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linux-next/Documentation/driver-model/devres.txt
Linus Torvalds f263fbb8d6 pci-v4.13-changes
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Merge tag 'pci-v4.13-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/helgaas/pci

Pull PCI updates from Bjorn Helgaas:

  - add sysfs max_link_speed/width, current_link_speed/width (Wong Vee
    Khee)

  - make host bridge IRQ mapping much more generic (Matthew Minter,
    Lorenzo Pieralisi)

  - convert most drivers to pci_scan_root_bus_bridge() (Lorenzo
    Pieralisi)

  - mutex sriov_configure() (Jakub Kicinski)

  - mutex pci_error_handlers callbacks (Christoph Hellwig)

  - split ->reset_notify() into ->reset_prepare()/reset_done()
    (Christoph Hellwig)

  - support multiple PCIe portdrv interrupts for MSI as well as MSI-X
    (Gabriele Paoloni)

  - allocate MSI/MSI-X vector for Downstream Port Containment (Gabriele
    Paoloni)

  - fix MSI IRQ affinity pre/post/min_vecs issue (Michael Hernandez)

  - test INTx masking during enumeration, not at run-time (Piotr Gregor)

  - avoid using device_may_wakeup() for runtime PM (Rafael J. Wysocki)

  - restore the status of PCI devices across hibernation (Chen Yu)

  - keep parent resources that start at 0x0 (Ard Biesheuvel)

  - enable ECRC only if device supports it (Bjorn Helgaas)

  - restore PRI and PASID state after Function-Level Reset (CQ Tang)

  - skip DPC event if device is not present (Keith Busch)

  - check domain when matching SMBIOS info (Sujith Pandel)

  - mark Intel XXV710 NIC INTx masking as broken (Alex Williamson)

  - avoid AMD SB7xx EHCI USB wakeup defect (Kai-Heng Feng)

  - work around long-standing Macbook Pro poweroff issue (Bjorn Helgaas)

  - add Switchtec "running" status flag (Logan Gunthorpe)

  - fix dra7xx incorrect RW1C IRQ register usage (Arvind Yadav)

  - modify xilinx-nwl IRQ chip for legacy interrupts (Bharat Kumar
    Gogada)

  - move VMD SRCU cleanup after bus, child device removal (Jon Derrick)

  - add Faraday clock handling (Linus Walleij)

  - configure Rockchip MPS and reorganize (Shawn Lin)

  - limit Qualcomm TLP size to 2K (hardware issue) (Srinivas Kandagatla)

  - support Tegra MSI 64-bit addressing (Thierry Reding)

  - use Rockchip normal (not privileged) register bank (Shawn Lin)

  - add HiSilicon Kirin SoC PCIe controller driver (Xiaowei Song)

  - add Sigma Designs Tango SMP8759 PCIe controller driver (Marc
    Gonzalez)

  - add MediaTek PCIe host controller support (Ryder Lee)

  - add Qualcomm IPQ4019 support (John Crispin)

  - add HyperV vPCI protocol v1.2 support (Jork Loeser)

  - add i.MX6 regulator support (Quentin Schulz)

* tag 'pci-v4.13-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/helgaas/pci: (113 commits)
  PCI: tango: Add Sigma Designs Tango SMP8759 PCIe host bridge support
  PCI: Add DT binding for Sigma Designs Tango PCIe controller
  PCI: rockchip: Use normal register bank for config accessors
  dt-bindings: PCI: Add documentation for MediaTek PCIe
  PCI: Remove __pci_dev_reset() and pci_dev_reset()
  PCI: Split ->reset_notify() method into ->reset_prepare() and ->reset_done()
  PCI: xilinx: Make of_device_ids const
  PCI: xilinx-nwl: Modify IRQ chip for legacy interrupts
  PCI: vmd: Move SRCU cleanup after bus, child device removal
  PCI: vmd: Correct comment: VMD domains start at 0x10000, not 0x1000
  PCI: versatile: Add local struct device pointers
  PCI: tegra: Do not allocate MSI target memory
  PCI: tegra: Support MSI 64-bit addressing
  PCI: rockchip: Use local struct device pointer consistently
  PCI: rockchip: Check for clk_prepare_enable() errors during resume
  MAINTAINERS: Remove Wenrui Li as Rockchip PCIe driver maintainer
  PCI: rockchip: Configure RC's MPS setting
  PCI: rockchip: Reconfigure configuration space header type
  PCI: rockchip: Split out rockchip_pcie_cfg_configuration_accesses()
  PCI: rockchip: Move configuration accesses into rockchip_pcie_cfg_atu()
  ...
2017-07-08 15:51:57 -07:00

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Devres - Managed Device Resource
================================
Tejun Heo <teheo@suse.de>
First draft 10 January 2007
1. Intro : Huh? Devres?
2. Devres : Devres in a nutshell
3. Devres Group : Group devres'es and release them together
4. Details : Life time rules, calling context, ...
5. Overhead : How much do we have to pay for this?
6. List of managed interfaces : Currently implemented managed interfaces
1. Intro
--------
devres came up while trying to convert libata to use iomap. Each
iomapped address should be kept and unmapped on driver detach. For
example, a plain SFF ATA controller (that is, good old PCI IDE) in
native mode makes use of 5 PCI BARs and all of them should be
maintained.
As with many other device drivers, libata low level drivers have
sufficient bugs in ->remove and ->probe failure path. Well, yes,
that's probably because libata low level driver developers are lazy
bunch, but aren't all low level driver developers? After spending a
day fiddling with braindamaged hardware with no document or
braindamaged document, if it's finally working, well, it's working.
For one reason or another, low level drivers don't receive as much
attention or testing as core code, and bugs on driver detach or
initialization failure don't happen often enough to be noticeable.
Init failure path is worse because it's much less travelled while
needs to handle multiple entry points.
So, many low level drivers end up leaking resources on driver detach
and having half broken failure path implementation in ->probe() which
would leak resources or even cause oops when failure occurs. iomap
adds more to this mix. So do msi and msix.
2. Devres
---------
devres is basically linked list of arbitrarily sized memory areas
associated with a struct device. Each devres entry is associated with
a release function. A devres can be released in several ways. No
matter what, all devres entries are released on driver detach. On
release, the associated release function is invoked and then the
devres entry is freed.
Managed interface is created for resources commonly used by device
drivers using devres. For example, coherent DMA memory is acquired
using dma_alloc_coherent(). The managed version is called
dmam_alloc_coherent(). It is identical to dma_alloc_coherent() except
for the DMA memory allocated using it is managed and will be
automatically released on driver detach. Implementation looks like
the following.
struct dma_devres {
size_t size;
void *vaddr;
dma_addr_t dma_handle;
};
static void dmam_coherent_release(struct device *dev, void *res)
{
struct dma_devres *this = res;
dma_free_coherent(dev, this->size, this->vaddr, this->dma_handle);
}
dmam_alloc_coherent(dev, size, dma_handle, gfp)
{
struct dma_devres *dr;
void *vaddr;
dr = devres_alloc(dmam_coherent_release, sizeof(*dr), gfp);
...
/* alloc DMA memory as usual */
vaddr = dma_alloc_coherent(...);
...
/* record size, vaddr, dma_handle in dr */
dr->vaddr = vaddr;
...
devres_add(dev, dr);
return vaddr;
}
If a driver uses dmam_alloc_coherent(), the area is guaranteed to be
freed whether initialization fails half-way or the device gets
detached. If most resources are acquired using managed interface, a
driver can have much simpler init and exit code. Init path basically
looks like the following.
my_init_one()
{
struct mydev *d;
d = devm_kzalloc(dev, sizeof(*d), GFP_KERNEL);
if (!d)
return -ENOMEM;
d->ring = dmam_alloc_coherent(...);
if (!d->ring)
return -ENOMEM;
if (check something)
return -EINVAL;
...
return register_to_upper_layer(d);
}
And exit path,
my_remove_one()
{
unregister_from_upper_layer(d);
shutdown_my_hardware();
}
As shown above, low level drivers can be simplified a lot by using
devres. Complexity is shifted from less maintained low level drivers
to better maintained higher layer. Also, as init failure path is
shared with exit path, both can get more testing.
3. Devres group
---------------
Devres entries can be grouped using devres group. When a group is
released, all contained normal devres entries and properly nested
groups are released. One usage is to rollback series of acquired
resources on failure. For example,
if (!devres_open_group(dev, NULL, GFP_KERNEL))
return -ENOMEM;
acquire A;
if (failed)
goto err;
acquire B;
if (failed)
goto err;
...
devres_remove_group(dev, NULL);
return 0;
err:
devres_release_group(dev, NULL);
return err_code;
As resource acquisition failure usually means probe failure, constructs
like above are usually useful in midlayer driver (e.g. libata core
layer) where interface function shouldn't have side effect on failure.
For LLDs, just returning error code suffices in most cases.
Each group is identified by void *id. It can either be explicitly
specified by @id argument to devres_open_group() or automatically
created by passing NULL as @id as in the above example. In both
cases, devres_open_group() returns the group's id. The returned id
can be passed to other devres functions to select the target group.
If NULL is given to those functions, the latest open group is
selected.
For example, you can do something like the following.
int my_midlayer_create_something()
{
if (!devres_open_group(dev, my_midlayer_create_something, GFP_KERNEL))
return -ENOMEM;
...
devres_close_group(dev, my_midlayer_create_something);
return 0;
}
void my_midlayer_destroy_something()
{
devres_release_group(dev, my_midlayer_create_something);
}
4. Details
----------
Lifetime of a devres entry begins on devres allocation and finishes
when it is released or destroyed (removed and freed) - no reference
counting.
devres core guarantees atomicity to all basic devres operations and
has support for single-instance devres types (atomic
lookup-and-add-if-not-found). Other than that, synchronizing
concurrent accesses to allocated devres data is caller's
responsibility. This is usually non-issue because bus ops and
resource allocations already do the job.
For an example of single-instance devres type, read pcim_iomap_table()
in lib/devres.c.
All devres interface functions can be called without context if the
right gfp mask is given.
5. Overhead
-----------
Each devres bookkeeping info is allocated together with requested data
area. With debug option turned off, bookkeeping info occupies 16
bytes on 32bit machines and 24 bytes on 64bit (three pointers rounded
up to ull alignment). If singly linked list is used, it can be
reduced to two pointers (8 bytes on 32bit, 16 bytes on 64bit).
Each devres group occupies 8 pointers. It can be reduced to 6 if
singly linked list is used.
Memory space overhead on ahci controller with two ports is between 300
and 400 bytes on 32bit machine after naive conversion (we can
certainly invest a bit more effort into libata core layer).
6. List of managed interfaces
-----------------------------
CLOCK
devm_clk_get()
devm_clk_put()
devm_clk_hw_register()
DMA
dmam_alloc_coherent()
dmam_alloc_attrs()
dmam_declare_coherent_memory()
dmam_free_coherent()
dmam_pool_create()
dmam_pool_destroy()
GPIO
devm_gpiod_get()
devm_gpiod_get_index()
devm_gpiod_get_index_optional()
devm_gpiod_get_optional()
devm_gpiod_put()
devm_gpiochip_add_data()
devm_gpiochip_remove()
devm_gpio_request()
devm_gpio_request_one()
devm_gpio_free()
IIO
devm_iio_device_alloc()
devm_iio_device_free()
devm_iio_device_register()
devm_iio_device_unregister()
devm_iio_kfifo_allocate()
devm_iio_kfifo_free()
devm_iio_triggered_buffer_setup()
devm_iio_triggered_buffer_cleanup()
devm_iio_trigger_alloc()
devm_iio_trigger_free()
devm_iio_trigger_register()
devm_iio_trigger_unregister()
devm_iio_channel_get()
devm_iio_channel_release()
devm_iio_channel_get_all()
devm_iio_channel_release_all()
INPUT
devm_input_allocate_device()
IO region
devm_release_mem_region()
devm_release_region()
devm_release_resource()
devm_request_mem_region()
devm_request_region()
devm_request_resource()
IOMAP
devm_ioport_map()
devm_ioport_unmap()
devm_ioremap()
devm_ioremap_nocache()
devm_ioremap_wc()
devm_ioremap_resource() : checks resource, requests memory region, ioremaps
devm_iounmap()
pcim_iomap()
pcim_iomap_regions() : do request_region() and iomap() on multiple BARs
pcim_iomap_table() : array of mapped addresses indexed by BAR
pcim_iounmap()
IRQ
devm_free_irq()
devm_request_any_context_irq()
devm_request_irq()
devm_request_threaded_irq()
devm_irq_alloc_descs()
devm_irq_alloc_desc()
devm_irq_alloc_desc_at()
devm_irq_alloc_desc_from()
devm_irq_alloc_descs_from()
devm_irq_alloc_generic_chip()
devm_irq_setup_generic_chip()
LED
devm_led_classdev_register()
devm_led_classdev_unregister()
MDIO
devm_mdiobus_alloc()
devm_mdiobus_alloc_size()
devm_mdiobus_free()
MEM
devm_free_pages()
devm_get_free_pages()
devm_kasprintf()
devm_kcalloc()
devm_kfree()
devm_kmalloc()
devm_kmalloc_array()
devm_kmemdup()
devm_kstrdup()
devm_kvasprintf()
devm_kzalloc()
MFD
devm_mfd_add_devices()
MUX
devm_mux_chip_alloc()
devm_mux_chip_register()
devm_mux_control_get()
PER-CPU MEM
devm_alloc_percpu()
devm_free_percpu()
PCI
devm_pci_alloc_host_bridge() : managed PCI host bridge allocation
devm_pci_remap_cfgspace() : ioremap PCI configuration space
devm_pci_remap_cfg_resource() : ioremap PCI configuration space resource
pcim_enable_device() : after success, all PCI ops become managed
pcim_pin_device() : keep PCI device enabled after release
PHY
devm_usb_get_phy()
devm_usb_put_phy()
PINCTRL
devm_pinctrl_get()
devm_pinctrl_put()
devm_pinctrl_register()
devm_pinctrl_unregister()
POWER
devm_reboot_mode_register()
devm_reboot_mode_unregister()
PWM
devm_pwm_get()
devm_pwm_put()
REGULATOR
devm_regulator_bulk_get()
devm_regulator_get()
devm_regulator_put()
devm_regulator_register()
RESET
devm_reset_control_get()
devm_reset_controller_register()
SLAVE DMA ENGINE
devm_acpi_dma_controller_register()
SPI
devm_spi_register_master()
WATCHDOG
devm_watchdog_register_device()