コード例 #1
0
ファイル: setup.c プロジェクト: mikesun/xen-cow-checkpointing
static void __init start_of_day(void)
{
    init_IRQ();

    scheduler_init();

    /* create idle domain */
    idle_domain = domain_create(IDLE_DOMAIN_ID, 0, 0);
    if ((idle_domain == NULL) || (alloc_vcpu(idle_domain, 0, 0) == NULL))
        BUG();
    set_current(idle_domain->vcpu[0]);
    idle_vcpu[0] = current;

    initialize_keytable();
    /* Register another key that will allow for the the Harware Probe
     * to be contacted, this works with RiscWatch probes and should
     * work with Chronos and FSPs */
    register_keyhandler('^', key_hw_probe_attn, "Trap to Hardware Probe");

    /* allow the dumping of the devtree */
    register_keyhandler('D', key_ofdump , "Dump OF Devtree");

    timer_init();
    rcu_init();
    serial_init_postirq();
    do_initcalls();
}
コード例 #2
0
ファイル: setup.c プロジェクト: codercold/xen-4.4
/* C entry point for boot CPU */
void __init start_xen(unsigned long boot_phys_offset,
                      unsigned long fdt_paddr,
                      unsigned long cpuid)
{
    size_t fdt_size;
    int cpus, i;
    const char *cmdline;

    setup_cache();

    percpu_init_areas();
    set_processor_id(0); /* needed early, for smp_processor_id() */

    smp_clear_cpu_maps();

    /* This is mapped by head.S */
    device_tree_flattened = (void *)BOOT_FDT_VIRT_START
        + (fdt_paddr & ((1 << SECOND_SHIFT) - 1));
    fdt_size = device_tree_early_init(device_tree_flattened, fdt_paddr);

    cmdline = device_tree_bootargs(device_tree_flattened);
    early_printk("Command line: %s\n", cmdline);
    cmdline_parse(cmdline);

    setup_pagetables(boot_phys_offset, get_xen_paddr());
    setup_mm(fdt_paddr, fdt_size);

    vm_init();
    dt_unflatten_host_device_tree();
    dt_irq_xlate = gic_irq_xlate;

    dt_uart_init();
    console_init_preirq();

    system_state = SYS_STATE_boot;

    processor_id();

    platform_init();

    smp_init_cpus();
    cpus = smp_get_max_cpus();

    init_xen_time();

    gic_init();

    set_current((struct vcpu *)0xfffff000); /* debug sanity */
    idle_vcpu[0] = current;

    init_traps();

    setup_virt_paging();

    p2m_vmid_allocator_init();

    softirq_init();

    tasklet_subsys_init();

    init_IRQ();

    gic_route_ppis();
    gic_route_spis();

    init_maintenance_interrupt();
    init_timer_interrupt();

    timer_init();

    init_idle_domain();

    rcu_init();

    arch_init_memory();

    local_irq_enable();
    local_abort_enable();

    smp_prepare_cpus(cpus);

    initialize_keytable();

    console_init_postirq();

    do_presmp_initcalls();

    for_each_present_cpu ( i )
    {
        if ( (num_online_cpus() < cpus) && !cpu_online(i) )
        {
            int ret = cpu_up(i);
            if ( ret != 0 )
                printk("Failed to bring up CPU %u (error %d)\n", i, ret);
        }
    }

    printk("Brought up %ld CPUs\n", (long)num_online_cpus());
    /* TODO: smp_cpus_done(); */

    do_initcalls();

    /* Create initial domain 0. */
    dom0 = domain_create(0, 0, 0);
    if ( IS_ERR(dom0) || (alloc_dom0_vcpu0() == NULL) )
            panic("Error creating domain 0");

    dom0->is_privileged = 1;
    dom0->target = NULL;

    if ( construct_dom0(dom0) != 0)
            panic("Could not set up DOM0 guest OS");

    /* Scrub RAM that is still free and so may go to an unprivileged domain. */
    scrub_heap_pages();

    init_constructors();

    console_endboot();

    /* Hide UART from DOM0 if we're using it */
    serial_endboot();

    system_state = SYS_STATE_active;

    domain_unpause_by_systemcontroller(dom0);

    /* Switch on to the dynamically allocated stack for the idle vcpu
     * since the static one we're running on is about to be freed. */
    memcpy(idle_vcpu[0]->arch.cpu_info, get_cpu_info(),
           sizeof(struct cpu_info));
    switch_stack_and_jump(idle_vcpu[0]->arch.cpu_info, init_done);
}
コード例 #3
0
ファイル: setup.c プロジェクト: caomw/xen
/* C entry point for boot CPU */
void __init start_xen(unsigned long boot_phys_offset,
                      unsigned long fdt_paddr,
                      unsigned long cpuid)
{
    size_t fdt_size;
    int cpus, i;
    paddr_t xen_paddr;
    const char *cmdline;
    struct bootmodule *xen_bootmodule;
    struct domain *dom0;
    struct xen_arch_domainconfig config;

    setup_cache();

    percpu_init_areas();
    set_processor_id(0); /* needed early, for smp_processor_id() */

    set_current((struct vcpu *)0xfffff000); /* debug sanity */
    idle_vcpu[0] = current;

    setup_virtual_regions(NULL, NULL);
    /* Initialize traps early allow us to get backtrace when an error occurred */
    init_traps();

    smp_clear_cpu_maps();

    /* This is mapped by head.S */
    device_tree_flattened = (void *)BOOT_FDT_VIRT_START
        + (fdt_paddr & ((1 << SECOND_SHIFT) - 1));
    fdt_size = boot_fdt_info(device_tree_flattened, fdt_paddr);

    cmdline = boot_fdt_cmdline(device_tree_flattened);
    printk("Command line: %s\n", cmdline);
    cmdline_parse(cmdline);

    /* Register Xen's load address as a boot module. */
    xen_bootmodule = add_boot_module(BOOTMOD_XEN,
                             (paddr_t)(uintptr_t)(_start + boot_phys_offset),
                             (paddr_t)(uintptr_t)(_end - _start + 1), NULL);
    BUG_ON(!xen_bootmodule);

    xen_paddr = get_xen_paddr();
    setup_pagetables(boot_phys_offset, xen_paddr);

    /* Update Xen's address now that we have relocated. */
    printk("Update BOOTMOD_XEN from %"PRIpaddr"-%"PRIpaddr" => %"PRIpaddr"-%"PRIpaddr"\n",
           xen_bootmodule->start, xen_bootmodule->start + xen_bootmodule->size,
           xen_paddr, xen_paddr + xen_bootmodule->size);
    xen_bootmodule->start = xen_paddr;

    setup_mm(fdt_paddr, fdt_size);

    /* Parse the ACPI tables for possible boot-time configuration */
    acpi_boot_table_init();

    end_boot_allocator();

    vm_init();
    dt_unflatten_host_device_tree();

    init_IRQ();

    platform_init();

    preinit_xen_time();

    gic_preinit();

    arm_uart_init();
    console_init_preirq();
    console_init_ring();

    system_state = SYS_STATE_boot;

    processor_id();

    smp_init_cpus();
    cpus = smp_get_max_cpus();

    init_xen_time();

    gic_init();

    p2m_vmid_allocator_init();

    softirq_init();

    tasklet_subsys_init();


    xsm_dt_init();

    init_maintenance_interrupt();
    init_timer_interrupt();

    timer_init();

    init_idle_domain();

    rcu_init();

    arch_init_memory();

    local_irq_enable();
    local_abort_enable();

    smp_prepare_cpus(cpus);

    initialize_keytable();

    console_init_postirq();

    do_presmp_initcalls();

    for_each_present_cpu ( i )
    {
        if ( (num_online_cpus() < cpus) && !cpu_online(i) )
        {
            int ret = cpu_up(i);
            if ( ret != 0 )
                printk("Failed to bring up CPU %u (error %d)\n", i, ret);
        }
    }

    printk("Brought up %ld CPUs\n", (long)num_online_cpus());
    /* TODO: smp_cpus_done(); */

    setup_virt_paging();

    iommu_setup();

    do_initcalls();

    /*
     * It needs to be called after do_initcalls to be able to use
     * stop_machine (tasklets initialized via an initcall).
     */
    apply_alternatives_all();

    /* Create initial domain 0. */
    /* The vGIC for DOM0 is exactly emulating the hardware GIC */
    config.gic_version = XEN_DOMCTL_CONFIG_GIC_NATIVE;
    config.nr_spis = gic_number_lines() - 32;

    dom0 = domain_create(0, 0, 0, &config);
    if ( IS_ERR(dom0) || (alloc_dom0_vcpu0(dom0) == NULL) )
            panic("Error creating domain 0");

    dom0->is_privileged = 1;
    dom0->target = NULL;

    if ( construct_dom0(dom0) != 0)
            panic("Could not set up DOM0 guest OS");

    /* Scrub RAM that is still free and so may go to an unprivileged domain. */
    scrub_heap_pages();

    init_constructors();

    console_endboot();

    /* Hide UART from DOM0 if we're using it */
    serial_endboot();

    system_state = SYS_STATE_active;

    /* Must be done past setting system_state. */
    unregister_init_virtual_region();

    domain_unpause_by_systemcontroller(dom0);

    /* Switch on to the dynamically allocated stack for the idle vcpu
     * since the static one we're running on is about to be freed. */
    memcpy(idle_vcpu[0]->arch.cpu_info, get_cpu_info(),
           sizeof(struct cpu_info));
    switch_stack_and_jump(idle_vcpu[0]->arch.cpu_info, init_done);
}