GCC doesn't care, but clang complains if [[fallthrough]] is not followed
by a semicolon. Existing Genode code is also not consitent in this regard.
This patch adds the extra semicolons since it works in both GCC and
clang.
Issue #3985
No code in this class uses this private member variable. This prompts
clang to produce a warning message about it. Fix it by dropping the
variable.
Issue #3985
The class has final destructor, but is not itself final. This prompts
clang to produce the following warning message:
class with destructor marked 'final' cannot be inherited from [-Wfinal-dtor-non-final-class]
~Vfs_plugin() final { }
^
vfs_plugin.h:39:13: note: mark 'Libc::Vfs_plugin' as 'final' to silence this warning
Issue #3985
This static inline function is not used anywhere. GCC does not care,
but clang warns about this. Remove the function to allow the code to
compile cleanly with both clang and GCC.
Issue #3985
The code in Libc::Cloned_malloc_heap_range initializes its local_addr
member variable by calling Region_map::attach_at. This function can
throw Region_conflict exception. The handler for this exception uses the
local_addr to produce an error message. Such error log is IHMO
useless, or even incorrect since the value of local_addr is undefined
in such case.
Its also worth noting that clang 12 produces the following warning for
this code:
"cannot refer to a non-static member from the handler of a constructor
function try block"
Issue #3985
This private member variable is not used anywhere in the code. This
produces compilation warning when using clang instead of GCC. Drop the
unused variable.
Issue #3985
The State enum and _state private member variable are not used anywhere.
This produces an extra warning when building the code with clang instead
of GCC. Remove this dead code.
Issue #3985
When building the code with clang the following warning message is
prodiced:
"explicit instantiation of 'Scout::Browser_window' must occur in namespace 'Scout'
template class Browser_window<Genode::Pixel_rgb888>"
This happens for several different types. This patch fixes the problem
by instantiating all those templates using their explicit full name.
Issue #3985
The Scout::Spacer constructor requires two arguments. The initialization
of the type in Launchpad_window declaration does not specify them. The
variable is however initialized a second time in class constructor. This is
most likely why GCC accepts this code. Clang on the other hand
complains about it.
Fix this by properly initializing both _spacer and _docview only once at
declaration time.
Issue #3985
The code fails to build with clang due to the following warning/error:
error: '_INCLUDE__NANO3D__SQRT_H_' is used as a header guard here,
followed by #define of a different macro [-Werror,-Wheader-guard]
Fix this by removing the extra underscore from this header guard
definition.
Issue #3985
The _device_specific_features() implements part of the Virtio_device
interface. Decorate it with override keyword to make this clear and
also satisfy clang which produces warning regarding this.
Issue #3984
Clang 11 produces the following warning when building port_allocator.cc:
port_allocator.cc:27:21: error: result of comparison of constant 65536 with
expression of type 'const Genode::uint16_t' (aka 'const unsigned short') is
always true [-Werror,-Wtautological-constant-out-of-range-compare]
(port.value < (unsigned)(Port_allocator::FIRST +
Basically the code compares Port::value (uint16_t) against a constant
65536 which is larger than UINT16_MAX (65535). This comparison will always
be true.
Issue #3984
According to clang there are two symbols which File_system can refer to:
1. namespace File_system from ram_fs/chunk.h.
2. Vfs::File_system class from vfs/file_system.h.
Make it clear we refer to the File_system namespace in this case.
Issue #3984
Clang 12 complains that Interface can both refer to Genode::Interface
and Net::Interface in this case. Explicitly state the code refers to
the latter.
Issue #3984
According to GNU as manual the syntax of this directive is:
.cfi_undefined register
The manual does not mention the register should be in parentheses.
This works in GNU as even when those are present, but unfortunately
clang integrated-as does not parse this correctly. Both GNU and
clang's integrated assembler work fine when the extra parentheses
are omitted.
Fixes#3986
The code in base-hw/src/bootstrap/platform.cc uses segment flags for
identification purposes. Based on this information the code decides
what to do with each segment. Unfortunately the linker script does
not actually ensure the flags for a specific named segment match
expectations. The code relies on implicit linker behaviour.
This implicit behaviour can vary between linkers. This breaks
arm_v7a base-hw builds linked with LLVM's lld linker. The segment
named "ro" ends up having writeable flag set when using LLD.
This patch ensures that all ELF segments in genode.ld have their
required perimssion flags set explicitly.
Fixes#3988
Clang is generally fine with Genode::List and compiles code using it
without emitting any warnings. There is however one exception. Clang
fails hard when building base-hw/src/core/kernel/object.cc.
This is due to a call to Genode::List::remove made from
Object_identity::invalidate function. The error message clang
produces is:
list.h:96:33: error: 'Genode::List<Kernel::Object_identity_reference>::Element::_next'
is not a member of class 'const Kernel::Object_identity'
_first = le->List::Element::_next;
~~~~~~~~~~~~~~~^
When we look at the declaration of the Kernel::Object class on which
the remove method is called. as expected it does inherit Genode::List:
using Object_identity_list
= Genode::List<Kernel::Object_identity>;
class Kernel::Object : private Object_identity_list
{
...
}
Given the error message we see that List::Element should be resolved to
Genode::List<Kernel::Object_identity>::Element, and not
Genode::List<Kernel::Object_identity_reference>::Element. But how does
clang manage to figure out we're talking about Object_identity_refecence
list here? Well, I admit I don't know the exact steps it takes to arrive
at this conclusion, but it is not entirely wrong. If we take a look at
what Kernel::Object_identity is we'll see:
class Kernel::Object_identity
: public Object_identity_list::Element,
public Kernel::Object_identity_reference_list
{
...
}
Where as one can guess Object_identity_reference_list is defined as:
using Object_identity_reference_list
= Genode::List<Object_identity_reference>;
Long story short Kernel::Object has Genode::List of both Kernel::Object_identity
and Kernel::Object_identity_reference in its inheritance chain and clang
is not really sure to which of those the code refers to in
Genode::List::remove method by using List::Element::.
The fix for this is relatively simple, explicitly state the full type of
the base class the code intends to refer to. Replacing List::Element,
with List<LT>::Element makes the code buildable with both clang and GCC.
Fixes#3990
If a fd is opened in append mode and just is to be used (so never written by
the parent component) for the to be forked child, the seek state was not
pointing to the end of the file. The wrong seek value then was used in
File_descriptor_allocator::generate_info().
Issue #3991
The fds in O_APPEND state may have changed by the child. The local seek
state needs to be valid/current for the next to be forked child, which seek
state is set by File_descriptor_allocator::generate_info().
Issue #3991
This patch allows for supplementing the existing run-tool plugins with
additional plugins hosted inside a repository. E.g., it enables the run
tool to find world/tool/run/boot_dir/hw automatically.
Fixes#3993
Avoid use of REP_DIR in *.mk files to simplify the use of these files as
templates for a board hosted in a separate repository.
Use REP_INC_DIR for searching headers, thereby considering headers
hosted in an external repository.
Issue #3168
This trace policy can be used as a fault-injection mechanism.
Once installed, the next time the traced thread passes a trace point
(e.g., RPC call, RPC request, ...), the policy produces a divide-by-zero
exception.
* Remove SPEC declarations from mk/spec
* Remove all board-specific REQUIRE declaratiions left
* Replace [have_spec <board>] run-script declarations with have_board where necessary
* Remove addition of BOARD variable to SPECS in toplevel Makefile
* Move board-specific directories in base-hw out of specs
The new helper function returns a boolean value analoque to 'have_spec' if the
BOARD variable corresponds to the given value. It shall replace [have_spec <board>]
declarations in run-scripts.
Ref #3971
In order to perform a smooth transition from NIC drivers that act only as NIC
session clients to NIC drivers that act only as Uplink session clients, this
commit introduces an intermediate state in which all NIC drivers support both
modes. That said, a NIC drivers mode is now statically determined through a new
optional 'mode' attribute in the drivers <config> tag that can be set to either
'nic_server' (default value) or 'uplink_client'. Reconfiguring this attribute
at a driver doesn't have any effects. Whithout this attribute being set, all
NIC drivers will behave the same as they did before the commit. When set to
'uplink_client', however, instead of providing a Nic service, they request
an Uplink session whenever their network interface becomes "UP" and close the
session whenever their network interface becomes "DOWN".
Ref #3961
Let the NIC router provide an Uplink service besides the Nic service that it
already provided. Requests for an Uplink session towards the NIC router are
assigned to Domains using the same <policy> configuration tags that are used in
order to assign Nic session requests. The MAC addresses of Uplink session
components are _NOT_ considered during the allocation of MAC addresses for NIC
session components at the same Domain. The task of avoiding MAC address clashes
between Uplink session components and Nic session components is therefore left
to the integrator. Apart from that, Uplink session components are treated by
the NIC router like any other interface.
Ref #3961
Adds new Uplink session interface, the corresponding client side (Client,
Connection), and the corresponding API archives. An Uplink session is almost
the same as a NIC session with the difference that the roles of the end points
are swapped. An Uplink client is the one that provides a network interface
(for instance, a NIC driver) whereas an Uplink server is the one that uses
that network interface (for instance, a networking stack).
Therefore, in contrast to the NIC session, MAC address and link state come from
the Uplink client. The link state is reflected through the lifetime of an
Uplink session: The client requests the session only when the link state is
"UP" and closes it whenever the link state becomes "DOWN" again. The MAC
address is transmitted from the Uplink client to the Uplink server as an
argument of the session request.
Ref #3961
* Adds documentation how to prepare and finalize a Linux for running the
scenario ontop of it
* Adds consideration of env variable 'ON_LINUX_WITH_DST_IP' that, if set,
adapts the run script to running on Linux with the given ping destination IP
Ref #3961
This patch relaxes the need to specify the rom content of all pkg dependencies
in each runtime file. Whenever a dependency features a runtime file, the
contained <content> <rom/> ... </content> nodes are implicitely included.
Fixes#3981
- depending on available PCI power cap power off and on
- save and restore PCI bars if required
- reset PCI devices after power on if supported
Fixes#3963