Sun, 07 Apr 2024 10:25:01 +0200
update uwproj
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2022 Olaf Wintermann. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "vfs.h" #include "config.h" #include <inttypes.h> #include "../../util/util.h" #include "../../util/pblock.h" static VFS pg_vfs_class = { pg_vfs_open, pg_vfs_stat, pg_vfs_fstat, pg_vfs_opendir, pg_vfs_fdopendir, pg_vfs_mkdir, pg_vfs_unlink, pg_vfs_rmdir }; static VFS_IO pg_vfs_io_class = { pg_vfs_io_read, pg_vfs_io_write, pg_vfs_io_pread, pg_vfs_io_pwrite, pg_vfs_io_seek, pg_vfs_io_close, NULL, // no pg aio implementation yet NULL, pg_vfs_io_getetag }; static VFS_DIRIO pg_vfs_dirio_class = { pg_vfs_dirio_readdir, pg_vfs_dirio_close }; /* * SQL Queries */ // Resolves a path into resource_id and parent_id // params: $1: path string static const char *sql_resolve_path = "with recursive resolvepath as (\n\ select\n\ resource_id,\n\ parent_id,\n\ '' as fullpath,\n\ resoid,\n\ iscollection,\n\ lastmodified,\n\ creationdate,\n\ contentlength,\n\ etag,\n\ regexp_split_to_array($1, '/') as pathelm,\n\ 1 as pathdepth\n\ from Resource\n\ where resource_id = $2\n\ union\n\ select\n\ r.resource_id,\n\ r.parent_id,\n\ p.fullpath || '/' || r.nodename,\n\ r.resoid,\n\ r.iscollection,\n\ r.lastmodified,\n\ r.creationdate,\n\ r.contentlength,\n\ r.etag,\n\ p.pathelm,\n\ p.pathdepth + 1\n\ from Resource r\n\ inner join resolvepath p on r.parent_id = p.resource_id\n\ where p.pathelm[p.pathdepth+1] = r.nodename\n\ )\n\ select resource_id, parent_id, fullpath, resoid, iscollection, lastmodified, creationdate, contentlength, etag from resolvepath\n\ where fullpath = $1 ;"; // Same as sql_resolve_path, but it returns the root collection // params: $1: path string (should be '/') static const char *sql_get_root = "select resource_id, parent_id, $1 as fullpath, resoid, true as iscollection, lastmodified, creationdate, contentlength, etag from Resource where resource_id = $2;"; // Get all children of a specific collection // params: $1: parent resource_id static const char *sql_get_children = "select resource_id, nodename, iscollection, lastmodified, creationdate, contentlength, etag from Resource where parent_id = $1;"; // Get resource // params: $1: resource_id static const char *sql_get_resource = "select resource_id, nodename, iscollection, lastmodified, creationdate, contentlength, etag from Resource where resource_id = $1;"; // Create resource // params: $1: parent_id // $2: node name static const char *sql_create_resource = "insert into Resource (parent_id, nodename, iscollection, lastmodified, creationdate, contentlength, resoid) values\n\ ($1, $2, false, now(), now(), 0, lo_creat(-1))\n\ returning resource_id, resoid, lastmodified, creationdate;"; // Create collection // params: $1: parent_id // $2: node name static const char *sql_create_collection = "insert into Resource (parent_id, nodename, iscollection, lastmodified, creationdate, contentlength) values\n\ ($1, $2, true, now(), now(), 0)\n\ returning resource_id, lastmodified, creationdate;"; // Update resource metadata // params: $1: resource_id // $2: contentlength static const char *sql_update_resource = "update Resource set contentlength = $2, lastmodified = now(), etag = gen_random_uuid() where resource_id = $1;"; // Delete a resource // params: $1: resource_id static const char *sql_delete_res = "delete from Resource where parent_id is not null and resource_id = $1;"; void* pg_vfs_init(ServerConfiguration *cfg, pool_handle_t *pool, WSConfigNode *config) { return pg_init_repo(cfg, pool, config); } VFS* pg_vfs_create(Session *sn, Request *rq, pblock *pb, void *initData) { PgRepository *repo = initData; char *resource_pool; if(repo) { resource_pool = repo->resourcepool.ptr; } else { // resourcepool is required resource_pool = pblock_findval("resourcepool", pb); if(!resource_pool) { log_ereport(LOG_MISCONFIG, "pg_vfs_create: missing resourcepool parameter"); return NULL; } } // get the resource first (most likely failure reason is misconfig) ResourceData *resdata = resourcepool_lookup(sn, rq, resource_pool, 0); if(!resdata) { log_ereport(LOG_MISCONFIG, "postgresql vfs: resource pool %s not found", resource_pool); return NULL; } // resdata will be freed automatically when the request is finished return pg_vfs_create_from_resourcedata(sn, rq, repo, resdata); } VFS* pg_vfs_create_from_resourcedata(Session *sn, Request *rq, PgRepository *repo, ResourceData *resdata) { // Create a new VFS object and a separate instance object // VFS contains fptrs that can be copied from pg_vfs_class // instance contains request specific data (PGconn) VFS *vfs = pool_malloc(sn->pool, sizeof(VFS)); if(!vfs) { return NULL; } PgVFS *vfs_priv = pool_malloc(sn->pool, sizeof(PgVFS)); if(!vfs_priv) { pool_free(sn->pool, vfs); return NULL; } vfs_priv->connection = resdata->data; vfs_priv->pg_resource = resdata; vfs_priv->root_resource_id = repo->root_resource_id; snprintf(vfs_priv->root_resource_id_str, 32, "%" PRId64, repo->root_resource_id); memcpy(vfs, &pg_vfs_class, sizeof(VFS)); vfs->flags = 0; vfs->instance = vfs_priv; return vfs; } int pg_resolve_path( PGconn *connection, const char *path, const char *root_id, int64_t *parent_id, int64_t *resource_id, Oid *oid, const char **resource_name, WSBool *iscollection, struct stat *s, char *etag, int *res_errno) { // basic path validation if(!path) return 1; size_t pathlen = strlen(path); if(pathlen == 0) return 1; if(path[0] != '/') { return 1; } char *pathf = NULL; if(pathlen > 1 && path[pathlen-1] == '/') { pathf = malloc(pathlen); memcpy(pathf, path, pathlen); pathf[pathlen-1] = 0; // remove trailing '/' path = pathf; } // get last node of path *resource_name = util_resource_name(path); const char *sql = pathlen == 1 ? sql_get_root : sql_resolve_path; const char* params[2] = { path, root_id }; PGresult *result = PQexecParams( connection, sql, 2, // number of parameters NULL, params, // parameter value NULL, NULL, 0); // 0: result in text format if(pathf) { free(pathf); } if(!result) return 1; int ret = 1; //int nfields = PQnfields(result); int nrows = PQntuples(result); if(nrows == 1) { char *resource_id_str = PQgetvalue(result, 0, 0); char *parent_id_str = PQgetvalue(result, 0, 1); char *iscol = PQgetvalue(result, 0, 4); char *lastmodified = PQgetvalue(result, 0, 5); char *creationdate = PQgetvalue(result, 0, 6); char *contentlength = PQgetvalue(result, 0, 7); char *res_etag = PQgetvalue(result, 0, 8); if(resource_id_str && parent_id_str) { if(util_strtoint(resource_id_str, resource_id)) { ret = 0; // success } // optionally get parent_id util_strtoint(parent_id_str, parent_id); } if(oid) { char *resoid = PQgetvalue(result, 0, 3); int64_t roid; if(resoid && util_strtoint(resoid, &roid)) { *oid = roid; } } if(iscollection && iscol) { *iscollection = iscol[0] == 't' ? TRUE : FALSE; } if(s) { pg_set_stat(s, iscol, lastmodified, creationdate, contentlength); } if(etag) { size_t etag_len = strlen(res_etag); if(etag_len < PG_ETAG_MAXLEN) memcpy(etag, res_etag, etag_len+1); } } else if(res_errno) { *res_errno = ENOENT; } PQclear(result); return ret; } void pg_set_stat( struct stat *s, const char *iscollection, const char *lastmodified, const char *creationdate, const char *contentlength) { memset(s, 0, sizeof(struct stat)); if(iscollection) { WSBool iscol = iscollection[0] == 't' ? TRUE : FALSE; if(iscol) { s->st_mode |= 0x4000; } } s->st_mtime = pg_convert_timestamp(lastmodified); if(contentlength) { int64_t len; if(util_strtoint(contentlength, &len)) { s->st_size = len; } } } static int pg_create_res( PgVFS *pg, const char *resparentid_str, const char *nodename, int64_t *new_resource_id, Oid *oid, const char **resource_name, struct stat *s) { const char* params[2] = { resparentid_str, nodename }; PGresult *result = PQexecParams( pg->connection, sql_create_resource, 2, // number of parameters NULL, params, // parameter value NULL, NULL, 0); // 0: result in text format if(!result) return 1; int ret = 1; if(PQntuples(result) == 1) { // sql insert succesful ret = 0; char *id_str = PQgetvalue(result, 0, 0); char *oid_str = PQgetvalue(result, 0, 1); char *lastmodified = PQgetvalue(result, 0, 2); char *creationdate = PQgetvalue(result, 0, 3); if(new_resource_id) { if(!id_str || !util_strtoint(id_str, new_resource_id)) { ret = 1; // shouldn't happen log_ereport(LOG_FAILURE, "Postgresql VFS: sql_create_resource: Could not convert resource_id to int"); } } if(oid) { int64_t i; if(!oid_str || !util_strtoint(oid_str, &i)) { ret = 1; // shouldn't happen log_ereport(LOG_FAILURE, "Postgresql VFS: sql_create_resource: Could not convert oid to int"); } else { *oid = i; } } if(resource_name) { *resource_name = nodename; } if(s) { pg_set_stat(s, 0, lastmodified, creationdate, NULL); } } PQclear(result); return ret; } static int pg_create_col( PgVFS *pg, const char *resparentid_str, const char *nodename, int64_t *new_resource_id, const char **resource_name, struct stat *s) { const char* params[2] = { resparentid_str, nodename }; PGresult *result = PQexecParams( pg->connection, sql_create_collection, 2, // number of parameters NULL, params, // parameter value NULL, NULL, 0); // 0: result in text format if(!result) return 1; int ret = 1; if(PQntuples(result) == 1) { // sql insert succesful ret = 0; char *id_str = PQgetvalue(result, 0, 0); char *lastmodified = PQgetvalue(result, 0, 1); char *creationdate = PQgetvalue(result, 0, 2); if(new_resource_id) { if(!id_str || !util_strtoint(id_str, new_resource_id)) { ret = 1; // shouldn't happen log_ereport(LOG_FAILURE, "Postgresql VFS: sql_create_collection: Could not convert resource_id to int"); } } if(resource_name) { *resource_name = nodename; } if(s) { pg_set_stat(s, 0, lastmodified, creationdate, NULL); } } PQclear(result); return ret; } int pg_create_file( VFSContext *ctx, PgVFS *pg, const char *path, int64_t *new_resource_id, int64_t *res_parent_id, Oid *oid, const char **resource_name, struct stat *s, WSBool collection) { char *parent_path = util_parent_path(path); if(!parent_path) return 1; size_t pathlen = strlen(path); char *pathf = NULL; if(pathlen > 1 && path[pathlen-1] == '/') { pathf = malloc(pathlen); memcpy(pathf, path, pathlen); pathf[pathlen-1] = 0; // remove trailing '/' path = pathf; } const char *nodename = util_resource_name(path); // resolve the parent path // if the parent path can't be resolved, we are done const char *resname; int64_t resource_id, parent_id; resource_id = -1; parent_id = -1; WSBool iscollection; Oid unused_oid = 0; int err = pg_resolve_path( pg->connection, parent_path, pg->root_resource_id_str, &parent_id, &resource_id, &unused_oid, &resname, &iscollection, NULL, NULL, &ctx->vfs_errno); FREE(parent_path); if(err) { ctx->vfs_errno = ENOENT; if(pathf) free(pathf); return 1; } // parent path exists, check if it is a collection if(!iscollection) { if(pathf) free(pathf); return 1; } // create new Resource char resid_str[32]; snprintf(resid_str, 32, "%" PRId64, resource_id); // convert parent resource_id to string int ret; if(collection) { ret = pg_create_col(pg, resid_str, nodename, new_resource_id, resource_name, s); } else { ret = pg_create_res(pg, resid_str, nodename, new_resource_id, oid, resource_name, s); } if(pathf) free(pathf); if(res_parent_id) { // resource_id is still the id of the parent from previous pg_resolve_path call *res_parent_id = resource_id; } return ret; } int pg_remove_res( VFSContext *ctx, PgVFS *pg, int64_t resource_id, Oid oid) { // create transaction savepoint PGresult *result = PQexec(pg->connection, "savepoint del_res;"); ExecStatusType execStatus = PQresultStatus(result); PQclear(result); if(execStatus != PGRES_COMMAND_OK) { return 1; } if(oid > 0) { if(lo_unlink(pg->connection, oid) != 1) { // restore savepoint result = PQexec(pg->connection, "rollback to savepoint del_res;"); PQclear(result); return 1; // error } } char resid_str[32]; snprintf(resid_str, 32, "%" PRId64, resource_id); const char* params[1] = { resid_str }; result = PQexecParams( pg->connection, sql_delete_res, 1, // number of parameters NULL, params, // parameter value NULL, NULL, 0); // 0: result in text format execStatus = PQresultStatus(result); PQclear(result); int ret = 0; if(execStatus != PGRES_COMMAND_OK) { ret = 1; // restore savepoint result = PQexec(pg->connection, "rollback to savepoint del_res;"); PQclear(result); } else { // we don't need the savepoint anymore result = PQexec(pg->connection, "release savepoint del_res;"); PQclear(result); } return ret; } int pg_update_resource(PgVFS *pg, int64_t resource_id, int64_t contentlength) { char resid_str[32]; char ctlen_str[32]; snprintf(resid_str, 32, "%" PRId64, resource_id); snprintf(ctlen_str, 32, "%" PRId64, contentlength); const char* params[2] = { resid_str, ctlen_str }; PGresult *result = PQexecParams( pg->connection, sql_update_resource, 2, // number of parameters NULL, params, // parameter value NULL, NULL, 0); // 0: result in text format int ret = PQresultStatus(result) == PGRES_COMMAND_OK ? 0 : 1; PQclear(result); return ret; } /* -------------------------- VFS functions -------------------------- */ SYS_FILE pg_vfs_open(VFSContext *ctx, const char *path, int oflags) { VFS *vfs = ctx->vfs; PgVFS *pg = vfs->instance; const char *resname; int64_t resource_id, parent_id; resource_id = -1; parent_id = -1; WSBool iscollection; struct stat s; char etag[PG_ETAG_MAXLEN]; Oid oid = 0; if(pg_resolve_path(pg->connection, path, pg->root_resource_id_str, &parent_id, &resource_id, &oid, &resname, &iscollection, &s, etag, &ctx->vfs_errno)) { if((oflags & O_CREAT) == O_CREAT) { if(pg_create_file(ctx, pg, path, &resource_id, &parent_id, &oid, &resname, &s, FALSE)) { return NULL; } iscollection = 0; } else { return NULL; } } // store the resource_id in rq->vars if(ctx->rq) { char *rq_path = pblock_findkeyval(pb_key_path, ctx->rq->vars); if(rq_path && !strcmp(rq_path, path)) { char *res_id_str = pblock_findval("resource_id", ctx->rq->vars); if(!res_id_str) { char resource_id_str[32]; snprintf(resource_id_str, 32, "%" PRId64, resource_id); pblock_nvinsert("resource_id",resource_id_str, ctx->rq->vars); } } } VFSFile *file = pool_malloc(ctx->pool, sizeof(VFSFile)); if(!file) { return NULL; } PgFile *pgfile = pool_malloc(ctx->pool, sizeof(PgFile)); if(!pgfile) { pool_free(ctx->pool, file); return NULL; } int fd = -1; if(!iscollection) { if (PQstatus(pg->connection) != CONNECTION_OK) { fd = -2; } int lo_mode = INV_READ; if((oflags & O_RDWR) == O_RDWR) { lo_mode = INV_READ|INV_WRITE; } else if((oflags & O_WRONLY) == O_WRONLY) { lo_mode = INV_WRITE; } fd = lo_open(pg->connection, oid, lo_mode); int err = 0; if(fd < 0) { err = 1; } else if((oflags & O_TRUNC) == O_TRUNC) { if(lo_truncate(pg->connection, fd, 0)) { lo_close(pg->connection, fd); err = 1; } } if(err) { pool_free(ctx->pool, file); pool_free(ctx->pool, pgfile); return NULL; } } pgfile->iscollection = iscollection; pgfile->resource_id = resource_id; pgfile->parent_id = parent_id; pgfile->oid = oid; pgfile->fd = fd; pgfile->oflags = oflags; pgfile->s = s; memcpy(pgfile->etag, etag, PG_ETAG_MAXLEN); file->ctx = ctx; file->io = iscollection ? &pg_vfs_io_class : &pg_vfs_io_class; file->fd = -1; file->data = pgfile; return file; } int pg_vfs_stat(VFSContext *ctx, const char *path, struct stat *buf) { VFS *vfs = ctx->vfs; PgVFS *pg = vfs->instance; int64_t parent_id, resource_id; const char *resname; WSBool iscollection; return pg_resolve_path(pg->connection, path, pg->root_resource_id_str, &parent_id, &resource_id, NULL, &resname, &iscollection, buf, NULL, &ctx->vfs_errno); } int pg_vfs_fstat(VFSContext *ctx, SYS_FILE fd, struct stat *buf) { PgFile *pgfile = fd->data; memcpy(buf, &pgfile->s, sizeof(struct stat)); return 0; } VFS_DIR pg_vfs_opendir(VFSContext *ctx, const char *path) { VFSFile *file = pg_vfs_open(ctx, path, O_RDONLY); if(!file) return NULL; return pg_vfs_fdopendir(ctx, file); } VFS_DIR pg_vfs_fdopendir(VFSContext *ctx, SYS_FILE fd) { PgFile *pg = fd->data; if(!pg->iscollection) { ctx->vfs_errno = ENOTDIR; return NULL; } VFSDir *dir = pool_malloc(ctx->pool, sizeof(VFSDir)); if(!dir) { fd->io->close(fd); ctx->vfs_errno = ENOMEM; return NULL; } PgDir *pgdir = pool_malloc(ctx->pool, sizeof(PgDir)); if(!pgdir) { fd->io->close(fd); pool_free(ctx->pool, dir); ctx->vfs_errno = ENOMEM; return NULL; } memset(pgdir, 0, sizeof(PgDir)); pgdir->file = fd; dir->ctx = ctx; dir->io = &pg_vfs_dirio_class; dir->data = pgdir; dir->fd = -1; return dir; } int pg_vfs_mkdir(VFSContext *ctx, const char *path) { VFS *vfs = ctx->vfs; PgVFS *pg = vfs->instance; const char *resname; int64_t resource_id, parent_id; resource_id = -1; parent_id = -1; WSBool iscollection; struct stat s; Oid oid = 0; if(!pg_resolve_path(pg->connection, path, pg->root_resource_id_str, &parent_id, &resource_id, &oid, &resname, &iscollection, &s, NULL, &ctx->vfs_errno)) { ctx->vfs_errno = EEXIST; return 1; } if(pg_create_file(ctx, pg, path, NULL, NULL, NULL, NULL, NULL, TRUE)) { return 1; } return 0; } int pg_vfs_unlink(VFSContext *ctx, const char *path) { VFS *vfs = ctx->vfs; PgVFS *pg = vfs->instance; const char *resname; int64_t resource_id, parent_id; resource_id = -1; parent_id = -1; WSBool iscollection; Oid oid = 0; if(pg_resolve_path(pg->connection, path, pg->root_resource_id_str, &parent_id, &resource_id, &oid, &resname, &iscollection, NULL, NULL, &ctx->vfs_errno)) { return 1; } if(iscollection) { ctx->vfs_errno = EISDIR; return 1; } return pg_remove_res(ctx, pg, resource_id, oid); } int pg_vfs_rmdir(VFSContext *ctx, const char *path) { VFS *vfs = ctx->vfs; PgVFS *pg = vfs->instance; const char *resname; int64_t resource_id, parent_id; resource_id = -1; parent_id = -1; WSBool iscollection; if(pg_resolve_path(pg->connection, path, pg->root_resource_id_str, &parent_id, &resource_id, NULL, &resname, &iscollection, NULL, NULL, &ctx->vfs_errno)) { return 1; } if(!iscollection) { ctx->vfs_errno = ENOTDIR; return 1; } return pg_remove_res(ctx, pg, resource_id, 0); } /* -------------------------- VFS_IO functions -------------------------- */ ssize_t pg_vfs_io_read(SYS_FILE fd, void *buf, size_t nbyte) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; return lo_read(pgvfs->connection, pg->fd, buf, nbyte); } ssize_t pg_vfs_io_write(SYS_FILE fd, const void *buf, size_t nbyte) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; return lo_write(pgvfs->connection, pg->fd, buf, nbyte); } ssize_t pg_vfs_io_pread(SYS_FILE fd, void *buf, size_t nbyte, off_t offset) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; if(lo_lseek64(pgvfs->connection, pg->fd, offset, SEEK_SET) == -1) { return -1; } return lo_read(pgvfs->connection, pg->fd, buf, nbyte); } ssize_t pg_vfs_io_pwrite(SYS_FILE fd, const void *buf, size_t nbyte, off_t offset) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; if(lo_lseek64(pgvfs->connection, pg->fd, offset, SEEK_SET) == -1) { return -1; } return lo_write(pgvfs->connection, pg->fd, buf, nbyte); } off_t pg_vfs_io_seek(SYS_FILE fd, off_t offset, int whence) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; return lo_lseek64(pgvfs->connection, pg->fd, offset, whence); } off_t pg_vfs_io_tell(SYS_FILE fd) { PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd < 0) return-1; return lo_tell64(pgvfs->connection, pg->fd); } void pg_vfs_io_close(SYS_FILE fd) { pool_handle_t *pool = fd->ctx->pool; PgVFS *pgvfs = fd->ctx->vfs->instance; PgFile *pg = fd->data; if(pg->fd >= 0) { if((pg->oflags & (O_WRONLY|O_RDWR)) > 0) { // file modified, update length and lastmodified off_t len = pg_vfs_io_seek(fd, 0, SEEK_END); if(len < 0) len = 0; pg_update_resource(pgvfs, pg->resource_id, len); } PgVFS *pgvfs = fd->ctx->vfs->instance; lo_close(pgvfs->connection, pg->fd); } pool_free(pool, pg); pool_free(pool, fd); } const char *pg_vfs_io_getetag(SYS_FILE fd) { PgFile *pg = fd->data; return pg->etag; } /* -------------------------- VFS_DIRIO functions -------------------------- */ static int load_dir(VFSDir *dir, PgDir *pg) { VFS *vfs = dir->ctx->vfs; PgVFS *pgvfs = vfs->instance; PgFile *pgfd = pg->file->data; PgDir *pgdir = dir->data; char resid_param[32]; snprintf(resid_param, 32, "%" PRId64, pgfd->resource_id); const char *param = resid_param; PGresult *result = PQexecParams( pgvfs->connection, sql_get_children, 1, // number of parameters NULL, ¶m, // param: parent resource_id NULL, NULL, 0); // 0: result in text format if(!result) return 1; pgdir->result = result; pgdir->nrows = PQntuples(result); return 0; } int pg_vfs_dirio_readdir(VFS_DIR dir, VFS_ENTRY *entry, int getstat) { PgDir *pg = dir->data; if(!pg->result) { if(load_dir(dir, pg)) { return 0; } } if(pg->row >= pg->nrows) { return 0; // EOF } entry->name = PQgetvalue(pg->result, pg->row, 1); entry->stat_errno = 0; entry->stat_extra = NULL; if(getstat) { memset(&entry->stat, 0, sizeof(struct stat)); char *iscollection = PQgetvalue(pg->result, pg->row, 2); char *lastmodified = PQgetvalue(pg->result, pg->row, 3); char *creationdate = PQgetvalue(pg->result, pg->row, 4); char *contentlength = PQgetvalue(pg->result, pg->row, 5); pg_set_stat(&entry->stat, iscollection, lastmodified, creationdate, contentlength); } pg->row++; return 1; } void pg_vfs_dirio_close(VFS_DIR dir) { pool_handle_t *pool = dir->ctx->pool; PgDir *pg = dir->data; if(pg->result) { PQclear(pg->result); } PgFile *pgfile = pg->file->data; pool_free(pool, pgfile); pool_free(pool, pg->file); pool_free(pool, pg); pool_free(pool, dir); } time_t pg_convert_timestamp(const char *timestamp) { struct tm tm; if(pg_convert_timestamp_tm(timestamp, &tm)) { return 0; } #ifdef __FreeBSD__ return timelocal(&tm); #else return mktime(&tm) - timezone; #endif } int pg_convert_timestamp_tm(const char *timestamp, struct tm *tm) { // TODO: this is a very basic implementation that needs some work // format yyyy-mm-dd HH:MM:SS memset(tm, 0, sizeof(struct tm)); size_t len = timestamp ? strlen(timestamp) : 0; if(len < 19) { return 1; } else if(len > 63) { return 1; } char buf[64]; memcpy(buf, timestamp, len); char *year_str = buf; year_str[4] = '\0'; char *month_str = buf + 5; month_str[2] = '\0'; char *day_str = buf + 8; day_str[2] = '\0'; char *hour_str = buf + 11; hour_str[2] = '\0'; char *minute_str = buf + 14; minute_str[2] = '\0'; char *second_str = buf + 17; second_str[2] = '\0'; tm->tm_year = atoi(year_str) - 1900; tm->tm_mon = atoi(month_str) - 1; tm->tm_mday = atoi(day_str); tm->tm_hour = atoi(hour_str); tm->tm_min = atoi(minute_str); tm->tm_sec = atoi(second_str); return 0; }