From: gaurav-aws Date: Tue, 2 Jul 2019 18:47:36 +0000 (+0000) Subject: Use ARMCM33_DSP_FP_TZ_config.txt which comes with the MDS installation X-Git-Tag: V10.3.0~152 X-Git-Url: https://git.sur5r.net/?a=commitdiff_plain;h=c55ca7f81cfc9d4cb618608899a5e111b543ff0c;p=freertos Use ARMCM33_DSP_FP_TZ_config.txt which comes with the MDS installation We had a copy of ARMCM33_DSP_FP_TZ_config.txt file within the project directory and it used to get outdated with each release of MDK because of non-backward compatible changes in MDK. This change removes the copy in the project and instead uses the one shipped with the MDK installation. git-svn-id: https://svn.code.sf.net/p/freertos/code/trunk@2669 1d2547de-c912-0410-9cb9-b8ca96c0e9e2 --- diff --git a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/ARMCM33_DSP_FP_TZ_config.txt b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/ARMCM33_DSP_FP_TZ_config.txt deleted file mode 100644 index 9bff8eef5..000000000 --- a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/ARMCM33_DSP_FP_TZ_config.txt +++ /dev/null @@ -1,177 +0,0 @@ -# Parameters: -# instance.parameter=value #(type, mode) default = 'def value' : description : [min..max] -#---------------------------------------------------------------------------------------------- -cpu0.FPU=1 # (bool , init-time) default = '1' : Set whether the model has VFP support -cpu0.DSP=1 # (bool , init-time) default = '1' : Set whether the model has the DSP extension -cpu0.semihosting-enable=0 # (bool , init-time) default = '1' : Enable semihosting SVC traps. Applications that do not use semihosting must set this parameter to false. -cpu0.MPU_S=0x8 # (int , init-time) default = '0x8' : Number of regions in the Secure MPU. If Security Extentions are absent, this is ignored : [0x0..0x10] -cpu0.MPU_NS=0x8 # (int , init-time) default = '0x8' : Number of regions in the Non-Secure MPU. If Security Extentions are absent, this is the total number of MPU regions : [0x0..0x10] -cpu0.ITM=0 # (bool , init-time) default = '1' : Level of instrumentation trace supported. false : No ITM trace included, true: ITM trace included -cpu0.IRQLVL=0x3 # (int , init-time) default = '0x3' : Number of bits of interrupt priority : [0x3..0x8] -cpu0.BIGENDINIT=0 # (bool , init-time) default = '0' : Initialize processor to big endian mode -cpu0.INITSVTOR=0x00000000 # (int , init-time) default = '0x10000000' : Secure vector-table offset at reset : [0x0..0xFFFFFF80] -cpu0.INITNSVTOR=0x0 # (int , init-time) default = '0x0' : Non-Secure vector-table offset at reset : [0x0..0xFFFFFF80] -cpu0.SAU=0x8 # (int , init-time) default = '0x4' : Number of SAU regions (0 => no SAU) : [0x0..0x8] -cpu0.SAU_CTRL.ENABLE=0 # (bool , init-time) default = '0' : Enable SAU at reset -cpu0.SAU_CTRL.ALLNS=0 # (bool , init-time) default = '0' : At reset, the SAU treats entire memory space as NS when the SAU is disabled if this is set -idau.NUM_IDAU_REGION=0x0 # (int , init-time) default = '0xA' : -cpu0.LOCK_SAU=0 # (bool , init-time) default = '0' : Lock down of SAU registers write -cpu0.LOCK_S_MPU=0 # (bool , init-time) default = '0' : Lock down of Secure MPU registers write -cpu0.LOCK_NS_MPU=0 # (bool , init-time) default = '0' : Lock down of Non-Secure MPU registers write -cpu0.CPIF=1 # (bool , init-time) default = '1' : Specifies whether the external coprocessor interface is included -cpu0.SECEXT=1 # (bool , init-time) default = '1' : Whether the ARMv8-M Security Extensions are included -fvp_mps2.DISABLE_GATING=1 # (bool , init-time) default = '0' : Disable Memory gating logic -fvp_mps2.SCC_ID.Variant=0x0 # (int , init-time) default = '0x0' : SCC_ID[23:20], X in the FGPA version 'rXpY' : [0x0..0xF] -fvp_mps2.SCC_ID.Revision=0x1 # (int , init-time) default = '0x1' : SCC_ID[3:0], Y in the FGPA version 'rXpY' : [0x0..0xF] -fvp_mps2.platform_type=0x0 # (int , init-time) default = '0x0' : 0:MPS2 ; 1:IoT Kit ; 2:Castor : [0x0..0x2] -fvp_mps2.extra_psram=0 # (bool , init-time) default = '0' : Increases PSRAM to 32Mb -fvp_mps2.UART2.out_file="" # (string, init-time) default = '' : Output file to hold data written by the UART (use '-' to send all output to stdout) -fvp_mps2.UART2.in_file="" # (string, init-time) default = '' : Input file for data to be read by the UART -fvp_mps2.UART2.unbuffered_output=0 # (bool , init-time) default = '0' : Unbuffered output -fvp_mps2.UART2.in_file_escape_sequence="##" # (string, init-time) default = '##' : Input file escape sequence -fvp_mps2.UART2.shutdown_on_eot=0 # (bool , init-time) default = '0' : Shutdown simulation when a EOT (ASCII 4) char is transmitted (useful for regression tests when semihosting is not available) -fvp_mps2.UART2.shutdown_tag="" # (string, run-time ) default = '' : Shutdown simulation when a string is transmitted -fvp_mps2.UART1.out_file="" # (string, init-time) default = '' : Output file to hold data written by the UART (use '-' to send all output to stdout) -fvp_mps2.UART1.in_file="" # (string, init-time) default = '' : Input file for data to be read by the UART -fvp_mps2.UART1.unbuffered_output=0 # (bool , init-time) default = '0' : Unbuffered output -fvp_mps2.UART1.in_file_escape_sequence="##" # (string, init-time) default = '##' : Input file escape sequence -fvp_mps2.UART1.shutdown_on_eot=0 # (bool , init-time) default = '0' : Shutdown simulation when a EOT (ASCII 4) char is transmitted (useful for regression tests when semihosting is not available) -fvp_mps2.UART1.shutdown_tag="" # (string, run-time ) default = '' : Shutdown simulation when a string is transmitted -fvp_mps2.mps2_visualisation.rate_limit-enable=1 # (bool , init-time) default = '1' : Rate limit simulation. -fvp_mps2.mps2_visualisation.disable-visualisation=0 # (bool , init-time) default = '0' : Enable/disable visualisation -fvp_mps2.mps2_visualisation.window_title="CLCD %cpu%" # (string, init-time) default = 'CLCD %cpu%' : Window title (%cpu% is replaced by cpu_name) -fvp_mps2.mps2_visualisation.idler.delay_ms=0x32 # (int , init-time) default = '0x32' : Determines the period, in milliseconds of real time, between gui_callback() calls. -fvp_mps2.telnetterminal0.mode="telnet" # (string, init-time) default = 'telnet' : Terminal initialisation mode -fvp_mps2.telnetterminal0.start_telnet=1 # (bool , init-time) default = '1' : Start telnet if nothing connected -fvp_mps2.telnetterminal0.start_port=0x1388 # (int , init-time) default = '0x1388' : Telnet TCP Port Number : [0x0..0xFFFFFFFF] -fvp_mps2.telnetterminal0.quiet=0 # (bool , init-time) default = '0' : Avoid output on stdout/stderr -fvp_mps2.telnetterminal0.terminal_command="" # (string, init-time) default = '' : Commandline to launch a terminal application and connect to the opened TCP port. Keywords %port and %title will be replaced with the opened port number and component name respectively. An empty string (default behaviour) will launch xterm (Linux) or telnet.exe (Windows) -fvp_mps2.telnetterminal1.mode="telnet" # (string, init-time) default = 'telnet' : Terminal initialisation mode -fvp_mps2.telnetterminal1.start_telnet=1 # (bool , init-time) default = '1' : Start telnet if nothing connected -fvp_mps2.telnetterminal1.start_port=0x1388 # (int , init-time) default = '0x1388' : Telnet TCP Port Number : [0x0..0xFFFFFFFF] -fvp_mps2.telnetterminal1.quiet=0 # (bool , init-time) default = '0' : Avoid output on stdout/stderr -fvp_mps2.telnetterminal1.terminal_command="" # (string, init-time) default = '' : Commandline to launch a terminal application and connect to the opened TCP port. Keywords %port and %title will be replaced with the opened port number and component name respectively. An empty string (default behaviour) will launch xterm (Linux) or telnet.exe (Windows) -fvp_mps2.telnetterminal2.mode="telnet" # (string, init-time) default = 'telnet' : Terminal initialisation mode -fvp_mps2.telnetterminal2.start_telnet=1 # (bool , init-time) default = '1' : Start telnet if nothing connected -fvp_mps2.telnetterminal2.start_port=0x1388 # (int , init-time) default = '0x1388' : Telnet TCP Port Number : [0x0..0xFFFFFFFF] -fvp_mps2.telnetterminal2.quiet=0 # (bool , init-time) default = '0' : Avoid output on stdout/stderr -fvp_mps2.telnetterminal2.terminal_command="" # (string, init-time) default = '' : Commandline to launch a terminal application and connect to the opened TCP port. Keywords %port and %title will be replaced with the opened port number and component name respectively. An empty string (default behaviour) will launch xterm (Linux) or telnet.exe (Windows) -fvp_mps2.PSRAM_M7.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.PSRAM_M7.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.PSRAM_M7.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.UART0.out_file="" # (string, init-time) default = '' : Output file to hold data written by the UART (use '-' to send all output to stdout) -fvp_mps2.UART0.in_file="" # (string, init-time) default = '' : Input file for data to be read by the UART -fvp_mps2.UART0.unbuffered_output=0 # (bool , init-time) default = '0' : Unbuffered output -fvp_mps2.UART0.in_file_escape_sequence="##" # (string, init-time) default = '##' : Input file escape sequence -fvp_mps2.UART0.shutdown_on_eot=0 # (bool , init-time) default = '0' : Shutdown simulation when a EOT (ASCII 4) char is transmitted (useful for regression tests when semihosting is not available) -fvp_mps2.UART0.shutdown_tag="" # (string, run-time ) default = '' : Shutdown simulation when a string is transmitted -fvp_mps2.cmsdk_watchdog.simhalt=0 # (bool , run-time ) default = '0' : Halt on reset. -fvp_mps2.sse200.s32k_watchdog.simhalt=0 # (bool , run-time ) default = '0' : Halt on reset. -fvp_mps2.sse200.secure_watchdog.simhalt=0 # (bool , run-time ) default = '0' : Halt on reset. -fvp_mps2.sse200.nonsecure_watchdog.simhalt=0 # (bool , run-time ) default = '0' : Halt on reset. -fvp_mps2.PSRAM.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.PSRAM.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.PSRAM.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.ssram2.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.ssram2.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.ssram2.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.ssram1.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.ssram1.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.ssram1.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram0.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.sse200.iotss_internal_sram0.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram0.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram1.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.sse200.iotss_internal_sram1.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram1.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram2.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.sse200.iotss_internal_sram2.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram2.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram3.size=0x100000000 # (int , init-time) default = '0x100000000' : Memory Size -fvp_mps2.sse200.iotss_internal_sram3.fill1=0xDFDFDFCF # (int , init-time) default = '0xDFDFDFCF' : Fill pattern 1, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.iotss_internal_sram3.fill2=0xCFDFDFDF # (int , init-time) default = '0xCFDFDFDF' : Fill pattern 2, initialise memory at start of simulation with alternating fill1, fill2 pattern -fvp_mps2.sse200.sys_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.sys_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.cpu0core_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.cpu0dbg_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.cpu1core_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.cpu1core_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.cpu1dbg_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.cpu1dbg_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.crypto_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.crypto_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.cordio_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.cordio_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.dbg_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.dbg_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.ram0_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.ram0_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.ram1_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.ram1_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.ram2_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.ram2_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.sse200.ram3_ppu.use_active_signal=0 # (bool , init-time) default = '0' : Use device-active signal -fvp_mps2.sse200.ram3_ppu.revision="r0p0" # (string, init-time) default = 'r0p0' : Revision -fvp_mps2.smsc_91c111.enabled=0 # (bool , init-time) default = '0' : Host interface connection enabled -fvp_mps2.smsc_91c111.mac_address="00:02:f7:ef:5d:a2" # (string, init-time) default = '00:02:f7:ef:5d:a2' : Host/model MAC address -fvp_mps2.smsc_91c111.promiscuous=1 # (bool , init-time) default = '1' : Put host into promiscuous mode -fvp_mps2.hostbridge.interfaceName="ARM0" # (string, init-time) default = 'ARM0' : Host Interface -fvp_mps2.hostbridge.userNetworking=0 # (bool , init-time) default = '0' : Enable user-mode networking -fvp_mps2.hostbridge.userNetSubnet="172.20.51.0/24" # (string, init-time) default = '172.20.51.0/24' : Virtual subnet for user-mode networking -fvp_mps2.hostbridge.userNetPorts="" # (string, init-time) default = '' : Listening ports to expose in user-mode networking -fvp_mps2.mps2_secure_control_register_block.FLASH_BLOCK_CFG=0x3 # (int , init-time) default = '0x3' : Flash Block size configuration : [0x0..0x31] -fvp_mps2.mps2_secure_control_register_block.SRAM_BLOCK_CFG=0x3 # (int , init-time) default = '0x3' : SRAM Block size configuration : [0x0..0x31] -fvp_mps2.mps2_secure_control_register_block.FLASH_WATERMARK_SUPPORTED=1 # (bool , init-time) default = '1' : Flash Watermark supported -fvp_mps2.mps2_secure_control_register_block.SRAM_WATERMARK_SUPPORTED=1 # (bool , init-time) default = '1' : SRAM Watermark supported -fvp_mps2.exclusive_monitor_psram.enable_component=1 # (bool , init-time) default = '1' : Enable component -fvp_mps2.exclusive_monitor_psram.number_of_monitors=0x8 # (int , init-time) default = '0x8' : Number of monitors : [0x1..0xFFFFFFFF] -fvp_mps2.exclusive_monitor_psram.log2_granule_size=0x0 # (int , init-time) default = '0x0' : log2 of address granule size : [0x0..0xB] -fvp_mps2.exclusive_monitor_psram.monitor_non_excl_stores=0 # (bool , init-time) default = '0' : Monitor non-exclusive stores from the same master -fvp_mps2.exclusive_monitor_psram.match_secure_state=1 # (bool , init-time) default = '1' : Treat the secure state like an address bit -fvp_mps2.exclusive_monitor_psram.shareability_domain=0x3 # (int , init-time) default = '0x3' : Maximum shareability domain of interest, transactions outside of the domain will pass through un-monitored (0-non-shared, 1-inner, 2-outer, 3-system) : [0x0..0x3] -fvp_mps2.exclusive_monitor_psram.apply_access_width_criteria_to_non_excl_stores=1 # (bool , init-time) default = '1' : Apply the given exclusive store width matching criteria to non-exclusive stores -fvp_mps2.exclusive_monitor_zbtsram1.enable_component=1 # (bool , init-time) default = '1' : Enable component -fvp_mps2.exclusive_monitor_zbtsram1.number_of_monitors=0x8 # (int , init-time) default = '0x8' : Number of monitors : [0x1..0xFFFFFFFF] -fvp_mps2.exclusive_monitor_zbtsram1.log2_granule_size=0x0 # (int , init-time) default = '0x0' : log2 of address granule size : [0x0..0xB] -fvp_mps2.exclusive_monitor_zbtsram1.monitor_non_excl_stores=0 # (bool , init-time) default = '0' : Monitor non-exclusive stores from the same master -fvp_mps2.exclusive_monitor_zbtsram1.match_secure_state=1 # (bool , init-time) default = '1' : Treat the secure state like an address bit -fvp_mps2.exclusive_monitor_zbtsram1.shareability_domain=0x3 # (int , init-time) default = '0x3' : Maximum shareability domain of interest, transactions outside of the domain will pass through un-monitored (0-non-shared, 1-inner, 2-outer, 3-system) : [0x0..0x3] -fvp_mps2.exclusive_monitor_zbtsram1.apply_access_width_criteria_to_non_excl_stores=1 # (bool , init-time) default = '1' : Apply the given exclusive store width matching criteria to non-exclusive stores -fvp_mps2.exclusive_monitor_zbtsram2.enable_component=1 # (bool , init-time) default = '1' : Enable component -fvp_mps2.exclusive_monitor_zbtsram2.number_of_monitors=0x8 # (int , init-time) default = '0x8' : Number of monitors : [0x1..0xFFFFFFFF] -fvp_mps2.exclusive_monitor_zbtsram2.log2_granule_size=0x0 # (int , init-time) default = '0x0' : log2 of address granule size : [0x0..0xB] -fvp_mps2.exclusive_monitor_zbtsram2.monitor_non_excl_stores=0 # (bool , init-time) default = '0' : Monitor non-exclusive stores from the same master -fvp_mps2.exclusive_monitor_zbtsram2.match_secure_state=1 # (bool , init-time) default = '1' : Treat the secure state like an address bit -fvp_mps2.exclusive_monitor_zbtsram2.shareability_domain=0x3 # (int , init-time) default = '0x3' : Maximum shareability domain of interest, transactions outside of the domain will pass through un-monitored (0-non-shared, 1-inner, 2-outer, 3-system) : [0x0..0x3] -fvp_mps2.exclusive_monitor_zbtsram2.apply_access_width_criteria_to_non_excl_stores=1 # (bool , init-time) default = '1' : Apply the given exclusive store width matching criteria to non-exclusive stores -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.enable_component=1 # (bool , init-time) default = '1' : Enable component -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.number_of_monitors=0x8 # (int , init-time) default = '0x8' : Number of monitors : [0x1..0xFFFFFFFF] -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.log2_granule_size=0x0 # (int , init-time) default = '0x0' : log2 of address granule size : [0x0..0xB] -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.monitor_non_excl_stores=0 # (bool , init-time) default = '0' : Monitor non-exclusive stores from the same master -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.match_secure_state=1 # (bool , init-time) default = '1' : Treat the secure state like an address bit -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.shareability_domain=0x3 # (int , init-time) default = '0x3' : Maximum shareability domain of interest, transactions outside of the domain will pass through un-monitored (0-non-shared, 1-inner, 2-outer, 3-system) : [0x0..0x3] -fvp_mps2.sse200.exclusive_monitor_iotss_internal_sram.apply_access_width_criteria_to_non_excl_stores=1 # (bool , init-time) default = '1' : Apply the given exclusive store width matching criteria to non-exclusive stores -fvp_mps2.dma0_securitymodifier.behaviour_ns_to_s=0x0 # (int , init-time) default = '0x0' : Behaviour for NS transactions to S space : 0:block 1:transmit 2:convert to S -fvp_mps2.dma1_securitymodifier.behaviour_ns_to_s=0x0 # (int , init-time) default = '0x0' : Behaviour for NS transactions to S space : 0:block 1:transmit 2:convert to S -fvp_mps2.dma2_securitymodifier.behaviour_ns_to_s=0x0 # (int , init-time) default = '0x0' : Behaviour for NS transactions to S space : 0:block 1:transmit 2:convert to S -fvp_mps2.dma3_securitymodifier.behaviour_ns_to_s=0x0 # (int , init-time) default = '0x0' : Behaviour for NS transactions to S space : 0:block 1:transmit 2:convert to S -fvp_mps2.dma0.fifo_size=0x10 # (int , init-time) default = '0x10' : Channel FIFO size in bytes -fvp_mps2.dma0.max_transfer=0x100 # (int , init-time) default = '0x100' : Largest atomic transfer -fvp_mps2.dma0.generate_clear=0 # (bool , init-time) default = '0' : Generate clear response -fvp_mps2.dma0.activate_delay=0x0 # (int , init-time) default = '0x0' : request delay -fvp_mps2.dma1.fifo_size=0x10 # (int , init-time) default = '0x10' : Channel FIFO size in bytes -fvp_mps2.dma1.max_transfer=0x100 # (int , init-time) default = '0x100' : Largest atomic transfer -fvp_mps2.dma1.generate_clear=0 # (bool , init-time) default = '0' : Generate clear response -fvp_mps2.dma1.activate_delay=0x0 # (int , init-time) default = '0x0' : request delay -fvp_mps2.dma2.fifo_size=0x10 # (int , init-time) default = '0x10' : Channel FIFO size in bytes -fvp_mps2.dma2.max_transfer=0x100 # (int , init-time) default = '0x100' : Largest atomic transfer -fvp_mps2.dma2.generate_clear=0 # (bool , init-time) default = '0' : Generate clear response -fvp_mps2.dma2.activate_delay=0x0 # (int , init-time) default = '0x0' : request delay -fvp_mps2.dma3.fifo_size=0x10 # (int , init-time) default = '0x10' : Channel FIFO size in bytes -fvp_mps2.dma3.max_transfer=0x100 # (int , init-time) default = '0x100' : Largest atomic transfer -fvp_mps2.dma3.generate_clear=0 # (bool , init-time) default = '0' : Generate clear response -fvp_mps2.dma3.activate_delay=0x0 # (int , init-time) default = '0x0' : request delay -fvp_mps2.iotss_systemcontrol.cpu0wait=0 # (bool , init-time) default = '0' : Whether to hold cpu1 in reset at boot -fvp_mps2.iotss_systemcontrol.cpu1wait=1 # (bool , init-time) default = '1' : Whether to hold cpu1 in reset at boot -fvp_mps2.sse200.iotss_cpuidentity.debugger_master_id=0xFFFFFFFF # (int , init-time) default = '0xFFFFFFFF' : : [0x0..0xFFFFFFFF] -#---------------------------------------------------------------------------------------------- diff --git a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvoptx b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvoptx index 79797eb5d..189102f99 100644 --- a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvoptx +++ b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvoptx @@ -101,6 +101,8 @@ 0 0 1 + 0 + 0 15 @@ -133,7 +135,7 @@ 0 DbgFMv8M - -I -S -L"cpu0" -O4102 -C0 -MC".\FVP\MPS2_Cortex-M\FVP_MPS2_Cortex-M33_MDK.exe" -MF"..\ARMCM33_DSP_FP_TZ_config.txt" -MA + -I -S -L"cpu0" -O4102 -C0 -MC".\FVP\MPS2_Cortex-M\FVP_MPS2_Cortex-M33_MDK.exe" -MF".\FVP\MPS2_Cortex-M\ARMCM33_DSP_FP_TZ_config.txt" -MA 0 diff --git a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvprojx b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvprojx index f7186cb0f..5c98a40b9 100644 --- a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvprojx +++ b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/NonSecure/FreeRTOSDemo_ns.uvprojx @@ -16,7 +16,7 @@ ARMCM33_DSP_FP_TZ ARM - ARM.CMSIS.5.4.0 + ARM.CMSIS.5.5.1 http://www.keil.com/pack/ IRAM(0x20000000,0x00020000) IRAM2(0x20200000,0x00020000) IROM(0x00000000,0x00200000) IROM2(0x00200000,0x00200000) CPUTYPE("Cortex-M33") FPU3(SFPU) DSP TZ CLOCK(12000000) ESEL ELITTLE @@ -184,6 +184,7 @@ 0 0 2 + 0 1 1 16 @@ -324,6 +325,7 @@ 0 0 0 + 0 0 3 1 @@ -539,7 +541,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\partition_ARMCM33.h - + @@ -547,7 +549,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\startup_ARMCM33.s - + @@ -555,7 +557,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\system_ARMCM33.c - + diff --git a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvoptx b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvoptx index a486d0edf..5d15b9138 100644 --- a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvoptx +++ b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvoptx @@ -101,6 +101,8 @@ 0 0 1 + 0 + 0 15 @@ -133,7 +135,7 @@ 0 DbgFMv8M - -I -S -L"cpu0" -O4102 -C0 -MC".\FVP\MPS2_Cortex-M\FVP_MPS2_Cortex-M33_MDK.exe" -MF"..\ARMCM33_DSP_FP_TZ_config.txt" -MA + -I -S -L"cpu0" -O4102 -C0 -MC".\FVP\MPS2_Cortex-M\FVP_MPS2_Cortex-M33_MDK.exe" -MF".\FVP\MPS2_Cortex-M\ARMCM33_DSP_FP_TZ_config.txt" -MA 0 diff --git a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvprojx b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvprojx index 30f64cbf9..0ad1de3d3 100644 --- a/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvprojx +++ b/FreeRTOS/Demo/CORTEX_MPU_M33F_Simulator_Keil_GCC/Secure/FreeRTOSDemo_s.uvprojx @@ -16,7 +16,7 @@ ARMCM33_DSP_FP_TZ ARM - ARM.CMSIS.5.4.0 + ARM.CMSIS.5.5.1 http://www.keil.com/pack/ IRAM(0x20000000,0x00020000) IRAM2(0x20200000,0x00020000) IROM(0x00000000,0x00200000) IROM2(0x00200000,0x00200000) CPUTYPE("Cortex-M33") FPU3(SFPU) DSP TZ CLOCK(12000000) ESEL ELITTLE @@ -133,7 +133,7 @@ 0 0 1 - 1 + 0 4098 1 @@ -184,6 +184,7 @@ 0 0 2 + 0 1 1 8 @@ -324,6 +325,7 @@ 0 0 0 + 0 0 3 1 @@ -487,7 +489,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\partition_ARMCM33.h - + @@ -495,7 +497,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\startup_ARMCM33.s - + @@ -503,7 +505,7 @@ RTE\Device\ARMCM33_DSP_FP_TZ\system_ARMCM33.c - +