[v2] efifb: avoid reconfiguration of BAR that covers the framebuffer

On UEFI systems, the PCI subsystem is enumerated by the firmware,
and if a graphical framebuffer is exposed by a PCI device, its base
address and size are exposed to the OS via the Graphics Output
Protocol (GOP).

On arm64 PCI systems, the entire PCI hierarchy is reconfigured from
scratch at boot. This may result in the GOP framebuffer address to
become stale, if the BAR covering the framebuffer is modified. This
will cause the framebuffer to become unresponsive, and may in some
cases result in unpredictable behavior if the range is reassigned to
another device.

So add a quirk to the EFI fb driver to find the BAR associated with
the GOP base address, and set the IORESOURCE_PCI_FIXED attribute so
that the PCI core will leave it alone.

Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>

---
As it turns out, setting the IORESOURCE_PCI_FIXED flag is not sufficient
to make the PCI core leave the BARs alone, so instead, the BAR resource
is claimed in the quirk handler.

As suggested by Lorenzo, a check is added that the device has memory
decoding enabled, and if it doesn't, no attempt is made to use the
EFI framebuffer.

 drivers/video/fbdev/efifb.c | 58 +++++++++++++++++++-
 1 file changed, 57 insertions(+), 1 deletion(-)

-- 
2.7.4

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On Tue, Mar 21, 2017 at 07:16:50PM +0000, Ard Biesheuvel wrote:
> On UEFI systems, the PCI subsystem is enumerated by the firmware,

> and if a graphical framebuffer is exposed by a PCI device, its base

> address and size are exposed to the OS via the Graphics Output

> Protocol (GOP).

> 

> On arm64 PCI systems, the entire PCI hierarchy is reconfigured from

> scratch at boot. This may result in the GOP framebuffer address to

> become stale, if the BAR covering the framebuffer is modified. This

> will cause the framebuffer to become unresponsive, and may in some

> cases result in unpredictable behavior if the range is reassigned to

> another device.

> 

> So add a quirk to the EFI fb driver to find the BAR associated with

> the GOP base address, and set the IORESOURCE_PCI_FIXED attribute so

> that the PCI core will leave it alone.

> 

> Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>

> ---

> As it turns out, setting the IORESOURCE_PCI_FIXED flag is not sufficient

> to make the PCI core leave the BARs alone, so instead, the BAR resource

> is claimed in the quirk handler.

> 

> As suggested by Lorenzo, a check is added that the device has memory

> decoding enabled, and if it doesn't, no attempt is made to use the

> EFI framebuffer.

> 

>  drivers/video/fbdev/efifb.c | 58 +++++++++++++++++++-

>  1 file changed, 57 insertions(+), 1 deletion(-)

> 

> diff --git a/drivers/video/fbdev/efifb.c b/drivers/video/fbdev/efifb.c

> index 8c4dc1e1f94f..eeeaf78c4a5b 100644

> --- a/drivers/video/fbdev/efifb.c

> +++ b/drivers/video/fbdev/efifb.c

> @@ -10,6 +10,7 @@

>  #include <linux/efi.h>

>  #include <linux/errno.h>

>  #include <linux/fb.h>

> +#include <linux/pci.h>

>  #include <linux/platform_device.h>

>  #include <linux/screen_info.h>

>  #include <video/vga.h>

> @@ -143,6 +144,9 @@ static struct attribute *efifb_attrs[] = {

>  };

>  ATTRIBUTE_GROUPS(efifb);

>  

> +static bool pci_bar_found;	/* did we find a BAR matching the efifb base? */

> +static bool pci_bar_disabled;	/* was it disabled? */

> +

>  static int efifb_probe(struct platform_device *dev)

>  {

>  	struct fb_info *info;

> @@ -152,7 +156,7 @@ static int efifb_probe(struct platform_device *dev)

>  	unsigned int size_total;

>  	char *option = NULL;

>  

> -	if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

> +	if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI || pci_bar_disabled)

>  		return -ENODEV;

>  

>  	if (fb_get_options("efifb", &option))

> @@ -360,3 +364,55 @@ static struct platform_driver efifb_driver = {

>  };

>  

>  builtin_platform_driver(efifb_driver);

> +

> +static void claim_efifb_bar(struct pci_dev *dev, int idx)

> +{

> +	u16 word;

> +

> +	pci_bar_found = true;

> +

> +	if (pci_claim_resource(dev, idx)) {


I would not do that. If claiming the resource succeeds, it will become
immutable (ie it becomes part of the resource tree), if it is your FB
fine if it isn't this will mess things up since a) you won't be able to
claim the PCI resources for the real FB and b) you won't be able to
reallocate the PCI resources for the device we *think* is the FB but it
actually isn't (unless we force a realloc).

So, I would carry out the check below first, if the device is enabled
we should flag its resource IORESOURCE_PCI_FIXED otherwise just do
nothing and let PCI core (through arch specific realloc policy) handle
it.

Side note: I *think* it should be fine to claim a resource twice
(ie in x86 the FB would have been claimed already by core x86 code),
just thought it is worth checking.

Lorenzo

> +		pci_bar_disabled = true;

> +		dev_err(&dev->dev, "BAR %d: failed to claim efifb BAR\n", idx);

> +		return;

> +	}

> +

> +	pci_read_config_word(dev, PCI_COMMAND, &word);

> +	if (!(word & PCI_COMMAND_MEMORY)) {

> +		pci_bar_disabled = true;

> +		dev_err(&dev->dev,

> +			"BAR %d: efifb BAR has memory decoding disabled!\n", idx);

> +		return;

> +	}

> +

> +	dev_info(&dev->dev, "BAR %d: claimed for efifb\n", idx);

> +}

> +

> +static void efifb_fixup_resources(struct pci_dev *dev)

> +{

> +	u64 base = screen_info.lfb_base;

> +	u64 size = screen_info.lfb_size;

> +	int i;

> +

> +	if (pci_bar_found || screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

> +		return;

> +

> +	if (screen_info.capabilities & VIDEO_CAPABILITY_64BIT_BASE)

> +		base |= (u64)screen_info.ext_lfb_base << 32;

> +

> +	if (!base)

> +		return;

> +

> +	for (i = 0; i < PCI_STD_RESOURCE_END; i++) {

> +		struct resource *res = &dev->resource[i];

> +

> +		if (!(res->flags & IORESOURCE_MEM))

> +			continue;

> +

> +		if (res->start <= base && res->end >= base + size - 1) {

> +			claim_efifb_bar(dev, i);

> +			break;

> +		}

> +	}

> +}

> +DECLARE_PCI_FIXUP_HEADER(PCI_ANY_ID, PCI_ANY_ID, efifb_fixup_resources);

> -- 

> 2.7.4

> 

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> On 22 Mar 2017, at 10:29, Lorenzo Pieralisi <lorenzo.pieralisi@arm.com> wrote:

> 

>> On Tue, Mar 21, 2017 at 07:16:50PM +0000, Ard Biesheuvel wrote:

>> On UEFI systems, the PCI subsystem is enumerated by the firmware,

>> and if a graphical framebuffer is exposed by a PCI device, its base

>> address and size are exposed to the OS via the Graphics Output

>> Protocol (GOP).

>> 

>> On arm64 PCI systems, the entire PCI hierarchy is reconfigured from

>> scratch at boot. This may result in the GOP framebuffer address to

>> become stale, if the BAR covering the framebuffer is modified. This

>> will cause the framebuffer to become unresponsive, and may in some

>> cases result in unpredictable behavior if the range is reassigned to

>> another device.

>> 

>> So add a quirk to the EFI fb driver to find the BAR associated with

>> the GOP base address, and set the IORESOURCE_PCI_FIXED attribute so

>> that the PCI core will leave it alone.

>> 

>> Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>

>> ---

>> As it turns out, setting the IORESOURCE_PCI_FIXED flag is not sufficient

>> to make the PCI core leave the BARs alone, so instead, the BAR resource

>> is claimed in the quirk handler.

>> 

>> As suggested by Lorenzo, a check is added that the device has memory

>> decoding enabled, and if it doesn't, no attempt is made to use the

>> EFI framebuffer.

>> 

>> drivers/video/fbdev/efifb.c | 58 +++++++++++++++++++-

>> 1 file changed, 57 insertions(+), 1 deletion(-)

>> 

>> diff --git a/drivers/video/fbdev/efifb.c b/drivers/video/fbdev/efifb.c

>> index 8c4dc1e1f94f..eeeaf78c4a5b 100644

>> --- a/drivers/video/fbdev/efifb.c

>> +++ b/drivers/video/fbdev/efifb.c

>> @@ -10,6 +10,7 @@

>> #include <linux/efi.h>

>> #include <linux/errno.h>

>> #include <linux/fb.h>

>> +#include <linux/pci.h>

>> #include <linux/platform_device.h>

>> #include <linux/screen_info.h>

>> #include <video/vga.h>

>> @@ -143,6 +144,9 @@ static struct attribute *efifb_attrs[] = {

>> };

>> ATTRIBUTE_GROUPS(efifb);

>> 

>> +static bool pci_bar_found;    /* did we find a BAR matching the efifb base? */

>> +static bool pci_bar_disabled;    /* was it disabled? */

>> +

>> static int efifb_probe(struct platform_device *dev)

>> {

>>    struct fb_info *info;

>> @@ -152,7 +156,7 @@ static int efifb_probe(struct platform_device *dev)

>>    unsigned int size_total;

>>    char *option = NULL;

>> 

>> -    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

>> +    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI || pci_bar_disabled)

>>        return -ENODEV;

>> 

>>    if (fb_get_options("efifb", &option))

>> @@ -360,3 +364,55 @@ static struct platform_driver efifb_driver = {

>> };

>> 

>> builtin_platform_driver(efifb_driver);

>> +

>> +static void claim_efifb_bar(struct pci_dev *dev, int idx)

>> +{

>> +    u16 word;

>> +

>> +    pci_bar_found = true;

>> +

>> +    if (pci_claim_resource(dev, idx)) {

> 

> I would not do that. If claiming the resource succeeds, it will become

> immutable (ie it becomes part of the resource tree), if it is your FB

> fine if it isn't this will mess things up since a) you won't be able to

> claim the PCI resources for the real FB and b) you won't be able to

> reallocate the PCI resources for the device we *think* is the FB but it

> actually isn't (unless we force a realloc).

> 

> So, I would carry out the check below first, if the device is enabled

> we should flag its resource IORESOURCE_PCI_FIXED otherwise just do

> nothing and let PCI core (through arch specific realloc policy) handle

> it.

> 


Well, it turned out that this does not actually work: the BAR is not reassigned, but the same range ends up being given to another device in some cases.


> Side note: I *think* it should be fine to claim a resource twice

> (ie in x86 the FB would have been claimed already by core x86 code),

> just thought it is worth checking.

> 

> Lorenzo

> 

>> +        pci_bar_disabled = true;

>> +        dev_err(&dev->dev, "BAR %d: failed to claim efifb BAR\n", idx);

>> +        return;

>> +    }

>> +

>> +    pci_read_config_word(dev, PCI_COMMAND, &word);

>> +    if (!(word & PCI_COMMAND_MEMORY)) {

>> +        pci_bar_disabled = true;

>> +        dev_err(&dev->dev,

>> +            "BAR %d: efifb BAR has memory decoding disabled!\n", idx);

>> +        return;

>> +    }

>> +

>> +    dev_info(&dev->dev, "BAR %d: claimed for efifb\n", idx);

>> +}

>> +

>> +static void efifb_fixup_resources(struct pci_dev *dev)

>> +{

>> +    u64 base = screen_info.lfb_base;

>> +    u64 size = screen_info.lfb_size;

>> +    int i;

>> +

>> +    if (pci_bar_found || screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

>> +        return;

>> +

>> +    if (screen_info.capabilities & VIDEO_CAPABILITY_64BIT_BASE)

>> +        base |= (u64)screen_info.ext_lfb_base << 32;

>> +

>> +    if (!base)

>> +        return;

>> +

>> +    for (i = 0; i < PCI_STD_RESOURCE_END; i++) {

>> +        struct resource *res = &dev->resource[i];

>> +

>> +        if (!(res->flags & IORESOURCE_MEM))

>> +            continue;

>> +

>> +        if (res->start <= base && res->end >= base + size - 1) {

>> +            claim_efifb_bar(dev, i);

>> +            break;

>> +        }

>> +    }

>> +}

>> +DECLARE_PCI_FIXUP_HEADER(PCI_ANY_ID, PCI_ANY_ID, efifb_fixup_resources);

>> -- 

>> 2.7.4

>> 

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[+Yinghai]

On Wed, Mar 22, 2017 at 11:08:48AM +0000, Ard Biesheuvel wrote:
> 

> > On 22 Mar 2017, at 10:29, Lorenzo Pieralisi <lorenzo.pieralisi@arm.com> wrote:

> > 

> >> On Tue, Mar 21, 2017 at 07:16:50PM +0000, Ard Biesheuvel wrote:

> >> On UEFI systems, the PCI subsystem is enumerated by the firmware,

> >> and if a graphical framebuffer is exposed by a PCI device, its base

> >> address and size are exposed to the OS via the Graphics Output

> >> Protocol (GOP).

> >> 

> >> On arm64 PCI systems, the entire PCI hierarchy is reconfigured from

> >> scratch at boot. This may result in the GOP framebuffer address to

> >> become stale, if the BAR covering the framebuffer is modified. This

> >> will cause the framebuffer to become unresponsive, and may in some

> >> cases result in unpredictable behavior if the range is reassigned to

> >> another device.

> >> 

> >> So add a quirk to the EFI fb driver to find the BAR associated with

> >> the GOP base address, and set the IORESOURCE_PCI_FIXED attribute so

> >> that the PCI core will leave it alone.

> >> 

> >> Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>

> >> ---

> >> As it turns out, setting the IORESOURCE_PCI_FIXED flag is not sufficient

> >> to make the PCI core leave the BARs alone, so instead, the BAR resource

> >> is claimed in the quirk handler.

> >> 

> >> As suggested by Lorenzo, a check is added that the device has memory

> >> decoding enabled, and if it doesn't, no attempt is made to use the

> >> EFI framebuffer.

> >> 

> >> drivers/video/fbdev/efifb.c | 58 +++++++++++++++++++-

> >> 1 file changed, 57 insertions(+), 1 deletion(-)

> >> 

> >> diff --git a/drivers/video/fbdev/efifb.c b/drivers/video/fbdev/efifb.c

> >> index 8c4dc1e1f94f..eeeaf78c4a5b 100644

> >> --- a/drivers/video/fbdev/efifb.c

> >> +++ b/drivers/video/fbdev/efifb.c

> >> @@ -10,6 +10,7 @@

> >> #include <linux/efi.h>

> >> #include <linux/errno.h>

> >> #include <linux/fb.h>

> >> +#include <linux/pci.h>

> >> #include <linux/platform_device.h>

> >> #include <linux/screen_info.h>

> >> #include <video/vga.h>

> >> @@ -143,6 +144,9 @@ static struct attribute *efifb_attrs[] = {

> >> };

> >> ATTRIBUTE_GROUPS(efifb);

> >> 

> >> +static bool pci_bar_found;    /* did we find a BAR matching the efifb base? */

> >> +static bool pci_bar_disabled;    /* was it disabled? */

> >> +

> >> static int efifb_probe(struct platform_device *dev)

> >> {

> >>    struct fb_info *info;

> >> @@ -152,7 +156,7 @@ static int efifb_probe(struct platform_device *dev)

> >>    unsigned int size_total;

> >>    char *option = NULL;

> >> 

> >> -    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

> >> +    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI || pci_bar_disabled)

> >>        return -ENODEV;

> >> 

> >>    if (fb_get_options("efifb", &option))

> >> @@ -360,3 +364,55 @@ static struct platform_driver efifb_driver = {

> >> };

> >> 

> >> builtin_platform_driver(efifb_driver);

> >> +

> >> +static void claim_efifb_bar(struct pci_dev *dev, int idx)

> >> +{

> >> +    u16 word;

> >> +

> >> +    pci_bar_found = true;

> >> +

> >> +    if (pci_claim_resource(dev, idx)) {

> > 

> > I would not do that. If claiming the resource succeeds, it will become

> > immutable (ie it becomes part of the resource tree), if it is your FB

> > fine if it isn't this will mess things up since a) you won't be able to

> > claim the PCI resources for the real FB and b) you won't be able to

> > reallocate the PCI resources for the device we *think* is the FB but it

> > actually isn't (unless we force a realloc).

> > 

> > So, I would carry out the check below first, if the device is enabled

> > we should flag its resource IORESOURCE_PCI_FIXED otherwise just do

> > nothing and let PCI core (through arch specific realloc policy) handle

> > it.

> > 

> 

> Well, it turned out that this does not actually work: the BAR is not

> reassigned, but the same range ends up being given to another device

> in some cases.


Ok, that's because the PCI core just prevent assigning that resource
but it does not request it (ie insert it in the resource tree) which
is what you do when claiming it.

I wonder how IORESOURCE_PCI_FIXED works on eg x86, I think it is time
to have a proper look into resources allocation code because there
are bits and pieces that are quite obscure to me.

I think I would reverse the order in which you carry out the BAR
reservation anyway (first check if the device is enabled second request
the resource ie claim it).

Lorenzo

> 

> 

> > Side note: I *think* it should be fine to claim a resource twice

> > (ie in x86 the FB would have been claimed already by core x86 code),

> > just thought it is worth checking.

> > 

> > Lorenzo

> > 

> >> +        pci_bar_disabled = true;

> >> +        dev_err(&dev->dev, "BAR %d: failed to claim efifb BAR\n", idx);

> >> +        return;

> >> +    }

> >> +

> >> +    pci_read_config_word(dev, PCI_COMMAND, &word);

> >> +    if (!(word & PCI_COMMAND_MEMORY)) {

> >> +        pci_bar_disabled = true;

> >> +        dev_err(&dev->dev,

> >> +            "BAR %d: efifb BAR has memory decoding disabled!\n", idx);

> >> +        return;

> >> +    }

> >> +

> >> +    dev_info(&dev->dev, "BAR %d: claimed for efifb\n", idx);

> >> +}

> >> +

> >> +static void efifb_fixup_resources(struct pci_dev *dev)

> >> +{

> >> +    u64 base = screen_info.lfb_base;

> >> +    u64 size = screen_info.lfb_size;

> >> +    int i;

> >> +

> >> +    if (pci_bar_found || screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

> >> +        return;

> >> +

> >> +    if (screen_info.capabilities & VIDEO_CAPABILITY_64BIT_BASE)

> >> +        base |= (u64)screen_info.ext_lfb_base << 32;

> >> +

> >> +    if (!base)

> >> +        return;

> >> +

> >> +    for (i = 0; i < PCI_STD_RESOURCE_END; i++) {

> >> +        struct resource *res = &dev->resource[i];

> >> +

> >> +        if (!(res->flags & IORESOURCE_MEM))

> >> +            continue;

> >> +

> >> +        if (res->start <= base && res->end >= base + size - 1) {

> >> +            claim_efifb_bar(dev, i);

> >> +            break;

> >> +        }

> >> +    }

> >> +}

> >> +DECLARE_PCI_FIXUP_HEADER(PCI_ANY_ID, PCI_ANY_ID, efifb_fixup_resources);

> >> -- 

> >> 2.7.4

> >> 

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On 22 March 2017 at 11:35, Lorenzo Pieralisi <lorenzo.pieralisi@arm.com> wrote:
> [+Yinghai]

>

> On Wed, Mar 22, 2017 at 11:08:48AM +0000, Ard Biesheuvel wrote:

>>

>> > On 22 Mar 2017, at 10:29, Lorenzo Pieralisi <lorenzo.pieralisi@arm.com> wrote:

>> >

>> >> On Tue, Mar 21, 2017 at 07:16:50PM +0000, Ard Biesheuvel wrote:

>> >> On UEFI systems, the PCI subsystem is enumerated by the firmware,

>> >> and if a graphical framebuffer is exposed by a PCI device, its base

>> >> address and size are exposed to the OS via the Graphics Output

>> >> Protocol (GOP).

>> >>

>> >> On arm64 PCI systems, the entire PCI hierarchy is reconfigured from

>> >> scratch at boot. This may result in the GOP framebuffer address to

>> >> become stale, if the BAR covering the framebuffer is modified. This

>> >> will cause the framebuffer to become unresponsive, and may in some

>> >> cases result in unpredictable behavior if the range is reassigned to

>> >> another device.

>> >>

>> >> So add a quirk to the EFI fb driver to find the BAR associated with

>> >> the GOP base address, and set the IORESOURCE_PCI_FIXED attribute so

>> >> that the PCI core will leave it alone.

>> >>

>> >> Signed-off-by: Ard Biesheuvel <ard.biesheuvel@linaro.org>

>> >> ---

>> >> As it turns out, setting the IORESOURCE_PCI_FIXED flag is not sufficient

>> >> to make the PCI core leave the BARs alone, so instead, the BAR resource

>> >> is claimed in the quirk handler.

>> >>

>> >> As suggested by Lorenzo, a check is added that the device has memory

>> >> decoding enabled, and if it doesn't, no attempt is made to use the

>> >> EFI framebuffer.

>> >>

>> >> drivers/video/fbdev/efifb.c | 58 +++++++++++++++++++-

>> >> 1 file changed, 57 insertions(+), 1 deletion(-)

>> >>

>> >> diff --git a/drivers/video/fbdev/efifb.c b/drivers/video/fbdev/efifb.c

>> >> index 8c4dc1e1f94f..eeeaf78c4a5b 100644

>> >> --- a/drivers/video/fbdev/efifb.c

>> >> +++ b/drivers/video/fbdev/efifb.c

>> >> @@ -10,6 +10,7 @@

>> >> #include <linux/efi.h>

>> >> #include <linux/errno.h>

>> >> #include <linux/fb.h>

>> >> +#include <linux/pci.h>

>> >> #include <linux/platform_device.h>

>> >> #include <linux/screen_info.h>

>> >> #include <video/vga.h>

>> >> @@ -143,6 +144,9 @@ static struct attribute *efifb_attrs[] = {

>> >> };

>> >> ATTRIBUTE_GROUPS(efifb);

>> >>

>> >> +static bool pci_bar_found;    /* did we find a BAR matching the efifb base? */

>> >> +static bool pci_bar_disabled;    /* was it disabled? */

>> >> +

>> >> static int efifb_probe(struct platform_device *dev)

>> >> {

>> >>    struct fb_info *info;

>> >> @@ -152,7 +156,7 @@ static int efifb_probe(struct platform_device *dev)

>> >>    unsigned int size_total;

>> >>    char *option = NULL;

>> >>

>> >> -    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI)

>> >> +    if (screen_info.orig_video_isVGA != VIDEO_TYPE_EFI || pci_bar_disabled)

>> >>        return -ENODEV;

>> >>

>> >>    if (fb_get_options("efifb", &option))

>> >> @@ -360,3 +364,55 @@ static struct platform_driver efifb_driver = {

>> >> };

>> >>

>> >> builtin_platform_driver(efifb_driver);

>> >> +

>> >> +static void claim_efifb_bar(struct pci_dev *dev, int idx)

>> >> +{

>> >> +    u16 word;

>> >> +

>> >> +    pci_bar_found = true;

>> >> +

>> >> +    if (pci_claim_resource(dev, idx)) {

>> >

>> > I would not do that. If claiming the resource succeeds, it will become

>> > immutable (ie it becomes part of the resource tree), if it is your FB

>> > fine if it isn't this will mess things up since a) you won't be able to

>> > claim the PCI resources for the real FB and b) you won't be able to

>> > reallocate the PCI resources for the device we *think* is the FB but it

>> > actually isn't (unless we force a realloc).

>> >

>> > So, I would carry out the check below first, if the device is enabled

>> > we should flag its resource IORESOURCE_PCI_FIXED otherwise just do

>> > nothing and let PCI core (through arch specific realloc policy) handle

>> > it.

>> >

>>

>> Well, it turned out that this does not actually work: the BAR is not

>> reassigned, but the same range ends up being given to another device

>> in some cases.

>

> Ok, that's because the PCI core just prevent assigning that resource

> but it does not request it (ie insert it in the resource tree) which

> is what you do when claiming it.

>


Yes, that seems to be what is happening.

> I wonder how IORESOURCE_PCI_FIXED works on eg x86, I think it is time

> to have a proper look into resources allocation code because there

> are bits and pieces that are quite obscure to me.

>


I did a quick test with calling request_mem_region(), in which case we
end up with something like

10000000-3efeffff : PCI Bus 0000:00
  10000000-101d4bff : efifb:pci
  101d5000-101d5fff : 0000:00:01.0
  101d6000-101d6fff : 0000:00:02.0
  101d7000-101d7fff : 0000:00:04.0
    101d7000-101d7fff : ehci_hcd
  101d8000-101d8fff : 0000:00:05.0
  101e0000-101effff : 0000:00:05.0
  10200000-1023ffff : 0000:00:02.0

which works, because the region is no longer assigned to another BAR.

But I think claiming the resource via the PCI subsystem is probably
more appropriate, because then we get

10000000-3efeffff : PCI Bus 0000:00
  10000000-10ffffff : 0000:00:05.0
    10000000-101d4fff : efifb
  11000000-1103ffff : 0000:00:02.0
  11040000-1104ffff : 0000:00:05.0
  11050000-11050fff : 0000:00:01.0
  11051000-11051fff : 0000:00:02.0
  11052000-11052fff : 0000:00:04.0
    11052000-11052fff : ehci_hcd
  11053000-11053fff : 0000:00:05.0

(Note that efifb does not use the entire BAR resource)

> I think I would reverse the order in which you carry out the BAR

> reservation anyway (first check if the device is enabled second request

> the resource ie claim it).

>


I will spin a v3 with the check and the claim in reverse order. But I
think we should keep the pci_claim() call.
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On Wed, Mar 22, 2017 at 12:39:57PM +0000, Ard Biesheuvel wrote:

[...]

> >> Well, it turned out that this does not actually work: the BAR is not

> >> reassigned, but the same range ends up being given to another device

> >> in some cases.

> >

> > Ok, that's because the PCI core just prevent assigning that resource

> > but it does not request it (ie insert it in the resource tree) which

> > is what you do when claiming it.

> >

> 

> Yes, that seems to be what is happening.

> 

> > I wonder how IORESOURCE_PCI_FIXED works on eg x86, I think it is time

> > to have a proper look into resources allocation code because there

> > are bits and pieces that are quite obscure to me.

> >

> 

> I did a quick test with calling request_mem_region(), in which case we

> end up with something like

> 

> 10000000-3efeffff : PCI Bus 0000:00

>   10000000-101d4bff : efifb:pci

>   101d5000-101d5fff : 0000:00:01.0

>   101d6000-101d6fff : 0000:00:02.0

>   101d7000-101d7fff : 0000:00:04.0

>     101d7000-101d7fff : ehci_hcd

>   101d8000-101d8fff : 0000:00:05.0

>   101e0000-101effff : 0000:00:05.0

>   10200000-1023ffff : 0000:00:02.0

> 

> which works, because the region is no longer assigned to another BAR.

> 

> But I think claiming the resource via the PCI subsystem is probably

> more appropriate, because then we get


Yes it is.

> 10000000-3efeffff : PCI Bus 0000:00

>   10000000-10ffffff : 0000:00:05.0

>     10000000-101d4fff : efifb

>   11000000-1103ffff : 0000:00:02.0

>   11040000-1104ffff : 0000:00:05.0

>   11050000-11050fff : 0000:00:01.0

>   11051000-11051fff : 0000:00:02.0

>   11052000-11052fff : 0000:00:04.0

>     11052000-11052fff : ehci_hcd

>   11053000-11053fff : 0000:00:05.0

> 

> (Note that efifb does not use the entire BAR resource)

> 

> > I think I would reverse the order in which you carry out the BAR

> > reservation anyway (first check if the device is enabled second request

> > the resource ie claim it).

> >

> 

> I will spin a v3 with the check and the claim in reverse order. But I

> think we should keep the pci_claim() call.


Agreed.

Thanks,
Lorenzo
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