SysTick_Handler" ); // External Interrupts : vector ( id = 16, optional, fill = "WWDG_IRQHandler" ); // Window Watchdog vector ( id = 17, optional, fill = "PVD_IRQHandler" ); // PVD through EXTI Line detect vector ( id = 18, optional, fill = "TAMPER_IRQHandler" ); // Tamper vector ( id = 19, optional, fill = "RTC_IRQHandler" ); // RTC vector ( id = 20, optional, fill = "FLASH_IRQHandler" ); // Flash vector ( id = 21, optional, fill = "RCC_IRQHandler" ); // RCC vector ( id = 22, optional, fill = "EXTI0_IRQHandler" ); // EXTI Line 0 vector ( id = 23, optional, fill = "EXTI1_IRQHandler" ); // EXTI Line 1 vector ( id = 24, optional, fill = "EXTI2_IRQHandler" ); // EXTI Line 2 vector ( id = 25, optional, fill = "EXTI3_IRQHandler" ); // EXTI Line 3 vector ( id = 26, optional, fill = "EXTI4_IRQHandler" ); // EXTI Line 4 vector ( id = 27, optional, fill = "DMA1_Channel1_IRQHandler" ); // DMA Channel 1 vector ( id = 28, optional, fill = "DMA1_Channel2_IRQHandler" ); // DMA Channel 2 vector ( id = 29, optional, fill = "DMA1_Channel3_IRQHandler" ); // DMA Channel 3 vector ( id = 30, optional, fill = "DMA1_Channel4_IRQHandler" ); // DMA Channel 4 vector ( id = 31, optional, fill = "DMA1_Channel5_IRQHandler" ); // DMA Channel 5 vector ( id = 32, optional, fill = "DMA1_Channel6_IRQHandler" ); // DMA Channel 6 vector ( id = 33, optional, fill = "DMA1_Channel7_IRQHandler" ); // DMA Channel 7 vector ( id = 34, optional, fill = "ADC1_2_IRQHandler" ); // ADC1 and ADC2 vector ( id = 35, optional, fill = "USB_HP_CAN1_TX_IRQHandler" ); // USB High Priority or CAN1 TX vector ( id = 36, optional, fill = "USB_LP_CAN1_RX0_IRQHandler" ); // USB LowPriority or CAN1 RX0 vector ( id = 37, optional, fill = "CAN1_RX1_IRQHandler" ); // CAN1 RX1 vector ( id = 38, optional, fill = "CAN1_SCE_IRQHandler" ); // CAN1 SCE vector ( id = 39, optional, fill = "EXTI9_5_IRQHandler" ); // EXTI Line 9..5 vector ( id = 40, optional, fill = "TIM1_BRK_TIM9_IRQHandler" ); // TIM1 Break vector ( id = 41, optional, fill = "TIM1_UP_TIM10_IRQHandler" ); // TIM1 Update vector ( id = 42, optional, fill = "TIM1_TRG_COM_TIM11_IRQHandler" ); // TIM1 Trigger and Commutation vector ( id = 43, optional, fill = "TIM1_CC_IRQHandler" ); // TIM1 Capture Compare vector ( id = 44, optional, fill = "TIM2_IRQHandler" ); // TIM2 vector ( id = 45, optional, fill = "TIM3_IRQHandler" ); // TIM3 vector ( id = 46, optional, fill = "TIM4_IRQHandler" ); // TIM4 vector ( id = 47, optional, fill = "I2C1_EV_IRQHandler" ); // I2C1 Event vector ( id = 48, optional, fill = "I2C1_ER_IRQHandler" ); // I2C1 Error vector ( id = 49, optional, fill = "I2C2_EV_IRQHandler" ); // I2C2 Event vector ( id = 50, optional, fill = "I2C2_ER_IRQHandler" ); // I2C2 Error vector ( id = 51, optional, fill = "SPI1_IRQHandler" ); // SPI1 vector ( id = 52, optional, fill = "SPI2_IRQHandler" ); // SPI2 vector ( id = 53, optional, fill = "USART1_IRQHandler" ); // USART1 vector ( id = 54, optional, fill = "USART2_IRQHandler" ); // USART2 vector ( id = 55, optional, fill = "USART3_IRQHandler" ); // USART3 vector ( id = 56, optional, fill = "EXTI15_10_IRQHandler" ); // EXTI Line 15..10 vector ( id = 57, optional, fill = "RTCAlarm_IRQHandler" ); // RTC Alarm through EXTI Line vector ( id = 58, optional, fill = "USBWakeUp_IRQHandler" ); // USB Wakeup from suspend vector ( id = 59, optional, fill = "TIM8_BRK_TIM12_IRQHandler" ); // TIM8 Break vector ( id = 60, optional, fill = "TIM8_UP_TIM13_IRQHandler" ); // TIM8 Update vector ( id = 61, optional, fill = "TIM8_TRG_COM_TIM14_IRQHandler" ); // TIM8 Trigger and Commutation vector ( id = 62, optional, fill = "TIM8_CC_IRQHandler" ); // TIM8 Capture Compare vector ( id = 63, optional, fill = "ADC3_IRQHandler" ); // ADC3 vector ( id = 64, optional, fill = "FSMC_IRQHandler" ); // FSMC vector ( id = 65, optional, fill = "SDIO_IRQHandler" ); // SDIO vector ( id = 66, optional, fill = "TIM5_IRQHandler" ); // TIM5 vector ( id = 67, optional, fill = "SPI3_IRQHandler" ); // SPI3 vector ( id = 68, optional, fill = "UART4_IRQHandler" ); // UART4 vector ( id = 69, optional, fill = "UART5_IRQHandler" ); // UART5 vector ( id = 70, optional, fill = "TIM6_IRQHandler" ); // TIM6 vector ( id = 71, optional, fill = "TIM7_IRQHandler" ); // TIM7 vector ( id = 72, optional, fill = "DMA2_Channel1_IRQHandler" ); // DMA2 Channel1 vector ( id = 73, optional, fill = "DMA2_Channel2_IRQHandler" ); // DMA2 Channel2 vector ( id = 74, optional, fill = "DMA2_Channel3_IRQHandler" ); // DMA2 Channel3 vector ( id = 75, optional, fill = "DMA2_Channel4_5_IRQHandler" ); // DMA2 Channel4 and DMA2 Channel5 } } # endif