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Linux/Documentation/firmware-guide/acpi/enumeration.rst

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Diff markup

Differences between /Documentation/firmware-guide/acpi/enumeration.rst (Version linux-6.12-rc7) and /Documentation/firmware-guide/acpi/enumeration.rst (Version linux-5.16.20)


  1 .. SPDX-License-Identifier: GPL-2.0                 1 .. SPDX-License-Identifier: GPL-2.0
  2                                                     2 
  3 =============================                       3 =============================
  4 ACPI Based Device Enumeration                       4 ACPI Based Device Enumeration
  5 =============================                       5 =============================
  6                                                     6 
  7 ACPI 5 introduced a set of new resources (Uart      7 ACPI 5 introduced a set of new resources (UartTSerialBus, I2cSerialBus,
  8 SpiSerialBus, GpioIo and GpioInt) which can be      8 SpiSerialBus, GpioIo and GpioInt) which can be used in enumerating slave
  9 devices behind serial bus controllers.              9 devices behind serial bus controllers.
 10                                                    10 
 11 In addition we are starting to see peripherals     11 In addition we are starting to see peripherals integrated in the
 12 SoC/Chipset to appear only in ACPI namespace.      12 SoC/Chipset to appear only in ACPI namespace. These are typically devices
 13 that are accessed through memory-mapped regist     13 that are accessed through memory-mapped registers.
 14                                                    14 
 15 In order to support this and re-use the existi     15 In order to support this and re-use the existing drivers as much as
 16 possible we decided to do following:               16 possible we decided to do following:
 17                                                    17 
 18   - Devices that have no bus connector resourc     18   - Devices that have no bus connector resource are represented as
 19     platform devices.                              19     platform devices.
 20                                                    20 
 21   - Devices behind real busses where there is      21   - Devices behind real busses where there is a connector resource
 22     are represented as struct spi_device or st !!  22     are represented as struct spi_device or struct i2c_device
 23     that standard UARTs are not busses so ther !!  23     (standard UARTs are not busses so there is no struct uart_device).
 24     although some of them may be represented b << 
 25                                                    24 
 26 As both ACPI and Device Tree represent a tree      25 As both ACPI and Device Tree represent a tree of devices (and their
 27 resources) this implementation follows the Dev     26 resources) this implementation follows the Device Tree way as much as
 28 possible.                                          27 possible.
 29                                                    28 
 30 The ACPI implementation enumerates devices beh !!  29 The ACPI implementation enumerates devices behind busses (platform, SPI and
 31 I2C, and in some cases UART), creates the phys !!  30 I2C), creates the physical devices and binds them to their ACPI handle in
 32 to their ACPI handle in the ACPI namespace.    !!  31 the ACPI namespace.
 33                                                    32 
 34 This means that when ACPI_HANDLE(dev) returns      33 This means that when ACPI_HANDLE(dev) returns non-NULL the device was
 35 enumerated from ACPI namespace. This handle ca     34 enumerated from ACPI namespace. This handle can be used to extract other
 36 device-specific configuration. There is an exa     35 device-specific configuration. There is an example of this below.
 37                                                    36 
 38 Platform bus support                               37 Platform bus support
 39 ====================                               38 ====================
 40                                                    39 
 41 Since we are using platform devices to represe     40 Since we are using platform devices to represent devices that are not
 42 connected to any physical bus we only need to      41 connected to any physical bus we only need to implement a platform driver
 43 for the device and add supported ACPI IDs. If      42 for the device and add supported ACPI IDs. If this same IP-block is used on
 44 some other non-ACPI platform, the driver might     43 some other non-ACPI platform, the driver might work out of the box or needs
 45 some minor changes.                                44 some minor changes.
 46                                                    45 
 47 Adding ACPI support for an existing driver sho     46 Adding ACPI support for an existing driver should be pretty
 48 straightforward. Here is the simplest example:     47 straightforward. Here is the simplest example::
 49                                                    48 
                                                   >>  49         #ifdef CONFIG_ACPI
 50         static const struct acpi_device_id myd     50         static const struct acpi_device_id mydrv_acpi_match[] = {
 51                 /* ACPI IDs here */                51                 /* ACPI IDs here */
 52                 { }                                52                 { }
 53         };                                         53         };
 54         MODULE_DEVICE_TABLE(acpi, mydrv_acpi_m     54         MODULE_DEVICE_TABLE(acpi, mydrv_acpi_match);
                                                   >>  55         #endif
 55                                                    56 
 56         static struct platform_driver my_drive     57         static struct platform_driver my_driver = {
 57                 ...                                58                 ...
 58                 .driver = {                        59                 .driver = {
 59                         .acpi_match_table = my !!  60                         .acpi_match_table = ACPI_PTR(mydrv_acpi_match),
 60                 },                                 61                 },
 61         };                                         62         };
 62                                                    63 
 63 If the driver needs to perform more complex in     64 If the driver needs to perform more complex initialization like getting and
 64 configuring GPIOs it can get its ACPI handle a     65 configuring GPIOs it can get its ACPI handle and extract this information
 65 from ACPI tables.                                  66 from ACPI tables.
 66                                                    67 
 67 ACPI device objects                            << 
 68 ===================                            << 
 69                                                << 
 70 Generally speaking, there are two categories o << 
 71 ACPI is used as an interface between the platf << 
 72 that can be discovered and enumerated natively << 
 73 the specific bus that they are on (for example << 
 74 without the platform firmware assistance, and  << 
 75 by the platform firmware so that they can be d << 
 76 known to the platform firmware, regardless of  << 
 77 there can be a corresponding ACPI device objec << 
 78 case the Linux kernel will create a struct acp << 
 79 that device.                                   << 
 80                                                << 
 81 Those struct acpi_device objects are never use << 
 82 discoverable devices, because they are represe << 
 83 objects (for example, struct pci_dev for PCI d << 
 84 device drivers (the corresponding struct acpi_ << 
 85 an additional source of information on the con << 
 86 Moreover, the core ACPI device enumeration cod << 
 87 objects for the majority of devices that are d << 
 88 help of the platform firmware and those platfo << 
 89 by platform drivers in direct analogy with the << 
 90 case.  Therefore it is logically inconsistent  << 
 91 drivers to struct acpi_device objects, includi << 
 92 discovered with the help of the platform firmw << 
 93                                                << 
 94 Historically, ACPI drivers that bound directly << 
 95 were implemented for some devices enumerated w << 
 96 firmware, but this is not recommended for any  << 
 97 platform device objects are created for those  << 
 98 exceptions that are not relevant here) and so  << 
 99 for handling them, even though the correspondi << 
100 only source of device configuration informatio << 
101                                                << 
102 For every device having a corresponding struct << 
103 to it is returned by the ACPI_COMPANION() macr << 
104 get to the device configuration information st << 
105 this way.  Accordingly, struct acpi_device can << 
106 interface between the kernel and the ACPI Name << 
107 other types (for example, struct pci_dev or st << 
108 for interacting with the rest of the system.   << 
109                                                << 
110 DMA support                                        68 DMA support
111 ===========                                        69 ===========
112                                                    70 
113 DMA controllers enumerated via ACPI should be      71 DMA controllers enumerated via ACPI should be registered in the system to
114 provide generic access to their resources. For     72 provide generic access to their resources. For example, a driver that would
115 like to be accessible to slave devices via gen     73 like to be accessible to slave devices via generic API call
116 dma_request_chan() must register itself at the     74 dma_request_chan() must register itself at the end of the probe function like
117 this::                                             75 this::
118                                                    76 
119         err = devm_acpi_dma_controller_registe     77         err = devm_acpi_dma_controller_register(dev, xlate_func, dw);
120         /* Handle the error if it's not a case     78         /* Handle the error if it's not a case of !CONFIG_ACPI */
121                                                    79 
122 and implement custom xlate function if needed      80 and implement custom xlate function if needed (usually acpi_dma_simple_xlate()
123 is enough) which converts the FixedDMA resourc     81 is enough) which converts the FixedDMA resource provided by struct
124 acpi_dma_spec into the corresponding DMA chann     82 acpi_dma_spec into the corresponding DMA channel. A piece of code for that case
125 could look like::                                  83 could look like::
126                                                    84 
127         #ifdef CONFIG_ACPI                         85         #ifdef CONFIG_ACPI
128         struct filter_args {                       86         struct filter_args {
129                 /* Provide necessary informati     87                 /* Provide necessary information for the filter_func */
130                 ...                                88                 ...
131         };                                         89         };
132                                                    90 
133         static bool filter_func(struct dma_cha     91         static bool filter_func(struct dma_chan *chan, void *param)
134         {                                          92         {
135                 /* Choose the proper channel *     93                 /* Choose the proper channel */
136                 ...                                94                 ...
137         }                                          95         }
138                                                    96 
139         static struct dma_chan *xlate_func(str     97         static struct dma_chan *xlate_func(struct acpi_dma_spec *dma_spec,
140                         struct acpi_dma *adma)     98                         struct acpi_dma *adma)
141         {                                          99         {
142                 dma_cap_mask_t cap;               100                 dma_cap_mask_t cap;
143                 struct filter_args args;          101                 struct filter_args args;
144                                                   102 
145                 /* Prepare arguments for filte    103                 /* Prepare arguments for filter_func */
146                 ...                               104                 ...
147                 return dma_request_channel(cap    105                 return dma_request_channel(cap, filter_func, &args);
148         }                                         106         }
149         #else                                     107         #else
150         static struct dma_chan *xlate_func(str    108         static struct dma_chan *xlate_func(struct acpi_dma_spec *dma_spec,
151                         struct acpi_dma *adma)    109                         struct acpi_dma *adma)
152         {                                         110         {
153                 return NULL;                      111                 return NULL;
154         }                                         112         }
155         #endif                                    113         #endif
156                                                   114 
157 dma_request_chan() will call xlate_func() for     115 dma_request_chan() will call xlate_func() for each registered DMA controller.
158 In the xlate function the proper channel must     116 In the xlate function the proper channel must be chosen based on
159 information in struct acpi_dma_spec and the pr    117 information in struct acpi_dma_spec and the properties of the controller
160 provided by struct acpi_dma.                      118 provided by struct acpi_dma.
161                                                   119 
162 Clients must call dma_request_chan() with the     120 Clients must call dma_request_chan() with the string parameter that corresponds
163 to a specific FixedDMA resource. By default "t    121 to a specific FixedDMA resource. By default "tx" means the first entry of the
164 FixedDMA resource array, "rx" means the second    122 FixedDMA resource array, "rx" means the second entry. The table below shows a
165 layout::                                          123 layout::
166                                                   124 
167         Device (I2C0)                             125         Device (I2C0)
168         {                                         126         {
169                 ...                               127                 ...
170                 Method (_CRS, 0, NotSerialized    128                 Method (_CRS, 0, NotSerialized)
171                 {                                 129                 {
172                         Name (DBUF, ResourceTe    130                         Name (DBUF, ResourceTemplate ()
173                         {                         131                         {
174                                 FixedDMA (0x00    132                                 FixedDMA (0x0018, 0x0004, Width32bit, _Y48)
175                                 FixedDMA (0x00    133                                 FixedDMA (0x0019, 0x0005, Width32bit, )
176                         })                        134                         })
177                 ...                               135                 ...
178                 }                                 136                 }
179         }                                         137         }
180                                                   138 
181 So, the FixedDMA with request line 0x0018 is "    139 So, the FixedDMA with request line 0x0018 is "tx" and next one is "rx" in
182 this example.                                     140 this example.
183                                                   141 
184 In robust cases the client unfortunately needs    142 In robust cases the client unfortunately needs to call
185 acpi_dma_request_slave_chan_by_index() directl    143 acpi_dma_request_slave_chan_by_index() directly and therefore choose the
186 specific FixedDMA resource by its index.          144 specific FixedDMA resource by its index.
187                                                   145 
188 Named Interrupts                               << 
189 ================                               << 
190                                                << 
191 Drivers enumerated via ACPI can have names to  << 
192 which can be used to get the IRQ number in the << 
193                                                << 
194 The interrupt name can be listed in _DSD as 'i << 
195 should be listed as an array of strings which  << 
196 resource in the ACPI table corresponding to it << 
197                                                << 
198 The table below shows an example of its usage: << 
199                                                << 
200     Device (DEV0) {                            << 
201         ...                                    << 
202         Name (_CRS, ResourceTemplate() {       << 
203             ...                                << 
204             Interrupt (ResourceConsumer, Level << 
205                 0x20,                          << 
206                 0x24                           << 
207             }                                  << 
208         })                                     << 
209                                                << 
210         Name (_DSD, Package () {               << 
211             ToUUID("daffd814-6eba-4d8c-8a91-bc << 
212             Package () {                       << 
213                 Package () { "interrupt-names" << 
214             }                                  << 
215         ...                                    << 
216         })                                     << 
217     }                                          << 
218                                                << 
219 The interrupt name 'default' will correspond t << 
220 resource and 'alert' to 0x24. Note that only t << 
221 is mapped and not GpioInt() or similar.        << 
222                                                << 
223 The driver can call the function - fwnode_irq_ << 
224 and interrupt name as arguments to get the cor << 
225                                                << 
226 SPI serial bus support                            146 SPI serial bus support
227 ======================                            147 ======================
228                                                   148 
229 Slave devices behind SPI bus have SpiSerialBus    149 Slave devices behind SPI bus have SpiSerialBus resource attached to them.
230 This is extracted automatically by the SPI cor    150 This is extracted automatically by the SPI core and the slave devices are
231 enumerated once spi_register_master() is calle    151 enumerated once spi_register_master() is called by the bus driver.
232                                                   152 
233 Here is what the ACPI namespace for a SPI slav    153 Here is what the ACPI namespace for a SPI slave might look like::
234                                                   154 
235         Device (EEP0)                             155         Device (EEP0)
236         {                                         156         {
237                 Name (_ADR, 1)                    157                 Name (_ADR, 1)
238                 Name (_CID, Package () {       !! 158                 Name (_CID, Package() {
239                         "ATML0025",               159                         "ATML0025",
240                         "AT25",                   160                         "AT25",
241                 })                                161                 })
242                 ...                               162                 ...
243                 Method (_CRS, 0, NotSerialized    163                 Method (_CRS, 0, NotSerialized)
244                 {                                 164                 {
245                         SPISerialBus(1, Polari    165                         SPISerialBus(1, PolarityLow, FourWireMode, 8,
246                                 ControllerInit    166                                 ControllerInitiated, 1000000, ClockPolarityLow,
247                                 ClockPhaseFirs    167                                 ClockPhaseFirst, "\\_SB.PCI0.SPI1",)
248                 }                                 168                 }
249                 ...                               169                 ...
250                                                   170 
251 The SPI device drivers only need to add ACPI I !! 171 The SPI device drivers only need to add ACPI IDs in a similar way than with
252 the platform device drivers. Below is an examp    172 the platform device drivers. Below is an example where we add ACPI support
253 to at25 SPI eeprom driver (this is meant for t    173 to at25 SPI eeprom driver (this is meant for the above ACPI snippet)::
254                                                   174 
                                                   >> 175         #ifdef CONFIG_ACPI
255         static const struct acpi_device_id at2    176         static const struct acpi_device_id at25_acpi_match[] = {
256                 { "AT25", 0 },                    177                 { "AT25", 0 },
257                 { }                            !! 178                 { },
258         };                                        179         };
259         MODULE_DEVICE_TABLE(acpi, at25_acpi_ma    180         MODULE_DEVICE_TABLE(acpi, at25_acpi_match);
                                                   >> 181         #endif
260                                                   182 
261         static struct spi_driver at25_driver =    183         static struct spi_driver at25_driver = {
262                 .driver = {                       184                 .driver = {
263                         ...                       185                         ...
264                         .acpi_match_table = at !! 186                         .acpi_match_table = ACPI_PTR(at25_acpi_match),
265                 },                                187                 },
266         };                                        188         };
267                                                   189 
268 Note that this driver actually needs more info    190 Note that this driver actually needs more information like page size of the
269 eeprom, etc. This information can be passed vi !! 191 eeprom etc. but at the time writing this there is no standard way of
                                                   >> 192 passing those. One idea is to return this in _DSM method like::
270                                                   193 
271         Device (EEP0)                             194         Device (EEP0)
272         {                                         195         {
273                 ...                               196                 ...
274                 Name (_DSD, Package ()         !! 197                 Method (_DSM, 4, NotSerialized)
275                 {                                 198                 {
276                         ToUUID("daffd814-6eba- !! 199                         Store (Package (6)
277                         Package ()             << 
278                         {                         200                         {
279                                 Package () { " !! 201                                 "byte-len", 1024,
280                                 Package () { " !! 202                                 "addr-mode", 2,
281                                 Package () { " !! 203                                 "page-size, 32
282                         }                      !! 204                         }, Local0)
283                 })                             !! 205 
284         }                                      !! 206                         // Check UUIDs etc.
                                                   >> 207 
                                                   >> 208                         Return (Local0)
                                                   >> 209                 }
285                                                   210 
286 Then the at25 SPI driver can get this configur !! 211 Then the at25 SPI driver can get this configuration by calling _DSM on its
287 APIs during ->probe() phase like::             !! 212 ACPI handle like::
288                                                   213 
289         err = device_property_read_u32(dev, "s !! 214         struct acpi_buffer output = { ACPI_ALLOCATE_BUFFER, NULL };
290         if (err)                               !! 215         struct acpi_object_list input;
291                 ...error handling...           !! 216         acpi_status status;
292                                                !! 217 
293         err = device_property_read_u32(dev, "p !! 218         /* Fill in the input buffer */
294         if (err)                               !! 219 
295                 ...error handling...           !! 220         status = acpi_evaluate_object(ACPI_HANDLE(&spi->dev), "_DSM",
296                                                !! 221                                       &input, &output);
297         err = device_property_read_u32(dev, "a !! 222         if (ACPI_FAILURE(status))
298         if (err)                               !! 223                 /* Handle the error */
299                 ...error handling...           !! 224 
                                                   >> 225         /* Extract the data here */
                                                   >> 226 
                                                   >> 227         kfree(output.pointer);
300                                                   228 
301 I2C serial bus support                            229 I2C serial bus support
302 ======================                            230 ======================
303                                                   231 
304 The slaves behind I2C bus controller only need    232 The slaves behind I2C bus controller only need to add the ACPI IDs like
305 with the platform and SPI drivers. The I2C cor    233 with the platform and SPI drivers. The I2C core automatically enumerates
306 any slave devices behind the controller device    234 any slave devices behind the controller device once the adapter is
307 registered.                                       235 registered.
308                                                   236 
309 Below is an example of how to add ACPI support    237 Below is an example of how to add ACPI support to the existing mpu3050
310 input driver::                                    238 input driver::
311                                                   239 
                                                   >> 240         #ifdef CONFIG_ACPI
312         static const struct acpi_device_id mpu    241         static const struct acpi_device_id mpu3050_acpi_match[] = {
313                 { "MPU3050", 0 },                 242                 { "MPU3050", 0 },
314                 { }                            !! 243                 { },
315         };                                        244         };
316         MODULE_DEVICE_TABLE(acpi, mpu3050_acpi    245         MODULE_DEVICE_TABLE(acpi, mpu3050_acpi_match);
                                                   >> 246         #endif
317                                                   247 
318         static struct i2c_driver mpu3050_i2c_d    248         static struct i2c_driver mpu3050_i2c_driver = {
319                 .driver = {                       249                 .driver = {
320                         .name   = "mpu3050",      250                         .name   = "mpu3050",
                                                   >> 251                         .owner  = THIS_MODULE,
321                         .pm     = &mpu3050_pm,    252                         .pm     = &mpu3050_pm,
322                         .of_match_table = mpu3    253                         .of_match_table = mpu3050_of_match,
323                         .acpi_match_table = mp !! 254                         .acpi_match_table = ACPI_PTR(mpu3050_acpi_match),
324                 },                                255                 },
325                 .probe          = mpu3050_prob    256                 .probe          = mpu3050_probe,
326                 .remove         = mpu3050_remo    257                 .remove         = mpu3050_remove,
327                 .id_table       = mpu3050_ids,    258                 .id_table       = mpu3050_ids,
328         };                                        259         };
329         module_i2c_driver(mpu3050_i2c_driver); << 
330                                                   260 
331 Reference to PWM device                           261 Reference to PWM device
332 =======================                           262 =======================
333                                                   263 
334 Sometimes a device can be a consumer of PWM ch    264 Sometimes a device can be a consumer of PWM channel. Obviously OS would like
335 to know which one. To provide this mapping the    265 to know which one. To provide this mapping the special property has been
336 introduced, i.e.::                                266 introduced, i.e.::
337                                                   267 
338     Device (DEV)                                  268     Device (DEV)
339     {                                             269     {
340         Name (_DSD, Package ()                    270         Name (_DSD, Package ()
341         {                                         271         {
342             ToUUID("daffd814-6eba-4d8c-8a91-bc    272             ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
343             Package () {                          273             Package () {
344                 Package () { "compatible", Pac    274                 Package () { "compatible", Package () { "pwm-leds" } },
345                 Package () { "label", "alarm-l    275                 Package () { "label", "alarm-led" },
346                 Package () { "pwms",              276                 Package () { "pwms",
347                     Package () {                  277                     Package () {
348                         "\\_SB.PCI0.PWM",  //     278                         "\\_SB.PCI0.PWM",  // <PWM device reference>
349                         0,                 //     279                         0,                 // <PWM index>
350                         600000000,         //     280                         600000000,         // <PWM period>
351                         0,                 //     281                         0,                 // <PWM flags>
352                     }                             282                     }
353                 }                                 283                 }
354             }                                     284             }
                                                   >> 285 
355         })                                        286         })
356         ...                                       287         ...
357     }                                          << 
358                                                   288 
359 In the above example the PWM-based LED driver     289 In the above example the PWM-based LED driver references to the PWM channel 0
360 of \_SB.PCI0.PWM device with initial period se    290 of \_SB.PCI0.PWM device with initial period setting equal to 600 ms (note that
361 value is given in nanoseconds).                   291 value is given in nanoseconds).
362                                                   292 
363 GPIO support                                      293 GPIO support
364 ============                                      294 ============
365                                                   295 
366 ACPI 5 introduced two new resources to describ    296 ACPI 5 introduced two new resources to describe GPIO connections: GpioIo
367 and GpioInt. These resources can be used to pa    297 and GpioInt. These resources can be used to pass GPIO numbers used by
368 the device to the driver. ACPI 5.1 extended th    298 the device to the driver. ACPI 5.1 extended this with _DSD (Device
369 Specific Data) which made it possible to name     299 Specific Data) which made it possible to name the GPIOs among other things.
370                                                   300 
371 For example::                                     301 For example::
372                                                   302 
373         Device (DEV)                              303         Device (DEV)
374         {                                         304         {
375                 Method (_CRS, 0, NotSerialized    305                 Method (_CRS, 0, NotSerialized)
376                 {                                 306                 {
377                         Name (SBUF, ResourceTe    307                         Name (SBUF, ResourceTemplate()
378                         {                         308                         {
                                                   >> 309                                 ...
379                                 // Used to pow    310                                 // Used to power on/off the device
380                                 GpioIo (Exclus !! 311                                 GpioIo (Exclusive, PullDefault, 0x0000, 0x0000,
381                                         "\\_SB !! 312                                         IoRestrictionOutputOnly, "\\_SB.PCI0.GPI0",
                                                   >> 313                                         0x00, ResourceConsumer,,)
                                                   >> 314                                 {
                                                   >> 315                                         // Pin List
                                                   >> 316                                         0x0055
                                                   >> 317                                 }
382                                                   318 
383                                 // Interrupt f    319                                 // Interrupt for the device
384                                 GpioInt (Edge, !! 320                                 GpioInt (Edge, ActiveHigh, ExclusiveAndWake, PullNone,
385                                          "\\_S !! 321                                         0x0000, "\\_SB.PCI0.GPI0", 0x00, ResourceConsumer,,)
                                                   >> 322                                 {
                                                   >> 323                                         // Pin list
                                                   >> 324                                         0x0058
                                                   >> 325                                 }
                                                   >> 326 
                                                   >> 327                                 ...
                                                   >> 328 
386                         }                         329                         }
387                                                   330 
388                         Return (SBUF)             331                         Return (SBUF)
389                 }                                 332                 }
390                                                   333 
391                 // ACPI 5.1 _DSD used for nami    334                 // ACPI 5.1 _DSD used for naming the GPIOs
392                 Name (_DSD, Package ()            335                 Name (_DSD, Package ()
393                 {                                 336                 {
394                         ToUUID("daffd814-6eba-    337                         ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
395                         Package ()                338                         Package ()
396                         {                         339                         {
397                                 Package () { " !! 340                                 Package () {"power-gpios", Package() {^DEV, 0, 0, 0 }},
398                                 Package () { " !! 341                                 Package () {"irq-gpios", Package() {^DEV, 1, 0, 0 }},
399                         }                         342                         }
400                 })                                343                 })
401                 ...                               344                 ...
402         }                                      << 
403                                                   345 
404 These GPIO numbers are controller relative and    346 These GPIO numbers are controller relative and path "\\_SB.PCI0.GPI0"
405 specifies the path to the controller. In order    347 specifies the path to the controller. In order to use these GPIOs in Linux
406 we need to translate them to the corresponding    348 we need to translate them to the corresponding Linux GPIO descriptors.
407                                                   349 
408 There is a standard GPIO API for that and it i !! 350 There is a standard GPIO API for that and is documented in
409 Documentation/admin-guide/gpio/.                  351 Documentation/admin-guide/gpio/.
410                                                   352 
411 In the above example we can get the correspond    353 In the above example we can get the corresponding two GPIO descriptors with
412 a code like this::                                354 a code like this::
413                                                   355 
414         #include <linux/gpio/consumer.h>          356         #include <linux/gpio/consumer.h>
415         ...                                       357         ...
416                                                   358 
417         struct gpio_desc *irq_desc, *power_des    359         struct gpio_desc *irq_desc, *power_desc;
418                                                   360 
419         irq_desc = gpiod_get(dev, "irq");         361         irq_desc = gpiod_get(dev, "irq");
420         if (IS_ERR(irq_desc))                     362         if (IS_ERR(irq_desc))
421                 /* handle error */                363                 /* handle error */
422                                                   364 
423         power_desc = gpiod_get(dev, "power");     365         power_desc = gpiod_get(dev, "power");
424         if (IS_ERR(power_desc))                   366         if (IS_ERR(power_desc))
425                 /* handle error */                367                 /* handle error */
426                                                   368 
427         /* Now we can use the GPIO descriptors    369         /* Now we can use the GPIO descriptors */
428                                                   370 
429 There are also devm_* versions of these functi    371 There are also devm_* versions of these functions which release the
430 descriptors once the device is released.          372 descriptors once the device is released.
431                                                   373 
432 See Documentation/firmware-guide/acpi/gpio-pro    374 See Documentation/firmware-guide/acpi/gpio-properties.rst for more information
433 about the _DSD binding related to GPIOs.          375 about the _DSD binding related to GPIOs.
434                                                   376 
435 RS-485 support                                 << 
436 ==============                                 << 
437                                                << 
438 ACPI _DSD (Device Specific Data) can be used t << 
439 of UART.                                       << 
440                                                << 
441 For example::                                  << 
442                                                << 
443         Device (DEV)                           << 
444         {                                      << 
445                 ...                            << 
446                                                << 
447                 // ACPI 5.1 _DSD used for RS-4 << 
448                 Name (_DSD, Package ()         << 
449                 {                              << 
450                         ToUUID("daffd814-6eba- << 
451                         Package ()             << 
452                         {                      << 
453                                 Package () {"r << 
454                                 Package () {"r << 
455                                 Package () {"r << 
456                         }                      << 
457                 })                             << 
458                 ...                            << 
459                                                << 
460 MFD devices                                       377 MFD devices
461 ===========                                       378 ===========
462                                                   379 
463 The MFD devices register their children as pla    380 The MFD devices register their children as platform devices. For the child
464 devices there needs to be an ACPI handle that     381 devices there needs to be an ACPI handle that they can use to reference
465 parts of the ACPI namespace that relate to the    382 parts of the ACPI namespace that relate to them. In the Linux MFD subsystem
466 we provide two ways:                              383 we provide two ways:
467                                                   384 
468   - The children share the parent ACPI handle.    385   - The children share the parent ACPI handle.
469   - The MFD cell can specify the ACPI id of th    386   - The MFD cell can specify the ACPI id of the device.
470                                                   387 
471 For the first case, the MFD drivers do not nee    388 For the first case, the MFD drivers do not need to do anything. The
472 resulting child platform device will have its     389 resulting child platform device will have its ACPI_COMPANION() set to point
473 to the parent device.                             390 to the parent device.
474                                                   391 
475 If the ACPI namespace has a device that we can    392 If the ACPI namespace has a device that we can match using an ACPI id or ACPI
476 adr, the cell should be set like::                393 adr, the cell should be set like::
477                                                   394 
478         static struct mfd_cell_acpi_match my_s    395         static struct mfd_cell_acpi_match my_subdevice_cell_acpi_match = {
479                 .pnpid = "XYZ0001",               396                 .pnpid = "XYZ0001",
480                 .adr = 0,                         397                 .adr = 0,
481         };                                        398         };
482                                                   399 
483         static struct mfd_cell my_subdevice_ce    400         static struct mfd_cell my_subdevice_cell = {
484                 .name = "my_subdevice",           401                 .name = "my_subdevice",
485                 /* set the resources relative     402                 /* set the resources relative to the parent */
486                 .acpi_match = &my_subdevice_ce    403                 .acpi_match = &my_subdevice_cell_acpi_match,
487         };                                        404         };
488                                                   405 
489 The ACPI id "XYZ0001" is then used to lookup a    406 The ACPI id "XYZ0001" is then used to lookup an ACPI device directly under
490 the MFD device and if found, that ACPI compani    407 the MFD device and if found, that ACPI companion device is bound to the
491 resulting child platform device.                  408 resulting child platform device.
492                                                   409 
493 Device Tree namespace link device ID              410 Device Tree namespace link device ID
494 ====================================              411 ====================================
495                                                   412 
496 The Device Tree protocol uses device identific    413 The Device Tree protocol uses device identification based on the "compatible"
497 property whose value is a string or an array o    414 property whose value is a string or an array of strings recognized as device
498 identifiers by drivers and the driver core.  T    415 identifiers by drivers and the driver core.  The set of all those strings may be
499 regarded as a device identification namespace     416 regarded as a device identification namespace analogous to the ACPI/PNP device
500 ID namespace.  Consequently, in principle it s    417 ID namespace.  Consequently, in principle it should not be necessary to allocate
501 a new (and arguably redundant) ACPI/PNP device    418 a new (and arguably redundant) ACPI/PNP device ID for a devices with an existing
502 identification string in the Device Tree (DT)     419 identification string in the Device Tree (DT) namespace, especially if that ID
503 is only needed to indicate that a given device    420 is only needed to indicate that a given device is compatible with another one,
504 presumably having a matching driver in the ker    421 presumably having a matching driver in the kernel already.
505                                                   422 
506 In ACPI, the device identification object call    423 In ACPI, the device identification object called _CID (Compatible ID) is used to
507 list the IDs of devices the given one is compa    424 list the IDs of devices the given one is compatible with, but those IDs must
508 belong to one of the namespaces prescribed by     425 belong to one of the namespaces prescribed by the ACPI specification (see
509 Section 6.1.2 of ACPI 6.0 for details) and the    426 Section 6.1.2 of ACPI 6.0 for details) and the DT namespace is not one of them.
510 Moreover, the specification mandates that eith    427 Moreover, the specification mandates that either a _HID or an _ADR identification
511 object be present for all ACPI objects represe    428 object be present for all ACPI objects representing devices (Section 6.1 of ACPI
512 6.0).  For non-enumerable bus types that objec    429 6.0).  For non-enumerable bus types that object must be _HID and its value must
513 be a device ID from one of the namespaces pres    430 be a device ID from one of the namespaces prescribed by the specification too.
514                                                   431 
515 The special DT namespace link device ID, PRP00    432 The special DT namespace link device ID, PRP0001, provides a means to use the
516 existing DT-compatible device identification i    433 existing DT-compatible device identification in ACPI and to satisfy the above
517 requirements following from the ACPI specifica    434 requirements following from the ACPI specification at the same time.  Namely,
518 if PRP0001 is returned by _HID, the ACPI subsy    435 if PRP0001 is returned by _HID, the ACPI subsystem will look for the
519 "compatible" property in the device object's _    436 "compatible" property in the device object's _DSD and will use the value of that
520 property to identify the corresponding device     437 property to identify the corresponding device in analogy with the original DT
521 device identification algorithm.  If the "comp    438 device identification algorithm.  If the "compatible" property is not present
522 or its value is not valid, the device will not    439 or its value is not valid, the device will not be enumerated by the ACPI
523 subsystem.  Otherwise, it will be enumerated a    440 subsystem.  Otherwise, it will be enumerated automatically as a platform device
524 (except when an I2C or SPI link from the devic    441 (except when an I2C or SPI link from the device to its parent is present, in
525 which case the ACPI core will leave the device    442 which case the ACPI core will leave the device enumeration to the parent's
526 driver) and the identification strings from th    443 driver) and the identification strings from the "compatible" property value will
527 be used to find a driver for the device along     444 be used to find a driver for the device along with the device IDs listed by _CID
528 (if present).                                     445 (if present).
529                                                   446 
530 Analogously, if PRP0001 is present in the list    447 Analogously, if PRP0001 is present in the list of device IDs returned by _CID,
531 the identification strings listed by the "comp    448 the identification strings listed by the "compatible" property value (if present
532 and valid) will be used to look for a driver m    449 and valid) will be used to look for a driver matching the device, but in that
533 case their relative priority with respect to t    450 case their relative priority with respect to the other device IDs listed by
534 _HID and _CID depends on the position of PRP00    451 _HID and _CID depends on the position of PRP0001 in the _CID return package.
535 Specifically, the device IDs returned by _HID     452 Specifically, the device IDs returned by _HID and preceding PRP0001 in the _CID
536 return package will be checked first.  Also in    453 return package will be checked first.  Also in that case the bus type the device
537 will be enumerated to depends on the device ID    454 will be enumerated to depends on the device ID returned by _HID.
538                                                   455 
539 For example, the following ACPI sample might b    456 For example, the following ACPI sample might be used to enumerate an lm75-type
540 I2C temperature sensor and match it to the dri    457 I2C temperature sensor and match it to the driver using the Device Tree
541 namespace link::                                  458 namespace link::
542                                                   459 
543         Device (TMP0)                             460         Device (TMP0)
544         {                                         461         {
545                 Name (_HID, "PRP0001")            462                 Name (_HID, "PRP0001")
546                 Name (_DSD, Package () {       !! 463                 Name (_DSD, Package() {
547                         ToUUID("daffd814-6eba-    464                         ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
548                         Package () {              465                         Package () {
549                                 Package () { " !! 466                                 Package (2) { "compatible", "ti,tmp75" },
550                         }                         467                         }
551                 })                                468                 })
552                 Method (_CRS, 0, Serialized)      469                 Method (_CRS, 0, Serialized)
553                 {                                 470                 {
554                         Name (SBUF, ResourceTe    471                         Name (SBUF, ResourceTemplate ()
555                         {                         472                         {
556                                 I2cSerialBusV2    473                                 I2cSerialBusV2 (0x48, ControllerInitiated,
557                                         400000    474                                         400000, AddressingMode7Bit,
558                                         "\\_SB    475                                         "\\_SB.PCI0.I2C1", 0x00,
559                                         Resour    476                                         ResourceConsumer, , Exclusive,)
560                         })                        477                         })
561                         Return (SBUF)             478                         Return (SBUF)
562                 }                                 479                 }
563         }                                         480         }
564                                                   481 
565 It is valid to define device objects with a _H    482 It is valid to define device objects with a _HID returning PRP0001 and without
566 the "compatible" property in the _DSD or a _CI    483 the "compatible" property in the _DSD or a _CID as long as one of their
567 ancestors provides a _DSD with a valid "compat    484 ancestors provides a _DSD with a valid "compatible" property.  Such device
568 objects are then simply regarded as additional    485 objects are then simply regarded as additional "blocks" providing hierarchical
569 configuration information to the driver of the    486 configuration information to the driver of the composite ancestor device.
570                                                   487 
571 However, PRP0001 can only be returned from eit    488 However, PRP0001 can only be returned from either _HID or _CID of a device
572 object if all of the properties returned by th    489 object if all of the properties returned by the _DSD associated with it (either
573 the _DSD of the device object itself or the _D    490 the _DSD of the device object itself or the _DSD of its ancestor in the
574 "composite device" case described above) can b    491 "composite device" case described above) can be used in the ACPI environment.
575 Otherwise, the _DSD itself is regarded as inva    492 Otherwise, the _DSD itself is regarded as invalid and therefore the "compatible"
576 property returned by it is meaningless.           493 property returned by it is meaningless.
577                                                   494 
578 Refer to Documentation/firmware-guide/acpi/DSD    495 Refer to Documentation/firmware-guide/acpi/DSD-properties-rules.rst for more
579 information.                                      496 information.
580                                                   497 
581 PCI hierarchy representation                      498 PCI hierarchy representation
582 ============================                      499 ============================
583                                                   500 
584 Sometimes it could be useful to enumerate a PC !! 501 Sometimes could be useful to enumerate a PCI device, knowing its position on the
585 the PCI bus.                                   !! 502 PCI bus.
586                                                   503 
587 For example, some systems use PCI devices sold    504 For example, some systems use PCI devices soldered directly on the mother board,
588 in a fixed position (ethernet, Wi-Fi, serial p    505 in a fixed position (ethernet, Wi-Fi, serial ports, etc.). In this conditions it
589 is possible to refer to these PCI devices know    506 is possible to refer to these PCI devices knowing their position on the PCI bus
590 topology.                                         507 topology.
591                                                   508 
592 To identify a PCI device, a complete hierarchi    509 To identify a PCI device, a complete hierarchical description is required, from
593 the chipset root port to the final device, thr    510 the chipset root port to the final device, through all the intermediate
594 bridges/switches of the board.                    511 bridges/switches of the board.
595                                                   512 
596 For example, let's assume we have a system wit !! 513 For example, let us assume to have a system with a PCIe serial port, an
597 Exar XR17V3521, soldered on the main board. Th    514 Exar XR17V3521, soldered on the main board. This UART chip also includes
598 16 GPIOs and we want to add the property ``gpi !! 515 16 GPIOs and we want to add the property ``gpio-line-names`` [1] to these pins.
599 In this case, the ``lspci`` output for this co    516 In this case, the ``lspci`` output for this component is::
600                                                   517 
601         07:00.0 Serial controller: Exar Corp.     518         07:00.0 Serial controller: Exar Corp. XR17V3521 Dual PCIe UART (rev 03)
602                                                   519 
603 The complete ``lspci`` output (manually reduce    520 The complete ``lspci`` output (manually reduced in length) is::
604                                                   521 
605         00:00.0 Host bridge: Intel Corp... Hos    522         00:00.0 Host bridge: Intel Corp... Host Bridge (rev 0d)
606         ...                                       523         ...
607         00:13.0 PCI bridge: Intel Corp... PCI     524         00:13.0 PCI bridge: Intel Corp... PCI Express Port A #1 (rev fd)
608         00:13.1 PCI bridge: Intel Corp... PCI     525         00:13.1 PCI bridge: Intel Corp... PCI Express Port A #2 (rev fd)
609         00:13.2 PCI bridge: Intel Corp... PCI     526         00:13.2 PCI bridge: Intel Corp... PCI Express Port A #3 (rev fd)
610         00:14.0 PCI bridge: Intel Corp... PCI     527         00:14.0 PCI bridge: Intel Corp... PCI Express Port B #1 (rev fd)
611         00:14.1 PCI bridge: Intel Corp... PCI     528         00:14.1 PCI bridge: Intel Corp... PCI Express Port B #2 (rev fd)
612         ...                                       529         ...
613         05:00.0 PCI bridge: Pericom Semiconduc    530         05:00.0 PCI bridge: Pericom Semiconductor Device 2404 (rev 05)
614         06:01.0 PCI bridge: Pericom Semiconduc    531         06:01.0 PCI bridge: Pericom Semiconductor Device 2404 (rev 05)
615         06:02.0 PCI bridge: Pericom Semiconduc    532         06:02.0 PCI bridge: Pericom Semiconductor Device 2404 (rev 05)
616         06:03.0 PCI bridge: Pericom Semiconduc    533         06:03.0 PCI bridge: Pericom Semiconductor Device 2404 (rev 05)
617         07:00.0 Serial controller: Exar Corp.     534         07:00.0 Serial controller: Exar Corp. XR17V3521 Dual PCIe UART (rev 03) <-- Exar
618         ...                                       535         ...
619                                                   536 
620 The bus topology is::                             537 The bus topology is::
621                                                   538 
622         -[0000:00]-+-00.0                         539         -[0000:00]-+-00.0
623                    ...                            540                    ...
624                    +-13.0-[01]----00.0            541                    +-13.0-[01]----00.0
625                    +-13.1-[02]----00.0            542                    +-13.1-[02]----00.0
626                    +-13.2-[03]--                  543                    +-13.2-[03]--
627                    +-14.0-[04]----00.0            544                    +-14.0-[04]----00.0
628                    +-14.1-[05-09]----00.0-[06-    545                    +-14.1-[05-09]----00.0-[06-09]--+-01.0-[07]----00.0 <-- Exar
629                    |                              546                    |                               +-02.0-[08]----00.0
630                    |                              547                    |                               \-03.0-[09]--
631                    ...                            548                    ...
632                    \-1f.1                         549                    \-1f.1
633                                                   550 
634 To describe this Exar device on the PCI bus, w    551 To describe this Exar device on the PCI bus, we must start from the ACPI name
635 of the chipset bridge (also called "root port"    552 of the chipset bridge (also called "root port") with address::
636                                                   553 
637         Bus: 0 - Device: 14 - Function: 1         554         Bus: 0 - Device: 14 - Function: 1
638                                                   555 
639 To find this information, it is necessary to d !! 556 To find this information is necessary disassemble the BIOS ACPI tables, in
640 in particular the DSDT (see also [2]_)::       !! 557 particular the DSDT (see also [2])::
641                                                   558 
642         mkdir ~/tables/                           559         mkdir ~/tables/
643         cd ~/tables/                              560         cd ~/tables/
644         acpidump > acpidump                       561         acpidump > acpidump
645         acpixtract -a acpidump                    562         acpixtract -a acpidump
646         iasl -e ssdt?.* -d dsdt.dat               563         iasl -e ssdt?.* -d dsdt.dat
647                                                   564 
648 Now, in the dsdt.dsl, we have to search the de    565 Now, in the dsdt.dsl, we have to search the device whose address is related to
649 0x14 (device) and 0x01 (function). In this cas    566 0x14 (device) and 0x01 (function). In this case we can find the following
650 device::                                          567 device::
651                                                   568 
652         Scope (_SB.PCI0)                          569         Scope (_SB.PCI0)
653         {                                         570         {
654         ... other definitions follow ...          571         ... other definitions follow ...
655                 Device (RP02)                     572                 Device (RP02)
656                 {                                 573                 {
657                         Method (_ADR, 0, NotSe    574                         Method (_ADR, 0, NotSerialized)  // _ADR: Address
658                         {                         575                         {
659                                 If ((RPA2 != Z    576                                 If ((RPA2 != Zero))
660                                 {                 577                                 {
661                                         Return    578                                         Return (RPA2) /* \RPA2 */
662                                 }                 579                                 }
663                                 Else              580                                 Else
664                                 {                 581                                 {
665                                         Return    582                                         Return (0x00140001)
666                                 }                 583                                 }
667                         }                         584                         }
668         ... other definitions follow ...          585         ... other definitions follow ...
669                                                   586 
670 and the _ADR method [3]_ returns exactly the d !! 587 and the _ADR method [3] returns exactly the device/function couple that
671 we are looking for. With this information and     588 we are looking for. With this information and analyzing the above ``lspci``
672 output (both the devices list and the devices     589 output (both the devices list and the devices tree), we can write the following
673 ACPI description for the Exar PCIe UART, also     590 ACPI description for the Exar PCIe UART, also adding the list of its GPIO line
674 names::                                           591 names::
675                                                   592 
676         Scope (_SB.PCI0.RP02)                     593         Scope (_SB.PCI0.RP02)
677         {                                         594         {
678                 Device (BRG1) //Bridge            595                 Device (BRG1) //Bridge
679                 {                                 596                 {
680                         Name (_ADR, 0x0000)       597                         Name (_ADR, 0x0000)
681                                                   598 
682                         Device (BRG2) //Bridge    599                         Device (BRG2) //Bridge
683                         {                         600                         {
684                                 Name (_ADR, 0x    601                                 Name (_ADR, 0x00010000)
685                                                   602 
686                                 Device (EXAR)     603                                 Device (EXAR)
687                                 {                 604                                 {
688                                         Name (    605                                         Name (_ADR, 0x0000)
689                                                   606 
690                                         Name (    607                                         Name (_DSD, Package ()
691                                         {         608                                         {
692                                                   609                                                 ToUUID("daffd814-6eba-4d8c-8a91-bc9bbf4aa301"),
693                                                   610                                                 Package ()
694                                                   611                                                 {
695                                                   612                                                         Package ()
696                                                   613                                                         {
697                                                   614                                                                 "gpio-line-names",
698                                                   615                                                                 Package ()
699                                                   616                                                                 {
700                                                   617                                                                         "mode_232",
701                                                   618                                                                         "mode_422",
702                                                   619                                                                         "mode_485",
703                                                   620                                                                         "misc_1",
704                                                   621                                                                         "misc_2",
705                                                   622                                                                         "misc_3",
706                                                   623                                                                         "",
707                                                   624                                                                         "",
708                                                   625                                                                         "aux_1",
709                                                   626                                                                         "aux_2",
710                                                   627                                                                         "aux_3",
711                                                   628                                                                 }
712                                                   629                                                         }
713                                                   630                                                 }
714                                         })        631                                         })
715                                 }                 632                                 }
716                         }                         633                         }
717                 }                                 634                 }
718         }                                         635         }
719                                                   636 
720 The location "_SB.PCI0.RP02" is obtained by th    637 The location "_SB.PCI0.RP02" is obtained by the above investigation in the
721 dsdt.dsl table, whereas the device names "BRG1    638 dsdt.dsl table, whereas the device names "BRG1", "BRG2" and "EXAR" are
722 created analyzing the position of the Exar UAR    639 created analyzing the position of the Exar UART in the PCI bus topology.
723                                                   640 
724 References                                        641 References
725 ==========                                        642 ==========
726                                                   643 
727 .. [1] Documentation/firmware-guide/acpi/gpio- !! 644 [1] Documentation/firmware-guide/acpi/gpio-properties.rst
728                                                   645 
729 .. [2] Documentation/admin-guide/acpi/initrd_t !! 646 [2] Documentation/admin-guide/acpi/initrd_table_override.rst
730                                                   647 
731 .. [3] ACPI Specifications, Version 6.3 - Para !! 648 [3] ACPI Specifications, Version 6.3 - Paragraph 6.1.1 _ADR Address)
732     https://uefi.org/sites/default/files/resou    649     https://uefi.org/sites/default/files/resources/ACPI_6_3_May16.pdf,
733     referenced 2020-11-18                         650     referenced 2020-11-18
                                                      

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