Esempio n. 1
0
func subnet_2_0(source map[string]interface{}) (*subnet, error) {
	fields := schema.Fields{
		"resource_uri": schema.String(),
		"id":           schema.ForceInt(),
		"name":         schema.String(),
		"space":        schema.String(),
		"gateway_ip":   schema.OneOf(schema.Nil(""), schema.String()),
		"cidr":         schema.String(),
		"vlan":         schema.StringMap(schema.Any()),
		"dns_servers":  schema.OneOf(schema.Nil(""), schema.List(schema.String())),
	}
	checker := schema.FieldMap(fields, nil) // no defaults
	coerced, err := checker.Coerce(source, nil)
	if err != nil {
		return nil, errors.Annotatef(err, "subnet 2.0 schema check failed")
	}
	valid := coerced.(map[string]interface{})
	// From here we know that the map returned from the schema coercion
	// contains fields of the right type.

	vlan, err := vlan_2_0(valid["vlan"].(map[string]interface{}))
	if err != nil {
		return nil, errors.Trace(err)
	}

	// Since the gateway_ip is optional, we use the two part cast assignment. If
	// the cast fails, then we get the default value we care about, which is the
	// empty string.
	gateway, _ := valid["gateway_ip"].(string)

	result := &subnet{
		resourceURI: valid["resource_uri"].(string),
		id:          valid["id"].(int),
		name:        valid["name"].(string),
		space:       valid["space"].(string),
		vlan:        vlan,
		gateway:     gateway,
		cidr:        valid["cidr"].(string),
		dnsServers:  convertToStringSlice(valid["dns_servers"]),
	}
	return result, nil
}
Esempio n. 2
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func vlan_2_0(source map[string]interface{}) (*vlan, error) {
	fields := schema.Fields{
		"id":           schema.ForceInt(),
		"resource_uri": schema.String(),
		"name":         schema.OneOf(schema.Nil(""), schema.String()),
		"fabric":       schema.String(),
		"vid":          schema.ForceInt(),
		"mtu":          schema.ForceInt(),
		"dhcp_on":      schema.Bool(),
		// racks are not always set.
		"primary_rack":   schema.OneOf(schema.Nil(""), schema.String()),
		"secondary_rack": schema.OneOf(schema.Nil(""), schema.String()),
	}
	checker := schema.FieldMap(fields, nil)
	coerced, err := checker.Coerce(source, nil)
	if err != nil {
		return nil, errors.Annotatef(err, "vlan 2.0 schema check failed")
	}
	valid := coerced.(map[string]interface{})
	// From here we know that the map returned from the schema coercion
	// contains fields of the right type.

	// Since the primary and secondary racks are optional, we use the two
	// part cast assignment. If the case fails, then we get the default value
	// we care about, which is the empty string.
	primary_rack, _ := valid["primary_rack"].(string)
	secondary_rack, _ := valid["secondary_rack"].(string)
	name, _ := valid["name"].(string)

	result := &vlan{
		resourceURI:   valid["resource_uri"].(string),
		id:            valid["id"].(int),
		name:          name,
		fabric:        valid["fabric"].(string),
		vid:           valid["vid"].(int),
		mtu:           valid["mtu"].(int),
		dhcp:          valid["dhcp_on"].(bool),
		primaryRack:   primary_rack,
		secondaryRack: secondary_rack,
	}
	return result, nil
}
Esempio n. 3
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func (s *S) TestOneOf(c *gc.C) {
	s.sch = schema.OneOf(schema.Const("foo"), schema.Const(42))

	out, err := s.sch.Coerce("foo", aPath)
	c.Assert(err, gc.IsNil)
	c.Assert(out, gc.Equals, "foo")

	out, err = s.sch.Coerce(42, aPath)
	c.Assert(err, gc.IsNil)
	c.Assert(out, gc.Equals, 42)

	out, err = s.sch.Coerce("bar", aPath)
	c.Assert(out, gc.IsNil)
	c.Assert(err, gc.ErrorMatches, `<path>: unexpected value "bar"`)
}
Esempio n. 4
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func partition_2_0(source map[string]interface{}) (*partition, error) {
	fields := schema.Fields{
		"resource_uri": schema.String(),

		"id":   schema.ForceInt(),
		"path": schema.String(),
		"uuid": schema.String(),

		"used_for": schema.String(),
		"size":     schema.ForceUint(),

		"filesystem": schema.OneOf(schema.Nil(""), schema.StringMap(schema.Any())),
	}
	checker := schema.FieldMap(fields, nil)
	coerced, err := checker.Coerce(source, nil)
	if err != nil {
		return nil, WrapWithDeserializationError(err, "partition 2.0 schema check failed")
	}
	valid := coerced.(map[string]interface{})
	// From here we know that the map returned from the schema coercion
	// contains fields of the right type.

	var filesystem *filesystem
	if fsSource := valid["filesystem"]; fsSource != nil {
		filesystem, err = filesystem2_0(fsSource.(map[string]interface{}))
		if err != nil {
			return nil, errors.Trace(err)
		}
	}

	result := &partition{
		resourceURI: valid["resource_uri"].(string),
		id:          valid["id"].(int),
		path:        valid["path"].(string),
		uuid:        valid["uuid"].(string),
		usedFor:     valid["used_for"].(string),
		size:        valid["size"].(uint64),
		filesystem:  filesystem,
	}
	return result, nil
}
Esempio n. 5
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func fabric_2_0(source map[string]interface{}) (*fabric, error) {
	fields := schema.Fields{
		"resource_uri": schema.String(),
		"id":           schema.ForceInt(),
		"name":         schema.String(),
		"class_type":   schema.OneOf(schema.Nil(""), schema.String()),
		"vlans":        schema.List(schema.StringMap(schema.Any())),
	}
	checker := schema.FieldMap(fields, nil) // no defaults
	coerced, err := checker.Coerce(source, nil)
	if err != nil {
		return nil, errors.Annotatef(err, "fabric 2.0 schema check failed")
	}
	valid := coerced.(map[string]interface{})
	// From here we know that the map returned from the schema coercion
	// contains fields of the right type.

	vlans, err := readVLANList(valid["vlans"].([]interface{}), vlan_2_0)
	if err != nil {
		return nil, errors.Trace(err)
	}

	// Since the class_type is optional, we use the two part cast assignment. If
	// the cast fails, then we get the default value we care about, which is the
	// empty string.
	classType, _ := valid["class_type"].(string)

	result := &fabric{
		resourceURI: valid["resource_uri"].(string),
		id:          valid["id"].(int),
		name:        valid["name"].(string),
		classType:   classType,
		vlans:       vlans,
	}
	return result, nil
}
Esempio n. 6
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File: ebs.go Progetto: pmatulis/juju
	defaultPools := []*storage.Config{
		ebsssdPool,
	}
	poolmanager.RegisterDefaultStoragePools(defaultPools)
}

// ebsProvider creates volume sources which use AWS EBS volumes.
type ebsProvider struct{}

var _ storage.Provider = (*ebsProvider)(nil)

var ebsConfigFields = schema.Fields{
	EBS_VolumeType: schema.OneOf(
		schema.Const(volumeTypeMagnetic),
		schema.Const(volumeTypeSsd),
		schema.Const(volumeTypeProvisionedIops),
		schema.Const(volumeTypeStandard),
		schema.Const(volumeTypeGp2),
		schema.Const(volumeTypeIo1),
	),
	EBS_IOPS:      schema.ForceInt(),
	EBS_Encrypted: schema.Bool(),
}

var ebsConfigChecker = schema.FieldMap(
	ebsConfigFields,
	schema.Defaults{
		EBS_VolumeType: volumeTypeMagnetic,
		EBS_IOPS:       schema.Omit,
		EBS_Encrypted:  false,
	},
)
Esempio n. 7
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	v, err = mapC.Coerce(v, path)
	if err != nil {
		return
	}
	m := v.(map[string]interface{})
	if _, ok := m["limit"]; !ok {
		m["limit"] = c.limit
	}
	return ifaceSchema.Coerce(m, path)
}

var ifaceSchema = schema.FieldMap(
	schema.Fields{
		"interface": schema.String(),
		"limit":     schema.OneOf(schema.Const(nil), schema.Int()),
		"scope":     schema.OneOf(schema.Const(string(ScopeGlobal)), schema.Const(string(ScopeContainer))),
		"optional":  schema.Bool(),
	},
	schema.Defaults{
		"scope":    string(ScopeGlobal),
		"optional": false,
	},
)

var charmSchema = schema.FieldMap(
	schema.Fields{
		"name":        schema.String(),
		"summary":     schema.String(),
		"description": schema.String(),
		"peers":       schema.StringMap(ifaceExpander(int64(1))),
Esempio n. 8
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File: volumes.go Progetto: bac/juju
}

// StorageProvider implements storage.ProviderRegistry.
func (*maasEnviron) StorageProvider(t storage.ProviderType) (storage.Provider, error) {
	if t == maasStorageProviderType {
		return maasStorageProvider{}, nil
	}
	return nil, errors.NotFoundf("storage provider %q", t)
}

// maasStorageProvider allows volumes to be specified when a node is acquired.
type maasStorageProvider struct{}

var storageConfigFields = schema.Fields{
	tagsAttribute: schema.OneOf(
		schema.List(schema.String()),
		schema.String(),
	),
}

var storageConfigChecker = schema.FieldMap(
	storageConfigFields,
	schema.Defaults{
		tagsAttribute: schema.Omit,
	},
)

type storageConfig struct {
	tags []string
}

func newStorageConfig(attrs map[string]interface{}) (*storageConfig, error) {