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ladybird/Kernel/Net/NetworkingManagement.cpp

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Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
/*
* Copyright (c) 2021, Liav A. <liavalb@hotmail.co.il>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Singleton.h>
Kernel: Move x86 IO instructions code into the x86 specific folder
2021-10-01 09:58:50 +03:00
#include <Kernel/Arch/x86/IO.h>
Kernel/PCI: Simplify the entire subsystem A couple of things were changed: 1. Semantic changes - PCI segments are now called PCI domains, to better match what they are really. It's also the name that Linux gave, and it seems that Wikipedia also uses this name. We also remove PCI::ChangeableAddress, because it was used in the past but now it's no longer being used. 2. There are no WindowedMMIOAccess or MMIOAccess classes anymore, as they made a bunch of unnecessary complexity. Instead, Windowed access is removed entirely (this was tested, but never was benchmarked), so we are left with IO access and memory access options. The memory access option is essentially mapping the PCI bus (from the chosen PCI domain), to virtual memory as-is. This means that unless needed, at any time, there is only one PCI bus being mapped, and this is changed if access to another PCI bus in the same PCI domain is needed. For now, we don't support mapping of different PCI buses from different PCI domains at the same time, because basically it's still a non-issue for most machines out there. 2. OOM-safety is increased, especially when constructing the Access object. It means that we pre-allocating any needed resources, and we try to find PCI domains (if requested to initialize memory access) after we attempt to construct the Access object, so it's possible to fail at this point "gracefully". 3. All PCI API functions are now separated into a different header file, which means only "clients" of the PCI subsystem API will need to include that header file. 4. Functional changes - we only allow now to enumerate the bus after a hardware scan. This means that the old method "enumerate_hardware" is removed, so, when initializing an Access object, the initializing function must call rescan on it to force it to find devices. This makes it possible to fail rescan, and also to defer it after construction from both OOM-safety terms and hotplug capabilities.
2021-09-07 12:08:38 +03:00
#include <Kernel/Bus/PCI/API.h>
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
#include <Kernel/CommandLine.h>
Kernel: Convert network adapter names to Kernel::KString Another step of incremental progress of removing `AK::String` from the kernel, to harden against OOM.
2021-09-27 17:49:56 -07:00
#include <Kernel/KString.h>
Kernel: Rename Kernel/VM/ to Kernel/Memory/ This directory isn't just about virtual memory, it's about all kinds of memory management.
2021-08-06 10:45:34 +02:00
#include <Kernel/Memory/AnonymousVMObject.h>
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
#include <Kernel/Multiboot.h>
Kernel/Net: Move Intel network adapters code to a separate directory
2021-12-25 10:58:04 +02:00
#include <Kernel/Net/Intel/E1000ENetworkAdapter.h>
#include <Kernel/Net/Intel/E1000NetworkAdapter.h>
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
#include <Kernel/Net/LoopbackAdapter.h>
#include <Kernel/Net/NE2000NetworkAdapter.h>
#include <Kernel/Net/NetworkingManagement.h>
#include <Kernel/Net/RTL8139NetworkAdapter.h>
Kernel: Add driver for RTL8168 & RTL8111 NICs These are pretty common on older LGA1366 & LGA1150 motherboards. NOTE: Since the registers datasheets for all versions of the chip besides versions 1 - 3 are still under NDAs i had to collect several "magical vendor constants" from the *BSD driver and the linux driver that i was not able to name verbosely, and as such these are labeled with the comment "vendor magic values".
2021-04-02 17:53:31 +03:00
#include <Kernel/Net/RTL8168NetworkAdapter.h>
Kernel: Move special sections into Sections.h This also removes a lot of CPU.h includes infavor for Sections.h
2021-06-22 17:40:16 +02:00
#include <Kernel/Sections.h>
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
namespace Kernel {
Everywhere: Replace AK::Singleton => Singleton
2021-08-07 21:34:11 +02:00
static Singleton<NetworkingManagement> s_the;
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
NetworkingManagement& NetworkingManagement::the()
{
return *s_the;
}
bool NetworkingManagement::is_initialized()
{
return s_the.is_initialized();
}
UNMAP_AFTER_INIT NetworkingManagement::NetworkingManagement()
{
}
NonnullRefPtr<NetworkAdapter> NetworkingManagement::loopback_adapter() const
{
return *m_loopback_adapter;
}
void NetworkingManagement::for_each(Function<void(NetworkAdapter&)> callback)
{
Kernel: Rename Locker => MutexLocker
2021-07-18 01:13:34 +02:00
MutexLocker locker(m_lock);
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
for (auto& it : m_adapters)
callback(it);
}
RefPtr<NetworkAdapter> NetworkingManagement::from_ipv4_address(const IPv4Address& address) const
{
Kernel: Rename Locker => MutexLocker
2021-07-18 01:13:34 +02:00
MutexLocker locker(m_lock);
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
for (auto& adapter : m_adapters) {
if (adapter.ipv4_address() == address || adapter.ipv4_broadcast() == address)
return adapter;
}
if (address[0] == 0 && address[1] == 0 && address[2] == 0 && address[3] == 0)
return m_loopback_adapter;
if (address[0] == 127)
return m_loopback_adapter;
return {};
}
Everywhere: Pass AK::StringView by value
2021-11-11 00:55:02 +01:00
RefPtr<NetworkAdapter> NetworkingManagement::lookup_by_name(StringView name) const
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
{
Kernel: Rename Locker => MutexLocker
2021-07-18 01:13:34 +02:00
MutexLocker locker(m_lock);
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
RefPtr<NetworkAdapter> found_adapter;
for (auto& it : m_adapters) {
if (it.name() == name)
found_adapter = it;
}
return found_adapter;
}
Kernel: Replace KResult and KResultOr<T> with Error and ErrorOr<T> We now use AK::Error and AK::ErrorOr<T> in both kernel and userspace! This was a slightly tedious refactoring that took a long time, so it's not unlikely that some bugs crept in. Nevertheless, it does pass basic functionality testing, and it's just real nice to finally see the same pattern in all contexts. :^)
2021-11-08 00:51:39 +01:00
ErrorOr<NonnullOwnPtr<KString>> NetworkingManagement::generate_interface_name_from_pci_address(PCI::DeviceIdentifier const& device_identifier)
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
{
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
VERIFY(device_identifier.class_code().value() == 0x2);
Kernel: Convert network adapter names to Kernel::KString Another step of incremental progress of removing `AK::String` from the kernel, to harden against OOM.
2021-09-27 17:49:56 -07:00
// Note: This stands for e - "Ethernet", p - "Port" as for PCI bus, "s" for slot as for PCI slot
auto name = String::formatted("ep{}s{}", device_identifier.address().bus(), device_identifier.address().device());
VERIFY(!NetworkingManagement::the().lookup_by_name(name));
// TODO: We need some way to to format data into a `KString`.
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
return KString::try_create(name.view());
}
UNMAP_AFTER_INIT RefPtr<NetworkAdapter> NetworkingManagement::determine_network_device(PCI::DeviceIdentifier const& device_identifier) const
{
if (auto candidate = E1000NetworkAdapter::try_to_initialize(device_identifier); !candidate.is_null())
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
return candidate;
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
if (auto candidate = E1000ENetworkAdapter::try_to_initialize(device_identifier); !candidate.is_null())
Kernel/Net: Support Intel 82574 adapter We call it E1000E, because the layout for these cards is somewhat not the same like E1000 supported cards. Also, this card supports advanced features that are not supported on 8254x cards.
2021-06-04 10:11:37 +03:00
return candidate;
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
if (auto candidate = RTL8139NetworkAdapter::try_to_initialize(device_identifier); !candidate.is_null())
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
return candidate;
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
if (auto candidate = RTL8168NetworkAdapter::try_to_initialize(device_identifier); !candidate.is_null())
Kernel: Add driver for RTL8168 & RTL8111 NICs These are pretty common on older LGA1366 & LGA1150 motherboards. NOTE: Since the registers datasheets for all versions of the chip besides versions 1 - 3 are still under NDAs i had to collect several "magical vendor constants" from the *BSD driver and the linux driver that i was not able to name verbosely, and as such these are labeled with the comment "vendor magic values".
2021-04-02 17:53:31 +03:00
return candidate;
Kernel/Net: Generate interface name near construction point This change allows the Kernel to actually construct other interfaces besides the E1000 type. This solves a breakage that was introduced recently because of move semantics. A couple of points on this patch: 1. In current situation, we can waste time to create a KString and throw it for nothing. This patch ensures we only create it near construction point so we know we actually need it. 2. It's very likely to assume that non-x86 machines will expose network device with a device tree (or with ACPI). The raspberry pi machine is a good example of that. Therefore, each driver should explicitly ask the correct interface name generation method, and this patch simplifies this pattern greatly, especially in a case where the same network device can appear as a PCI device or as device in another bus type on the same platform target. For example, the (in)famous ne2000 device can be used either as a PCI device or as an ISA device, depending on the model. 3. In my opinion, it seems much more readable to construct the name near calling point of the object constructor than to just pass it with move semantics.
2021-10-17 16:05:14 +03:00
if (auto candidate = NE2000NetworkAdapter::try_to_initialize(device_identifier); !candidate.is_null())
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
return candidate;
return {};
}
bool NetworkingManagement::initialize()
{
Kernel/CommandLine: Add option to disable physical networking hardware This is useful for debugging sessions mostly.
2021-06-04 08:02:14 +03:00
if (!kernel_command_line().is_physical_networking_disabled()) {
Kernel/PCI: Remove Address from enumeration callback If we need that address, we can always get it from the DeviceIdentifier.
2021-09-23 11:05:00 +03:00
PCI::enumerate([&](PCI::DeviceIdentifier const& device_identifier) {
Kernel/CommandLine: Add option to disable physical networking hardware This is useful for debugging sessions mostly.
2021-06-04 08:02:14 +03:00
// Note: PCI class 2 is the class of Network devices
Kernel: Rename two PCI components Rename ID => HardwareID, and PhysicalID => DeviceIdentifier. This change merely does that to clarify what these objects really are.
2021-09-23 09:14:51 +03:00
if (device_identifier.class_code().value() != 0x02)
Kernel/CommandLine: Add option to disable physical networking hardware This is useful for debugging sessions mostly.
2021-06-04 08:02:14 +03:00
return;
Kernel/PCI: Propagate usage of DeviceIdentifier everywhere This allows us to remove a bunch of PCI API functions, and instead to leverage the cached data from DeviceIdentifier object in many places.
2021-09-23 10:20:54 +03:00
if (auto adapter = determine_network_device(device_identifier); !adapter.is_null())
Kernel/CommandLine: Add option to disable physical networking hardware This is useful for debugging sessions mostly.
2021-06-04 08:02:14 +03:00
m_adapters.append(adapter.release_nonnull());
});
}
Kernel: LoopbackAdapter::create() => try_create() Allow this to fail (although we VERIFY that it succeeds during boot for now, since we don't want to boot without a loopback adapter.)
2021-07-11 18:00:31 +02:00
auto loopback = LoopbackAdapter::try_create();
VERIFY(loopback);
m_adapters.append(*loopback);
Kernel: Introduce the NetworkingManagement singleton Instead of initializing network adapters in init.cpp, let's move that logic into a separate class to handle this. Also, it seems like a good idea to shift responsiblity on enumeration of network adapters after the boot process, so this singleton will take care of finding the appropriate network adapter when asked to with an IPv4 address or interface name. With this change being merged, we simplify the creation logic of NetworkAdapter derived classes, so we enumerate the PCI bus only once, searching for driver candidates when doing so, and we let each driver to test if it is resposible for the specified PCI device.
2021-06-04 07:43:16 +03:00
m_loopback_adapter = loopback;
return true;
}
}
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