diff options
author | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 15:20:36 -0700 |
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committer | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 15:20:36 -0700 |
commit | 1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch) | |
tree | 0bba044c4ce775e45a88a51686b5d9f90697ea9d /drivers/scsi/sym53c8xx_2/sym_hipd.h |
Linux-2.6.12-rc2v2.6.12-rc2
Initial git repository build. I'm not bothering with the full history,
even though we have it. We can create a separate "historical" git
archive of that later if we want to, and in the meantime it's about
3.2GB when imported into git - space that would just make the early
git days unnecessarily complicated, when we don't have a lot of good
infrastructure for it.
Let it rip!
Diffstat (limited to 'drivers/scsi/sym53c8xx_2/sym_hipd.h')
-rw-r--r-- | drivers/scsi/sym53c8xx_2/sym_hipd.h | 1304 |
1 files changed, 1304 insertions, 0 deletions
diff --git a/drivers/scsi/sym53c8xx_2/sym_hipd.h b/drivers/scsi/sym53c8xx_2/sym_hipd.h new file mode 100644 index 00000000000..a95cbe4b8e3 --- /dev/null +++ b/drivers/scsi/sym53c8xx_2/sym_hipd.h @@ -0,0 +1,1304 @@ +/* + * 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> + * + *----------------------------------------------------------------------------- + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +#ifndef SYM_HIPD_H +#define SYM_HIPD_H + +/* + * Generic driver options. + * + * They may be defined in platform specific headers, if they + * are useful. + * + * SYM_OPT_HANDLE_DIR_UNKNOWN + * When this option is set, the SCRIPTS used by the driver + * are able to handle SCSI transfers with direction not + * supplied by user. + * (set for Linux-2.0.X) + * + * SYM_OPT_HANDLE_DEVICE_QUEUEING + * When this option is set, the driver will use a queue per + * device and handle QUEUE FULL status requeuing internally. + * + * SYM_OPT_LIMIT_COMMAND_REORDERING + * When this option is set, the driver tries to limit tagged + * command reordering to some reasonnable value. + * (set for Linux) + */ +#if 0 +#define SYM_OPT_HANDLE_DIR_UNKNOWN +#define SYM_OPT_HANDLE_DEVICE_QUEUEING +#define SYM_OPT_LIMIT_COMMAND_REORDERING +#endif + +/* + * Active debugging tags and verbosity. + * Both DEBUG_FLAGS and sym_verbose can be redefined + * by the platform specific code to something else. + */ +#define DEBUG_ALLOC (0x0001) +#define DEBUG_PHASE (0x0002) +#define DEBUG_POLL (0x0004) +#define DEBUG_QUEUE (0x0008) +#define DEBUG_RESULT (0x0010) +#define DEBUG_SCATTER (0x0020) +#define DEBUG_SCRIPT (0x0040) +#define DEBUG_TINY (0x0080) +#define DEBUG_TIMING (0x0100) +#define DEBUG_NEGO (0x0200) +#define DEBUG_TAGS (0x0400) +#define DEBUG_POINTER (0x0800) + +#ifndef DEBUG_FLAGS +#define DEBUG_FLAGS (0x0000) +#endif + +#ifndef sym_verbose +#define sym_verbose (np->verbose) +#endif + +/* + * These ones should have been already defined. + */ +#ifndef assert +#define assert(expression) { \ + if (!(expression)) { \ + (void)panic( \ + "assertion \"%s\" failed: file \"%s\", line %d\n", \ + #expression, \ + __FILE__, __LINE__); \ + } \ +} +#endif + +/* + * Number of tasks per device we want to handle. + */ +#if SYM_CONF_MAX_TAG_ORDER > 8 +#error "more than 256 tags per logical unit not allowed." +#endif +#define SYM_CONF_MAX_TASK (1<<SYM_CONF_MAX_TAG_ORDER) + +/* + * Donnot use more tasks that we can handle. + */ +#ifndef SYM_CONF_MAX_TAG +#define SYM_CONF_MAX_TAG SYM_CONF_MAX_TASK +#endif +#if SYM_CONF_MAX_TAG > SYM_CONF_MAX_TASK +#undef SYM_CONF_MAX_TAG +#define SYM_CONF_MAX_TAG SYM_CONF_MAX_TASK +#endif + +/* + * This one means 'NO TAG for this job' + */ +#define NO_TAG (256) + +/* + * Number of SCSI targets. + */ +#if SYM_CONF_MAX_TARGET > 16 +#error "more than 16 targets not allowed." +#endif + +/* + * Number of logical units per target. + */ +#if SYM_CONF_MAX_LUN > 64 +#error "more than 64 logical units per target not allowed." +#endif + +/* + * Asynchronous pre-scaler (ns). Shall be 40 for + * the SCSI timings to be compliant. + */ +#define SYM_CONF_MIN_ASYNC (40) + +/* + * Shortest memory chunk is (1<<SYM_MEM_SHIFT), currently 16. + * Actual allocations happen as SYM_MEM_CLUSTER_SIZE sized. + * (1 PAGE at a time is just fine). + */ +#define SYM_MEM_SHIFT 4 +#define SYM_MEM_CLUSTER_SIZE (1UL << SYM_MEM_CLUSTER_SHIFT) +#define SYM_MEM_CLUSTER_MASK (SYM_MEM_CLUSTER_SIZE-1) + +/* + * Number of entries in the START and DONE queues. + * + * We limit to 1 PAGE in order to succeed allocation of + * these queues. Each entry is 8 bytes long (2 DWORDS). + */ +#ifdef SYM_CONF_MAX_START +#define SYM_CONF_MAX_QUEUE (SYM_CONF_MAX_START+2) +#else +#define SYM_CONF_MAX_QUEUE (7*SYM_CONF_MAX_TASK+2) +#define SYM_CONF_MAX_START (SYM_CONF_MAX_QUEUE-2) +#endif + +#if SYM_CONF_MAX_QUEUE > SYM_MEM_CLUSTER_SIZE/8 +#undef SYM_CONF_MAX_QUEUE +#define SYM_CONF_MAX_QUEUE (SYM_MEM_CLUSTER_SIZE/8) +#undef SYM_CONF_MAX_START +#define SYM_CONF_MAX_START (SYM_CONF_MAX_QUEUE-2) +#endif + +/* + * For this one, we want a short name :-) + */ +#define MAX_QUEUE SYM_CONF_MAX_QUEUE + +/* + * Common definitions for both bus space based and legacy IO methods. + */ + +#define INB_OFF(np, o) ioread8(np->s.ioaddr + (o)) +#define INW_OFF(np, o) ioread16(np->s.ioaddr + (o)) +#define INL_OFF(np, o) ioread32(np->s.ioaddr + (o)) + +#define OUTB_OFF(np, o, val) iowrite8((val), np->s.ioaddr + (o)) +#define OUTW_OFF(np, o, val) iowrite16((val), np->s.ioaddr + (o)) +#define OUTL_OFF(np, o, val) iowrite32((val), np->s.ioaddr + (o)) + +#define INB(np, r) INB_OFF(np, offsetof(struct sym_reg, r)) +#define INW(np, r) INW_OFF(np, offsetof(struct sym_reg, r)) +#define INL(np, r) INL_OFF(np, offsetof(struct sym_reg, r)) + +#define OUTB(np, r, v) OUTB_OFF(np, offsetof(struct sym_reg, r), (v)) +#define OUTW(np, r, v) OUTW_OFF(np, offsetof(struct sym_reg, r), (v)) +#define OUTL(np, r, v) OUTL_OFF(np, offsetof(struct sym_reg, r), (v)) + +#define OUTONB(np, r, m) OUTB(np, r, INB(np, r) | (m)) +#define OUTOFFB(np, r, m) OUTB(np, r, INB(np, r) & ~(m)) +#define OUTONW(np, r, m) OUTW(np, r, INW(np, r) | (m)) +#define OUTOFFW(np, r, m) OUTW(np, r, INW(np, r) & ~(m)) +#define OUTONL(np, r, m) OUTL(np, r, INL(np, r) | (m)) +#define OUTOFFL(np, r, m) OUTL(np, r, INL(np, r) & ~(m)) + +/* + * We normally want the chip to have a consistent view + * of driver internal data structures when we restart it. + * Thus these macros. + */ +#define OUTL_DSP(np, v) \ + do { \ + MEMORY_WRITE_BARRIER(); \ + OUTL(np, nc_dsp, (v)); \ + } while (0) + +#define OUTONB_STD() \ + do { \ + MEMORY_WRITE_BARRIER(); \ + OUTONB(np, nc_dcntl, (STD|NOCOM)); \ + } while (0) + +/* + * Command control block states. + */ +#define HS_IDLE (0) +#define HS_BUSY (1) +#define HS_NEGOTIATE (2) /* sync/wide data transfer*/ +#define HS_DISCONNECT (3) /* Disconnected by target */ +#define HS_WAIT (4) /* waiting for resource */ + +#define HS_DONEMASK (0x80) +#define HS_COMPLETE (4|HS_DONEMASK) +#define HS_SEL_TIMEOUT (5|HS_DONEMASK) /* Selection timeout */ +#define HS_UNEXPECTED (6|HS_DONEMASK) /* Unexpected disconnect */ +#define HS_COMP_ERR (7|HS_DONEMASK) /* Completed with error */ + +/* + * Software Interrupt Codes + */ +#define SIR_BAD_SCSI_STATUS (1) +#define SIR_SEL_ATN_NO_MSG_OUT (2) +#define SIR_MSG_RECEIVED (3) +#define SIR_MSG_WEIRD (4) +#define SIR_NEGO_FAILED (5) +#define SIR_NEGO_PROTO (6) +#define SIR_SCRIPT_STOPPED (7) +#define SIR_REJECT_TO_SEND (8) +#define SIR_SWIDE_OVERRUN (9) +#define SIR_SODL_UNDERRUN (10) +#define SIR_RESEL_NO_MSG_IN (11) +#define SIR_RESEL_NO_IDENTIFY (12) +#define SIR_RESEL_BAD_LUN (13) +#define SIR_TARGET_SELECTED (14) +#define SIR_RESEL_BAD_I_T_L (15) +#define SIR_RESEL_BAD_I_T_L_Q (16) +#define SIR_ABORT_SENT (17) +#define SIR_RESEL_ABORTED (18) +#define SIR_MSG_OUT_DONE (19) +#define SIR_COMPLETE_ERROR (20) +#define SIR_DATA_OVERRUN (21) +#define SIR_BAD_PHASE (22) +#if SYM_CONF_DMA_ADDRESSING_MODE == 2 +#define SIR_DMAP_DIRTY (23) +#define SIR_MAX (23) +#else +#define SIR_MAX (22) +#endif + +/* + * Extended error bit codes. + * xerr_status field of struct sym_ccb. + */ +#define XE_EXTRA_DATA (1) /* unexpected data phase */ +#define XE_BAD_PHASE (1<<1) /* illegal phase (4/5) */ +#define XE_PARITY_ERR (1<<2) /* unrecovered SCSI parity error */ +#define XE_SODL_UNRUN (1<<3) /* ODD transfer in DATA OUT phase */ +#define XE_SWIDE_OVRUN (1<<4) /* ODD transfer in DATA IN phase */ + +/* + * Negotiation status. + * nego_status field of struct sym_ccb. + */ +#define NS_SYNC (1) +#define NS_WIDE (2) +#define NS_PPR (3) + +/* + * A CCB hashed table is used to retrieve CCB address + * from DSA value. + */ +#define CCB_HASH_SHIFT 8 +#define CCB_HASH_SIZE (1UL << CCB_HASH_SHIFT) +#define CCB_HASH_MASK (CCB_HASH_SIZE-1) +#if 1 +#define CCB_HASH_CODE(dsa) \ + (((dsa) >> (_LGRU16_(sizeof(struct sym_ccb)))) & CCB_HASH_MASK) +#else +#define CCB_HASH_CODE(dsa) (((dsa) >> 9) & CCB_HASH_MASK) +#endif + +#if SYM_CONF_DMA_ADDRESSING_MODE == 2 +/* + * We may want to use segment registers for 64 bit DMA. + * 16 segments registers -> up to 64 GB addressable. + */ +#define SYM_DMAP_SHIFT (4) +#define SYM_DMAP_SIZE (1u<<SYM_DMAP_SHIFT) +#define SYM_DMAP_MASK (SYM_DMAP_SIZE-1) +#endif + +/* + * Device flags. + */ +#define SYM_DISC_ENABLED (1) +#define SYM_TAGS_ENABLED (1<<1) +#define SYM_SCAN_BOOT_DISABLED (1<<2) +#define SYM_SCAN_LUNS_DISABLED (1<<3) + +/* + * Host adapter miscellaneous flags. + */ +#define SYM_AVOID_BUS_RESET (1) + +/* + * Misc. + */ +#define SYM_SNOOP_TIMEOUT (10000000) +#define BUS_8_BIT 0 +#define BUS_16_BIT 1 + +/* + * Gather negotiable parameters value + */ +struct sym_trans { + u8 period; + u8 offset; + unsigned int width:1; + unsigned int iu:1; + unsigned int dt:1; + unsigned int qas:1; + unsigned int check_nego:1; +}; + +/* + * Global TCB HEADER. + * + * Due to lack of indirect addressing on earlier NCR chips, + * this substructure is copied from the TCB to a global + * address after selection. + * For SYMBIOS chips that support LOAD/STORE this copy is + * not needed and thus not performed. + */ +struct sym_tcbh { + /* + * Scripts bus addresses of LUN table accessed from scripts. + * LUN #0 is a special case, since multi-lun devices are rare, + * and we we want to speed-up the general case and not waste + * resources. + */ + u32 luntbl_sa; /* bus address of this table */ + u32 lun0_sa; /* bus address of LCB #0 */ + /* + * Actual SYNC/WIDE IO registers value for this target. + * 'sval', 'wval' and 'uval' are read from SCRIPTS and + * so have alignment constraints. + */ +/*0*/ u_char uval; /* -> SCNTL4 register */ +/*1*/ u_char sval; /* -> SXFER io register */ +/*2*/ u_char filler1; +/*3*/ u_char wval; /* -> SCNTL3 io register */ +}; + +/* + * Target Control Block + */ +struct sym_tcb { + /* + * TCB header. + * Assumed at offset 0. + */ +/*0*/ struct sym_tcbh head; + + /* + * LUN table used by the SCRIPTS processor. + * An array of bus addresses is used on reselection. + */ + u32 *luntbl; /* LCBs bus address table */ + + /* + * LUN table used by the C code. + */ + struct sym_lcb *lun0p; /* LCB of LUN #0 (usual case) */ +#if SYM_CONF_MAX_LUN > 1 + struct sym_lcb **lunmp; /* Other LCBs [1..MAX_LUN] */ +#endif + + /* + * Bitmap that tells about LUNs that succeeded at least + * 1 IO and therefore assumed to be a real device. + * Avoid useless allocation of the LCB structure. + */ + u32 lun_map[(SYM_CONF_MAX_LUN+31)/32]; + + /* + * Bitmap that tells about LUNs that haven't yet an LCB + * allocated (not discovered or LCB allocation failed). + */ + u32 busy0_map[(SYM_CONF_MAX_LUN+31)/32]; + +#ifdef SYM_HAVE_STCB + /* + * O/S specific data structure. + */ + struct sym_stcb s; +#endif + + /* Transfer goal */ + struct sym_trans tgoal; + + /* + * Keep track of the CCB used for the negotiation in order + * to ensure that only 1 negotiation is queued at a time. + */ + struct sym_ccb * nego_cp; /* CCB used for the nego */ + + /* + * Set when we want to reset the device. + */ + u_char to_reset; + + /* + * Other user settable limits and options. + * These limits are read from the NVRAM if present. + */ + u_char usrflags; + u_short usrtags; + struct scsi_device *sdev; +}; + +/* + * Global LCB HEADER. + * + * Due to lack of indirect addressing on earlier NCR chips, + * this substructure is copied from the LCB to a global + * address after selection. + * For SYMBIOS chips that support LOAD/STORE this copy is + * not needed and thus not performed. + */ +struct sym_lcbh { + /* + * SCRIPTS address jumped by SCRIPTS on reselection. + * For not probed logical units, this address points to + * SCRIPTS that deal with bad LU handling (must be at + * offset zero of the LCB for that reason). + */ +/*0*/ u32 resel_sa; + + /* + * Task (bus address of a CCB) read from SCRIPTS that points + * to the unique ITL nexus allowed to be disconnected. + */ + u32 itl_task_sa; + + /* + * Task table bus address (read from SCRIPTS). + */ + u32 itlq_tbl_sa; +}; + +/* + * Logical Unit Control Block + */ +struct sym_lcb { + /* + * TCB header. + * Assumed at offset 0. + */ +/*0*/ struct sym_lcbh head; + + /* + * Task table read from SCRIPTS that contains pointers to + * ITLQ nexuses. The bus address read from SCRIPTS is + * inside the header. + */ + u32 *itlq_tbl; /* Kernel virtual address */ + + /* + * Busy CCBs management. + */ + u_short busy_itlq; /* Number of busy tagged CCBs */ + u_short busy_itl; /* Number of busy untagged CCBs */ + + /* + * Circular tag allocation buffer. + */ + u_short ia_tag; /* Tag allocation index */ + u_short if_tag; /* Tag release index */ + u_char *cb_tags; /* Circular tags buffer */ + + /* + * O/S specific data structure. + */ +#ifdef SYM_HAVE_SLCB + struct sym_slcb s; +#endif + +#ifdef SYM_OPT_HANDLE_DEVICE_QUEUEING + /* + * Optionnaly the driver can handle device queueing, + * and requeues internally command to redo. + */ + SYM_QUEHEAD waiting_ccbq; + SYM_QUEHEAD started_ccbq; + int num_sgood; + u_short started_tags; + u_short started_no_tag; + u_short started_max; + u_short started_limit; +#endif + +#ifdef SYM_OPT_LIMIT_COMMAND_REORDERING + /* + * Optionally the driver can try to prevent SCSI + * IOs from being reordered too much. + */ + u_char tags_si; /* Current index to tags sum */ + u_short tags_sum[2]; /* Tags sum counters */ + u_short tags_since; /* # of tags since last switch */ +#endif + + /* + * Set when we want to clear all tasks. + */ + u_char to_clear; + + /* + * Capabilities. + */ + u_char user_flags; + u_char curr_flags; +}; + +/* + * Action from SCRIPTS on a task. + * Is part of the CCB, but is also used separately to plug + * error handling action to perform from SCRIPTS. + */ +struct sym_actscr { + u32 start; /* Jumped by SCRIPTS after selection */ + u32 restart; /* Jumped by SCRIPTS on relection */ +}; + +/* + * Phase mismatch context. + * + * It is part of the CCB and is used as parameters for the + * DATA pointer. We need two contexts to handle correctly the + * SAVED DATA POINTER. + */ +struct sym_pmc { + struct sym_tblmove sg; /* Updated interrupted SG block */ + u32 ret; /* SCRIPT return address */ +}; + +/* + * LUN control block lookup. + * We use a direct pointer for LUN #0, and a table of + * pointers which is only allocated for devices that support + * LUN(s) > 0. + */ +#if SYM_CONF_MAX_LUN <= 1 +#define sym_lp(tp, lun) (!lun) ? (tp)->lun0p : NULL +#else +#define sym_lp(tp, lun) \ + (!lun) ? (tp)->lun0p : (tp)->lunmp ? (tp)->lunmp[(lun)] : NULL +#endif + +/* + * Status are used by the host and the script processor. + * + * The last four bytes (status[4]) are copied to the + * scratchb register (declared as scr0..scr3) just after the + * select/reselect, and copied back just after disconnecting. + * Inside the script the XX_REG are used. + */ + +/* + * Last four bytes (script) + */ +#define HX_REG scr0 +#define HX_PRT nc_scr0 +#define HS_REG scr1 +#define HS_PRT nc_scr1 +#define SS_REG scr2 +#define SS_PRT nc_scr2 +#define HF_REG scr3 +#define HF_PRT nc_scr3 + +/* + * Last four bytes (host) + */ +#define host_xflags phys.head.status[0] +#define host_status phys.head.status[1] +#define ssss_status phys.head.status[2] +#define host_flags phys.head.status[3] + +/* + * Host flags + */ +#define HF_IN_PM0 1u +#define HF_IN_PM1 (1u<<1) +#define HF_ACT_PM (1u<<2) +#define HF_DP_SAVED (1u<<3) +#define HF_SENSE (1u<<4) +#define HF_EXT_ERR (1u<<5) +#define HF_DATA_IN (1u<<6) +#ifdef SYM_CONF_IARB_SUPPORT +#define HF_HINT_IARB (1u<<7) +#endif + +/* + * More host flags + */ +#if SYM_CONF_DMA_ADDRESSING_MODE == 2 +#define HX_DMAP_DIRTY (1u<<7) +#endif + +/* + * Global CCB HEADER. + * + * Due to lack of indirect addressing on earlier NCR chips, + * this substructure is copied from the ccb to a global + * address after selection (or reselection) and copied back + * before disconnect. + * For SYMBIOS chips that support LOAD/STORE this copy is + * not needed and thus not performed. + */ + +struct sym_ccbh { + /* + * Start and restart SCRIPTS addresses (must be at 0). + */ +/*0*/ struct sym_actscr go; + + /* + * SCRIPTS jump address that deal with data pointers. + * 'savep' points to the position in the script responsible + * for the actual transfer of data. + * It's written on reception of a SAVE_DATA_POINTER message. + */ + u32 savep; /* Jump address to saved data pointer */ + u32 lastp; /* SCRIPTS address at end of data */ +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + u32 wlastp; +#endif + + /* + * Status fields. + */ + u8 status[4]; +}; + +/* + * GET/SET the value of the data pointer used by SCRIPTS. + * + * We must distinguish between the LOAD/STORE-based SCRIPTS + * that use directly the header in the CCB, and the NCR-GENERIC + * SCRIPTS that use the copy of the header in the HCB. + */ +#if SYM_CONF_GENERIC_SUPPORT +#define sym_set_script_dp(np, cp, dp) \ + do { \ + if (np->features & FE_LDSTR) \ + cp->phys.head.lastp = cpu_to_scr(dp); \ + else \ + np->ccb_head.lastp = cpu_to_scr(dp); \ + } while (0) +#define sym_get_script_dp(np, cp) \ + scr_to_cpu((np->features & FE_LDSTR) ? \ + cp->phys.head.lastp : np->ccb_head.lastp) +#else +#define sym_set_script_dp(np, cp, dp) \ + do { \ + cp->phys.head.lastp = cpu_to_scr(dp); \ + } while (0) + +#define sym_get_script_dp(np, cp) (cp->phys.head.lastp) +#endif + +/* + * Data Structure Block + * + * During execution of a ccb by the script processor, the + * DSA (data structure address) register points to this + * substructure of the ccb. + */ +struct sym_dsb { + /* + * CCB header. + * Also assumed at offset 0 of the sym_ccb structure. + */ +/*0*/ struct sym_ccbh head; + + /* + * Phase mismatch contexts. + * We need two to handle correctly the SAVED DATA POINTER. + * MUST BOTH BE AT OFFSET < 256, due to using 8 bit arithmetic + * for address calculation from SCRIPTS. + */ + struct sym_pmc pm0; + struct sym_pmc pm1; + + /* + * Table data for Script + */ + struct sym_tblsel select; + struct sym_tblmove smsg; + struct sym_tblmove smsg_ext; + struct sym_tblmove cmd; + struct sym_tblmove sense; + struct sym_tblmove wresid; + struct sym_tblmove data [SYM_CONF_MAX_SG]; +}; + +/* + * Our Command Control Block + */ +struct sym_ccb { + /* + * This is the data structure which is pointed by the DSA + * register when it is executed by the script processor. + * It must be the first entry. + */ + struct sym_dsb phys; + + /* + * Pointer to CAM ccb and related stuff. + */ + struct scsi_cmnd *cmd; /* CAM scsiio ccb */ + u8 cdb_buf[16]; /* Copy of CDB */ +#define SYM_SNS_BBUF_LEN 32 + u8 sns_bbuf[SYM_SNS_BBUF_LEN]; /* Bounce buffer for sense data */ + int data_len; /* Total data length */ + int segments; /* Number of SG segments */ + + u8 order; /* Tag type (if tagged command) */ + + /* + * Miscellaneous status'. + */ + u_char nego_status; /* Negotiation status */ + u_char xerr_status; /* Extended error flags */ + u32 extra_bytes; /* Extraneous bytes transferred */ + + /* + * Message areas. + * We prepare a message to be sent after selection. + * We may use a second one if the command is rescheduled + * due to CHECK_CONDITION or COMMAND TERMINATED. + * Contents are IDENTIFY and SIMPLE_TAG. + * While negotiating sync or wide transfer, + * a SDTR or WDTR message is appended. + */ + u_char scsi_smsg [12]; + u_char scsi_smsg2[12]; + + /* + * Auto request sense related fields. + */ + u_char sensecmd[6]; /* Request Sense command */ + u_char sv_scsi_status; /* Saved SCSI status */ + u_char sv_xerr_status; /* Saved extended status */ + int sv_resid; /* Saved residual */ + + /* + * Other fields. + */ + u32 ccb_ba; /* BUS address of this CCB */ + u_short tag; /* Tag for this transfer */ + /* NO_TAG means no tag */ + u_char target; + u_char lun; + struct sym_ccb *link_ccbh; /* Host adapter CCB hash chain */ + SYM_QUEHEAD link_ccbq; /* Link to free/busy CCB queue */ + u32 startp; /* Initial data pointer */ + u32 goalp; /* Expected last data pointer */ +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + u32 wgoalp; +#endif + int ext_sg; /* Extreme data pointer, used */ + int ext_ofs; /* to calculate the residual. */ +#ifdef SYM_OPT_HANDLE_DEVICE_QUEUEING + SYM_QUEHEAD link2_ccbq; /* Link for device queueing */ + u_char started; /* CCB queued to the squeue */ +#endif + u_char to_abort; /* Want this IO to be aborted */ +#ifdef SYM_OPT_LIMIT_COMMAND_REORDERING + u_char tags_si; /* Lun tags sum index (0,1) */ +#endif +}; + +#define CCB_BA(cp,lbl) (cp->ccb_ba + offsetof(struct sym_ccb, lbl)) + +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN +#define sym_goalp(cp) ((cp->host_flags & HF_DATA_IN) ? cp->goalp : cp->wgoalp) +#else +#define sym_goalp(cp) (cp->goalp) +#endif + +typedef struct device *m_pool_ident_t; + +/* + * Host Control Block + */ +struct sym_hcb { + /* + * Global headers. + * Due to poorness of addressing capabilities, earlier + * chips (810, 815, 825) copy part of the data structures + * (CCB, TCB and LCB) in fixed areas. + */ +#if SYM_CONF_GENERIC_SUPPORT + struct sym_ccbh ccb_head; + struct sym_tcbh tcb_head; + struct sym_lcbh lcb_head; +#endif + /* + * Idle task and invalid task actions and + * their bus addresses. + */ + struct sym_actscr idletask, notask, bad_itl, bad_itlq; + u32 idletask_ba, notask_ba, bad_itl_ba, bad_itlq_ba; + + /* + * Dummy lun table to protect us against target + * returning bad lun number on reselection. + */ + u32 *badluntbl; /* Table physical address */ + u32 badlun_sa; /* SCRIPT handler BUS address */ + + /* + * Bus address of this host control block. + */ + u32 hcb_ba; + + /* + * Bit 32-63 of the on-chip RAM bus address in LE format. + * The START_RAM64 script loads the MMRS and MMWS from this + * field. + */ + u32 scr_ram_seg; + + /* + * Initial value of some IO register bits. + * These values are assumed to have been set by BIOS, and may + * be used to probe adapter implementation differences. + */ + u_char sv_scntl0, sv_scntl3, sv_dmode, sv_dcntl, sv_ctest3, sv_ctest4, + sv_ctest5, sv_gpcntl, sv_stest2, sv_stest4, sv_scntl4, + sv_stest1; + + /* + * Actual initial value of IO register bits used by the + * driver. They are loaded at initialisation according to + * features that are to be enabled/disabled. + */ + u_char rv_scntl0, rv_scntl3, rv_dmode, rv_dcntl, rv_ctest3, rv_ctest4, + rv_ctest5, rv_stest2, rv_ccntl0, rv_ccntl1, rv_scntl4; + + /* + * Target data. + */ + struct sym_tcb target[SYM_CONF_MAX_TARGET]; + + /* + * Target control block bus address array used by the SCRIPT + * on reselection. + */ + u32 *targtbl; + u32 targtbl_ba; + + /* + * DMA pool handle for this HBA. + */ + m_pool_ident_t bus_dmat; + + /* + * O/S specific data structure + */ + struct sym_shcb s; + + /* + * Physical bus addresses of the chip. + */ + u32 mmio_ba; /* MMIO 32 bit BUS address */ + int mmio_ws; /* MMIO Window size */ + + u32 ram_ba; /* RAM 32 bit BUS address */ + int ram_ws; /* RAM window size */ + + /* + * SCRIPTS virtual and physical bus addresses. + * 'script' is loaded in the on-chip RAM if present. + * 'scripth' stays in main memory for all chips except the + * 53C895A, 53C896 and 53C1010 that provide 8K on-chip RAM. + */ + u_char *scripta0; /* Copy of scripts A, B, Z */ + u_char *scriptb0; + u_char *scriptz0; + u32 scripta_ba; /* Actual scripts A, B, Z */ + u32 scriptb_ba; /* 32 bit bus addresses. */ + u32 scriptz_ba; + u_short scripta_sz; /* Actual size of script A, B, Z*/ + u_short scriptb_sz; + u_short scriptz_sz; + + /* + * Bus addresses, setup and patch methods for + * the selected firmware. + */ + struct sym_fwa_ba fwa_bas; /* Useful SCRIPTA bus addresses */ + struct sym_fwb_ba fwb_bas; /* Useful SCRIPTB bus addresses */ + struct sym_fwz_ba fwz_bas; /* Useful SCRIPTZ bus addresses */ + void (*fw_setup)(struct sym_hcb *np, struct sym_fw *fw); + void (*fw_patch)(struct sym_hcb *np); + char *fw_name; + + /* + * General controller parameters and configuration. + */ + u_short device_id; /* PCI device id */ + u_char revision_id; /* PCI device revision id */ + u_int features; /* Chip features map */ + u_char myaddr; /* SCSI id of the adapter */ + u_char maxburst; /* log base 2 of dwords burst */ + u_char maxwide; /* Maximum transfer width */ + u_char minsync; /* Min sync period factor (ST) */ + u_char maxsync; /* Max sync period factor (ST) */ + u_char maxoffs; /* Max scsi offset (ST) */ + u_char minsync_dt; /* Min sync period factor (DT) */ + u_char maxsync_dt; /* Max sync period factor (DT) */ + u_char maxoffs_dt; /* Max scsi offset (DT) */ + u_char multiplier; /* Clock multiplier (1,2,4) */ + u_char clock_divn; /* Number of clock divisors */ + u32 clock_khz; /* SCSI clock frequency in KHz */ + u32 pciclk_khz; /* Estimated PCI clock in KHz */ + /* + * Start queue management. + * It is filled up by the host processor and accessed by the + * SCRIPTS processor in order to start SCSI commands. + */ + volatile /* Prevent code optimizations */ + u32 *squeue; /* Start queue virtual address */ + u32 squeue_ba; /* Start queue BUS address */ + u_short squeueput; /* Next free slot of the queue */ + u_short actccbs; /* Number of allocated CCBs */ + + /* + * Command completion queue. + * It is the same size as the start queue to avoid overflow. + */ + u_short dqueueget; /* Next position to scan */ + volatile /* Prevent code optimizations */ + u32 *dqueue; /* Completion (done) queue */ + u32 dqueue_ba; /* Done queue BUS address */ + + /* + * Miscellaneous buffers accessed by the scripts-processor. + * They shall be DWORD aligned, because they may be read or + * written with a script command. + */ + u_char msgout[8]; /* Buffer for MESSAGE OUT */ + u_char msgin [8]; /* Buffer for MESSAGE IN */ + u32 lastmsg; /* Last SCSI message sent */ + u32 scratch; /* Scratch for SCSI receive */ + /* Also used for cache test */ + /* + * Miscellaneous configuration and status parameters. + */ + u_char usrflags; /* Miscellaneous user flags */ + u_char scsi_mode; /* Current SCSI BUS mode */ + u_char verbose; /* Verbosity for this controller*/ + + /* + * CCB lists and queue. + */ + struct sym_ccb **ccbh; /* CCBs hashed by DSA value */ + /* CCB_HASH_SIZE lists of CCBs */ + SYM_QUEHEAD free_ccbq; /* Queue of available CCBs */ + SYM_QUEHEAD busy_ccbq; /* Queue of busy CCBs */ + + /* + * During error handling and/or recovery, + * active CCBs that are to be completed with + * error or requeued are moved from the busy_ccbq + * to the comp_ccbq prior to completion. + */ + SYM_QUEHEAD comp_ccbq; + +#ifdef SYM_OPT_HANDLE_DEVICE_QUEUEING + SYM_QUEHEAD dummy_ccbq; +#endif + + /* + * IMMEDIATE ARBITRATION (IARB) control. + * + * We keep track in 'last_cp' of the last CCB that has been + * queued to the SCRIPTS processor and clear 'last_cp' when + * this CCB completes. If last_cp is not zero at the moment + * we queue a new CCB, we set a flag in 'last_cp' that is + * used by the SCRIPTS as a hint for setting IARB. + * We donnot set more than 'iarb_max' consecutive hints for + * IARB in order to leave devices a chance to reselect. + * By the way, any non zero value of 'iarb_max' is unfair. :) + */ +#ifdef SYM_CONF_IARB_SUPPORT + u_short iarb_max; /* Max. # consecutive IARB hints*/ + u_short iarb_count; /* Actual # of these hints */ + struct sym_ccb * last_cp; +#endif + + /* + * Command abort handling. + * We need to synchronize tightly with the SCRIPTS + * processor in order to handle things correctly. + */ + u_char abrt_msg[4]; /* Message to send buffer */ + struct sym_tblmove abrt_tbl; /* Table for the MOV of it */ + struct sym_tblsel abrt_sel; /* Sync params for selection */ + u_char istat_sem; /* Tells the chip to stop (SEM) */ + + /* + * 64 bit DMA handling. + */ +#if SYM_CONF_DMA_ADDRESSING_MODE != 0 + u_char use_dac; /* Use PCI DAC cycles */ +#if SYM_CONF_DMA_ADDRESSING_MODE == 2 + u_char dmap_dirty; /* Dma segments registers dirty */ + u32 dmap_bah[SYM_DMAP_SIZE];/* Segment registers map */ +#endif +#endif +}; + +#define HCB_BA(np, lbl) (np->hcb_ba + offsetof(struct sym_hcb, lbl)) + + +/* + * FIRMWARES (sym_fw.c) + */ +struct sym_fw * sym_find_firmware(struct sym_chip *chip); +void sym_fw_bind_script(struct sym_hcb *np, u32 *start, int len); + +/* + * Driver methods called from O/S specific code. + */ +char *sym_driver_name(void); +void sym_print_xerr(struct scsi_cmnd *cmd, int x_status); +int sym_reset_scsi_bus(struct sym_hcb *np, int enab_int); +struct sym_chip *sym_lookup_chip_table(u_short device_id, u_char revision); +void sym_put_start_queue(struct sym_hcb *np, struct sym_ccb *cp); +#ifdef SYM_OPT_HANDLE_DEVICE_QUEUEING +void sym_start_next_ccbs(struct sym_hcb *np, struct sym_lcb *lp, int maxn); +#endif +void sym_start_up(struct sym_hcb *np, int reason); +void sym_interrupt(struct sym_hcb *np); +int sym_clear_tasks(struct sym_hcb *np, int cam_status, int target, int lun, int task); +struct sym_ccb *sym_get_ccb(struct sym_hcb *np, struct scsi_cmnd *cmd, u_char tag_order); +void sym_free_ccb(struct sym_hcb *np, struct sym_ccb *cp); +struct sym_lcb *sym_alloc_lcb(struct sym_hcb *np, u_char tn, u_char ln); +int sym_queue_scsiio(struct sym_hcb *np, struct scsi_cmnd *csio, struct sym_ccb *cp); +int sym_abort_scsiio(struct sym_hcb *np, struct scsi_cmnd *ccb, int timed_out); +int sym_reset_scsi_target(struct sym_hcb *np, int target); +void sym_hcb_free(struct sym_hcb *np); +int sym_hcb_attach(struct Scsi_Host *shost, struct sym_fw *fw, struct sym_nvram *nvram); + +/* + * Build a scatter/gather entry. + * + * For 64 bit systems, we use the 8 upper bits of the size field + * to provide bus address bits 32-39 to the SCRIPTS processor. + * This allows the 895A, 896, 1010 to address up to 1 TB of memory. + */ + +#if SYM_CONF_DMA_ADDRESSING_MODE == 0 +#define sym_build_sge(np, data, badd, len) \ +do { \ + (data)->addr = cpu_to_scr(badd); \ + (data)->size = cpu_to_scr(len); \ +} while (0) +#elif SYM_CONF_DMA_ADDRESSING_MODE == 1 +#define sym_build_sge(np, data, badd, len) \ +do { \ + (data)->addr = cpu_to_scr(badd); \ + (data)->size = cpu_to_scr((((badd) >> 8) & 0xff000000) + len); \ +} while (0) +#elif SYM_CONF_DMA_ADDRESSING_MODE == 2 +int sym_lookup_dmap(struct sym_hcb *np, u32 h, int s); +static __inline void +sym_build_sge(struct sym_hcb *np, struct sym_tblmove *data, u64 badd, int len) +{ + u32 h = (badd>>32); + int s = (h&SYM_DMAP_MASK); + + if (h != np->dmap_bah[s]) + goto bad; +good: + (data)->addr = cpu_to_scr(badd); + (data)->size = cpu_to_scr((s<<24) + len); + return; +bad: + s = sym_lookup_dmap(np, h, s); + goto good; +} +#else +#error "Unsupported DMA addressing mode" +#endif + +/* + * Set up data pointers used by SCRIPTS. + * Called from O/S specific code. + */ +static inline void sym_setup_data_pointers(struct sym_hcb *np, + struct sym_ccb *cp, int dir) +{ + u32 lastp, goalp; + + /* + * No segments means no data. + */ + if (!cp->segments) + dir = CAM_DIR_NONE; + + /* + * Set the data pointer. + */ + switch(dir) { +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + case CAM_DIR_UNKNOWN: +#endif + case CAM_DIR_OUT: + goalp = SCRIPTA_BA(np, data_out2) + 8; + lastp = goalp - 8 - (cp->segments * (2*4)); +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + cp->wgoalp = cpu_to_scr(goalp); + if (dir != CAM_DIR_UNKNOWN) + break; + cp->phys.head.wlastp = cpu_to_scr(lastp); + /* fall through */ +#else + break; +#endif + case CAM_DIR_IN: + cp->host_flags |= HF_DATA_IN; + goalp = SCRIPTA_BA(np, data_in2) + 8; + lastp = goalp - 8 - (cp->segments * (2*4)); + break; + case CAM_DIR_NONE: + default: +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + cp->host_flags |= HF_DATA_IN; +#endif + lastp = goalp = SCRIPTB_BA(np, no_data); + break; + } + + /* + * Set all pointers values needed by SCRIPTS. + */ + cp->phys.head.lastp = cpu_to_scr(lastp); + cp->phys.head.savep = cpu_to_scr(lastp); + cp->startp = cp->phys.head.savep; + cp->goalp = cpu_to_scr(goalp); + +#ifdef SYM_OPT_HANDLE_DIR_UNKNOWN + /* + * If direction is unknown, start at data_io. + */ + if (dir == CAM_DIR_UNKNOWN) + cp->phys.head.savep = cpu_to_scr(SCRIPTB_BA(np, data_io)); +#endif +} + +/* + * MEMORY ALLOCATOR. + */ + +#define SYM_MEM_PAGE_ORDER 0 /* 1 PAGE maximum */ +#define SYM_MEM_CLUSTER_SHIFT (PAGE_SHIFT+SYM_MEM_PAGE_ORDER) +#define SYM_MEM_FREE_UNUSED /* Free unused pages immediately */ + +#define SYM_MEM_WARN 1 /* Warn on failed operations */ + +#define sym_get_mem_cluster() \ + (void *) __get_free_pages(GFP_ATOMIC, SYM_MEM_PAGE_ORDER) +#define sym_free_mem_cluster(p) \ + free_pages((unsigned long)p, SYM_MEM_PAGE_ORDER) + +/* + * Link between free memory chunks of a given size. + */ +typedef struct sym_m_link { + struct sym_m_link *next; +} *m_link_p; + +/* + * Virtual to bus physical translation for a given cluster. + * Such a structure is only useful with DMA abstraction. + */ +typedef struct sym_m_vtob { /* Virtual to Bus address translation */ + struct sym_m_vtob *next; + void *vaddr; /* Virtual address */ + dma_addr_t baddr; /* Bus physical address */ +} *m_vtob_p; + +/* Hash this stuff a bit to speed up translations */ +#define VTOB_HASH_SHIFT 5 +#define VTOB_HASH_SIZE (1UL << VTOB_HASH_SHIFT) +#define VTOB_HASH_MASK (VTOB_HASH_SIZE-1) +#define VTOB_HASH_CODE(m) \ + ((((unsigned long)(m)) >> SYM_MEM_CLUSTER_SHIFT) & VTOB_HASH_MASK) + +/* + * Memory pool of a given kind. + * Ideally, we want to use: + * 1) 1 pool for memory we donnot need to involve in DMA. + * 2) The same pool for controllers that require same DMA + * constraints and features. + * The OS specific m_pool_id_t thing and the sym_m_pool_match() + * method are expected to tell the driver about. + */ +typedef struct sym_m_pool { + m_pool_ident_t dev_dmat; /* Identifies the pool (see above) */ + void * (*get_mem_cluster)(struct sym_m_pool *); +#ifdef SYM_MEM_FREE_UNUSED + void (*free_mem_cluster)(struct sym_m_pool *, void *); +#endif +#define M_GET_MEM_CLUSTER() mp->get_mem_cluster(mp) +#define M_FREE_MEM_CLUSTER(p) mp->free_mem_cluster(mp, p) + int nump; + m_vtob_p vtob[VTOB_HASH_SIZE]; + struct sym_m_pool *next; + struct sym_m_link h[SYM_MEM_CLUSTER_SHIFT - SYM_MEM_SHIFT + 1]; +} *m_pool_p; + +/* + * Alloc, free and translate addresses to bus physical + * for DMAable memory. + */ +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); +dma_addr_t __vtobus(m_pool_ident_t dev_dmat, void *m); + +/* + * Verbs used by the driver code for DMAable memory handling. + * The _uvptv_ macro avoids a nasty warning about pointer to volatile + * being discarded. + */ +#define _uvptv_(p) ((void *)((u_long)(p))) + +#define _sym_calloc_dma(np, l, n) __sym_calloc_dma(np->bus_dmat, l, n) +#define _sym_mfree_dma(np, p, l, n) \ + __sym_mfree_dma(np->bus_dmat, _uvptv_(p), l, n) +#define sym_calloc_dma(l, n) _sym_calloc_dma(np, l, n) +#define sym_mfree_dma(p, l, n) _sym_mfree_dma(np, p, l, n) +#define vtobus(p) __vtobus(np->bus_dmat, _uvptv_(p)) + +/* + * 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 void *sym_m_get_dma_mem_cluster(m_pool_p mp, m_vtob_p vbp) +{ + void *vaddr = NULL; + dma_addr_t baddr = 0; + + vaddr = dma_alloc_coherent(mp->dev_dmat, SYM_MEM_CLUSTER_SIZE, &baddr, + GFP_ATOMIC); + if (vaddr) { + vbp->vaddr = vaddr; + vbp->baddr = baddr; + } + return vaddr; +} + +static __inline void sym_m_free_dma_mem_cluster(m_pool_p mp, m_vtob_p vbp) +{ + dma_free_coherent(mp->dev_dmat, SYM_MEM_CLUSTER_SIZE, vbp->vaddr, + vbp->baddr); +} + +#endif /* SYM_HIPD_H */ |