[int13con] Avoid overwriting random portions of SAN boot disks
The INT13 console type (CONSOLE_INT13) autodetects at initialisation
time a magic partition to be used for logging iPXE console output. If
the INT13 drive number mapping is subsequently changed (e.g. because
iPXE was used to perform a SAN boot), then the console logging output
will be written to the incorrect disk.
Fix by recording the INT13 vector at initialisation time, and using
this original vector to emulate INT13 calls for all subsequent
accesses. This should be robust against drive remapping performed
either by ourselves or by another bootloader (e.g. a chainloaded
undionly.kpxe which then performs a SAN boot).
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[int13] Improve geometry guessing for unaligned partitions
Some partition tables have partitions that are not aligned to a
cylinder boundary, which confuses the current geometry guessing logic.
Enhance the existing logic to ensure that we never reduce our guesses
for the number of heads or sectors per track, and add extra logic to
calculate the exact number of sectors per track if we find a partition
that starts within cylinder zero.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Add basic support for multipath block devices. The "sanboot" and
"sanhook" commands now accept a list of SAN URIs. We open all URIs
concurrently. The first connection to become available for issuing
block device commands is marked as the active path and used for all
subsequent commands; all other connections are then closed. Whenever
the active path fails, we reopen all URIs and repeat the process.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
As of commit 10d19bd ("[pxe] Always retrieve cached DHCPACK and apply
to relevant network device"), the UNDI driver has been the only user
of pxeparent_call(). Remove the unnecessary layer of abstraction by
refactoring this code back into undinet.c, and fix the ability of
undiisr.S to fall back to chaining to the original handler if we were
unable to unhook our own ISR.
This effectively reverts commit 337e1ed ("[pxe] Separate parent PXE
API caller from UNDINET driver").
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The concept of the SAN drive number is meaningful only in a BIOS
environment, where it represents the INT13 drive number (0x80 for the
first hard disk). We retain this concept in a UEFI environment to
allow for a simple way for iPXE commands to refer to SAN drives.
Centralise the concept of the default drive number, since it is shared
between all supported environments.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[int13] Test correct return status from INT 13 calls
INT 13 calls return a status value via %ah, with CF set if %ah is
non-zero (indicating an error). Our wrappers zero the whole of %ax if
CF is clear, to allow C code (which has no easy access to CF) to
simply test for a non-zero status to detect an error.
The current code assigns the returned status to a uint8_t, effectively
testing %al rather than %ah. Fix by treating the returned status as a
uint16_t instead.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Avoid using a zero sector count to guess the disk geometry, since that
would result in a division by zero when calculating the number of
cylinders.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[hyperv] Provide timer based on the 10MHz time reference count MSR
When running on AMD platforms, the legacy hardware emulation is
extremely unreliable. In particular, the IRQ0 timer interrupt is
likely to simply stop working, resulting in a total failure of any
code that relies on timers (such as DHCP retransmission attempts).
Work around this by using the 10MHz time counter provided by Hyper-V
via an MSR. (This timer can be tested in KVM via the command-line
option "-cpu host,hv_time".)
Signed-off-by: Michael Brown <mcb30@ipxe.org>
Allow the active timer (providing udelay() and currticks()) to be
selected at runtime based on probing during the INIT_EARLY stage of
initialisation.
TICKS_PER_SEC is now a fixed compile-time constant for all builds, and
is independent of the underlying clock tick rate. We choose the value
1024 to allow multiplications and divisions on seconds to be converted
to bit shifts.
TICKS_PER_MS is defined as 1, allowing multiplications and divisions
on milliseconds to be omitted entirely. The 2% inaccuracy in this
definition is negligible when using the standard BIOS timer (running
at around 18.2Hz).
TIMER_RDTSC now checks for a constant TSC before claiming to be a
usable timer. (This timer can be tested in KVM via the command-line
option "-cpu host,+invtsc".)
Signed-off-by: Michael Brown <mcb30@ipxe.org>
This code largely inspired by tap.c. Allows for testing iPXE on real
NICs from within Linux. For example:
make bin-x86_64-linux/af_packet.linux
valgrind ./bin-x86_64-linux/af_packet.linux --net af_packet,if=eth3
Tested as x86_64 and i386 binary.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[undi] Try matching UNDI ROMs in BIOS enumeration order
When searching for an UNDI ROM to match against a PCI device, search
in order of increasing ROM address (within the 128kB BIOS option ROM
area). This is likely (though not guaranteed) to match the order of
the original enumeration performed by the BIOS, which is in turn
likely to match the order of enumeration on the PCI bus.
Since we load at most one UNDI ROM, the net result is that we increase
our chances of loading the ROM corresponding to the selected PCI
device (rather than loading a ROM corresponding to a higher-numbered
PCI device with the same vendor and device IDs.)
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The "progress" macro can be used only from within the .prefix section.
At the point of calling relocate(), we are running in .text16 and so
the near call to print_message() will end up calling a random function
somewhere in .text16.
Interestingly, this problem has remained unnoticed for some time. It
is rare to build with DEBUG=libprefix. In the few cases that it has
been used during development, the randomly selected function in
.text16 seems to have been a harmless no-op with no visible
side-effects (beyond the unnoticed failure to print the "relocate"
progress message).
Fix by removing the futile attempt to print a progress message before
calling relocate().
Reported-by: Raed Salem <raeds@mellanox.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[undi] Clean up driver and device name information
Fix the <NULL> driver name reported by "ifstat" when using the undipci
driver (due to the unnecessary extra device node inserted as a child
of the PCI device).
Remove the "UNDI-" prefix from device names since the driver name is
also now visible via "ifstat", and tidy up the device name to match
the format used by standard PCI devices.
The output from "ifstat" now resembles:
iPXE> ifstat
net0: 52:54:00:12:34:56 using undipci on 0000:00:03.0
iPXE> ifstat
net0: 52:54:00:12:34:56 using undionly on 0000:00:03.0
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[romprefix] Avoid using PMM-allocated memory in UNDI loader entry point
The UNDI loader entry point is very likely to be called after POST,
when there is a high chance that the PMM-allocated image source area
and decompression area have been reused by something else.
In particular, using an iPXE .iso to test a separate iPXE ROM's UNDI
loader entry point in a qemu VM is likely to crash. SeaBIOS allocates
PMM blocks from close to the top of memory and so these blocks have a
high chance of colliding with the runtime addresses subsequently
chosen by the non-ROM iPXE by scanning the INT 15,e820 memory map.
The standard romprefix.S has no choice about relying on the
PMM-allocated image source area, since it has no other way to retrieve
its compressed payload.
In mromprefix.S, the image source area functions only as an optional
buffer used to avoid repeated reads from the (potentially slow)
expansion ROM BAR by the decompression code. We can therefore always
set %esi=0 when calling install_prealloc from the UNDI loader entry
point, and simply fall back to reading directly from the expansion ROM
BAR.
We can always set %edi=0 when calling install_prealloc from the UNDI
loader entry point. This will behave as though the decompression area
PMM allocation failed, and will therefore use INT 15,88 to find a
temporary decompression area somewhere close to 64MB. This is by no
means guaranteed to be safe from collisions, but it's probably safer
on balance than the PMM-allocated address.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[undi] Allocate base memory before calling UNDI loader entry point
Allocate base memory (by decreasing the free base memory counter)
before calling the UNDI loader entry point, to minimise surprises for
the UNDI loader code.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[librm] Conditionalize the workaround for the Tivoli VMM's SSE garbling
Commit 71560d1 ("[librm] Preserve FPU, MMX and SSE state across calls
to virt_call()") added FXSAVE and FXRSTOR instructions to iPXE. In
KVM virtual machines, these instructions execute fine as long as the
host CPU supports the "unrestricted_guest" feature (that is, it can
virtualize big real mode natively). On older host CPUs however, KVM
has to emulate big real mode, and it currently doesn't implement
FXSAVE emulation.
Upstream QEMU rebuilt iPXE at commit 0418631 ("[thunderx] Fix
compilation with older versions of gcc") which is a descendant of
commit 71560d1 (see above).
This was done in QEMU commit ffdc5a2 ("ipxe: update submodule from
4e03af8ec to 041863191"). The resultant binaries were bundled with
the QEMU v2.7.0 release; see QEMU commit c52125a ("ipxe: update
prebuilt binaries").
This distributed the iPXE workaround for the Tivoli VMM bug to a
number of KVM users with old host CPUs, causing KVM emulation failures
(guest crashes) for them while netbooting.
Make the FXSAVE and FXRSTOR instructions conditional on a new feature
test macro called TIVOLI_VMM_WORKAROUND. Define the macro by default.
There is prior art for an assembly file including config/general.h:
see arch/x86/prefix/romprefix.S. Also, TIVOLI_VMM_WORKAROUND seems to
be a good fit for the "Obscure configuration options" section in
config/general.h.
Cc: Bandan Das <bsd@redhat.com>
Cc: Gerd Hoffmann <kraxel@redhat.com>
Cc: Greg <rollenwiese@yahoo.com>
Cc: Michael Brown <mcb30@ipxe.org>
Cc: Michael Prokop <launchpad@michael-prokop.at>
Cc: Paolo Bonzini <pbonzini@redhat.com>
Cc: Peter Pickford <arch@netremedies.ca>
Cc: Radim Krčmář <rkrcmar@redhat.com>
Ref: https://bugs.archlinux.org/task/50778
Ref: https://bugs.launchpad.net/qemu/+bug/1623276
Ref: https://bugzilla.proxmox.com/show_bug.cgi?id=1182
Ref: https://bugzilla.redhat.com/show_bug.cgi?id=1356762
Signed-off-by: Laszlo Ersek <lersek@redhat.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The initrd_addr_max field represents the highest byte address that may
be used to hold initrd images, and is therefore almost certainly not
aligned to a page boundary: a typical value might be 0x7fffffff.
Fix the address calculations to ensure that the initrd images are
always aligned to a page boundary.
Reported-by: Sitsofe Wheeler <sitsofe@gmail.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[acpi] Allow time for ACPI power off to take effect
The ACPI power off sequence may not take effect immediately. Delay
for one second, to eliminate potentially confusing log messages such
as "Could not power off: Error 0x43902001 (http://ipx".
Reported-by: Leonid Vasetsky <leonidv@velostrata.com>
Signed-off-by: Michael Brown <mcb30@ipxe.org>
On some platforms (observed in a small subset of Microsoft Azure
(Hyper-V) virtual machines), the RTC appears to be incapable of
generating an interrupt via the legacy PIC. The RTC status registers
show that a periodic interrupt has been asserted, but the PIC IRR
shows that IRQ8 remains inactive.
On such systems, iPXE will currently freeze during the "iPXE
initialising devices..." message.
Work around this problem by checking that RTC interrupts are being
raised before returning from rtc_entropy_enable(). If no interrupt is
seen within 100ms, then we assume that the RTC interrupt mechanism is
broken. In these circumstances, iPXE will continue to initialise but
any subsequent attempt to generate entropy will fail. In particular,
HTTPS connections will fail with an error indicating that no entropy
is available.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[dhcp] Automatically generate vendor class identifier string
The vendor class identifier strings in DHCP_ARCH_VENDOR_CLASS_ID are
out of sync with the (correct) client architecture values in
DHCP_ARCH_CLIENT_ARCHITECTURE.
Fix by removing all definitions of DHCP_ARCH_VENDOR_CLASS_ID, and
instead generating the vendor class identifier string automatically
based on DHCP_ARCH_CLIENT_ARCHITECTURE and DHCP_ARCH_CLIENT_NDI.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[dhcp] Allow for variable encapsulation of architecture-specific options
DHCPv4 and DHCPv6 share some values in common for the architecture-
specific options (such as the client system architecture type), but
use different encapsulations: DHCPv4 has a single byte for the option
length while DHCPv6 has a 16-bit field for the option length.
Move the containing DHCP_OPTION() and related wrappers from the
individual dhcp_arch.h files to dhcp.c, thus allowing for the
architecture-specific values to be reused in dhcpv6.c.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[pxe] Disable interrupts on the PIC before starting NBP
Some BIOSes (observed with an HP Gen9) seem to spuriously enable
interrupts at the PIC. This causes problems with NBPs such as GRUB
which use the UNDI API (thereby enabling interrupts on the NIC)
without first hooking an interrupt service routine. In this
situation, the interrupt will end up being handled by the default BIOS
ISR, which will typically just send an EOI and return. Since nothing
in this handler causes the NIC to deassert the interrupt, this will
result in an interrupt storm.
Entertainingly, some BIOSes are immune to this problem because the
default ISR sends the EOI only to the slave PIC; this effectively
disables the interrupt.
Work around this problem by disabling the interrupt on the PIC before
invoking the PXE NBP. An NBP that expects to make use of interrupts
will need to be configuring the PIC anyway, so it is probably safe to
assume that it will explicitly reenable the interrupt.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[bios] Do not enable interrupts when printing to the console
There seems to be no reason for the sti/cli pair used around each call
to INT 10. Remove these instructions, so that printing debug messages
from within an ISR does not temporarily reenable interrupts.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[pci] Support systems with multiple PCI root bridges
Extend the 16-bit PCI bus:dev.fn address to a 32-bit seg:bus:dev.fn
address, assuming a segment value of zero in contexts where multiple
segments are unsupported by the underlying data structures (e.g. in
the iBFT or BOFM tables).
Signed-off-by: Michael Brown <mcb30@ipxe.org>
The raw cycle counter at PMCCNTR_EL0 works in qemu but seems to always
read as zero on physical hardware (tested on Juno r1 and Cavium
ThunderX), even after ensuring that PMCR_EL0.E and PMCNTENSET_EL0.C
are both enabled.
Use CNTVCT_EL0 instead; this seems to count at a lower resolution
(tens of CPU cycles), but is usable for profiling.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[tcpip] Do not fall back to using unoptimised TCP/IP checksumming
Require architecture-specific code to make a deliberate choice to use
the unoptimised generic_tcpip_continue_chksum() function, if there is
no optimised version available.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[librm] Preserve FPU, MMX and SSE state across calls to virt_call()
The IBM Tivoli Provisioning Manager for OS Deployment (also known as
TPMfOSD, Rembo-ia32, or Rembo Auto-Deploy) has a serious bug in some
older versions (observed with v5.1.1.0, apparently fixed by v7.1.1.0)
which can lead to arbitrary data corruption.
As mentioned in commit 87723a0 ("[libflat] Test A20 gate without
switching to flat real mode"), Tivoli's NBP sets up a VMM and makes
calls to the PXE stack in VM86 mode. This appears to be some kind of
attempt to run PXE API calls inside a sandbox. The VMM is fairly
sophisticated: for example, it handles our attempts to switch into
protected mode and patches our GDT so that our protected-mode code
runs in ring 1 instead of ring 0. However, it neglects to apply any
memory protections. In particular, it does not enable paging and
leaves us with 4GB segment limits. We can therefore trivially break
out of the sandbox by simply overwriting the GDT (or by modifying any
of Tivoli's VMM code or data structures).
When we attempt to execute privileged instructions (such as "lidt"),
the CPU raises an exception and control is passed to the Tivoli VMM.
This may result in a call to Tivoli's memcpy() function.
Tivoli's memcpy() function includes optimisations which use the SSE
registers %xmm0-%xmm3 to speed up aligned memory copies.
Unfortunately, the Tivoli VMM's exception handler does not save or
restore %xmm0-%xmm3. The net effect of this bug in the Tivoli VMM is
that any privileged instruction (such as "lidt") issued by iPXE may
result in unexpected corruption of the %xmm0-%xmm3 registers.
Even more unfortunately, this problem affects the code path taken in
response to a hardware interrupt from the NIC, since that code path
will call PXENV_UNDI_ISR. The net effect therefore becomes that any
NIC hardware interrupt (e.g. due to a received packet) may result in
unexpected corruption of the %xmm0-%xmm3 registers.
If a packet arrives while Tivoli is in the middle of using its
memcpy() function, then the unexpected corruption of the %xmm0-%xmm3
registers will result in unexpected corruption in the destination
buffer. The net effect therefore becomes that any received packet may
result in a 16-byte block of corruption somewhere in any data that
Tivoli copied using its memcpy() function.
We can work around this bug in the Tivoli VMM by saving and restoring
the %xmm0-%xmm3 registers across calls to virt_call(). To work around
the problem, we need to save registers before attempting to execute
any privileged instructions, and ensure that we attempt no further
privileged instructions after restoring the registers.
This is less simple than it may sound. We can use the "movups"
instruction to save and restore individual registers, but this will
itself generate an undefined opcode exception if SSE is not currently
enabled according to the flags in %cr0 and %cr4. We can't access %cr0
or %cr4 before attempting the "movups" instruction, because access a
control register is itself a privileged instruction (which may
therefore trigger corruption of the registers that we're trying to
save).
The best solution seems to be to use the "fxsave" and "fxrstor"
instructions. If SSE is not enabled, then these instructions may fail
to save and restore the SSE register contents, but will not generate
an undefined opcode exception. (If SSE is not enabled, then we don't
really care about preserving the SSE register contents anyway.)
The use of "fxsave" and "fxrstor" introduces an implicit assumption
that the CPU supports SSE instructions (even though we make no
assumption about whether or not SSE is currently enabled). SSE was
introduced in 1999 with the Pentium III (and added by AMD in 2001),
and is an architectural requirement for x86_64. Experimentation with
current versions of gcc suggest that it may generate SSE instructions
even when using "-m32", unless an explicit "-march=i386" or "-mno-sse"
is used to inhibit this. It therefore seems reasonable to assume that
SSE will be supported on any hardware that might realistically be used
with new iPXE builds.
As a side benefit of this change, the MMX register %mm0 will now be
preserved across virt_call() even in an i386 build of iPXE using a
driver that requires readq()/writeq(), and the SSE registers
%xmm0-%xmm5 will now be preserved across virt_call() even in an x86_64
build of iPXE using the Hyper-V netvsc driver.
Experimentation suggests that this change adds around 10% to the
number of cycles required for a do-nothing virt_call(), most of which
are due to the extra bytes copied using "rep movsb". Since the number
of bytes copied is a compile-time constant local to librm.S, we could
potentially reduce this impact by ensuring that we always copy a whole
number of dwords and so can use "rep movsl" instead of "rep movsb".
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[librm] Reduce real-mode stack consumption in virt_call()
Some PXE NBPs are known to make PXE API calls with very little space
available on the real-mode stack. For example, the Rembo-ia32 NBP
from some versions of IBM's Tivoli Provisioning Manager for Operating
System Deployment (TPMfOSD) will issue calls with the real-mode stack
placed at 0000:03d2; this is at the end of the interrupt vector table
and leaves only 498 bytes of stack space available before overwriting
the hardware IRQ vectors. This limits the amount of state that we can
preserve before transitioning to protected mode.
Work around these challenging conditions by preserving everything
other than the initial register dump in a temporary static buffer
within our real-mode data segment, and copying the contents of this
buffer to the protected-mode stack.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[pxe] Implicitly open network device in PXENV_UDP_OPEN
Some end-user configurations have been observed in which the first NBP
(such as GRUB2) uses the UNDI API and then transfers control to a
second NBP (such as pxelinux) which uses the UDP API. The first NBP
closes the network device using PXENV_UNDI_CLOSE, which renders the
UDP API unable to transmit or receive packets.
The correct behaviour under these circumstances is (as often) simply
not documented by the PXE specification. Testing with the Intel PXE
stack suggests that PXENV_UDP_OPEN will implicitly reopen the network
device if necessary, so match this behaviour.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[int13] Allow default drive to be specified via "san-drive" setting
The DHCP option 175.189 has been defined (by us) since 2006 as
containing the drive number to be used for a SAN boot, but has never
been automatically used as such by iPXE.
Use this option (if specified) to override the default SAN drive
number.
Signed-off-by: Michael Brown <mcb30@ipxe.org>
[int13] Allow drive to be hooked using the natural drive number
Interpret the maximum drive number (0xff for hard disks, 0x7f for
floppy disks) as meaning "use natural drive number".
Signed-off-by: Michael Brown <mcb30@ipxe.org>