Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Christian Ruppert | 5070 | 99.06% | 2 | 13.33% |
Gustavo A. R. Silva | 11 | 0.21% | 1 | 6.67% |
Wei Yongjun | 10 | 0.20% | 2 | 13.33% |
Masahiro Yamada | 9 | 0.18% | 1 | 6.67% |
Linus Walleij | 3 | 0.06% | 1 | 6.67% |
Yue haibing | 3 | 0.06% | 1 | 6.67% |
Laxman Dewangan | 3 | 0.06% | 1 | 6.67% |
Julia Lawall | 2 | 0.04% | 1 | 6.67% |
Uwe Kleine-König | 2 | 0.04% | 1 | 6.67% |
Thomas Gleixner | 2 | 0.04% | 1 | 6.67% |
Wolfram Sang | 1 | 0.02% | 1 | 6.67% |
Rob Herring | 1 | 0.02% | 1 | 6.67% |
Irina Tirdea | 1 | 0.02% | 1 | 6.67% |
Total | 5118 | 15 |
// SPDX-License-Identifier: GPL-2.0-only /* * Abilis Systems TB10x pin control driver * * Copyright (C) Abilis Systems 2012 * * Author: Christian Ruppert <christian.ruppert@abilis.com> */ #include <linux/stringify.h> #include <linux/pinctrl/pinctrl.h> #include <linux/pinctrl/pinmux.h> #include <linux/pinctrl/machine.h> #include <linux/platform_device.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/err.h> #include <linux/io.h> #include <linux/of.h> #include <linux/slab.h> #include "pinctrl-utils.h" #define TB10X_PORT1 (0) #define TB10X_PORT2 (16) #define TB10X_PORT3 (32) #define TB10X_PORT4 (48) #define TB10X_PORT5 (128) #define TB10X_PORT6 (64) #define TB10X_PORT7 (80) #define TB10X_PORT8 (96) #define TB10X_PORT9 (112) #define TB10X_GPIOS (256) #define PCFG_PORT_BITWIDTH (2) #define PCFG_PORT_MASK(PORT) \ (((1 << PCFG_PORT_BITWIDTH) - 1) << (PCFG_PORT_BITWIDTH * (PORT))) static const struct pinctrl_pin_desc tb10x_pins[] = { /* Port 1 */ PINCTRL_PIN(TB10X_PORT1 + 0, "MICLK_S0"), PINCTRL_PIN(TB10X_PORT1 + 1, "MISTRT_S0"), PINCTRL_PIN(TB10X_PORT1 + 2, "MIVAL_S0"), PINCTRL_PIN(TB10X_PORT1 + 3, "MDI_S0"), PINCTRL_PIN(TB10X_PORT1 + 4, "GPIOA0"), PINCTRL_PIN(TB10X_PORT1 + 5, "GPIOA1"), PINCTRL_PIN(TB10X_PORT1 + 6, "GPIOA2"), PINCTRL_PIN(TB10X_PORT1 + 7, "MDI_S1"), PINCTRL_PIN(TB10X_PORT1 + 8, "MIVAL_S1"), PINCTRL_PIN(TB10X_PORT1 + 9, "MISTRT_S1"), PINCTRL_PIN(TB10X_PORT1 + 10, "MICLK_S1"), /* Port 2 */ PINCTRL_PIN(TB10X_PORT2 + 0, "MICLK_S2"), PINCTRL_PIN(TB10X_PORT2 + 1, "MISTRT_S2"), PINCTRL_PIN(TB10X_PORT2 + 2, "MIVAL_S2"), PINCTRL_PIN(TB10X_PORT2 + 3, "MDI_S2"), PINCTRL_PIN(TB10X_PORT2 + 4, "GPIOC0"), PINCTRL_PIN(TB10X_PORT2 + 5, "GPIOC1"), PINCTRL_PIN(TB10X_PORT2 + 6, "GPIOC2"), PINCTRL_PIN(TB10X_PORT2 + 7, "MDI_S3"), PINCTRL_PIN(TB10X_PORT2 + 8, "MIVAL_S3"), PINCTRL_PIN(TB10X_PORT2 + 9, "MISTRT_S3"), PINCTRL_PIN(TB10X_PORT2 + 10, "MICLK_S3"), /* Port 3 */ PINCTRL_PIN(TB10X_PORT3 + 0, "MICLK_S4"), PINCTRL_PIN(TB10X_PORT3 + 1, "MISTRT_S4"), PINCTRL_PIN(TB10X_PORT3 + 2, "MIVAL_S4"), PINCTRL_PIN(TB10X_PORT3 + 3, "MDI_S4"), PINCTRL_PIN(TB10X_PORT3 + 4, "GPIOE0"), PINCTRL_PIN(TB10X_PORT3 + 5, "GPIOE1"), PINCTRL_PIN(TB10X_PORT3 + 6, "GPIOE2"), PINCTRL_PIN(TB10X_PORT3 + 7, "MDI_S5"), PINCTRL_PIN(TB10X_PORT3 + 8, "MIVAL_S5"), PINCTRL_PIN(TB10X_PORT3 + 9, "MISTRT_S5"), PINCTRL_PIN(TB10X_PORT3 + 10, "MICLK_S5"), /* Port 4 */ PINCTRL_PIN(TB10X_PORT4 + 0, "MICLK_S6"), PINCTRL_PIN(TB10X_PORT4 + 1, "MISTRT_S6"), PINCTRL_PIN(TB10X_PORT4 + 2, "MIVAL_S6"), PINCTRL_PIN(TB10X_PORT4 + 3, "MDI_S6"), PINCTRL_PIN(TB10X_PORT4 + 4, "GPIOG0"), PINCTRL_PIN(TB10X_PORT4 + 5, "GPIOG1"), PINCTRL_PIN(TB10X_PORT4 + 6, "GPIOG2"), PINCTRL_PIN(TB10X_PORT4 + 7, "MDI_S7"), PINCTRL_PIN(TB10X_PORT4 + 8, "MIVAL_S7"), PINCTRL_PIN(TB10X_PORT4 + 9, "MISTRT_S7"), PINCTRL_PIN(TB10X_PORT4 + 10, "MICLK_S7"), /* Port 5 */ PINCTRL_PIN(TB10X_PORT5 + 0, "PC_CE1N"), PINCTRL_PIN(TB10X_PORT5 + 1, "PC_CE2N"), PINCTRL_PIN(TB10X_PORT5 + 2, "PC_REGN"), PINCTRL_PIN(TB10X_PORT5 + 3, "PC_INPACKN"), PINCTRL_PIN(TB10X_PORT5 + 4, "PC_OEN"), PINCTRL_PIN(TB10X_PORT5 + 5, "PC_WEN"), PINCTRL_PIN(TB10X_PORT5 + 6, "PC_IORDN"), PINCTRL_PIN(TB10X_PORT5 + 7, "PC_IOWRN"), PINCTRL_PIN(TB10X_PORT5 + 8, "PC_RDYIRQN"), PINCTRL_PIN(TB10X_PORT5 + 9, "PC_WAITN"), PINCTRL_PIN(TB10X_PORT5 + 10, "PC_A0"), PINCTRL_PIN(TB10X_PORT5 + 11, "PC_A1"), PINCTRL_PIN(TB10X_PORT5 + 12, "PC_A2"), PINCTRL_PIN(TB10X_PORT5 + 13, "PC_A3"), PINCTRL_PIN(TB10X_PORT5 + 14, "PC_A4"), PINCTRL_PIN(TB10X_PORT5 + 15, "PC_A5"), PINCTRL_PIN(TB10X_PORT5 + 16, "PC_A6"), PINCTRL_PIN(TB10X_PORT5 + 17, "PC_A7"), PINCTRL_PIN(TB10X_PORT5 + 18, "PC_A8"), PINCTRL_PIN(TB10X_PORT5 + 19, "PC_A9"), PINCTRL_PIN(TB10X_PORT5 + 20, "PC_A10"), PINCTRL_PIN(TB10X_PORT5 + 21, "PC_A11"), PINCTRL_PIN(TB10X_PORT5 + 22, "PC_A12"), PINCTRL_PIN(TB10X_PORT5 + 23, "PC_A13"), PINCTRL_PIN(TB10X_PORT5 + 24, "PC_A14"), PINCTRL_PIN(TB10X_PORT5 + 25, "PC_D0"), PINCTRL_PIN(TB10X_PORT5 + 26, "PC_D1"), PINCTRL_PIN(TB10X_PORT5 + 27, "PC_D2"), PINCTRL_PIN(TB10X_PORT5 + 28, "PC_D3"), PINCTRL_PIN(TB10X_PORT5 + 29, "PC_D4"), PINCTRL_PIN(TB10X_PORT5 + 30, "PC_D5"), PINCTRL_PIN(TB10X_PORT5 + 31, "PC_D6"), PINCTRL_PIN(TB10X_PORT5 + 32, "PC_D7"), PINCTRL_PIN(TB10X_PORT5 + 33, "PC_MOSTRT"), PINCTRL_PIN(TB10X_PORT5 + 34, "PC_MOVAL"), PINCTRL_PIN(TB10X_PORT5 + 35, "PC_MDO0"), PINCTRL_PIN(TB10X_PORT5 + 36, "PC_MDO1"), PINCTRL_PIN(TB10X_PORT5 + 37, "PC_MDO2"), PINCTRL_PIN(TB10X_PORT5 + 38, "PC_MDO3"), PINCTRL_PIN(TB10X_PORT5 + 39, "PC_MDO4"), PINCTRL_PIN(TB10X_PORT5 + 40, "PC_MDO5"), PINCTRL_PIN(TB10X_PORT5 + 41, "PC_MDO6"), PINCTRL_PIN(TB10X_PORT5 + 42, "PC_MDO7"), PINCTRL_PIN(TB10X_PORT5 + 43, "PC_MISTRT"), PINCTRL_PIN(TB10X_PORT5 + 44, "PC_MIVAL"), PINCTRL_PIN(TB10X_PORT5 + 45, "PC_MDI0"), PINCTRL_PIN(TB10X_PORT5 + 46, "PC_MDI1"), PINCTRL_PIN(TB10X_PORT5 + 47, "PC_MDI2"), PINCTRL_PIN(TB10X_PORT5 + 48, "PC_MDI3"), PINCTRL_PIN(TB10X_PORT5 + 49, "PC_MDI4"), PINCTRL_PIN(TB10X_PORT5 + 50, "PC_MDI5"), PINCTRL_PIN(TB10X_PORT5 + 51, "PC_MDI6"), PINCTRL_PIN(TB10X_PORT5 + 52, "PC_MDI7"), PINCTRL_PIN(TB10X_PORT5 + 53, "PC_MICLK"), /* Port 6 */ PINCTRL_PIN(TB10X_PORT6 + 0, "T_MOSTRT_S0"), PINCTRL_PIN(TB10X_PORT6 + 1, "T_MOVAL_S0"), PINCTRL_PIN(TB10X_PORT6 + 2, "T_MDO_S0"), PINCTRL_PIN(TB10X_PORT6 + 3, "T_MOSTRT_S1"), PINCTRL_PIN(TB10X_PORT6 + 4, "T_MOVAL_S1"), PINCTRL_PIN(TB10X_PORT6 + 5, "T_MDO_S1"), PINCTRL_PIN(TB10X_PORT6 + 6, "T_MOSTRT_S2"), PINCTRL_PIN(TB10X_PORT6 + 7, "T_MOVAL_S2"), PINCTRL_PIN(TB10X_PORT6 + 8, "T_MDO_S2"), PINCTRL_PIN(TB10X_PORT6 + 9, "T_MOSTRT_S3"), /* Port 7 */ PINCTRL_PIN(TB10X_PORT7 + 0, "UART0_TXD"), PINCTRL_PIN(TB10X_PORT7 + 1, "UART0_RXD"), PINCTRL_PIN(TB10X_PORT7 + 2, "UART0_CTS"), PINCTRL_PIN(TB10X_PORT7 + 3, "UART0_RTS"), PINCTRL_PIN(TB10X_PORT7 + 4, "UART1_TXD"), PINCTRL_PIN(TB10X_PORT7 + 5, "UART1_RXD"), PINCTRL_PIN(TB10X_PORT7 + 6, "UART1_CTS"), PINCTRL_PIN(TB10X_PORT7 + 7, "UART1_RTS"), /* Port 8 */ PINCTRL_PIN(TB10X_PORT8 + 0, "SPI3_CLK"), PINCTRL_PIN(TB10X_PORT8 + 1, "SPI3_MISO"), PINCTRL_PIN(TB10X_PORT8 + 2, "SPI3_MOSI"), PINCTRL_PIN(TB10X_PORT8 + 3, "SPI3_SSN"), /* Port 9 */ PINCTRL_PIN(TB10X_PORT9 + 0, "SPI1_CLK"), PINCTRL_PIN(TB10X_PORT9 + 1, "SPI1_MISO"), PINCTRL_PIN(TB10X_PORT9 + 2, "SPI1_MOSI"), PINCTRL_PIN(TB10X_PORT9 + 3, "SPI1_SSN0"), PINCTRL_PIN(TB10X_PORT9 + 4, "SPI1_SSN1"), /* Unmuxed GPIOs */ PINCTRL_PIN(TB10X_GPIOS + 0, "GPIOB0"), PINCTRL_PIN(TB10X_GPIOS + 1, "GPIOB1"), PINCTRL_PIN(TB10X_GPIOS + 2, "GPIOD0"), PINCTRL_PIN(TB10X_GPIOS + 3, "GPIOD1"), PINCTRL_PIN(TB10X_GPIOS + 4, "GPIOF0"), PINCTRL_PIN(TB10X_GPIOS + 5, "GPIOF1"), PINCTRL_PIN(TB10X_GPIOS + 6, "GPIOH0"), PINCTRL_PIN(TB10X_GPIOS + 7, "GPIOH1"), PINCTRL_PIN(TB10X_GPIOS + 8, "GPIOI0"), PINCTRL_PIN(TB10X_GPIOS + 9, "GPIOI1"), PINCTRL_PIN(TB10X_GPIOS + 10, "GPIOI2"), PINCTRL_PIN(TB10X_GPIOS + 11, "GPIOI3"), PINCTRL_PIN(TB10X_GPIOS + 12, "GPIOI4"), PINCTRL_PIN(TB10X_GPIOS + 13, "GPIOI5"), PINCTRL_PIN(TB10X_GPIOS + 14, "GPIOI6"), PINCTRL_PIN(TB10X_GPIOS + 15, "GPIOI7"), PINCTRL_PIN(TB10X_GPIOS + 16, "GPIOI8"), PINCTRL_PIN(TB10X_GPIOS + 17, "GPIOI9"), PINCTRL_PIN(TB10X_GPIOS + 18, "GPIOI10"), PINCTRL_PIN(TB10X_GPIOS + 19, "GPIOI11"), PINCTRL_PIN(TB10X_GPIOS + 20, "GPION0"), PINCTRL_PIN(TB10X_GPIOS + 21, "GPION1"), PINCTRL_PIN(TB10X_GPIOS + 22, "GPION2"), PINCTRL_PIN(TB10X_GPIOS + 23, "GPION3"), #define MAX_PIN (TB10X_GPIOS + 24) PINCTRL_PIN(MAX_PIN, "GPION4"), }; /* Port 1 */ static const unsigned mis0_pins[] = { TB10X_PORT1 + 0, TB10X_PORT1 + 1, TB10X_PORT1 + 2, TB10X_PORT1 + 3}; static const unsigned gpioa_pins[] = { TB10X_PORT1 + 4, TB10X_PORT1 + 5, TB10X_PORT1 + 6}; static const unsigned mis1_pins[] = { TB10X_PORT1 + 7, TB10X_PORT1 + 8, TB10X_PORT1 + 9, TB10X_PORT1 + 10}; static const unsigned mip1_pins[] = { TB10X_PORT1 + 0, TB10X_PORT1 + 1, TB10X_PORT1 + 2, TB10X_PORT1 + 3, TB10X_PORT1 + 4, TB10X_PORT1 + 5, TB10X_PORT1 + 6, TB10X_PORT1 + 7, TB10X_PORT1 + 8, TB10X_PORT1 + 9, TB10X_PORT1 + 10}; /* Port 2 */ static const unsigned mis2_pins[] = { TB10X_PORT2 + 0, TB10X_PORT2 + 1, TB10X_PORT2 + 2, TB10X_PORT2 + 3}; static const unsigned gpioc_pins[] = { TB10X_PORT2 + 4, TB10X_PORT2 + 5, TB10X_PORT2 + 6}; static const unsigned mis3_pins[] = { TB10X_PORT2 + 7, TB10X_PORT2 + 8, TB10X_PORT2 + 9, TB10X_PORT2 + 10}; static const unsigned mip3_pins[] = { TB10X_PORT2 + 0, TB10X_PORT2 + 1, TB10X_PORT2 + 2, TB10X_PORT2 + 3, TB10X_PORT2 + 4, TB10X_PORT2 + 5, TB10X_PORT2 + 6, TB10X_PORT2 + 7, TB10X_PORT2 + 8, TB10X_PORT2 + 9, TB10X_PORT2 + 10}; /* Port 3 */ static const unsigned mis4_pins[] = { TB10X_PORT3 + 0, TB10X_PORT3 + 1, TB10X_PORT3 + 2, TB10X_PORT3 + 3}; static const unsigned gpioe_pins[] = { TB10X_PORT3 + 4, TB10X_PORT3 + 5, TB10X_PORT3 + 6}; static const unsigned mis5_pins[] = { TB10X_PORT3 + 7, TB10X_PORT3 + 8, TB10X_PORT3 + 9, TB10X_PORT3 + 10}; static const unsigned mip5_pins[] = { TB10X_PORT3 + 0, TB10X_PORT3 + 1, TB10X_PORT3 + 2, TB10X_PORT3 + 3, TB10X_PORT3 + 4, TB10X_PORT3 + 5, TB10X_PORT3 + 6, TB10X_PORT3 + 7, TB10X_PORT3 + 8, TB10X_PORT3 + 9, TB10X_PORT3 + 10}; /* Port 4 */ static const unsigned mis6_pins[] = { TB10X_PORT4 + 0, TB10X_PORT4 + 1, TB10X_PORT4 + 2, TB10X_PORT4 + 3}; static const unsigned gpiog_pins[] = { TB10X_PORT4 + 4, TB10X_PORT4 + 5, TB10X_PORT4 + 6}; static const unsigned mis7_pins[] = { TB10X_PORT4 + 7, TB10X_PORT4 + 8, TB10X_PORT4 + 9, TB10X_PORT4 + 10}; static const unsigned mip7_pins[] = { TB10X_PORT4 + 0, TB10X_PORT4 + 1, TB10X_PORT4 + 2, TB10X_PORT4 + 3, TB10X_PORT4 + 4, TB10X_PORT4 + 5, TB10X_PORT4 + 6, TB10X_PORT4 + 7, TB10X_PORT4 + 8, TB10X_PORT4 + 9, TB10X_PORT4 + 10}; /* Port 6 */ static const unsigned mop_pins[] = { TB10X_PORT6 + 0, TB10X_PORT6 + 1, TB10X_PORT6 + 2, TB10X_PORT6 + 3, TB10X_PORT6 + 4, TB10X_PORT6 + 5, TB10X_PORT6 + 6, TB10X_PORT6 + 7, TB10X_PORT6 + 8, TB10X_PORT6 + 9}; static const unsigned mos0_pins[] = { TB10X_PORT6 + 0, TB10X_PORT6 + 1, TB10X_PORT6 + 2}; static const unsigned mos1_pins[] = { TB10X_PORT6 + 3, TB10X_PORT6 + 4, TB10X_PORT6 + 5}; static const unsigned mos2_pins[] = { TB10X_PORT6 + 6, TB10X_PORT6 + 7, TB10X_PORT6 + 8}; static const unsigned mos3_pins[] = { TB10X_PORT6 + 9}; /* Port 7 */ static const unsigned uart0_pins[] = { TB10X_PORT7 + 0, TB10X_PORT7 + 1, TB10X_PORT7 + 2, TB10X_PORT7 + 3}; static const unsigned uart1_pins[] = { TB10X_PORT7 + 4, TB10X_PORT7 + 5, TB10X_PORT7 + 6, TB10X_PORT7 + 7}; static const unsigned gpiol_pins[] = { TB10X_PORT7 + 0, TB10X_PORT7 + 1, TB10X_PORT7 + 2, TB10X_PORT7 + 3}; static const unsigned gpiom_pins[] = { TB10X_PORT7 + 4, TB10X_PORT7 + 5, TB10X_PORT7 + 6, TB10X_PORT7 + 7}; /* Port 8 */ static const unsigned spi3_pins[] = { TB10X_PORT8 + 0, TB10X_PORT8 + 1, TB10X_PORT8 + 2, TB10X_PORT8 + 3}; static const unsigned jtag_pins[] = { TB10X_PORT8 + 0, TB10X_PORT8 + 1, TB10X_PORT8 + 2, TB10X_PORT8 + 3}; /* Port 9 */ static const unsigned spi1_pins[] = { TB10X_PORT9 + 0, TB10X_PORT9 + 1, TB10X_PORT9 + 2, TB10X_PORT9 + 3, TB10X_PORT9 + 4}; static const unsigned gpion_pins[] = { TB10X_PORT9 + 0, TB10X_PORT9 + 1, TB10X_PORT9 + 2, TB10X_PORT9 + 3, TB10X_PORT9 + 4}; /* Port 5 */ static const unsigned gpioj_pins[] = { TB10X_PORT5 + 0, TB10X_PORT5 + 1, TB10X_PORT5 + 2, TB10X_PORT5 + 3, TB10X_PORT5 + 4, TB10X_PORT5 + 5, TB10X_PORT5 + 6, TB10X_PORT5 + 7, TB10X_PORT5 + 8, TB10X_PORT5 + 9, TB10X_PORT5 + 10, TB10X_PORT5 + 11, TB10X_PORT5 + 12, TB10X_PORT5 + 13, TB10X_PORT5 + 14, TB10X_PORT5 + 15, TB10X_PORT5 + 16, TB10X_PORT5 + 17, TB10X_PORT5 + 18, TB10X_PORT5 + 19, TB10X_PORT5 + 20, TB10X_PORT5 + 21, TB10X_PORT5 + 22, TB10X_PORT5 + 23, TB10X_PORT5 + 24, TB10X_PORT5 + 25, TB10X_PORT5 + 26, TB10X_PORT5 + 27, TB10X_PORT5 + 28, TB10X_PORT5 + 29, TB10X_PORT5 + 30, TB10X_PORT5 + 31}; static const unsigned gpiok_pins[] = { TB10X_PORT5 + 32, TB10X_PORT5 + 33, TB10X_PORT5 + 34, TB10X_PORT5 + 35, TB10X_PORT5 + 36, TB10X_PORT5 + 37, TB10X_PORT5 + 38, TB10X_PORT5 + 39, TB10X_PORT5 + 40, TB10X_PORT5 + 41, TB10X_PORT5 + 42, TB10X_PORT5 + 43, TB10X_PORT5 + 44, TB10X_PORT5 + 45, TB10X_PORT5 + 46, TB10X_PORT5 + 47, TB10X_PORT5 + 48, TB10X_PORT5 + 49, TB10X_PORT5 + 50, TB10X_PORT5 + 51, TB10X_PORT5 + 52, TB10X_PORT5 + 53}; static const unsigned ciplus_pins[] = { TB10X_PORT5 + 0, TB10X_PORT5 + 1, TB10X_PORT5 + 2, TB10X_PORT5 + 3, TB10X_PORT5 + 4, TB10X_PORT5 + 5, TB10X_PORT5 + 6, TB10X_PORT5 + 7, TB10X_PORT5 + 8, TB10X_PORT5 + 9, TB10X_PORT5 + 10, TB10X_PORT5 + 11, TB10X_PORT5 + 12, TB10X_PORT5 + 13, TB10X_PORT5 + 14, TB10X_PORT5 + 15, TB10X_PORT5 + 16, TB10X_PORT5 + 17, TB10X_PORT5 + 18, TB10X_PORT5 + 19, TB10X_PORT5 + 20, TB10X_PORT5 + 21, TB10X_PORT5 + 22, TB10X_PORT5 + 23, TB10X_PORT5 + 24, TB10X_PORT5 + 25, TB10X_PORT5 + 26, TB10X_PORT5 + 27, TB10X_PORT5 + 28, TB10X_PORT5 + 29, TB10X_PORT5 + 30, TB10X_PORT5 + 31, TB10X_PORT5 + 32, TB10X_PORT5 + 33, TB10X_PORT5 + 34, TB10X_PORT5 + 35, TB10X_PORT5 + 36, TB10X_PORT5 + 37, TB10X_PORT5 + 38, TB10X_PORT5 + 39, TB10X_PORT5 + 40, TB10X_PORT5 + 41, TB10X_PORT5 + 42, TB10X_PORT5 + 43, TB10X_PORT5 + 44, TB10X_PORT5 + 45, TB10X_PORT5 + 46, TB10X_PORT5 + 47, TB10X_PORT5 + 48, TB10X_PORT5 + 49, TB10X_PORT5 + 50, TB10X_PORT5 + 51, TB10X_PORT5 + 52, TB10X_PORT5 + 53}; static const unsigned mcard_pins[] = { TB10X_PORT5 + 3, TB10X_PORT5 + 10, TB10X_PORT5 + 11, TB10X_PORT5 + 12, TB10X_PORT5 + 22, TB10X_PORT5 + 23, TB10X_PORT5 + 33, TB10X_PORT5 + 35, TB10X_PORT5 + 36, TB10X_PORT5 + 37, TB10X_PORT5 + 38, TB10X_PORT5 + 39, TB10X_PORT5 + 40, TB10X_PORT5 + 41, TB10X_PORT5 + 42, TB10X_PORT5 + 43, TB10X_PORT5 + 45, TB10X_PORT5 + 46, TB10X_PORT5 + 47, TB10X_PORT5 + 48, TB10X_PORT5 + 49, TB10X_PORT5 + 50, TB10X_PORT5 + 51, TB10X_PORT5 + 52, TB10X_PORT5 + 53}; static const unsigned stc0_pins[] = { TB10X_PORT5 + 34, TB10X_PORT5 + 35, TB10X_PORT5 + 36, TB10X_PORT5 + 37, TB10X_PORT5 + 38, TB10X_PORT5 + 39, TB10X_PORT5 + 40}; static const unsigned stc1_pins[] = { TB10X_PORT5 + 25, TB10X_PORT5 + 26, TB10X_PORT5 + 27, TB10X_PORT5 + 28, TB10X_PORT5 + 29, TB10X_PORT5 + 30, TB10X_PORT5 + 44}; /* Unmuxed GPIOs */ static const unsigned gpiob_pins[] = { TB10X_GPIOS + 0, TB10X_GPIOS + 1}; static const unsigned gpiod_pins[] = { TB10X_GPIOS + 2, TB10X_GPIOS + 3}; static const unsigned gpiof_pins[] = { TB10X_GPIOS + 4, TB10X_GPIOS + 5}; static const unsigned gpioh_pins[] = { TB10X_GPIOS + 6, TB10X_GPIOS + 7}; static const unsigned gpioi_pins[] = { TB10X_GPIOS + 8, TB10X_GPIOS + 9, TB10X_GPIOS + 10, TB10X_GPIOS + 11, TB10X_GPIOS + 12, TB10X_GPIOS + 13, TB10X_GPIOS + 14, TB10X_GPIOS + 15, TB10X_GPIOS + 16, TB10X_GPIOS + 17, TB10X_GPIOS + 18, TB10X_GPIOS + 19}; struct tb10x_pinfuncgrp { const char *name; const unsigned int *pins; const unsigned int pincnt; const int port; const unsigned int mode; const int isgpio; }; #define DEFPINFUNCGRP(NAME, PORT, MODE, ISGPIO) { \ .name = __stringify(NAME), \ .pins = NAME##_pins, .pincnt = ARRAY_SIZE(NAME##_pins), \ .port = (PORT), .mode = (MODE), \ .isgpio = (ISGPIO), \ } static const struct tb10x_pinfuncgrp tb10x_pingroups[] = { DEFPINFUNCGRP(mis0, 0, 0, 0), DEFPINFUNCGRP(gpioa, 0, 0, 1), DEFPINFUNCGRP(mis1, 0, 0, 0), DEFPINFUNCGRP(mip1, 0, 1, 0), DEFPINFUNCGRP(mis2, 1, 0, 0), DEFPINFUNCGRP(gpioc, 1, 0, 1), DEFPINFUNCGRP(mis3, 1, 0, 0), DEFPINFUNCGRP(mip3, 1, 1, 0), DEFPINFUNCGRP(mis4, 2, 0, 0), DEFPINFUNCGRP(gpioe, 2, 0, 1), DEFPINFUNCGRP(mis5, 2, 0, 0), DEFPINFUNCGRP(mip5, 2, 1, 0), DEFPINFUNCGRP(mis6, 3, 0, 0), DEFPINFUNCGRP(gpiog, 3, 0, 1), DEFPINFUNCGRP(mis7, 3, 0, 0), DEFPINFUNCGRP(mip7, 3, 1, 0), DEFPINFUNCGRP(gpioj, 4, 0, 1), DEFPINFUNCGRP(gpiok, 4, 0, 1), DEFPINFUNCGRP(ciplus, 4, 1, 0), DEFPINFUNCGRP(mcard, 4, 2, 0), DEFPINFUNCGRP(stc0, 4, 3, 0), DEFPINFUNCGRP(stc1, 4, 3, 0), DEFPINFUNCGRP(mop, 5, 0, 0), DEFPINFUNCGRP(mos0, 5, 1, 0), DEFPINFUNCGRP(mos1, 5, 1, 0), DEFPINFUNCGRP(mos2, 5, 1, 0), DEFPINFUNCGRP(mos3, 5, 1, 0), DEFPINFUNCGRP(uart0, 6, 0, 0), DEFPINFUNCGRP(uart1, 6, 0, 0), DEFPINFUNCGRP(gpiol, 6, 1, 1), DEFPINFUNCGRP(gpiom, 6, 1, 1), DEFPINFUNCGRP(spi3, 7, 0, 0), DEFPINFUNCGRP(jtag, 7, 1, 0), DEFPINFUNCGRP(spi1, 8, 0, 0), DEFPINFUNCGRP(gpion, 8, 1, 1), DEFPINFUNCGRP(gpiob, -1, 0, 1), DEFPINFUNCGRP(gpiod, -1, 0, 1), DEFPINFUNCGRP(gpiof, -1, 0, 1), DEFPINFUNCGRP(gpioh, -1, 0, 1), DEFPINFUNCGRP(gpioi, -1, 0, 1), }; #undef DEFPINFUNCGRP struct tb10x_of_pinfunc { const char *name; const char *group; }; #define TB10X_PORTS (9) /** * struct tb10x_port - state of an I/O port * @mode: Node this port is currently in. * @count: Number of enabled functions which require this port to be * configured in @mode. */ struct tb10x_port { unsigned int mode; unsigned int count; }; /** * struct tb10x_pinctrl - TB10x pin controller internal state * @pctl: pointer to the pinctrl_dev structure of this pin controller. * @base: register set base address. * @pingroups: pointer to an array of the pin groups this driver manages. * @pinfuncgrpcnt: number of pingroups in @pingroups. * @pinfuncnt: number of pin functions in @pinfuncs. * @mutex: mutex for exclusive access to a pin controller's state. * @ports: current state of each port. * @gpios: Indicates if a given pin is currently used as GPIO (1) or not (0). * @pinfuncs: flexible array of pin functions this driver manages. */ struct tb10x_pinctrl { struct pinctrl_dev *pctl; void *base; const struct tb10x_pinfuncgrp *pingroups; unsigned int pinfuncgrpcnt; unsigned int pinfuncnt; struct mutex mutex; struct tb10x_port ports[TB10X_PORTS]; DECLARE_BITMAP(gpios, MAX_PIN + 1); struct tb10x_of_pinfunc pinfuncs[]; }; static inline void tb10x_pinctrl_set_config(struct tb10x_pinctrl *state, unsigned int port, unsigned int mode) { u32 pcfg; if (state->ports[port].count) return; state->ports[port].mode = mode; pcfg = ioread32(state->base) & ~(PCFG_PORT_MASK(port)); pcfg |= (mode << (PCFG_PORT_BITWIDTH * port)) & PCFG_PORT_MASK(port); iowrite32(pcfg, state->base); } static inline unsigned int tb10x_pinctrl_get_config( struct tb10x_pinctrl *state, unsigned int port) { return (ioread32(state->base) & PCFG_PORT_MASK(port)) >> (PCFG_PORT_BITWIDTH * port); } static int tb10x_get_groups_count(struct pinctrl_dev *pctl) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); return state->pinfuncgrpcnt; } static const char *tb10x_get_group_name(struct pinctrl_dev *pctl, unsigned n) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); return state->pingroups[n].name; } static int tb10x_get_group_pins(struct pinctrl_dev *pctl, unsigned n, unsigned const **pins, unsigned * const num_pins) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); *pins = state->pingroups[n].pins; *num_pins = state->pingroups[n].pincnt; return 0; } static int tb10x_dt_node_to_map(struct pinctrl_dev *pctl, struct device_node *np_config, struct pinctrl_map **map, unsigned *num_maps) { const char *string; unsigned reserved_maps = 0; int ret = 0; if (of_property_read_string(np_config, "abilis,function", &string)) { pr_err("%pOF: No abilis,function property in device tree.\n", np_config); return -EINVAL; } *map = NULL; *num_maps = 0; ret = pinctrl_utils_reserve_map(pctl, map, &reserved_maps, num_maps, 1); if (ret) goto out; ret = pinctrl_utils_add_map_mux(pctl, map, &reserved_maps, num_maps, string, np_config->name); out: return ret; } static const struct pinctrl_ops tb10x_pinctrl_ops = { .get_groups_count = tb10x_get_groups_count, .get_group_name = tb10x_get_group_name, .get_group_pins = tb10x_get_group_pins, .dt_node_to_map = tb10x_dt_node_to_map, .dt_free_map = pinctrl_utils_free_map, }; static int tb10x_get_functions_count(struct pinctrl_dev *pctl) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); return state->pinfuncnt; } static const char *tb10x_get_function_name(struct pinctrl_dev *pctl, unsigned n) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); return state->pinfuncs[n].name; } static int tb10x_get_function_groups(struct pinctrl_dev *pctl, unsigned n, const char * const **groups, unsigned * const num_groups) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); *groups = &state->pinfuncs[n].group; *num_groups = 1; return 0; } static int tb10x_gpio_request_enable(struct pinctrl_dev *pctl, struct pinctrl_gpio_range *range, unsigned pin) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); int muxport = -1; int muxmode = -1; int i; mutex_lock(&state->mutex); /* * Figure out to which port the requested GPIO belongs and how to * configure that port. * This loop also checks for pin conflicts between GPIOs and other * functions. */ for (i = 0; i < state->pinfuncgrpcnt; i++) { const struct tb10x_pinfuncgrp *pfg = &state->pingroups[i]; unsigned int mode = pfg->mode; int j, port = pfg->port; /* * Skip pin groups which are always mapped and don't need * to be configured. */ if (port < 0) continue; for (j = 0; j < pfg->pincnt; j++) { if (pin == pfg->pins[j]) { if (pfg->isgpio) { /* * Remember the GPIO-only setting of * the port this pin belongs to. */ muxport = port; muxmode = mode; } else if (state->ports[port].count && (state->ports[port].mode == mode)) { /* * Error: The requested pin is already * used for something else. */ mutex_unlock(&state->mutex); return -EBUSY; } break; } } } /* * If we haven't returned an error at this point, the GPIO pin is not * used by another function and the GPIO request can be granted: * Register pin as being used as GPIO so we don't allocate it to * another function later. */ set_bit(pin, state->gpios); /* * Potential conflicts between GPIOs and pin functions were caught * earlier in this function and tb10x_pinctrl_set_config will do the * Right Thing, either configure the port in GPIO only mode or leave * another mode compatible with this GPIO request untouched. */ if (muxport >= 0) tb10x_pinctrl_set_config(state, muxport, muxmode); mutex_unlock(&state->mutex); return 0; } static void tb10x_gpio_disable_free(struct pinctrl_dev *pctl, struct pinctrl_gpio_range *range, unsigned pin) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); mutex_lock(&state->mutex); clear_bit(pin, state->gpios); mutex_unlock(&state->mutex); } static int tb10x_pctl_set_mux(struct pinctrl_dev *pctl, unsigned func_selector, unsigned group_selector) { struct tb10x_pinctrl *state = pinctrl_dev_get_drvdata(pctl); const struct tb10x_pinfuncgrp *grp = &state->pingroups[group_selector]; int i; if (grp->port < 0) return 0; mutex_lock(&state->mutex); /* * Check if the requested function is compatible with previously * requested functions. */ if (state->ports[grp->port].count && (state->ports[grp->port].mode != grp->mode)) { mutex_unlock(&state->mutex); return -EBUSY; } /* * Check if the requested function is compatible with previously * requested GPIOs. */ for (i = 0; i < grp->pincnt; i++) if (test_bit(grp->pins[i], state->gpios)) { mutex_unlock(&state->mutex); return -EBUSY; } tb10x_pinctrl_set_config(state, grp->port, grp->mode); state->ports[grp->port].count++; mutex_unlock(&state->mutex); return 0; } static const struct pinmux_ops tb10x_pinmux_ops = { .get_functions_count = tb10x_get_functions_count, .get_function_name = tb10x_get_function_name, .get_function_groups = tb10x_get_function_groups, .gpio_request_enable = tb10x_gpio_request_enable, .gpio_disable_free = tb10x_gpio_disable_free, .set_mux = tb10x_pctl_set_mux, }; static struct pinctrl_desc tb10x_pindesc = { .name = "TB10x", .pins = tb10x_pins, .npins = ARRAY_SIZE(tb10x_pins), .owner = THIS_MODULE, .pctlops = &tb10x_pinctrl_ops, .pmxops = &tb10x_pinmux_ops, }; static int tb10x_pinctrl_probe(struct platform_device *pdev) { int ret = -EINVAL; struct device *dev = &pdev->dev; struct device_node *of_node = dev->of_node; struct device_node *child; struct tb10x_pinctrl *state; int i; if (!of_node) { dev_err(dev, "No device tree node found.\n"); return -EINVAL; } state = devm_kzalloc(dev, struct_size(state, pinfuncs, of_get_child_count(of_node)), GFP_KERNEL); if (!state) return -ENOMEM; platform_set_drvdata(pdev, state); mutex_init(&state->mutex); state->base = devm_platform_ioremap_resource(pdev, 0); if (IS_ERR(state->base)) { ret = PTR_ERR(state->base); goto fail; } state->pingroups = tb10x_pingroups; state->pinfuncgrpcnt = ARRAY_SIZE(tb10x_pingroups); for (i = 0; i < TB10X_PORTS; i++) state->ports[i].mode = tb10x_pinctrl_get_config(state, i); for_each_child_of_node(of_node, child) { const char *name; if (!of_property_read_string(child, "abilis,function", &name)) { state->pinfuncs[state->pinfuncnt].name = child->name; state->pinfuncs[state->pinfuncnt].group = name; state->pinfuncnt++; } } state->pctl = devm_pinctrl_register(dev, &tb10x_pindesc, state); if (IS_ERR(state->pctl)) { dev_err(dev, "could not register TB10x pin driver\n"); ret = PTR_ERR(state->pctl); goto fail; } return 0; fail: mutex_destroy(&state->mutex); return ret; } static void tb10x_pinctrl_remove(struct platform_device *pdev) { struct tb10x_pinctrl *state = platform_get_drvdata(pdev); mutex_destroy(&state->mutex); } static const struct of_device_id tb10x_pinctrl_dt_ids[] = { { .compatible = "abilis,tb10x-iomux" }, { } }; MODULE_DEVICE_TABLE(of, tb10x_pinctrl_dt_ids); static struct platform_driver tb10x_pinctrl_pdrv = { .probe = tb10x_pinctrl_probe, .remove_new = tb10x_pinctrl_remove, .driver = { .name = "tb10x_pinctrl", .of_match_table = of_match_ptr(tb10x_pinctrl_dt_ids), } }; module_platform_driver(tb10x_pinctrl_pdrv); MODULE_AUTHOR("Christian Ruppert <christian.ruppert@abilis.com>"); MODULE_LICENSE("GPL");
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