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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [scsi/] [sym53c8xx_2/] [sym_glue.h] - Rev 1765
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/* * Device driver for the SYMBIOS/LSILOGIC 53C8XX and 53C1010 family * of PCI-SCSI IO processors. * * Copyright (C) 1999-2001 Gerard Roudier <groudier@free.fr> * * This driver is derived from the Linux sym53c8xx driver. * Copyright (C) 1998-2000 Gerard Roudier * * The sym53c8xx driver is derived from the ncr53c8xx driver that had been * a port of the FreeBSD ncr driver to Linux-1.2.13. * * The original ncr driver has been written for 386bsd and FreeBSD by * Wolfgang Stanglmeier <wolf@cologne.de> * Stefan Esser <se@mi.Uni-Koeln.de> * Copyright (C) 1994 Wolfgang Stanglmeier * * Other major contributions: * * NVRAM detection and reading. * Copyright (C) 1997 Richard Waltham <dormouse@farsrobt.demon.co.uk> * *----------------------------------------------------------------------------- * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * Where this Software is combined with software released under the terms of * the GNU Public License ("GPL") and the terms of the GPL would require the * combined work to also be released under the terms of the GPL, the terms * and conditions of this License will apply in addition to those of the * GPL with the exception of any terms or conditions of this License that * conflict with, or are expressly prohibited by, the GPL. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef SYM_GLUE_H #define SYM_GLUE_H #if 0 #define SYM_CONF_DMA_ADDRESSING_MODE 2 #endif #define LinuxVersionCode(v, p, s) (((v)<<16)+((p)<<8)+(s)) #include <linux/version.h> #if LINUX_VERSION_CODE < LinuxVersionCode(2, 2, 0) #error "This driver requires a kernel version not lower than 2.2.0" #endif #include <asm/dma.h> #include <asm/io.h> #include <asm/system.h> #if LINUX_VERSION_CODE >= LinuxVersionCode(2,3,17) #include <linux/spinlock.h> #else #include <asm/spinlock.h> #endif #include <linux/delay.h> #include <linux/signal.h> #include <linux/sched.h> #include <linux/errno.h> #include <linux/pci.h> #include <linux/string.h> #include <linux/mm.h> #include <linux/ioport.h> #include <linux/time.h> #include <linux/timer.h> #include <linux/stat.h> #include <linux/blk.h> #ifdef __sparc__ # include <asm/irq.h> #endif #include <linux/init.h> #ifndef __init #define __init #endif #ifndef __initdata #define __initdata #endif #include "../scsi.h" #include "../hosts.h" #include "../constants.h" #include "../sd.h" #include <linux/types.h> /* * Define BITS_PER_LONG for earlier linux versions. */ #ifndef BITS_PER_LONG #if (~0UL) == 0xffffffffUL #define BITS_PER_LONG 32 #else #define BITS_PER_LONG 64 #endif #endif typedef u_long vm_offset_t; #ifndef bcopy #define bcopy(s, d, n) memcpy((d), (s), (n)) #endif #ifndef bzero #define bzero(d, n) memset((d), 0, (n)) #endif #ifndef bcmp #define bcmp(a, b, n) memcmp((a), (b), (n)) #endif /* * General driver includes. */ #include "sym53c8xx.h" #include "sym_misc.h" #include "sym_conf.h" #include "sym_defs.h" /* * Configuration addendum for Linux. */ #if LINUX_VERSION_CODE >= LinuxVersionCode(2,3,47) #define SYM_LINUX_DYNAMIC_DMA_MAPPING #endif #define SYM_CONF_TIMER_INTERVAL ((HZ+1)/2) #define SYM_OPT_HANDLE_DIR_UNKNOWN #define SYM_OPT_HANDLE_DEVICE_QUEUEING #define SYM_OPT_NVRAM_PRE_READ #define SYM_OPT_SNIFF_INQUIRY #define SYM_OPT_LIMIT_COMMAND_REORDERING #define SYM_OPT_ANNOUNCE_TRANSFER_RATE #ifdef SYM_LINUX_DYNAMIC_DMA_MAPPING #define SYM_OPT_BUS_DMA_ABSTRACTION #endif /* * Print a message with severity. */ #define printf_emerg(args...) printk(KERN_EMERG args) #define printf_alert(args...) printk(KERN_ALERT args) #define printf_crit(args...) printk(KERN_CRIT args) #define printf_err(args...) printk(KERN_ERR args) #define printf_warning(args...) printk(KERN_WARNING args) #define printf_notice(args...) printk(KERN_NOTICE args) #define printf_info(args...) printk(KERN_INFO args) #define printf_debug(args...) printk(KERN_DEBUG args) #define printf(args...) printk(args) /* * Insert a delay in micro-seconds and milli-seconds. */ void sym_udelay(int us); void sym_mdelay(int ms); /* * Let the compiler know about driver data structure names. */ typedef struct sym_tcb *tcb_p; typedef struct sym_lcb *lcb_p; typedef struct sym_ccb *ccb_p; typedef struct sym_hcb *hcb_p; typedef struct sym_stcb *stcb_p; typedef struct sym_slcb *slcb_p; typedef struct sym_sccb *sccb_p; typedef struct sym_shcb *shcb_p; /* * Define a reference to the O/S dependant IO request. */ typedef Scsi_Cmnd *cam_ccb_p; /* Generic */ typedef Scsi_Cmnd *cam_scsiio_p;/* SCSI I/O */ /* * IO functions definition for big/little endian CPU support. * For now, PCI chips are only supported in little endian addressing mode, */ #ifdef __BIG_ENDIAN #define inw_l2b inw #define inl_l2b inl #define outw_b2l outw #define outl_b2l outl #define readw_l2b readw #define readl_l2b readl #define writew_b2l writew #define writel_b2l writel #else /* little endian */ #if defined(__i386__) /* i386 implements full FLAT memory/MMIO model */ #define inw_raw inw #define inl_raw inl #define outw_raw outw #define outl_raw outl #define readb_raw(a) (*(volatile unsigned char *) (a)) #define readw_raw(a) (*(volatile unsigned short *) (a)) #define readl_raw(a) (*(volatile unsigned int *) (a)) #define writeb_raw(b,a) ((*(volatile unsigned char *) (a)) = (b)) #define writew_raw(b,a) ((*(volatile unsigned short *) (a)) = (b)) #define writel_raw(b,a) ((*(volatile unsigned int *) (a)) = (b)) #else /* Other little-endian */ #define inw_raw inw #define inl_raw inl #define outw_raw outw #define outl_raw outl #define readw_raw readw #define readl_raw readl #define writew_raw writew #define writel_raw writel #endif #endif #ifdef SYM_CONF_CHIP_BIG_ENDIAN #error "Chips in BIG ENDIAN addressing mode are not (yet) supported" #endif /* * If the chip uses big endian addressing mode over the * PCI, actual io register addresses for byte and word * accesses must be changed according to lane routing. * Btw, sym_offb() and sym_offw() macros only apply to * constants and so donnot generate bloated code. */ #if defined(SYM_CONF_CHIP_BIG_ENDIAN) #define sym_offb(o) (((o)&~3)+((~((o)&3))&3)) #define sym_offw(o) (((o)&~3)+((~((o)&3))&2)) #else #define sym_offb(o) (o) #define sym_offw(o) (o) #endif /* * If the CPU and the chip use same endian-ness adressing, * no byte reordering is needed for script patching. * Macro cpu_to_scr() is to be used for script patching. * Macro scr_to_cpu() is to be used for getting a DWORD * from the script. */ #if defined(__BIG_ENDIAN) && !defined(SYM_CONF_CHIP_BIG_ENDIAN) #define cpu_to_scr(dw) cpu_to_le32(dw) #define scr_to_cpu(dw) le32_to_cpu(dw) #elif defined(__LITTLE_ENDIAN) && defined(SYM_CONF_CHIP_BIG_ENDIAN) #define cpu_to_scr(dw) cpu_to_be32(dw) #define scr_to_cpu(dw) be32_to_cpu(dw) #else #define cpu_to_scr(dw) (dw) #define scr_to_cpu(dw) (dw) #endif /* * Access to the controller chip. * * If SYM_CONF_IOMAPPED is defined, the driver will use * normal IOs instead of the MEMORY MAPPED IO method * recommended by PCI specifications. * If all PCI bridges, host brigdes and architectures * would have been correctly designed for PCI, this * option would be useless. * * If the CPU and the chip use same endian-ness adressing, * no byte reordering is needed for accessing chip io * registers. Functions suffixed by '_raw' are assumed * to access the chip over the PCI without doing byte * reordering. Functions suffixed by '_l2b' are * assumed to perform little-endian to big-endian byte * reordering, those suffixed by '_b2l' blah, blah, * blah, ... */ #if defined(SYM_CONF_IOMAPPED) /* * IO mapped only input / ouput */ #define INB_OFF(o) inb (np->s.io_port + sym_offb(o)) #define OUTB_OFF(o, val) outb ((val), np->s.io_port + sym_offb(o)) #if defined(__BIG_ENDIAN) && !defined(SYM_CONF_CHIP_BIG_ENDIAN) #define INW_OFF(o) inw_l2b (np->s.io_port + sym_offw(o)) #define INL_OFF(o) inl_l2b (np->s.io_port + (o)) #define OUTW_OFF(o, val) outw_b2l ((val), np->s.io_port + sym_offw(o)) #define OUTL_OFF(o, val) outl_b2l ((val), np->s.io_port + (o)) #elif defined(__LITTLE_ENDIAN) && defined(SYM_CONF_CHIP_BIG_ENDIAN) #define INW_OFF(o) inw_b2l (np->s.io_port + sym_offw(o)) #define INL_OFF(o) inl_b2l (np->s.io_port + (o)) #define OUTW_OFF(o, val) outw_l2b ((val), np->s.io_port + sym_offw(o)) #define OUTL_OFF(o, val) outl_l2b ((val), np->s.io_port + (o)) #else #define INW_OFF(o) inw_raw (np->s.io_port + sym_offw(o)) #define INL_OFF(o) inl_raw (np->s.io_port + (o)) #define OUTW_OFF(o, val) outw_raw ((val), np->s.io_port + sym_offw(o)) #define OUTL_OFF(o, val) outl_raw ((val), np->s.io_port + (o)) #endif /* ENDIANs */ #else /* defined SYM_CONF_IOMAPPED */ /* * MEMORY mapped IO input / output */ #define INB_OFF(o) readb((char *)np->s.mmio_va + sym_offb(o)) #define OUTB_OFF(o, val) writeb((val), (char *)np->s.mmio_va + sym_offb(o)) #if defined(__BIG_ENDIAN) && !defined(SYM_CONF_CHIP_BIG_ENDIAN) #define INW_OFF(o) readw_l2b((char *)np->s.mmio_va + sym_offw(o)) #define INL_OFF(o) readl_l2b((char *)np->s.mmio_va + (o)) #define OUTW_OFF(o, val) writew_b2l((val), (char *)np->s.mmio_va + sym_offw(o)) #define OUTL_OFF(o, val) writel_b2l((val), (char *)np->s.mmio_va + (o)) #elif defined(__LITTLE_ENDIAN) && defined(SYM_CONF_CHIP_BIG_ENDIAN) #define INW_OFF(o) readw_b2l((char *)np->s.mmio_va + sym_offw(o)) #define INL_OFF(o) readl_b2l((char *)np->s.mmio_va + (o)) #define OUTW_OFF(o, val) writew_l2b((val), (char *)np->s.mmio_va + sym_offw(o)) #define OUTL_OFF(o, val) writel_l2b((val), (char *)np->s.mmio_va + (o)) #else #define INW_OFF(o) readw_raw((char *)np->s.mmio_va + sym_offw(o)) #define INL_OFF(o) readl_raw((char *)np->s.mmio_va + (o)) #define OUTW_OFF(o, val) writew_raw((val), (char *)np->s.mmio_va + sym_offw(o)) #define OUTL_OFF(o, val) writel_raw((val), (char *)np->s.mmio_va + (o)) #endif #endif /* defined SYM_CONF_IOMAPPED */ #define OUTRAM_OFF(o, a, l) memcpy_toio(np->s.ram_va + (o), (a), (l)) /* * Remap some status field values. */ #define CAM_REQ_CMP DID_OK #define CAM_SEL_TIMEOUT DID_NO_CONNECT #define CAM_CMD_TIMEOUT DID_TIME_OUT #define CAM_REQ_ABORTED DID_ABORT #define CAM_UNCOR_PARITY DID_PARITY #define CAM_SCSI_BUS_RESET DID_RESET #define CAM_REQUEUE_REQ DID_SOFT_ERROR #define CAM_UNEXP_BUSFREE DID_ERROR #define CAM_SCSI_BUSY DID_BUS_BUSY #define CAM_DEV_NOT_THERE DID_NO_CONNECT #define CAM_REQ_INVALID DID_ERROR #define CAM_REQ_TOO_BIG DID_ERROR #define CAM_RESRC_UNAVAIL DID_ERROR /* * Remap SCSI data direction values. */ #ifndef SCSI_DATA_UNKNOWN #define SCSI_DATA_UNKNOWN 0 #define SCSI_DATA_WRITE 1 #define SCSI_DATA_READ 2 #define SCSI_DATA_NONE 3 #endif #define CAM_DIR_NONE SCSI_DATA_NONE #define CAM_DIR_IN SCSI_DATA_READ #define CAM_DIR_OUT SCSI_DATA_WRITE #define CAM_DIR_UNKNOWN SCSI_DATA_UNKNOWN /* * These ones are used as return code from * error recovery handlers under Linux. */ #define SCSI_SUCCESS SUCCESS #define SCSI_FAILED FAILED /* * System specific target data structure. * None for now, under Linux. */ /* #define SYM_HAVE_STCB */ /* * System specific lun data structure. */ #define SYM_HAVE_SLCB struct sym_slcb { u_short reqtags; /* Number of tags requested by user */ u_short scdev_depth; /* Queue depth set in select_queue_depth() */ }; /* * System specific command data structure. * Not needed under Linux. */ /* struct sym_sccb */ /* * System specific host data structure. */ struct sym_shcb { /* * Chip and controller indentification. */ int unit; char inst_name[16]; char chip_name[8]; struct pci_dev *device; u_char bus; /* PCI BUS number */ u_char device_fn; /* PCI BUS device and function */ spinlock_t smp_lock; /* Lock for SMP threading */ vm_offset_t mmio_va; /* MMIO kernel virtual address */ vm_offset_t ram_va; /* RAM kernel virtual address */ u_long io_port; /* IO port address cookie */ u_short io_ws; /* IO window size */ int irq; /* IRQ number */ SYM_QUEHEAD wait_cmdq; /* Awaiting SCSI commands */ SYM_QUEHEAD busy_cmdq; /* Enqueued SCSI commands */ struct timer_list timer; /* Timer handler link header */ u_long lasttime; u_long settle_time; /* Resetting the SCSI BUS */ u_char settle_time_valid; #if LINUX_VERSION_CODE < LinuxVersionCode(2, 4, 0) u_char release_stage; /* Synchronisation on release */ #endif }; /* * Return the name of the controller. */ #define sym_name(np) (np)->s.inst_name /* * Data structure used as input for the NVRAM reading. * Must resolve the IO macros and sym_name(), when * used as sub-field 's' of another structure. */ typedef struct { int bus; u_char device_fn; u_long base; u_long base_2; u_long base_c; u_long base_2_c; int irq; /* port and address fields to fit INB, OUTB macros */ u_long io_port; vm_offset_t mmio_va; char inst_name[16]; } sym_slot; typedef struct sym_nvram sym_nvram; typedef struct sym_pci_chip sym_chip; typedef struct { struct pci_dev *pdev; sym_slot s; sym_chip chip; sym_nvram *nvram; u_short device_id; u_char host_id; #ifdef SYM_CONF_PQS_PDS_SUPPORT u_char pqs_pds; #endif int attach_done; } sym_device; typedef sym_device *sdev_p; /* * The driver definitions (sym_hipd.h) must know about a * couple of things related to the memory allocator. */ typedef u_long m_addr_t; /* Enough bits to represent any address */ #define SYM_MEM_PAGE_ORDER 0 /* 1 PAGE maximum */ #define SYM_MEM_CLUSTER_SHIFT (PAGE_SHIFT+SYM_MEM_PAGE_ORDER) #ifdef MODULE #define SYM_MEM_FREE_UNUSED /* Free unused pages immediately */ #endif #ifdef SYM_LINUX_DYNAMIC_DMA_MAPPING typedef struct pci_dev *m_pool_ident_t; #endif /* * Include driver soft definitions. */ #include "sym_fw.h" #include "sym_hipd.h" /* * Memory allocator related stuff. */ #define SYM_MEM_GFP_FLAGS GFP_ATOMIC #define SYM_MEM_WARN 1 /* Warn on failed operations */ #define sym_get_mem_cluster() \ __get_free_pages(SYM_MEM_GFP_FLAGS, SYM_MEM_PAGE_ORDER) #define sym_free_mem_cluster(p) \ free_pages(p, SYM_MEM_PAGE_ORDER) void *sym_calloc(int size, char *name); void sym_mfree(void *m, int size, char *name); #ifndef SYM_LINUX_DYNAMIC_DMA_MAPPING /* * Simple case. * All the memory assummed DMAable and O/S providing virtual * to bus physical address translation. */ #define __sym_calloc_dma(pool_id, size, name) sym_calloc(size, name) #define __sym_mfree_dma(pool_id, m, size, name) sym_mfree(m, size, name) #define __vtobus(b, p) virt_to_bus(p) #else /* SYM_LINUX_DYNAMIC_DMA_MAPPING */ /* * Complex case. * We have to provide the driver memory allocator with methods for * it to maintain virtual to bus physical address translations. */ #define sym_m_pool_match(mp_id1, mp_id2) (mp_id1 == mp_id2) static __inline m_addr_t sym_m_get_dma_mem_cluster(m_pool_p mp, m_vtob_p vbp) { void *vaddr = 0; dma_addr_t baddr = 0; vaddr = pci_alloc_consistent(mp->dev_dmat,SYM_MEM_CLUSTER_SIZE, &baddr); if (vaddr) { vbp->vaddr = (m_addr_t) vaddr; vbp->baddr = (m_addr_t) baddr; } return (m_addr_t) vaddr; } static __inline void sym_m_free_dma_mem_cluster(m_pool_p mp, m_vtob_p vbp) { pci_free_consistent(mp->dev_dmat, SYM_MEM_CLUSTER_SIZE, (void *)vbp->vaddr, (dma_addr_t)vbp->baddr); } #define sym_m_create_dma_mem_tag(mp) (0) #define sym_m_delete_dma_mem_tag(mp) do { ; } while (0) void *__sym_calloc_dma(m_pool_ident_t dev_dmat, int size, char *name); void __sym_mfree_dma(m_pool_ident_t dev_dmat, void *m, int size, char *name); m_addr_t __vtobus(m_pool_ident_t dev_dmat, void *m); #endif /* SYM_LINUX_DYNAMIC_DMA_MAPPING */ /* * Set the status field of a CAM CCB. */ static __inline void sym_set_cam_status(Scsi_Cmnd *ccb, int status) { ccb->result &= ~(0xff << 16); ccb->result |= (status << 16); } /* * Get the status field of a CAM CCB. */ static __inline int sym_get_cam_status(Scsi_Cmnd *ccb) { return ((ccb->result >> 16) & 0xff); } /* * The dma mapping is mostly handled by the * SCSI layer and the driver glue under Linux. */ #define sym_data_dmamap_create(np, cp) (0) #define sym_data_dmamap_destroy(np, cp) do { ; } while (0) #define sym_data_dmamap_unload(np, cp) do { ; } while (0) #define sym_data_dmamap_presync(np, cp) do { ; } while (0) #define sym_data_dmamap_postsync(np, cp) do { ; } while (0) /* * Async handler for negotiations. */ void sym_xpt_async_nego_wide(hcb_p np, int target); #define sym_xpt_async_nego_sync(np, target) \ sym_announce_transfer_rate(np, target) #define sym_xpt_async_nego_ppr(np, target) \ sym_announce_transfer_rate(np, target) /* * Build CAM result for a successful IO and for a failed IO. */ static __inline void sym_set_cam_result_ok(hcb_p np, ccb_p cp, int resid) { Scsi_Cmnd *cmd = cp->cam_ccb; #if LINUX_VERSION_CODE >= LinuxVersionCode(2,3,99) cmd->resid = resid; #endif cmd->result = (((DID_OK) << 16) + ((cp->ssss_status) & 0x7f)); } void sym_set_cam_result_error(hcb_p np, ccb_p cp, int resid); /* * Other O/S specific methods. */ #define sym_cam_target_id(ccb) (ccb)->target #define sym_cam_target_lun(ccb) (ccb)->lun #define sym_freeze_cam_ccb(ccb) do { ; } while (0) void sym_xpt_done(hcb_p np, cam_ccb_p ccb); void sym_xpt_done2(hcb_p np, cam_ccb_p ccb, int cam_status); void sym_print_addr (ccb_p cp); void sym_xpt_async_bus_reset(hcb_p np); void sym_xpt_async_sent_bdr(hcb_p np, int target); int sym_setup_data_and_start (hcb_p np, cam_scsiio_p csio, ccb_p cp); void sym_log_bus_error(hcb_p np); #ifdef SYM_OPT_SNIFF_INQUIRY void sym_sniff_inquiry(hcb_p np, Scsi_Cmnd *cmd, int resid); #endif #endif /* SYM_GLUE_H */