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authorMika Westerberg <mika.westerberg@linux.intel.com>2017-11-27 16:54:44 +0300
committerLinus Walleij <linus.walleij@linaro.org>2017-11-29 15:46:28 +0300
commitcb5fda413e1d4a857bf4fd0bc92e9de0f1ff9e9d (patch)
tree5ac6835a15faa7db452bb011ef841bafd4dc1454 /drivers/pinctrl/intel/pinctrl-cannonlake.c
parenta60eac3239f01838bdd34eaac8c486c4c6e84551 (diff)
downloadlinux-cb5fda413e1d4a857bf4fd0bc92e9de0f1ff9e9d.tar.xz
pinctrl: cannonlake: Align GPIO number space with Windows
The Cannon Lake Windows GPIO driver always exposes 32 pins per "bank" regardless of whether the hardware actually has that many pins in a pad group. This means that there are gaps in the GPIO number space even if such gaps do not exist in the real hardware. To make things worse the BIOS is also using the same scheme, so for example on Cannon Lake-LP vGPIO 39 (vSD3_CD_B) the ACPI GpioInt resource has number 231 instead of the expected 180 (which would be the hardware number). To make SD card detection and other GPIOs working properly in Linux we align the pinctrl-cannonlake GPIO numbering to follow the Windows GPIO driver numbering taking advantage of the gpio_base field introduced in the previous patch. Signed-off-by: Mika Westerberg <mika.westerberg@linux.intel.com> Reviewed-by: Andy Shevchenko <andriy.shevchenko@linux.intel.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
Diffstat (limited to 'drivers/pinctrl/intel/pinctrl-cannonlake.c')
-rw-r--r--drivers/pinctrl/intel/pinctrl-cannonlake.c65
1 files changed, 34 insertions, 31 deletions
diff --git a/drivers/pinctrl/intel/pinctrl-cannonlake.c b/drivers/pinctrl/intel/pinctrl-cannonlake.c
index e130599be571..6243e7d95e7e 100644
--- a/drivers/pinctrl/intel/pinctrl-cannonlake.c
+++ b/drivers/pinctrl/intel/pinctrl-cannonlake.c
@@ -23,13 +23,16 @@
#define CNL_HOSTSW_OWN 0x0b0
#define CNL_GPI_IE 0x120
-#define CNL_GPP(r, s, e) \
+#define CNL_GPP(r, s, e, g) \
{ \
.reg_num = (r), \
.base = (s), \
.size = ((e) - (s) + 1), \
+ .gpio_base = (g), \
}
+#define CNL_NO_GPIO -1
+
#define CNL_COMMUNITY(b, s, e, g) \
{ \
.barno = (b), \
@@ -363,32 +366,32 @@ static const struct pinctrl_pin_desc cnlh_pins[] = {
};
static const struct intel_padgroup cnlh_community0_gpps[] = {
- CNL_GPP(0, 0, 24), /* GPP_A */
- CNL_GPP(1, 25, 50), /* GPP_B */
+ CNL_GPP(0, 0, 24, 0), /* GPP_A */
+ CNL_GPP(1, 25, 50, 32), /* GPP_B */
};
static const struct intel_padgroup cnlh_community1_gpps[] = {
- CNL_GPP(0, 51, 74), /* GPP_C */
- CNL_GPP(1, 75, 98), /* GPP_D */
- CNL_GPP(2, 99, 106), /* GPP_G */
- CNL_GPP(3, 107, 114), /* AZA */
- CNL_GPP(4, 115, 146), /* vGPIO_0 */
- CNL_GPP(5, 147, 154), /* vGPIO_1 */
+ CNL_GPP(0, 51, 74, 64), /* GPP_C */
+ CNL_GPP(1, 75, 98, 96), /* GPP_D */
+ CNL_GPP(2, 99, 106, 128), /* GPP_G */
+ CNL_GPP(3, 107, 114, CNL_NO_GPIO), /* AZA */
+ CNL_GPP(4, 115, 146, 160), /* vGPIO_0 */
+ CNL_GPP(5, 147, 154, CNL_NO_GPIO), /* vGPIO_1 */
};
static const struct intel_padgroup cnlh_community3_gpps[] = {
- CNL_GPP(0, 155, 178), /* GPP_K */
- CNL_GPP(1, 179, 202), /* GPP_H */
- CNL_GPP(2, 203, 215), /* GPP_E */
- CNL_GPP(3, 216, 239), /* GPP_F */
- CNL_GPP(4, 240, 248), /* SPI */
+ CNL_GPP(0, 155, 178, 192), /* GPP_K */
+ CNL_GPP(1, 179, 202, 224), /* GPP_H */
+ CNL_GPP(2, 203, 215, 258), /* GPP_E */
+ CNL_GPP(3, 216, 239, 288), /* GPP_F */
+ CNL_GPP(4, 240, 248, CNL_NO_GPIO), /* SPI */
};
static const struct intel_padgroup cnlh_community4_gpps[] = {
- CNL_GPP(0, 249, 259), /* CPU */
- CNL_GPP(1, 260, 268), /* JTAG */
- CNL_GPP(2, 269, 286), /* GPP_I */
- CNL_GPP(3, 287, 298), /* GPP_J */
+ CNL_GPP(0, 249, 259, CNL_NO_GPIO), /* CPU */
+ CNL_GPP(1, 260, 268, CNL_NO_GPIO), /* JTAG */
+ CNL_GPP(2, 269, 286, 320), /* GPP_I */
+ CNL_GPP(3, 287, 298, 352), /* GPP_J */
};
static const unsigned int cnlh_spi0_pins[] = { 40, 41, 42, 43 };
@@ -785,25 +788,25 @@ static const struct intel_function cnllp_functions[] = {
};
static const struct intel_padgroup cnllp_community0_gpps[] = {
- CNL_GPP(0, 0, 24), /* GPP_A */
- CNL_GPP(1, 25, 50), /* GPP_B */
- CNL_GPP(2, 51, 58), /* GPP_G */
- CNL_GPP(3, 59, 67), /* SPI */
+ CNL_GPP(0, 0, 24, 0), /* GPP_A */
+ CNL_GPP(1, 25, 50, 32), /* GPP_B */
+ CNL_GPP(2, 51, 58, 64), /* GPP_G */
+ CNL_GPP(3, 59, 67, CNL_NO_GPIO), /* SPI */
};
static const struct intel_padgroup cnllp_community1_gpps[] = {
- CNL_GPP(0, 68, 92), /* GPP_D */
- CNL_GPP(1, 93, 116), /* GPP_F */
- CNL_GPP(2, 117, 140), /* GPP_H */
- CNL_GPP(3, 141, 172), /* vGPIO */
- CNL_GPP(4, 173, 180), /* vGPIO */
+ CNL_GPP(0, 68, 92, 96), /* GPP_D */
+ CNL_GPP(1, 93, 116, 128), /* GPP_F */
+ CNL_GPP(2, 117, 140, 160), /* GPP_H */
+ CNL_GPP(3, 141, 172, 192), /* vGPIO */
+ CNL_GPP(4, 173, 180, 224), /* vGPIO */
};
static const struct intel_padgroup cnllp_community4_gpps[] = {
- CNL_GPP(0, 181, 204), /* GPP_C */
- CNL_GPP(1, 205, 228), /* GPP_E */
- CNL_GPP(2, 229, 237), /* JTAG */
- CNL_GPP(3, 238, 243), /* HVCMOS */
+ CNL_GPP(0, 181, 204, 256), /* GPP_C */
+ CNL_GPP(1, 205, 228, 288), /* GPP_E */
+ CNL_GPP(2, 229, 237, CNL_NO_GPIO), /* JTAG */
+ CNL_GPP(3, 238, 243, CNL_NO_GPIO), /* HVCMOS */
};
static const struct intel_community cnllp_communities[] = {