예제 #1
0
파일: thread.c 프로젝트: gapry/RefOS-1
BOOT_CODE void
configureIdleThread(tcb_t *tcb)
{
    Arch_configureIdleThread(tcb);
    setThreadState(tcb, ThreadState_IdleThreadState);
}
예제 #2
0
파일: boot.c 프로젝트: dnm/seL4
BOOT_CODE bool_t
create_initial_thread(
    cap_t  root_cnode_cap,
    cap_t  it_pd_cap,
    vptr_t ui_v_entry,
    vptr_t bi_frame_vptr,
    vptr_t ipcbuf_vptr,
    cap_t  ipcbuf_cap
)
{
    pptr_t pptr;
    cap_t  cap;
    tcb_t* tcb;
    deriveCap_ret_t dc_ret;

    /* allocate TCB */
    pptr = alloc_region(TCB_BLOCK_SIZE_BITS);
    if (!pptr) {
        printf("Kernel init failed: Unable to allocate tcb for initial thread\n");
        return false;
    }
    memzero((void*)pptr, 1 << TCB_BLOCK_SIZE_BITS);
    tcb = TCB_PTR(pptr + TCB_OFFSET);
    tcb->tcbTimeSlice = CONFIG_TIME_SLICE;
    Arch_initContext(&tcb->tcbContext);

    /* derive a copy of the IPC buffer cap for inserting */
    dc_ret = deriveCap(SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IT_IPCBUF), ipcbuf_cap);
    if (dc_ret.status != EXCEPTION_NONE) {
        printf("Failed to derive copy of IPC Buffer\n");
        return false;
    }

    /* initialise TCB (corresponds directly to abstract specification) */
    cteInsert(
        root_cnode_cap,
        SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IT_CNODE),
        SLOT_PTR(pptr, tcbCTable)
    );
    cteInsert(
        it_pd_cap,
        SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IT_VSPACE),
        SLOT_PTR(pptr, tcbVTable)
    );
    cteInsert(
        dc_ret.cap,
        SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IT_IPCBUF),
        SLOT_PTR(pptr, tcbBuffer)
    );
    tcb->tcbIPCBuffer = ipcbuf_vptr;
    setRegister(tcb, capRegister, bi_frame_vptr);
    setNextPC(tcb, ui_v_entry);

    /* initialise TCB */
    tcb->tcbPriority = seL4_MaxPrio;
    setupReplyMaster(tcb);
    setThreadState(tcb, ThreadState_Running);
    ksSchedulerAction = SchedulerAction_ResumeCurrentThread;
    ksCurThread = ksIdleThread;
    ksCurDomain = ksDomSchedule[ksDomScheduleIdx].domain;
    ksDomainTime = ksDomSchedule[ksDomScheduleIdx].length;
    assert(ksCurDomain < CONFIG_NUM_DOMAINS && ksDomainTime > 0);

    /* initialise current thread pointer */
    switchToThread(tcb); /* initialises ksCurThread */

    /* create initial thread's TCB cap */
    cap = cap_thread_cap_new(TCB_REF(tcb));
    write_slot(SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IT_TCB), cap);

#ifdef DEBUG
    setThreadName(tcb, "rootserver");
#endif

    return true;
}
예제 #3
0
파일: main.c 프로젝트: skoneka/prir
void mulMatrix(matrix_data_t *m)
{
    int i, j, k;

    for(i=0; i< m->A.rows; i++)
    {
        for(j=0; j< m->B.colums; j++)
        {
            int ret;
            int thID = getFreeThread();

            thread_data_t *threadData = malloc(sizeof(thread_data_t));
            threadData->i = i;
            threadData->j = j;
            threadData->threadID = thID;
            threadData->m = m;
            if(activeThreads[thID] == 2) //juz raz uzylismy...
            {
                /* VERBOSE fprintf(stderr, "Reusing thread... securing with pthread_join just in case\n"); */
                int *val;
                ret = pthread_join(threads[thID], (void **)&val);
                fprintf(stderr, "Thread %d exit status %d\n", thID, val);
                if( ret != 0) {
                    fprintf(stderr, "%s:%d pthread_join fail %d\n", __FILE__, __LINE__, ret);
                    exit(EXIT_FAILURE);
                }
                else {
                    /* VERBOSE fprintf(stderr, "%s:%d pthread_join OK\n", __FILE__, __LINE__); */
                    activeThreads[thID] = 1;
                }
            }

            setThreadState(thID, 0);// Busy

            //raise(SIGINT);

            /* VERBOSE fprintf(stderr, "Thread %d\n", thID);  */
            ret = pthread_create( &threads[thID], NULL, mulThread, (void*) threadData); 
            if( ret != 0) {
                fprintf(stderr, "%s:%d pthread_create fail %d\n", __FILE__, __LINE__, ret);
                exit(EXIT_FAILURE);
            }
        }
    }

    for (i = 0; i < MAX_THREADS;i++)
    {
        if(getThreadState(i) == 2 || getThreadState(i) == 0)
        {
            int *val;
            int ret = pthread_join(threads[i], (void **)&val);
            fprintf(stderr, "Thread %d exit status %d\n", i, val);
                if( ret != 0) {
                    fprintf(stderr, "%s:%d pthread_join fail %d\n", __FILE__, __LINE__, ret);
                    exit(EXIT_FAILURE);
                }
                else {
                    /* VERBOSE fprintf(stderr, "%s:%d pthread_join OK\n", __FILE__, __LINE__); */
                    activeThreads[i] = 1;
                }
        }
    }
}
예제 #4
0
파일: syscall.c 프로젝트: KGG814/AOS
static exception_t
handleInvocation(bool_t isCall, bool_t isBlocking)
{
    message_info_t info;
    cptr_t cptr;
    lookupCapAndSlot_ret_t lu_ret;
    word_t *buffer;
    exception_t status;
    word_t length;
    tcb_t *thread;

    thread = ksCurThread;

    info = messageInfoFromWord(getRegister(thread, msgInfoRegister));
    cptr = getRegister(thread, capRegister);

    /* faulting section */
    lu_ret = lookupCapAndSlot(thread, cptr);

    if (unlikely(lu_ret.status != EXCEPTION_NONE)) {
        userError("Invocation of invalid cap #%d.", (int)cptr);
        current_fault = fault_cap_fault_new(cptr, false);

        if (isBlocking) {
            handleFault(thread);
        }

        return EXCEPTION_NONE;
    }

    buffer = lookupIPCBuffer(false, thread);

    status = lookupExtraCaps(thread, buffer, info);

    if (unlikely(status != EXCEPTION_NONE)) {
        userError("Lookup of extra caps failed.");
        if (isBlocking) {
            handleFault(thread);
        }
        return EXCEPTION_NONE;
    }

    /* Syscall error/Preemptible section */
    length = message_info_get_msgLength(info);
    if (unlikely(length > n_msgRegisters && !buffer)) {
        length = n_msgRegisters;
    }
    status = decodeInvocation(message_info_get_msgLabel(info), length,
                              cptr, lu_ret.slot, lu_ret.cap,
                              current_extra_caps, isBlocking, isCall,
                              buffer);

    if (unlikely(status == EXCEPTION_PREEMPTED)) {
        return status;
    }

    if (unlikely(status == EXCEPTION_SYSCALL_ERROR)) {
        if (isCall) {
            replyFromKernel_error(thread);
        }
        return EXCEPTION_NONE;
    }

    if (unlikely(
                thread_state_get_tsType(thread->tcbState) == ThreadState_Restart)) {
        if (isCall) {
            replyFromKernel_success_empty(thread);
        }
        setThreadState(thread, ThreadState_Running);
    }

    return EXCEPTION_NONE;
}
예제 #5
0
파일: interrupt.c 프로젝트: alex-ab/seL4
exception_t
Arch_decodeIRQControlInvocation(word_t invLabel, word_t length, cte_t *srcSlot, extra_caps_t excaps, word_t *buffer)
{
    word_t index, depth;
    cte_t *destSlot;
    cap_t cnodeCap;
    lookupSlot_ret_t lu_ret;
    exception_t status;
    irq_t irq;
    word_t vector;

    if (!config_set(CONFIG_IRQ_IOAPIC)) {
        userError("IRQControl: Illegal operation.");
        current_syscall_error.type = seL4_IllegalOperation;
        return EXCEPTION_SYSCALL_ERROR;
    }

    /* check the common parameters */

    if (length < 7 || excaps.excaprefs[0] == NULL) {
        userError("IRQControl: Truncated message");
        current_syscall_error.type = seL4_TruncatedMessage;
        return EXCEPTION_SYSCALL_ERROR;
    }
    index = getSyscallArg(0, buffer);
    depth = getSyscallArg(1, buffer);
    cnodeCap = excaps.excaprefs[0]->cap;
    irq = getSyscallArg(6, buffer);
    if (irq > irq_user_max - irq_user_min) {
        userError("IRQControl: Invalid irq %ld should be between 0-%ld", (long)irq, (long)(irq_user_max - irq_user_min - 1));
        current_syscall_error.type = seL4_RangeError;
        current_syscall_error.rangeErrorMin = 0;
        current_syscall_error.rangeErrorMax = irq_user_max - irq_user_min;
        return EXCEPTION_SYSCALL_ERROR;
    }
    irq += irq_user_min;
    vector = (word_t)irq + IRQ_INT_OFFSET;

    lu_ret = lookupTargetSlot(cnodeCap, index, depth);
    if (lu_ret.status != EXCEPTION_NONE) {
        return lu_ret.status;
    }

    destSlot = lu_ret.slot;

    status = ensureEmptySlot(destSlot);
    if (status != EXCEPTION_NONE) {
        return status;
    }

    switch (invLabel) {
    case X86IRQIssueIRQHandlerIOAPIC: {
        word_t ioapic = getSyscallArg(2, buffer);
        word_t pin = getSyscallArg(3, buffer);
        word_t level = getSyscallArg(4, buffer);
        word_t polarity = getSyscallArg(5, buffer);


        if (isIRQActive(irq)) {
            userError("IOAPICGet: IRQ %d is already active.", (int)irq);
            current_syscall_error.type = seL4_RevokeFirst;
            return EXCEPTION_SYSCALL_ERROR;
        }

        status = ioapic_decode_map_pin_to_vector(ioapic, pin, level, polarity, vector);
        if (status != EXCEPTION_NONE) {
            return status;
        }

        setThreadState(NODE_STATE(ksCurThread), ThreadState_Restart);
        return invokeIssueIRQHandlerIOAPIC(irq, ioapic, pin, level, polarity, vector, destSlot, srcSlot);
    }
    break;
    case X86IRQIssueIRQHandlerMSI: {
        word_t pci_bus = getSyscallArg(2, buffer);
        word_t pci_dev = getSyscallArg(3, buffer);
        word_t pci_func = getSyscallArg(4, buffer);
        word_t handle = getSyscallArg(5, buffer);
        x86_irq_state_t irqState;
        /* until we support msi interrupt remaping through vt-d we ignore the
         * vector and trust the user */
        (void)vector;
        if (isIRQActive(irq)) {
            current_syscall_error.type = seL4_RevokeFirst;
            return EXCEPTION_SYSCALL_ERROR;
        }

        if (pci_bus > PCI_BUS_MAX) {
            current_syscall_error.type = seL4_RangeError;
            current_syscall_error.rangeErrorMin = 0;
            current_syscall_error.rangeErrorMax = PCI_BUS_MAX;
            return EXCEPTION_SYSCALL_ERROR;
        }

        if (pci_dev > PCI_DEV_MAX) {
            current_syscall_error.type = seL4_RangeError;
            current_syscall_error.rangeErrorMin = 0;
            current_syscall_error.rangeErrorMax = PCI_DEV_MAX;
            return EXCEPTION_SYSCALL_ERROR;
        }

        if (pci_func > PCI_FUNC_MAX) {
            current_syscall_error.type = seL4_RangeError;
            current_syscall_error.rangeErrorMin = 0;
            current_syscall_error.rangeErrorMax = PCI_FUNC_MAX;
            return EXCEPTION_SYSCALL_ERROR;
        }

        irqState = x86_irq_state_irq_msi_new(pci_bus, pci_dev, pci_func, handle);

        setThreadState(NODE_STATE(ksCurThread), ThreadState_Restart);
        return Arch_invokeIRQControl(irq, destSlot, srcSlot, irqState);
    }
    break;
    default:
        userError("IRQControl: Illegal operation.");
        current_syscall_error.type = seL4_IllegalOperation;
        return EXCEPTION_SYSCALL_ERROR;
    }
}