1 // SPDX-License-Identifier: GPL-2.0 2 /* 3 * Probe module for 8250/16550-type Exar chips PCI serial ports. 4 * 5 * Based on drivers/tty/serial/8250/8250_pci.c, 6 * 7 * Copyright (C) 2017 Sudip Mukherjee, All Rights Reserved. 8 */ 9 #include <linux/bitfield.h> 10 #include <linux/bits.h> 11 #include <linux/delay.h> 12 #include <linux/device.h> 13 #include <linux/dmi.h> 14 #include <linux/interrupt.h> 15 #include <linux/io.h> 16 #include <linux/math.h> 17 #include <linux/module.h> 18 #include <linux/pci.h> 19 #include <linux/platform_device.h> 20 #include <linux/pm.h> 21 #include <linux/property.h> 22 #include <linux/string.h> 23 #include <linux/types.h> 24 25 #include <linux/serial_8250.h> 26 #include <linux/serial_core.h> 27 #include <linux/serial_reg.h> 28 29 #include <asm/byteorder.h> 30 31 #include "8250.h" 32 #include "8250_pcilib.h" 33 34 #define PCI_DEVICE_ID_ACCESSIO_COM_2S 0x1052 35 #define PCI_DEVICE_ID_ACCESSIO_COM_4S 0x105d 36 #define PCI_DEVICE_ID_ACCESSIO_COM_8S 0x106c 37 #define PCI_DEVICE_ID_ACCESSIO_COM232_8 0x10a8 38 #define PCI_DEVICE_ID_ACCESSIO_COM_2SM 0x10d2 39 #define PCI_DEVICE_ID_ACCESSIO_COM_4SM 0x10db 40 #define PCI_DEVICE_ID_ACCESSIO_COM_8SM 0x10ea 41 42 #define PCI_DEVICE_ID_COMMTECH_4224PCI335 0x0002 43 #define PCI_DEVICE_ID_COMMTECH_4222PCI335 0x0004 44 #define PCI_DEVICE_ID_COMMTECH_2324PCI335 0x000a 45 #define PCI_DEVICE_ID_COMMTECH_2328PCI335 0x000b 46 #define PCI_DEVICE_ID_COMMTECH_4224PCIE 0x0020 47 #define PCI_DEVICE_ID_COMMTECH_4228PCIE 0x0021 48 #define PCI_DEVICE_ID_COMMTECH_4222PCIE 0x0022 49 50 #define PCI_VENDOR_ID_CONNECT_TECH 0x12c4 51 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_SP_OPTO 0x0340 52 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_SP_OPTO_A 0x0341 53 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_SP_OPTO_B 0x0342 54 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS 0x0350 55 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_A 0x0351 56 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_B 0x0352 57 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS 0x0353 58 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_A 0x0354 59 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_B 0x0355 60 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS_OPTO 0x0360 61 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_A 0x0361 62 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_B 0x0362 63 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP 0x0370 64 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_232 0x0371 65 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_485 0x0372 66 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_SP 0x0373 67 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_6_2_SP 0x0374 68 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_6_SP 0x0375 69 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_232_NS 0x0376 70 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_LEFT 0x0380 71 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_RIGHT 0x0381 72 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XP_OPTO 0x0382 73 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_XPRS_OPTO 0x0392 74 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP 0x03A0 75 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_232 0x03A1 76 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_485 0x03A2 77 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_232_NS 0x03A3 78 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XEG001 0x0602 79 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_BASE 0x1000 80 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_2 0x1002 81 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_4 0x1004 82 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_8 0x1008 83 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_12 0x100C 84 #define PCI_SUBDEVICE_ID_CONNECT_TECH_PCIE_XR35X_16 0x1010 85 #define PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG00X 0x110c 86 #define PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG01X 0x110d 87 #define PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_16 0x1110 88 89 #define PCI_DEVICE_ID_EXAR_XR17V4358 0x4358 90 #define PCI_DEVICE_ID_EXAR_XR17V8358 0x8358 91 #define PCI_DEVICE_ID_EXAR_XR17V252 0x0252 92 #define PCI_DEVICE_ID_EXAR_XR17V254 0x0254 93 #define PCI_DEVICE_ID_EXAR_XR17V258 0x0258 94 95 #define PCI_SUBDEVICE_ID_USR_2980 0x0128 96 #define PCI_SUBDEVICE_ID_USR_2981 0x0129 97 98 #define UART_EXAR_INT0 0x80 99 #define UART_EXAR_8XMODE 0x88 /* 8X sampling rate select */ 100 #define UART_EXAR_SLEEP 0x8b /* Sleep mode */ 101 #define UART_EXAR_DVID 0x8d /* Device identification */ 102 103 #define UART_EXAR_FCTR 0x08 /* Feature Control Register */ 104 #define UART_FCTR_EXAR_IRDA 0x10 /* IrDa data encode select */ 105 #define UART_FCTR_EXAR_485 0x20 /* Auto 485 half duplex dir ctl */ 106 #define UART_FCTR_EXAR_TRGA 0x00 /* FIFO trigger table A */ 107 #define UART_FCTR_EXAR_TRGB 0x60 /* FIFO trigger table B */ 108 #define UART_FCTR_EXAR_TRGC 0x80 /* FIFO trigger table C */ 109 #define UART_FCTR_EXAR_TRGD 0xc0 /* FIFO trigger table D programmable */ 110 111 #define UART_EXAR_TXTRG 0x0a /* Tx FIFO trigger level write-only */ 112 #define UART_EXAR_RXTRG 0x0b /* Rx FIFO trigger level write-only */ 113 114 #define UART_EXAR_MPIOINT_7_0 0x8f /* MPIOINT[7:0] */ 115 #define UART_EXAR_MPIOLVL_7_0 0x90 /* MPIOLVL[7:0] */ 116 #define UART_EXAR_MPIO3T_7_0 0x91 /* MPIO3T[7:0] */ 117 #define UART_EXAR_MPIOINV_7_0 0x92 /* MPIOINV[7:0] */ 118 #define UART_EXAR_MPIOSEL_7_0 0x93 /* MPIOSEL[7:0] */ 119 #define UART_EXAR_MPIOOD_7_0 0x94 /* MPIOOD[7:0] */ 120 #define UART_EXAR_MPIOINT_15_8 0x95 /* MPIOINT[15:8] */ 121 #define UART_EXAR_MPIOLVL_15_8 0x96 /* MPIOLVL[15:8] */ 122 #define UART_EXAR_MPIO3T_15_8 0x97 /* MPIO3T[15:8] */ 123 #define UART_EXAR_MPIOINV_15_8 0x98 /* MPIOINV[15:8] */ 124 #define UART_EXAR_MPIOSEL_15_8 0x99 /* MPIOSEL[15:8] */ 125 #define UART_EXAR_MPIOOD_15_8 0x9a /* MPIOOD[15:8] */ 126 127 #define UART_EXAR_RS485_DLY(x) ((x) << 4) 128 129 #define UART_EXAR_DLD 0x02 /* Divisor Fractional */ 130 #define UART_EXAR_DLD_485_POLARITY 0x80 /* RS-485 Enable Signal Polarity */ 131 132 /* EEPROM registers */ 133 #define UART_EXAR_REGB 0x8e 134 #define UART_EXAR_REGB_EECK BIT(4) 135 #define UART_EXAR_REGB_EECS BIT(5) 136 #define UART_EXAR_REGB_EEDI BIT(6) 137 #define UART_EXAR_REGB_EEDO BIT(7) 138 #define UART_EXAR_REGB_EE_ADDR_SIZE 6 139 #define UART_EXAR_REGB_EE_DATA_SIZE 16 140 141 #define UART_EXAR_XR17C15X_PORT_OFFSET 0x200 142 #define UART_EXAR_XR17V25X_PORT_OFFSET 0x200 143 #define UART_EXAR_XR17V35X_PORT_OFFSET 0x400 144 145 /* 146 * IOT2040 MPIO wiring semantics: 147 * 148 * MPIO Port Function 149 * ---- ---- -------- 150 * 0 2 Mode bit 0 151 * 1 2 Mode bit 1 152 * 2 2 Terminate bus 153 * 3 - <reserved> 154 * 4 3 Mode bit 0 155 * 5 3 Mode bit 1 156 * 6 3 Terminate bus 157 * 7 - <reserved> 158 * 8 2 Enable 159 * 9 3 Enable 160 * 10 - Red LED 161 * 11..15 - <unused> 162 */ 163 164 /* IOT2040 MPIOs 0..7 */ 165 #define IOT2040_UART_MODE_RS232 0x01 166 #define IOT2040_UART_MODE_RS485 0x02 167 #define IOT2040_UART_MODE_RS422 0x03 168 #define IOT2040_UART_TERMINATE_BUS 0x04 169 170 #define IOT2040_UART1_MASK 0x0f 171 #define IOT2040_UART2_SHIFT 4 172 173 #define IOT2040_UARTS_DEFAULT_MODE 0x11 /* both RS232 */ 174 #define IOT2040_UARTS_GPIO_LO_MODE 0x88 /* reserved pins as input */ 175 176 /* IOT2040 MPIOs 8..15 */ 177 #define IOT2040_UARTS_ENABLE 0x03 178 #define IOT2040_UARTS_GPIO_HI_MODE 0xF8 /* enable & LED as outputs */ 179 180 /* CTI EEPROM offsets */ 181 #define CTI_EE_OFF_XR17C15X_OSC_FREQ 0x04 /* 2 words */ 182 #define CTI_EE_OFF_XR17V25X_OSC_FREQ 0x08 /* 2 words */ 183 #define CTI_EE_OFF_XR17C15X_PART_NUM 0x0A /* 4 words */ 184 #define CTI_EE_OFF_XR17V25X_PART_NUM 0x0E /* 4 words */ 185 #define CTI_EE_OFF_XR17C15X_SERIAL_NUM 0x0E /* 1 word */ 186 #define CTI_EE_OFF_XR17V25X_SERIAL_NUM 0x12 /* 1 word */ 187 #define CTI_EE_OFF_XR17V35X_SERIAL_NUM 0x11 /* 2 word */ 188 #define CTI_EE_OFF_XR17V35X_BRD_FLAGS 0x13 /* 1 word */ 189 #define CTI_EE_OFF_XR17V35X_PORT_FLAGS 0x14 /* 1 word */ 190 191 #define CTI_EE_MASK_PORT_FLAGS_TYPE GENMASK(7, 0) 192 #define CTI_EE_MASK_OSC_FREQ_LOWER GENMASK(15, 0) 193 #define CTI_EE_MASK_OSC_FREQ_UPPER GENMASK(31, 16) 194 195 #define CTI_FPGA_RS485_IO_REG 0x2008 196 #define CTI_FPGA_CFG_INT_EN_REG 0x48 197 #define CTI_FPGA_CFG_INT_EN_EXT_BIT BIT(15) /* External int enable bit */ 198 199 #define CTI_DEFAULT_PCI_OSC_FREQ 29491200 200 #define CTI_DEFAULT_PCIE_OSC_FREQ 125000000 201 #define CTI_DEFAULT_FPGA_OSC_FREQ 33333333 202 203 /* 204 * CTI Serial port line types. These match the values stored in the first 205 * nibble of the CTI EEPROM port_flags word. 206 */ 207 enum cti_port_type { 208 CTI_PORT_TYPE_NONE = 0, 209 CTI_PORT_TYPE_RS232, // RS232 ONLY 210 CTI_PORT_TYPE_RS422_485, // RS422/RS485 ONLY 211 CTI_PORT_TYPE_RS232_422_485_HW, // RS232/422/485 HW ONLY Switchable 212 CTI_PORT_TYPE_RS232_422_485_SW, // RS232/422/485 SW ONLY Switchable 213 CTI_PORT_TYPE_RS232_422_485_4B, // RS232/422/485 HW/SW (4bit ex. BCG004) 214 CTI_PORT_TYPE_RS232_422_485_2B, // RS232/422/485 HW/SW (2bit ex. BBG008) 215 CTI_PORT_TYPE_MAX, 216 }; 217 218 #define CTI_PORT_TYPE_VALID(_port_type) \ 219 (((_port_type) > CTI_PORT_TYPE_NONE) && \ 220 ((_port_type) < CTI_PORT_TYPE_MAX)) 221 222 #define CTI_PORT_TYPE_RS485(_port_type) \ 223 (((_port_type) > CTI_PORT_TYPE_RS232) && \ 224 ((_port_type) < CTI_PORT_TYPE_MAX)) 225 226 struct exar8250; 227 228 struct exar8250_platform { 229 int (*rs485_config)(struct uart_port *port, struct ktermios *termios, 230 struct serial_rs485 *rs485); 231 const struct serial_rs485 *rs485_supported; 232 int (*register_gpio)(struct pci_dev *pcidev, struct uart_8250_port *port); 233 void (*unregister_gpio)(struct uart_8250_port *port); 234 }; 235 236 /** 237 * struct exar8250_board - board information 238 * @num_ports: number of serial ports 239 * @reg_shift: describes UART register mapping in PCI memory 240 * @setup: quirk run at ->probe() stage for each port 241 * @exit: quirk run at ->remove() stage 242 */ 243 struct exar8250_board { 244 unsigned int num_ports; 245 unsigned int reg_shift; 246 int (*setup)(struct exar8250 *priv, struct pci_dev *pcidev, 247 struct uart_8250_port *port, int idx); 248 void (*exit)(struct pci_dev *pcidev); 249 }; 250 251 struct exar8250 { 252 unsigned int nr; 253 unsigned int osc_freq; 254 struct exar8250_board *board; 255 void __iomem *virt; 256 int line[]; 257 }; 258 259 static inline void exar_write_reg(struct exar8250 *priv, 260 unsigned int reg, u8 value) 261 { 262 writeb(value, priv->virt + reg); 263 } 264 265 static inline u8 exar_read_reg(struct exar8250 *priv, unsigned int reg) 266 { 267 return readb(priv->virt + reg); 268 } 269 270 static inline void exar_ee_select(struct exar8250 *priv) 271 { 272 // Set chip select pin high to enable EEPROM reads/writes 273 exar_write_reg(priv, UART_EXAR_REGB, UART_EXAR_REGB_EECS); 274 // Min ~500ns delay needed between CS assert and EEPROM access 275 udelay(1); 276 } 277 278 static inline void exar_ee_deselect(struct exar8250 *priv) 279 { 280 exar_write_reg(priv, UART_EXAR_REGB, 0x00); 281 } 282 283 static inline void exar_ee_write_bit(struct exar8250 *priv, u8 bit) 284 { 285 u8 value = UART_EXAR_REGB_EECS; 286 287 if (bit) 288 value |= UART_EXAR_REGB_EEDI; 289 290 // Clock out the bit on the EEPROM interface 291 exar_write_reg(priv, UART_EXAR_REGB, value); 292 // 2us delay = ~500khz clock speed 293 udelay(2); 294 295 value |= UART_EXAR_REGB_EECK; 296 297 exar_write_reg(priv, UART_EXAR_REGB, value); 298 udelay(2); 299 } 300 301 static inline u8 exar_ee_read_bit(struct exar8250 *priv) 302 { 303 u8 regb; 304 u8 value = UART_EXAR_REGB_EECS; 305 306 // Clock in the bit on the EEPROM interface 307 exar_write_reg(priv, UART_EXAR_REGB, value); 308 // 2us delay = ~500khz clock speed 309 udelay(2); 310 311 value |= UART_EXAR_REGB_EECK; 312 313 exar_write_reg(priv, UART_EXAR_REGB, value); 314 udelay(2); 315 316 regb = exar_read_reg(priv, UART_EXAR_REGB); 317 318 return (regb & UART_EXAR_REGB_EEDO ? 1 : 0); 319 } 320 321 /** 322 * exar_ee_read() - Read a word from the EEPROM 323 * @priv: Device's private structure 324 * @ee_addr: Offset of EEPROM to read word from 325 * 326 * Read a single 16bit word from an Exar UART's EEPROM. 327 * The type of the EEPROM is AT93C46D. 328 * 329 * Return: EEPROM word 330 */ 331 static u16 exar_ee_read(struct exar8250 *priv, u8 ee_addr) 332 { 333 int i; 334 u16 data = 0; 335 336 exar_ee_select(priv); 337 338 // Send read command (opcode 110) 339 exar_ee_write_bit(priv, 1); 340 exar_ee_write_bit(priv, 1); 341 exar_ee_write_bit(priv, 0); 342 343 // Send address to read from 344 for (i = UART_EXAR_REGB_EE_ADDR_SIZE - 1; i >= 0; i--) 345 exar_ee_write_bit(priv, ee_addr & BIT(i)); 346 347 // Read data 1 bit at a time starting with a dummy bit 348 for (i = UART_EXAR_REGB_EE_DATA_SIZE; i >= 0; i--) { 349 if (exar_ee_read_bit(priv)) 350 data |= BIT(i); 351 } 352 353 exar_ee_deselect(priv); 354 355 return data; 356 } 357 358 /** 359 * exar_mpio_config_output() - Configure an Exar MPIO as an output 360 * @priv: Device's private structure 361 * @mpio_num: MPIO number/offset to configure 362 * 363 * Configure a single MPIO as an output and disable tristate. It is reccomended 364 * to set the level with exar_mpio_set_high()/exar_mpio_set_low() prior to 365 * calling this function to ensure default MPIO pin state. 366 * 367 * Return: 0 on success, negative error code on failure 368 */ 369 static int exar_mpio_config_output(struct exar8250 *priv, 370 unsigned int mpio_num) 371 { 372 unsigned int mpio_offset; 373 u8 sel_reg; // MPIO Select register (input/output) 374 u8 tri_reg; // MPIO Tristate register 375 u8 value; 376 377 if (mpio_num < 8) { 378 sel_reg = UART_EXAR_MPIOSEL_7_0; 379 tri_reg = UART_EXAR_MPIO3T_7_0; 380 mpio_offset = mpio_num; 381 } else if (mpio_num >= 8 && mpio_num < 16) { 382 sel_reg = UART_EXAR_MPIOSEL_15_8; 383 tri_reg = UART_EXAR_MPIO3T_15_8; 384 mpio_offset = mpio_num - 8; 385 } else { 386 return -EINVAL; 387 } 388 389 // Disable MPIO pin tri-state 390 value = exar_read_reg(priv, tri_reg); 391 value &= ~BIT(mpio_offset); 392 exar_write_reg(priv, tri_reg, value); 393 394 value = exar_read_reg(priv, sel_reg); 395 value &= ~BIT(mpio_offset); 396 exar_write_reg(priv, sel_reg, value); 397 398 return 0; 399 } 400 401 /** 402 * _exar_mpio_set() - Set an Exar MPIO output high or low 403 * @priv: Device's private structure 404 * @mpio_num: MPIO number/offset to set 405 * @high: Set MPIO high if true, low if false 406 * 407 * Set a single MPIO high or low. exar_mpio_config_output() must also be called 408 * to configure the pin as an output. 409 * 410 * Return: 0 on success, negative error code on failure 411 */ 412 static int _exar_mpio_set(struct exar8250 *priv, 413 unsigned int mpio_num, bool high) 414 { 415 unsigned int mpio_offset; 416 u8 lvl_reg; 417 u8 value; 418 419 if (mpio_num < 8) { 420 lvl_reg = UART_EXAR_MPIOLVL_7_0; 421 mpio_offset = mpio_num; 422 } else if (mpio_num >= 8 && mpio_num < 16) { 423 lvl_reg = UART_EXAR_MPIOLVL_15_8; 424 mpio_offset = mpio_num - 8; 425 } else { 426 return -EINVAL; 427 } 428 429 value = exar_read_reg(priv, lvl_reg); 430 if (high) 431 value |= BIT(mpio_offset); 432 else 433 value &= ~BIT(mpio_offset); 434 exar_write_reg(priv, lvl_reg, value); 435 436 return 0; 437 } 438 439 static int exar_mpio_set_low(struct exar8250 *priv, unsigned int mpio_num) 440 { 441 return _exar_mpio_set(priv, mpio_num, false); 442 } 443 444 static int exar_mpio_set_high(struct exar8250 *priv, unsigned int mpio_num) 445 { 446 return _exar_mpio_set(priv, mpio_num, true); 447 } 448 449 static int generic_rs485_config(struct uart_port *port, struct ktermios *termios, 450 struct serial_rs485 *rs485) 451 { 452 bool is_rs485 = !!(rs485->flags & SER_RS485_ENABLED); 453 u8 __iomem *p = port->membase; 454 u8 value; 455 456 value = readb(p + UART_EXAR_FCTR); 457 if (is_rs485) 458 value |= UART_FCTR_EXAR_485; 459 else 460 value &= ~UART_FCTR_EXAR_485; 461 462 writeb(value, p + UART_EXAR_FCTR); 463 464 if (is_rs485) 465 writeb(UART_EXAR_RS485_DLY(4), p + UART_MSR); 466 467 return 0; 468 } 469 470 static const struct serial_rs485 generic_rs485_supported = { 471 .flags = SER_RS485_ENABLED | SER_RS485_RTS_ON_SEND, 472 }; 473 474 static void exar_pm(struct uart_port *port, unsigned int state, unsigned int old) 475 { 476 /* 477 * Exar UARTs have a SLEEP register that enables or disables each UART 478 * to enter sleep mode separately. On the XR17V35x the register 479 * is accessible to each UART at the UART_EXAR_SLEEP offset, but 480 * the UART channel may only write to the corresponding bit. 481 */ 482 serial_port_out(port, UART_EXAR_SLEEP, state ? 0xff : 0); 483 } 484 485 /* 486 * XR17V35x UARTs have an extra fractional divisor register (DLD) 487 * Calculate divisor with extra 4-bit fractional portion 488 */ 489 static unsigned int xr17v35x_get_divisor(struct uart_port *p, unsigned int baud, 490 unsigned int *frac) 491 { 492 unsigned int quot_16; 493 494 quot_16 = DIV_ROUND_CLOSEST(p->uartclk, baud); 495 *frac = quot_16 & 0x0f; 496 497 return quot_16 >> 4; 498 } 499 500 static void xr17v35x_set_divisor(struct uart_port *p, unsigned int baud, 501 unsigned int quot, unsigned int quot_frac) 502 { 503 serial8250_do_set_divisor(p, baud, quot, quot_frac); 504 505 /* Preserve bits not related to baudrate; DLD[7:4]. */ 506 quot_frac |= serial_port_in(p, 0x2) & 0xf0; 507 serial_port_out(p, 0x2, quot_frac); 508 } 509 510 static int xr17v35x_startup(struct uart_port *port) 511 { 512 /* 513 * First enable access to IER [7:5], ISR [5:4], FCR [5:4], 514 * MCR [7:5] and MSR [7:0] 515 */ 516 serial_port_out(port, UART_XR_EFR, UART_EFR_ECB); 517 518 /* 519 * Make sure all interrups are masked until initialization is 520 * complete and the FIFOs are cleared 521 * 522 * Synchronize UART_IER access against the console. 523 */ 524 uart_port_lock_irq(port); 525 serial_port_out(port, UART_IER, 0); 526 uart_port_unlock_irq(port); 527 528 return serial8250_do_startup(port); 529 } 530 531 static void exar_shutdown(struct uart_port *port) 532 { 533 bool tx_complete = false; 534 struct uart_8250_port *up = up_to_u8250p(port); 535 struct tty_port *tport = &port->state->port; 536 int i = 0; 537 u16 lsr; 538 539 do { 540 lsr = serial_in(up, UART_LSR); 541 if (lsr & (UART_LSR_TEMT | UART_LSR_THRE)) 542 tx_complete = true; 543 else 544 tx_complete = false; 545 usleep_range(1000, 1100); 546 } while (!kfifo_is_empty(&tport->xmit_fifo) && 547 !tx_complete && i++ < 1000); 548 549 serial8250_do_shutdown(port); 550 } 551 552 static int default_setup(struct exar8250 *priv, struct pci_dev *pcidev, 553 int idx, unsigned int offset, 554 struct uart_8250_port *port) 555 { 556 const struct exar8250_board *board = priv->board; 557 unsigned char status; 558 int err; 559 560 err = serial8250_pci_setup_port(pcidev, port, 0, offset, board->reg_shift); 561 if (err) 562 return err; 563 564 /* 565 * XR17V35x UARTs have an extra divisor register, DLD that gets enabled 566 * with when DLAB is set which will cause the device to incorrectly match 567 * and assign port type to PORT_16650. The EFR for this UART is found 568 * at offset 0x09. Instead check the Deice ID (DVID) register 569 * for a 2, 4 or 8 port UART. 570 */ 571 status = readb(port->port.membase + UART_EXAR_DVID); 572 if (status == 0x82 || status == 0x84 || status == 0x88) { 573 port->port.type = PORT_XR17V35X; 574 575 port->port.get_divisor = xr17v35x_get_divisor; 576 port->port.set_divisor = xr17v35x_set_divisor; 577 578 port->port.startup = xr17v35x_startup; 579 } else { 580 port->port.type = PORT_XR17D15X; 581 } 582 583 port->port.pm = exar_pm; 584 port->port.shutdown = exar_shutdown; 585 586 return 0; 587 } 588 589 static int 590 pci_fastcom335_setup(struct exar8250 *priv, struct pci_dev *pcidev, 591 struct uart_8250_port *port, int idx) 592 { 593 unsigned int offset = idx * 0x200; 594 unsigned int baud = 1843200; 595 u8 __iomem *p; 596 int err; 597 598 port->port.uartclk = baud * 16; 599 600 err = default_setup(priv, pcidev, idx, offset, port); 601 if (err) 602 return err; 603 604 p = port->port.membase; 605 606 writeb(0x00, p + UART_EXAR_8XMODE); 607 writeb(UART_FCTR_EXAR_TRGD, p + UART_EXAR_FCTR); 608 writeb(32, p + UART_EXAR_TXTRG); 609 writeb(32, p + UART_EXAR_RXTRG); 610 611 /* Skip the initial (per device) setup */ 612 if (idx) 613 return 0; 614 615 /* 616 * Setup Multipurpose Input/Output pins. 617 */ 618 switch (pcidev->device) { 619 case PCI_DEVICE_ID_COMMTECH_4222PCI335: 620 case PCI_DEVICE_ID_COMMTECH_4224PCI335: 621 writeb(0x78, p + UART_EXAR_MPIOLVL_7_0); 622 writeb(0x00, p + UART_EXAR_MPIOINV_7_0); 623 writeb(0x00, p + UART_EXAR_MPIOSEL_7_0); 624 break; 625 case PCI_DEVICE_ID_COMMTECH_2324PCI335: 626 case PCI_DEVICE_ID_COMMTECH_2328PCI335: 627 writeb(0x00, p + UART_EXAR_MPIOLVL_7_0); 628 writeb(0xc0, p + UART_EXAR_MPIOINV_7_0); 629 writeb(0xc0, p + UART_EXAR_MPIOSEL_7_0); 630 break; 631 default: 632 break; 633 } 634 writeb(0x00, p + UART_EXAR_MPIOINT_7_0); 635 writeb(0x00, p + UART_EXAR_MPIO3T_7_0); 636 writeb(0x00, p + UART_EXAR_MPIOOD_7_0); 637 638 return 0; 639 } 640 641 /** 642 * cti_tristate_disable() - Disable RS485 transciever tristate 643 * @priv: Device's private structure 644 * @port_num: Port number to set tristate off 645 * 646 * Most RS485 capable cards have a power on tristate jumper/switch that ensures 647 * the RS422/RS485 transceiver does not drive a multi-drop RS485 bus when it is 648 * not the master. When this jumper is installed the user must set the RS485 649 * mode to Full or Half duplex to disable tristate prior to using the port. 650 * 651 * Some Exar UARTs have an auto-tristate feature while others require setting 652 * an MPIO to disable the tristate. 653 * 654 * Return: 0 on success, negative error code on failure 655 */ 656 static int cti_tristate_disable(struct exar8250 *priv, unsigned int port_num) 657 { 658 int ret; 659 660 ret = exar_mpio_set_high(priv, port_num); 661 if (ret) 662 return ret; 663 664 return exar_mpio_config_output(priv, port_num); 665 } 666 667 /** 668 * cti_plx_int_enable() - Enable UART interrupts to PLX bridge 669 * @priv: Device's private structure 670 * 671 * Some older CTI cards require MPIO_0 to be set low to enable the 672 * interrupts from the UART to the PLX PCI->PCIe bridge. 673 * 674 * Return: 0 on success, negative error code on failure 675 */ 676 static int cti_plx_int_enable(struct exar8250 *priv) 677 { 678 int ret; 679 680 ret = exar_mpio_set_low(priv, 0); 681 if (ret) 682 return ret; 683 684 return exar_mpio_config_output(priv, 0); 685 } 686 687 /** 688 * cti_read_osc_freq() - Read the UART oscillator frequency from EEPROM 689 * @priv: Device's private structure 690 * @eeprom_offset: Offset where the oscillator frequency is stored 691 * 692 * CTI XR17x15X and XR17V25X cards have the serial boards oscillator frequency 693 * stored in the EEPROM. FPGA and XR17V35X based cards use the PCI/PCIe clock. 694 * 695 * Return: frequency on success, negative error code on failure 696 */ 697 static int cti_read_osc_freq(struct exar8250 *priv, u8 eeprom_offset) 698 { 699 u16 lower_word; 700 u16 upper_word; 701 702 lower_word = exar_ee_read(priv, eeprom_offset); 703 // Check if EEPROM word was blank 704 if (lower_word == 0xFFFF) 705 return -EIO; 706 707 upper_word = exar_ee_read(priv, (eeprom_offset + 1)); 708 if (upper_word == 0xFFFF) 709 return -EIO; 710 711 return FIELD_PREP(CTI_EE_MASK_OSC_FREQ_LOWER, lower_word) | 712 FIELD_PREP(CTI_EE_MASK_OSC_FREQ_UPPER, upper_word); 713 } 714 715 /** 716 * cti_get_port_type_xr17c15x_xr17v25x() - Get port type of xr17c15x/xr17v25x 717 * @priv: Device's private structure 718 * @pcidev: Pointer to the PCI device for this port 719 * @port_num: Port to get type of 720 * 721 * CTI xr17c15x and xr17v25x based cards port types are based on PCI IDs. 722 * 723 * Return: port type on success, CTI_PORT_TYPE_NONE on failure 724 */ 725 static enum cti_port_type cti_get_port_type_xr17c15x_xr17v25x(struct exar8250 *priv, 726 struct pci_dev *pcidev, 727 unsigned int port_num) 728 { 729 switch (pcidev->subsystem_device) { 730 // RS232 only cards 731 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_232: 732 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_232: 733 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_232: 734 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_232: 735 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_232_NS: 736 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_232: 737 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_232_NS: 738 return CTI_PORT_TYPE_RS232; 739 // 1x RS232, 1x RS422/RS485 740 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_1_1: 741 return (port_num == 0) ? CTI_PORT_TYPE_RS232 : CTI_PORT_TYPE_RS422_485; 742 // 2x RS232, 2x RS422/RS485 743 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_2: 744 return (port_num < 2) ? CTI_PORT_TYPE_RS232 : CTI_PORT_TYPE_RS422_485; 745 // 4x RS232, 4x RS422/RS485 746 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4: 747 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_SP: 748 return (port_num < 4) ? CTI_PORT_TYPE_RS232 : CTI_PORT_TYPE_RS422_485; 749 // RS232/RS422/RS485 HW (jumper) selectable 750 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2: 751 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4: 752 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8: 753 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_SP_OPTO: 754 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_SP_OPTO_A: 755 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_SP_OPTO_B: 756 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS: 757 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_A: 758 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_B: 759 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS: 760 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_A: 761 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_B: 762 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS_OPTO: 763 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_A: 764 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_B: 765 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP: 766 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_LEFT: 767 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_RIGHT: 768 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XP_OPTO: 769 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_XPRS_OPTO: 770 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP: 771 return CTI_PORT_TYPE_RS232_422_485_HW; 772 // RS422/RS485 HW (jumper) selectable 773 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_485: 774 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_485: 775 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_485: 776 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_485: 777 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_485: 778 return CTI_PORT_TYPE_RS422_485; 779 // 6x RS232, 2x RS422/RS485 780 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_6_2_SP: 781 return (port_num < 6) ? CTI_PORT_TYPE_RS232 : CTI_PORT_TYPE_RS422_485; 782 // 2x RS232, 6x RS422/RS485 783 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_6_SP: 784 return (port_num < 2) ? CTI_PORT_TYPE_RS232 : CTI_PORT_TYPE_RS422_485; 785 default: 786 dev_err(&pcidev->dev, "unknown/unsupported device\n"); 787 return CTI_PORT_TYPE_NONE; 788 } 789 } 790 791 /** 792 * cti_get_port_type_fpga() - Get the port type of a CTI FPGA card 793 * @priv: Device's private structure 794 * @pcidev: Pointer to the PCI device for this port 795 * @port_num: Port to get type of 796 * 797 * FPGA based cards port types are based on PCI IDs. 798 * 799 * Return: port type on success, CTI_PORT_TYPE_NONE on failure 800 */ 801 static enum cti_port_type cti_get_port_type_fpga(struct exar8250 *priv, 802 struct pci_dev *pcidev, 803 unsigned int port_num) 804 { 805 switch (pcidev->device) { 806 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG00X: 807 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG01X: 808 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_16: 809 return CTI_PORT_TYPE_RS232_422_485_HW; 810 default: 811 dev_err(&pcidev->dev, "unknown/unsupported device\n"); 812 return CTI_PORT_TYPE_NONE; 813 } 814 } 815 816 /** 817 * cti_get_port_type_xr17v35x() - Read port type from the EEPROM 818 * @priv: Device's private structure 819 * @pcidev: Pointer to the PCI device for this port 820 * @port_num: port offset 821 * 822 * CTI XR17V35X based cards have the port types stored in the EEPROM. 823 * This function reads the port type for a single port. 824 * 825 * Return: port type on success, CTI_PORT_TYPE_NONE on failure 826 */ 827 static enum cti_port_type cti_get_port_type_xr17v35x(struct exar8250 *priv, 828 struct pci_dev *pcidev, 829 unsigned int port_num) 830 { 831 enum cti_port_type port_type; 832 u16 port_flags; 833 u8 offset; 834 835 offset = CTI_EE_OFF_XR17V35X_PORT_FLAGS + port_num; 836 port_flags = exar_ee_read(priv, offset); 837 838 port_type = FIELD_GET(CTI_EE_MASK_PORT_FLAGS_TYPE, port_flags); 839 if (CTI_PORT_TYPE_VALID(port_type)) 840 return port_type; 841 842 /* 843 * If the port type is missing the card assume it is a 844 * RS232/RS422/RS485 card to be safe. 845 * 846 * There is one known board (BEG013) that only has 3 of 4 port types 847 * written to the EEPROM so this acts as a work around. 848 */ 849 dev_warn(&pcidev->dev, "failed to get port %d type from EEPROM\n", port_num); 850 851 return CTI_PORT_TYPE_RS232_422_485_HW; 852 } 853 854 static int cti_rs485_config_mpio_tristate(struct uart_port *port, 855 struct ktermios *termios, 856 struct serial_rs485 *rs485) 857 { 858 struct exar8250 *priv = (struct exar8250 *)port->private_data; 859 int ret; 860 861 ret = generic_rs485_config(port, termios, rs485); 862 if (ret) 863 return ret; 864 865 // Disable power-on RS485 tri-state via MPIO 866 return cti_tristate_disable(priv, port->port_id); 867 } 868 869 static void cti_board_init_osc_freq(struct exar8250 *priv, struct pci_dev *pcidev, u8 eeprom_offset) 870 { 871 int osc_freq; 872 873 osc_freq = cti_read_osc_freq(priv, eeprom_offset); 874 if (osc_freq <= 0) { 875 dev_warn(&pcidev->dev, "failed to read OSC freq from EEPROM, using default\n"); 876 osc_freq = CTI_DEFAULT_PCI_OSC_FREQ; 877 } 878 879 priv->osc_freq = osc_freq; 880 } 881 882 static int cti_port_setup_common(struct exar8250 *priv, 883 struct pci_dev *pcidev, 884 int idx, unsigned int offset, 885 struct uart_8250_port *port) 886 { 887 int ret; 888 889 port->port.port_id = idx; 890 port->port.uartclk = priv->osc_freq; 891 892 ret = serial8250_pci_setup_port(pcidev, port, 0, offset, 0); 893 if (ret) 894 return ret; 895 896 port->port.private_data = (void *)priv; 897 port->port.pm = exar_pm; 898 port->port.shutdown = exar_shutdown; 899 900 return 0; 901 } 902 903 static int cti_board_init_fpga(struct exar8250 *priv, struct pci_dev *pcidev) 904 { 905 int ret; 906 u16 cfg_val; 907 908 // FPGA OSC is fixed to the 33MHz PCI clock 909 priv->osc_freq = CTI_DEFAULT_FPGA_OSC_FREQ; 910 911 // Enable external interrupts in special cfg space register 912 ret = pci_read_config_word(pcidev, CTI_FPGA_CFG_INT_EN_REG, &cfg_val); 913 if (ret) 914 return pcibios_err_to_errno(ret); 915 916 cfg_val |= CTI_FPGA_CFG_INT_EN_EXT_BIT; 917 ret = pci_write_config_word(pcidev, CTI_FPGA_CFG_INT_EN_REG, cfg_val); 918 if (ret) 919 return pcibios_err_to_errno(ret); 920 921 // RS485 gate needs to be enabled; otherwise RTS/CTS will not work 922 exar_write_reg(priv, CTI_FPGA_RS485_IO_REG, 0x01); 923 924 return 0; 925 } 926 927 static int cti_port_setup_fpga(struct exar8250 *priv, 928 struct pci_dev *pcidev, 929 struct uart_8250_port *port, 930 int idx) 931 { 932 enum cti_port_type port_type; 933 unsigned int offset; 934 int ret; 935 936 if (idx == 0) { 937 ret = cti_board_init_fpga(priv, pcidev); 938 if (ret) 939 return ret; 940 } 941 942 port_type = cti_get_port_type_fpga(priv, pcidev, idx); 943 944 // FPGA shares port offsets with XR17C15X 945 offset = idx * UART_EXAR_XR17C15X_PORT_OFFSET; 946 port->port.type = PORT_XR17D15X; 947 948 port->port.get_divisor = xr17v35x_get_divisor; 949 port->port.set_divisor = xr17v35x_set_divisor; 950 port->port.startup = xr17v35x_startup; 951 952 if (CTI_PORT_TYPE_RS485(port_type)) { 953 port->port.rs485_config = generic_rs485_config; 954 port->port.rs485_supported = generic_rs485_supported; 955 } 956 957 return cti_port_setup_common(priv, pcidev, idx, offset, port); 958 } 959 960 static void cti_board_init_xr17v35x(struct exar8250 *priv, struct pci_dev *pcidev) 961 { 962 // XR17V35X uses the PCIe clock rather than an oscillator 963 priv->osc_freq = CTI_DEFAULT_PCIE_OSC_FREQ; 964 } 965 966 static int cti_port_setup_xr17v35x(struct exar8250 *priv, 967 struct pci_dev *pcidev, 968 struct uart_8250_port *port, 969 int idx) 970 { 971 enum cti_port_type port_type; 972 unsigned int offset; 973 int ret; 974 975 if (idx == 0) 976 cti_board_init_xr17v35x(priv, pcidev); 977 978 port_type = cti_get_port_type_xr17v35x(priv, pcidev, idx); 979 980 offset = idx * UART_EXAR_XR17V35X_PORT_OFFSET; 981 port->port.type = PORT_XR17V35X; 982 983 port->port.get_divisor = xr17v35x_get_divisor; 984 port->port.set_divisor = xr17v35x_set_divisor; 985 port->port.startup = xr17v35x_startup; 986 987 switch (port_type) { 988 case CTI_PORT_TYPE_RS422_485: 989 case CTI_PORT_TYPE_RS232_422_485_HW: 990 port->port.rs485_config = cti_rs485_config_mpio_tristate; 991 port->port.rs485_supported = generic_rs485_supported; 992 break; 993 case CTI_PORT_TYPE_RS232_422_485_SW: 994 case CTI_PORT_TYPE_RS232_422_485_4B: 995 case CTI_PORT_TYPE_RS232_422_485_2B: 996 port->port.rs485_config = generic_rs485_config; 997 port->port.rs485_supported = generic_rs485_supported; 998 break; 999 default: 1000 break; 1001 } 1002 1003 ret = cti_port_setup_common(priv, pcidev, idx, offset, port); 1004 if (ret) 1005 return ret; 1006 1007 exar_write_reg(priv, (offset + UART_EXAR_8XMODE), 0x00); 1008 exar_write_reg(priv, (offset + UART_EXAR_FCTR), UART_FCTR_EXAR_TRGD); 1009 exar_write_reg(priv, (offset + UART_EXAR_TXTRG), 128); 1010 exar_write_reg(priv, (offset + UART_EXAR_RXTRG), 128); 1011 1012 return 0; 1013 } 1014 1015 static void cti_board_init_xr17v25x(struct exar8250 *priv, struct pci_dev *pcidev) 1016 { 1017 cti_board_init_osc_freq(priv, pcidev, CTI_EE_OFF_XR17V25X_OSC_FREQ); 1018 1019 /* enable interrupts on cards that need the "PLX fix" */ 1020 switch (pcidev->subsystem_device) { 1021 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS: 1022 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_A: 1023 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_16_XPRS_B: 1024 cti_plx_int_enable(priv); 1025 break; 1026 default: 1027 break; 1028 } 1029 } 1030 1031 static int cti_port_setup_xr17v25x(struct exar8250 *priv, 1032 struct pci_dev *pcidev, 1033 struct uart_8250_port *port, 1034 int idx) 1035 { 1036 enum cti_port_type port_type; 1037 unsigned int offset; 1038 int ret; 1039 1040 if (idx == 0) 1041 cti_board_init_xr17v25x(priv, pcidev); 1042 1043 port_type = cti_get_port_type_xr17c15x_xr17v25x(priv, pcidev, idx); 1044 1045 offset = idx * UART_EXAR_XR17V25X_PORT_OFFSET; 1046 port->port.type = PORT_XR17D15X; 1047 1048 // XR17V25X supports fractional baudrates 1049 port->port.get_divisor = xr17v35x_get_divisor; 1050 port->port.set_divisor = xr17v35x_set_divisor; 1051 port->port.startup = xr17v35x_startup; 1052 1053 if (CTI_PORT_TYPE_RS485(port_type)) { 1054 switch (pcidev->subsystem_device) { 1055 // These cards support power on 485 tri-state via MPIO 1056 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP: 1057 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_485: 1058 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_SP: 1059 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_6_2_SP: 1060 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_6_SP: 1061 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_LEFT: 1062 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_RIGHT: 1063 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XP_OPTO: 1064 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_XPRS_OPTO: 1065 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP: 1066 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_485: 1067 port->port.rs485_config = cti_rs485_config_mpio_tristate; 1068 break; 1069 // Otherwise auto or no power on 485 tri-state support 1070 default: 1071 port->port.rs485_config = generic_rs485_config; 1072 break; 1073 } 1074 1075 port->port.rs485_supported = generic_rs485_supported; 1076 } 1077 1078 ret = cti_port_setup_common(priv, pcidev, idx, offset, port); 1079 if (ret) 1080 return ret; 1081 1082 exar_write_reg(priv, (offset + UART_EXAR_8XMODE), 0x00); 1083 exar_write_reg(priv, (offset + UART_EXAR_FCTR), UART_FCTR_EXAR_TRGD); 1084 exar_write_reg(priv, (offset + UART_EXAR_TXTRG), 32); 1085 exar_write_reg(priv, (offset + UART_EXAR_RXTRG), 32); 1086 1087 return 0; 1088 } 1089 1090 static void cti_board_init_xr17c15x(struct exar8250 *priv, struct pci_dev *pcidev) 1091 { 1092 cti_board_init_osc_freq(priv, pcidev, CTI_EE_OFF_XR17C15X_OSC_FREQ); 1093 1094 /* enable interrupts on cards that need the "PLX fix" */ 1095 switch (pcidev->subsystem_device) { 1096 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS: 1097 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_A: 1098 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_B: 1099 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XPRS_OPTO: 1100 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_A: 1101 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XPRS_OPTO_B: 1102 cti_plx_int_enable(priv); 1103 break; 1104 default: 1105 break; 1106 } 1107 } 1108 1109 static int cti_port_setup_xr17c15x(struct exar8250 *priv, 1110 struct pci_dev *pcidev, 1111 struct uart_8250_port *port, 1112 int idx) 1113 { 1114 enum cti_port_type port_type; 1115 unsigned int offset; 1116 1117 if (idx == 0) 1118 cti_board_init_xr17c15x(priv, pcidev); 1119 1120 port_type = cti_get_port_type_xr17c15x_xr17v25x(priv, pcidev, idx); 1121 1122 offset = idx * UART_EXAR_XR17C15X_PORT_OFFSET; 1123 port->port.type = PORT_XR17D15X; 1124 1125 if (CTI_PORT_TYPE_RS485(port_type)) { 1126 switch (pcidev->subsystem_device) { 1127 // These cards support power on 485 tri-state via MPIO 1128 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP: 1129 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_SP_485: 1130 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_SP: 1131 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_6_2_SP: 1132 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_6_SP: 1133 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_LEFT: 1134 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_2_XP_OPTO_RIGHT: 1135 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_XP_OPTO: 1136 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_4_4_XPRS_OPTO: 1137 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP: 1138 case PCI_SUBDEVICE_ID_CONNECT_TECH_PCI_UART_8_XPRS_LP_485: 1139 port->port.rs485_config = cti_rs485_config_mpio_tristate; 1140 break; 1141 // Otherwise auto or no power on 485 tri-state support 1142 default: 1143 port->port.rs485_config = generic_rs485_config; 1144 break; 1145 } 1146 1147 port->port.rs485_supported = generic_rs485_supported; 1148 } 1149 1150 return cti_port_setup_common(priv, pcidev, idx, offset, port); 1151 } 1152 1153 static int 1154 pci_xr17c154_setup(struct exar8250 *priv, struct pci_dev *pcidev, 1155 struct uart_8250_port *port, int idx) 1156 { 1157 unsigned int offset = idx * 0x200; 1158 unsigned int baud = 921600; 1159 1160 port->port.uartclk = baud * 16; 1161 return default_setup(priv, pcidev, idx, offset, port); 1162 } 1163 1164 static void setup_gpio(struct pci_dev *pcidev, u8 __iomem *p) 1165 { 1166 /* 1167 * The Commtech adapters required the MPIOs to be driven low. The Exar 1168 * devices will export them as GPIOs, so we pre-configure them safely 1169 * as inputs. 1170 */ 1171 u8 dir = 0x00; 1172 1173 if ((pcidev->vendor == PCI_VENDOR_ID_EXAR) && 1174 (pcidev->subsystem_vendor != PCI_VENDOR_ID_SEALEVEL)) { 1175 // Configure GPIO as inputs for Commtech adapters 1176 dir = 0xff; 1177 } else { 1178 // Configure GPIO as outputs for SeaLevel adapters 1179 dir = 0x00; 1180 } 1181 1182 writeb(0x00, p + UART_EXAR_MPIOINT_7_0); 1183 writeb(0x00, p + UART_EXAR_MPIOLVL_7_0); 1184 writeb(0x00, p + UART_EXAR_MPIO3T_7_0); 1185 writeb(0x00, p + UART_EXAR_MPIOINV_7_0); 1186 writeb(dir, p + UART_EXAR_MPIOSEL_7_0); 1187 writeb(0x00, p + UART_EXAR_MPIOOD_7_0); 1188 writeb(0x00, p + UART_EXAR_MPIOINT_15_8); 1189 writeb(0x00, p + UART_EXAR_MPIOLVL_15_8); 1190 writeb(0x00, p + UART_EXAR_MPIO3T_15_8); 1191 writeb(0x00, p + UART_EXAR_MPIOINV_15_8); 1192 writeb(dir, p + UART_EXAR_MPIOSEL_15_8); 1193 writeb(0x00, p + UART_EXAR_MPIOOD_15_8); 1194 } 1195 1196 static struct platform_device *__xr17v35x_register_gpio(struct pci_dev *pcidev, 1197 const struct software_node *node) 1198 { 1199 struct platform_device *pdev; 1200 1201 pdev = platform_device_alloc("gpio_exar", PLATFORM_DEVID_AUTO); 1202 if (!pdev) 1203 return NULL; 1204 1205 pdev->dev.parent = &pcidev->dev; 1206 device_set_node(&pdev->dev, dev_fwnode(&pcidev->dev)); 1207 1208 if (device_add_software_node(&pdev->dev, node) < 0 || 1209 platform_device_add(pdev) < 0) { 1210 platform_device_put(pdev); 1211 return NULL; 1212 } 1213 1214 return pdev; 1215 } 1216 1217 static void __xr17v35x_unregister_gpio(struct platform_device *pdev) 1218 { 1219 device_remove_software_node(&pdev->dev); 1220 platform_device_unregister(pdev); 1221 } 1222 1223 static const struct property_entry exar_gpio_properties[] = { 1224 PROPERTY_ENTRY_U32("exar,first-pin", 0), 1225 PROPERTY_ENTRY_U32("ngpios", 16), 1226 { } 1227 }; 1228 1229 static const struct software_node exar_gpio_node = { 1230 .properties = exar_gpio_properties, 1231 }; 1232 1233 static int xr17v35x_register_gpio(struct pci_dev *pcidev, struct uart_8250_port *port) 1234 { 1235 if (pcidev->vendor == PCI_VENDOR_ID_EXAR) 1236 port->port.private_data = 1237 __xr17v35x_register_gpio(pcidev, &exar_gpio_node); 1238 1239 return 0; 1240 } 1241 1242 static void xr17v35x_unregister_gpio(struct uart_8250_port *port) 1243 { 1244 if (!port->port.private_data) 1245 return; 1246 1247 __xr17v35x_unregister_gpio(port->port.private_data); 1248 port->port.private_data = NULL; 1249 } 1250 1251 static int sealevel_rs485_config(struct uart_port *port, struct ktermios *termios, 1252 struct serial_rs485 *rs485) 1253 { 1254 u8 __iomem *p = port->membase; 1255 u8 old_lcr; 1256 u8 efr; 1257 u8 dld; 1258 int ret; 1259 1260 ret = generic_rs485_config(port, termios, rs485); 1261 if (ret) 1262 return ret; 1263 1264 if (!(rs485->flags & SER_RS485_ENABLED)) 1265 return 0; 1266 1267 old_lcr = readb(p + UART_LCR); 1268 1269 /* Set EFR[4]=1 to enable enhanced feature registers */ 1270 efr = readb(p + UART_XR_EFR); 1271 efr |= UART_EFR_ECB; 1272 writeb(efr, p + UART_XR_EFR); 1273 1274 /* Set MCR to use DTR as Auto-RS485 Enable signal */ 1275 writeb(UART_MCR_OUT1, p + UART_MCR); 1276 1277 /* Set LCR[7]=1 to enable access to DLD register */ 1278 writeb(old_lcr | UART_LCR_DLAB, p + UART_LCR); 1279 1280 /* Set DLD[7]=1 for inverted RS485 Enable logic */ 1281 dld = readb(p + UART_EXAR_DLD); 1282 dld |= UART_EXAR_DLD_485_POLARITY; 1283 writeb(dld, p + UART_EXAR_DLD); 1284 1285 writeb(old_lcr, p + UART_LCR); 1286 1287 return 0; 1288 } 1289 1290 static const struct exar8250_platform exar8250_default_platform = { 1291 .register_gpio = xr17v35x_register_gpio, 1292 .unregister_gpio = xr17v35x_unregister_gpio, 1293 .rs485_config = generic_rs485_config, 1294 .rs485_supported = &generic_rs485_supported, 1295 }; 1296 1297 static int iot2040_rs485_config(struct uart_port *port, struct ktermios *termios, 1298 struct serial_rs485 *rs485) 1299 { 1300 bool is_rs485 = !!(rs485->flags & SER_RS485_ENABLED); 1301 u8 __iomem *p = port->membase; 1302 u8 mask = IOT2040_UART1_MASK; 1303 u8 mode, value; 1304 1305 if (is_rs485) { 1306 if (rs485->flags & SER_RS485_RX_DURING_TX) 1307 mode = IOT2040_UART_MODE_RS422; 1308 else 1309 mode = IOT2040_UART_MODE_RS485; 1310 1311 if (rs485->flags & SER_RS485_TERMINATE_BUS) 1312 mode |= IOT2040_UART_TERMINATE_BUS; 1313 } else { 1314 mode = IOT2040_UART_MODE_RS232; 1315 } 1316 1317 if (port->line == 3) { 1318 mask <<= IOT2040_UART2_SHIFT; 1319 mode <<= IOT2040_UART2_SHIFT; 1320 } 1321 1322 value = readb(p + UART_EXAR_MPIOLVL_7_0); 1323 value &= ~mask; 1324 value |= mode; 1325 writeb(value, p + UART_EXAR_MPIOLVL_7_0); 1326 1327 return generic_rs485_config(port, termios, rs485); 1328 } 1329 1330 static const struct serial_rs485 iot2040_rs485_supported = { 1331 .flags = SER_RS485_ENABLED | SER_RS485_RTS_ON_SEND | 1332 SER_RS485_RX_DURING_TX | SER_RS485_TERMINATE_BUS, 1333 }; 1334 1335 static const struct property_entry iot2040_gpio_properties[] = { 1336 PROPERTY_ENTRY_U32("exar,first-pin", 10), 1337 PROPERTY_ENTRY_U32("ngpios", 1), 1338 { } 1339 }; 1340 1341 static const struct software_node iot2040_gpio_node = { 1342 .properties = iot2040_gpio_properties, 1343 }; 1344 1345 static int iot2040_register_gpio(struct pci_dev *pcidev, 1346 struct uart_8250_port *port) 1347 { 1348 u8 __iomem *p = port->port.membase; 1349 1350 writeb(IOT2040_UARTS_DEFAULT_MODE, p + UART_EXAR_MPIOLVL_7_0); 1351 writeb(IOT2040_UARTS_GPIO_LO_MODE, p + UART_EXAR_MPIOSEL_7_0); 1352 writeb(IOT2040_UARTS_ENABLE, p + UART_EXAR_MPIOLVL_15_8); 1353 writeb(IOT2040_UARTS_GPIO_HI_MODE, p + UART_EXAR_MPIOSEL_15_8); 1354 1355 port->port.private_data = 1356 __xr17v35x_register_gpio(pcidev, &iot2040_gpio_node); 1357 1358 return 0; 1359 } 1360 1361 static const struct exar8250_platform iot2040_platform = { 1362 .rs485_config = iot2040_rs485_config, 1363 .rs485_supported = &iot2040_rs485_supported, 1364 .register_gpio = iot2040_register_gpio, 1365 .unregister_gpio = xr17v35x_unregister_gpio, 1366 }; 1367 1368 /* 1369 * For SIMATIC IOT2000, only IOT2040 and its variants have the Exar device, 1370 * IOT2020 doesn't have. Therefore it is sufficient to match on the common 1371 * board name after the device was found. 1372 */ 1373 static const struct dmi_system_id exar_platforms[] = { 1374 { 1375 .matches = { 1376 DMI_EXACT_MATCH(DMI_BOARD_NAME, "SIMATIC IOT2000"), 1377 }, 1378 .driver_data = (void *)&iot2040_platform, 1379 }, 1380 {} 1381 }; 1382 1383 static const struct exar8250_platform *exar_get_platform(void) 1384 { 1385 const struct dmi_system_id *dmi_match; 1386 1387 dmi_match = dmi_first_match(exar_platforms); 1388 if (dmi_match) 1389 return dmi_match->driver_data; 1390 1391 return &exar8250_default_platform; 1392 } 1393 1394 static int 1395 pci_xr17v35x_setup(struct exar8250 *priv, struct pci_dev *pcidev, 1396 struct uart_8250_port *port, int idx) 1397 { 1398 const struct exar8250_platform *platform = exar_get_platform(); 1399 unsigned int offset = idx * 0x400; 1400 unsigned int baud = 7812500; 1401 u8 __iomem *p; 1402 int ret; 1403 1404 port->port.uartclk = baud * 16; 1405 port->port.rs485_config = platform->rs485_config; 1406 port->port.rs485_supported = *(platform->rs485_supported); 1407 1408 if (pcidev->subsystem_vendor == PCI_VENDOR_ID_SEALEVEL) 1409 port->port.rs485_config = sealevel_rs485_config; 1410 1411 /* 1412 * Setup the UART clock for the devices on expansion slot to 1413 * half the clock speed of the main chip (which is 125MHz) 1414 */ 1415 if (idx >= 8) 1416 port->port.uartclk /= 2; 1417 1418 ret = default_setup(priv, pcidev, idx, offset, port); 1419 if (ret) 1420 return ret; 1421 1422 p = port->port.membase; 1423 1424 writeb(0x00, p + UART_EXAR_8XMODE); 1425 writeb(UART_FCTR_EXAR_TRGD, p + UART_EXAR_FCTR); 1426 writeb(128, p + UART_EXAR_TXTRG); 1427 writeb(128, p + UART_EXAR_RXTRG); 1428 1429 if (idx == 0) { 1430 /* Setup Multipurpose Input/Output pins. */ 1431 setup_gpio(pcidev, p); 1432 1433 ret = platform->register_gpio(pcidev, port); 1434 } 1435 1436 return ret; 1437 } 1438 1439 static void pci_xr17v35x_exit(struct pci_dev *pcidev) 1440 { 1441 const struct exar8250_platform *platform = exar_get_platform(); 1442 struct exar8250 *priv = pci_get_drvdata(pcidev); 1443 struct uart_8250_port *port = serial8250_get_port(priv->line[0]); 1444 1445 platform->unregister_gpio(port); 1446 } 1447 1448 static inline void exar_misc_clear(struct exar8250 *priv) 1449 { 1450 /* Clear all PCI interrupts by reading INT0. No effect on IIR */ 1451 readb(priv->virt + UART_EXAR_INT0); 1452 1453 /* Clear INT0 for Expansion Interface slave ports, too */ 1454 if (priv->board->num_ports > 8) 1455 readb(priv->virt + 0x2000 + UART_EXAR_INT0); 1456 } 1457 1458 /* 1459 * These Exar UARTs have an extra interrupt indicator that could fire for a 1460 * few interrupts that are not presented/cleared through IIR. One of which is 1461 * a wakeup interrupt when coming out of sleep. These interrupts are only 1462 * cleared by reading global INT0 or INT1 registers as interrupts are 1463 * associated with channel 0. The INT[3:0] registers _are_ accessible from each 1464 * channel's address space, but for the sake of bus efficiency we register a 1465 * dedicated handler at the PCI device level to handle them. 1466 */ 1467 static irqreturn_t exar_misc_handler(int irq, void *data) 1468 { 1469 exar_misc_clear(data); 1470 1471 return IRQ_HANDLED; 1472 } 1473 1474 static unsigned int exar_get_nr_ports(struct exar8250_board *board, struct pci_dev *pcidev) 1475 { 1476 if (pcidev->vendor == PCI_VENDOR_ID_ACCESSIO) 1477 return BIT(((pcidev->device & 0x38) >> 3) - 1); 1478 1479 // Check if board struct overrides number of ports 1480 if (board->num_ports > 0) 1481 return board->num_ports; 1482 1483 // Exar encodes # ports in last nibble of PCI Device ID ex. 0358 1484 if (pcidev->vendor == PCI_VENDOR_ID_EXAR) 1485 return pcidev->device & 0x0f; 1486 1487 // Handle CTI FPGA cards 1488 if (pcidev->vendor == PCI_VENDOR_ID_CONNECT_TECH) { 1489 switch (pcidev->device) { 1490 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG00X: 1491 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_12_XIG01X: 1492 return 12; 1493 case PCI_DEVICE_ID_CONNECT_TECH_PCI_XR79X_16: 1494 return 16; 1495 default: 1496 return 0; 1497 } 1498 } 1499 1500 return 0; 1501 } 1502 1503 static int 1504 exar_pci_probe(struct pci_dev *pcidev, const struct pci_device_id *ent) 1505 { 1506 unsigned int nr_ports, i, bar = 0, maxnr; 1507 struct exar8250_board *board; 1508 struct uart_8250_port uart; 1509 struct exar8250 *priv; 1510 int rc; 1511 1512 board = (struct exar8250_board *)ent->driver_data; 1513 if (!board) 1514 return -EINVAL; 1515 1516 rc = pcim_enable_device(pcidev); 1517 if (rc) 1518 return rc; 1519 1520 maxnr = pci_resource_len(pcidev, bar) >> (board->reg_shift + 3); 1521 1522 nr_ports = exar_get_nr_ports(board, pcidev); 1523 if (nr_ports == 0) 1524 return dev_err_probe(&pcidev->dev, -ENODEV, "failed to get number of ports\n"); 1525 1526 priv = devm_kzalloc(&pcidev->dev, struct_size(priv, line, nr_ports), GFP_KERNEL); 1527 if (!priv) 1528 return -ENOMEM; 1529 1530 priv->board = board; 1531 priv->virt = pcim_iomap(pcidev, bar, 0); 1532 if (!priv->virt) 1533 return -ENOMEM; 1534 1535 pci_set_master(pcidev); 1536 1537 rc = pci_alloc_irq_vectors(pcidev, 1, 1, PCI_IRQ_ALL_TYPES); 1538 if (rc < 0) 1539 return rc; 1540 1541 memset(&uart, 0, sizeof(uart)); 1542 uart.port.flags = UPF_SHARE_IRQ | UPF_EXAR_EFR | UPF_FIXED_TYPE | UPF_FIXED_PORT; 1543 uart.port.irq = pci_irq_vector(pcidev, 0); 1544 uart.port.dev = &pcidev->dev; 1545 1546 /* Clear interrupts */ 1547 exar_misc_clear(priv); 1548 1549 rc = devm_request_irq(&pcidev->dev, uart.port.irq, exar_misc_handler, 1550 IRQF_SHARED, "exar_uart", priv); 1551 if (rc) 1552 return rc; 1553 1554 for (i = 0; i < nr_ports && i < maxnr; i++) { 1555 rc = board->setup(priv, pcidev, &uart, i); 1556 if (rc) { 1557 dev_err_probe(&pcidev->dev, rc, "Failed to setup port %u\n", i); 1558 break; 1559 } 1560 1561 dev_dbg(&pcidev->dev, "Setup PCI port: port %lx, irq %d, type %d\n", 1562 uart.port.iobase, uart.port.irq, uart.port.iotype); 1563 1564 priv->line[i] = serial8250_register_8250_port(&uart); 1565 if (priv->line[i] < 0) { 1566 dev_err_probe(&pcidev->dev, priv->line[i], 1567 "Couldn't register serial port %lx, type %d, irq %d\n", 1568 uart.port.iobase, uart.port.iotype, uart.port.irq); 1569 break; 1570 } 1571 } 1572 priv->nr = i; 1573 pci_set_drvdata(pcidev, priv); 1574 return 0; 1575 } 1576 1577 static void exar_pci_remove(struct pci_dev *pcidev) 1578 { 1579 struct exar8250 *priv = pci_get_drvdata(pcidev); 1580 unsigned int i; 1581 1582 for (i = 0; i < priv->nr; i++) 1583 serial8250_unregister_port(priv->line[i]); 1584 1585 /* Ensure that every init quirk is properly torn down */ 1586 if (priv->board->exit) 1587 priv->board->exit(pcidev); 1588 } 1589 1590 static int exar_suspend(struct device *dev) 1591 { 1592 struct exar8250 *priv = dev_get_drvdata(dev); 1593 unsigned int i; 1594 1595 for (i = 0; i < priv->nr; i++) 1596 if (priv->line[i] >= 0) 1597 serial8250_suspend_port(priv->line[i]); 1598 1599 return 0; 1600 } 1601 1602 static int exar_resume(struct device *dev) 1603 { 1604 struct exar8250 *priv = dev_get_drvdata(dev); 1605 unsigned int i; 1606 1607 exar_misc_clear(priv); 1608 1609 for (i = 0; i < priv->nr; i++) 1610 if (priv->line[i] >= 0) 1611 serial8250_resume_port(priv->line[i]); 1612 1613 return 0; 1614 } 1615 1616 static DEFINE_SIMPLE_DEV_PM_OPS(exar_pci_pm, exar_suspend, exar_resume); 1617 1618 static const struct exar8250_board pbn_fastcom335_2 = { 1619 .num_ports = 2, 1620 .setup = pci_fastcom335_setup, 1621 }; 1622 1623 static const struct exar8250_board pbn_fastcom335_4 = { 1624 .num_ports = 4, 1625 .setup = pci_fastcom335_setup, 1626 }; 1627 1628 static const struct exar8250_board pbn_fastcom335_8 = { 1629 .num_ports = 8, 1630 .setup = pci_fastcom335_setup, 1631 }; 1632 1633 static const struct exar8250_board pbn_cti_xr17c15x = { 1634 .setup = cti_port_setup_xr17c15x, 1635 }; 1636 1637 static const struct exar8250_board pbn_cti_xr17v25x = { 1638 .setup = cti_port_setup_xr17v25x, 1639 }; 1640 1641 static const struct exar8250_board pbn_cti_xr17v35x = { 1642 .setup = cti_port_setup_xr17v35x, 1643 }; 1644 1645 static const struct exar8250_board pbn_cti_fpga = { 1646 .setup = cti_port_setup_fpga, 1647 }; 1648 1649 static const struct exar8250_board pbn_exar_ibm_saturn = { 1650 .num_ports = 1, 1651 .setup = pci_xr17c154_setup, 1652 }; 1653 1654 static const struct exar8250_board pbn_exar_XR17C15x = { 1655 .setup = pci_xr17c154_setup, 1656 }; 1657 1658 static const struct exar8250_board pbn_exar_XR17V35x = { 1659 .setup = pci_xr17v35x_setup, 1660 .exit = pci_xr17v35x_exit, 1661 }; 1662 1663 static const struct exar8250_board pbn_fastcom35x_2 = { 1664 .num_ports = 2, 1665 .setup = pci_xr17v35x_setup, 1666 .exit = pci_xr17v35x_exit, 1667 }; 1668 1669 static const struct exar8250_board pbn_fastcom35x_4 = { 1670 .num_ports = 4, 1671 .setup = pci_xr17v35x_setup, 1672 .exit = pci_xr17v35x_exit, 1673 }; 1674 1675 static const struct exar8250_board pbn_fastcom35x_8 = { 1676 .num_ports = 8, 1677 .setup = pci_xr17v35x_setup, 1678 .exit = pci_xr17v35x_exit, 1679 }; 1680 1681 static const struct exar8250_board pbn_exar_XR17V4358 = { 1682 .num_ports = 12, 1683 .setup = pci_xr17v35x_setup, 1684 .exit = pci_xr17v35x_exit, 1685 }; 1686 1687 static const struct exar8250_board pbn_exar_XR17V8358 = { 1688 .num_ports = 16, 1689 .setup = pci_xr17v35x_setup, 1690 .exit = pci_xr17v35x_exit, 1691 }; 1692 1693 #define CTI_EXAR_DEVICE(devid, bd) { \ 1694 PCI_DEVICE_SUB( \ 1695 PCI_VENDOR_ID_EXAR, \ 1696 PCI_DEVICE_ID_EXAR_##devid, \ 1697 PCI_SUBVENDOR_ID_CONNECT_TECH, \ 1698 PCI_ANY_ID), 0, 0, \ 1699 (kernel_ulong_t)&bd \ 1700 } 1701 1702 #define EXAR_DEVICE(vend, devid, bd) { PCI_DEVICE_DATA(vend, devid, &bd) } 1703 1704 #define IBM_DEVICE(devid, sdevid, bd) { \ 1705 PCI_DEVICE_SUB( \ 1706 PCI_VENDOR_ID_EXAR, \ 1707 PCI_DEVICE_ID_EXAR_##devid, \ 1708 PCI_SUBVENDOR_ID_IBM, \ 1709 PCI_SUBDEVICE_ID_IBM_##sdevid), 0, 0, \ 1710 (kernel_ulong_t)&bd \ 1711 } 1712 1713 #define USR_DEVICE(devid, sdevid, bd) { \ 1714 PCI_DEVICE_SUB( \ 1715 PCI_VENDOR_ID_USR, \ 1716 PCI_DEVICE_ID_EXAR_##devid, \ 1717 PCI_VENDOR_ID_EXAR, \ 1718 PCI_SUBDEVICE_ID_USR_##sdevid), 0, 0, \ 1719 (kernel_ulong_t)&bd \ 1720 } 1721 1722 static const struct pci_device_id exar_pci_tbl[] = { 1723 EXAR_DEVICE(ACCESSIO, COM_2S, pbn_exar_XR17C15x), 1724 EXAR_DEVICE(ACCESSIO, COM_4S, pbn_exar_XR17C15x), 1725 EXAR_DEVICE(ACCESSIO, COM_8S, pbn_exar_XR17C15x), 1726 EXAR_DEVICE(ACCESSIO, COM232_8, pbn_exar_XR17C15x), 1727 EXAR_DEVICE(ACCESSIO, COM_2SM, pbn_exar_XR17C15x), 1728 EXAR_DEVICE(ACCESSIO, COM_4SM, pbn_exar_XR17C15x), 1729 EXAR_DEVICE(ACCESSIO, COM_8SM, pbn_exar_XR17C15x), 1730 1731 /* Connect Tech cards with Exar vendor/device PCI IDs */ 1732 CTI_EXAR_DEVICE(XR17C152, pbn_cti_xr17c15x), 1733 CTI_EXAR_DEVICE(XR17C154, pbn_cti_xr17c15x), 1734 CTI_EXAR_DEVICE(XR17C158, pbn_cti_xr17c15x), 1735 1736 CTI_EXAR_DEVICE(XR17V252, pbn_cti_xr17v25x), 1737 CTI_EXAR_DEVICE(XR17V254, pbn_cti_xr17v25x), 1738 CTI_EXAR_DEVICE(XR17V258, pbn_cti_xr17v25x), 1739 1740 CTI_EXAR_DEVICE(XR17V352, pbn_cti_xr17v35x), 1741 CTI_EXAR_DEVICE(XR17V354, pbn_cti_xr17v35x), 1742 CTI_EXAR_DEVICE(XR17V358, pbn_cti_xr17v35x), 1743 1744 /* Connect Tech cards with Connect Tech vendor/device PCI IDs (FPGA based) */ 1745 EXAR_DEVICE(CONNECT_TECH, PCI_XR79X_12_XIG00X, pbn_cti_fpga), 1746 EXAR_DEVICE(CONNECT_TECH, PCI_XR79X_12_XIG01X, pbn_cti_fpga), 1747 EXAR_DEVICE(CONNECT_TECH, PCI_XR79X_16, pbn_cti_fpga), 1748 1749 IBM_DEVICE(XR17C152, SATURN_SERIAL_ONE_PORT, pbn_exar_ibm_saturn), 1750 1751 /* USRobotics USR298x-OEM PCI Modems */ 1752 USR_DEVICE(XR17C152, 2980, pbn_exar_XR17C15x), 1753 USR_DEVICE(XR17C152, 2981, pbn_exar_XR17C15x), 1754 1755 /* Exar Corp. XR17C15[248] Dual/Quad/Octal UART */ 1756 EXAR_DEVICE(EXAR, XR17C152, pbn_exar_XR17C15x), 1757 EXAR_DEVICE(EXAR, XR17C154, pbn_exar_XR17C15x), 1758 EXAR_DEVICE(EXAR, XR17C158, pbn_exar_XR17C15x), 1759 1760 /* Exar Corp. XR17V[48]35[248] Dual/Quad/Octal/Hexa PCIe UARTs */ 1761 EXAR_DEVICE(EXAR, XR17V352, pbn_exar_XR17V35x), 1762 EXAR_DEVICE(EXAR, XR17V354, pbn_exar_XR17V35x), 1763 EXAR_DEVICE(EXAR, XR17V358, pbn_exar_XR17V35x), 1764 EXAR_DEVICE(EXAR, XR17V4358, pbn_exar_XR17V4358), 1765 EXAR_DEVICE(EXAR, XR17V8358, pbn_exar_XR17V8358), 1766 EXAR_DEVICE(COMMTECH, 4222PCIE, pbn_fastcom35x_2), 1767 EXAR_DEVICE(COMMTECH, 4224PCIE, pbn_fastcom35x_4), 1768 EXAR_DEVICE(COMMTECH, 4228PCIE, pbn_fastcom35x_8), 1769 1770 EXAR_DEVICE(COMMTECH, 4222PCI335, pbn_fastcom335_2), 1771 EXAR_DEVICE(COMMTECH, 4224PCI335, pbn_fastcom335_4), 1772 EXAR_DEVICE(COMMTECH, 2324PCI335, pbn_fastcom335_4), 1773 EXAR_DEVICE(COMMTECH, 2328PCI335, pbn_fastcom335_8), 1774 { 0, } 1775 }; 1776 MODULE_DEVICE_TABLE(pci, exar_pci_tbl); 1777 1778 static struct pci_driver exar_pci_driver = { 1779 .name = "exar_serial", 1780 .probe = exar_pci_probe, 1781 .remove = exar_pci_remove, 1782 .driver = { 1783 .pm = pm_sleep_ptr(&exar_pci_pm), 1784 }, 1785 .id_table = exar_pci_tbl, 1786 }; 1787 module_pci_driver(exar_pci_driver); 1788 1789 MODULE_IMPORT_NS(SERIAL_8250_PCI); 1790 MODULE_LICENSE("GPL"); 1791 MODULE_DESCRIPTION("Exar Serial Driver"); 1792 MODULE_AUTHOR("Sudip Mukherjee <sudip.mukherjee@codethink.co.uk>"); 1793