Running with flat physical addressing is a fairly common early boot
environment. Rename UACCESS_EFI to UACCESS_FLAT so that this code may
be reused in non-UEFI boot environments that also use flat physical
addressing.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Move the <gdbmach.h> file to <bits/gdbmach.h>, and provide a common
dummy implementation for all architectures that have not yet
implemented support for GDB.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Generalise the ability to look up a dynamic user interface item by
index or by shortcut key, to allow for reuse of this code for
interactive forms.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We currently have an abstract model of a dynamic menu as a list of
items, each of which has a name, a description, and assorted metadata
such as a shortcut key. The "menu" and "item" commands construct
representations in this abstract model, and the "choose" command then
presents the items as a single-choice menu, with the selected item's
name used as the output value.
This same abstraction may be used to model a dynamic form as a list of
editable items, each of which has a corresponding setting name, an
optional description label, and assorted metadata such as a shortcut
key. By defining a "form" command as an alias for the "menu" command,
we could construct and present forms using commands such as:
#!ipxe
form Login to ${url}
item username Username or email address
item --secret password Password
present
or
#!ipxe
form Configure IPv4 networking for ${netX/ifname}
item netX/ip IPv4 address
item netX/netmask Subnet mask
item netX/gateway Gateway address
item netX/dns DNS server address
present
Reusing the same abstract model for both menus and forms allows us to
minimise the increase in code size, since the implementation of the
"form" and "item" commands is essentially zero-cost.
Rename everything within the abstract data model from "menu" to
"dynamic user interface" to reflect this generalisation.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Switch terminology for the "item" command from "item <label> <text>"
to "item <name> <text>", in preparation for repurposing the "item"
command to cover interactive forms as well as menus.
Since this renaming affects only a positional parameter, it does not
break compatibility with any existing scripts.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We currently attempt to obtain the autoexec.ipxe script via early use
of the EFI_SIMPLE_FILE_SYSTEM_PROTOCOL or EFI_PXE_BASE_CODE_PROTOCOL
interfaces to obtain an opaque block of memory, which is then
registered as an image at an appropriate point during our startup
sequence. The early use of these existent interfaces allows us to
obtain the script even if our subsequent actions (e.g. disconnecting
drivers in order to connect up our own) may cause the script to become
inaccessible.
This mirrors the approach used under BIOS, where the autoexec.ipxe
script is provided by the prefix (e.g. as an initrd image when using
the .lkrn build of iPXE) and so must be copied into a normally
allocated image from wherever it happens to previously exist in
memory.
We do not currently have support for downloading an autoexec.ipxe
script if we were ourselves downloaded via UEFI HTTP boot.
There is an EFI_HTTP_PROTOCOL defined within the UEFI specification,
but it is so poorly designed as to be unusable for the simple purpose
of downloading an additional file from the same directory. It
provides almost nothing more than a very slim wrapper around
EFI_TCP4_PROTOCOL (or EFI_TCP6_PROTOCOL). It will not handle
redirection, content encoding, retries, or even fundamentals such as
the Content-Length header, leaving all of this up to the caller.
The UEFI HTTP Boot driver will install an EFI_LOAD_FILE_PROTOCOL
instance on the loaded image's device handle. This looks promising at
first since it provides the LoadFile() API call which is specified to
accept an arbitrary filename parameter. However, experimentation (and
inspection of the code in EDK2) reveals a multitude of problems that
prevent this from being usable. Calling LoadFile() will idiotically
restart the entire DHCP process (and potentially pop up a UI requiring
input from the user for e.g. a wireless network password). The
filename provided to LoadFile() will be ignored. Any downloaded file
will be rejected unless it happens to match one of the limited set of
types expected by the UEFI HTTP Boot driver. The list of design
failures and conceptual mismatches is fairly impressive.
Choose to bypass every possible aspect of UEFI HTTP support, and
instead use our own HTTP client and network stack to download the
autoexec.ipxe script over a temporary MNP network device. Since this
approach works for TFTP as well as HTTP, drop the direct use of
EFI_PXE_BASE_CODE_PROTOCOL. For consistency and simplicity, also drop
the direct use of EFI_SIMPLE_FILE_SYSTEM_PROTOCOL and rely upon our
existing support to access local files via "file:" URIs.
This approach results in console output during the "iPXE initialising
devices...ok" message that appears while startup is in progress.
Remove the trailing "ok" so that this intermediate output appears at a
sensible location on the screen. The welcome banner that will be
printed immediately afterwards provides an indication that startup has
completed successfully even absent the explicit "ok".
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Retain a reference to the cached DHCPACK until the late startup phase,
and allow it to be recycled for reuse. This allows the cached DHCPACK
to be used for a temporary MNP network device and then subsequently
reused for the corresponding real network device.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Some URI schemes allow for a path name to be specified via the opaque
component of the URI (e.g. "file:/script.ipxe" to specify a path on
the filesystem from which iPXE itself was loaded). Files loaded from
such paths will currently fail to be assigned an appropriate name,
since only the path component of the URI will be used to construct a
default image name.
Fix by falling back to attempt deriving an image name from the opaque
component of a URI, if no path component is specified.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
iPXE maintains a concept of a current working URI, which is used when
resolving relative URIs and allows scripts to download files using
URIs relative to the script itself.
There are situations in which it is valuable for a script to be able
to access the URI explicitly as a string, not just implicitly as a
base URI for subsequent downloads. For example, when booting a Fedora
installer, the "inst.repo" command-line parameter may be used to pass
the URI of the repository to the installer.
Expose the current working URI as ${cwuri}. Since relative URIs may
be constructed as strings only from a directory URI (not from a full
URI), also expose the current working directory URI as ${cwduri}.
This feature may be used as e.g.
#!ipxe
echo Booting from ${cwuri}
prompt -k 0x197e -t 2000 Press F12 to install Fedora... || exit
kernel images/pxeboot/vmlinux inst.repo=${cwduri}
initrd images/pxeboot/initrd.img
boot
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Define an API for executing very limited functions on application
processors in a multiprocessor system, along with an x86-only
implementation.
The normal iPXE runtime environment is effectively non-existent on
application processors. There is no ability to make firmware calls
(e.g. to write to a console), and there may be no stack space
available.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Add a "--uuid" option which may be used to specify a boot device UUID,
to be matched against the GPT partition GUID.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The drive specification alone does not necessarily contain enough
information to perform a SAN boot (or local disk boot) under UEFI. If
the next-stage bootloader is installed in the EFI system partition
under a non-standard name (e.g. "\EFI\debian\grubx64.efi") then this
explicit boot filename must also be specified.
Generalise this concept to use a "SAN boot configuration parameters"
structure (currently containing only the optional explicit boot
filename), to allow for easy expansion to provide other parameters
such as the partition UUID or volume label.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Extend the EFI SAN boot code to allow for booting from a local disk,
as is already possible with the BIOS SAN boot code.
There is unfortunately no direct UEFI equivalent of the BIOS drive
number. The UEFI shell does provide numbered mappings fs0:, blk0:,
etc, but these numberings exist only while the UEFI shell is running
and are not necessarily stable between shell invocations or across
reboots.
A substantial amount of existing third-party documentation for iPXE
will suggest using "sanboot --drive 0x80" to boot from a local disk
(when no SAN drives are present), since this suggestion has been
present in the official documentation for the "sanboot" command for
almost thirteen years. We therefore aim to ensure that this
instruction will also work for UEFI, i.e. that in a situation where
there are local disks but no SAN disks, then the first local disk will
be treated as being drive 0x80.
We therefore assign local disks the virtual drive numbers 0x80, 0x81,
etc, matching the numbering typically used in a BIOS environment.
Where a SAN disk is already occupying one of these drive numbers, the
local disks' virtual drive numbers will be incremented as necessary.
This provides a rough approximation of the equivalent functionality
under BIOS, where existing local disks' drive numbers are remapped to
make way for SAN disks.
We do not make any attempt to sort the list of local disks: the order
used for allocating virtual drive numbers will be whatever order is
returned by LocateHandle(). This will typically match the creation
order of the EFI handles, which will typically match the hardware
enumeration order of the devices, which will typically match user
expectations as to which local disk is first, second, etc.
We explicitly do not attempt to match the numbering used by the UEFI
shell (which initially sorts in increasing order of device path, but
does not renumber when new devices are added or removed). We can
never guarantee matching this partly transient UEFI shell numbering,
so it is best not to set any expectation that it will be matched.
(Using local drive numbers starting at 0x80 helps to avoid setting up
this impossible expectation, since the UEFI shell uses local drive
numbers starting at zero.)
Since floppy disks are essentially non-existent in any plausible UEFI
system, overload "--drive 0" to mean "boot from any drive containing
the specified (or default) boot filename".
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Maintain the SAN device list in order of drive number, and provide
sandev_next() to locate the first SAN device at or above a given drive
number.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We currently use the SAN device pointer as the debug message stream
identifier. This pointer is not always available: for example, when
booting from a local disk there is no underlying SAN device.
Switch to using the drive number as the debug message colour stream
identifier, so that all block device debug messages may be colourised
consistently.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The ":uuid" and ":guid" settings types are currently format-only: it
is possible to format a setting as a UUID (via e.g. "show foo:uuid")
but it is not currently possible to parse a string into a UUID setting
(via e.g. "set foo:uuid 406343fe-998b-44be-8a28-44ca38cb202b").
Use uuid_aton() to implement parsing of these settings types, and add
appropriate test cases for both.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Add uuid_aton() to parse a UUID value from a string (analogous to
inet_aton(), inet6_aton(), sock_aton(), etc), treating it as a
32-digit hex string with optional hyphen separators. The placement of
the separators is not checked: each byte within the hex string may be
separated by a hyphen, or not separated at all.
Add dedicated self-tests for UUID parsing and formatting (already
partially covered by the ":uuid" and ":guid" settings self-tests).
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We currently use the number of timer ticks since power-on as a seed
for the non-cryptographic RNG implemented by random(). Since iPXE is
often executed directly after power-on, and since the timer tick
resolution is generally low, this can often result in identical seed
values being used on each cold boot attempt.
As of commit 41f786c ("[settings] Add "unixtime" builtin setting to
expose the current time"), the current wall-clock time is always
available within the default build of iPXE. Use this time instead, to
introduce variability between cold boot attempts on the same host.
(Note that variability between different hosts is obtained by using
the MAC address as an additional seed value.)
This has no effect on the separate DRBG used by cryptographic code.
Suggested-by: Heiko <heik0@xs4all.nl>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Allow network upper-layer drivers (such as LLDP, which attaches to
each network device in order to provide a corresponding LLDP settings
block) to specify a size for private data, which will be allocated as
part of the network device structure (as with the existing private
data allocated for the underlying device driver).
This will allow network upper-layer drivers to be simplified by
omitting memory allocation and freeing code. If the upper-layer
driver requires a reference counter (e.g. for interface
initialisation), then it may use the network device's existing
reference counter, since this is now the reference counter for the
containing block of memory.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Commit 3ef4f7e ("[console] Avoid overlap between special keys and
Unicode characters") renumbered the special key encoding to avoid
collisions with Unicode key values outside the ASCII range. This
change broke backwards compatibility with existing scripts that
specify key values using e.g. "prompt --key" or "menu --key".
Restore compatibility with existing scripts by tweaking the special
key encoding so that the relative key value (i.e. the delta from
KEY_MIN) is numerically equal to the old pre-Unicode key value, and by
modifying parse_key() to accept a relative key value.
Reported-by: Sven Dreyer <sven@dreyer-net.de>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The interface debug message values constructed by INTF_DBG() et al
rely on the interface being embedded within a containing object. This
assumption is not valid for the temporary outbound-only interfaces
constructed on the stack by intf_shutdown() and xfer_vredirect().
Formalise the notion of a temporary outbound-only interface as having
a NULL interface descriptor, and overload the "original interface
descriptor" field to contain a pointer to the original interface that
the temporary interface is shadowing.
Originally-fixed-by: Vincent Fazio <vfazio@gmail.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Most image flags are independent values: any combination of flags may
be set for any image, and the flags for one image are independent of
the flags for any other image. The "selected" flag does not follow
this pattern: at most one image may be marked as selected at any time.
When invoking a kernel via the UEFI shim, there will be multiple
"special" images: the selected kernel itself, the shim image, and
potentially a shim-signed GRUB binary to be used as a crutch to assist
shim in loading the kernel (since current versions of the UEFI shim
are not capable of directly loading a Linux kernel).
Remove the "selected" image flag and replace it with a general concept
of an image tag with the same semantics: a given tag may be assigned
to at most one image, an image may be found by its tag only while the
image is currently registered, and a tag will survive unregistration
and reregistration of an image (if it has not already been assigned to
a new image). For visual consistency, also replace the current image
pointer with a current image tag.
The image pointer stored within the image tag holds only a weak
reference to the image, since the selection of an image should not
prevent that image from being freed. (The strong reference to the
currently executing image is held locally within the execution scope
of image_exec(), and is logically separate from the current image
pointer.)
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We unregister script images during their execution, to prevent a
"boot" command from re-executing the containing script. This also has
the side effect of preventing executing scripts from showing up within
the Linux magic initrd image (or the Multiboot module list).
Additional logic in bzimage.c and efi_file.c prevents a currently
executing kernel from showing up within the magic initrd image.
Similar logic in multiboot.c prevents the Multiboot kernel from
showing up as a Multiboot module.
This still leaves some corner cases that are not covered correctly.
For example: when using a gzip-compressed kernel image, nothing will
currently hide the original compressed image from the magic initrd.
Fix by moving the logic that temporarily unregisters the current image
from script_exec() to image_exec(), so that it applies to all image
types, and simplify the magic initrd and Multiboot module list
construction logic on the basis that no further filtering of the
registered image list is necessary.
This change has the side effect of hiding currently executing EFI
images from the virtual filesystem exposed by iPXE. For example, when
using iPXE to boot wimboot, the wimboot binary itself will no longer
be visible within the virtual filesystem.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Extend the request parameter mechanism to allow for arbitrary HTTP
headers to be specified via e.g.:
params
param --header Referer http://www.example.com
imgfetch http://192.168.0.1/script.ipxe##params
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Prepare for the parameter mechanism to be generalised to specifying
request parameters that are passed via mechanisms other than an
application/x-www-form-urlencoded form.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The Linux kernel bzImage image format and the CPIO archive constructor
will parse the image command line for certain arguments of the form
"key=value". This parsing is currently implemented using strstr() in
a way that can cause a false positive suffix match. For example, a
command line containing "highmem=<n>" would erroneously be treated as
containing a value for "mem=<n>".
Fix by centralising the logic used for parsing such arguments, and
including a check that the argument immediately follows a whitespace
delimiter (or is at the start of the string).
Reported-by: Filippo Giunchedi <filippo@esaurito.net>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
We currently free an unclaimed cached DHCPACK immediately after
startup, in order to free up memory. This prevents the cached DHCPACK
from being applied to a device that is created after startup, such as
a VLAN device created via the "vcreate" command.
Retain any unclaimed DHCPACK after startup to allow it to be matched
against (and applied to) any device that gets created at runtime.
Free the DHCPACK during shutdown if it still remains unclaimed, in
order to exit with memory cleanly freed.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
When chainloading iPXE from a VLAN device, the MAC address within the
cached DHCPACK will match the MAC address of the trunk device created
by iPXE, and the cached DHCPACK will then end up being erroneously
applied to the trunk device. This tends to break outbound IPv4
routing, since both the trunk and VLAN devices will have the same
assigned IPv4 address.
Fix by recording the VLAN tag along with the cached DHCPACK, and
treating the VLAN tag as part of the filter used to match the cached
DHCPACK against candidate network devices.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Expose the system MAC address (if any) via the ${sysmac} setting.
This allows scripts to access the system MAC address even when iPXE
has decided not to apply it to a network device (e.g. because the
cached DHCPACK MAC address was selected in order to match the
behaviour of a previous boot stage).
The setting is named ${sysmac} rather than ${acpimac} in order to
allow for forward compatibility with non-ACPI mechanisms that may
exist in future for specifying a system MAC address.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
When running on a system with an ACPI-provided system-specific MAC
address, iPXE will apply this address to an ECM or NCM USB NIC. If
iPXE has been chainloaded from a previous stage that does not
understand the ACPI MAC mechanism then this can result in iPXE using a
different MAC address than the previous stage, which is surprising to
users.
Attempt to minimise surprise by allowing the MAC address found in a
cached DHCPACK packet to override a temporary MAC address, if the
DHCPACK MAC address matches the network device's permanent MAC
address. When a previous stage has chosen to use the network device's
permanent MAC address (e.g. because it does not understand the ACPI
MAC mechanism), this will cause iPXE to make the same choice.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Some newer HP products expose the host-based MAC (HBMAC) address using
an ACPI method named "RTMA" returning a part-binary string of the form
"_RTXMAC_#<mac>#", where "<mac>" comprises the raw MAC address bytes.
Extend the existing support to handle this format alongside the older
"_AUXMAC_" format (which uses a base16-encoded MAC address).
Reported-by: Andreas Hammarskjöld <junior@2PintSoftware.com>
Tested-by: Andreas Hammarskjöld <junior@2PintSoftware.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Allow for linked-in code to override the mechanism used to locate an
ACPI table, thereby opening up the possibility of ACPI self-tests.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Accumulate UTF-8 characters in fbcon_putchar(), and require the frame
buffer console's .glyph() method to accept Unicode character values.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Provide the special keyboard map named "dynamic" which allows the
active keyboard map to be selected at runtime via the ${keymap}
setting, e.g.:
#define KEYBOARD_MAP dynamic
iPXE> set keymap uk
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Settings applicators are entirely independent, and there is no reason
why a failure in one applicator should prevent other applicators from
being processed.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Embedded images do not have an associated URI. This currently causes
the current working URI (cwuri) to be cleared when starting an
embedded image.
If the current working URI has been set via a ${next-server} setting
from a cached DHCP packet then this will result in unexpected
behaviour. An attempt by the embedded script to use a relative URI to
download files from the TFTP server will fail with the error:
Could not start download: Operation not supported (ipxe.org/3c092083)
Rerunning the "dhcp" command will not fix this error, since the TFTP
settings applicator will not see any change to the ${next-server}
setting and so will not reset the current working URI.
Fix by setting the current working URI to the image's URI only if the
image actually has an associated URI.
Debugged-by: Ignat Korchagin <ignat@cloudflare.com>
Originally-fixed-by: Ignat Korchagin <ignat@cloudflare.com>
Tested-by: Ignat Korchagin <ignat@cloudflare.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Several keyboard layouts define ASCII characters as accessible only
via the AltGr modifier. Add support for this modifier to ensure that
all ASCII characters are accessible.
Experiments suggest that the BIOS console is likely to fail to
generate ASCII characters when the AltGr key is pressed. Work around
this limitation by accepting LShift+RShift (which will definitely
produce an ASCII character) as a synonym for AltGr.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Handle Ctrl and CapsLock key modifiers within key_remap(), to provide
consistent behaviour across different console types.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Separate the concept of a keyboard mapping from a list of remapped
keys, to allow for the possibility of supporting multiple keyboard
mappings at runtime.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The key with scancode 86 appears in the position between left shift
and Z on a US keyboard, where it typically fails to exist entirely.
Most US keyboard maps define this nonexistent key as generating "\|",
with the notable exception of "loadkeys" which instead reports it as
generating "<>". Both of these mapping choices duplicate keys that
exist elsewhere in the map, which causes problems for our ASCII-based
remapping mechanism.
Work around these quirks by treating the key as generating "\|" with
the high bit set, and making it subject to remapping. Where the BIOS
generates "\|" as expected, this allows us to remap to the correct
ASCII value.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Michael Brown