20.24 記 述 例

以下に，システム・コンフィギュレーション・ファイルの記述例を示します。

備考 RI600PXでは，システム・コンフィギュレーション・ファイルのサンプル・ソース・ファイルを提供しています。

// 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(); // };