C++ (Cpp) vmm_sprintfの例

コード例 #1

ファイル: cmd_host.c プロジェクト: avpatel/xvisor-next

static int cmd_host_cpu_info(struct vmm_chardev *cdev)
{
	int rc;
	u32 c, khz;
	unsigned long hwid;
	char name[25];

	vmm_cprintf(cdev, "%-25s: %s\n", "CPU Type", CONFIG_CPU);
	vmm_cprintf(cdev, "%-25s: %d\n",
			  "CPU Present Count", vmm_num_present_cpus());
	vmm_cprintf(cdev, "%-25s: %d\n",
			  "CPU Possible Count", vmm_num_possible_cpus());
	vmm_cprintf(cdev, "%-25s: %u\n",
			  "CPU Online Count", vmm_num_online_cpus());
	vmm_cprintf(cdev, "\n");

	for_each_online_cpu(c) {
		rc = vmm_smp_map_hwid(c, &hwid);
		if (rc)
			return rc;
		vmm_sprintf(name, "CPU%d Hardware ID", c);
		vmm_cprintf(cdev, "%-25s: 0x%lx\n", name, hwid);

		vmm_sprintf(name, "CPU%d Estimated Speed", c);
		khz = vmm_delay_estimate_cpu_khz(c);
		vmm_cprintf(cdev, "%-25s: %d.%03d MHz\n",
			    name, udiv32(khz, 1000), umod32(khz, 1000));
	}

	vmm_cprintf(cdev, "\n");

	arch_cpu_print_info(cdev);

	return VMM_OK;
}

コード例 #2

ファイル: acpi.c プロジェクト: JimmyDurandWesolowski/xvisor-next

static int __init process_acpi_sdt_table(char *tab_sign, u32 *tab_data)
{
    struct vmm_devtree_node *node = vmm_devtree_getnode(VMM_DEVTREE_PATH_SEPARATOR_STRING
                                    VMM_DEVTREE_MOTHERBOARD_NODE_NAME);
    /* FIXME: First find if tab_size already exists. */
    struct vmm_devtree_node *cnode = vmm_devtree_addnode(node, tab_sign);

    vmm_devtree_dref_node(node);
    if (!strncmp(tab_sign, APIC_SIGNATURE, strlen(APIC_SIGNATURE))) {
        struct acpi_madt_hdr *madt_hdr;
        madt_hdr = (struct acpi_madt_hdr *)tab_data;
        if (acpi_populate_ioapic_devtree(madt_hdr, cnode) != VMM_OK)
            return VMM_EFAIL;

        if (acpi_populate_lapic_devtree(madt_hdr, cnode) != VMM_OK)
            return VMM_EFAIL;
    } else if (!strncmp(tab_sign, HPET_SIGNATURE, strlen(HPET_SIGNATURE))) {
        struct acpi_hpet hpet_chip, *hpet;
        int nr_hpet_blks, i;
        char hpet_nm[256];

        if (acpi_read_sdt_at(tab_data,
                             (struct acpi_sdt_hdr *)&hpet_chip,
                             sizeof(struct acpi_hpet),
                             HPET_SIGNATURE) < 0) {
            return VMM_EFAIL;
        }

        hpet = (struct acpi_hpet *)tab_data;
        nr_hpet_blks = (hpet->hdr.len - sizeof(struct acpi_sdt_hdr))
                       /sizeof(struct acpi_timer_blocks);

        vmm_devtree_setattr(cnode, VMM_DEVTREE_NR_HPET_ATTR_NAME,
                            &nr_hpet_blks, VMM_DEVTREE_ATTRTYPE_UINT32,
                            sizeof(nr_hpet_blks), FALSE);

        for (i = 0; i < nr_hpet_blks; i++) {
            memset(hpet_nm, 0, sizeof(hpet_nm));
            vmm_sprintf(hpet_nm, VMM_DEVTREE_HPET_NODE_FMT, i);
            struct vmm_devtree_node *nnode = vmm_devtree_addnode(cnode, hpet_nm);

            BUG_ON(nnode == NULL);

            if (vmm_devtree_setattr(nnode, VMM_DEVTREE_HPET_ID_ATTR_NAME,
                                    &hpet->tmr_blks[i].asid,
                                    VMM_DEVTREE_ATTRTYPE_UINT32,
                                    sizeof(hpet->tmr_blks[i].asid), FALSE) != VMM_OK) {
                return VMM_EFAIL;
            }

            if (vmm_devtree_setattr(nnode, VMM_DEVTREE_HPET_PADDR_ATTR_NAME,
                                    &hpet->tmr_blks[i].base, VMM_DEVTREE_ATTRTYPE_PHYSADDR,
                                    sizeof(physical_addr_t), FALSE) != VMM_OK) {
                return VMM_EFAIL;
            }
        }
    }

    return VMM_OK;
}

コード例 #3

ファイル: smp_twd.c プロジェクト: liwenhaosuper/xvisor

int __cpuinit twd_clockchip_init(virtual_addr_t base, 
				virtual_addr_t ref_counter_addr,
				u32 ref_counter_freq,
				u32 ppi_hirq)
{
	int rc;
	u32 cpu = vmm_smp_processor_id();
	struct twd_clockchip *cc = &this_cpu(twd_cc);

	memset(cc, 0, sizeof(struct twd_clockchip));

	twd_caliberate_freq(base, ref_counter_addr, ref_counter_freq);

	vmm_sprintf(cc->name, "twd/%d", cpu);

	cc->base = base;
	cc->clkchip.name = cc->name;
	cc->clkchip.hirq = ppi_hirq;
	cc->clkchip.rating = 350;
	cc->clkchip.cpumask = vmm_cpumask_of(cpu);
	cc->clkchip.features = 
		VMM_CLOCKCHIP_FEAT_PERIODIC | VMM_CLOCKCHIP_FEAT_ONESHOT;
	cc->clkchip.shift = 20;
	cc->clkchip.mult = vmm_clockchip_hz2mult(twd_freq_hz, cc->clkchip.shift);
	cc->clkchip.min_delta_ns = vmm_clockchip_delta2ns(0xF, &cc->clkchip);
	cc->clkchip.max_delta_ns = 
			vmm_clockchip_delta2ns(0xFFFFFFFF, &cc->clkchip);
	cc->clkchip.set_mode = &twd_clockchip_set_mode;
	cc->clkchip.set_next_event = &twd_clockchip_set_next_event;
	cc->clkchip.expire = &twd_clockchip_expire;
	cc->clkchip.priv = cc;

	if (!cpu) {
		/* Register interrupt handler */
		if ((rc = vmm_host_irq_register(ppi_hirq, "twd",
						&twd_clockchip_irq_handler, 
						cc))) {
			return rc;
		}

		/* Mark interrupt as per-cpu */
		if ((rc = vmm_host_irq_mark_per_cpu(ppi_hirq))) {
			return rc;
		}
	}

	/* Explicitly enable local timer PPI in GIC 
	 * Note: Local timer requires PPI support hence requires GIC
	 */
	gic_enable_ppi(ppi_hirq);

	return vmm_clockchip_register(&cc->clkchip);
}

コード例 #4

ファイル: kallsyms.c プロジェクト: 32bitmicro/xvisor

/* Look up a kernel symbol and return it in a text buffer. */
static __notrace int __sprint_symbol(char *buffer, unsigned long address,
				     int symbol_offset)
{
	const char *name;
	unsigned long offset, size;
	int len;

	address += symbol_offset;
	name = kallsyms_lookup(address, &size, &offset, buffer);
	if (!name)
		return vmm_sprintf(buffer, "0x%lx", address);

	if (name != buffer)
		strcpy(buffer, name);
	len = strlen(buffer);
	buffer += len;
	offset -= symbol_offset;

	len += vmm_sprintf(buffer, "+%#lx/%#lx", offset, size);

	return len;
}

コード例 #5

ファイル: cmd_host.c プロジェクト: HeidCloud/xvisor

static void cmd_host_cpu_info(struct vmm_chardev *cdev)
{
	u32 c, khz;
	char name[25];

	vmm_cprintf(cdev, "%-25s: %s\n", "CPU Type", CONFIG_CPU);
	vmm_cprintf(cdev, "%-25s: %d\n", "CPU Present Count", vmm_num_present_cpus());
	vmm_cprintf(cdev, "%-25s: %d\n", "CPU Possible Count", vmm_num_possible_cpus());
	vmm_cprintf(cdev, "%-25s: %u\n", "CPU Online Count", vmm_num_online_cpus());
	for_each_online_cpu(c) {
		khz = vmm_delay_estimate_cpu_khz(c);
		vmm_sprintf(name, "CPU%d Speed", c);
		vmm_cprintf(cdev, "%-25s: %d.%d MHz (Estimated)\n", name,
			udiv32(khz, 1000), umod32(khz, 1000));
	}

	arch_cpu_print_info(cdev);
}

コード例 #6

ファイル: acpi.c プロジェクト: JimmyDurandWesolowski/xvisor-next

static int __init acpi_populate_lapic_devtree(struct acpi_madt_hdr *madt_hdr,
        struct vmm_devtree_node *cnode)
{
    unsigned int idx = 0;
    int ret = VMM_OK;
    struct acpi_madt_lapic *lapic;
    char lapic_nm[256];

    for (;;) {
        lapic = (struct acpi_madt_lapic *)
                acpi_madt_get_typed_item(madt_hdr, ACPI_MADT_TYPE_LAPIC,
                                         idx);
        if (!lapic)
            break;

        memset(lapic_nm, 0, sizeof(lapic_nm));
        vmm_sprintf(lapic_nm, VMM_DEVTREE_LAPIC_PCPU_NODE_FMT, idx);
        struct vmm_devtree_node *nnode = vmm_devtree_addnode(cnode, lapic_nm);

        if (vmm_devtree_setattr(nnode, VMM_DEVTREE_LAPIC_CPU_ID_ATTR_NAME,
                                &lapic->acpi_cpu_id, VMM_DEVTREE_ATTRTYPE_UINT32,
                                sizeof(lapic->acpi_cpu_id), FALSE) != VMM_OK) {
            ret = VMM_EFAIL;
            break;
        }

        if (vmm_devtree_setattr(nnode, VMM_DEVTREE_LAPIC_LAPIC_ID_ATTR_NAME,
                                &lapic->apic_id, VMM_DEVTREE_ATTRTYPE_UINT32,
                                sizeof(lapic->apic_id), FALSE) != VMM_OK) {
            ret = VMM_EFAIL;
            break;
        }

        idx++;
    }

    vmm_devtree_setattr(cnode, VMM_DEVTREE_NR_LAPIC_ATTR_NAME,
                        &idx, VMM_DEVTREE_ATTRTYPE_UINT32, sizeof(idx), FALSE);

    return ret;
}

コード例 #7

ファイル: acpi.c プロジェクト: JimmyDurandWesolowski/xvisor-next

static int __init acpi_populate_ioapic_devtree(struct acpi_madt_hdr *madt_hdr,
        struct vmm_devtree_node *cnode)
{
    unsigned int idx = 0;
    int ret = VMM_OK;
    struct acpi_madt_ioapic *ioapic;
    char ioapic_nm[256];

    for (;;) {
        ioapic = (struct acpi_madt_ioapic *)
                 acpi_madt_get_typed_item(madt_hdr, ACPI_MADT_TYPE_IOAPIC,
                                          idx);
        if (!ioapic)
            break;

        memset(ioapic_nm, 0, sizeof(ioapic_nm));
        vmm_sprintf(ioapic_nm, VMM_DEVTREE_IOAPIC_NODE_FMT, idx);
        struct vmm_devtree_node *nnode = vmm_devtree_addnode(cnode, ioapic_nm);

        if (vmm_devtree_setattr(nnode, VMM_DEVTREE_IOAPIC_PADDR_ATTR_NAME,
                                &ioapic->address, VMM_DEVTREE_ATTRTYPE_PHYSADDR,
                                sizeof(physical_addr_t), FALSE) != VMM_OK) {
            ret = VMM_EFAIL;
            break;
        }

        if (vmm_devtree_setattr(nnode, VMM_DEVTREE_IOAPIC_GINT_BASE_ATTR_NAME,
                                &ioapic->global_int_base, VMM_DEVTREE_ATTRTYPE_UINT32,
                                sizeof(ioapic->global_int_base), FALSE) != VMM_OK) {
            ret = VMM_EFAIL;
            break;
        }

        idx++;
    }

    vmm_devtree_setattr(cnode, VMM_DEVTREE_NR_IOAPIC_ATTR_NAME,
                        &idx, VMM_DEVTREE_ATTRTYPE_UINT32, sizeof(idx), FALSE);

    return ret;
}

コード例 #8

ファイル: smp_twd.c プロジェクト: HeidCloud/xvisor

static int __cpuinit twd_clockchip_init(struct vmm_devtree_node *node)
{
	int rc;
	u32 ref_cnt_freq;
	virtual_addr_t ref_cnt_addr;
	u32 cpu = vmm_smp_processor_id();
	struct twd_clockchip *cc = &this_cpu(twd_cc);

	if (!twd_base) {
		rc = vmm_devtree_regmap(node, &twd_base, 0);
		if (rc) {
			goto fail;
		}
	}

	if (!twd_ppi_irq) {
		rc = vmm_devtree_irq_get(node, &twd_ppi_irq, 0);
		if (rc) {
			goto fail_regunmap;
		}
	}

	if (!twd_freq_hz) {
		/* First try to find TWD clock */
		if (!twd_clk) {
			twd_clk = of_clk_get(node, 0);
		}
		if (!twd_clk) {
			twd_clk = clk_get_sys("smp_twd", NULL);
		}

		if (twd_clk) {
			/* Use TWD clock to find frequency */
			rc = clk_prepare_enable(twd_clk);
			if (rc) {
				clk_put(twd_clk);
				goto fail_regunmap;
			}
			twd_freq_hz = clk_get_rate(twd_clk);
		} else {
			/* No TWD clock found hence caliberate */
			rc = vmm_devtree_regmap(node, &ref_cnt_addr, 1);
			if (rc) {
				vmm_devtree_regunmap(node, ref_cnt_addr, 1);
				goto fail_regunmap;
			}
			if (vmm_devtree_read_u32(node, "ref-counter-freq",
						 &ref_cnt_freq)) {
				vmm_devtree_regunmap(node, ref_cnt_addr, 1);
				goto fail_regunmap;
			}
			twd_caliberate_freq(twd_base, 
					ref_cnt_addr, ref_cnt_freq);
			vmm_devtree_regunmap(node, ref_cnt_addr, 1);
		}
	}

	memset(cc, 0, sizeof(struct twd_clockchip));

	vmm_sprintf(cc->name, "twd/%d", cpu);

	cc->clkchip.name = cc->name;
	cc->clkchip.hirq = twd_ppi_irq;
	cc->clkchip.rating = 350;
	cc->clkchip.cpumask = vmm_cpumask_of(cpu);
	cc->clkchip.features = 
		VMM_CLOCKCHIP_FEAT_PERIODIC | VMM_CLOCKCHIP_FEAT_ONESHOT;
	vmm_clocks_calc_mult_shift(&cc->clkchip.mult, &cc->clkchip.shift, 
				   VMM_NSEC_PER_SEC, twd_freq_hz, 10);
	cc->clkchip.min_delta_ns = vmm_clockchip_delta2ns(0xF, &cc->clkchip);
	cc->clkchip.max_delta_ns = 
			vmm_clockchip_delta2ns(0xFFFFFFFF, &cc->clkchip);
	cc->clkchip.set_mode = &twd_clockchip_set_mode;
	cc->clkchip.set_next_event = &twd_clockchip_set_next_event;
	cc->clkchip.priv = cc;

	if (vmm_smp_is_bootcpu()) {
		/* Register interrupt handler */
		if ((rc = vmm_host_irq_register(twd_ppi_irq, "twd",
						&twd_clockchip_irq_handler, 
						cc))) {
			
			goto fail_regunmap;
		}

		/* Mark interrupt as per-cpu */
		if ((rc = vmm_host_irq_mark_per_cpu(twd_ppi_irq))) {
			goto fail_unreg_irq;
		}
	}

	/* Explicitly enable local timer PPI in GIC 
	 * Note: Local timer requires PPI support hence requires GIC
	 */
	gic_enable_ppi(twd_ppi_irq);

	rc = vmm_clockchip_register(&cc->clkchip);
	if (rc) {
		goto fail_unreg_irq;
	}

	return VMM_OK;

fail_unreg_irq:
	if (vmm_smp_is_bootcpu()) {
		vmm_host_irq_unregister(twd_ppi_irq, cc);
	}
fail_regunmap:
	vmm_devtree_regunmap(node, twd_base, 0);
fail:
	return rc;
}

コード例 #9

ファイル: smp_twd.c プロジェクト: simonkim/xvisor

int __cpuinit twd_clockchip_init(virtual_addr_t ref_counter_addr,
                                 u32 ref_counter_freq)
{
    int rc;
    u32 cpu = vmm_smp_processor_id();
    struct vmm_devtree_node *node;
    struct twd_clockchip *cc = &this_cpu(twd_cc);

    node = vmm_devtree_find_matching(NULL, twd_match);
    if (!node) {
        return VMM_ENODEV;
    }

    if (!twd_base) {
        rc = vmm_devtree_regmap(node, &twd_base, 0);
        if (rc) {
            return rc;
        }
    }

    if (!twd_ppi_irq) {
        rc = vmm_devtree_irq_get(node, &twd_ppi_irq, 0);
        if (rc) {
            return rc;
        }
    }

    twd_caliberate_freq(twd_base, ref_counter_addr, ref_counter_freq);

    memset(cc, 0, sizeof(struct twd_clockchip));

    vmm_sprintf(cc->name, "twd/%d", cpu);

    cc->clkchip.name = cc->name;
    cc->clkchip.hirq = twd_ppi_irq;
    cc->clkchip.rating = 350;
    cc->clkchip.cpumask = vmm_cpumask_of(cpu);
    cc->clkchip.features =
        VMM_CLOCKCHIP_FEAT_PERIODIC | VMM_CLOCKCHIP_FEAT_ONESHOT;
    vmm_clocks_calc_mult_shift(&cc->clkchip.mult, &cc->clkchip.shift,
                               VMM_NSEC_PER_SEC, twd_freq_hz, 10);
    cc->clkchip.min_delta_ns = vmm_clockchip_delta2ns(0xF, &cc->clkchip);
    cc->clkchip.max_delta_ns =
        vmm_clockchip_delta2ns(0xFFFFFFFF, &cc->clkchip);
    cc->clkchip.set_mode = &twd_clockchip_set_mode;
    cc->clkchip.set_next_event = &twd_clockchip_set_next_event;
    cc->clkchip.priv = cc;

    if (!cpu) {
        /* Register interrupt handler */
        if ((rc = vmm_host_irq_register(twd_ppi_irq, "twd",
                                        &twd_clockchip_irq_handler,
                                        cc))) {
            return rc;
        }

        /* Mark interrupt as per-cpu */
        if ((rc = vmm_host_irq_mark_per_cpu(twd_ppi_irq))) {
            return rc;
        }
    }

    /* Explicitly enable local timer PPI in GIC
     * Note: Local timer requires PPI support hence requires GIC
     */
    gic_enable_ppi(twd_ppi_irq);

    return vmm_clockchip_register(&cc->clkchip);
}

コード例 #10

ファイル: uip-netport.c プロジェクト: jhludwig/xvisor

int uip_netport_init(void)
{
	struct vmm_netswitch *nsw;
	struct uip_port_state *s = &uip_port_state;
	struct uip_fw_netif *netif;
	uip_ipaddr_t ipaddr;
	char tname[64];

	uip_buf = vmm_malloc(UIP_BUFSIZE + 2);
	if(!uip_buf) {
		vmm_panic("%s: uip_buf alloc failed\n", __func__);
	}

	INIT_SPIN_LOCK(&s->lock);
	INIT_LIST_HEAD(&s->rxbuf);
	INIT_COMPLETION(&s->rx_possible);

	/* Get the first netswitch */
	nsw = vmm_netswitch_get(0);
	if(!nsw) {
		vmm_panic("No netswitch found\n");
	}
	/* Create a port-name */
	vmm_sprintf(tname, "%s-uip", nsw->name); 
	/* Allocate a netport for this netswitch */
	s->port = vmm_netport_alloc(tname);
	if(!s->port) {
		vmm_printf("UIP->netport alloc failed\n");
		return VMM_EFAIL;
	}
	/* Allocate a uip_fw_netif */ 
	netif = vmm_malloc(sizeof(struct uip_fw_netif));
	if(!netif) {
		vmm_printf("UIP->netif alloc failed\n");
		return VMM_EFAIL;
	}
	/* Register the netport */
	s->port->mtu = UIP_BUFSIZE;
	s->port->link_changed = uip_set_link;
	s->port->can_receive = uip_can_receive;
	s->port->switch2port_xfer = uip_switch2port_xfer;
	s->port->priv = s;
	s->netif = netif;

	vmm_netport_register(s->port);
	/* Attach with the netswitch */
	vmm_netswitch_port_add(nsw, s->port);
	/* Notify our ethernet address */
	uip_setethaddr(((struct uip_eth_addr *)(s->port->macaddr)));
	/* Generate an IP address */
	uip_ipaddr(ipaddr, 192,168,0,1);
	uip_fw_setipaddr(netif, ipaddr);
	uip_ipaddr(ipaddr, 255,255,255,0);
	uip_fw_setnetmask(netif, ipaddr);
	/* Register the netif with uip stack */
	netif->output = &uip_netport_output;
	netif->priv = s;
	uip_fw_register(netif);
	/* Set this interface as default one */
	uip_fw_default(netif);
	return 0;
}