/* GSL - Generic Sound Layer * Copyright (C) 2002 Tim Janik * * This library is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. */ #include "gslfilehash.h" #include #include #include #include #include #include /* macros */ #if (GLIB_SIZEOF_LONG > 4) #define HASH_LONG(l) (l + (l >> 32)) #else #define HASH_LONG(l) (l) #endif /* --- variables --- */ static GslMutex fdpool_mutex = { 0, }; static GHashTable *hfile_ht = NULL; /* --- functions --- */ static guint hfile_hash (gconstpointer key) { const GslHFile *hfile = key; guint h; h = HASH_LONG (hfile->mtime); h ^= g_str_hash (hfile->file_name); h ^= HASH_LONG (hfile->n_bytes); return h; } static gboolean hfile_equals (gconstpointer key1, gconstpointer key2) { const GslHFile *hfile1 = key1; const GslHFile *hfile2 = key2; return (hfile1->mtime == hfile2->mtime && hfile1->n_bytes == hfile2->n_bytes && strcmp (hfile1->file_name, hfile2->file_name) == 0); } void _gsl_init_fd_pool (void) { g_assert (hfile_ht == NULL); gsl_mutex_init (&fdpool_mutex); hfile_ht = g_hash_table_new (hfile_hash, hfile_equals); } static gboolean stat_fd (gint fd, GTime *mtime, GslLong *n_bytes) { struct stat statbuf = { 0, }; if (fstat (fd, &statbuf) < 0) return FALSE; /* have errno */ if (mtime) *mtime = statbuf.st_mtime; if (n_bytes) *n_bytes = statbuf.st_size; return TRUE; } static gboolean stat_file (const gchar *file_name, GTime *mtime, GslLong *n_bytes) { struct stat statbuf = { 0, }; if (stat (file_name, &statbuf) < 0) return FALSE; /* have errno */ if (mtime) *mtime = statbuf.st_mtime; if (n_bytes) *n_bytes = statbuf.st_size; return TRUE; } /** * gsl_hfile_open * @file_name: name of the file to open * @RETURNS: a new opened #GslHFile or NULL if an error occoured (errno set) * * Open a file for reading and return the associated GSL hashed file. * The motivation for using a #GslHFile over normal unix file * descriptors is to reduce the amount of opened unix file descriptors and * to ensure thread safety upon reading offset relative byte blocks. * Multiple open #GslHFiles with equal file names will share a * single unix file descriptor as long as the file wasn't modified meanwhile. * This function is MT-safe and may be called from any thread. */ GslHFile* gsl_hfile_open (const gchar *file_name) { GslHFile key, *hfile; gint ret_errno; errno = EFAULT; g_return_val_if_fail (file_name != NULL, NULL); key.file_name = (gchar*) file_name; if (!stat_file (file_name, &key.mtime, &key.n_bytes)) return NULL; /* errno from stat() */ GSL_SYNC_LOCK (&fdpool_mutex); hfile = g_hash_table_lookup (hfile_ht, &key); if (hfile) { GSL_SYNC_LOCK (&hfile->mutex); hfile->ocount++; GSL_SYNC_UNLOCK (&hfile->mutex); ret_errno = 0; } else { gint fd; fd = open (file_name, O_RDONLY | O_NOCTTY, 0); if (fd >= 0) { hfile = gsl_new_struct0 (GslHFile, 1); hfile->file_name = g_strdup (file_name); hfile->mtime = key.mtime; hfile->n_bytes = key.n_bytes; hfile->cpos = 0; hfile->fd = fd; hfile->ocount = 1; gsl_mutex_init (&hfile->mutex); g_hash_table_insert (hfile_ht, hfile, hfile); ret_errno = 0; } else ret_errno = errno; } GSL_SYNC_UNLOCK (&fdpool_mutex); errno = ret_errno; return hfile; } /** * gsl_hfile_close * @hfile: valid #GslHFile * * Close and destroy a #GslHFile. * This function is MT-safe and may be called from any thread. */ void gsl_hfile_close (GslHFile *hfile) { gboolean destroy = FALSE; g_return_if_fail (hfile != NULL); g_return_if_fail (hfile->ocount > 0); GSL_SYNC_LOCK (&fdpool_mutex); GSL_SYNC_LOCK (&hfile->mutex); if (hfile->ocount > 1) hfile->ocount--; else { if (!g_hash_table_remove (hfile_ht, hfile)) g_warning ("%s: failed to unlink hashed file (%p)", G_STRLOC, hfile); else { hfile->ocount = 0; destroy = TRUE; } } GSL_SYNC_UNLOCK (&hfile->mutex); GSL_SYNC_UNLOCK (&fdpool_mutex); if (destroy) { gsl_mutex_destroy (&hfile->mutex); close (hfile->fd); g_free (hfile->file_name); gsl_delete_struct (GslHFile, hfile); } errno = 0; } /** * gsl_hfile_pread * @hfile: valid GslHFile * @offset: offset in bytes within 0 and file end * @n_bytes: number of bytes to read * @bytes: buffer to store read bytes * @error_p: pointer to GslErrorType location * @RETURNS: amount of bytes read or -1 if an error occoured (errno set) * * Read a block of bytes from a GslHFile. * This function is MT-safe and may be called from any thread. */ GslLong gsl_hfile_pread (GslHFile *hfile, GslLong offset, GslLong n_bytes, gpointer bytes) { GslLong ret_bytes = -1; gint ret_errno; errno = EFAULT; g_return_val_if_fail (hfile != NULL, -1); g_return_val_if_fail (hfile->ocount > 0, -1); g_return_val_if_fail (offset >= 0, -1); if (offset >= hfile->n_bytes || n_bytes < 1) { errno = 0; return 0; } g_return_val_if_fail (bytes != NULL, -1); GSL_SYNC_LOCK (&hfile->mutex); if (hfile->ocount) { if (hfile->cpos != offset) { hfile->cpos = lseek (hfile->fd, offset, SEEK_SET); if (hfile->cpos < 0 && errno != EINVAL) { ret_errno = errno; GSL_SYNC_UNLOCK (&hfile->mutex); errno = ret_errno; return -1; } } if (hfile->cpos == offset) { do ret_bytes = read (hfile->fd, bytes, n_bytes); while (ret_bytes < 0 && errno == EINTR); if (ret_bytes < 0) { ret_errno = errno; ret_bytes = -1; } else { ret_errno = 0; hfile->cpos += ret_bytes; } } else /* this should only happen if the file changed since open() */ { hfile->cpos = -1; if (offset + n_bytes > hfile->n_bytes) n_bytes = hfile->n_bytes - offset; memset (bytes, 0, n_bytes); ret_bytes = n_bytes; ret_errno = 0; } } else ret_errno = EFAULT; GSL_SYNC_UNLOCK (&hfile->mutex); errno = ret_errno; return ret_bytes; } /** * gsl_rfile_open * @file_name: name of the file to open * @RETURNS: a new opened #GslRFile or NULL if an error occoured (errno set) * * Open a file for reading and create a GSL read only file handle for it. * The motivation for using a #GslRFile over normal unix files * is to reduce the amount of opened unix file descriptors by using * a #GslHFile for the actual IO. */ GslRFile* gsl_rfile_open (const gchar *file_name) { GslHFile *hfile = gsl_hfile_open (file_name); GslRFile *rfile; if (!hfile) rfile = NULL; else { rfile = gsl_new_struct0 (GslRFile, 1); rfile->hfile = hfile; rfile->offset = 0; } return rfile; } /** * gsl_rfile_name * @rfile: valid #GslRFile * @RETURNS: the file name used to open this file * * Retrive the file name used to open @rfile. */ gchar* gsl_rfile_name (GslRFile *rfile) { errno = EFAULT; g_return_val_if_fail (rfile != NULL, NULL); errno = 0; return rfile->hfile->file_name; } /** * gsl_rfile_seek_set * @rfile: valid #GslRFile * @offset: new seek position within 0 and gsl_rfile_length()+1 * @RETURNS: resulting position within 0 and gsl_rfile_length()+1 * * Set the current #GslRFile seek position. */ GslLong gsl_rfile_seek_set (GslRFile *rfile, GslLong offset) { GslLong l; errno = EFAULT; g_return_val_if_fail (rfile != NULL, 0); l = rfile->hfile->n_bytes; rfile->offset = CLAMP (offset, 0, l); errno = 0; return rfile->offset; } /** * gsl_rfile_position * @rfile: valid #GslRFile * @RETURNS: current position within 0 and gsl_rfile_length() * * Retrive the current #GslRFile seek position. */ GslLong gsl_rfile_position (GslRFile *rfile) { errno = EFAULT; g_return_val_if_fail (rfile != NULL, 0); errno = 0; return rfile->offset; } /** * gsl_rfile_length * @rfile: valid #GslRFile * @RETURNS: total length of the #GslRFile in bytes * * Retrive the file length of @rfile in bytes. */ GslLong gsl_rfile_length (GslRFile *rfile) { GslLong l; errno = EFAULT; g_return_val_if_fail (rfile != NULL, 0); l = rfile->hfile->n_bytes; errno = 0; return l; } /** * gsl_rfile_pread * @rfile: valid GslRFile * @offset: offset in bytes within 0 and gsl_rfile_length() * @n_bytes: number of bytes to read * @bytes: buffer to store read bytes * @error_p: pointer to GslErrorType location * @RETURNS: amount of bytes read or -1 if an error occoured (errno set) * * Read a block of bytes from a GslRFile at a specified position. */ GslLong gsl_rfile_pread (GslRFile *rfile, GslLong offset, GslLong n_bytes, gpointer bytes) { errno = EFAULT; g_return_val_if_fail (rfile != NULL, -1); return gsl_hfile_pread (rfile->hfile, offset, n_bytes, bytes); } /** * gsl_rfile_read * @rfile: valid GslRFile * @n_bytes: number of bytes to read * @bytes: buffer to store read bytes * @error_p: pointer to GslErrorType location * @RETURNS: amount of bytes read or -1 if an error occoured (errno set) * * Read a block of bytes from a GslRFile from the current seek position * and advance the seek position. */ GslLong gsl_rfile_read (GslRFile *rfile, GslLong n_bytes, gpointer bytes) { GslLong l; errno = EFAULT; g_return_val_if_fail (rfile != NULL, -1); l = gsl_hfile_pread (rfile->hfile, rfile->offset, n_bytes, bytes); if (l > 0) rfile->offset += l; return l; } /** * gsl_rfile_close * @rfile: valid #GslRFile * * Close and destroy a #GslRFile. */ void gsl_rfile_close (GslRFile *rfile) { errno = EFAULT; g_return_if_fail (rfile != NULL); gsl_hfile_close (rfile->hfile); gsl_delete_struct (GslRFile, rfile); errno = 0; }