void __init shuttle_pinmux_init(void) { tegra_pinmux_config_table(shuttle_pinmux, ARRAY_SIZE(shuttle_pinmux)); tegra_drive_pinmux_config_table(shuttle_drive_pinmux, ARRAY_SIZE(shuttle_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
void __init adam_pinmux_init(void) { tegra_pinmux_config_table(adam_pinmux, ARRAY_SIZE(adam_pinmux)); tegra_drive_pinmux_config_table(adam_drive_pinmux, ARRAY_SIZE(adam_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
void __init seaboard_pinmux_init(void) { /* * PINGROUP_SPIC contains two pins: * + PX2, DISABLE_CHRGR (output) * + PX3, WM8903 codec IRQ (input) * * The pinmux module can only configure TRISTATE vs. NORMAL on a * per-group rather than per-pin basis. The group must be NORMAL * since at least one pin is an output. However, we must ensure that * the WM8903 IRQ is never driven, since the WM8903 itself is driving * it, and we don't want multiple drivers. To ensure this, configure * PX3 as a GPIO here, and set is as an input, before the pinmux table * is written, which is when the pins will be un-tristated. */ tegra_gpio_enable(TEGRA_GPIO_WM8903_IRQ); gpio_request(TEGRA_GPIO_WM8903_IRQ, "wm8903"); gpio_direction_input(TEGRA_GPIO_WM8903_IRQ); /* Ensure the reset line stays high. */ gpio_request(TEGRA_GPIO_RESET, "reset"); gpio_direction_output(TEGRA_GPIO_RESET, 1); tegra_gpio_enable(TEGRA_GPIO_RESET); tegra_pinmux_config_table(seaboard_pinmux, ARRAY_SIZE(seaboard_pinmux)); tegra_drive_pinmux_config_table(seaboard_drive_pinmux, ARRAY_SIZE(seaboard_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
void __init harmony_pinmux_init(void) { tegra_pinmux_config_table(harmony_pinmux, ARRAY_SIZE(harmony_pinmux)); tegra_drive_pinmux_config_table(harmony_drive_pinmux, ARRAY_SIZE(harmony_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
int __init n1_pinmux_init(void) { tegra_pinmux_config_table(n1_pinmux, ARRAY_SIZE(n1_pinmux)); tegra_drive_pinmux_config_table(n1_drive_pinmux, ARRAY_SIZE(n1_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); return 0; }
void __init trimslice_pinmux_init(void) { if (!of_machine_is_compatible("nvidia,tegra20")) platform_add_devices(pinmux_devices, ARRAY_SIZE(pinmux_devices)); tegra_pinmux_config_table(trimslice_pinmux, ARRAY_SIZE(trimslice_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
void __init olympus_pinmux_init(void) { tegra_pinmux_config_table(olympus_pinmux, ARRAY_SIZE(olympus_pinmux)); tegra_drive_pinmux_config_table(olympus_drive_pinmux, ARRAY_SIZE(olympus_drive_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }
int __init enterprise_pinmux_init(void) { tegra_pinmux_config_table(enterprise_pinmux, ARRAY_SIZE(enterprise_pinmux)); tegra_drive_pinmux_config_table(enterprise_drive_pinmux, ARRAY_SIZE(enterprise_drive_pinmux)); tegra_pinmux_config_table(enterprise_unused_pinmux, ARRAY_SIZE(enterprise_unused_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); enterprise_set_unused_pin_gpio(enterprise_unused_gpio_pins, ARRAY_SIZE(enterprise_unused_gpio_pins)); return 0; }
int __init enterprise_pinmux_init(void) { struct board_info board_info; tegra_get_board_info(&board_info); tegra_pinmux_config_table( m470_pinmux_common, ARRAY_SIZE( m470_pinmux_common)); tegra_drive_pinmux_config_table( m470_drive_pinmux, ARRAY_SIZE( m470_drive_pinmux)); tegra_pinmux_config_table( m470_unused_pinmux_common, ARRAY_SIZE( m470_unused_pinmux_common)); tegra_gpio_config( m470_gpio_table, ARRAY_SIZE( m470_gpio_table)); enterprise_set_unused_pin_gpio( m470_unused_gpio_pins, ARRAY_SIZE( m470_unused_gpio_pins)); tegra_pinmux_gpio_init( m470_gpio_init_table, ARRAY_SIZE( m470_gpio_init_table)); return 0; }
void __init trimslice_pinmux_init(void) { tegra_pinmux_config_table(trimslice_pinmux, ARRAY_SIZE(trimslice_pinmux)); tegra_gpio_config(gpio_table, ARRAY_SIZE(gpio_table)); }