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TOMOYO Linux Cross Reference
Linux/Documentation/devicetree/bindings/gpio/gpio.txt

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Diff markup

Differences between /Documentation/devicetree/bindings/gpio/gpio.txt (Architecture sparc) and /Documentation/devicetree/bindings/gpio/gpio.txt (Architecture i386)


  1 Specifying GPIO information for devices             1 Specifying GPIO information for devices
  2 =======================================             2 =======================================
  3                                                     3 
  4 1) gpios property                                   4 1) gpios property
  5 -----------------                                   5 -----------------
  6                                                     6 
  7 GPIO properties should be named "[<name>-]gpio      7 GPIO properties should be named "[<name>-]gpios", with <name> being the purpose
  8 of this GPIO for the device. While a non-exist      8 of this GPIO for the device. While a non-existent <name> is considered valid
  9 for compatibility reasons (resolving to the "g      9 for compatibility reasons (resolving to the "gpios" property), it is not allowed
 10 for new bindings. Also, GPIO properties named      10 for new bindings. Also, GPIO properties named "[<name>-]gpio" are valid and old
 11 bindings use it, but are only supported for co     11 bindings use it, but are only supported for compatibility reasons and should not
 12 be used for newer bindings since it has been d     12 be used for newer bindings since it has been deprecated.
 13                                                    13 
 14 GPIO properties can contain one or more GPIO p     14 GPIO properties can contain one or more GPIO phandles, but only in exceptional
 15 cases should they contain more than one. If yo     15 cases should they contain more than one. If your device uses several GPIOs with
 16 distinct functions, reference each of them und     16 distinct functions, reference each of them under its own property, giving it a
 17 meaningful name. The only case where an array      17 meaningful name. The only case where an array of GPIOs is accepted is when
 18 several GPIOs serve the same function (e.g. a      18 several GPIOs serve the same function (e.g. a parallel data line).
 19                                                    19 
 20 The exact purpose of each gpios property must      20 The exact purpose of each gpios property must be documented in the device tree
 21 binding of the device.                             21 binding of the device.
 22                                                    22 
 23 The following example could be used to describ     23 The following example could be used to describe GPIO pins used as device enable
 24 and bit-banged data signals:                       24 and bit-banged data signals:
 25                                                    25 
 26         gpio1: gpio1 {                             26         gpio1: gpio1 {
 27                 gpio-controller;                   27                 gpio-controller;
 28                 #gpio-cells = <2>;                 28                 #gpio-cells = <2>;
 29         };                                         29         };
 30         [...]                                      30         [...]
 31                                                    31 
 32         data-gpios = <&gpio1 12 0>,                32         data-gpios = <&gpio1 12 0>,
 33                      <&gpio1 13 0>,                33                      <&gpio1 13 0>,
 34                      <&gpio1 14 0>,                34                      <&gpio1 14 0>,
 35                      <&gpio1 15 0>;                35                      <&gpio1 15 0>;
 36                                                    36 
 37 In the above example, &gpio1 uses 2 cells to s     37 In the above example, &gpio1 uses 2 cells to specify a gpio. The first cell is
 38 a local offset to the GPIO line and the second     38 a local offset to the GPIO line and the second cell represent consumer flags,
 39 such as if the consumer desire the line to be      39 such as if the consumer desire the line to be active low (inverted) or open
 40 drain. This is the recommended practice.           40 drain. This is the recommended practice.
 41                                                    41 
 42 The exact meaning of each specifier cell is co     42 The exact meaning of each specifier cell is controller specific, and must be
 43 documented in the device tree binding for the      43 documented in the device tree binding for the device, but it is strongly
 44 recommended to use the two-cell approach.          44 recommended to use the two-cell approach.
 45                                                    45 
 46 Most controllers are specifying a generic flag     46 Most controllers are specifying a generic flag bitfield in the last cell, so
 47 for these, use the macros defined in               47 for these, use the macros defined in
 48 include/dt-bindings/gpio/gpio.h whenever possi     48 include/dt-bindings/gpio/gpio.h whenever possible:
 49                                                    49 
 50 Example of a node using GPIOs:                     50 Example of a node using GPIOs:
 51                                                    51 
 52         node {                                     52         node {
 53                 enable-gpios = <&qe_pio_e 18 G     53                 enable-gpios = <&qe_pio_e 18 GPIO_ACTIVE_HIGH>;
 54         };                                         54         };
 55                                                    55 
 56 GPIO_ACTIVE_HIGH is 0, so in this example gpio     56 GPIO_ACTIVE_HIGH is 0, so in this example gpio-specifier is "18 0" and encodes
 57 GPIO pin number, and GPIO flags as accepted by     57 GPIO pin number, and GPIO flags as accepted by the "qe_pio_e" gpio-controller.
 58                                                    58 
 59 Optional standard bitfield specifiers for the      59 Optional standard bitfield specifiers for the last cell:
 60                                                    60 
 61 - Bit 0: 0 means active high, 1 means active l     61 - Bit 0: 0 means active high, 1 means active low
 62 - Bit 1: 0 mean push-pull wiring, see:             62 - Bit 1: 0 mean push-pull wiring, see:
 63            https://en.wikipedia.org/wiki/Push-     63            https://en.wikipedia.org/wiki/Push-pull_output
 64          1 means single-ended wiring, see:         64          1 means single-ended wiring, see:
 65            https://en.wikipedia.org/wiki/Singl     65            https://en.wikipedia.org/wiki/Single-ended_triode
 66 - Bit 2: 0 means open-source, 1 means open dra     66 - Bit 2: 0 means open-source, 1 means open drain, see:
 67            https://en.wikipedia.org/wiki/Open_     67            https://en.wikipedia.org/wiki/Open_collector
 68 - Bit 3: 0 means the output should be maintain     68 - Bit 3: 0 means the output should be maintained during sleep/low-power mode
 69          1 means the output state can be lost      69          1 means the output state can be lost during sleep/low-power mode
 70 - Bit 4: 0 means no pull-up resistor should be     70 - Bit 4: 0 means no pull-up resistor should be enabled
 71          1 means a pull-up resistor should be      71          1 means a pull-up resistor should be enabled
 72          This setting only applies to hardware     72          This setting only applies to hardware with a simple on/off
 73          control for pull-up configuration. If     73          control for pull-up configuration. If the hardware has more
 74          elaborate pull-up configuration, it s     74          elaborate pull-up configuration, it should be represented
 75          using a pin control binding.              75          using a pin control binding.
 76 - Bit 5: 0 means no pull-down resistor should      76 - Bit 5: 0 means no pull-down resistor should be enabled
 77          1 means a pull-down resistor should b     77          1 means a pull-down resistor should be enabled
 78          This setting only applies to hardware     78          This setting only applies to hardware with a simple on/off
 79          control for pull-down configuration.      79          control for pull-down configuration. If the hardware has more
 80          elaborate pull-down configuration, it     80          elaborate pull-down configuration, it should be represented
 81          using a pin control binding.              81          using a pin control binding.
 82                                                    82 
 83 1.1) GPIO specifier best practices                 83 1.1) GPIO specifier best practices
 84 ----------------------------------                 84 ----------------------------------
 85                                                    85 
 86 A gpio-specifier should contain a flag indicat     86 A gpio-specifier should contain a flag indicating the GPIO polarity; active-
 87 high or active-low. If it does, the following      87 high or active-low. If it does, the following best practices should be
 88 followed:                                          88 followed:
 89                                                    89 
 90 The gpio-specifier's polarity flag should repr     90 The gpio-specifier's polarity flag should represent the physical level at the
 91 GPIO controller that achieves (or represents,      91 GPIO controller that achieves (or represents, for inputs) a logically asserted
 92 value at the device. The exact definition of l     92 value at the device. The exact definition of logically asserted should be
 93 defined by the binding for the device. If the      93 defined by the binding for the device. If the board inverts the signal between
 94 the GPIO controller and the device, then the g     94 the GPIO controller and the device, then the gpio-specifier will represent the
 95 opposite physical level than the signal at the     95 opposite physical level than the signal at the device's pin.
 96                                                    96 
 97 When the device's signal polarity is configura     97 When the device's signal polarity is configurable, the binding for the
 98 device must either:                                98 device must either:
 99                                                    99 
100 a) Define a single static polarity for the sig    100 a) Define a single static polarity for the signal, with the expectation that
101 any software using that binding would statical    101 any software using that binding would statically program the device to use
102 that signal polarity.                             102 that signal polarity.
103                                                   103 
104 The static choice of polarity may be either:      104 The static choice of polarity may be either:
105                                                   105 
106 a1) (Preferred) Dictated by a binding-specific    106 a1) (Preferred) Dictated by a binding-specific DT property.
107                                                   107 
108 or:                                               108 or:
109                                                   109 
110 a2) Defined statically by the DT binding itsel    110 a2) Defined statically by the DT binding itself.
111                                                   111 
112 In particular, the polarity cannot be derived     112 In particular, the polarity cannot be derived from the gpio-specifier, since
113 that would prevent the DT from separately repr    113 that would prevent the DT from separately representing the two orthogonal
114 concepts of configurable signal polarity in th    114 concepts of configurable signal polarity in the device, and possible board-
115 level signal inversion.                           115 level signal inversion.
116                                                   116 
117 or:                                               117 or:
118                                                   118 
119 b) Pick a single option for device signal pola    119 b) Pick a single option for device signal polarity, and document this choice
120 in the binding. The gpio-specifier should repr    120 in the binding. The gpio-specifier should represent the polarity of the signal
121 (at the GPIO controller) assuming that the dev    121 (at the GPIO controller) assuming that the device is configured for this
122 particular signal polarity choice. If software    122 particular signal polarity choice. If software chooses to program the device
123 to generate or receive a signal of the opposit    123 to generate or receive a signal of the opposite polarity, software will be
124 responsible for correctly interpreting (invert    124 responsible for correctly interpreting (inverting) the GPIO signal at the GPIO
125 controller.                                       125 controller.
126                                                   126 
127 2) gpio-controller nodes                          127 2) gpio-controller nodes
128 ------------------------                          128 ------------------------
129                                                   129 
130 Every GPIO controller node must contain both a    130 Every GPIO controller node must contain both an empty "gpio-controller"
131 property, and a #gpio-cells integer property,     131 property, and a #gpio-cells integer property, which indicates the number of
132 cells in a gpio-specifier.                        132 cells in a gpio-specifier.
133                                                   133 
134 Some system-on-chips (SoCs) use the concept of    134 Some system-on-chips (SoCs) use the concept of GPIO banks. A GPIO bank is an
135 instance of a hardware IP core on a silicon di    135 instance of a hardware IP core on a silicon die, usually exposed to the
136 programmer as a coherent range of I/O addresse    136 programmer as a coherent range of I/O addresses. Usually each such bank is
137 exposed in the device tree as an individual gp    137 exposed in the device tree as an individual gpio-controller node, reflecting
138 the fact that the hardware was synthesized by     138 the fact that the hardware was synthesized by reusing the same IP block a
139 few times over.                                   139 few times over.
140                                                   140 
141 Optionally, a GPIO controller may have a "ngpi    141 Optionally, a GPIO controller may have a "ngpios" property. This property
142 indicates the number of in-use slots of availa    142 indicates the number of in-use slots of available slots for GPIOs. The
143 typical example is something like this: the ha    143 typical example is something like this: the hardware register is 32 bits
144 wide, but only 18 of the bits have a physical     144 wide, but only 18 of the bits have a physical counterpart. The driver is
145 generally written so that all 32 bits can be u    145 generally written so that all 32 bits can be used, but the IP block is reused
146 in a lot of designs, some using all 32 bits, s    146 in a lot of designs, some using all 32 bits, some using 18 and some using
147 12. In this case, setting "ngpios = <18>;" inf    147 12. In this case, setting "ngpios = <18>;" informs the driver that only the
148 first 18 GPIOs, at local offset 0 .. 17, are i    148 first 18 GPIOs, at local offset 0 .. 17, are in use.
149                                                   149 
150 If these GPIOs do not happen to be the first N    150 If these GPIOs do not happen to be the first N GPIOs at offset 0...N-1, an
151 additional set of tuples is needed to specify     151 additional set of tuples is needed to specify which GPIOs are unusable, with
152 the gpio-reserved-ranges binding. This propert    152 the gpio-reserved-ranges binding. This property indicates the start and size
153 of the GPIOs that can't be used.                  153 of the GPIOs that can't be used.
154                                                   154 
155 Optionally, a GPIO controller may have a "gpio    155 Optionally, a GPIO controller may have a "gpio-line-names" property. This is
156 an array of strings defining the names of the     156 an array of strings defining the names of the GPIO lines going out of the
157 GPIO controller.                                  157 GPIO controller.
158                                                   158 
159 For lines which are routed to on-board devices    159 For lines which are routed to on-board devices, this name should be
160 the most meaningful producer name for the syst    160 the most meaningful producer name for the system, such as a rail name
161 indicating the usage. Package names, such as a    161 indicating the usage. Package names, such as a pin name, are discouraged:
162 such lines have opaque names (since they are b    162 such lines have opaque names (since they are by definition general-purpose)
163 and such names are usually not very helpful. F    163 and such names are usually not very helpful. For example "MMC-CD", "Red LED
164 Vdd" and "ethernet reset" are reasonable line     164 Vdd" and "ethernet reset" are reasonable line names as they describe what
165 the line is used for. "GPIO0" is not a good na    165 the line is used for. "GPIO0" is not a good name to give to a GPIO line
166 that is hard-wired to a specific device.          166 that is hard-wired to a specific device.
167                                                   167 
168 However, in the case of lines that are routed     168 However, in the case of lines that are routed to a general purpose header
169 (e.g. the Raspberry Pi 40-pin header), and the    169 (e.g. the Raspberry Pi 40-pin header), and therefore are not hard-wired to
170 specific devices, using a pin number or the na    170 specific devices, using a pin number or the names on the header is fine
171 provided these are real (preferably unique) na    171 provided these are real (preferably unique) names. Using an SoC's pad name
172 or package name, or names made up from kernel-    172 or package name, or names made up from kernel-internal software constructs,
173 are strongly discouraged. For example "pin8 [g    173 are strongly discouraged. For example "pin8 [gpio14/uart0_txd]" is fine
174 if the board's documentation labels pin 8 as s    174 if the board's documentation labels pin 8 as such. However "PortB_24" (an
175 example of a name from an SoC's reference manu    175 example of a name from an SoC's reference manual) would not be desirable.
176                                                   176 
177 In either case placeholders are discouraged: r    177 In either case placeholders are discouraged: rather use the "" (blank
178 string) if the use of the GPIO line is undefin    178 string) if the use of the GPIO line is undefined in your design. Ideally,
179 try to add comments to the dts file describing    179 try to add comments to the dts file describing the naming the convention
180 you have chosen, and specifying from where the    180 you have chosen, and specifying from where the names are derived.
181                                                   181 
182 The names are assigned starting from line offs    182 The names are assigned starting from line offset 0, from left to right,
183 from the passed array. An incomplete array (wh    183 from the passed array. An incomplete array (where the number of passed
184 names is less than ngpios) will be used up unt    184 names is less than ngpios) will be used up until the last provided valid
185 line index.                                       185 line index.
186                                                   186 
187 Example:                                          187 Example:
188                                                   188 
189 gpio-controller@00000000 {                        189 gpio-controller@00000000 {
190         compatible = "foo";                       190         compatible = "foo";
191         reg = <0x00000000 0x1000>;                191         reg = <0x00000000 0x1000>;
192         gpio-controller;                          192         gpio-controller;
193         #gpio-cells = <2>;                        193         #gpio-cells = <2>;
194         ngpios = <18>;                            194         ngpios = <18>;
195         gpio-reserved-ranges = <0 4>, <12 2>;     195         gpio-reserved-ranges = <0 4>, <12 2>;
196         gpio-line-names = "MMC-CD", "MMC-WP",     196         gpio-line-names = "MMC-CD", "MMC-WP", "VDD eth", "RST eth", "LED R",
197                 "LED G", "LED B", "Col A", "Co    197                 "LED G", "LED B", "Col A", "Col B", "Col C", "Col D",
198                 "Row A", "Row B", "Row C", "Ro    198                 "Row A", "Row B", "Row C", "Row D", "NMI button",
199                 "poweroff", "reset";              199                 "poweroff", "reset";
200 }                                                 200 }
201                                                   201 
202 The GPIO chip may contain GPIO hog definitions    202 The GPIO chip may contain GPIO hog definitions. GPIO hogging is a mechanism
203 providing automatic GPIO request and configura    203 providing automatic GPIO request and configuration as part of the
204 gpio-controller's driver probe function.          204 gpio-controller's driver probe function.
205                                                   205 
206 Each GPIO hog definition is represented as a c    206 Each GPIO hog definition is represented as a child node of the GPIO controller.
207 Required properties:                              207 Required properties:
208 - gpio-hog:   A property specifying that this     208 - gpio-hog:   A property specifying that this child node represents a GPIO hog.
209 - gpios:      Store the GPIO information (id,     209 - gpios:      Store the GPIO information (id, flags, ...) for each GPIO to
210               affect. Shall contain an integer    210               affect. Shall contain an integer multiple of the number of cells
211               specified in its parent node (GP    211               specified in its parent node (GPIO controller node).
212 Only one of the following properties scanned i    212 Only one of the following properties scanned in the order shown below.
213 This means that when multiple properties are p    213 This means that when multiple properties are present they will be searched
214 in the order presented below and the first mat    214 in the order presented below and the first match is taken as the intended
215 configuration.                                    215 configuration.
216 - input:      A property specifying to set the    216 - input:      A property specifying to set the GPIO direction as input.
217 - output-low  A property specifying to set the    217 - output-low  A property specifying to set the GPIO direction as output with
218               the value low.                      218               the value low.
219 - output-high A property specifying to set the    219 - output-high A property specifying to set the GPIO direction as output with
220               the value high.                     220               the value high.
221                                                   221 
222 Optional properties:                              222 Optional properties:
223 - line-name:  The GPIO label name. If not pres    223 - line-name:  The GPIO label name. If not present the node name is used.
224                                                   224 
225 Example of two SOC GPIO banks defined as gpio-    225 Example of two SOC GPIO banks defined as gpio-controller nodes:
226                                                   226 
227         qe_pio_a: gpio-controller@1400 {          227         qe_pio_a: gpio-controller@1400 {
228                 compatible = "fsl,qe-pario-ban    228                 compatible = "fsl,qe-pario-bank-a", "fsl,qe-pario-bank";
229                 reg = <0x1400 0x18>;              229                 reg = <0x1400 0x18>;
230                 gpio-controller;                  230                 gpio-controller;
231                 #gpio-cells = <2>;                231                 #gpio-cells = <2>;
232                                                   232 
233                 line_b-hog {                      233                 line_b-hog {
234                         gpio-hog;                 234                         gpio-hog;
235                         gpios = <6 0>;            235                         gpios = <6 0>;
236                         output-low;               236                         output-low;
237                         line-name = "foo-bar-g    237                         line-name = "foo-bar-gpio";
238                 };                                238                 };
239         };                                        239         };
240                                                   240 
241         qe_pio_e: gpio-controller@1460 {          241         qe_pio_e: gpio-controller@1460 {
242                 compatible = "fsl,qe-pario-ban    242                 compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
243                 reg = <0x1460 0x18>;              243                 reg = <0x1460 0x18>;
244                 gpio-controller;                  244                 gpio-controller;
245                 #gpio-cells = <2>;                245                 #gpio-cells = <2>;
246         };                                        246         };
247                                                   247 
248 2.1) gpio- and pin-controller interaction         248 2.1) gpio- and pin-controller interaction
249 -----------------------------------------         249 -----------------------------------------
250                                                   250 
251 Some or all of the GPIOs provided by a GPIO co    251 Some or all of the GPIOs provided by a GPIO controller may be routed to pins
252 on the package via a pin controller. This allo    252 on the package via a pin controller. This allows muxing those pins between
253 GPIO and other functions. It is a fairly commo    253 GPIO and other functions. It is a fairly common practice among silicon
254 engineers.                                        254 engineers.
255                                                   255 
256 2.2) Ordinary (numerical) GPIO ranges             256 2.2) Ordinary (numerical) GPIO ranges
257 -------------------------------------             257 -------------------------------------
258                                                   258 
259 It is useful to represent which GPIOs correspo    259 It is useful to represent which GPIOs correspond to which pins on which pin
260 controllers. The gpio-ranges property describe    260 controllers. The gpio-ranges property described below represents this with
261 a discrete set of ranges mapping pins from the    261 a discrete set of ranges mapping pins from the pin controller local number space
262 to pins in the GPIO controller local number sp    262 to pins in the GPIO controller local number space.
263                                                   263 
264 The format is: <[pin controller phandle], [GPI    264 The format is: <[pin controller phandle], [GPIO controller offset],
265                 [pin controller offset], [numb    265                 [pin controller offset], [number of pins]>;
266                                                   266 
267 The GPIO controller offset pertains to the GPI    267 The GPIO controller offset pertains to the GPIO controller node containing the
268 range definition.                                 268 range definition.
269                                                   269 
270 The pin controller node referenced by the phan    270 The pin controller node referenced by the phandle must conform to the bindings
271 described in pinctrl/pinctrl-bindings.txt.        271 described in pinctrl/pinctrl-bindings.txt.
272                                                   272 
273 Each offset runs from 0 to N. It is perfectly     273 Each offset runs from 0 to N. It is perfectly fine to pile any number of
274 ranges with just one pin-to-GPIO line mapping     274 ranges with just one pin-to-GPIO line mapping if the ranges are concocted, but
275 in practice these ranges are often lumped in d    275 in practice these ranges are often lumped in discrete sets.
276                                                   276 
277 Example:                                          277 Example:
278                                                   278 
279     gpio-ranges = <&foo 0 20 10>, <&bar 10 50     279     gpio-ranges = <&foo 0 20 10>, <&bar 10 50 20>;
280                                                   280 
281 This means:                                       281 This means:
282 - pins 20..29 on pin controller "foo" is mappe    282 - pins 20..29 on pin controller "foo" is mapped to GPIO line 0..9 and
283 - pins 50..69 on pin controller "bar" is mappe    283 - pins 50..69 on pin controller "bar" is mapped to GPIO line 10..29
284                                                   284 
285                                                   285 
286 Verbose example:                                  286 Verbose example:
287                                                   287 
288         qe_pio_e: gpio-controller@1460 {          288         qe_pio_e: gpio-controller@1460 {
289                 #gpio-cells = <2>;                289                 #gpio-cells = <2>;
290                 compatible = "fsl,qe-pario-ban    290                 compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
291                 reg = <0x1460 0x18>;              291                 reg = <0x1460 0x18>;
292                 gpio-controller;                  292                 gpio-controller;
293                 gpio-ranges = <&pinctrl1 0 20     293                 gpio-ranges = <&pinctrl1 0 20 10>, <&pinctrl2 10 50 20>;
294         };                                        294         };
295                                                   295 
296 Here, a single GPIO controller has GPIOs 0..9     296 Here, a single GPIO controller has GPIOs 0..9 routed to pin controller
297 pinctrl1's pins 20..29, and GPIOs 10..29 route    297 pinctrl1's pins 20..29, and GPIOs 10..29 routed to pin controller pinctrl2's
298 pins 50..69.                                      298 pins 50..69.
299                                                   299 
300                                                   300 
301 2.3) GPIO ranges from named pin groups            301 2.3) GPIO ranges from named pin groups
302 --------------------------------------            302 --------------------------------------
303                                                   303 
304 It is also possible to use pin groups for gpio    304 It is also possible to use pin groups for gpio ranges when pin groups are the
305 easiest and most convenient mapping.              305 easiest and most convenient mapping.
306                                                   306 
307 Both both <pinctrl-base> and <count> must set     307 Both both <pinctrl-base> and <count> must set to 0 when using named pin groups
308 names.                                            308 names.
309                                                   309 
310 The property gpio-ranges-group-names must cont    310 The property gpio-ranges-group-names must contain exactly one string for each
311 range.                                            311 range.
312                                                   312 
313 Elements of gpio-ranges-group-names must conta    313 Elements of gpio-ranges-group-names must contain the name of a pin group
314 defined in the respective pin controller. The     314 defined in the respective pin controller. The number of pins/GPIO lines in the
315 range is the number of pins in that pin group.    315 range is the number of pins in that pin group. The number of pins of that
316 group is defined int the implementation and no    316 group is defined int the implementation and not in the device tree.
317                                                   317 
318 If numerical and named pin groups are mixed, t    318 If numerical and named pin groups are mixed, the string corresponding to a
319 numerical pin range in gpio-ranges-group-names    319 numerical pin range in gpio-ranges-group-names must be empty.
320                                                   320 
321 Example:                                          321 Example:
322                                                   322 
323         gpio_pio_i: gpio-controller@14b0 {        323         gpio_pio_i: gpio-controller@14b0 {
324                 #gpio-cells = <2>;                324                 #gpio-cells = <2>;
325                 compatible = "fsl,qe-pario-ban    325                 compatible = "fsl,qe-pario-bank-e", "fsl,qe-pario-bank";
326                 reg = <0x1480 0x18>;              326                 reg = <0x1480 0x18>;
327                 gpio-controller;                  327                 gpio-controller;
328                 gpio-ranges =                     328                 gpio-ranges =                   <&pinctrl1 0 20 10>,
329                                                   329                                                 <&pinctrl2 10 0 0>,
330                                                   330                                                 <&pinctrl1 15 0 10>,
331                                                   331                                                 <&pinctrl2 25 0 0>;
332                 gpio-ranges-group-names =         332                 gpio-ranges-group-names =       "",
333                                                   333                                                 "foo",
334                                                   334                                                 "",
335                                                   335                                                 "bar";
336         };                                        336         };
337                                                   337 
338 Here, three GPIO ranges are defined referring     338 Here, three GPIO ranges are defined referring to two pin controllers.
339                                                   339 
340 pinctrl1 GPIO ranges are defined using pin num    340 pinctrl1 GPIO ranges are defined using pin numbers whereas the GPIO ranges
341 in pinctrl2 are defined using the pin groups n    341 in pinctrl2 are defined using the pin groups named "foo" and "bar".
342                                                   342 
343 Previous versions of this binding required all    343 Previous versions of this binding required all pin controller nodes that
344 were referenced by any gpio-ranges property to    344 were referenced by any gpio-ranges property to contain a property named
345 #gpio-range-cells with value <3>. This require    345 #gpio-range-cells with value <3>. This requirement is now deprecated.
346 However, that property may still exist in olde    346 However, that property may still exist in older device trees for
347 compatibility reasons, and would still be requ    347 compatibility reasons, and would still be required even in new device
348 trees that need to be compatible with older so    348 trees that need to be compatible with older software.
                                                      

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