// System Definition
system{
stack_size = 1024;
priority = 10;
system_IPL = 14;
message_pri = 1;
tic_deno = 1;
tic_nume = 1;
context = FPSW,ACC;
};
// System Clock Definition ----------------------------------------
clock{
timer = CMT0;
template = rx630.tpl;
timer_clock = 25MHz;
IPL = 13;
};
// Number of object ----------------------------------------
maxdefine{
max_task = 10;
max_sem = 1;
// max_flag = ;
max_dtq = 1;
// max_mbx = ;
// max_mtx = ;
// max_mbf = ;
// max_mpf = ;
max_mpl = 1;
// max_cyh = ;
// max_alh = ;
max_domain = 3;
};
// Trusted domain
domain[1] {
trust = YES;
};
// Memory Object Definition : Master domain data
memory_object[1]{
start_address = BU_MASTERDOM;
end_address = RU_MASTERDOM_2;
acptn1 = 0x0001;
acptn2 = 0x0001;
acptn3 = 0;
};
// Memory Object Definition : App-domain A data
memory_object[2]{
start_address = BU_DOM_A;
end_address = RU_DOM_A_2;
acptn1 = 0x0002;
acptn2 = 0x0002;
acptn3 = 0;
};
// Memory Object Definition : App-domain B data
memory_object[3]{
start_address = BU_DOM_B;
end_address = RU_DOM_B_2;
acptn1 = 0x0004;
acptn2 = 0x0004;
acptn3 = 0;
};
// Memory Object Definition : Shared data
memory_object[4]{
start_address = BURI_HEAP;
end_address = RU_SH_2;
acptn1 = TACP_SHARED;
acptn2 = TACP_SHARED;
acptn3 = 0;
};
// Memory Object Definition : Master domain code and const
memory_object[5]{
start_address = PU_MASTERDOM;
acptn2 = 0;
};
// Memory Object Definition : App-domain A code and const
memory_object[6]{
start_address = PU_DOM_A;
end_address = DU_DOM_A_2;
acptn1 = 0x0002;
acptn2 = 0;
acptn3 = 0x0002;
};
// Memory Object Definition : App-domain B code and const
memory_object[7]{
start_address = PU_DOM_B;
end_address = DU_DOM_B_2;
acptn1 = 0x0004;
acptn2 = 0;
acptn3 = 0x0004;
};
// Memory Object Definition : Shared code and const
memory_object[8]{
start_address = PU_SH;
end_address = DU_SH_2;
acptn1 = TACP_SHARED;
acptn2 = 0;
acptn3 = TACP_SHARED;
};
// Task Definition ----------------------------------------
task[]{
name = ID_MASTERDOMTASK;
entry_address = MasterDom_Task();
initial_start = ON;
stack_size = 256;
priority = 1;
// stack_section = SURI_STACK;
exinf = 1;
// texrtn = ;
domain_num = 1;
};
// Semaphore Definition ----------------------------------------
// semaphore[]{
// name = ID_SEM1;
// wait_queue = TA_TFIFO;
// max_count = 1;
// initial_count = 1;
// };
// Eventflag Definition ----------------------------------------
// flag[]{
// name = ID_FLG1;
// initial_pattern = 0;
// wait_queue = TA_TFIFO;
// wait_multi = TA_WSGL;
// clear_attribute = NO;
// };
// Data Queue Definition ----------------------------------------
// dataqueue[]{
// name = ID_DTQ1;
// buffer_size = 4;
// wait_queue = TA_TFIFO;
// };
// Mailbox Definition ----------------------------------------
// mailbox[]{
// name = ID_MBX1;
// wait_queue = TA_TFIFO;
// message_queue = TA_MFIFO;
// max_pri = 1;
// };
// Mutex definition ----------------------------------------
// mutex[]{
// name = ID_MTX1;
// ceilpri = 1;
// };
// Message Buffer Definition ----------------------------------------
// message_buffer[]{
// name = ID_MBF1;
// mbf_size = 128;
// mbf_section = BRI_RAM;
// max_msgsz = 16;
// wait_queue = TA_TFIFO;
// };
// Fixed-sized Memory Pool Definition ----------------------------------------
// memorypool[]{
// name = ID_MPF1;
// section = BURI_HEAP;
// num_block = 1;
// siz_block = 0x100;
// wait_queue = TA_TFIFO;
// };
// Variable-sized Memory Pool Definition ----------------------------------------
// variable_memorypool[]{
// name = ID_MPL1;
// mpl_section = BURI_HEAP;
// heap_size = 1024;
// max_memsize = 36;
// };
// Cyclic Handler Definition ----------------------------------------
cyclic_hand[] {
name = ID_CYC1;
entry_address = cyh1();
interval_counter = 10;
start = ON;
phsatr = OFF;
phs_counter = 10;
exinf = 1;
};
// Alarm Handler Definition ----------------------------------------
alarm_hand[] {
name = ID_ALM1;
entry_address = alh1();
exinf = 1;
};
// Relocatable Vector Definition ----------------------------------------
// interrupt_vector[64]{
// os_int = YES;
// entry_address = inh64();
// pragma_switch = E;
// };
// Fixed Vector Definition ----------------------------------------
// interrupt_fvector[0]{ // MDES register (address : 0xFFFFFF80)
// entry_address = AUTO_ENDIAN;
// };
// interrupt_fvector[1]{ // Reserved (address : 0xFFFFFF84)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[2]{ // OFS1 register (address : 0xFFFFFF88)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[3]{ // OFS0 register (address : 0xFFFFFF8C)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[4]{ // Reserved (address : 0xFFFFFF90)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[5]{ // Reserved (address : 0xFFFFFF96)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[6]{ // Reserved (address : 0xFFFFFF98)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[7]{ // ROM code protect (address : 0xFFFFFF9C)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[8]{ // ID coce protect (address : 0xFFFFFFA0)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[9]{ // ID coce protect (address : 0xFFFFFFA4)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[10]{ // ID coce protect (address : 0xFFFFFFA8)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[11]{ // ID coce protect (address : 0xFFFFFFAC)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[12]{ // Reserved (address : 0xFFFFFFA0)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[13]{ // Reserved (address : 0xFFFFFFA4)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[14]{ // Reserved (address : 0xFFFFFFA8)
// entry_address = 0xFFFFFFFF;
// interrupt_fvector[15]{ // Reserved (address : 0xFFFFFFAC)
// entry_address = 0xFFFFFFFF;
// };
// interrupt_fvector[30]{ // NMI (address : 0xFFFFFFF8)
// entry_address = NMI_handler();
// pragma_switch = ;
// };
// interrupt_fvector[31]{ // Reset (address : 0xFFFFFFFC)
// entry_address = PowerON_Reset_PC();
// };
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