Subversion Repositories HelenOS

#include <string.h>

#include <string.h>

#include <byteorder.h>

#include <byteorder.h>

#include <adt/hash_table.h>

#include <adt/hash_table.h>

#include <adt/list.h>

#include <adt/list.h>

#include <assert.h>

#include <assert.h>

#include <sys/mman.h>

#include <sys/mman.h>

#include <align.h>

#include <align.h>

#define FAT_NODE(node)  ((node) ? (fat_node_t *) (node)->data : NULL)

#define FAT_NODE(node)  ((node) ? (fat_node_t *) (node)->data : NULL)

#define FS_NODE(node)   ((node) ? (node)->bp : NULL)

#define FS_NODE(node)   ((node) ? (node)->bp : NULL)

/** List of cached free FAT nodes. */

/** List of cached free FAT nodes. */

static LIST_INITIALIZE(ffn_head);

static LIST_INITIALIZE(ffn_head);

static void fat_node_initialize(fat_node_t *node)

static void fat_node_initialize(fat_node_t *node)

{

{

    node->bp = NULL;

    node->bp = NULL;

    node->idx = NULL;

    node->idx = NULL;

    node->type = 0;

    node->type = 0;

    link_initialize(&node->ffn_link);

    link_initialize(&node->ffn_link);

    node->size = 0;

    node->size = 0;

static fat_node_t *fat_node_get_new(void)

static fat_node_t *fat_node_get_new(void)

{

{

    fs_node_t *fn;

    fs_node_t *fn;

    fat_node_t *nodep;

    fat_node_t *nodep;

    if (!list_empty(&ffn_head)) {

    if (!list_empty(&ffn_head)) {

        /* Try to use a cached free node structure. */

        /* Try to use a cached free node structure. */

        fat_idx_t *idxp_tmp;

        fat_idx_t *idxp_tmp;

        nodep = list_get_instance(ffn_head.next, fat_node_t, ffn_link);

        nodep = list_get_instance(ffn_head.next, fat_node_t, ffn_link);

            goto skip_cache;

            goto skip_cache;

        idxp_tmp = nodep->idx;

        idxp_tmp = nodep->idx;

            goto skip_cache;

            goto skip_cache;

        }

        }

        list_remove(&nodep->ffn_link);

        list_remove(&nodep->ffn_link);

        if (nodep->dirty)

        if (nodep->dirty)

            fat_node_sync(nodep);

            fat_node_sync(nodep);

        idxp_tmp->nodep = NULL;

        idxp_tmp->nodep = NULL;

        fn = FS_NODE(nodep);

        fn = FS_NODE(nodep);

    } else {

    } else {

skip_cache:

skip_cache:

        /* Try to allocate a new node structure. */

        /* Try to allocate a new node structure. */

        fn = (fs_node_t *)malloc(sizeof(fs_node_t));

        fn = (fs_node_t *)malloc(sizeof(fs_node_t));

        if (!fn)

        if (!fn)

            return NULL;

            return NULL;

        nodep = (fat_node_t *)malloc(sizeof(fat_node_t));

        nodep = (fat_node_t *)malloc(sizeof(fat_node_t));

        if (!nodep) {

        if (!nodep) {

    if (idxp->nodep) {

    if (idxp->nodep) {

        /*

        /*

         * We are lucky.

         * We are lucky.

         * The node is already instantiated in memory.

         * The node is already instantiated in memory.

         */

         */

        if (!idxp->nodep->refcnt++)

        if (!idxp->nodep->refcnt++)

            list_remove(&idxp->nodep->ffn_link);

            list_remove(&idxp->nodep->ffn_link);

        return idxp->nodep;

        return idxp->nodep;

    }

    }

    /*

    /*

     * We must instantiate the node from the file system.

     * We must instantiate the node from the file system.

    idxp = fat_idx_get_by_index(dev_handle, index);

    idxp = fat_idx_get_by_index(dev_handle, index);

    if (!idxp)

    if (!idxp)

        return NULL;

        return NULL;

    /* idxp->lock held */

    /* idxp->lock held */

    nodep = fat_node_get_core(idxp);

    nodep = fat_node_get_core(idxp);

    return FS_NODE(nodep);

    return FS_NODE(nodep);

}

}

void fat_node_put(fs_node_t *fn)

void fat_node_put(fs_node_t *fn)

{

{

    fat_node_t *nodep = FAT_NODE(fn);

    fat_node_t *nodep = FAT_NODE(fn);

    bool destroy = false;

    bool destroy = false;

    if (!--nodep->refcnt) {

    if (!--nodep->refcnt) {

        if (nodep->idx) {

        if (nodep->idx) {

            list_append(&nodep->ffn_link, &ffn_head);

            list_append(&nodep->ffn_link, &ffn_head);

        } else {

        } else {

            /*

            /*

             * The node does not have any index structure associated

             * The node does not have any index structure associated

             * with itself. This can only mean that we are releasing

             * with itself. This can only mean that we are releasing

             * the node after a failed attempt to allocate the index

             * the node after a failed attempt to allocate the index

             * structure for it.

             * structure for it.

             */

             */

            destroy = true;

            destroy = true;

        }

        }

    }

    }

    if (destroy) {

    if (destroy) {

        free(nodep->bp);

        free(nodep->bp);

        free(nodep);

        free(nodep);

    }

    }

}

}

    nodep->dirty = true;

    nodep->dirty = true;

    nodep->idx = idxp;

    nodep->idx = idxp;

    idxp->nodep = nodep;

    idxp->nodep = nodep;

    return FS_NODE(nodep);

    return FS_NODE(nodep);

}

}

int fat_destroy_node(fs_node_t *fn)

int fat_destroy_node(fs_node_t *fn)

{

{

    unsigned dps;

    unsigned dps;

    unsigned blocks;

    unsigned blocks;

    fat_cluster_t mcl, lcl;

    fat_cluster_t mcl, lcl;

    int rc;

    int rc;

    if (childp->lnkcnt == 1) {

    if (childp->lnkcnt == 1) {

        /*

        /*

         * On FAT, we don't support multiple hard links.

         * On FAT, we don't support multiple hard links.

         */

         */

        return EMLINK;

        return EMLINK;

    }

    }

    assert(childp->lnkcnt == 0);

    assert(childp->lnkcnt == 0);

    if (!fat_dentry_name_verify(name)) {

    if (!fat_dentry_name_verify(name)) {

        /*

        /*

         * Attempt to create unsupported name.

         * Attempt to create unsupported name.

         */

         */

    /*

    /*

     * Get us an unused parent node's dentry or grow the parent and allocate

     * Get us an unused parent node's dentry or grow the parent and allocate

     * a new one.

     * a new one.

     */

     */

    bs = block_bb_get(parentp->idx->dev_handle);

    bs = block_bb_get(parentp->idx->dev_handle);

    bps = uint16_t_le2host(bs->bps);

    bps = uint16_t_le2host(bs->bps);

    dps = bps / sizeof(fat_dentry_t);

    dps = bps / sizeof(fat_dentry_t);

    blocks = parentp->size / bps;

    blocks = parentp->size / bps;

    /*

    /*

     * We need to grow the parent in order to create a new unused dentry.

     * We need to grow the parent in order to create a new unused dentry.

     */

     */

    if (parentp->idx->pfc == FAT_CLST_ROOT) {

    if (parentp->idx->pfc == FAT_CLST_ROOT) {

        /* Can't grow the root directory. */

        /* Can't grow the root directory. */

        return ENOSPC;

        return ENOSPC;

    }

    }

    rc = fat_alloc_clusters(bs, parentp->idx->dev_handle, 1, &mcl, &lcl);

    rc = fat_alloc_clusters(bs, parentp->idx->dev_handle, 1, &mcl, &lcl);

    if (rc != EOK) {

    if (rc != EOK) {

        return rc;

        return rc;

    }

    }

    fat_append_clusters(bs, parentp, mcl);

    fat_append_clusters(bs, parentp, mcl);

    b = fat_block_get(bs, parentp, i, BLOCK_FLAGS_NOREAD);

    b = fat_block_get(bs, parentp, i, BLOCK_FLAGS_NOREAD);

    d = (fat_dentry_t *)b->data;

    d = (fat_dentry_t *)b->data;

     */

     */

    memset(d, 0, sizeof(fat_dentry_t));

    memset(d, 0, sizeof(fat_dentry_t));

    fat_dentry_name_set(d, name);

    fat_dentry_name_set(d, name);

    b->dirty = true;        /* need to sync block */

    b->dirty = true;        /* need to sync block */

    block_put(b);

    block_put(b);

    /*

    /*

     * If possible, create the Sub-directory Identifier Entry and the

     * If possible, create the Sub-directory Identifier Entry and the

     * Sub-directory Parent Pointer Entry (i.e. "." and ".."). These entries

     * Sub-directory Parent Pointer Entry (i.e. "." and ".."). These entries

     * are not mandatory according to Standard ECMA-107 and HelenOS VFS does

     * are not mandatory according to Standard ECMA-107 and HelenOS VFS does

    b->dirty = true;        /* need to sync block */

    b->dirty = true;        /* need to sync block */

    block_put(b);

    block_put(b);

    childp->idx->pfc = parentp->firstc;

    childp->idx->pfc = parentp->firstc;

    childp->idx->pdi = i * dps + j;

    childp->idx->pdi = i * dps + j;

    childp->lnkcnt = 1;

    childp->lnkcnt = 1;

    childp->dirty = true;       /* need to sync node */

    childp->dirty = true;       /* need to sync node */

    /*

    /*

     * Hash in the index structure into the position hash.

     * Hash in the index structure into the position hash.

     */

     */

    fat_idx_hashin(childp->idx);

    fat_idx_hashin(childp->idx);

        return EBUSY;

        return EBUSY;

    if (fat_has_children(cfn))

    if (fat_has_children(cfn))

        return ENOTEMPTY;

        return ENOTEMPTY;

    assert(childp->lnkcnt == 1);

    assert(childp->lnkcnt == 1);

    bs = block_bb_get(childp->idx->dev_handle);

    bs = block_bb_get(childp->idx->dev_handle);

    bps = uint16_t_le2host(bs->bps);

    bps = uint16_t_le2host(bs->bps);

    b = _fat_block_get(bs, childp->idx->dev_handle, childp->idx->pfc,

    b = _fat_block_get(bs, childp->idx->dev_handle, childp->idx->pfc,

        (childp->idx->pdi * sizeof(fat_dentry_t)) / bps,

        (childp->idx->pdi * sizeof(fat_dentry_t)) / bps,

    /* remove the index structure from the position hash */

    /* remove the index structure from the position hash */

    fat_idx_hashout(childp->idx);

    fat_idx_hashout(childp->idx);

    /* clear position information */

    /* clear position information */

    childp->idx->pfc = FAT_CLST_RES0;

    childp->idx->pfc = FAT_CLST_RES0;

    childp->idx->pdi = 0;

    childp->idx->pdi = 0;

    childp->lnkcnt = 0;

    childp->lnkcnt = 0;

    childp->dirty = true;

    childp->dirty = true;

    return EOK;

    return EOK;

}

}

fs_node_t *fat_match(fs_node_t *pfn, const char *component)

fs_node_t *fat_match(fs_node_t *pfn, const char *component)

    unsigned dps;       /* dentries per sector */

    unsigned dps;       /* dentries per sector */

    unsigned blocks;

    unsigned blocks;

    fat_dentry_t *d;

    fat_dentry_t *d;

    block_t *b;

    block_t *b;

    bs = block_bb_get(parentp->idx->dev_handle);

    bs = block_bb_get(parentp->idx->dev_handle);

    bps = uint16_t_le2host(bs->bps);

    bps = uint16_t_le2host(bs->bps);

    dps = bps / sizeof(fat_dentry_t);

    dps = bps / sizeof(fat_dentry_t);

    blocks = parentp->size / bps;

    blocks = parentp->size / bps;

    for (i = 0; i < blocks; i++) {

    for (i = 0; i < blocks; i++) {

            case FAT_DENTRY_SKIP:

            case FAT_DENTRY_SKIP:

            case FAT_DENTRY_FREE:

            case FAT_DENTRY_FREE:

                continue;

                continue;

            case FAT_DENTRY_LAST:

            case FAT_DENTRY_LAST:

                block_put(b);

                block_put(b);

                return NULL;

                return NULL;

            default:

            default:

            case FAT_DENTRY_VALID:

            case FAT_DENTRY_VALID:

                fat_dentry_name_get(d, name);

                fat_dentry_name_get(d, name);

                break;

                break;

                 * order.

                 * order.

                 */

                 */

                fat_idx_t *idx = fat_idx_get_by_pos(

                fat_idx_t *idx = fat_idx_get_by_pos(

                    parentp->idx->dev_handle, parentp->firstc,

                    parentp->idx->dev_handle, parentp->firstc,

                    i * dps + j);

                    i * dps + j);

                if (!idx) {

                if (!idx) {

                    /*

                    /*

                     * Can happen if memory is low or if we

                     * Can happen if memory is low or if we

                     * run out of 32-bit indices.

                     * run out of 32-bit indices.

                     */

                     */

                    block_put(b);

                    block_put(b);

                    return NULL;

                    return NULL;

                }

                }

                nodep = fat_node_get_core(idx);

                nodep = fat_node_get_core(idx);

                block_put(b);

                block_put(b);

                return FS_NODE(nodep);

                return FS_NODE(nodep);

            }

            }

        }

        }

        block_put(b);

        block_put(b);

    }

    }

    return NULL;

    return NULL;

}

}

fs_index_t fat_index_get(fs_node_t *fn)

fs_index_t fat_index_get(fs_node_t *fn)

{

{

    unsigned i, j;

    unsigned i, j;

    if (nodep->type != FAT_DIRECTORY)

    if (nodep->type != FAT_DIRECTORY)

        return false;

        return false;

    bs = block_bb_get(nodep->idx->dev_handle);

    bs = block_bb_get(nodep->idx->dev_handle);

    bps = uint16_t_le2host(bs->bps);

    bps = uint16_t_le2host(bs->bps);

    dps = bps / sizeof(fat_dentry_t);

    dps = bps / sizeof(fat_dentry_t);

    blocks = nodep->size / bps;

    blocks = nodep->size / bps;

            case FAT_DENTRY_SKIP:

            case FAT_DENTRY_SKIP:

            case FAT_DENTRY_FREE:

            case FAT_DENTRY_FREE:

                continue;

                continue;

            case FAT_DENTRY_LAST:

            case FAT_DENTRY_LAST:

                block_put(b);

                block_put(b);

                return false;

                return false;

            default:

            default:

            case FAT_DENTRY_VALID:

            case FAT_DENTRY_VALID:

                block_put(b);

                block_put(b);

                return true;

                return true;

            }

            }

            block_put(b);

            block_put(b);

            return true;

            return true;

        }

        }

        block_put(b);

        block_put(b);

    }

    }

    return false;

    return false;

}

}

fs_node_t *fat_root_get(dev_handle_t dev_handle)

fs_node_t *fat_root_get(dev_handle_t dev_handle)

{

{

 */

 */

void fat_mounted(ipc_callid_t rid, ipc_call_t *request)

void fat_mounted(ipc_callid_t rid, ipc_call_t *request)

{

{

    dev_handle_t dev_handle = (dev_handle_t) IPC_GET_ARG1(*request);

    dev_handle_t dev_handle = (dev_handle_t) IPC_GET_ARG1(*request);

    fat_bs_t *bs;

    fat_bs_t *bs;

    uint16_t bps;

    uint16_t bps;

    uint16_t rde;

    uint16_t rde;

    int rc;

    int rc;

        free(opts);

        free(opts);

        return;

        return;

    }

    }

    opts[size] = '\0';

    opts[size] = '\0';

    /* initialize libblock */

    /* initialize libblock */

    rc = block_init(dev_handle, BS_SIZE);

    rc = block_init(dev_handle, BS_SIZE);

    if (rc != EOK) {

    if (rc != EOK) {

        ipc_answer_0(rid, rc);

        ipc_answer_0(rid, rc);

        return;

        return;

        ipc_answer_0(rid, ENOTSUP);

        ipc_answer_0(rid, ENOTSUP);

        return;

        return;

    }

    }

    /* Initialize the block cache */

    /* Initialize the block cache */

    if (rc != EOK) {

    if (rc != EOK) {

        block_fini(dev_handle);

        block_fini(dev_handle);

        ipc_answer_0(rid, rc);

        ipc_answer_0(rid, rc);

        return;

        return;

    }

    }

    rootp->idx = ridxp;

    rootp->idx = ridxp;

    ridxp->nodep = rootp;

    ridxp->nodep = rootp;

    rootp->bp = rfn;

    rootp->bp = rfn;

    rfn->data = rootp;

    rfn->data = rootp;

    ipc_answer_3(rid, EOK, ridxp->index, rootp->size, rootp->lnkcnt);

    ipc_answer_3(rid, EOK, ridxp->index, rootp->size, rootp->lnkcnt);

}

}

void fat_mount(ipc_callid_t rid, ipc_call_t *request)

void fat_mount(ipc_callid_t rid, ipc_call_t *request)

void fat_open_node(ipc_callid_t rid, ipc_call_t *request)

void fat_open_node(ipc_callid_t rid, ipc_call_t *request)

{

{

    libfs_open_node(&fat_libfs_ops, fat_reg.fs_handle, rid, request);

    libfs_open_node(&fat_libfs_ops, fat_reg.fs_handle, rid, request);

}

}

{

{

}

}

void fat_sync(ipc_callid_t rid, ipc_call_t *request)

void fat_sync(ipc_callid_t rid, ipc_call_t *request)

{

{

    /* Dummy implementation */

    /* Dummy implementation */