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Release 4.7 drivers/scsi/wd719x.c

Directory: drivers/scsi
/*
 * Driver for Western Digital WD7193, WD7197 and WD7296 SCSI cards
 * Copyright 2013 Ondrej Zary
 *
 * Original driver by
 * Aaron Dewell <dewell@woods.net>
 * Gaerti <Juergen.Gaertner@mbox.si.uni-hannover.de>
 *
 * HW documentation available in book:
 *
 * SPIDER Command Protocol
 * by Chandru M. Sippy
 * SCSI Storage Products (MCP)
 * Western Digital Corporation
 * 09-15-95
 *
 * http://web.archive.org/web/20070717175254/http://sun1.rrzn.uni-hannover.de/gaertner.juergen/wd719x/Linux/Docu/Spider/
 */

/*
 * Driver workflow:
 * 1. SCSI command is transformed to SCB (Spider Control Block) by the
 *    queuecommand function.
 * 2. The address of the SCB is stored in a list to be able to access it, if
 *    something goes wrong.
 * 3. The address of the SCB is written to the Controller, which loads the SCB
 *    via BM-DMA and processes it.
 * 4. After it has finished, it generates an interrupt, and sets registers.
 *
 * flaws:
 *  - abort/reset functions
 *
 * ToDo:
 *  - tagged queueing
 */

#include <linux/interrupt.h>
#include <linux/module.h>
#include <linux/delay.h>
#include <linux/pci.h>
#include <linux/firmware.h>
#include <linux/eeprom_93cx6.h>
#include <scsi/scsi_cmnd.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_host.h>
#include "wd719x.h"

/* low-level register access */

static inline u8 wd719x_readb(struct wd719x *wd, u8 reg) { return ioread8(wd->base + reg); }

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static inline u32 wd719x_readl(struct wd719x *wd, u8 reg) { return ioread32(wd->base + reg); }

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static inline void wd719x_writeb(struct wd719x *wd, u8 reg, u8 val) { iowrite8(val, wd->base + reg); }

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static inline void wd719x_writew(struct wd719x *wd, u8 reg, u16 val) { iowrite16(val, wd->base + reg); }

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static inline void wd719x_writel(struct wd719x *wd, u8 reg, u32 val) { iowrite32(val, wd->base + reg); }

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/* wait until the command register is ready */
static inline int wd719x_wait_ready(struct wd719x *wd) { int i = 0; do { if (wd719x_readb(wd, WD719X_AMR_COMMAND) == WD719X_CMD_READY) return 0; udelay(1); } while (i++ < WD719X_WAIT_FOR_CMD_READY); dev_err(&wd->pdev->dev, "command register is not ready: 0x%02x\n", wd719x_readb(wd, WD719X_AMR_COMMAND)); return -ETIMEDOUT; }

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/* poll interrupt status register until command finishes */
static inline int wd719x_wait_done(struct wd719x *wd, int timeout) { u8 status; while (timeout > 0) { status = wd719x_readb(wd, WD719X_AMR_INT_STATUS); if (status) break; timeout--; udelay(1); } if (timeout <= 0) { dev_err(&wd->pdev->dev, "direct command timed out\n"); return -ETIMEDOUT; } if (status != WD719X_INT_NOERRORS) { dev_err(&wd->pdev->dev, "direct command failed, status 0x%02x, SUE 0x%02x\n", status, wd719x_readb(wd, WD719X_AMR_SCB_ERROR)); return -EIO; } return 0; }

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static int wd719x_direct_cmd(struct wd719x *wd, u8 opcode, u8 dev, u8 lun, u8 tag, dma_addr_t data, int timeout) { int ret = 0; /* clear interrupt status register (allow command register to clear) */ wd719x_writeb(wd, WD719X_AMR_INT_STATUS, WD719X_INT_NONE); /* Wait for the Command register to become free */ if (wd719x_wait_ready(wd)) return -ETIMEDOUT; /* make sure we get NO interrupts */ dev |= WD719X_DISABLE_INT; wd719x_writeb(wd, WD719X_AMR_CMD_PARAM, dev); wd719x_writeb(wd, WD719X_AMR_CMD_PARAM_2, lun); wd719x_writeb(wd, WD719X_AMR_CMD_PARAM_3, tag); if (data) wd719x_writel(wd, WD719X_AMR_SCB_IN, data); /* clear interrupt status register again */ wd719x_writeb(wd, WD719X_AMR_INT_STATUS, WD719X_INT_NONE); /* Now, write the command */ wd719x_writeb(wd, WD719X_AMR_COMMAND, opcode); if (timeout) /* wait for the command to complete */ ret = wd719x_wait_done(wd, timeout); /* clear interrupt status register (clean up) */ if (opcode != WD719X_CMD_READ_FIRMVER) wd719x_writeb(wd, WD719X_AMR_INT_STATUS, WD719X_INT_NONE); return ret; }

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static void wd719x_destroy(struct wd719x *wd) { struct wd719x_scb *scb; /* stop the RISC */ if (wd719x_direct_cmd(wd, WD719X_CMD_SLEEP, 0, 0, 0, 0, WD719X_WAIT_FOR_RISC)) dev_warn(&wd->pdev->dev, "RISC sleep command failed\n"); /* disable RISC */ wd719x_writeb(wd, WD719X_PCI_MODE_SELECT, 0); /* free all SCBs */ list_for_each_entry(scb, &wd->active_scbs, list) pci_free_consistent(wd->pdev, sizeof(struct wd719x_scb), scb, scb->phys); list_for_each_entry(scb, &wd->free_scbs, list) pci_free_consistent(wd->pdev, sizeof(struct wd719x_scb), scb, scb->phys); /* free internal buffers */ pci_free_consistent(wd->pdev, wd->fw_size, wd->fw_virt, wd->fw_phys); wd->fw_virt = NULL; pci_free_consistent(wd->pdev, WD719X_HASH_TABLE_SIZE, wd->hash_virt, wd->hash_phys); wd->hash_virt = NULL; pci_free_consistent(wd->pdev, sizeof(struct wd719x_host_param), wd->params, wd->params_phys); wd->params = NULL; free_irq(wd->pdev->irq, wd); }

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/* finish a SCSI command, mark SCB (if any) as free, unmap buffers */
static void wd719x_finish_cmd(struct scsi_cmnd *cmd, int result) { struct wd719x *wd = shost_priv(cmd->device->host); struct wd719x_scb *scb = (struct wd719x_scb *) cmd->host_scribble; if (scb) { list_move(&scb->list, &wd->free_scbs); dma_unmap_single(&wd->pdev->dev, cmd->SCp.dma_handle, SCSI_SENSE_BUFFERSIZE, DMA_FROM_DEVICE); scsi_dma_unmap(cmd); } cmd->result = result << 16; cmd->scsi_done(cmd); }

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/* Build a SCB and send it to the card */
static int wd719x_queuecommand(struct Scsi_Host *sh, struct scsi_cmnd *cmd) { int i, count_sg; unsigned long flags; struct wd719x_scb *scb; struct wd719x *wd = shost_priv(sh); dma_addr_t phys; cmd->host_scribble = NULL; /* get a free SCB - either from existing ones or allocate a new one */ spin_lock_irqsave(wd->sh->host_lock, flags); scb = list_first_entry_or_null(&wd->free_scbs, struct wd719x_scb, list); if (scb) { list_del(&scb->list); phys = scb->phys; } else { spin_unlock_irqrestore(wd->sh->host_lock, flags); scb = pci_alloc_consistent(wd->pdev, sizeof(struct wd719x_scb), &phys); spin_lock_irqsave(wd->sh->host_lock, flags); if (!scb) { dev_err(&wd->pdev->dev, "unable to allocate SCB\n"); wd719x_finish_cmd(cmd, DID_ERROR); spin_unlock_irqrestore(wd->sh->host_lock, flags); return 0; } } memset(scb, 0, sizeof(struct wd719x_scb)); list_add(&scb->list, &wd->active_scbs); scb->phys = phys; scb->cmd = cmd; cmd->host_scribble = (char *) scb; scb->CDB_tag = 0; /* Tagged queueing not supported yet */ scb->devid = cmd->device->id; scb->lun = cmd->device->lun; /* copy the command */ memcpy(scb->CDB, cmd->cmnd, cmd->cmd_len); /* map sense buffer */ scb->sense_buf_length = SCSI_SENSE_BUFFERSIZE; cmd->SCp.dma_handle = dma_map_single(&wd->pdev->dev, cmd->sense_buffer, SCSI_SENSE_BUFFERSIZE, DMA_FROM_DEVICE); scb->sense_buf = cpu_to_le32(cmd->SCp.dma_handle); /* request autosense */ scb->SCB_options |= WD719X_SCB_FLAGS_AUTO_REQUEST_SENSE; /* check direction */ if (cmd->sc_data_direction == DMA_TO_DEVICE) scb->SCB_options |= WD719X_SCB_FLAGS_CHECK_DIRECTION | WD719X_SCB_FLAGS_PCI_TO_SCSI; else if (cmd->sc_data_direction == DMA_FROM_DEVICE) scb->SCB_options |= WD719X_SCB_FLAGS_CHECK_DIRECTION; /* Scather/gather */ count_sg = scsi_dma_map(cmd); if (count_sg < 0) { wd719x_finish_cmd(cmd, DID_ERROR); spin_unlock_irqrestore(wd->sh->host_lock, flags); return 0; } BUG_ON(count_sg > WD719X_SG); if (count_sg) { struct scatterlist *sg; scb->data_length = cpu_to_le32(count_sg * sizeof(struct wd719x_sglist)); scb->data_p = cpu_to_le32(scb->phys + offsetof(struct wd719x_scb, sg_list)); scsi_for_each_sg(cmd, sg, count_sg, i) { scb->sg_list[i].ptr = cpu_to_le32(sg_dma_address(sg)); scb->sg_list[i].length = cpu_to_le32(sg_dma_len(sg)); } scb->SCB_options |= WD719X_SCB_FLAGS_DO_SCATTER_GATHER; } else { /* zero length */ scb->data_length = 0; scb->data_p = 0; } /* check if the Command register is free */ if (wd719x_readb(wd, WD719X_AMR_COMMAND) != WD719X_CMD_READY) { spin_unlock_irqrestore(wd->sh->host_lock, flags); return SCSI_MLQUEUE_HOST_BUSY; } /* write pointer to the AMR */ wd719x_writel(wd, WD719X_AMR_SCB_IN, scb->phys); /* send SCB opcode */ wd719x_writeb(wd, WD719X_AMR_COMMAND, WD719X_CMD_PROCESS_SCB); spin_unlock_irqrestore(wd->sh->host_lock, flags); return 0; }

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static int wd719x_chip_init(struct wd719x *wd) { int i, ret; u32 risc_init[3]; const struct firmware *fw_wcs, *fw_risc; const char fwname_wcs[] = "wd719x-wcs.bin"; const char fwname_risc[] = "wd719x-risc.bin"; memset(wd->hash_virt, 0, WD719X_HASH_TABLE_SIZE); /* WCS (sequencer) firmware */ ret = request_firmware(&fw_wcs, fwname_wcs, &wd->pdev->dev); if (ret) { dev_err(&wd->pdev->dev, "Unable to load firmware %s: %d\n", fwname_wcs, ret); return ret; } /* RISC firmware */ ret = request_firmware(&fw_risc, fwname_risc, &wd->pdev->dev); if (ret) { dev_err(&wd->pdev->dev, "Unable to load firmware %s: %d\n", fwname_risc, ret); release_firmware(fw_wcs); return ret; } wd->fw_size = ALIGN(fw_wcs->size, 4) + fw_risc->size; if (!wd->fw_virt) wd->fw_virt = pci_alloc_consistent(wd->pdev, wd->fw_size, &wd->fw_phys); if (!wd->fw_virt) { ret = -ENOMEM; goto wd719x_init_end; } /* make a fresh copy of WCS and RISC code */ memcpy(wd->fw_virt, fw_wcs->data, fw_wcs->size); memcpy(wd->fw_virt + ALIGN(fw_wcs->size, 4), fw_risc->data, fw_risc->size); /* Reset the Spider Chip and adapter itself */ wd719x_writeb(wd, WD719X_PCI_PORT_RESET, WD719X_PCI_RESET); udelay(WD719X_WAIT_FOR_RISC); /* Clear PIO mode bits set by BIOS */ wd719x_writeb(wd, WD719X_AMR_CMD_PARAM, 0); /* ensure RISC is not running */ wd719x_writeb(wd, WD719X_PCI_MODE_SELECT, 0); /* ensure command port is ready */ wd719x_writeb(wd, WD719X_AMR_COMMAND, 0); if (wd719x_wait_ready(wd)) { ret = -ETIMEDOUT; goto wd719x_init_end; } /* Transfer the first 2K words of RISC code to kick start the uP */ risc_init[0] = wd->fw_phys; /* WCS FW */ risc_init[1] = wd->fw_phys + ALIGN(fw_wcs->size, 4); /* RISC FW */ risc_init[2] = wd->hash_phys; /* hash table */ /* clear DMA status */ wd719x_writeb(wd, WD719X_PCI_CHANNEL2_3STATUS, 0); /* address to read firmware from */ wd719x_writel(wd, WD719X_PCI_EXTERNAL_ADDR, risc_init[1]); /* base address to write firmware to (on card) */ wd719x_writew(wd, WD719X_PCI_INTERNAL_ADDR, WD719X_PRAM_BASE_ADDR); /* size: first 2K words */ wd719x_writew(wd, WD719X_PCI_DMA_TRANSFER_SIZE, 2048 * 2); /* start DMA */ wd719x_writeb(wd, WD719X_PCI_CHANNEL2_3CMD, WD719X_START_CHANNEL2_3DMA); /* wait for DMA to complete */ i = WD719X_WAIT_FOR_RISC; while (i-- > 0) { u8 status = wd719x_readb(wd, WD719X_PCI_CHANNEL2_3STATUS); if (status == WD719X_START_CHANNEL2_3DONE) break; if (status == WD719X_START_CHANNEL2_3ABORT) { dev_warn(&wd->pdev->dev, "RISC bootstrap failed: DMA aborted\n"); ret = -EIO; goto wd719x_init_end; } udelay(1); } if (i < 1) { dev_warn(&wd->pdev->dev, "RISC bootstrap failed: DMA timeout\n"); ret = -ETIMEDOUT; goto wd719x_init_end; } /* firmware is loaded, now initialize and wake up the RISC */ /* write RISC initialization long words to Spider */ wd719x_writel(wd, WD719X_AMR_SCB_IN, risc_init[0]); wd719x_writel(wd, WD719X_AMR_SCB_IN + 4, risc_init[1]); wd719x_writel(wd, WD719X_AMR_SCB_IN + 8, risc_init[2]); /* disable interrupts during initialization of RISC */ wd719x_writeb(wd, WD719X_AMR_CMD_PARAM, WD719X_DISABLE_INT); /* issue INITIALIZE RISC comand */ wd719x_writeb(wd, WD719X_AMR_COMMAND, WD719X_CMD_INIT_RISC); /* enable advanced mode (wake up RISC) */ wd719x_writeb(wd, WD719X_PCI_MODE_SELECT, WD719X_ENABLE_ADVANCE_MODE); udelay(WD719X_WAIT_FOR_RISC); ret = wd719x_wait_done(wd, WD719X_WAIT_FOR_RISC); /* clear interrupt status register */ wd719x_writeb(wd, WD719X_AMR_INT_STATUS, WD719X_INT_NONE); if (ret) { dev_warn(&wd->pdev->dev, "Unable to initialize RISC\n"); goto wd719x_init_end; } /* RISC is up and running */ /* Read FW version from RISC */ ret = wd719x_direct_cmd(wd, WD719X_CMD_READ_FIRMVER, 0, 0, 0, 0, WD719X_WAIT_FOR_RISC); if (ret) { dev_warn(&wd->pdev->dev, "Unable to read firmware version\n"); goto wd719x_init_end; } dev_info(&wd->pdev->dev, "RISC initialized with firmware version %.2x.%.2x\n", wd719x_readb(wd, WD719X_AMR_SCB_OUT + 1), wd719x_readb(wd, WD719X_AMR_SCB_OUT)); /* RESET SCSI bus */ ret = wd719x_direct_cmd(wd, WD719X_CMD_BUSRESET, 0, 0, 0, 0, WD719X_WAIT_FOR_SCSI_RESET); if (ret) { dev_warn(&wd->pdev->dev, "SCSI bus reset failed\n"); goto wd719x_init_end; } /* use HostParameter structure to set Spider's Host Parameter Block */ ret = wd719x_direct_cmd(wd, WD719X_CMD_SET_PARAM, 0, sizeof(struct wd719x_host_param), 0, wd->params_phys, WD719X_WAIT_FOR_RISC); if (ret) { dev_warn(&wd->pdev->dev, "Failed to set HOST PARAMETERS\n"); goto wd719x_init_end; } /* initiate SCAM (does nothing if disabled in BIOS) */ /* bug?: we should pass a mask of static IDs which we don't have */ ret = wd719x_direct_cmd(wd, WD719X_CMD_INIT_SCAM, 0, 0, 0, 0, WD719X_WAIT_FOR_SCSI_RESET); if (ret) { dev_warn(&wd->pdev->dev, "SCAM initialization failed\n"); goto wd719x_init_end; } /* clear AMR_BIOS_SHARE_INT register */ wd719x_writeb(wd, WD719X_AMR_BIOS_SHARE_INT, 0); wd719x_init_end: release_firmware(fw_wcs); release_firmware(fw_risc); return ret; }

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static int wd719x_abort(struct scsi_cmnd *cmd) { int action, result; unsigned long flags; struct wd719x_scb *scb = (struct wd719x_scb *)cmd->host_scribble; struct wd719x *wd = shost_priv(cmd->device->host); dev_info(&wd->pdev->dev, "abort command, tag: %x\n", cmd->tag); action = /*cmd->tag ? WD719X_CMD_ABORT_TAG : */WD719X_CMD_ABORT; spin_lock_irqsave(wd->sh->host_lock, flags); result = wd719x_direct_cmd(wd, action, cmd->device->id, cmd->device->lun, cmd->tag, scb->phys, 0); spin_unlock_irqrestore(wd->sh->host_lock, flags); if (result) return FAILED; return SUCCESS; }

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static int wd719x_reset(struct scsi_cmnd *cmd, u8 opcode, u8 device) { int result; unsigned long flags; struct wd719x *wd = shost_priv(cmd->device->host); dev_info(&wd->pdev->dev, "%s reset requested\n", (opcode == WD719X_CMD_BUSRESET) ? "bus" : "device"); spin_lock_irqsave(wd->sh->host_lock, flags); result = wd719x_direct_cmd(wd, opcode, device, 0, 0, 0, WD719X_WAIT_FOR_SCSI_RESET); spin_unlock_irqrestore(wd->sh->host_lock, flags); if (result) return FAILED; return SUCCESS; }

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static int wd719x_dev_reset(struct scsi_cmnd *cmd) { return wd719x_reset(cmd, WD719X_CMD_RESET, cmd->device->id); }

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static int wd719x_bus_reset(struct scsi_cmnd *cmd) { return wd719x_reset(cmd, WD719X_CMD_BUSRESET, 0); }

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static int wd719x_host_reset(struct scsi_cmnd *cmd) { struct wd719x *wd = shost_priv(cmd->device->host); struct wd719x_scb *scb, *tmp; unsigned long flags; int result; dev_info(&wd->pdev->dev, "host reset requested\n"); spin_lock_irqsave(wd->sh->host_lock, flags); /* Try to reinit the RISC */ if (wd719x_chip_init(wd) == 0) result = SUCCESS; else result = FAILED; /* flush all SCBs */ list_for_each_entry_safe(scb, tmp, &wd->active_scbs, list) { struct scsi_cmnd *tmp_cmd = scb->cmd; wd719x_finish_cmd(tmp_cmd, result); } spin_unlock_irqrestore(wd->sh->host_lock, flags); return result; }

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static int wd719x_biosparam(struct scsi_device *sdev, struct block_device *bdev, sector_t capacity, int geom[]) { if (capacity >= 0x200000) { geom[0] = 255; /* heads */ geom[1] = 63; /* sectors */ } else { geom[0] = 64; /* heads */ geom[1] = 32; /* sectors */ } geom[2] = sector_div(capacity, geom[0] * geom[1]); /* cylinders */ return 0; }

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/* process a SCB-completion interrupt */
static inline void wd719x_interrupt_SCB(struct wd719x *wd, union wd719x_regs regs, struct wd719x_scb *scb) { struct scsi_cmnd *cmd; int result; /* now have to find result from card */ switch (regs.bytes.SUE) { case WD719X_SUE_NOERRORS: result = DID_OK; break; case WD719X_SUE_REJECTED: dev_err(&wd->pdev->dev, "command rejected\n"); result = DID_ERROR; break; case WD719X_SUE_SCBQFULL: dev_err(&wd->pdev->dev, "SCB queue is full\n"); result = DID_ERROR; break; case WD719X_SUE_TERM: dev_dbg(&wd->pdev->dev, "SCB terminated by direct command\n"); result = DID_ABORT; /* or DID_RESET? */ break; case WD719X_SUE_CHAN1ABORT: case WD719X_SUE_CHAN23ABORT: result = DID_ABORT; dev_err(&wd->pdev->dev, "DMA abort\n"); break; case WD719X_SUE_CHAN1PAR: case WD719X_SUE_CHAN23PAR: result = DID_PARITY; dev_err(&wd->pdev->dev, "DMA parity error\n"); break; case WD719X_SUE_TIMEOUT: result = DID_TIME_OUT; dev_dbg(&wd->pdev->dev, "selection timeout\n"); break; case WD719X_SUE_RESET: dev_dbg(&wd->pdev->dev, "bus reset occurred\n"); result = DID_RESET; break; case WD719X_SUE_BUSERROR: dev_dbg(&wd->pdev->dev, "SCSI bus error\n"); result = DID_ERROR; break; case WD719X_SUE_WRONGWAY: dev_err(&wd->pdev->dev, "wrong data transfer direction\n"); result = DID_ERROR; break; case WD719X_SUE_BADPHASE: dev_err(&wd->pdev->dev, "invalid SCSI phase\n"); result = DID_ERROR; break; case WD719X_SUE_TOOLONG: dev_err(&wd->pdev->dev, "record too long\n"); result = DID_ERROR; break; case WD719X_SUE_BUSFREE: dev_err(&wd->pdev->dev, "unexpected bus free\n"); result = DID_NO_CONNECT; /* or DID_ERROR ???*/ break; case WD719X_SUE_ARSDONE: dev_dbg(&wd->pdev->dev, "auto request sense\n"); if (regs.bytes.SCSI == 0) result = DID_OK; else result = DID_PARITY; break; case WD719X_SUE_IGNORED: dev_err(&wd->pdev->dev, "target id %d ignored command\n", scb->cmd->device->id); result = DID_NO_CONNECT; break; case WD719X_SUE_WRONGTAGS: dev_err(&wd->pdev->dev, "reversed tags\n"); result = DID_ERROR; break; case WD719X_SUE_BADTAGS: dev_err(&wd->pdev->dev, "tag type not supported by target\n"); result = DID_ERROR; break; case WD719X_SUE_NOSCAMID: dev_err(&wd->pdev->dev, "no SCAM soft ID available\n"); result = DID_ERROR; break; default: dev_warn(&wd->pdev->dev, "unknown SUE error code: 0x%x\n", regs.bytes.SUE); result = DID_ERROR; break; } cmd = scb->cmd; wd719x_finish_cmd(cmd, result); }

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static irqreturn_t wd719x_interrupt(int irq, void *dev_id) { struct wd719x *wd = dev_id; union wd719x_regs regs; unsigned long flags; u32 SCB_out; spin_lock_irqsave(wd->sh->host_lock, flags); /* read SCB pointer back from card */ SCB_out = wd719x_readl(wd, WD719X_AMR_SCB_OUT); /* read all status info at once */ regs.all = cpu_to_le32(wd719x_readl(wd, WD719X_AMR_OP_CODE)); switch (regs.bytes.INT) { case WD719X_INT_NONE: spin_unlock_irqrestore(wd->sh->host_lock, flags); return IRQ_NONE; case WD719X_INT_LINKNOSTATUS: dev_err(&wd->pdev->dev, "linked command completed with no status\n"); break; case WD719X_INT_BADINT: dev_err(&wd->pdev->dev, "unsolicited interrupt\n"); break; case WD719X_INT_NOERRORS: case WD719X_INT_LINKNOERRORS: case WD719X_INT_ERRORSLOGGED: case WD719X_INT_SPIDERFAILED: /* was the cmd completed a direct or SCB command? */ if (regs.bytes.OPC == WD719X_CMD_PROCESS_SCB) { struct wd719x_scb *scb; list_for_each_entry(scb, &wd->active_scbs, list) if (SCB_out == scb->phys) break; if (SCB_out == scb->phys) wd719x_interrupt_SCB(wd, regs, scb); else dev_err(&wd->pdev->dev, "card returned invalid SCB pointer\n"); } else dev_warn(&wd->pdev->dev, "direct command 0x%x completed\n", regs.bytes.OPC); break; case WD719X_INT_PIOREADY: dev_err(&wd->pdev->dev, "card indicates PIO data ready but we never use PIO\n"); /* interrupt will not be cleared until all data is read */ break; default: dev_err(&wd->pdev->dev, "unknown interrupt reason: %d\n", regs.bytes.INT); } /* clear interrupt so another can happen */ wd719x_writeb(wd, WD719X_AMR_INT_STATUS, WD719X_INT_NONE); spin_unlock_irqrestore(wd->sh->host_lock, flags); return IRQ_HANDLED; }

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static void wd719x_eeprom_reg_read(struct eeprom_93cx6 *eeprom) { struct wd719x *wd = eeprom->data; u8 reg = wd719x_readb(wd, WD719X_PCI_GPIO_DATA); eeprom->reg_data_out = reg & WD719X_EE_DO; }

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static void wd719x_eeprom_reg_write(struct eeprom_93cx6 *eeprom) { struct wd719x *wd = eeprom->data; u8 reg = 0; if (eeprom->reg_data_in) reg |= WD719X_EE_DI; if (eeprom->reg_data_clock) reg |= WD719X_EE_CLK; if (eeprom->reg_chip_select) reg |= WD719X_EE_CS; wd719x_writeb(wd, WD719X_PCI_GPIO_DATA, reg); }

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/* read config from EEPROM so it can be downloaded by the RISC on (re-)init */
static void wd719x_read_eeprom(struct wd719x *wd) { struct eeprom_93cx6 eeprom; u8 gpio; struct wd719x_eeprom_header header; eeprom.data = wd; eeprom.register_read = wd719x_eeprom_reg_read; eeprom.register_write = wd719x_eeprom_reg_write; eeprom.width = PCI_EEPROM_WIDTH_93C46; /* set all outputs to low */ wd719x_writeb(wd, WD719X_PCI_GPIO_DATA, 0); /* configure GPIO pins */ gpio = wd719x_readb(wd, WD719X_PCI_GPIO_CONTROL); /* GPIO outputs */ gpio &= (~(WD719X_EE_CLK | WD719X_EE_DI | WD719X_EE_CS)); /* GPIO input */ gpio |= WD719X_EE_DO; wd719x_writeb(wd, WD719X_PCI_GPIO_CONTROL, gpio); /* read EEPROM header */ eeprom_93cx6_multireadb(&eeprom, 0, (u8 *)&header, sizeof(header)); if (header.sig1 == 'W' && header.sig2 == 'D') eeprom_93cx6_multireadb(&eeprom, header.cfg_offset, (u8 *)wd->params, sizeof(struct wd719x_host_param)); else { /* default EEPROM values */ dev_warn(&wd->pdev->dev, "EEPROM signature is invalid (0x%02x 0x%02x), using default values\n", header.sig1, header.sig2); wd->params->ch_1_th = 0x10; /* 16 DWs = 64 B */ wd->params->scsi_conf = 0x4c; /* 48ma, spue, parity check */ wd->params->own_scsi_id = 0x07; /* ID 7, SCAM disabled */ wd->params->sel_timeout = 0x4d; /* 250 ms */ wd->params->sleep_timer = 0x01; wd->params->cdb_size = cpu_to_le16(0x5555); /* all 6 B */ wd->params->scsi_pad = 0x1b; if (wd->type == WD719X_TYPE_7193) /* narrow card - disable */ wd->params->wide = cpu_to_le32(0x00000000); else /* initiate & respond to WIDE messages */ wd->params->wide = cpu_to_le32(0xffffffff); wd->params->sync = cpu_to_le32(0xffffffff); wd->params->soft_mask = 0x00; /* all disabled */ wd->params->unsol_mask = 0x00; /* all disabled */ } /* disable TAGGED messages */ wd->params->tag_en = cpu_to_le16(0x0000); }

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/* Read card type from GPIO bits 1 and 3 */
static enum wd719x_card_type wd719x_detect_type(struct wd719x *wd) { u8 card = wd719x_readb(wd, WD719X_PCI_GPIO_CONTROL); card |= WD719X_GPIO_ID_BITS; wd719x_writeb(wd, WD719X_PCI_GPIO_CONTROL, card); card = wd719x_readb(wd, WD719X_PCI_GPIO_DATA) & WD719X_GPIO_ID_BITS; switch (card) { case 0x08: return WD719X_TYPE_7193; case 0x02: return WD719X_TYPE_7197; case 0x00: return WD719X_TYPE_7296; default: dev_warn(&wd->pdev->dev, "unknown card type 0x%x\n", card); return WD719X_TYPE_UNKNOWN; } }

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static int wd719x_board_found(struct Scsi_Host *sh) { struct wd719x *wd = shost_priv(sh); char *card_types[] = { "Unknown card", "WD7193", "WD7197", "WD7296" }; int ret; INIT_LIST_HEAD(&wd->active_scbs); INIT_LIST_HEAD(&wd->free_scbs); sh->base = pci_resource_start(wd->pdev, 0); wd->type = wd719x_detect_type(wd); wd->sh = sh; sh->irq = wd->pdev->irq; wd->fw_virt = NULL; /* memory area for host (EEPROM) parameters */ wd->params = pci_alloc_consistent(wd->pdev, sizeof(struct wd719x_host_param), &wd->params_phys); if (!wd->params) { dev_warn(&wd->pdev->dev, "unable to allocate parameter buffer\n"); return -ENOMEM; } /* memory area for the RISC for hash table of outstanding requests */ wd->hash_virt = pci_alloc_consistent(wd->pdev, WD719X_HASH_TABLE_SIZE, &wd->hash_phys); if (!wd->hash_virt) { dev_warn(&wd->pdev->dev, "unable to allocate hash buffer\n"); ret = -ENOMEM; goto fail_free_params; } ret = request_irq(wd->pdev->irq, wd719x_interrupt, IRQF_SHARED, "wd719x", wd); if (ret) { dev_warn(&wd->pdev->dev, "unable to assign IRQ %d\n", wd->pdev->irq); goto fail_free_hash; } /* read parameters from EEPROM */ wd719x_read_eeprom(wd); ret = wd719x_chip_init(wd); if (ret) goto fail_free_irq; sh->this_id = wd->params->own_scsi_id & WD719X_EE_SCSI_ID_MASK; dev_info(&wd->pdev->dev, "%s at I/O 0x%lx, IRQ %u, SCSI ID %d\n", card_types[wd->type], sh->base, sh->irq, sh->this_id); return 0; fail_free_irq: free_irq(wd->pdev->irq, wd); fail_free_hash: pci_free_consistent(wd->pdev, WD719X_HASH_TABLE_SIZE, wd->hash_virt, wd->hash_phys); fail_free_params: pci_free_consistent(wd->pdev, sizeof(struct wd719x_host_param), wd->params, wd->params_phys); return ret; }

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static struct scsi_host_template wd719x_template = { .module = THIS_MODULE, .name = "Western Digital 719x", .queuecommand = wd719x_queuecommand, .eh_abort_handler = wd719x_abort, .eh_device_reset_handler = wd719x_dev_reset, .eh_bus_reset_handler = wd719x_bus_reset, .eh_host_reset_handler = wd719x_host_reset, .bios_param = wd719x_biosparam, .proc_name = "wd719x", .can_queue = 255, .this_id = 7, .sg_tablesize = WD719X_SG, .use_clustering = ENABLE_CLUSTERING, };
static int wd719x_pci_probe(struct pci_dev *pdev, const struct pci_device_id *d) { int err; struct Scsi_Host *sh; struct wd719x *wd; err = pci_enable_device(pdev); if (err) goto fail; if (pci_set_dma_mask(pdev, DMA_BIT_MASK(32))) { dev_warn(&pdev->dev, "Unable to set 32-bit DMA mask\n"); goto disable_device; } err = pci_request_regions(pdev, "wd719x"); if (err) goto disable_device; pci_set_master(pdev); err = -ENODEV; if (pci_resource_len(pdev, 0) == 0) goto release_region; err = -ENOMEM; sh = scsi_host_alloc(&wd719x_template, sizeof(struct wd719x)); if (!sh) goto release_region; wd = shost_priv(sh); wd->base = pci_iomap(pdev, 0, 0); if (!wd->base) goto free_host; wd->pdev = pdev; err = wd719x_board_found(sh); if (err) goto unmap; err = scsi_add_host(sh, &wd->pdev->dev); if (err) goto destroy; scsi_scan_host(sh); pci_set_drvdata(pdev, sh); return 0; destroy: wd719x_destroy(wd); unmap: pci_iounmap(pdev, wd->base); free_host: scsi_host_put(sh); release_region: pci_release_regions(pdev); disable_device: pci_disable_device(pdev); fail: return err; }

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static void wd719x_pci_remove(struct pci_dev *pdev) { struct Scsi_Host *sh = pci_get_drvdata(pdev); struct wd719x *wd = shost_priv(sh); scsi_remove_host(sh); wd719x_destroy(wd); pci_iounmap(pdev, wd->base); pci_release_regions(pdev); pci_disable_device(pdev); scsi_host_put(sh); }

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static DEFINE_PCI_DEVICE_TABLE(wd719x_pci_table) = { { PCI_DEVICE(PCI_VENDOR_ID_WD, 0x3296) }, {} }; MODULE_DEVICE_TABLE(pci, wd719x_pci_table); static struct pci_driver wd719x_pci_driver = { .name = "wd719x", .id_table = wd719x_pci_table, .probe = wd719x_pci_probe, .remove = wd719x_pci_remove, };
static int __init wd719x_init(void) { return pci_register_driver(&wd719x_pci_driver); }

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static void __exit wd719x_exit(void) { pci_unregister_driver(&wd719x_pci_driver); }

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module_init(wd719x_init); module_exit(wd719x_exit); MODULE_DESCRIPTION("Western Digital WD7193/7197/7296 SCSI driver"); MODULE_AUTHOR("Ondrej Zary, Aaron Dewell, Juergen Gaertner"); MODULE_LICENSE("GPL"); MODULE_FIRMWARE("wd719x-wcs.bin"); MODULE_FIRMWARE("wd719x-risc.bin");

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Directory: drivers/scsi
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