WebSVN - f9daq - Blame - Rev 11 - /pcivme-3.2/driver/fops.c

Rev	Author	Line No.	Line
9	f9daq	1	//****************************************************************************
		2	// Copyright (C) 2000-2004 ARW Elektronik Germany
		3	//
		4	//
		5	// This program is free software; you can redistribute it and/or modify
		6	// it under the terms of the GNU General Public License as published by
		7	// the Free Software Foundation; either version 2 of the License, or
		8	// (at your option) any later version.
		9	//
		10	// This program is distributed in the hope that it will be useful,
		11	// but WITHOUT ANY WARRANTY; without even the implied warranty of
		12	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
		13	// GNU General Public License for more details.
		14	//
		15	// You should have received a copy of the GNU General Public License
		16	// along with this program; if not, write to the Free Software
		17	// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
		18	//
		19	// This product is not authorized for use as critical component in
		20	// life support systems without the express written approval of
		21	// ARW Elektronik Germany.
		22	//
		23	// Please announce changes and hints to ARW Elektronik
		24	//
		25	// Maintainer(s): Klaus Hitschler (klaus.hitschler@gmx.de)
		26	//
		27	//****************************************************************************
		28
		29	//****************************************************************************
		30	//
		31	// fops.c -- the file operations module for the PCIVME PCI to VME Interface
		32	//
		33	// $Log: fops.c,v $
		34	// Revision 1.11 2005/03/01 10:56:12 klaus
		35	// removed warnings with gcc 3.3.3
		36	//
		37	// Revision 1.10 2004/08/13 19:23:26 klaus
		38	// conversion to kernel-version 2.6, released version 3.0
		39	//
		40	// Revision 1.9 2003/06/27 17:25:52 klaus
		41	// incomplete try to get mmap() with nopage() running for automatic page switch
		42	//
		43	// Revision 1.8 2002/10/20 18:06:51 klaus
		44	// changed error handling
		45	//
		46	// Revision 1.7 2002/10/18 21:56:28 klaus
		47	// completed functional features, untested
		48	//
		49	// Revision 1.6 2002/10/18 21:56:28 klaus
		50	// completed functional features, untested
		51	//
		52	// Revision 1.5 2002/10/17 19:05:03 klaus
		53	// VME access is working through test to lib to driver
		54	//
		55	//****************************************************************************
		56
		57	/--- INCLUDES -----------------------------------------------------------------------------------/
		58	#include "common.h" /* must be the first include */
		59
		60	#include <linux/kernel.h> /* printk() */
		61	#include <linux/module.h> /* only here ?cause of MAJOR ... */
		62	#include <linux/pci.h>
		63	#include <linux/list.h>
		64	#include <asm/errno.h>
		65	#include <asm/types.h>
		66	#include <asm/uaccess.h>
		67
		68	#include <linux/sched.h>
		69	#include <linux/fs.h>
		70	#if HAVE_UNLOCKED_IOCTL
		71	#include <linux/mutex.h>
		72	#else
		73	#include <linux/smp_lock.h>
		74	#endif
		75
		76
		77	#include "fops.h"
		78	#include "plx9050.h"
		79	#include "pcivme.h" /* the common ioctl commands and structures between driver and application */
		80	#include "main.h"
		81	#include "askpci.h"
		82	#include "pciif.h"
		83	#include "vic.h"
		84	#include "vme.h"
		85
		86	/--- DEFINES ------------------------------------------------------------------------------------/
		87
		88	#ifndef MINOR
		89	#define MINOR(x) minor(x) // since 2.5.?
		90	#endif
		91
		92	static PCIVME_INIT_ELEMENT init_element[] =
		93	{{LCR, WORD_ACCESS, PLX9050_INTCSR, DISABLE_PCIADA_IRQS}, // disable interrupts
		94	{LCR, WORD_ACCESS, PLX9050_CNTRL, RELEASE_VMEMM}, // enable interface
		95
		96	{VIC, BYTE_ACCESS, VIICR, 0xf8+1}, // VIICR
		97
		98	{VIC, BYTE_ACCESS, VICR1, 0x78+1}, // VICR1
		99	{VIC, BYTE_ACCESS, VICR2, 0x78+2},
		100	{VIC, BYTE_ACCESS, VICR3, 0x78+3},
		101	{VIC, BYTE_ACCESS, VICR4, 0x78+4},
		102	{VIC, BYTE_ACCESS, VICR5, 0x78+5},
		103	{VIC, BYTE_ACCESS, VICR6, 0x78+6},
		104	{VIC, BYTE_ACCESS, VICR7, 0x78+7}, // VICR7
		105
		106	{VIC, BYTE_ACCESS, DSICR, 0xf8+0}, // DSICR
		107
		108	{VIC, BYTE_ACCESS, LICR1, 0xf8+1}, // LICR1
		109	{VIC, BYTE_ACCESS, LICR2, 0xf8+2},
		110	{VIC, BYTE_ACCESS, LICR3, 0xf8+3},
		111	{VIC, BYTE_ACCESS, LICR4, 0xf8+4},
		112	{VIC, BYTE_ACCESS, LICR5, 0xf8+5},
		113	{VIC, BYTE_ACCESS, LICR6, 0x38+6},
		114	{VIC, BYTE_ACCESS, LICR7, 0x38+7}, // LICR7
		115
		116	{VIC, BYTE_ACCESS, ICGSICR, 0xf8+2}, // ICGS
		117	{VIC, BYTE_ACCESS, ICMSICR, 0xf8+3}, // ICMS
		118
		119	{VIC, BYTE_ACCESS, EGICR, 0xf8+6}, // EGICR
		120
		121	{VIC, BYTE_ACCESS, ICGSVBR, 0x08}, // ICGS-IVBR (!)
		122	{VIC, BYTE_ACCESS, ICMSVBR, 0x0c}, // ICMS-IVBR (!)
		123
		124	{VIC, BYTE_ACCESS, LIVBR, 0x00}, // LIVBR (!)
		125
		126	{VIC, BYTE_ACCESS, EGIVBR, 0x10}, // EGIVBR (!)
		127
		128	{VIC, BYTE_ACCESS, ICSR, 0x00}, // ICSR
		129
		130	{VIC, BYTE_ACCESS, ICR0, 0x00}, // ICR0
		131	{VIC, BYTE_ACCESS, ICR1, 0x00},
		132	{VIC, BYTE_ACCESS, ICR2, 0x00},
		133	{VIC, BYTE_ACCESS, ICR3, 0x00},
		134	{VIC, BYTE_ACCESS, ICR4, 0x00}, // ICR4
		135
		136	{VIC, BYTE_ACCESS, VIRSR, 0xfe}, // VIRSR
		137
		138	{VIC, BYTE_ACCESS, VIVR1, 0x0f}, // VIVR1
		139	{VIC, BYTE_ACCESS, VIVR2, 0x0f},
		140	{VIC, BYTE_ACCESS, VIVR3, 0x0f},
		141	{VIC, BYTE_ACCESS, VIVR4, 0x0f},
		142	{VIC, BYTE_ACCESS, VIVR5, 0x0f},
		143	{VIC, BYTE_ACCESS, VIVR6, 0x0f},
		144	{VIC, BYTE_ACCESS, VIVR7, 0x0f}, // VIVR7
		145
		146	{VIC, BYTE_ACCESS, TTR, 0x3c}, // TTR
		147
		148	{VIC, BYTE_ACCESS, ARCR, 0x40}, // ARCR
		149	{VIC, BYTE_ACCESS, AMSR, 0x29}, // AMSR
		150	{VIC, BYTE_ACCESS, RCR, 0x00}, // RCR
		151
		152	{IFR, LONG_ACCESS, (u16)ADRHL, 0xF0F0F0F0}, // ADR-H, ADR-L
		153	{IFR, WORD_ACCESS, (u16)CSR , 0x0000}, // Contr-Reg
		154
		155	{VIC, BYTE_ACCESS, ICR7, 0x80}, // ICR7
		156
		157	{LCR, WORD_ACCESS, PLX9050_INTCSR, DISABLE_PCIADA_IRQS}, // disable interrupts
		158
		159	{STOP, WORD_ACCESS, 0, 0}};
		160
		161	static PCIVME_INIT_ELEMENT deinit_element_pre[] =
		162	{{VIC, BYTE_ACCESS, ICR7, 0x00}, // ICR7 - sysfail
		163	{LCR, WORD_ACCESS, PLX9050_INTCSR, DISABLE_PCIADA_IRQS}, // disable interrupts
		164	{STOP, WORD_ACCESS, 0, 0}};
		165
		166	static PCIVME_INIT_ELEMENT deinit_element_post[] =
		167	{{LCR, WORD_ACCESS, PLX9050_CNTRL, INHIBIT_VMEMM}, // disable interface
		168	{STOP, WORD_ACCESS, 0, 0}};
		169
		170
		171	/--- EXTERNALS ----------------------------------------------------------------------------------/
		172
		173	/--- TYPEDEFS -----------------------------------------------------------------------------------/
		174
		175	/--- FUNCTIONS ----------------------------------------------------------------------------------/
		176	static inline void switch_VMEMM_on(DEVICE_OBJ *pd)
		177	{
		178	writew(RELEASE_VMEMM, (volatile void ) (pd->pLCR + PLX9050_CNTRL)); / enable access */
		179	}
		180
		181	static inline void switch_VMEMM_off(DEVICE_OBJ *pd)
		182	{
		183	writew(INHIBIT_VMEMM, (volatile void ) (pd->pLCR + PLX9050_CNTRL)); / enable access */
		184	}
		185
		186	static inline void setPageAddress(DEVICE_OBJ *pd, u32 newPageAddress)
		187	{
		188	PRINTK(KERN_DEBUG "%s : setPageAddress(0x%08x)\n", DEVICE_NAME, newPageAddress);
		189
		190	writel(newPageAddress, (volatile void *) pd->pAdrReg);
		191	pd->dwCurrentPageAddress = newPageAddress;
		192	}
		193
		194	static inline void setModifier(DEVICE_OBJ *pd, u8 newModifier)
		195	{
		196	PRINTK(KERN_DEBUG "%s : setModifier(0x%02x)\n", DEVICE_NAME, newModifier);
		197
		198	writeb(newModifier, (volatile void *) pd->pAdrMod);
		199	pd->bCurrentModifier = newModifier;
		200	}
		201
		202	/* read and write functions -----------------------------------------------------------------------*/
		203	static inline u8 increment8(void *pvBuffer)
		204	{
		205	u8 tmp = (u8)*pvBuffer;
		206
		207	*pvBuffer += sizeof(u8);
		208
		209	return tmp;
		210	}
		211
		212	static inline u16 increment16(void *pvBuffer)
		213	{
		214	u16 tmp = (u16)*pvBuffer;
		215
		216	*pvBuffer += sizeof(u16);
		217
		218	return tmp;
		219	}
		220
		221	static inline u32 increment32(void *pvBuffer)
		222	{
		223	u32 tmp = (u32)*pvBuffer;
		224
		225	*pvBuffer += sizeof(u32);
		226
		227	return tmp;
		228	}
		229
		230	static void readByte(DEVICE_OBJ pd, void *pvBuffer, u32 dwLocalAddressInPage)
		231	{
		232	u8 tmp;
		233
		234	tmp = readb((const volatile void *) (pd->pVME + dwLocalAddressInPage));
		235	__put_user(tmp, increment8(pvBuffer));
		236	}
		237
		238	static void writeByte(DEVICE_OBJ pd, u32 dwLocalAddressInPage, void *pvBuffer)
		239	{
		240	u8 tmp;
		241
		242	__get_user(tmp, increment8(pvBuffer));
		243	writeb(tmp, (volatile void *) (pd->pVME + dwLocalAddressInPage ));
		244	}
		245
		246	static void readWord(DEVICE_OBJ pd, void *pvBuffer, u32 dwLocalAddressInPage)
		247	{
		248	u16 tmp;
		249
		250	tmp = readw((const volatile void *) (pd->pVME + dwLocalAddressInPage));
		251	__put_user(tmp, increment16(pvBuffer));
		252	}
		253
		254	static void writeWord(DEVICE_OBJ pd, u32 dwLocalAddressInPage, void *pvBuffer)
		255	{
		256	u16 tmp;
		257
		258	__get_user(tmp, increment16(pvBuffer));
		259	writew(tmp, (volatile void *) ( pd->pVME + dwLocalAddressInPage ));
		260	}
		261
		262	static void readLong(DEVICE_OBJ pd, void *pvBuffer, u32 dwLocalAddressInPage)
		263	{
		264	u32 tmp;
		265
		266	tmp = readl((const volatile void *) (pd->pVME + dwLocalAddressInPage));
		267	__put_user(tmp, increment32(pvBuffer));
		268	}
		269
		270	static void writeLong(DEVICE_OBJ pd, u32 dwLocalAddressInPage, void *pvBuffer)
		271	{
		272	u32 tmp;
		273
		274	__get_user(tmp, increment32(pvBuffer));
		275	writel(tmp, (volatile void *) (pd->pVME + dwLocalAddressInPage));
		276	}
		277
		278	/* test alignment functions -----------------------------------------------------------------------*/
		279	static int MisalignmentForByteAccess(loff_t offset)
		280	{
		281	return 0;
		282	}
		283
		284	static int MisalignmentForWordAccess(loff_t offset)
		285	{
		286	return(offset & 1);
		287	}
		288
		289	static int MisalignmentForLongAccess(loff_t offset)
		290	{
		291	return(offset & 3);
		292	}
		293
		294	// helper functions --------------------------------------------------------------------------------
		295	int check_command(const PCIVME_INIT_ELEMENT *psInitElement)
		296	{
		297	u16 range;
		298	u16 access_size;
		299
		300	// PRINTK(KERN_DEBUG "%s : check_command()\n", DEVICE_NAME);
		301
		302	switch (psInitElement->bDestination)
		303	{
		304	case LCR:
		305	range = 0x54;
		306	break;
		307	case IFR:
		308	range = 0x0c;
		309	break;
		310	case VIC:
		311	range = 0xe4;
		312	if ((psInitElement->wOffset & 3) != 3)
		313	return -EINVAL;
		314	break;
		315	default:
		316	return -EINVAL;
		317	break;
		318	}
		319
		320	// check alignment and allowed address range
		321	switch (psInitElement->bAccessType)
		322	{
		323	case LONG_ACCESS:
		324	if (psInitElement->wOffset & 3)
		325	return -EINVAL;
		326	access_size = sizeof(u32);
		327	break;
		328	case WORD_ACCESS:
		329	if (psInitElement->wOffset & 1)
		330	return -EINVAL;
		331	access_size = sizeof(u16);
		332	break;
		333	case BYTE_ACCESS:
		334	access_size = sizeof(u8);
		335	break;
		336	default :
		337	return -EINVAL;
		338	break;
		339	}
		340
		341	if ((psInitElement->wOffset + access_size) > range)
		342	return -EINVAL; // ignore it
		343
		344	return 0;
		345	}
		346
		347	static int CmdMachine(DEVICE_OBJ pd, const PCIVME_INIT_ELEMENT psInitElement)
		348	{
		349	u32 adr;
		350	int err;
		351
11	f9daq	352	//PRINTK(KERN_DEBUG "%s : CmdMachine()\n", DEVICE_NAME);
9	f9daq	353
		354	// loop through the init (or deinit) list
		355	while (psInitElement->bDestination != STOP)
		356	{
		357	err = check_command(psInitElement);
		358	if (!err)
		359	{
		360	switch (psInitElement->bDestination)
		361	{
		362	case LCR:
		363	adr = pd->pLCR;
		364	break;
		365	case VIC:
		366	adr = pd->pCtl + VICBASE;
		367	break;
		368	case IFR:
		369	adr = pd->pCtl + CSR;
		370	break;
		371	default:
		372	return -EINVAL;
		373	}
		374
		375	switch (psInitElement->bAccessType)
		376	{
		377	case LONG_ACCESS:
		378	writel(psInitElement->dwValue, (volatile void *) (adr + psInitElement->wOffset));
		379	break;
		380	case WORD_ACCESS:
		381	writew((u16)psInitElement->dwValue, (volatile void *) (adr + psInitElement->wOffset));
		382	break;
		383	case BYTE_ACCESS:
		384	writeb((u8)psInitElement->dwValue, (volatile void *) (adr + psInitElement->wOffset));
		385	break;
		386	default:
		387	return -EINVAL;
		388	}
		389	}
		390	else
		391	return err;
		392
		393	psInitElement++;
		394	}
		395
		396	return 0;
		397	}
		398
		399	// all ioctls --------------------------------------------------------------------------------------
		400	static int init_hardware(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_INIT_COMMAND *init)
		401	{
		402	int err;
		403	PCIVME_INIT_ELEMENT *element = init->sVie;
		404
11	f9daq	405	PRINTK(KERN_INFO "%s : init_hardware()\n", DEVICE_NAME);
9	f9daq	406
		407	err = CmdMachine(pd, element);
		408	if (err)
		409	{
		410	PRINTK(KERN_DEBUG "%s : init failed with err = %d!\n", DEVICE_NAME, err);
		411	return err;
		412	}
		413
		414	// sync storage with hardware
		415	pd->bCurrentModifier = readb((const volatile void *) pd->pAdrMod) & 0x3f;
		416	pd->dwCurrentPageAddress = readl((const volatile void *) pd->pAdrReg) & HI_ADDRESS_MASK;
		417
		418	return 0;
		419	}
		420
		421	static int deinit_hardware(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_INIT_COMMAND *deinit)
		422	{
		423	int err;
		424	PCIVME_INIT_ELEMENT *element = deinit->sVie;
		425
		426	PRINTK(KERN_DEBUG "%s : deinit_hardware()\n", DEVICE_NAME);
		427
		428	err = CmdMachine(pd, deinit_element_pre);
		429	if (err)
		430	goto fail;
		431
		432	err = CmdMachine(pd, element);
		433	if (err)
		434	goto fail;
		435
		436	err = CmdMachine(pd, deinit_element_post);
		437	if (err)
		438	goto fail;
		439
		440	return 0;
		441
		442	fail:
		443	return err;
		444	}
		445
		446	static int access_command(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_ACCESS_COMMAND *cmd)
		447	{
		448	PRINTK(KERN_DEBUG "%s : access_command()\n", DEVICE_NAME);
		449
		450	pp->bModifier = cmd->bModifier;
		451	pp->bAccessType = cmd->bAccessType;
		452	pp->bIncrement = cmd->bIncrement;
		453
		454	switch (pp->bAccessType)
		455	{
		456	case BYTE_ACCESS:
		457	pp->read = readByte;
		458	pp->write = writeByte;
		459	pp->AlignmentCheck = MisalignmentForByteAccess;
		460	break;
		461	case WORD_ACCESS:
		462	pp->read = readWord;
		463	pp->write = writeWord;
		464	pp->AlignmentCheck = MisalignmentForWordAccess;
		465	break;
		466	case LONG_ACCESS:
		467	pp->read = readLong;
		468	pp->write = writeLong;
		469	pp->AlignmentCheck = MisalignmentForLongAccess;
		470	break;
		471	default:
		472	return -EINVAL;
		473	}
		474
		475	return 0;
		476	}
		477
		478	static int get_static_status(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_STATIC_STATUS *static_status)
		479	{
		480	PRINTK(KERN_DEBUG "%s : get_static_status()\n", DEVICE_NAME);
		481
		482	static_status->bConnected = pd->bConnected;
		483	static_status->cModuleNumber = pd->cModuleNumber;
		484	static_status->cFPGAVersion = pd->cFPGAVersion;
		485	static_status->cSystemController = pd->cSystemController;
		486	static_status->cWordMode = pd->cWordMode;
		487
		488	return 0;
		489	}
		490
		491	static int get_dynamic_status(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_DYNAMIC_STATUS *dynamic_status)
		492	{
		493	u16 cntrl = readw((const volatile void *) pd->pPCIADACntrl);
		494	u16 intCSR = readw((const volatile void *) pd->pPCIADAIntCSR);
		495
		496	PRINTK(KERN_DEBUG "%s : get_dynamic_status()\n", DEVICE_NAME);
		497
		498	dynamic_status->bConnected = (cntrl & 0x0800) ? 1 : 0;
		499	dynamic_status->bPCIADAIrq = (intCSR & 0x0020) ? 1 : 0;
		500	dynamic_status->bVMEMMIrq = (intCSR & 0x0004) ? 1 : 0;
		501
		502	return 0;
		503	}
		504
		505	static int read_vector_polling(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_VECTOR_LEVEL *vector)
		506	{
		507	u16 cntrl = readw((const volatile void *) pd->pPCIADACntrl);
		508	u16 intCSR = readw((const volatile void *) pd->pPCIADAIntCSR);
		509
		510	PRINTK(KERN_DEBUG "%s : read_vector()\n", DEVICE_NAME);
		511
		512	vector->dwStatusID = 0;
		513	vector->bLevel = 0;
		514	vector->bPCIADAIrq = 0;
		515
		516	if (intCSR & 0x20) // check for PCIADA interrupt
		517	{
		518	vector->bPCIADAIrq = 1;
		519	vector->dwStatusID = 1; // force for PCIADA irqs
		520
		521	writew(cntrl & ~0x0100, (volatile void *) pd->pPCIADACntrl); // clear pending PCIADA irq
		522	writew(cntrl, (volatile void *) pd->pPCIADACntrl);
		523	}
		524	else
		525	{
		526	if ((cntrl & 0x0980) == 0x0980) // check if VMEMM is connected and ready
		527	{
		528	vector->bLevel = (u8)readw((const volatile void *) ( pd->pCtl + VICRES ));
		529	if (vector->bLevel & 1)
		530	{
		531	if (vector->bLevel != 1)
		532	vector->dwStatusID = (u32)readb((const volatile void *) (pd->pCtl + VECBASE + vector->bLevel));
		533
		534	vector->bLevel >>= 1;
		535	}
		536	}
		537	}
		538	return 0;
		539	}
		540
		541	static int read_vector_blocking(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_VECTOR_LEVEL vector, struct file pFile)
		542	{
		543	int error;
		544
		545	vector->dwStatusID = 0;
		546	vector->bLevel = 0;
		547	vector->bPCIADAIrq = 0;
		548
		549	// support nonblocking read if requested
		550	if ((pFile->f_flags & O_NONBLOCK) && (!pd->wIrqStatus))
		551	return -EAGAIN;
		552
		553	// sleep until data are available
		554	if ((error = wait_event_interruptible(pd->event_queue, (pd->wIrqStatus))))
		555	return error;
		556
		557	error = read_vector_polling(pp, pd, vector);
		558
		559	pd->wIrqStatus = 0; // clear the status since it is read
		560
		561	return error;
		562	}
		563
		564
		565	static int control_interrupts(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_IRQ_CONTROL *irq_control)
		566	{
		567	u16 intCSR = readw((const volatile void *) pd->pPCIADAIntCSR);
		568	u8 ret = (intCSR & 0x40) ? 1 : 0;
		569
		570	PRINTK(KERN_DEBUG "%s : control_interrupts()\n", DEVICE_NAME);
		571
		572	if (irq_control->bEnable)
		573	writew(intCSR \| 0x40, (volatile void *) pd->pPCIADAIntCSR);
		574	else
		575	writew(intCSR & ~0x40, (volatile void *) pd->pPCIADAIntCSR);
		576
		577	// return the switch before set
		578	irq_control->bEnable = ret;
		579
		580	return 0;
		581	}
		582
		583	static int VME_TAS(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_TAS_STRUCT *tas_cmd)
		584	{
		585	u32 access_adr = pd->pVME + (tas_cmd->dwAddress & LO_ADDRESS_MASK); // make low part of address
		586	u8 data;
		587
		588	// save old contents
		589	u32 old_address = readl((const volatile void *) pd->pAdrReg);
		590	u16 old_CSR = readw((const volatile void *) pd->pCSR);
		591	u16 intCSR = readw((const volatile void *) pd->pPCIADAIntCSR);
		592	pd->bCurrentModifier = readb((const volatile void *) pd->pAdrMod) & 0x3f;
		593
		594	PRINTK(KERN_DEBUG "%s : VME_TAS()\n", DEVICE_NAME);
		595
		596	// set new contents
		597	writew(DISABLE_PCIADA_IRQS, (volatile void *) pd->pPCIADAIntCSR);
		598	writeb((u8)tas_cmd->bModifier & 0x3f, (volatile void *) pd->pAdrMod);
		599	writel(tas_cmd->dwAddress, (volatile void *) pd->pAdrReg);
		600	writew(old_CSR \| FLAG_RMC, (volatile void *) pd->pCSR);
		601
		602	// do the read - modify - write
		603	data = readb((const volatile void *) access_adr);
		604	writeb(tas_cmd->bContent, (volatile void *) access_adr);
		605
		606	// restore old contents
		607	writeb(pd->bCurrentModifier, (volatile void *) pd->pAdrMod);
		608	writew(old_CSR, (volatile void *) pd->pCSR);
		609	writel(old_address, (volatile void *) pd->pAdrReg);
		610	writew(intCSR, (volatile void *) pd->pPCIADAIntCSR);
		611
		612	// get back read data
		613	tas_cmd->bContent = data;
		614
		615	return 0;
		616	}
		617
		618	static int VMEMM_RESET(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_RESET_COMMAND *reset_cmd)
		619	{
		620	u16 cntrl = readw((const volatile void *) pd->pPCIADACntrl);
		621	u16 intCSR = readw((const volatile void *) pd->pPCIADAIntCSR);
		622	int status = 0;
		623
11	f9daq	624	PRINTK(KERN_INFO "%s : VMEMM_RESET()\n", DEVICE_NAME);
9	f9daq	625
		626	// am I connected and switched on??
		627	if ((cntrl & 0x0980) == 0x0980)
		628	{
		629	// do command
		630	switch (reset_cmd->bCommand)
		631	{
		632	case POLL_RESET_CMD:
		633	break;
		634	case VME_RESET_CMD:
		635	writeb(0, (volatile void *) pd->pAdrMod);
		636	writeb(0xf0, (volatile void *) (pd->pCtl + VICBASE + SRR)); // make VME reset
		637	break;
		638	case LOCAL_RESET_CMD:
		639	writeb(0, (volatile void *) pd->pAdrMod);
		640	writew(LOCAL_RESET, (volatile void *) (pd->pCtl + VICRES));
		641	break;
		642	case GLOBAL_RESET_CMD:
		643	writeb(0, (volatile void *) pd->pAdrMod);
		644	writew(GLOBAL_RESET, (volatile void *) (pd->pCtl + VICRES));
		645	break;
		646
		647	default: status = -EINVAL;
		648	}
		649
		650	// inhibit PCIADA generated irqs
		651	writew(DISABLE_PCIADA_IRQS, (volatile void *) pd->pPCIADAIntCSR);
		652
		653	// always poll reset status - access will sometimes generate PCIADA #2 interrupt
		654	reset_cmd->bResult = readb((const volatile void *) pd->pAdrMod);
		655
		656	// reset any pending PCIADA interrupt #2
		657	writew(cntrl & ~0x0100, (volatile void *) pd->pPCIADACntrl);
		658	writew(cntrl , (volatile void *) pd->pPCIADACntrl);
		659
		660	// restore IRQStatus
		661	writew(intCSR , (volatile void *) pd->pPCIADAIntCSR);
		662	}
		663	else
		664	status = -EBUSY;
		665
		666	// sync storage with hardware
		667	pd->bCurrentModifier = readb((const volatile void *) pd->pAdrMod) & 0x3f;
		668
		669	return status;
		670	}
		671
		672	static int access_VIC68A(PATH_OBJ pp, DEVICE_OBJ pd, PCIVME_VIC68A_ACTION *action)
		673	{
		674	int nStatus = 0;
		675
		676	PRINTK(KERN_DEBUG "%s : access_VIC68A()\n", DEVICE_NAME);
		677
		678	if ((action->wRegisterAddress <= SRR) && ((action->wRegisterAddress & 0x03) == 3))
		679	{
		680	u32 dwAddress;
		681	u8 bByte = 0;
		682
		683	dwAddress = (pd->pCtl + VICBASE + action->wRegisterAddress);
		684
		685	switch (action->bAccessMode)
		686	{
		687	case VIC68A_WRITE_ONLY:
		688	writeb(action->bContent, (volatile void *) dwAddress);
		689	break;
		690	case VIC68A_WRITE:
		691	writeb(action->bContent, (volatile void *) dwAddress);
		692	action->bContent = readb((const volatile void *) dwAddress);
		693	break;
		694	case VIC68A_OR:
		695	bByte = readb((const volatile void *) dwAddress);
		696	bByte \|= action->bContent;
		697	writeb(bByte, (volatile void *) dwAddress);
		698	action->bContent = readb((const volatile void *) dwAddress);
		699	break;
		700	case VIC68A_AND:
		701	bByte = readb((const volatile void *) dwAddress);
		702	bByte &= action->bContent;
		703	writeb(bByte, (volatile void *) dwAddress);
		704	action->bContent = readb((const volatile void *) dwAddress);
		705	break;
		706	case VIC68A_READ:
		707	action->bContent = readb((const volatile void *) dwAddress);
		708	break;
		709	default:
		710	nStatus = -EINVAL;
		711	}
		712	}
		713	else
		714	nStatus = -EINVAL;
		715
		716	return nStatus;
		717	}
		718
		719	// the dispatcher ----------------------------------------------------------------------------------
		720	int pcivme_ioctl(struct inode pInode, struct file pFile, unsigned int cmd, unsigned long arg)
		721	{
		722	PATH_OBJ pp = (PATH_OBJ )pFile->private_data;
		723	DEVICE_OBJ *pd = pp->pDo;
		724	int err = 1;
		725
		726	PRINTK(KERN_DEBUG "%s : pcivme_ioctl(0x%08x), size = %d\n", DEVICE_NAME, cmd, _IOC_SIZE(cmd));
		727
		728	if (_IOC_TYPE(cmd) != PCIVME_MAGIC)
		729	return -EINVAL;
		730
		731	// check for accessible user buffer
		732	if (_IOC_DIR(cmd) & _IOC_READ)
		733	err = !access_ok(VERIFY_WRITE, (void *)arg, _IOC_SIZE(cmd));
		734	if (_IOC_DIR(cmd) & _IOC_WRITE)
		735	err = !access_ok(VERIFY_READ, (void *)arg, _IOC_SIZE(cmd));
		736	if (err)
		737	return -EFAULT;
		738
		739	switch (_IOC_NR(cmd))
		740	{
		741	case _IOC_NR(PCIVME_READ_VECTOR_BLOCK):
		742	if (_IOC_SIZE(cmd) < sizeof(PCIVME_VECTOR_LEVEL))
		743	return -EINVAL;
		744	return read_vector_blocking(pp, pd, (PCIVME_VECTOR_LEVEL *)arg, pFile);
		745
		746	case _IOC_NR(PCIVME_READ_VECTOR_POLL):
		747	if (_IOC_SIZE(cmd) < sizeof(PCIVME_VECTOR_LEVEL))
		748	return -EINVAL;
		749	return read_vector_polling(pp, pd, (PCIVME_VECTOR_LEVEL *)arg);
		750
		751	case _IOC_NR(PCIVME_CONTROL_INTERRUPTS):
		752	if (_IOC_SIZE(cmd) < sizeof(PCIVME_IRQ_CONTROL))
		753	return -EINVAL;
		754	return control_interrupts(pp, pd, (PCIVME_IRQ_CONTROL *)arg);
		755
		756	case _IOC_NR(PCIVME_TAS):
		757	if (_IOC_SIZE(cmd) < sizeof(PCIVME_TAS_STRUCT))
		758	return -EINVAL;
		759	return VME_TAS(pp, pd, (PCIVME_TAS_STRUCT *)arg);
		760
		761	case _IOC_NR(PCIVME_ACCESS_VIC68A):
		762	if (_IOC_SIZE(cmd) < sizeof(PCIVME_VIC68A_ACTION))
		763	return -EINVAL;
		764	return access_VIC68A(pp, pd, (PCIVME_VIC68A_ACTION *)arg);
		765
		766	case _IOC_NR(PCIVME_GET_DYNAMIC_STATUS):
		767	if (_IOC_SIZE(cmd) < sizeof(PCIVME_DYNAMIC_STATUS))
		768	return -EINVAL;
		769	return get_dynamic_status(pp, pd, (PCIVME_DYNAMIC_STATUS *)arg);
		770
		771	case _IOC_NR(PCIVME_RESET):
		772	if (_IOC_SIZE(cmd) < sizeof(PCIVME_RESET_COMMAND))
		773	return -EINVAL;
		774	return VMEMM_RESET(pp, pd, (PCIVME_RESET_COMMAND *)arg);
		775
		776	case _IOC_NR(PCIVME_SET_ACCESS_PARA):
		777	if (_IOC_SIZE(cmd) < sizeof(PCIVME_ACCESS_COMMAND))
		778	return -EINVAL;
		779	return access_command(pp, pd, (PCIVME_ACCESS_COMMAND *)arg);
		780
		781	case _IOC_NR(PCIVME_GET_STATIC_STATUS):
		782	if (_IOC_SIZE(cmd) < sizeof(PCIVME_STATIC_STATUS))
		783	return -EINVAL;
		784	return get_static_status(pp, pd, (PCIVME_STATIC_STATUS *)arg);
		785
		786	case _IOC_NR(PCIVME_INIT_HARDWARE):
		787	if (_IOC_SIZE(cmd) < sizeof(PCIVME_INIT_COMMAND))
		788	return -EINVAL;
		789	return init_hardware(pp, pd, (PCIVME_INIT_COMMAND *)arg);
		790
		791	case _IOC_NR(PCIVME_DEINIT_HARDWARE):
		792	if (_IOC_SIZE(cmd) < sizeof(PCIVME_INIT_COMMAND))
		793	return -EINVAL;
		794	return deinit_hardware(pp, pd, (PCIVME_INIT_COMMAND *)arg);
		795
		796	default:
		797	PRINTK(KERN_DEBUG "%s : pcivme_ioctl(0x%08x) is illegal\n", DEVICE_NAME, cmd);
		798	return -EINVAL;
		799	}
		800
		801	return 0;
		802	}
		803
11	f9daq	804	/*
		805	static long pcivme_compat_ioctl(struct file *pFile, unsigned int cmd, unsigned long arg){
		806	PRINTK(KERN_DEBUG "%s : pcivme_compat_ioctl(0x%08x), size = %d\n", DEVICE_NAME, cmd, _IOC_SIZE(cmd));
		807	return pcivme_ioctl(NULL, pFile, cmd,arg);
		808	}
		809	*/
		810
9	f9daq	811	static long pcivme_unlocked_ioctl(struct file *pFile, unsigned int cmd, unsigned long arg){
		812	long retval=0;
11	f9daq	813
		814
9	f9daq	815	#if HAVE_UNLOCKED_IOCTL
		816	struct mutex fs_mutex;
		817	mutex_init(&fs_mutex);
		818	mutex_lock(&fs_mutex);
		819	#else
		820	lock_kernel();
		821	#endif
		822
11	f9daq	823	PRINTK(KERN_DEBUG "%s : pcivme_unlocked_ioctl(0x%08x), size = %d\n", DEVICE_NAME, cmd, _IOC_SIZE(cmd));
9	f9daq	824	retval = pcivme_ioctl(NULL, pFile, cmd,arg);
		825
		826	#if HAVE_UNLOCKED_IOCTL
		827	mutex_unlock(&fs_mutex);
		828	#else
		829	unlock_kernel();
		830	#endif
11	f9daq	831
9	f9daq	832	return retval;
		833	}
		834
		835	int pcivme_open(struct inode pInode, struct file pFile)
		836	{
		837	DEVICE_OBJ *pd = 0;
		838	DEVICE_OBJ *desc = 0;
11	f9daq	839	int nMinor = MINOR(pInode->i_rdev);
9	f9daq	840	struct list_head *ptr;
		841
11	f9daq	842	PRINTK(KERN_DEBUG "%s : pcivme_open(), %d, scanning %d devices\n", DEVICE_NAME, nMinor, drv.count);
9	f9daq	843
		844	/* search for device */
		845	for (ptr = drv.devList.next; ptr != &drv.devList; ptr = ptr->next)
		846	{
		847	pd = list_entry(ptr, DEVICE_OBJ, list);
		848	pd->bConnected = get_module_info(pd);
		849	if (pd->bConnected)
		850	{
		851	if (test_connection(pd))
		852	{
11	f9daq	853	printk(KERN_ERR "%s : pcivme_open() connection test for module %d failed!\n", DEVICE_NAME, pd->cModuleNumber);
9	f9daq	854	pd->bConnected = 0;
		855	}
		856	else
		857	if (pd->cModuleNumber == nMinor)
		858	{
		859	desc = pd;
		860	break;
		861	}
		862	}
		863	else
11	f9daq	864	PRINTK(KERN_DEBUG "%s pcivme_open(): module %d not connected!\n", DEVICE_NAME, nMinor);
9	f9daq	865	}
		866
		867	if (desc)
		868	{
		869	int err;
		870	PATH_OBJ *pp;
		871
		872	pp = (PATH_OBJ *)kmalloc(sizeof(PATH_OBJ), GFP_ATOMIC);
		873	if (!pp)
		874	return -ENOMEM;
		875
		876	// file PATH_OBJ structure with initialisation data
		877	pp->pDo = pd;
		878	pp->bAccessType = pp->bIncrement = BYTE_ACCESS;
		879	pp->bModifier = Short_NoPriv;
		880	pp->read = readByte;
		881	pp->write = writeByte;
		882	pp->AlignmentCheck = MisalignmentForByteAccess;
		883	pFile->private_data = (void *)pp;
		884
11	f9daq	885	PRINTK(KERN_DEBUG "%s : pcivme_open() found VMEMM module with number %d.\n", DEVICE_NAME, nMinor);
9	f9daq	886
		887	if (!pd->nOpenCounter)
		888	{
		889	err = CmdMachine(pd, init_element);
		890	if (err)
		891	{
11	f9daq	892	printk(KERN_ERR "%s : pcivme_open() default init failed with err = %d!\n", DEVICE_NAME, err);
9	f9daq	893	kfree_s(pp, sizeof(*pp)); // FREE(pFile->private_data);
		894	return err;
		895	}
		896	}
		897
		898	pd->nOpenCounter++;
		899	}
		900	else
		901	{
11	f9daq	902	printk(KERN_ERR "%s pcivme_open(): No VMEMM module found.\n", DEVICE_NAME);
9	f9daq	903	return -ENODEV;
		904	}
		905
		906	__MOD_INC_USE_COUNT__;
		907	return 0;
		908	}
		909
		910	int pcivme_release(struct inode pInode, struct file pFile)
		911	{
		912	PATH_OBJ *pp;
		913
11	f9daq	914	PRINTK(KERN_DEBUG "%s : pcivme_release()\n", DEVICE_NAME);
9	f9daq	915
		916	if (pFile->private_data)
		917	{
		918	pp = (PATH_OBJ *)pFile->private_data;
		919	if (pp && pp->pDo )
		920	{
		921	DEVICE_OBJ *pd = pp->pDo;
		922
		923	pd->nOpenCounter--;
		924
		925	// the last one closes the door
		926	if (pd->nOpenCounter <= 0)
		927	{
		928	CmdMachine(pd, deinit_element_pre);
		929	CmdMachine(pd, deinit_element_post);
		930
		931	// Vorsicht ist die Mutter der Porzelankiste!
		932	pd->nOpenCounter = 0;
		933	}
		934
		935	pp->pDo = 0;
		936	}
		937
		938	kfree_s(pp, sizeof(*pp)); // FREE(pFile->private_data);
		939	}
		940
		941	__MOD_DEC_USE_COUNT__;
		942	return 0;
		943	}
		944
		945	static ssize_t pcivme_read(struct file pFile, char pcBuffer, size_t count, loff_t *offp)
		946	{
		947	PATH_OBJ pp = (PATH_OBJ )pFile->private_data;
		948	DEVICE_OBJ *pd = pp->pDo;
		949	u32 dwLocalCount = count;
		950	register u32 dwLocalPageAddress;
		951	u32 dwLocalAddressInPage;
		952
		953	PRINTK(KERN_DEBUG "%s : pcivme_read(0x%08x, %d)\n", DEVICE_NAME, (u32)*offp, dwLocalCount);
		954
		955	// inhibit misaligned accesses
		956	if (pp->AlignmentCheck(*offp))
		957	return -EFAULT;
		958
		959	// check for free access to user buffer
		960	if (!access_ok(VERIFY_WRITE, pcBuffer, count))
		961	return -EFAULT;
		962
		963	// do I still have the same modifier?
		964	if (pp->bModifier != pd->bCurrentModifier)
		965	setModifier(pd, pp->bModifier);
		966
		967	while (count >= pp->bAccessType)
		968	{
		969	dwLocalPageAddress = *offp & HI_ADDRESS_MASK;
		970	dwLocalAddressInPage = *offp & LO_ADDRESS_MASK;
		971
		972	// do I still work in the same page?
		973	if (dwLocalPageAddress != pd->dwCurrentPageAddress)
		974	setPageAddress(pd, dwLocalPageAddress);
		975
		976	// standard access method
		977	pp->read(pd, (void **)&pcBuffer, dwLocalAddressInPage);
		978
		979	// decrement count and update pointer to next access address
		980	count -= pp->bAccessType;
		981	*offp += pp->bIncrement;
		982	}
		983
		984	return dwLocalCount - count;
		985	}
		986
		987	static ssize_t pcivme_write(struct file pFile, const char pcBuffer, size_t count, loff_t *offp)
		988	{
		989	PATH_OBJ pp = (PATH_OBJ )pFile->private_data;
		990	DEVICE_OBJ *pd = pp->pDo;
		991	u32 dwLocalCount = count;
		992	register u32 dwLocalPageAddress;
		993	u32 dwLocalAddressInPage;
		994
		995	PRINTK(KERN_DEBUG "%s : pcivme_write(0x%08x, %d)\n", DEVICE_NAME, (u32)*offp, dwLocalCount);
		996
		997	// inhibit misaligned accesses
		998	if (pp->AlignmentCheck(*offp))
		999	return -EFAULT;
		1000
		1001	// check for free access to user buffer
		1002	if (!access_ok(VERIFY_READ, pcBuffer, count))
		1003	return -EFAULT;
		1004
		1005	// do I still have the same modifier?
		1006	if (pp->bModifier != pd->bCurrentModifier)
		1007	setModifier(pd, pp->bModifier);
		1008
		1009	while (count >= pp->bAccessType)
		1010	{
		1011	dwLocalPageAddress = *offp & HI_ADDRESS_MASK;
		1012	dwLocalAddressInPage = *offp & LO_ADDRESS_MASK;
		1013
		1014	// do I still work in the same page?
		1015	if (dwLocalPageAddress != pd->dwCurrentPageAddress)
		1016	setPageAddress(pd, dwLocalPageAddress);
		1017
		1018	// standard access method
		1019	pp->write(pd, dwLocalAddressInPage, (void **)&pcBuffer);
		1020
		1021	// decrement count and update pointer to next access address
		1022	count -= pp->bAccessType;
		1023	*offp += pp->bIncrement;
		1024	}
		1025
		1026	return dwLocalCount - count;
		1027	}
		1028
		1029
11	f9daq	1030	// http://learninglinuxkernel.in/writing-char-driver-for-linux-kernel-2-6/
		1031	// http://appusajeev.wordpress.com/2011/06/18/writing-a-linux-character-device-driver/
		1032	loff_t pcivme_lseek(struct file* filep, loff_t offset, int whence)
9	f9daq	1033	{
11	f9daq	1034
		1035	PRINTK(KERN_DEBUG "%s : pcivme_lseek(0x%08x, %d)\n", DEVICE_NAME, (u32) offset, whence);
		1036	switch (whence) {
		1037	case 0: /* SEEK_SET */
		1038	filep->f_pos = offset;
		1039	break;
		1040	case 1: /* SEEK_CUR */
		1041	filep->f_pos += offset;
		1042	break;
		1043	case 2: /* SEEK_END */
		1044	return -EINVAL;
		1045	default:
		1046	return -EINVAL;
		1047	};
		1048
		1049	return filep->f_pos;
		1050	}
		1051
		1052
		1053
9	f9daq	1054	struct file_operations pcivme_fops =
		1055	{
11	f9daq	1056	.llseek = pcivme_lseek, /* lseek */
9	f9daq	1057	.read = pcivme_read, /* read */
		1058	.write = pcivme_write, /* write */
11	f9daq	1059	// .compat_ioctl = pcivme_compat_ioctl, /* ioctl */
9	f9daq	1060	.unlocked_ioctl = pcivme_unlocked_ioctl, /* ioctl */
		1061	.open = pcivme_open, /* open */
		1062	.release = pcivme_release, /* release */
		1063	};
		1064
		1065
11	f9daq	1066
9	f9daq	1067
		1068
		1069

Subversion Repositories f9daq

(root)/pcivme-3.2/driver/fops.c - Rev 11