/* * Sony MemoryStick Pro storage support * * Copyright (C) 2007 Alex Dubov * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * Special thanks to Carlos Corbacho for providing various MemoryStick cards * that made this driver possible. * */ #include #include #include #include #include #include #include #include #include #define DRIVER_NAME "mspro_block" static int major; module_param(major, int, 0644); #define MSPRO_BLOCK_MAX_SEGS 32 #define MSPRO_BLOCK_MAX_PAGES ((2 << 16) - 1) #define MSPRO_BLOCK_SIGNATURE 0xa5c3 #define MSPRO_BLOCK_MAX_ATTRIBUTES 41 #define MSPRO_BLOCK_PART_SHIFT 3 enum { MSPRO_BLOCK_ID_SYSINFO = 0x10, MSPRO_BLOCK_ID_MODELNAME = 0x15, MSPRO_BLOCK_ID_MBR = 0x20, MSPRO_BLOCK_ID_PBR16 = 0x21, MSPRO_BLOCK_ID_PBR32 = 0x22, MSPRO_BLOCK_ID_SPECFILEVALUES1 = 0x25, MSPRO_BLOCK_ID_SPECFILEVALUES2 = 0x26, MSPRO_BLOCK_ID_DEVINFO = 0x30 }; struct mspro_sys_attr { size_t size; void *data; unsigned char id; char name[32]; struct device_attribute dev_attr; }; struct mspro_attr_entry { __be32 address; __be32 size; unsigned char id; unsigned char reserved[3]; } __attribute__((packed)); struct mspro_attribute { __be16 signature; unsigned short version; unsigned char count; unsigned char reserved[11]; struct mspro_attr_entry entries[]; } __attribute__((packed)); struct mspro_sys_info { unsigned char class; unsigned char reserved0; __be16 block_size; __be16 block_count; __be16 user_block_count; __be16 page_size; unsigned char reserved1[2]; unsigned char assembly_date[8]; __be32 serial_number; unsigned char assembly_maker_code; unsigned char assembly_model_code[3]; __be16 memory_maker_code; __be16 memory_model_code; unsigned char reserved2[4]; unsigned char vcc; unsigned char vpp; __be16 controller_number; __be16 controller_function; __be16 start_sector; __be16 unit_size; unsigned char ms_sub_class; unsigned char reserved3[4]; unsigned char interface_type; __be16 controller_code; unsigned char format_type; unsigned char reserved4; unsigned char device_type; unsigned char reserved5[7]; unsigned char mspro_id[16]; unsigned char reserved6[16]; } __attribute__((packed)); struct mspro_mbr { unsigned char boot_partition; unsigned char start_head; unsigned char start_sector; unsigned char start_cylinder; unsigned char partition_type; unsigned char end_head; unsigned char end_sector; unsigned char end_cylinder; unsigned int start_sectors; unsigned int sectors_per_partition; } __attribute__((packed)); struct mspro_specfile { char name[8]; char ext[3]; unsigned char attr; unsigned char reserved[10]; unsigned short time; unsigned short date; unsigned short cluster; unsigned int size; } __attribute__((packed)); struct mspro_devinfo { __be16 cylinders; __be16 heads; __be16 bytes_per_track; __be16 bytes_per_sector; __be16 sectors_per_track; unsigned char reserved[6]; } __attribute__((packed)); struct mspro_block_data { struct memstick_dev *card; unsigned int usage_count; unsigned int caps; struct gendisk *disk; struct request_queue *queue; struct request *block_req; spinlock_t q_lock; unsigned short page_size; unsigned short cylinders; unsigned short heads; unsigned short sectors_per_track; unsigned char system; unsigned char read_only:1, eject:1, has_request:1, data_dir:1, active:1; unsigned char transfer_cmd; int (*mrq_handler)(struct memstick_dev *card, struct memstick_request **mrq); /* Default request setup function for data access method preferred by * this host instance. */ void (*setup_transfer)(struct memstick_dev *card, u64 offset, size_t length); struct attribute_group attr_group; struct scatterlist req_sg[MSPRO_BLOCK_MAX_SEGS]; unsigned int seg_count; unsigned int current_seg; unsigned int current_page; }; static DEFINE_IDR(mspro_block_disk_idr); static DEFINE_MUTEX(mspro_block_disk_lock); static int mspro_block_complete_req(struct memstick_dev *card, int error); /*** Block device ***/ static int mspro_block_bd_open(struct block_device *bdev, fmode_t mode) { struct gendisk *disk = bdev->bd_disk; struct mspro_block_data *msb = disk->private_data; int rc = -ENXIO; mutex_lock(&mspro_block_disk_lock); if (msb && msb->card) { msb->usage_count++; if ((mode & FMODE_WRITE) && msb->read_only) rc = -EROFS; else rc = 0; } mutex_unlock(&mspro_block_disk_lock); return rc; } static int mspro_block_disk_release(struct gendisk *disk) { struct mspro_block_data *msb = disk->private_data; int disk_id = MINOR(disk_devt(disk)) >> MSPRO_BLOCK_PART_SHIFT; mutex_lock(&mspro_block_disk_lock); if (msb) { if (msb->usage_count) msb->usage_count--; if (!msb->usage_count) { kfree(msb); disk->private_data = NULL; idr_remove(&mspro_block_disk_idr, disk_id); put_disk(disk); } } mutex_unlock(&mspro_block_disk_lock); return 0; } static int mspro_block_bd_release(struct gendisk *disk, fmode_t mode) { return mspro_block_disk_release(disk); } static int mspro_block_bd_getgeo(struct block_device *bdev, struct hd_geometry *geo) { struct mspro_block_data *msb = bdev->bd_disk->private_data; geo->heads = msb->heads; geo->sectors = msb->sectors_per_track; geo->cylinders = msb->cylinders; return 0; } static const struct block_device_operations ms_block_bdops = { .open = mspro_block_bd_open, .release = mspro_block_bd_release, .getgeo = mspro_block_bd_getgeo, .owner = THIS_MODULE }; /*** Information ***/ static struct mspro_sys_attr *mspro_from_sysfs_attr(struct attribute *attr) { struct device_attribute *dev_attr = container_of(attr, struct device_attribute, attr); return container_of(dev_attr, struct mspro_sys_attr, dev_attr); } static const char *mspro_block_attr_name(unsigned char tag) { switch (tag) { case MSPRO_BLOCK_ID_SYSINFO: return "attr_sysinfo"; case MSPRO_BLOCK_ID_MODELNAME: return "attr_modelname"; case MSPRO_BLOCK_ID_MBR: return "attr_mbr"; case MSPRO_BLOCK_ID_PBR16: return "attr_pbr16"; case MSPRO_BLOCK_ID_PBR32: return "attr_pbr32"; case MSPRO_BLOCK_ID_SPECFILEVALUES1: return "attr_specfilevalues1"; case MSPRO_BLOCK_ID_SPECFILEVALUES2: return "attr_specfilevalues2"; case MSPRO_BLOCK_ID_DEVINFO: return "attr_devinfo"; default: return NULL; }; } typedef ssize_t (*sysfs_show_t)(struct device *dev, struct device_attribute *attr, char *buffer); static ssize_t mspro_block_attr_show_default(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *s_attr = container_of(attr, struct mspro_sys_attr, dev_attr); ssize_t cnt, rc = 0; for (cnt = 0; cnt < s_attr->size; cnt++) { if (cnt && !(cnt % 16)) { if (PAGE_SIZE - rc) buffer[rc++] = '\n'; } rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "%02x ", ((unsigned char *)s_attr->data)[cnt]); } return rc; } static ssize_t mspro_block_attr_show_sysinfo(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *x_attr = container_of(attr, struct mspro_sys_attr, dev_attr); struct mspro_sys_info *x_sys = x_attr->data; ssize_t rc = 0; int date_tz = 0, date_tz_f = 0; if (x_sys->assembly_date[0] > 0x80U) { date_tz = (~x_sys->assembly_date[0]) + 1; date_tz_f = date_tz & 3; date_tz >>= 2; date_tz = -date_tz; date_tz_f *= 15; } else if (x_sys->assembly_date[0] < 0x80U) { date_tz = x_sys->assembly_date[0]; date_tz_f = date_tz & 3; date_tz >>= 2; date_tz_f *= 15; } rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "class: %x\n", x_sys->class); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "block size: %x\n", be16_to_cpu(x_sys->block_size)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "block count: %x\n", be16_to_cpu(x_sys->block_count)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "user block count: %x\n", be16_to_cpu(x_sys->user_block_count)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "page size: %x\n", be16_to_cpu(x_sys->page_size)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "assembly date: " "GMT%+d:%d %04u-%02u-%02u %02u:%02u:%02u\n", date_tz, date_tz_f, be16_to_cpup((__be16 *)&x_sys->assembly_date[1]), x_sys->assembly_date[3], x_sys->assembly_date[4], x_sys->assembly_date[5], x_sys->assembly_date[6], x_sys->assembly_date[7]); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "serial number: %x\n", be32_to_cpu(x_sys->serial_number)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "assembly maker code: %x\n", x_sys->assembly_maker_code); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "assembly model code: " "%02x%02x%02x\n", x_sys->assembly_model_code[0], x_sys->assembly_model_code[1], x_sys->assembly_model_code[2]); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "memory maker code: %x\n", be16_to_cpu(x_sys->memory_maker_code)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "memory model code: %x\n", be16_to_cpu(x_sys->memory_model_code)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "vcc: %x\n", x_sys->vcc); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "vpp: %x\n", x_sys->vpp); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "controller number: %x\n", be16_to_cpu(x_sys->controller_number)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "controller function: %x\n", be16_to_cpu(x_sys->controller_function)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start sector: %x\n", be16_to_cpu(x_sys->start_sector)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "unit size: %x\n", be16_to_cpu(x_sys->unit_size)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "sub class: %x\n", x_sys->ms_sub_class); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "interface type: %x\n", x_sys->interface_type); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "controller code: %x\n", be16_to_cpu(x_sys->controller_code)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "format type: %x\n", x_sys->format_type); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "device type: %x\n", x_sys->device_type); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "mspro id: %s\n", x_sys->mspro_id); return rc; } static ssize_t mspro_block_attr_show_modelname(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *s_attr = container_of(attr, struct mspro_sys_attr, dev_attr); return scnprintf(buffer, PAGE_SIZE, "%s", (char *)s_attr->data); } static ssize_t mspro_block_attr_show_mbr(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *x_attr = container_of(attr, struct mspro_sys_attr, dev_attr); struct mspro_mbr *x_mbr = x_attr->data; ssize_t rc = 0; rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "boot partition: %x\n", x_mbr->boot_partition); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start head: %x\n", x_mbr->start_head); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start sector: %x\n", x_mbr->start_sector); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start cylinder: %x\n", x_mbr->start_cylinder); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "partition type: %x\n", x_mbr->partition_type); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "end head: %x\n", x_mbr->end_head); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "end sector: %x\n", x_mbr->end_sector); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "end cylinder: %x\n", x_mbr->end_cylinder); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start sectors: %x\n", x_mbr->start_sectors); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "sectors per partition: %x\n", x_mbr->sectors_per_partition); return rc; } static ssize_t mspro_block_attr_show_specfile(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *x_attr = container_of(attr, struct mspro_sys_attr, dev_attr); struct mspro_specfile *x_spfile = x_attr->data; char name[9], ext[4]; ssize_t rc = 0; memcpy(name, x_spfile->name, 8); name[8] = 0; memcpy(ext, x_spfile->ext, 3); ext[3] = 0; rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "name: %s\n", name); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "ext: %s\n", ext); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "attribute: %x\n", x_spfile->attr); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "time: %d:%d:%d\n", x_spfile->time >> 11, (x_spfile->time >> 5) & 0x3f, (x_spfile->time & 0x1f) * 2); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "date: %d-%d-%d\n", (x_spfile->date >> 9) + 1980, (x_spfile->date >> 5) & 0xf, x_spfile->date & 0x1f); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "start cluster: %x\n", x_spfile->cluster); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "size: %x\n", x_spfile->size); return rc; } static ssize_t mspro_block_attr_show_devinfo(struct device *dev, struct device_attribute *attr, char *buffer) { struct mspro_sys_attr *x_attr = container_of(attr, struct mspro_sys_attr, dev_attr); struct mspro_devinfo *x_devinfo = x_attr->data; ssize_t rc = 0; rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "cylinders: %x\n", be16_to_cpu(x_devinfo->cylinders)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "heads: %x\n", be16_to_cpu(x_devinfo->heads)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "bytes per track: %x\n", be16_to_cpu(x_devinfo->bytes_per_track)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "bytes per sector: %x\n", be16_to_cpu(x_devinfo->bytes_per_sector)); rc += scnprintf(buffer + rc, PAGE_SIZE - rc, "sectors per track: %x\n", be16_to_cpu(x_devinfo->sectors_per_track)); return rc; } static sysfs_show_t mspro_block_attr_show(unsigned char tag) { switch (tag) { case MSPRO_BLOCK_ID_SYSINFO: return mspro_block_attr_show_sysinfo; case MSPRO_BLOCK_ID_MODELNAME: return mspro_block_attr_show_modelname; case MSPRO_BLOCK_ID_MBR: return mspro_block_attr_show_mbr; case MSPRO_BLOCK_ID_SPECFILEVALUES1: case MSPRO_BLOCK_ID_SPECFILEVALUES2: return mspro_block_attr_show_specfile; case MSPRO_BLOCK_ID_DEVINFO: return mspro_block_attr_show_devinfo; default: return mspro_block_attr_show_default; } } /*** Protocol handlers ***/ /* * Functions prefixed with "h_" are protocol callbacks. They can be called from * interrupt context. Return value of 0 means that request processing is still * ongoing, while special error value of -EAGAIN means that current request is * finished (and request processor should come back some time later). */ static int h_mspro_block_req_init(struct memstick_dev *card, struct memstick_request **mrq) { struct mspro_block_data *msb = memstick_get_drvdata(card); *mrq = &card->current_mrq; card->next_request = msb->mrq_handler; return 0; } static int h_mspro_block_default(struct memstick_dev *card, struct memstick_request **mrq) { return mspro_block_complete_req(card, (*mrq)->error); } static int h_mspro_block_default_bad(struct memstick_dev *card, struct memstick_request **mrq) { return -ENXIO; } static int h_mspro_block_get_ro(struct memstick_dev *card, struct memstick_request **mrq) { struct mspro_block_data *msb = memstick_get_drvdata(card); if (!(*mrq)->error) { if ((*mrq)->data[offsetof(struct ms_status_register, status0)] & MEMSTICK_STATUS0_WP) msb->read_only = 1; else msb->read_only = 0; } return mspro_block_complete_req(card, (*mrq)->error); } static int h_mspro_block_wait_for_ced(struct memstick_dev *card, struct memstick_request **mrq) { dev_dbg(&card->dev, "wait for ced: value %x\n", (*mrq)->data[0]); if (!(*mrq)->error) { if ((*mrq)->data[0] & (MEMSTICK_INT_CMDNAK | MEMSTICK_INT_ERR)) (*mrq)->error = -EFAULT; else if (!((*mrq)->data[0] & MEMSTICK_INT_CED)) return 0; } return mspro_block_complete_req(card, (*mrq)->error); } static int h_mspro_block_transfer_data(struct memstick_dev *card, struct memstick_request **mrq) { struct mspro_block_data *msb = memstick_get_drvdata(card); unsigned char t_val = 0; struct scatterlist t_sg = { 0 }; size_t t_offset; if ((*mrq)->error) return mspro_block_complete_req(card, (*mrq)->error); switch ((*mrq)->tpc) { case MS_TPC_WRITE_REG: memstick_init_req(*mrq, MS_TPC_SET_CMD, &msb->transfer_cmd, 1); (*mrq)->need_card_int = 1; return 0; case MS_TPC_SET_CMD: t_val = (*mrq)->int_reg; memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1); if (msb->caps & MEMSTICK_CAP_AUTO_GET_INT) goto has_int_reg; return 0; case MS_TPC_GET_INT: t_val = (*mrq)->data[0]; has_int_reg: if (t_val & (MEMSTICK_INT_CMDNAK | MEMSTICK_INT_ERR)) { t_val = MSPRO_CMD_STOP; memstick_init_req(*mrq, MS_TPC_SET_CMD, &t_val, 1); card->next_request = h_mspro_block_default; return 0; } if (msb->current_page == (msb->req_sg[msb->current_seg].length / msb->page_size)) { msb->current_page = 0; msb->current_seg++; if (msb->current_seg == msb->seg_count) { if (t_val & MEMSTICK_INT_CED) { return mspro_block_complete_req(card, 0); } else { card->next_request = h_mspro_block_wait_for_ced; memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1); return 0; } } } if (!(t_val & MEMSTICK_INT_BREQ)) { memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1); return 0; } t_offset = msb->req_sg[msb->current_seg].offset; t_offset += msb->current_page * msb->page_size; sg_set_page(&t_sg, nth_page(sg_page(&(msb->req_sg[msb->current_seg])), t_offset >> PAGE_SHIFT), msb->page_size, offset_in_page(t_offset)); memstick_init_req_sg(*mrq, msb->data_dir == READ ? MS_TPC_READ_LONG_DATA : MS_TPC_WRITE_LONG_DATA, &t_sg); (*mrq)->need_card_int = 1; return 0; case MS_TPC_READ_LONG_DATA: case MS_TPC_WRITE_LONG_DATA: msb->current_page++; if (msb->caps & MEMSTICK_CAP_AUTO_GET_INT) { t_val = (*mrq)->int_reg; goto has_int_reg; } else { memstick_init_req(*mrq, MS_TPC_GET_INT, NULL, 1); return 0; } default: BUG(); } } /*** Transfer setup functions for different access methods. ***/ /** Setup data transfer request for SET_CMD TPC with arguments in card * registers. * * @card Current media instance * @offset Target data offset in bytes * @length Required transfer length in bytes. */ static void h_mspro_block_setup_cmd(struct memstick_dev *card, u64 offset, size_t length) { struct mspro_block_data *msb = memstick_get_drvdata(card); struct mspro_param_register param = { .system = msb->system, .data_count = cpu_to_be16((uint16_t)(length / msb->page_size)), /* ISO C90 warning precludes direct initialization for now. */ .data_address = 0, .tpc_param = 0 }; do_div(offset, msb->page_size); param.data_address = cpu_to_be32((uint32_t)offset); card->next_request = h_mspro_block_req_init; msb->mrq_handler = h_mspro_block_transfer_data; memstick_init_req(&card->current_mrq, MS_TPC_WRITE_REG, ¶m, sizeof(param)); } /*** Data transfer ***/ static int mspro_block_issue_req(struct memstick_dev *card, int chunk) { struct mspro_block_data *msb = memstick_get_drvdata(card); u64 t_off; unsigned int count; try_again: while (chunk) { msb->current_page = 0; msb->current_seg = 0; msb->seg_count = blk_rq_map_sg(msb->block_req->q, msb->block_req, msb->req_sg); if (!msb->seg_count) { chunk = __blk_end_request_cur(msb->block_req, -ENOMEM); continue; } t_off = blk_rq_pos(msb->block_req); t_off <<= 9; count = blk_rq_bytes(msb->block_req); msb->setup_transfer(card, t_off, count); msb->data_dir = rq_data_dir(msb->block_req); msb->transfer_cmd = msb->data_dir == READ ? MSPRO_CMD_READ_DATA : MSPRO_CMD_WRITE_DATA; memstick_new_req(card->host); return 0; } dev_dbg(&card->dev, "blk_fetch\n"); msb->block_req = blk_fetch_request(msb->queue); if (!msb->block_req) { dev_dbg(&card->dev, "issue end\n"); return -EAGAIN; } dev_dbg(&card->dev, "trying again\n"); chunk = 1; goto try_again; } static int mspro_block_complete_req(struct memstick_dev *card, int error) { struct mspro_block_data *msb = memstick_get_drvdata(card); int chunk, cnt; unsigned int t_len = 0; unsigned long flags; spin_lock_irqsave(&msb->q_lock, flags); dev_dbg(&card->dev, "complete %d, %d\n", msb->has_request ? 1 : 0, error); if (msb->has_request) { /* Nothing to do - not really an error */ if (error == -EAGAIN) error = 0; if (error || (card->current_mrq.tpc == MSPRO_CMD_STOP)) { if (msb->data_dir == READ) { for (cnt = 0; cnt < msb->current_seg; cnt++) t_len += msb->req_sg[cnt].length / msb->page_size; if (msb->current_page) t_len += msb->current_page - 1; t_len *= msb->page_size; } } else t_len = blk_rq_bytes(msb->block_req); dev_dbg(&card->dev, "transferred %x (%d)\n", t_len, error); if (error && !t_len) t_len = blk_rq_cur_bytes(msb->block_req); chunk = __blk_end_request(msb->block_req, error, t_len); error = mspro_block_issue_req(card, chunk); if (!error) goto out; else msb->has_request = 0; } else { if (!error) error = -EAGAIN; } card->next_request = h_mspro_block_default_bad; complete_all(&card->mrq_complete); out: spin_unlock_irqrestore(&msb->q_lock, flags); return error; } static void mspro_block_stop(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); int rc = 0; unsigned long flags; while (1) { spin_lock_irqsave(&msb->q_lock, flags); if (!msb->has_request) { blk_stop_queue(msb->queue); rc = 1; } spin_unlock_irqrestore(&msb->q_lock, flags); if (rc) break; wait_for_completion(&card->mrq_complete); } } static void mspro_block_start(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); unsigned long flags; spin_lock_irqsave(&msb->q_lock, flags); blk_start_queue(msb->queue); spin_unlock_irqrestore(&msb->q_lock, flags); } static int mspro_block_prepare_req(struct request_queue *q, struct request *req) { if (req->cmd_type != REQ_TYPE_FS && req->cmd_type != REQ_TYPE_BLOCK_PC) { blk_dump_rq_flags(req, "MSPro unsupported request"); return BLKPREP_KILL; } req->cmd_flags |= REQ_DONTPREP; return BLKPREP_OK; } static void mspro_block_submit_req(struct request_queue *q) { struct memstick_dev *card = q->queuedata; struct mspro_block_data *msb = memstick_get_drvdata(card); struct request *req = NULL; if (msb->has_request) return; if (msb->eject) { while ((req = blk_fetch_request(q)) != NULL) __blk_end_request_all(req, -ENODEV); return; } msb->has_request = 1; if (mspro_block_issue_req(card, 0)) msb->has_request = 0; } /*** Initialization ***/ static int mspro_block_wait_for_ced(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); card->next_request = h_mspro_block_req_init; msb->mrq_handler = h_mspro_block_wait_for_ced; memstick_init_req(&card->current_mrq, MS_TPC_GET_INT, NULL, 1); memstick_new_req(card->host); wait_for_completion(&card->mrq_complete); return card->current_mrq.error; } static int mspro_block_set_interface(struct memstick_dev *card, unsigned char sys_reg) { struct memstick_host *host = card->host; struct mspro_block_data *msb = memstick_get_drvdata(card); struct mspro_param_register param = { .system = sys_reg, .data_count = 0, .data_address = 0, .tpc_param = 0 }; card->next_request = h_mspro_block_req_init; msb->mrq_handler = h_mspro_block_default; memstick_init_req(&card->current_mrq, MS_TPC_WRITE_REG, ¶m, sizeof(param)); memstick_new_req(host); wait_for_completion(&card->mrq_complete); return card->current_mrq.error; } static int mspro_block_switch_interface(struct memstick_dev *card) { struct memstick_host *host = card->host; struct mspro_block_data *msb = memstick_get_drvdata(card); int rc = 0; try_again: if (msb->caps & MEMSTICK_CAP_PAR4) rc = mspro_block_set_interface(card, MEMSTICK_SYS_PAR4); else return 0; if (rc) { printk(KERN_WARNING "%s: could not switch to 4-bit mode, error %d\n", dev_name(&card->dev), rc); return 0; } msb->system = MEMSTICK_SYS_PAR4; host->set_param(host, MEMSTICK_INTERFACE, MEMSTICK_PAR4); printk(KERN_INFO "%s: switching to 4-bit parallel mode\n", dev_name(&card->dev)); if (msb->caps & MEMSTICK_CAP_PAR8) { rc = mspro_block_set_interface(card, MEMSTICK_SYS_PAR8); if (!rc) { msb->system = MEMSTICK_SYS_PAR8; host->set_param(host, MEMSTICK_INTERFACE, MEMSTICK_PAR8); printk(KERN_INFO "%s: switching to 8-bit parallel mode\n", dev_name(&card->dev)); } else printk(KERN_WARNING "%s: could not switch to 8-bit mode, error %d\n", dev_name(&card->dev), rc); } card->next_request = h_mspro_block_req_init; msb->mrq_handler = h_mspro_block_default; memstick_init_req(&card->current_mrq, MS_TPC_GET_INT, NULL, 1); memstick_new_req(card->host); wait_for_completion(&card->mrq_complete); rc = card->current_mrq.error; if (rc) { printk(KERN_WARNING "%s: interface error, trying to fall back to serial\n", dev_name(&card->dev)); msb->system = MEMSTICK_SYS_SERIAL; host->set_param(host, MEMSTICK_POWER, MEMSTICK_POWER_OFF); msleep(10); host->set_param(host, MEMSTICK_POWER, MEMSTICK_POWER_ON); host->set_param(host, MEMSTICK_INTERFACE, MEMSTICK_SERIAL); rc = memstick_set_rw_addr(card); if (!rc) rc = mspro_block_set_interface(card, msb->system); if (!rc) { msleep(150); rc = mspro_block_wait_for_ced(card); if (rc) return rc; if (msb->caps & MEMSTICK_CAP_PAR8) { msb->caps &= ~MEMSTICK_CAP_PAR8; goto try_again; } } } return rc; } /* Memory allocated for attributes by this function should be freed by * mspro_block_data_clear, no matter if the initialization process succeeded * or failed. */ static int mspro_block_read_attributes(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); struct mspro_attribute *attr = NULL; struct mspro_sys_attr *s_attr = NULL; unsigned char *buffer = NULL; int cnt, rc, attr_count; /* While normally physical device offsets, represented here by * attr_offset and attr_len will be of large numeric types, we can be * sure, that attributes are close enough to the beginning of the * device, to save ourselves some trouble. */ unsigned int addr, attr_offset = 0, attr_len = msb->page_size; attr = kmalloc(msb->page_size, GFP_KERNEL); if (!attr) return -ENOMEM; sg_init_one(&msb->req_sg[0], attr, msb->page_size); msb->seg_count = 1; msb->current_seg = 0; msb->current_page = 0; msb->data_dir = READ; msb->transfer_cmd = MSPRO_CMD_READ_ATRB; msb->setup_transfer(card, attr_offset, attr_len); memstick_new_req(card->host); wait_for_completion(&card->mrq_complete); if (card->current_mrq.error) { rc = card->current_mrq.error; goto out_free_attr; } if (be16_to_cpu(attr->signature) != MSPRO_BLOCK_SIGNATURE) { printk(KERN_ERR "%s: unrecognized device signature %x\n", dev_name(&card->dev), be16_to_cpu(attr->signature)); rc = -ENODEV; goto out_free_attr; } if (attr->count > MSPRO_BLOCK_MAX_ATTRIBUTES) { printk(KERN_WARNING "%s: way too many attribute entries\n", dev_name(&card->dev)); attr_count = MSPRO_BLOCK_MAX_ATTRIBUTES; } else attr_count = attr->count; msb->attr_group.attrs = kzalloc((attr_count + 1) * sizeof(struct attribute), GFP_KERNEL); if (!msb->attr_group.attrs) { rc = -ENOMEM; goto out_free_attr; } msb->attr_group.name = "media_attributes"; buffer = kmalloc(attr_len, GFP_KERNEL); if (!buffer) { rc = -ENOMEM; goto out_free_attr; } memcpy(buffer, (char *)attr, attr_len); for (cnt = 0; cnt < attr_count; ++cnt) { s_attr = kzalloc(sizeof(struct mspro_sys_attr), GFP_KERNEL); if (!s_attr) { rc = -ENOMEM; goto out_free_buffer; } msb->attr_group.attrs[cnt] = &s_attr->dev_attr.attr; addr = be32_to_cpu(attr->entries[cnt].address); s_attr->size = be32_to_cpu(attr->entries[cnt].size); dev_dbg(&card->dev, "adding attribute %d: id %x, address %x, " "size %zx\n", cnt, attr->entries[cnt].id, addr, s_attr->size); s_attr->id = attr->entries[cnt].id; if (mspro_block_attr_name(s_attr->id)) snprintf(s_attr->name, sizeof(s_attr->name), "%s", mspro_block_attr_name(attr->entries[cnt].id)); else snprintf(s_attr->name, sizeof(s_attr->name), "attr_x%02x", attr->entries[cnt].id); sysfs_attr_init(&s_attr->dev_attr.attr); s_attr->dev_attr.attr.name = s_attr->name; s_attr->dev_attr.attr.mode = S_IRUGO; s_attr->dev_attr.show = mspro_block_attr_show(s_attr->id); if (!s_attr->size) continue; s_attr->data = kmalloc(s_attr->size, GFP_KERNEL); if (!s_attr->data) { rc = -ENOMEM; goto out_free_buffer; } if (((addr / msb->page_size) == (attr_offset / msb->page_size)) && (((addr + s_attr->size - 1) / msb->page_size) == (attr_offset / msb->page_size))) { memcpy(s_attr->data, buffer + addr % msb->page_size, s_attr->size); continue; } attr_offset = (addr / msb->page_size) * msb->page_size; if ((attr_offset + attr_len) < (addr + s_attr->size)) { kfree(buffer); attr_len = (((addr + s_attr->size) / msb->page_size) + 1 ) * msb->page_size - attr_offset; buffer = kmalloc(attr_len, GFP_KERNEL); if (!buffer) { rc = -ENOMEM; goto out_free_attr; } } sg_init_one(&msb->req_sg[0], buffer, attr_len); msb->seg_count = 1; msb->current_seg = 0; msb->current_page = 0; msb->data_dir = READ; msb->transfer_cmd = MSPRO_CMD_READ_ATRB; dev_dbg(&card->dev, "reading attribute range %x, %x\n", attr_offset, attr_len); msb->setup_transfer(card, attr_offset, attr_len); memstick_new_req(card->host); wait_for_completion(&card->mrq_complete); if (card->current_mrq.error) { rc = card->current_mrq.error; goto out_free_buffer; } memcpy(s_attr->data, buffer + addr % msb->page_size, s_attr->size); } rc = 0; out_free_buffer: kfree(buffer); out_free_attr: kfree(attr); return rc; } static int mspro_block_init_card(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); struct memstick_host *host = card->host; int rc = 0; msb->system = MEMSTICK_SYS_SERIAL; msb->setup_transfer = h_mspro_block_setup_cmd; card->reg_addr.r_offset = offsetof(struct mspro_register, status); card->reg_addr.r_length = sizeof(struct ms_status_register); card->reg_addr.w_offset = offsetof(struct mspro_register, param); card->reg_addr.w_length = sizeof(struct mspro_param_register); if (memstick_set_rw_addr(card)) return -EIO; msb->caps = host->caps; msleep(150); rc = mspro_block_wait_for_ced(card); if (rc) return rc; rc = mspro_block_switch_interface(card); if (rc) return rc; dev_dbg(&card->dev, "card activated\n"); if (msb->system != MEMSTICK_SYS_SERIAL) msb->caps |= MEMSTICK_CAP_AUTO_GET_INT; card->next_request = h_mspro_block_req_init; msb->mrq_handler = h_mspro_block_get_ro; memstick_init_req(&card->current_mrq, MS_TPC_READ_REG, NULL, sizeof(struct ms_status_register)); memstick_new_req(card->host); wait_for_completion(&card->mrq_complete); if (card->current_mrq.error) return card->current_mrq.error; dev_dbg(&card->dev, "card r/w status %d\n", msb->read_only ? 0 : 1); msb->page_size = 512; rc = mspro_block_read_attributes(card); if (rc) return rc; dev_dbg(&card->dev, "attributes loaded\n"); return 0; } static int mspro_block_init_disk(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); struct memstick_host *host = card->host; struct mspro_devinfo *dev_info = NULL; struct mspro_sys_info *sys_info = NULL; struct mspro_sys_attr *s_attr = NULL; int rc, disk_id; u64 limit = BLK_BOUNCE_HIGH; unsigned long capacity; if (host->dev.dma_mask && *(host->dev.dma_mask)) limit = *(host->dev.dma_mask); for (rc = 0; msb->attr_group.attrs[rc]; ++rc) { s_attr = mspro_from_sysfs_attr(msb->attr_group.attrs[rc]); if (s_attr->id == MSPRO_BLOCK_ID_DEVINFO) dev_info = s_attr->data; else if (s_attr->id == MSPRO_BLOCK_ID_SYSINFO) sys_info = s_attr->data; } if (!dev_info || !sys_info) return -ENODEV; msb->cylinders = be16_to_cpu(dev_info->cylinders); msb->heads = be16_to_cpu(dev_info->heads); msb->sectors_per_track = be16_to_cpu(dev_info->sectors_per_track); msb->page_size = be16_to_cpu(sys_info->unit_size); mutex_lock(&mspro_block_disk_lock); disk_id = idr_alloc(&mspro_block_disk_idr, card, 0, 256, GFP_KERNEL); mutex_unlock(&mspro_block_disk_lock); if (disk_id < 0) return disk_id; msb->disk = alloc_disk(1 << MSPRO_BLOCK_PART_SHIFT); if (!msb->disk) { rc = -ENOMEM; goto out_release_id; } msb->queue = blk_init_queue(mspro_block_submit_req, &msb->q_lock); if (!msb->queue) { rc = -ENOMEM; goto out_put_disk; } msb->queue->queuedata = card; blk_queue_prep_rq(msb->queue, mspro_block_prepare_req); blk_queue_bounce_limit(msb->queue, limit); blk_queue_max_hw_sectors(msb->queue, MSPRO_BLOCK_MAX_PAGES); blk_queue_max_segments(msb->queue, MSPRO_BLOCK_MAX_SEGS); blk_queue_max_segment_size(msb->queue, MSPRO_BLOCK_MAX_PAGES * msb->page_size); msb->disk->major = major; msb->disk->first_minor = disk_id << MSPRO_BLOCK_PART_SHIFT; msb->disk->fops = &ms_block_bdops; msb->usage_count = 1; msb->disk->private_data = msb; msb->disk->queue = msb->queue; msb->disk->driverfs_dev = &card->dev; sprintf(msb->disk->disk_name, "mspblk%d", disk_id); blk_queue_logical_block_size(msb->queue, msb->page_size); capacity = be16_to_cpu(sys_info->user_block_count); capacity *= be16_to_cpu(sys_info->block_size); capacity *= msb->page_size >> 9; set_capacity(msb->disk, capacity); dev_dbg(&card->dev, "capacity set %ld\n", capacity); add_disk(msb->disk); msb->active = 1; return 0; out_put_disk: put_disk(msb->disk); out_release_id: mutex_lock(&mspro_block_disk_lock); idr_remove(&mspro_block_disk_idr, disk_id); mutex_unlock(&mspro_block_disk_lock); return rc; } static void mspro_block_data_clear(struct mspro_block_data *msb) { int cnt; struct mspro_sys_attr *s_attr; if (msb->attr_group.attrs) { for (cnt = 0; msb->attr_group.attrs[cnt]; ++cnt) { s_attr = mspro_from_sysfs_attr(msb->attr_group .attrs[cnt]); kfree(s_attr->data); kfree(s_attr); } kfree(msb->attr_group.attrs); } msb->card = NULL; } static int mspro_block_check_card(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); return (msb->active == 1); } static int mspro_block_probe(struct memstick_dev *card) { struct mspro_block_data *msb; int rc = 0; msb = kzalloc(sizeof(struct mspro_block_data), GFP_KERNEL); if (!msb) return -ENOMEM; memstick_set_drvdata(card, msb); msb->card = card; spin_lock_init(&msb->q_lock); rc = mspro_block_init_card(card); if (rc) goto out_free; rc = sysfs_create_group(&card->dev.kobj, &msb->attr_group); if (rc) goto out_free; rc = mspro_block_init_disk(card); if (!rc) { card->check = mspro_block_check_card; card->stop = mspro_block_stop; card->start = mspro_block_start; return 0; } sysfs_remove_group(&card->dev.kobj, &msb->attr_group); out_free: memstick_set_drvdata(card, NULL); mspro_block_data_clear(msb); kfree(msb); return rc; } static void mspro_block_remove(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); unsigned long flags; spin_lock_irqsave(&msb->q_lock, flags); msb->eject = 1; blk_start_queue(msb->queue); spin_unlock_irqrestore(&msb->q_lock, flags); del_gendisk(msb->disk); dev_dbg(&card->dev, "mspro block remove\n"); blk_cleanup_queue(msb->queue); msb->queue = NULL; sysfs_remove_group(&card->dev.kobj, &msb->attr_group); mutex_lock(&mspro_block_disk_lock); mspro_block_data_clear(msb); mutex_unlock(&mspro_block_disk_lock); mspro_block_disk_release(msb->disk); memstick_set_drvdata(card, NULL); } #ifdef CONFIG_PM static int mspro_block_suspend(struct memstick_dev *card, pm_message_t state) { struct mspro_block_data *msb = memstick_get_drvdata(card); unsigned long flags; spin_lock_irqsave(&msb->q_lock, flags); blk_stop_queue(msb->queue); msb->active = 0; spin_unlock_irqrestore(&msb->q_lock, flags); return 0; } static int mspro_block_resume(struct memstick_dev *card) { struct mspro_block_data *msb = memstick_get_drvdata(card); unsigned long flags; int rc = 0; #ifdef CONFIG_MEMSTICK_UNSAFE_RESUME struct mspro_block_data *new_msb; struct memstick_host *host = card->host; struct mspro_sys_attr *s_attr, *r_attr; unsigned char cnt; mutex_lock(&host->lock); new_msb = kzalloc(sizeof(struct mspro_block_data), GFP_KERNEL); if (!new_msb) { rc = -ENOMEM; goto out_unlock; } new_msb->card = card; memstick_set_drvdata(card, new_msb); if (mspro_block_init_card(card)) goto out_free; for (cnt = 0; new_msb->attr_group.attrs[cnt] && msb->attr_group.attrs[cnt]; ++cnt) { s_attr = mspro_from_sysfs_attr(new_msb->attr_group.attrs[cnt]); r_attr = mspro_from_sysfs_attr(msb->attr_group.attrs[cnt]); if (s_attr->id == MSPRO_BLOCK_ID_SYSINFO && r_attr->id == s_attr->id) { if (memcmp(s_attr->data, r_attr->data, s_attr->size)) break; msb->active = 1; break; } } out_free: memstick_set_drvdata(card, msb); mspro_block_data_clear(new_msb); kfree(new_msb); out_unlock: mutex_unlock(&host->lock); #endif /* CONFIG_MEMSTICK_UNSAFE_RESUME */ spin_lock_irqsave(&msb->q_lock, flags); blk_start_queue(msb->queue); spin_unlock_irqrestore(&msb->q_lock, flags); return rc; } #else #define mspro_block_suspend NULL #define mspro_block_resume NULL #endif /* CONFIG_PM */ static struct memstick_device_id mspro_block_id_tbl[] = { {MEMSTICK_MATCH_ALL, MEMSTICK_TYPE_PRO, MEMSTICK_CATEGORY_STORAGE_DUO, MEMSTICK_CLASS_DUO}, {} }; static struct memstick_driver mspro_block_driver = { .driver = { .name = DRIVER_NAME, .owner = THIS_MODULE }, .id_table = mspro_block_id_tbl, .probe = mspro_block_probe, .remove = mspro_block_remove, .suspend = mspro_block_suspend, .resume = mspro_block_resume }; static int __init mspro_block_init(void) { int rc = -ENOMEM; rc = register_blkdev(major, DRIVER_NAME); if (rc < 0) { printk(KERN_ERR DRIVER_NAME ": failed to register " "major %d, error %d\n", major, rc); return rc; } if (!major) major = rc; rc = memstick_register_driver(&mspro_block_driver); if (rc) unregister_blkdev(major, DRIVER_NAME); return rc; } static void __exit mspro_block_exit(void) { memstick_unregister_driver(&mspro_block_driver); unregister_blkdev(major, DRIVER_NAME); idr_destroy(&mspro_block_disk_idr); } module_init(mspro_block_init); module_exit(mspro_block_exit); MODULE_LICENSE("GPL"); MODULE_AUTHOR("Alex Dubov"); MODULE_DESCRIPTION("Sony MemoryStickPro block device driver"); MODULE_DEVICE_TABLE(memstick, mspro_block_id_tbl);