def __init__(self, name: str, props: SpokeProps,
opts: ResourceOptions=None):
super().__init__('vdc:network:Spoke', name, {}, opts)
# set required vdc variables before calling functions
vdc.resource_group_name = props.resource_group_name
vdc.tags = props.tags
vdc.self = self
# calculate the subnets in spoke_address_space
spoke_nw = ip_network(props.spoke_address_space)
if spoke_nw.prefixlen < 24: # split evenly between subnets and hosts
sub_diff = int((spoke_nw.max_prefixlen - spoke_nw.prefixlen) / 2)
else:
sub_diff = 27 - spoke_nw.prefixlen # minimum /27 subnet
subnets = spoke_nw.subnets(prefixlen_diff=sub_diff)
next_sn = next(subnets) # first subnet reserved for special uses
first_sn = next_sn.subnets(new_prefix=27) # subdivide if possible
abs_nw = next(first_sn) # AzureBastionSubnet /27 or greater
# Azure Virtual Network to be peered to the hub
spoke = vdc.virtual_network(name, [props.spoke_address_space])
# VNet Peering from the hub to spoke
hub_spoke = vdc.vnet_peering(
stem = props.hub.stem,
virtual_network_name = props.hub.name,
peer = name,
remote_virtual_network_id = spoke.id,
allow_gateway_transit = True,
depends_on=[props.hub.er_gw, props.hub.vpn_gw], # avoid contention
)
# VNet Peering from spoke to the hub
spoke_hub = vdc.vnet_peering(
stem = name,
virtual_network_name = spoke.name,
peer = props.hub.stem,
remote_virtual_network_id = props.hub.id,
allow_forwarded_traffic = True,
use_remote_gateways = True, # requires at least one gateway
depends_on=[props.hub.er_gw, props.hub.vpn_gw],
)
# add routes to spokes in peered stack
if props.peer:
peer_fw_ip = props.reference.get_output('fw_ip')
peer_spoke_as = props.reference.get_output(f'{name}_address_spaces')
for address_prefix in peer_spoke_as:
vdc.route_to_virtual_appliance(
stem = f'fw-{props.peer}-{name}',
route_table_name = props.fw_rt_name,
address_prefix = address_prefix,
next_hop_in_ip_address = peer_fw_ip,
) # only one address_space per spoke at present...
# Azure Bastion subnet and host (optional)
if props.azure_bastion:
spoke_ab_sn = vdc.subnet_special(
stem = f'{name}-ab',
name = 'AzureBastionSubnet',
virtual_network_name = spoke.name,
address_prefix = str(abs_nw),
depends_on = [hub_spoke, spoke_hub], # avoid contention
)
spoke_ab = vdc.bastion_host(
stem = name,
subnet_id = spoke_ab_sn.id,
)
# Route Table only to be associated with ordinary spoke subnets
spoke_rt = vdc.route_table(
stem = f'{name}',
disable_bgp_route_propagation = True,
depends_on = [hub_spoke, spoke_hub], # avoid contention
)
# VNet Peering may not be specified as next_hop_type, so a separate
# hub address space from the firewall is necessary to allow routes
# from spokes to remain unchanged when hub subnets are added
# it is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet.
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'dmz-{name}', props.hub.dmz_rt_name, props.spoke_address_space),
(f'gw-{name}', props.hub.gw_rt_name, props.spoke_address_space),
(f'ss-{name}', props.hub.ss_rt_name, props.spoke_address_space),
(f'{name}-dg', spoke_rt.name, '0.0.0.0/0'),
(f'{name}-dmz', spoke_rt.name, props.hub.dmz_ar),
(f'{name}-hub', spoke_rt.name, props.hub.hub_as),
]:
vdc.route_to_virtual_appliance(
stem = route[0],
route_table_name = route[1],
address_prefix = route[2],
next_hop_in_ip_address = props.hub.fw_ip,
)
# ordinary spoke subnets starting with the second subnet
for subnet in props.subnets:
next_sn = next(subnets)
spoke_sn = vdc.subnet(
stem = f'{name}-{subnet[0]}',
virtual_network_name = spoke.name,
address_prefix = str(next_sn),
depends_on = [spoke_rt], # avoid contention
)
spoke_sn_rta = vdc.subnet_route_table(
stem = f'{name}-{subnet[0]}',
route_table_id = spoke_rt.id,
subnet_id = spoke_sn.id,
)
# assign properties to spoke including from child resources
self.address_spaces = spoke.address_spaces #exported
self.hub = props.hub.id
self.id = spoke.id # exported
self.location = spoke.location
self.name = spoke.name # exported
self.resource_group_name = props.resource_group_name
self.subnets = spoke.subnets
self.stem = name
self.tags = props.tags
self.register_outputs({})
def __init__(self,
name: str,
props: HubProps,
opts: ResourceOptions = None):
super().__init__('vdc:network:Hub', name, {}, opts)
# set required vdc variables before calling functions
vdc.resource_group_name = props.resource_group_name
vdc.tags = props.tags
vdc.self = self
# calculate the subnets in the firewall_address_space
fwz_nw = ip_network(props.firewall_address_space)
fwz_sn = fwz_nw.subnets(new_prefix=25) # two /26 subnets required
fwx_nw = next(fwz_sn) # for Azure Firewall and Management subnets
fwz_sn = fwz_nw.address_exclude(fwx_nw) # consolidate remainder
dmz_nw = next(fwz_sn) # largest remaining subnet for DMZ
fwx_sn = fwx_nw.subnets(new_prefix=26) # split the /25 into two /26
fws_nw = next(fwx_sn) # AzureFirewallSubnet
fwm_nw = next(fwx_sn) # AzureFirewallManagementSubnet
# calculate the subnets in the hub_address_space
hub_nw = ip_network(props.hub_address_space)
if hub_nw.prefixlen < 20: # split evenly between subnets and hosts
sub_diff = int((hub_nw.max_prefixlen - hub_nw.prefixlen) / 2)
else:
sub_diff = 25 - hub_nw.prefixlen # minimum /25 subnet
subnets = hub_nw.subnets(prefixlen_diff=sub_diff)
next_sn = next(subnets) # first subnet reserved for special uses
first_sn = next_sn.subnets(new_prefix=26) # split it into /26 subnets
gws_nw = next(first_sn) # GatewaySubnet /26
rem_nw = next(first_sn) # at least one more /26 subnet, perhaps more
rem_sn = rem_nw.subnets(new_prefix=27) # only need /27 save the rest
abs_nw = next(rem_sn) # AzureBastionSubnet /27 or greater
# cast repeatedly referenced networks to strings
dmz_ar = str(dmz_nw)
gws_ar = str(gws_nw)
# Azure Virtual Network to which spokes will be peered
# separate address spaces to simplify custom routing
hub = vdc.virtual_network(
name,
[
props.firewall_address_space,
props.hub_address_space,
],
)
# Azure will deploy gateways into this subnet
hub_gw_sn = vdc.subnet_special(
stem=f'{name}-gw',
name='GatewaySubnet', # name required
virtual_network_name=hub.name,
address_prefix=gws_ar,
)
# A perimeter network for Internet-facing services
hub_dmz_sn = vdc.subnet_special( #ToDo add NSG
stem=f'{name}-dmz',
name='DMZ', # name not required but preferred
virtual_network_name=hub.name,
address_prefix=dmz_ar,
)
# Azure will deploy the firewall into this subnet
hub_fw_sn = vdc.subnet_special(
stem=f'{name}-fw',
name='AzureFirewallSubnet', # name required
virtual_network_name=hub.name,
address_prefix=str(fws_nw),
)
# Azure requires this subnet in case of forced_tunnel
hub_fwm_sn = vdc.subnet_special(
stem=f'{name}-fwm',
name='AzureFirewallManagementSubnet', # name required
virtual_network_name=hub.name,
address_prefix=str(fwm_nw),
)
# Gateways and Firewall depends_on special subnets
# to avoid contention in the Azure control plane
# Azure Firewall
hub_fw = vdc.firewall(
stem=name,
fw_sn_id=hub_fw_sn.id,
fwm_sn_id=hub_fwm_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_fwm_sn, hub_gw_sn],
)
# VPN Gateway
hub_vpn_gw = vdc.vpn_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_fwm_sn, hub_gw_sn],
)
# ExpressRoute Gateway
hub_er_gw = vdc.expressroute_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_fwm_sn, hub_gw_sn],
)
# Azure Bastion subnet and host (optional)
if props.azure_bastion:
hub_ab_sn = vdc.subnet_special( #ToDo add NSG if required
stem=f'{name}-ab',
name='AzureBastionSubnet', # name required
virtual_network_name=hub.name,
address_prefix=str(abs_nw),
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw], # avoid contention
)
hub_ab = vdc.bastion_host(
stem=name,
subnet_id=hub_ab_sn.id,
)
#ToDo requires Azure API version 2019-11-01 or later
#if props.forced_tunnel:
# https://docs.microsoft.com/en-us/azure/firewall/forced-tunneling
# work around https://github.com/pulumi/pulumi/issues/4040
hub_fw_ip = hub_fw.ip_configurations.apply(
lambda ipc: ipc[0].get('private_ip_address'))
# Route Table only to be associated with GatewaySubnet
hub_gw_rt = vdc.route_table(
stem=f'{name}-gw',
disable_bgp_route_propagation=False,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw], # avoid contention
)
hub_gw_sn_rta = vdc.subnet_route_table(
stem=f'{name}-gw',
route_table_id=hub_gw_rt.id,
subnet_id=hub_gw_sn.id,
)
# Route Table only to be associated with DMZ subnet
hub_dmz_rt = vdc.route_table(
stem=f'{name}-dmz',
disable_bgp_route_propagation=True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw], # avoid contention
)
hub_dmz_sn_rta = vdc.subnet_route_table(
stem=f'{name}-dmz',
route_table_id=hub_dmz_rt.id,
subnet_id=hub_dmz_sn.id,
)
# Route Table only to be associated with hub shared services subnets
hub_ss_rt = vdc.route_table(
stem=f'{name}-ss',
disable_bgp_route_propagation=True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw], # avoid contention
)
# protect intra-GatewaySubnet traffic from being redirected
vdc.route_to_virtual_network(
stem=f'gw-gw',
route_table_name=hub_gw_rt.name,
address_prefix=gws_ar,
)
# it is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet.
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'gw-dmz', hub_gw_rt.name, dmz_ar),
(f'gw-hub', hub_gw_rt.name, props.hub_address_space),
(f'dmz-dg', hub_dmz_rt.name, '0.0.0.0/0'),
(f'dmz-dmz', hub_dmz_rt.name, dmz_ar),
(f'dmz-hub', hub_dmz_rt.name, props.hub_address_space),
(f'ss-dg', hub_ss_rt.name, '0.0.0.0/0'),
(f'ss-dmz', hub_ss_rt.name, dmz_ar),
(f'ss-gw', hub_ss_rt.name, gws_ar),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=hub_fw_ip,
)
# VNet Peering between stacks using StackReference
if props.peer:
peer_stack = StackReference(props.reference)
peer_hub_id = peer_stack.get_output('hub_id')
# VNet Peering (Global) in one direction from stack to peer
hub_hub = vdc.vnet_peering(
stem=props.stack,
virtual_network_name=hub.name,
peer=props.peer,
remote_virtual_network_id=peer_hub_id,
allow_forwarded_traffic=True,
allow_gateway_transit=False, # as both hubs have gateways
)
# need to invalidate system routes created by Global VNet Peering
peer_dmz_ar = peer_stack.get_output('dmz_ar')
peer_fw_ip = peer_stack.get_output('fw_ip')
peer_hub_as = peer_stack.get_output('hub_as')
for route in [
(f'dmz-{props.peer}-dmz', hub_dmz_rt.name, peer_dmz_ar),
(f'dmz-{props.peer}-hub', hub_dmz_rt.name, peer_hub_as),
(f'gw-{props.peer}-dmz', hub_gw_rt.name, peer_dmz_ar),
(f'gw-{props.peer}-hub', hub_gw_rt.name, peer_hub_as),
(f'ss-{props.peer}-dmz', hub_ss_rt.name, peer_dmz_ar),
(f'ss-{props.peer}-hub', hub_ss_rt.name, peer_hub_as),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=peer_fw_ip,
)
# shared services subnets starting with the second subnet
for subnet in props.subnets:
next_sn = next(subnets)
hub_sn = vdc.subnet( #ToDo add NSG
stem=f'{name}-{subnet[0]}',
virtual_network_name=hub.name,
address_prefix=str(next_sn),
depends_on=[hub_ss_rt], # avoid contention
)
hub_sn_rta = vdc.subnet_route_table(
stem=f'{name}-{subnet[0]}',
route_table_id=hub_ss_rt.id,
subnet_id=hub_sn.id,
)
# assign properties to hub including from child resources
self.address_spaces = hub.address_spaces # informational
self.dmz_ar = dmz_ar # used for routes to the hub
self.dmz_rt_name = hub_dmz_rt.name # used to add routes to spokes
self.er_gw = hub_er_gw # needed prior to VNet Peering from spokes
self.fw = hub_fw # needed prior to VNet Peering from spokes
self.fw_ip = hub_fw_ip # used for routes to the hub
self.gw_rt_name = hub_gw_rt.name # used to add routes to spokes
self.hub_as = props.hub_address_space # used for routes to the hub
self.id = hub.id # exported and used for stack and spoke peering
self.location = hub.location # informational
self.name = hub.name # exported and used for spoke peering
self.peer = props.peer # informational
self.resource_group_name = props.resource_group_name # informational
self.subnets = hub.subnets # exported as informational
self.stack = props.stack # informational
self.stem = name # used for VNet Peering from spokes
self.ss_rt_name = hub_ss_rt.name # used to add routes to spokes
self.tags = props.tags # informational
self.vpn_gw = hub_vpn_gw # needed prior to VNet Peering from spokes
self.register_outputs({})
def __init__(self,
name: str,
props: SpokeProps,
opts: ResourceOptions = None):
super().__init__('vdc:network:Spoke', name, {}, opts)
# set required vdc variables before calling functions
vdc.location = props.location
vdc.resource_group_name = props.resource_group_name
vdc.s = props.separator
vdc.self = self
vdc.suffix = props.suffix
vdc.tags = props.tags
# calculate the subnets in spoke_address_space
spoke_nw = ip_network(props.spoke_address_space)
if spoke_nw.prefixlen < 24: # split evenly between subnets and hosts
sub_diff = int((spoke_nw.max_prefixlen - spoke_nw.prefixlen) / 2)
else:
sub_diff = 27 - spoke_nw.prefixlen # minimum /27 subnet
subnets = spoke_nw.subnets(prefixlen_diff=sub_diff)
next_sn = next(subnets) # first subnet reserved for special uses
first_sn = next_sn.subnets(new_prefix=27) # subdivide if possible
abs_nw = next(first_sn) # AzureBastionSubnet /27 or greater
# set the separator to be used in resource names
s = props.separator
# Azure Virtual Network to be peered to the hub
spoke = vdc.virtual_network(name, [props.spoke_address_space])
# VNet Peering from the hub to spoke
hub_spoke = vdc.vnet_peering(
stem=props.hub.stem,
virtual_network_name=props.hub.name,
peer=name,
remote_virtual_network_id=spoke.id,
allow_gateway_transit=True,
depends_on=[spoke],
)
# VNet Peering from spoke to the hub
spoke_hub = vdc.vnet_peering(
stem=name,
virtual_network_name=spoke.name,
peer=props.hub.stem,
remote_virtual_network_id=props.hub.id,
allow_forwarded_traffic=True,
use_remote_gateways=True, # requires at least one gateway
depends_on=[spoke, props.hub.er_gw, props.hub.vpn_gw],
)
# Route Table to be associated with all ordinary spoke subnets
spoke_rt = vdc.route_table(
stem=f'{name}',
disable_bgp_route_propagation=True,
)
# it is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet, and as VNet
# Peering may not be specified as next_hop_type, a separate address
# space for the firewall in the hub makes for simpler routes
for route in [
(f'dmz{s}{name}', props.hub.dmz_rt_name,
props.spoke_address_space),
(f'gw{s}{name}', props.hub.gw_rt_name, props.spoke_address_space),
(f'ss{s}{name}', props.hub.ss_rt_name, props.spoke_address_space),
(f'{name}{s}dg', spoke_rt.name, '0.0.0.0/0'),
(f'{name}{s}dmz', spoke_rt.name, props.hub.dmz_ar),
(f'{name}{s}hub', spoke_rt.name, props.hub.address_space),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_ip_address=props.hub.fw_ip,
)
# ordinary spoke subnets starting with the second subnet
for subnet in props.subnets:
next_sn = next(subnets)
spoke_sn = vdc.subnet(
stem=f'{name}{s}{subnet[0]}',
virtual_network_name=spoke.name,
address_prefix=str(next_sn),
route_table_id=spoke_rt.id,
depends_on=[spoke_rt, hub_spoke, spoke_hub],
)
# Azure Bastion subnet and host (optional)
if props.azure_bastion:
spoke_ab = vdc.bastion_host(
stem=name,
virtual_network_name=spoke.name,
address_prefix=str(abs_nw),
depends_on=[hub_spoke, spoke_hub, spoke_rt],
)
# add route from firewall to corresponding spoke in peered stack
if props.peer:
peer_fw_ip = props.reference.get_output('fw_ip')
peer_spoke_as = props.reference.get_output(f'{name}_as')
fw_peer_spoke = vdc.route_to_virtual_appliance(
stem=f'fw{s}{props.peer}{s}{name}',
route_table_name=props.fw_rt_name,
address_prefix=peer_spoke_as,
next_hop_ip_address=peer_fw_ip,
)
# assign properties to spoke including from child resources
self.address_space = props.spoke_address_space
self.hub = props.hub.id
self.id = spoke.id
self.location = spoke.location
self.name = spoke.name
self.resource_group_name = props.resource_group_name
self.subnets = spoke.subnets
self.stem = name
self.tags = props.tags
self.register_outputs({})
def __init__(self,
name: str,
props: SpokeProps,
opts: ResourceOptions = None):
super().__init__('vdc:network:Spoke', name, {}, opts)
# set vdc defaults
vdc.resource_group_name = props.resource_group_name
vdc.tags = props.tags
vdc.self = self
# Azure Virtual Network to be peered to the hub
spoke = vdc.virtual_network(name, [props.spoke_as])
# VNet Peering from the hub to spoke
hub_spoke = vdc.vnet_peering(
stem=props.hub.stem,
virtual_network_name=props.hub.name,
peer=name,
remote_virtual_network_id=spoke.id,
allow_gateway_transit=True,
depends_on=[props.hub.er_gw, props.hub.vpn_gw], # avoid contention
)
# VNet Peering from spoke to the hub
spoke_hub = vdc.vnet_peering(
stem=name,
virtual_network_name=spoke.name,
peer=props.hub.stem,
remote_virtual_network_id=props.hub.id,
allow_forwarded_traffic=True,
use_remote_gateways=True, # requires at least one gateway
depends_on=[props.hub.er_gw, props.hub.vpn_gw],
)
# provisioning of optional subnet and routes depends_on VNet Peerings
# to avoid contention in the Azure control plane
# AzureBastionSubnet (optional)
if props.sbs_ar:
spoke_sbs_sn = vdc.subnet_special(
stem=f'{name}-ab',
name='AzureBastionSubnet',
virtual_network_name=spoke.name,
address_prefix=props.sbs_ar,
depends_on=[hub_spoke, spoke_hub],
)
# Route Table only to be associated with ordinary spoke subnets
spoke_rt = vdc.route_table(
stem=f'{name}',
disable_bgp_route_propagation=True,
depends_on=[hub_spoke, spoke_hub],
)
# as VNet Peering may not be specified as next_hop_type, a separate
# address space in the hub from the firewall allows routes from the
# spoke to remain unchanged when subnets are added in the hub
# it is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet.
#ToDo check AzureFirewallManagementSubnet requirements
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'dmz-{name}', props.hub.dmz_rt_name, props.spoke_as),
(f'gw-{name}', props.hub.gw_rt_name, props.spoke_as),
(f'ss-{name}', props.hub.ss_rt_name, props.spoke_as),
(f'{name}-dg', spoke_rt.name, '0.0.0.0/0'),
(f'{name}-dmz', spoke_rt.name, props.hub.dmz_ar),
(f'{name}-hub', spoke_rt.name, props.hub.hub_as),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=props.hub.fw_ip,
)
# provisioning of subnets depends_on Route Table (VNet Peerings)
# to avoid contention in the Azure control plane
# ordinary spoke subnets
subnet_range = props.spoke_ar
for subnet in props.subnets:
spoke_sn = vdc.subnet(
stem=f'{name}-{subnet[0]}',
virtual_network_name=spoke.name,
address_prefix=subnet_range,
depends_on=[spoke_rt],
)
# associate all ordinary spoke subnets to Route Table
spoke_sn_rta = vdc.subnet_route_table(
stem=f'{name}-{subnet[0]}',
route_table_id=spoke_rt.id,
subnet_id=spoke_sn.id,
)
subnet_range = vdc.subnet_next(props.spoke_as, subnet_range)
# assign properties to spoke including from child resources
self.address_spaces = spoke.address_spaces
self.hub = props.hub.id
self.id = spoke.id
self.location = spoke.location
self.name = spoke.name
self.resource_group_name = props.resource_group_name
self.subnets = spoke.subnets
self.stem = name
self.tags = props.tags
self.register_outputs({})
def __init__(self, name: str, props: HubProps, opts: ResourceOptions=None):
super().__init__('vdc:network:Hub', name, {}, opts)
# retrieve configuration
dmz_ar = props.config.require('dmz_ar')
fwm_ar = props.config.get('fwm_ar')
fws_ar = props.config.require('fws_ar')
fwz_as = props.config.require('fwz_as')
gws_ar = props.config.require('gws_ar')
hbs_ar = props.config.get('hbs_ar')
hub_ar = props.config.get('hub_ar')
hub_as = props.config.require('hub_as')
# set vdc defaults
vdc.resource_group_name = props.resource_group.name
vdc.location = props.resource_group.location
vdc.tags = props.tags
vdc.self = self
# Azure Virtual Network to which spokes will be peered
# separate address spaces to simplify custom routing
hub = vdc.virtual_network(name, [fwz_as, hub_as])
# DMZ subnet
hub_dmz_sn = vdc.subnet_special( #ToDo add NSG
stem = f'{name}-dmz',
name = 'DMZ', # name not required but preferred
virtual_network_name = hub.name,
address_prefix = dmz_ar,
)
# AzureFirewallSubnet
hub_fw_sn = vdc.subnet_special(
stem = f'{name}-fw',
name = 'AzureFirewallSubnet', # name required
virtual_network_name = hub.name,
address_prefix = fws_ar,
)
# GatewaySubnet
hub_gw_sn = vdc.subnet_special(
stem = f'{name}-gw',
name = 'GatewaySubnet', # name required
virtual_network_name = hub.name,
address_prefix = gws_ar,
)
# provisioning of Gateways and Firewall depends_on subnets
# to avoid contention in the Azure control plane
# VPN Gateway
hub_vpn_gw = vdc.vpn_gateway(
stem = name,
subnet_id = hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# ExpressRoute Gateway
hub_er_gw = vdc.expressroute_gateway(
stem = name,
subnet_id = hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# Azure Firewall
hub_fw = vdc.firewall(
stem = name,
subnet_id = hub_fw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# provisioning of optional subnets depends_on Gateways and Firewall
# to avoid contention in the Azure control plane
# AzureBastionSubnet (optional)
if hbs_ar:
hub_ab_sn = vdc.subnet_special( #ToDo add NSG if required
stem = f'{name}-ab',
name = 'AzureBastionSubnet', # name required
virtual_network_name = hub.name,
address_prefix = hbs_ar,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# AzureFirewallManagementSubnet (optional)
if fwm_ar:
hub_fwm_sn = vdc.subnet_special(
stem = f'{name}-fwm',
name = 'AzureFirewallManagementSubnet', # name required
virtual_network_name = hub.name,
address_prefix = fwm_ar,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# work around https://github.com/pulumi/pulumi/issues/4040
hub_fw_ip = hub_fw.ip_configurations.apply(
lambda ipc: ipc[0].get('private_ip_address')
)
# provisioning of Route Tables depends_on Gateways and Firewall
# to avoid contention in the Azure control plane
# Route Table only to be associated with the GatewaySubnet
hub_gw_rt = vdc.route_table(
stem = f'{name}-gw',
disable_bgp_route_propagation = False,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# associate GatewaySubnet with Route Table
hub_gw_sn_rta = vdc.subnet_route_table(
stem = f'{name}-gw',
route_table_id = hub_gw_rt.id,
subnet_id = hub_gw_sn.id,
)
# Route Table only to be associated with DMZ subnet
hub_dmz_rt = vdc.route_table(
stem = f'{name}-dmz',
disable_bgp_route_propagation = True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# associate DMZ subnet with Route Table
hub_dmz_sn_rta = vdc.subnet_route_table(
stem = f'{name}-dmz',
route_table_id = hub_dmz_rt.id,
subnet_id = hub_dmz_sn.id,
)
# Route Table only to be associated with ordinary subnets in hub
hub_sn_rt = vdc.route_table(
stem = f'{name}-sn',
disable_bgp_route_propagation = True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# protect intra-GatewaySubnet traffic from being redirected
vdc.route_to_virtual_network(
stem = f'gw-gw',
route_table_name = hub_gw_rt.name,
address_prefix = gws_ar,
)
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'gw-dmz', hub_gw_rt.name, dmz_ar),
(f'gw-hub', hub_gw_rt.name, hub_as),
(f'dmz-dg', hub_dmz_rt.name, '0.0.0.0/0'),
(f'dmz-dmz', hub_dmz_rt.name, dmz_ar),
(f'dmz-hub', hub_dmz_rt.name, hub_as),
(f'sn-dg', hub_sn_rt.name, '0.0.0.0/0'),
(f'sn-dmz', hub_sn_rt.name, dmz_ar),
(f'sn-gw', hub_sn_rt.name, gws_ar),
]:
vdc.route_to_virtual_appliance(
stem = route[0],
route_table_name = route[1],
address_prefix = route[2],
next_hop_in_ip_address = hub_fw_ip,
)
# VNet Peering between stacks using StackReference
peer = props.config.get('peer')
if peer:
org = props.config.require('org')
project = get_project()
peer_stack = StackReference(f'{org}/{project}/{peer}')
peer_hub_id = peer_stack.get_output('hub_id')
peer_fw_ip = peer_stack.get_output('hub_fw_ip')
peer_dmz_ar = peer_stack.get_output('dmz_ar')
peer_hub_as = peer_stack.get_output('hub_as')
# VNet Peering (Global) in one direction from stack to peer
hub_hub = vdc.vnet_peering(
stem = props.stack,
virtual_network_name = hub.name,
peer = peer,
remote_virtual_network_id = peer_hub_id,
allow_forwarded_traffic = True,
allow_gateway_transit = False, # as both hubs have gateways
)
# need to invalidate system routes created by Global VNet Peering
for route in [
(f'dmz-{peer}-dmz', hub_dmz_rt.name, peer_dmz_ar),
(f'dmz-{peer}-hub', hub_dmz_rt.name, peer_hub_as),
(f'gw-{peer}-dmz', hub_gw_rt.name, peer_dmz_ar),
(f'gw-{peer}-hub', hub_gw_rt.name, peer_hub_as),
(f'sn-{peer}-dmz', hub_sn_rt.name, peer_dmz_ar),
(f'sn-{peer}-hub', hub_sn_rt.name, peer_hub_as),
]:
vdc.route_to_virtual_appliance(
stem = route[0],
route_table_name = route[1],
address_prefix = route[2],
next_hop_in_ip_address = peer_fw_ip,
)
# provisioning of subnets depends_on Route Table (Gateways & Firewall)
# to avoid contention in the Azure control plane
# only one shared subnet is provisioned as an example, but many can be
if hub_ar: #ToDo replace with loop
hub_example_sn = vdc.subnet( #ToDo add NSG
stem = f'{name}-example',
virtual_network_name = hub.name,
address_prefix = hub_ar,
depends_on=[hub_sn_rt],
)
# associate all hub shared services subnets to Route Table
hub_example_sn_rta = vdc.subnet_route_table(
stem = f'{name}-example',
route_table_id = hub_sn_rt.id,
subnet_id = hub_example_sn.id,
)
combined_output = Output.all(
hub_dmz_rt.name,
hub_er_gw,
hub_fw,
hub_fw_ip,
hub_gw_rt.name,
hub.id,
hub.name,
hub_sn_rt.name,
hub.subnets,
hub_vpn_gw,
).apply
self.hub_dmz_rt_name = hub_dmz_rt.name # used to add routes to spokes
self.hub_er_gw = hub_er_gw # needed prior to VNet Peering from spokes
self.hub_fw = hub_fw # needed prior to VNet Peering from spokes
self.hub_fw_ip = hub_fw_ip # used to construct routes
self.hub_gw_rt_name = hub_gw_rt.name # used to add routes to spokes
self.hub_id = hub.id # exported and used for peering
self.hub_name = hub.name # exported and used for peering
self.hub_sn_rt_name = hub_sn_rt.name # used to add routes to spokes
self.hub_subnets = hub.subnets # exported as informational
self.hub_vpn_gw = hub_vpn_gw # needed prior to VNet Peering from spokes
self.register_outputs({})
def __init__(self,
name: str,
props: SpokeProps,
opts: ResourceOptions = None):
super().__init__('vdc:network:Spoke', name, {}, opts)
# retrieve configuration
dmz_ar = props.config.require('dmz_ar')
hub_as = props.config.require('hub_as')
hub_stem = props.config.require('hub_stem')
sbs_ar = props.config.get('sbs_ar')
spoke_ar = props.config.get('spoke_ar')
spoke_as = props.config.require('spoke_as')
# set vdc defaults
vdc.resource_group_name = props.resource_group.name
vdc.location = props.resource_group.location
vdc.tags = props.tags
vdc.self = self
# Azure Virtual Network to be peered to the hub
spoke = vdc.virtual_network(name, [spoke_as])
# VNet Peering from the hub to spoke
hub_spoke = vdc.vnet_peering(
stem=hub_stem,
virtual_network_name=props.hub.hub_name,
peer=name,
remote_virtual_network_id=spoke.id,
allow_gateway_transit=True,
)
# VNet Peering from spoke to the hub
spoke_hub = vdc.vnet_peering(
stem=name,
virtual_network_name=spoke.name,
peer=hub_stem,
remote_virtual_network_id=props.hub.hub_id,
allow_forwarded_traffic=True,
use_remote_gateways=True,
)
# provisioning of optional subnet and routes depends_on VNet Peerings
# to avoid contention in the Azure control plane
# AzureBastionSubnet (optional)
if sbs_ar:
spoke_sbs_sn = vdc.subnet_special(
stem=f'{name}-ab',
name='AzureBastionSubnet',
virtual_network_name=spoke.name,
address_prefix=sbs_ar,
depends_on=[hub_spoke, spoke_hub],
)
# Route Table only to be associated with ordinary spoke subnets
spoke_sn_rt = vdc.route_table(
stem=f'{name}-sn',
disable_bgp_route_propagation=True,
depends_on=[hub_spoke, spoke_hub],
)
# provisioning of subnets depends_on VNet Peerings and Route Table
# to avoid contention in the Azure control plane
# only one spoke subnet is provisioned as an example, but many can be
if spoke_ar: # replace with a loop
spoke_example_sn = vdc.subnet(
stem=f'{name}-example',
virtual_network_name=spoke.name,
address_prefix=spoke_ar,
depends_on=[spoke_sn_rt],
)
# associate all ordinary spoke subnets to Route Table
spoke_example_sn_rta = vdc.subnet_route_table(
stem=f'{name}-example',
route_table_id=spoke_sn_rt.id,
subnet_id=spoke_example_sn.id,
)
# as VNet Peering may not be specified as next_hop_type, a separate
# address space in the hub from the firewall allows routes from the
# spoke to remain unchanged when subnets are added in the hub
# it is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet.
#ToDo check AzureFirewallManagementSubnet requirements
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'dmz-{name}', props.hub.hub_dmz_rt_name, spoke_as),
(f'gw-{name}', props.hub.hub_gw_rt_name, spoke_as),
(f'sn-{name}', props.hub.hub_sn_rt_name, spoke_as),
(f'{name}-dg', spoke_sn_rt.name, '0.0.0.0/0'),
(f'{name}-dmz', spoke_sn_rt.name, dmz_ar),
(f'{name}-hub', spoke_sn_rt.name, hub_as),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=props.hub.hub_fw_ip,
)
combined_output = Output.all(spoke.name, spoke.id, spoke.subnets).apply
self.spoke_id = spoke.id # exported as informational
self.spoke_name = spoke.name # exported as informational
self.spoke_subnets = spoke.subnets # exported as informational
self.register_outputs({})
def __init__(self, name: str, props: HubProps, opts: ResourceOptions = None):
super().__init__('vdc:network:Hub', name, {}, opts)
# set required vdc variables before calling functions
vdc.location = props.location
vdc.resource_group_name = props.resource_group_name
vdc.s = props.separator
vdc.self = self
vdc.suffix = props.suffix
vdc.tags = props.tags
# calculate the subnets in the firewall_address_space
fwz_nw = ip_network(props.firewall_address_space)
fwz_sn = fwz_nw.subnets(new_prefix=25) # two /26 subnets required
fwx_nw = next(fwz_sn) # for Azure Firewall and Management subnets
fwz_sn = fwz_nw.address_exclude(fwx_nw) # consolidate remainder
dmz_nw = next(fwz_sn) # largest remaining subnet for DMZ
fwx_sn = fwx_nw.subnets(new_prefix=26) # split the /25 into two /26
fws_nw = next(fwx_sn) # AzureFirewallSubnet
fwm_nw = next(fwx_sn) # AzureFirewallManagementSubnet
# calculate the subnets in the hub_address_space
hub_nw = ip_network(props.hub_address_space)
if hub_nw.prefixlen < 20: # split evenly between subnets and hosts
sub_diff = int((hub_nw.max_prefixlen - hub_nw.prefixlen) / 2)
else:
sub_diff = 25 - hub_nw.prefixlen # minimum /25 subnet
subnets = hub_nw.subnets(prefixlen_diff=sub_diff)
next_sn = next(subnets) # first subnet reserved for special uses
first_sn = next_sn.subnets(new_prefix=26) # split it into /26 subnets
gws_nw = next(first_sn) # GatewaySubnet /26
rem_nw = next(first_sn) # at least one more /26 subnet, perhaps more
rem_sn = rem_nw.subnets(new_prefix=27) # only need /27 save the rest
abs_nw = next(rem_sn) # AzureBastionSubnet /27 or greater
# cast repeatedly referenced networks to strings
dmz_ar = str(dmz_nw)
gws_ar = str(gws_nw)
# set the separator to be used in resource names
s = props.separator
# Azure Virtual Network to which spokes will be peered
# separate address spaces to simplify custom routing
hub = vdc.virtual_network(name, [
props.firewall_address_space,
props.hub_address_space,
],
)
# AzureFirewallManagementSubnet and Route Table
# https://docs.microsoft.com/en-us/azure/firewall/forced-tunneling
hub_fwm_rt = vdc.route_table(
stem=f'{name}{s}fwm',
disable_bgp_route_propagation=True, # required
)
# only a default route to the Internet is permitted
hub_fwm_dg = vdc.route_to_internet(
stem=f'fwm{s}internet',
route_table_name=hub_fwm_rt.name,
)
hub_fwm_sn = vdc.subnet_special(
stem=f'{name}{s}fwm',
name='AzureFirewallManagementSubnet', # name required
virtual_network_name=hub.name,
address_prefix=str(fwm_nw),
route_table_id=hub_fwm_rt.id,
depends_on=[hub, hub_fwm_rt, hub_fwm_dg],
)
# AzureFirewallSubnet and Route Table
hub_fw_rt = vdc.route_table(
stem=f'{name}{s}fw',
disable_bgp_route_propagation=False,
)
# default route either direct to Internet or forced tunnel
# turn off SNAT if the next_hop_ip_address is public
# https://docs.microsoft.com/en-us/azure/firewall/snat-private-range
private_ranges = 'IANAPrivateRanges'
if not props.forced_tunnel:
hub_fw_dg = vdc.route_to_internet(
stem=f'fw{s}internet',
route_table_name=hub_fw_rt.name,
)
else:
hub_fw_dg = vdc.route_to_virtual_appliance(
stem=f'fw{s}tunnel',
route_table_name=hub_fw_rt.name,
address_prefix='0.0.0.0/0',
next_hop_ip_address=props.forced_tunnel,
)
ft_ip = ip_address(props.forced_tunnel)
if not ft_ip.is_private:
private_ranges = '0.0.0.0/0'
hub_fw_sn = vdc.subnet_special(
stem=f'{name}{s}fw',
name='AzureFirewallSubnet', # name required
virtual_network_name=hub.name,
address_prefix=str(fws_nw),
route_table_id=hub_fw_rt.id,
depends_on=[hub, hub_fw_rt, hub_fw_dg],
)
# Azure Firewall
hub_fw = vdc.firewall(
stem=name,
fw_sn_id=hub_fw_sn.id,
fwm_sn_id=hub_fwm_sn.id,
private_ranges=private_ranges,
depends_on=[hub_fw_sn, hub_fwm_sn],
)
# wait for the private ip address of the firewall to become available
hub_fw_ip = hub_fw.ip_configurations.apply(
lambda ipc: ipc[0].private_ip_address
)
# It is very important to ensure that there is never a route with an
# address_prefix which covers the AzureFirewallSubnet.
# DMZ subnet and Route Table
hub_dmz_rt = vdc.route_table(
stem=f'{name}{s}dmz',
disable_bgp_route_propagation=True,
depends_on=[hub_fw],
)
# default route from DMZ via the firewall
hub_dmz_dg = vdc.route_to_virtual_appliance(
stem=f'dmz{s}dg',
route_table_name=hub_dmz_rt.name,
address_prefix='0.0.0.0/0',
next_hop_ip_address=hub_fw_ip,
)
# redirect intra-DMZ traffic via the firewall
hub_dmz_dmz = vdc.route_to_virtual_appliance(
stem=f'dmz{s}dmz',
route_table_name=hub_dmz_rt.name,
address_prefix=dmz_ar,
next_hop_ip_address=hub_fw_ip,
)
# redirect traffic from DMZ to hub via the firewall
hub_dmz_hub = vdc.route_to_virtual_appliance(
stem=f'dmz{s}hub',
route_table_name=hub_dmz_rt.name,
address_prefix=props.hub_address_space,
next_hop_ip_address=hub_fw_ip,
)
hub_dmz_sn = vdc.subnet_special( # ToDo add NSG
stem=f'{name}{s}dmz',
name='DMZ', # name not required but preferred
virtual_network_name=hub.name,
address_prefix=dmz_ar,
route_table_id=hub_dmz_rt.id,
depends_on=[hub_dmz_rt, hub_dmz_dg, hub_dmz_dmz, hub_dmz_hub],
)
# GatewaySubnet and Route Table
hub_gw_rt = vdc.route_table(
stem=f'{name}{s}gw',
disable_bgp_route_propagation=False,
depends_on=[hub_dmz_sn],
)
# protect intra-GatewaySubnet traffic from being redirected:
hub_gw_gw = vdc.route_to_virtual_network(
stem=f'gw{s}gw',
route_table_name=hub_gw_rt.name,
address_prefix=gws_ar,
)
# redirect traffic from gateways to DMZ via firewall
hub_gw_dmz = vdc.route_to_virtual_appliance(
stem=f'gw{s}dmz',
route_table_name=hub_gw_rt.name,
address_prefix=dmz_ar,
next_hop_ip_address=hub_fw_ip,
)
# redirect traffic from gateways to hub via firewall
hub_gw_hub = vdc.route_to_virtual_appliance(
stem=f'gw{s}hub',
route_table_name=hub_gw_rt.name,
address_prefix=props.hub_address_space,
next_hop_ip_address=hub_fw_ip,
)
hub_gw_sn = vdc.subnet_special(
stem=f'{name}{s}gw',
name='GatewaySubnet', # name required
virtual_network_name=hub.name,
address_prefix=gws_ar,
route_table_id=hub_gw_rt.id,
depends_on=[hub_gw_rt, hub_gw_gw, hub_gw_dmz, hub_gw_hub],
)
# VPN Gateway
hub_vpn_gw = vdc.vpn_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_gw_sn],
)
# ExpressRoute Gateway
hub_er_gw = vdc.expressroute_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_gw_sn],
)
# Route Table to be associated with all hub shared services subnets
hub_ss_rt = vdc.route_table(
stem=f'{name}{s}ss',
disable_bgp_route_propagation=True,
depends_on=[hub_er_gw, hub_vpn_gw],
)
# default route from hub via the firewall
hub_ss_dg = vdc.route_to_virtual_appliance(
stem=f'ss{s}dg',
route_table_name=hub_ss_rt.name,
address_prefix='0.0.0.0/0',
next_hop_ip_address=hub_fw_ip,
)
# redirect traffic from hub to DMZ via the firewall
hub_ss_dmz = vdc.route_to_virtual_appliance(
stem=f'ss{s}dmz',
route_table_name=hub_ss_rt.name,
address_prefix=dmz_ar,
next_hop_ip_address=hub_fw_ip,
)
# redirect traffic from hub to gateways via the firewall
hub_ss_gw = vdc.route_to_virtual_appliance(
stem=f'ss{s}gw',
route_table_name=hub_ss_rt.name,
address_prefix=gws_ar,
next_hop_ip_address=hub_fw_ip,
)
# shared services subnets starting with the second subnet
for subnet in props.subnets:
next_sn = next(subnets)
hub_sn = vdc.subnet( # ToDo add NSG
stem=f'{name}{s}{subnet[0]}',
virtual_network_name=hub.name,
address_prefix=str(next_sn),
route_table_id=hub_ss_rt.id,
depends_on=[hub_ss_rt, hub_ss_dg, hub_ss_dmz, hub_ss_gw],
)
# Azure Bastion subnet and host (optional)
if props.azure_bastion:
hub_ab = vdc.bastion_host(
stem=name,
virtual_network_name=hub.name,
address_prefix=str(abs_nw),
depends_on=[hub_er_gw, hub_vpn_gw],
)
# VNet Peering between stacks using StackReference (optional)
if props.peer:
peer_hub_id = props.reference.get_output('hub_id')
# VNet Peering (Global) in one direction from stack to peer
hub_hub = vdc.vnet_peering(
stem=props.stack,
virtual_network_name=hub.name,
peer=props.peer,
remote_virtual_network_id=peer_hub_id,
allow_forwarded_traffic=True,
allow_gateway_transit=False, # as both hubs have gateways
)
# need to invalidate system routes created by VNet Peering
peer_dmz_ar = props.reference.get_output('dmz_ar')
peer_fw_ip = props.reference.get_output('fw_ip')
peer_hub_as = props.reference.get_output('hub_as')
for route in [
(f'dmz{s}{props.peer}{s}dmz', hub_dmz_rt.name, peer_dmz_ar),
(f'dmz{s}{props.peer}{s}hub', hub_dmz_rt.name, peer_hub_as),
(f'gw{s}{props.peer}{s}dmz', hub_gw_rt.name, peer_dmz_ar),
(f'gw{s}{props.peer}{s}hub', hub_gw_rt.name, peer_hub_as),
(f'ss{s}{props.peer}{s}dmz', hub_ss_rt.name, peer_dmz_ar),
(f'ss{s}{props.peer}{s}hub', hub_ss_rt.name, peer_hub_as),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_ip_address=peer_fw_ip,
)
# assign properties to hub including from child resources
self.address_space = props.hub_address_space # used for routes to the hub
self.dmz_ar = dmz_ar # used for routes to the hub
self.dmz_rt_name = hub_dmz_rt.name # used to add routes to spokes
self.er_gw = hub_er_gw # needed prior to VNet Peering from spokes
self.fw = hub_fw # needed prior to VNet Peering from spokes
self.fw_ip = hub_fw_ip # used for routes to the hub
self.fw_rt_name = hub_fw_rt.name # used for route to the peered spokes
self.gw_rt_name = hub_gw_rt.name # used to add routes to spokes
self.id = hub.id # exported and used for stack and spoke peering
self.location = hub.location # informational
self.name = hub.name # exported and used for spoke peering
self.peer = props.peer # informational
self.resource_group_name = props.resource_group_name # informational
self.subnets = hub.subnets # informational
self.stack = props.stack # informational
self.stem = name # used for VNet Peering from spokes
self.ss_rt_name = hub_ss_rt.name # used to add routes to spokes
self.tags = props.tags # informational
self.vpn_gw = hub_vpn_gw # needed prior to VNet Peering from spokes
self.register_outputs({})
def __init__(self,
name: str,
props: HubProps,
opts: ResourceOptions = None):
super().__init__('vdc:network:Hub', name, {}, opts)
# set vdc defaults
vdc.resource_group_name = props.resource_group_name
vdc.tags = props.tags
vdc.self = self
# Azure Virtual Network to which spokes will be peered
# separate address spaces to simplify custom routing
hub = vdc.virtual_network(name, [props.fwz_as, props.hub_as])
# DMZ subnet
hub_dmz_sn = vdc.subnet_special( #ToDo add NSG
stem=f'{name}-dmz',
name='DMZ', # name not required but preferred
virtual_network_name=hub.name,
address_prefix=props.dmz_ar,
)
# AzureFirewallSubnet
hub_fw_sn = vdc.subnet_special(
stem=f'{name}-fw',
name='AzureFirewallSubnet', # name required
virtual_network_name=hub.name,
address_prefix=props.fws_ar,
)
# GatewaySubnet
hub_gw_sn = vdc.subnet_special(
stem=f'{name}-gw',
name='GatewaySubnet', # name required
virtual_network_name=hub.name,
address_prefix=props.gws_ar,
)
# provisioning of Gateways and Firewall depends_on subnets
# to avoid contention in the Azure control plane
# VPN Gateway
hub_vpn_gw = vdc.vpn_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# ExpressRoute Gateway
hub_er_gw = vdc.expressroute_gateway(
stem=name,
subnet_id=hub_gw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# Azure Firewall
hub_fw = vdc.firewall(
stem=name,
subnet_id=hub_fw_sn.id,
depends_on=[hub_dmz_sn, hub_fw_sn, hub_gw_sn],
)
# provisioning of optional subnets depends_on Gateways and Firewall
# to avoid contention in the Azure control plane
# AzureBastionSubnet (optional)
if props.hbs_ar:
hub_ab_sn = vdc.subnet_special( #ToDo add NSG if required
stem=f'{name}-ab',
name='AzureBastionSubnet', # name required
virtual_network_name=hub.name,
address_prefix=props.hbs_ar,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# AzureFirewallManagementSubnet (optional)
if props.fwm_ar:
hub_fwm_sn = vdc.subnet_special(
stem=f'{name}-fwm',
name='AzureFirewallManagementSubnet', # name required
virtual_network_name=hub.name,
address_prefix=props.fwm_ar,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# work around https://github.com/pulumi/pulumi/issues/4040
hub_fw_ip = hub_fw.ip_configurations.apply(
lambda ipc: ipc[0].get('private_ip_address'))
# provisioning of Route Tables depends_on Gateways and Firewall
# to avoid contention in the Azure control plane
# Route Table only to be associated with the GatewaySubnet
hub_gw_rt = vdc.route_table(
stem=f'{name}-gw',
disable_bgp_route_propagation=False,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# associate GatewaySubnet with Route Table
hub_gw_sn_rta = vdc.subnet_route_table(
stem=f'{name}-gw',
route_table_id=hub_gw_rt.id,
subnet_id=hub_gw_sn.id,
)
# Route Table only to be associated with DMZ subnet
hub_dmz_rt = vdc.route_table(
stem=f'{name}-dmz',
disable_bgp_route_propagation=True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# associate DMZ subnet with Route Table
hub_dmz_sn_rta = vdc.subnet_route_table(
stem=f'{name}-dmz',
route_table_id=hub_dmz_rt.id,
subnet_id=hub_dmz_sn.id,
)
# Route Table only to be associated with shared services subnets in hub
hub_ss_rt = vdc.route_table(
stem=f'{name}-ss',
disable_bgp_route_propagation=True,
depends_on=[hub_er_gw, hub_fw, hub_vpn_gw],
)
# protect intra-GatewaySubnet traffic from being redirected
vdc.route_to_virtual_network(
stem=f'gw-gw',
route_table_name=hub_gw_rt.name,
address_prefix=props.gws_ar,
)
# partially or fully invalidate system routes to redirect traffic
for route in [
(f'gw-dmz', hub_gw_rt.name, props.dmz_ar),
(f'gw-hub', hub_gw_rt.name, props.hub_as),
(f'dmz-dg', hub_dmz_rt.name, '0.0.0.0/0'),
(f'dmz-dmz', hub_dmz_rt.name, props.dmz_ar),
(f'dmz-hub', hub_dmz_rt.name, props.hub_as),
(f'ss-dg', hub_ss_rt.name, '0.0.0.0/0'),
(f'ss-dmz', hub_ss_rt.name, props.dmz_ar),
(f'ss-gw', hub_ss_rt.name, props.gws_ar),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=hub_fw_ip,
)
# VNet Peering between stacks using StackReference
if props.peer:
peer_stack = StackReference(props.ref)
peer_hub_id = peer_stack.get_output('hub_id')
# VNet Peering (Global) in one direction from stack to peer
hub_hub = vdc.vnet_peering(
stem=props.stack,
virtual_network_name=hub.name,
peer=props.peer,
remote_virtual_network_id=peer_hub_id,
allow_forwarded_traffic=True,
allow_gateway_transit=False, # as both hubs have gateways
)
# need to invalidate system routes created by Global VNet Peering
peer_dmz_ar = peer_stack.get_output('dmz_ar')
peer_fw_ip = peer_stack.get_output('fw_ip')
peer_hub_as = peer_stack.get_output('hub_as')
for route in [
(f'dmz-{props.peer}-dmz', hub_dmz_rt.name, peer_dmz_ar),
(f'dmz-{props.peer}-hub', hub_dmz_rt.name, peer_hub_as),
(f'gw-{props.peer}-dmz', hub_gw_rt.name, peer_dmz_ar),
(f'gw-{props.peer}-hub', hub_gw_rt.name, peer_hub_as),
(f'ss-{props.peer}-dmz', hub_ss_rt.name, peer_dmz_ar),
(f'ss-{props.peer}-hub', hub_ss_rt.name, peer_hub_as),
]:
vdc.route_to_virtual_appliance(
stem=route[0],
route_table_name=route[1],
address_prefix=route[2],
next_hop_in_ip_address=peer_fw_ip,
)
# provisioning of subnets depends_on Route Table (Gateways & Firewall)
# to avoid contention in the Azure control plane
# shared services subnets
subnet_range = props.hub_ar
for subnet in props.subnets:
hub_sn = vdc.subnet( #ToDo add NSG
stem=f'{name}-{subnet[0]}',
virtual_network_name=hub.name,
address_prefix=subnet_range,
depends_on=[hub_ss_rt],
)
# associate all hub shared services subnets to Route Table
hub_sn_rta = vdc.subnet_route_table(
stem=f'{name}-{subnet[0]}',
route_table_id=hub_ss_rt.id,
subnet_id=hub_sn.id,
)
subnet_range = vdc.subnet_next(props.hub_as, subnet_range)
# assign properties to hub including from child resources
self.address_spaces = hub.address_spaces # informational
self.dmz_ar = props.dmz_ar # used to construct routes to the hub
self.dmz_rt_name = hub_dmz_rt.name # used to add routes to spokes
self.er_gw = hub_er_gw # needed prior to VNet Peering from spokes
self.fw = hub_fw # needed prior to VNet Peering from spokes
self.fw_ip = hub_fw_ip # used to construct routes to the hub
self.gw_rt_name = hub_gw_rt.name # used to add routes to spokes
self.hub_as = props.hub_as # used to construct routes to the hub
self.id = hub.id # exported and used for stack and spoke peering
self.location = hub.location # informational
self.name = hub.name # exported and used for spoke peering
self.peer = props.peer # informational
self.resource_group_name = props.resource_group_name # informational
self.subnets = hub.subnets # exported as informational
self.stack = props.stack # informational
self.stem = name # used for VNet Peering from spokes
self.ss_rt_name = hub_ss_rt.name # used to add routes to spokes
self.tags = props.tags # informational
self.vpn_gw = hub_vpn_gw # needed prior to VNet Peering from spokes
self.register_outputs({})
