| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Dave Penkler | 3029 | 99.47% | 1 | 25.00% |
| Arnd Bergmann | 16 | 0.53% | 3 | 75.00% |
| Total | 3045 | 4 |
// SPDX-License-Identifier: GPL-2.0 /*************************************************************************** * copyright : (C) 2001, 2002 by Frank Mori Hess ***************************************************************************/ #include <linux/ioport.h> #include <linux/sched.h> #include <linux/module.h> #include <linux/slab.h> #include <linux/bitops.h> #include <asm/dma.h> #include <linux/dma-mapping.h> #include <linux/string.h> #include <linux/init.h> #include "nec7210.h" #include "gpibP.h" // struct which defines private_data for pc2 driver struct pc2_priv { struct nec7210_priv nec7210_priv; unsigned int irq; // io address that clears interrupt for pc2a (0x2f0 + irq) unsigned int clear_intr_addr; }; // pc2 uses 8 consecutive io addresses static const int pc2_iosize = 8; static const int pc2a_iosize = 8; static const int pc2_2a_iosize = 16; // offset between io addresses of successive nec7210 registers static const int pc2a_reg_offset = 0x400; static const int pc2_reg_offset = 1; //interrupt service routine static irqreturn_t pc2_interrupt(int irq, void *arg); static irqreturn_t pc2a_interrupt(int irq, void *arg); // pc2 specific registers and bits // interrupt clear register address static const int pc2a_clear_intr_iobase = 0x2f0; static inline unsigned int CLEAR_INTR_REG(unsigned int irq) { return pc2a_clear_intr_iobase + irq; } MODULE_LICENSE("GPL"); MODULE_DESCRIPTION("GPIB driver for PC2/PC2a and compatible devices"); static int pc2_attach(gpib_board_t *board, const gpib_board_config_t *config); static int pc2a_attach(gpib_board_t *board, const gpib_board_config_t *config); static int pc2a_cb7210_attach(gpib_board_t *board, const gpib_board_config_t *config); static int pc2_2a_attach(gpib_board_t *board, const gpib_board_config_t *config); static void pc2_detach(gpib_board_t *board); static void pc2a_detach(gpib_board_t *board); static void pc2_2a_detach(gpib_board_t *board); /* * GPIB interrupt service routines */ irqreturn_t pc2_interrupt(int irq, void *arg) { gpib_board_t *board = arg; struct pc2_priv *priv = board->private_data; unsigned long flags; irqreturn_t retval; spin_lock_irqsave(&board->spinlock, flags); retval = nec7210_interrupt(board, &priv->nec7210_priv); spin_unlock_irqrestore(&board->spinlock, flags); return retval; } irqreturn_t pc2a_interrupt(int irq, void *arg) { gpib_board_t *board = arg; struct pc2_priv *priv = board->private_data; int status1, status2; unsigned long flags; irqreturn_t retval; spin_lock_irqsave(&board->spinlock, flags); // read interrupt status (also clears status) status1 = read_byte(&priv->nec7210_priv, ISR1); status2 = read_byte(&priv->nec7210_priv, ISR2); /* clear interrupt circuit */ if (priv->irq) outb(0xff, CLEAR_INTR_REG(priv->irq)); retval = nec7210_interrupt_have_status(board, &priv->nec7210_priv, status1, status2); spin_unlock_irqrestore(&board->spinlock, flags); return retval; } // wrappers for interface functions static int pc2_read(gpib_board_t *board, uint8_t *buffer, size_t length, int *end, size_t *bytes_read) { struct pc2_priv *priv = board->private_data; return nec7210_read(board, &priv->nec7210_priv, buffer, length, end, bytes_read); } static int pc2_write(gpib_board_t *board, uint8_t *buffer, size_t length, int send_eoi, size_t *bytes_written) { struct pc2_priv *priv = board->private_data; return nec7210_write(board, &priv->nec7210_priv, buffer, length, send_eoi, bytes_written); } static int pc2_command(gpib_board_t *board, uint8_t *buffer, size_t length, size_t *bytes_written) { struct pc2_priv *priv = board->private_data; return nec7210_command(board, &priv->nec7210_priv, buffer, length, bytes_written); } static int pc2_take_control(gpib_board_t *board, int synchronous) { struct pc2_priv *priv = board->private_data; return nec7210_take_control(board, &priv->nec7210_priv, synchronous); } static int pc2_go_to_standby(gpib_board_t *board) { struct pc2_priv *priv = board->private_data; return nec7210_go_to_standby(board, &priv->nec7210_priv); } static void pc2_request_system_control(gpib_board_t *board, int request_control) { struct pc2_priv *priv = board->private_data; nec7210_request_system_control(board, &priv->nec7210_priv, request_control); } static void pc2_interface_clear(gpib_board_t *board, int assert) { struct pc2_priv *priv = board->private_data; nec7210_interface_clear(board, &priv->nec7210_priv, assert); } static void pc2_remote_enable(gpib_board_t *board, int enable) { struct pc2_priv *priv = board->private_data; nec7210_remote_enable(board, &priv->nec7210_priv, enable); } static int pc2_enable_eos(gpib_board_t *board, uint8_t eos_byte, int compare_8_bits) { struct pc2_priv *priv = board->private_data; return nec7210_enable_eos(board, &priv->nec7210_priv, eos_byte, compare_8_bits); } static void pc2_disable_eos(gpib_board_t *board) { struct pc2_priv *priv = board->private_data; nec7210_disable_eos(board, &priv->nec7210_priv); } static unsigned int pc2_update_status(gpib_board_t *board, unsigned int clear_mask) { struct pc2_priv *priv = board->private_data; return nec7210_update_status(board, &priv->nec7210_priv, clear_mask); } static int pc2_primary_address(gpib_board_t *board, unsigned int address) { struct pc2_priv *priv = board->private_data; return nec7210_primary_address(board, &priv->nec7210_priv, address); } static int pc2_secondary_address(gpib_board_t *board, unsigned int address, int enable) { struct pc2_priv *priv = board->private_data; return nec7210_secondary_address(board, &priv->nec7210_priv, address, enable); } static int pc2_parallel_poll(gpib_board_t *board, uint8_t *result) { struct pc2_priv *priv = board->private_data; return nec7210_parallel_poll(board, &priv->nec7210_priv, result); } static void pc2_parallel_poll_configure(gpib_board_t *board, uint8_t config) { struct pc2_priv *priv = board->private_data; nec7210_parallel_poll_configure(board, &priv->nec7210_priv, config); } static void pc2_parallel_poll_response(gpib_board_t *board, int ist) { struct pc2_priv *priv = board->private_data; nec7210_parallel_poll_response(board, &priv->nec7210_priv, ist); } static void pc2_serial_poll_response(gpib_board_t *board, uint8_t status) { struct pc2_priv *priv = board->private_data; nec7210_serial_poll_response(board, &priv->nec7210_priv, status); } static uint8_t pc2_serial_poll_status(gpib_board_t *board) { struct pc2_priv *priv = board->private_data; return nec7210_serial_poll_status(board, &priv->nec7210_priv); } static unsigned int pc2_t1_delay(gpib_board_t *board, unsigned int nano_sec) { struct pc2_priv *priv = board->private_data; return nec7210_t1_delay(board, &priv->nec7210_priv, nano_sec); } static void pc2_return_to_local(gpib_board_t *board) { struct pc2_priv *priv = board->private_data; nec7210_return_to_local(board, &priv->nec7210_priv); } gpib_interface_t pc2_interface = { name: "pcII", attach : pc2_attach, detach : pc2_detach, read : pc2_read, write : pc2_write, command : pc2_command, take_control : pc2_take_control, go_to_standby : pc2_go_to_standby, request_system_control : pc2_request_system_control, interface_clear : pc2_interface_clear, remote_enable : pc2_remote_enable, enable_eos : pc2_enable_eos, disable_eos : pc2_disable_eos, parallel_poll : pc2_parallel_poll, parallel_poll_configure : pc2_parallel_poll_configure, parallel_poll_response : pc2_parallel_poll_response, local_parallel_poll_mode : NULL, // XXX line_status : NULL, update_status : pc2_update_status, primary_address : pc2_primary_address, secondary_address : pc2_secondary_address, serial_poll_response : pc2_serial_poll_response, serial_poll_status : pc2_serial_poll_status, t1_delay : pc2_t1_delay, return_to_local : pc2_return_to_local, }; gpib_interface_t pc2a_interface = { name: "pcIIa", attach : pc2a_attach, detach : pc2a_detach, read : pc2_read, write : pc2_write, command : pc2_command, take_control : pc2_take_control, go_to_standby : pc2_go_to_standby, request_system_control : pc2_request_system_control, interface_clear : pc2_interface_clear, remote_enable : pc2_remote_enable, enable_eos : pc2_enable_eos, disable_eos : pc2_disable_eos, parallel_poll : pc2_parallel_poll, parallel_poll_configure : pc2_parallel_poll_configure, parallel_poll_response : pc2_parallel_poll_response, local_parallel_poll_mode : NULL, // XXX line_status : NULL, update_status : pc2_update_status, primary_address : pc2_primary_address, secondary_address : pc2_secondary_address, serial_poll_response : pc2_serial_poll_response, serial_poll_status : pc2_serial_poll_status, t1_delay : pc2_t1_delay, return_to_local : pc2_return_to_local, }; gpib_interface_t pc2a_cb7210_interface = { name: "pcIIa_cb7210", attach : pc2a_cb7210_attach, detach : pc2a_detach, read : pc2_read, write : pc2_write, command : pc2_command, take_control : pc2_take_control, go_to_standby : pc2_go_to_standby, request_system_control : pc2_request_system_control, interface_clear : pc2_interface_clear, remote_enable : pc2_remote_enable, enable_eos : pc2_enable_eos, disable_eos : pc2_disable_eos, parallel_poll : pc2_parallel_poll, parallel_poll_configure : pc2_parallel_poll_configure, parallel_poll_response : pc2_parallel_poll_response, local_parallel_poll_mode : NULL, // XXX line_status : NULL, //XXX update_status : pc2_update_status, primary_address : pc2_primary_address, secondary_address : pc2_secondary_address, serial_poll_response : pc2_serial_poll_response, serial_poll_status : pc2_serial_poll_status, t1_delay : pc2_t1_delay, return_to_local : pc2_return_to_local, }; gpib_interface_t pc2_2a_interface = { name: "pcII_IIa", attach : pc2_2a_attach, detach : pc2_2a_detach, read : pc2_read, write : pc2_write, command : pc2_command, take_control : pc2_take_control, go_to_standby : pc2_go_to_standby, request_system_control : pc2_request_system_control, interface_clear : pc2_interface_clear, remote_enable : pc2_remote_enable, enable_eos : pc2_enable_eos, disable_eos : pc2_disable_eos, parallel_poll : pc2_parallel_poll, parallel_poll_configure : pc2_parallel_poll_configure, parallel_poll_response : pc2_parallel_poll_response, local_parallel_poll_mode : NULL, // XXX line_status : NULL, update_status : pc2_update_status, primary_address : pc2_primary_address, secondary_address : pc2_secondary_address, serial_poll_response : pc2_serial_poll_response, serial_poll_status : pc2_serial_poll_status, t1_delay : pc2_t1_delay, return_to_local : pc2_return_to_local, }; static int allocate_private(gpib_board_t *board) { struct pc2_priv *priv; board->private_data = kmalloc(sizeof(struct pc2_priv), GFP_KERNEL); if (!board->private_data) return -1; priv = board->private_data; memset(priv, 0, sizeof(struct pc2_priv)); init_nec7210_private(&priv->nec7210_priv); return 0; } static void free_private(gpib_board_t *board) { kfree(board->private_data); board->private_data = NULL; } static int pc2_generic_attach(gpib_board_t *board, const gpib_board_config_t *config, enum nec7210_chipset chipset) { struct pc2_priv *pc2_priv; struct nec7210_priv *nec_priv; board->status = 0; if (allocate_private(board)) return -ENOMEM; pc2_priv = board->private_data; nec_priv = &pc2_priv->nec7210_priv; nec_priv->read_byte = nec7210_ioport_read_byte; nec_priv->write_byte = nec7210_ioport_write_byte; nec_priv->type = chipset; #ifndef PC2_DMA /* board->dev hasn't been initialized, so forget about DMA until this driver * is adapted to use isa_register_driver. */ if (config->ibdma) pr_err("DMA disabled for pc2 gpib, driver needs to be adapted to use isa_register_driver to get a struct device*"); #else if (config->ibdma) { nec_priv->dma_buffer_length = 0x1000; nec_priv->dma_buffer = dma_alloc_coherent(board->dev, nec_priv->dma_buffer_length, & nec_priv->dma_buffer_addr, GFP_ATOMIC); if (!nec_priv->dma_buffer) return -ENOMEM; // request isa dma channel if (request_dma(config->ibdma, "pc2")) { pr_err("gpib: can't request DMA %d\n", config->ibdma); return -1; } nec_priv->dma_channel = config->ibdma; } #endif return 0; } int pc2_attach(gpib_board_t *board, const gpib_board_config_t *config) { int isr_flags = 0; struct pc2_priv *pc2_priv; struct nec7210_priv *nec_priv; int retval; retval = pc2_generic_attach(board, config, NEC7210); if (retval) return retval; pc2_priv = board->private_data; nec_priv = &pc2_priv->nec7210_priv; nec_priv->offset = pc2_reg_offset; if (request_region(config->ibbase, pc2_iosize, "pc2") == 0) { pr_err("gpib: ioports are already in use\n"); return -1; } nec_priv->iobase = config->ibbase; nec7210_board_reset(nec_priv, board); // install interrupt handler if (config->ibirq) { if (request_irq(config->ibirq, pc2_interrupt, isr_flags, "pc2", board)) { pr_err("gpib: can't request IRQ %d\n", config->ibirq); return -1; } } pc2_priv->irq = config->ibirq; /* poll so we can detect assertion of ATN */ if (gpib_request_pseudo_irq(board, pc2_interrupt)) { pr_err("pc2_gpib: failed to allocate pseudo_irq\n"); return -1; } /* set internal counter register for 8 MHz input clock */ write_byte(nec_priv, ICR | 8, AUXMR); nec7210_board_online(nec_priv, board); return 0; } void pc2_detach(gpib_board_t *board) { struct pc2_priv *pc2_priv = board->private_data; struct nec7210_priv *nec_priv; if (pc2_priv) { nec_priv = &pc2_priv->nec7210_priv; #ifdef PC2_DMA if (nec_priv->dma_channel) free_dma(nec_priv->dma_channel); #endif gpib_free_pseudo_irq(board); if (pc2_priv->irq) free_irq(pc2_priv->irq, board); if (nec_priv->iobase) { nec7210_board_reset(nec_priv, board); release_region(nec_priv->iobase, pc2_iosize); } if (nec_priv->dma_buffer) { dma_free_coherent(board->dev, nec_priv->dma_buffer_length, nec_priv->dma_buffer, nec_priv->dma_buffer_addr); nec_priv->dma_buffer = NULL; } } free_private(board); } static int pc2a_common_attach(gpib_board_t *board, const gpib_board_config_t *config, unsigned int num_registers, enum nec7210_chipset chipset) { unsigned int i, j; struct pc2_priv *pc2_priv; struct nec7210_priv *nec_priv; int retval; retval = pc2_generic_attach(board, config, chipset); if (retval) return retval; pc2_priv = board->private_data; nec_priv = &pc2_priv->nec7210_priv; nec_priv->offset = pc2a_reg_offset; switch (config->ibbase) { case 0x02e1: case 0x22e1: case 0x42e1: case 0x62e1: break; default: pr_err("PCIIa base range invalid, must be one of 0x[0246]2e1, but is 0x%d\n", config->ibbase); return -1; } if (config->ibirq) { if (config->ibirq < 2 || config->ibirq > 7) { pr_err("pc2_gpib: illegal interrupt level %i\n", config->ibirq); return -1; } } else { pr_err("pc2_gpib: interrupt disabled, using polling mode (slow)\n"); } #ifdef CHECK_IOPORTS unsigned int err = 0; for (i = 0; i < num_registers; i++) { if (check_region(config->ibbase + i * pc2a_reg_offset, 1)) err++; } if (config->ibirq && check_region(pc2a_clear_intr_iobase + config->ibirq, 1)) err++; if (err) { pr_err("gpib: ioports are already in use"); return -1; } #endif for (i = 0; i < num_registers; i++) { if (!request_region(config->ibbase + i * pc2a_reg_offset, 1, "pc2a")) { pr_err("gpib: ioports are already in use"); for (j = 0; j < i; j++) release_region(config->ibbase + j * pc2a_reg_offset, 1); return -1; } } nec_priv->iobase = config->ibbase; if (config->ibirq) { if (!request_region(pc2a_clear_intr_iobase + config->ibirq, 1, "pc2a")) { pr_err("gpib: ioports are already in use"); return -1; } pc2_priv->clear_intr_addr = pc2a_clear_intr_iobase + config->ibirq; if (request_irq(config->ibirq, pc2a_interrupt, 0, "pc2a", board)) { pr_err("gpib: can't request IRQ %d\n", config->ibirq); return -1; } } pc2_priv->irq = config->ibirq; /* poll so we can detect assertion of ATN */ if (gpib_request_pseudo_irq(board, pc2_interrupt)) { pr_err("pc2_gpib: failed to allocate pseudo_irq\n"); return -1; } // make sure interrupt is clear if (pc2_priv->irq) outb(0xff, CLEAR_INTR_REG(pc2_priv->irq)); nec7210_board_reset(nec_priv, board); /* set internal counter register for 8 MHz input clock */ write_byte(nec_priv, ICR | 8, AUXMR); nec7210_board_online(nec_priv, board); return 0; } int pc2a_attach(gpib_board_t *board, const gpib_board_config_t *config) { return pc2a_common_attach(board, config, pc2a_iosize, NEC7210); } int pc2a_cb7210_attach(gpib_board_t *board, const gpib_board_config_t *config) { return pc2a_common_attach(board, config, pc2a_iosize, CB7210); } int pc2_2a_attach(gpib_board_t *board, const gpib_board_config_t *config) { return pc2a_common_attach(board, config, pc2_2a_iosize, NAT4882); } static void pc2a_common_detach(gpib_board_t *board, unsigned int num_registers) { int i; struct pc2_priv *pc2_priv = board->private_data; struct nec7210_priv *nec_priv; if (pc2_priv) { nec_priv = &pc2_priv->nec7210_priv; #ifdef PC2_DMA if (nec_priv->dma_channel) free_dma(nec_priv->dma_channel); #endif gpib_free_pseudo_irq(board); if (pc2_priv->irq) free_irq(pc2_priv->irq, board); if (nec_priv->iobase) { nec7210_board_reset(nec_priv, board); for (i = 0; i < num_registers; i++) release_region(nec_priv->iobase + i * pc2a_reg_offset, 1); } if (pc2_priv->clear_intr_addr) release_region(pc2_priv->clear_intr_addr, 1); if (nec_priv->dma_buffer) { dma_free_coherent(board->dev, nec_priv->dma_buffer_length, nec_priv->dma_buffer, nec_priv->dma_buffer_addr); nec_priv->dma_buffer = NULL; } } free_private(board); } void pc2a_detach(gpib_board_t *board) { pc2a_common_detach(board, pc2a_iosize); } void pc2_2a_detach(gpib_board_t *board) { pc2a_common_detach(board, pc2_2a_iosize); } static int __init pc2_init_module(void) { gpib_register_driver(&pc2_interface, THIS_MODULE); gpib_register_driver(&pc2a_interface, THIS_MODULE); gpib_register_driver(&pc2a_cb7210_interface, THIS_MODULE); gpib_register_driver(&pc2_2a_interface, THIS_MODULE); return 0; } static void __exit pc2_exit_module(void) { gpib_unregister_driver(&pc2_interface); gpib_unregister_driver(&pc2a_interface); gpib_unregister_driver(&pc2a_cb7210_interface); gpib_unregister_driver(&pc2_2a_interface); } module_init(pc2_init_module); module_exit(pc2_exit_module);
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