-/*
- * Copyright (C) 2007 Andre Noll <maan@tuebingen.mpg.de>
- *
- * Licensed under the GPL v2. For licencing details see COPYING.
- */
+/* Copyright (C) 2007 Andre Noll <maan@tuebingen.mpg.de>, see file COPYING. */
/** \file aft.c Audio file table functions. */
#include <sys/mman.h>
#include <fnmatch.h>
#include <sys/shm.h>
+#include <dirent.h>
#include <osl.h>
#include <lopsub.h>
#include "sideband.h"
#include "command.h"
-static struct osl_table *audio_file_table;
-static char *status_items;
-static char *parser_friendly_status_items;
-
-/** The different sorting methods of the ls command. */
-enum ls_sorting_method {
- /** -sp (default) */
- LS_SORT_BY_PATH,
- /** -ss */
- LS_SORT_BY_SCORE,
- /** -sl */
- LS_SORT_BY_LAST_PLAYED,
- /** -sn */
- LS_SORT_BY_NUM_PLAYED,
- /** -sf */
- LS_SORT_BY_FREQUENCY,
- /** -sc */
- LS_SORT_BY_CHANNELS,
- /** -si */
- LS_SORT_BY_IMAGE_ID,
- /** -sy */
- LS_SORT_BY_LYRICS_ID,
- /** -sb */
- LS_SORT_BY_BITRATE,
- /** -sd */
- LS_SORT_BY_DURATION,
- /** -sa */
- LS_SORT_BY_AUDIO_FORMAT,
- /** -sh */
- LS_SORT_BY_HASH,
-};
-
-/** The different listing modes of the ls command. */
-enum ls_listing_mode {
- /** Default listing mode. */
- LS_MODE_SHORT,
- /** -l or -ll */
- LS_MODE_LONG,
- /** -lv */
- LS_MODE_VERBOSE,
- /** -lm */
- LS_MODE_MBOX,
- /** -lc */
- LS_MODE_CHUNKS,
- /** -lp */
- LS_MODE_PARSER,
-};
-
/* Data about one audio file. Needed for ls and stat output. */
struct ls_data {
/* Usual audio format handler information. */
unsigned char *hash;
};
+/*
+ * The internal state of the audio file table is described by the following
+ * variables which are private to aft.c.
+ */
+static struct osl_table *audio_file_table; /* NULL if table not open */
+static struct osl_row *current_aft_row; /* NULL if no audio file open */
+static unsigned char current_hash[HASH2_SIZE]; /* only used on sighup */
+
+static char *status_items;
+static char *parser_friendly_status_items;
+static struct ls_data status_item_ls_data;
+
+/** The different sorting methods of the ls command. */
+enum ls_sorting_method {
+ LS_SORT_BY_PATH, /**< -s=p (default) */
+ LS_SORT_BY_SCORE, /**< -s=s */
+ LS_SORT_BY_LAST_PLAYED, /**< -s=l */
+ LS_SORT_BY_NUM_PLAYED, /**< -s=n */
+ LS_SORT_BY_FREQUENCY, /**< -s=f */
+ LS_SORT_BY_CHANNELS, /**< -s=c */
+ LS_SORT_BY_IMAGE_ID, /**< -s=i */
+ LS_SORT_BY_LYRICS_ID, /**< -s=y */
+ LS_SORT_BY_BITRATE, /**< -s=b */
+ LS_SORT_BY_DURATION, /**< -s=d */
+ LS_SORT_BY_AUDIO_FORMAT, /**< -s=a */
+ LS_SORT_BY_HASH, /**< -s=h */
+};
+
+/** The different listing modes of the ls command. */
+enum ls_listing_mode {
+ LS_MODE_SHORT, /**< Default listing mode. */
+ LS_MODE_LONG, /**< -l or -l=l */
+ LS_MODE_VERBOSE, /** -l=v */
+ LS_MODE_MBOX, /** -l=m */
+ LS_MODE_CHUNKS, /** -l=c */
+ LS_MODE_PARSER, /** -l=p */
+};
+
/**
* The size of the individual output fields of the ls command.
*
/**
* Describes the layout of the mmapped-afs info struct.
*
- * \sa struct afs_info.
+ * \sa struct \ref afs_info.
*/
enum afsi_offsets {
/** Where .last_played is stored. */
* \param afsi Pointer to the audio file info to be converted.
* \param obj Result pointer.
*
- * \sa load_afsi().
+ * \sa \ref load_afsi().
*/
static void save_afsi(struct afs_info *afsi, struct osl_object *obj)
{
*
* \return Standard.
*
- * \sa save_afsi().
+ * \sa \ref save_afsi().
*/
static int load_afsi(struct afs_info *afsi, struct osl_object *obj)
{
.storage_flags = OSL_RBTREE | OSL_FIXED_SIZE | OSL_UNIQUE,
.name = "hash",
.compare_function = aft_hash_compare,
- .data_size = HASH_SIZE
+ .data_size = HASH2_SIZE
},
[AFTCOL_PATH] = {
.storage_type = OSL_MAPPED_STORAGE,
};
static struct osl_table_description audio_file_table_desc = {
- .name = "audio_files",
+ .name = "audio-files",
.num_columns = NUM_AFT_COLUMNS,
.flags = OSL_LARGE_TABLE,
.column_descriptions = aft_cols
CHUNKS_TOTAL_OFFSET = 20,
/** The length of the audio file header (4 bytes). */
HEADER_LEN_OFFSET = 24,
- /** Was: The start of the audio file header (4 bytes). */
- AFHI_UNUSED2_OFFSET = 28,
+ /** Size of the largest chunk in bytes. (4 bytes). */
+ AFHI_MAX_CHUNK_SIZE_OFFSET = 28,
/** The seconds part of the chunk time (4 bytes). */
CHUNK_TV_TV_SEC_OFFSET = 32,
/** The microseconds part of the chunk time (4 bytes). */
write_u8(buf + AFHI_CHANNELS_OFFSET, afhi->channels);
write_u32(buf + CHUNKS_TOTAL_OFFSET, afhi->chunks_total);
write_u32(buf + HEADER_LEN_OFFSET, afhi->header_len);
- write_u32(buf + AFHI_UNUSED2_OFFSET, 0);
+ write_u32(buf + AFHI_MAX_CHUNK_SIZE_OFFSET, afhi->max_chunk_size);
write_u32(buf + CHUNK_TV_TV_SEC_OFFSET, afhi->chunk_tv.tv_sec);
write_u32(buf + CHUNK_TV_TV_USEC_OFFSET, afhi->chunk_tv.tv_usec);
p = buf + AFHI_INFO_STRING_OFFSET;
- /* The sprintf's below are OK as our caller made sure that buf is large enough */
+ /*
+ * The below sprintf(3) calls are OK because our caller already made
+ * sure that buf is large enough.
+ */
p += sprintf(p, "%s", afhi->techinfo) + 1;
p += sprintf(p, "%s", afhi->tags.artist) + 1;
p += sprintf(p, "%s", afhi->tags.title) + 1;
sprintf(p, "%s", afhi->tags.comment);
}
+/* does not load the chunk table */
static void load_afhi(const char *buf, struct afh_info *afhi)
{
afhi->seconds_total = read_u32(buf + AFHI_SECONDS_TOTAL_OFFSET);
afhi->channels = read_u8(buf + AFHI_CHANNELS_OFFSET);
afhi->chunks_total = read_u32(buf + CHUNKS_TOTAL_OFFSET);
afhi->header_len = read_u32(buf + HEADER_LEN_OFFSET);
+ afhi->max_chunk_size = read_u32(buf + AFHI_MAX_CHUNK_SIZE_OFFSET);
afhi->chunk_tv.tv_sec = read_u32(buf + CHUNK_TV_TV_SEC_OFFSET);
afhi->chunk_tv.tv_usec = read_u32(buf + CHUNK_TV_TV_USEC_OFFSET);
afhi->techinfo = (char *)buf + AFHI_INFO_STRING_OFFSET;
afhi->tags.comment = afhi->tags.album + strlen(afhi->tags.album) + 1;
}
+/* Only used for saving the chunk table, but not for loading. */
static unsigned sizeof_chunk_table(struct afh_info *afhi)
{
- if (!afhi)
+ if (!afhi || !afhi->chunk_table)
return 0;
return 4 * (afhi->chunks_total + 1);
}
-static uint32_t save_chunk_table(struct afh_info *afhi, char *buf)
+static void save_chunk_table(struct afh_info *afhi, char *buf)
{
- int i;
- uint32_t max = 0, old = 0;
+ uint32_t n;
- for (i = 0; i <= afhi->chunks_total; i++) {
- uint32_t val = afhi->chunk_table[i];
- write_u32(buf + 4 * i, val);
- /*
- * If the first chunk is the header, do not consider it for the
- * calculation of the largest chunk size.
- */
- if (i == 0 || (i == 1 && afhi->header_len > 0)) {
- old = val;
- continue;
- }
- max = PARA_MAX(max, val - old);
- old = val;
- }
- return max;
+ if (!afhi->chunk_table || afhi->chunks_total == 0)
+ return;
+ for (n = 0; n <= afhi->chunks_total; n++)
+ write_u32(buf + 4 * n, afhi->chunk_table[n]);
}
-static void load_chunk_table(struct afh_info *afhi, char *buf)
+static void load_chunk_table(struct afh_info *afhi, const struct osl_object *ct)
{
int i;
+ size_t sz;
- afhi->chunk_table = para_malloc(sizeof_chunk_table(afhi));
- for (i = 0; i <= afhi->chunks_total; i++)
- afhi->chunk_table[i] = read_u32(buf + 4 * i);
+ if (!ct->data || ct->size < 4 * (afhi->chunks_total + 1)) {
+ afhi->chunk_table = NULL;
+ return;
+ }
+ sz = PARA_MIN(((size_t)afhi->chunks_total + 1) * 4, ct->size) + 1;
+ afhi->chunk_table = alloc(sz);
+ for (i = 0; i <= afhi->chunks_total && i * 4 + 3 < ct->size; i++)
+ afhi->chunk_table[i] = read_u32(ct->data + 4 * i);
}
/**
*/
static int aft_get_row_of_hash(unsigned char *hash, struct osl_row **row)
{
- const struct osl_object obj = {.data = hash, .size = HASH_SIZE};
+ const struct osl_object obj = {.data = hash, .size = HASH2_SIZE};
return osl(osl_get_row(audio_file_table, AFTCOL_HASH, &obj, row));
}
* \param row Pointer to a row in the audio file table.
* \param path Result pointer.
*
- * The result is a pointer to mmapped data. The caller must not attempt
+ * The result is a pointer to memory-mapped data. The caller must not attempt
* to free it.
*
* \return Standard.
struct osl_object path_obj;
int ret = osl(osl_get_object(audio_file_table, row, AFTCOL_PATH,
&path_obj));
+
if (ret < 0)
- return ret;
- *path = path_obj.data;
- return 1;
+ *path = NULL;
+ else
+ *path = path_obj.data;
+ return ret;
}
/**
*
* \return The return value of the underlying call to osl_get_object().
*
- * \sa get_hash_of_row().
+ * \sa \ref get_hash_of_row().
*/
static int get_hash_object_of_aft_row(const struct osl_row *row,
struct osl_object *obj)
*
* \return The return value of the underlying call to osl_get_object().
*
- * \sa get_chunk_table_of_row().
+ * After the call the members of the afhi structure point to mapped memory
+ * which is owned by the osl table, Hence the caller must not attempt to free
+ * this memory by calling \ref clear_afhi().
*/
int get_afhi_of_row(const struct osl_row *row, struct afh_info *afhi)
{
struct osl_object obj;
- int ret = osl(osl_get_object(audio_file_table, row, AFTCOL_AFHI,
- &obj));
+ int ret;
+
+ assert(row);
+ ret = osl(osl_get_object(audio_file_table, row, AFTCOL_AFHI, &obj));
if (ret < 0)
return ret;
load_afhi(obj.data, afhi);
goto err;
buf = shm_afd;
buf += sizeof(*afd);
- afd->max_chunk_size = save_chunk_table(&afd->afhi, buf);
+ save_chunk_table(&afd->afhi, buf);
+ if (afd->afhi.max_chunk_size == 0) { /* v0.5.x on-disk afhi */
+ set_max_chunk_size(&afd->afhi);
+ PARA_NOTICE_LOG("max chunk size unset, re-add required\n");
+ } else
+ PARA_INFO_LOG("using max chunk size from afhi\n");
+ afd->max_chunk_size = afd->afhi.max_chunk_size;
*(struct audio_file_data *)shm_afd = *afd;
shm_detach(shm_afd);
return shmid;
{
void *shm_afd;
int ret;
+ struct osl_object obj;
ret = shm_attach(shmid, ATTACH_RO, &shm_afd);
if (ret < 0)
return ret;
+ ret = shm_size(shmid, &obj.size);
+ if (ret < 0)
+ goto detach;
*afd = *(struct audio_file_data *)shm_afd;
- load_chunk_table(&afd->afhi, shm_afd + sizeof(*afd));
+ obj.data = shm_afd + sizeof(*afd);
+ obj.size -= sizeof(*afd);
+ load_chunk_table(&afd->afhi, &obj);
+ ret = 1;
+detach:
shm_detach(shm_afd);
- return 1;
+ return ret;
}
static int get_local_time(uint64_t *seconds, char *buf, size_t size,
/*
* If the given time is more than six month away from the current time,
* we print only the year. The additional space character in the format
- * string below makes the formated date align nicely with dates that
+ * string below makes the formatted date align nicely with dates that
* contain the time (those written by the above strftime() statement).
*/
if (!strftime(buf, size, "%b %e %Y", tm))
return width + 6;
}
-static void get_duration_buf(int seconds, char *buf, struct ls_options *opts)
+static void get_duration_buf(int seconds, char *buf, size_t bufsize,
+ struct ls_options *opts)
{
unsigned hours = seconds / 3600, mins = (seconds % 3600) / 60;
short unsigned max_width;
if (!hours) { /* m:ss or mm:ss */
max_width = opts->mode == LS_MODE_LONG?
opts->widths.duration_width : 4;
+ assert(max_width < bufsize - 1);
sprintf(buf, "%*u:%02d", max_width - 3, mins, seconds % 60);
} else { /* more than one hour => h:mm:ss, hh:mm:ss, hhh:mm:ss, ... */
max_width = opts->mode == LS_MODE_LONG?
opts->widths.duration_width : 7;
+ assert(max_width < bufsize - 1);
sprintf(buf, "%*u:%02u:%02d", max_width - 6, hours, mins,
seconds % 60);
}
char *att_text;
int ret;
- WRITE_STATUS_ITEM(b, SI_ATTRIBUTES_BITMAP, "%s\n", att_bitmap);
+ WRITE_STATUS_ITEM(b, SI_attributes_bitmap, "%s\n", att_bitmap);
ret = get_attribute_text(&afsi->attributes, " ", &att_text);
if (ret < 0)
return ret;
- WRITE_STATUS_ITEM(b, SI_ATTRIBUTES_TXT, "%s\n", att_text);
+ WRITE_STATUS_ITEM(b, SI_attributes_txt, "%s\n", att_text);
free(att_text);
return ret;
}
{
char *lyrics_name;
- WRITE_STATUS_ITEM(b, SI_LYRICS_ID, "%u\n", afsi->lyrics_id);
+ WRITE_STATUS_ITEM(b, SI_lyrics_id, "%u\n", afsi->lyrics_id);
lyr_get_name_by_id(afsi->lyrics_id, &lyrics_name);
- WRITE_STATUS_ITEM(b, SI_LYRICS_NAME, "%s\n", lyrics_name?
+ WRITE_STATUS_ITEM(b, SI_lyrics_name, "%s\n", lyrics_name?
lyrics_name : "(none)");
}
{
char *image_name;
- WRITE_STATUS_ITEM(b, SI_IMAGE_ID, "%u\n", afsi->image_id);
+ WRITE_STATUS_ITEM(b, SI_image_id, "%u\n", afsi->image_id);
img_get_name_by_id(afsi->image_id, &image_name);
- WRITE_STATUS_ITEM(b, SI_IMAGE_NAME, "%s\n", image_name?
+ WRITE_STATUS_ITEM(b, SI_image_name, "%s\n", image_name?
image_name : "(none)");
}
static void write_filename_items(struct para_buffer *b, const char *path,
bool basename)
{
- char *val;
+ const char *slash;
if (basename) {
- WRITE_STATUS_ITEM(b, SI_BASENAME, "%s\n", path);
+ WRITE_STATUS_ITEM(b, SI_basename, "%s\n", path);
return;
}
- WRITE_STATUS_ITEM(b, SI_PATH, "%s\n", path);
- val = para_basename(path);
- WRITE_STATUS_ITEM(b, SI_BASENAME, "%s\n", val? val : "");
- val = para_dirname(path);
- WRITE_STATUS_ITEM(b, SI_DIRECTORY, "%s\n", val? val : "");
- free(val);
+ WRITE_STATUS_ITEM(b, SI_path, "%s\n", path);
+ slash = strrchr(path, '/');
+ WRITE_STATUS_ITEM(b, SI_basename, "%s\n", slash? slash + 1 : path);
+ WRITE_STATUS_ITEM(b, SI_directory, "%.*s\n",
+ slash? (int)(slash - path) : (int)strlen(path), path);
}
static int print_chunk_table(struct ls_data *d, struct para_buffer *b)
int ret, i;
char *buf;
+ para_printf(b, "%s\nchunk_time: %lu:%lu\n", d->path,
+ (long unsigned) d->afhi.chunk_tv.tv_sec,
+ (long unsigned) d->afhi.chunk_tv.tv_usec
+ );
+ if (afh_supports_dynamic_chunks(d->afsi.audio_format_id))
+ return 0;
ret = aft_get_row_of_hash(d->hash, &aft_row);
if (ret < 0)
return ret;
AFTCOL_CHUNKS, &chunk_table_obj));
if (ret < 0)
return ret;
- para_printf(b, "%s\n"
- "chunk_time: %lu:%lu\nchunk_offsets: ",
- d->path,
- (long unsigned) d->afhi.chunk_tv.tv_sec,
- (long unsigned) d->afhi.chunk_tv.tv_usec
- );
+ para_printf(b, "chunk_offsets: ");
buf = chunk_table_obj.data;
- for (i = 0; i <= d->afhi.chunks_total; i++)
+ for (
+ i = 0;
+ i <= d->afhi.chunks_total && 4 * i + 3 < chunk_table_obj.size;
+ i++
+ )
para_printf(b, "%u ", (unsigned) read_u32(buf + 4 * i));
para_printf(b, "\n");
ret = 1;
char duration_buf[30]; /* nobody has an audio file long enough to overflow this */
struct afs_info *afsi = &d->afsi;
struct afh_info *afhi = &d->afhi;
- char asc_hash[2 * HASH_SIZE + 1];
+ char asc_hash[2 * HASH2_SIZE + 1];
if (opts->mode == LS_MODE_SHORT) {
para_printf(b, "%s\n", d->path);
if (ret < 0)
goto out;
}
- get_duration_buf(afhi->seconds_total, duration_buf, opts);
+ get_duration_buf(afhi->seconds_total, duration_buf,
+ sizeof(duration_buf), opts);
if (opts->mode == LS_MODE_LONG) {
struct ls_widths *w = &opts->widths;
if (lls_opt_given(r_a))
goto out;
}
if (opts->mode == LS_MODE_MBOX) {
- const char *bn = para_basename(d->path);
+ const char *slash = strrchr(d->path, '/');
para_printf(b,
"From foo@localhost %s\n"
"Received: from\nTo: bar\nFrom: a\n"
"Subject: %s\n\n",
last_played_time,
- bn? bn : "?");
+ slash? slash + 1 : "?");
}
write_filename_items(b, d->path, lls_opt_given(r_b));
if (lls_opt_given(r_a))
- WRITE_STATUS_ITEM(b, SI_SCORE, "%li\n", d->score);
+ WRITE_STATUS_ITEM(b, SI_score, "%li\n", d->score);
ret = write_attribute_items(b, att_buf, afsi);
if (ret < 0)
goto out;
write_image_items(b, afsi);
write_lyrics_items(b, afsi);
- hash_to_asc(d->hash, asc_hash);
- WRITE_STATUS_ITEM(b, SI_HASH, "%s\n", asc_hash);
- WRITE_STATUS_ITEM(b, SI_BITRATE, "%dkbit/s\n", afhi->bitrate);
- WRITE_STATUS_ITEM(b, SI_FORMAT, "%s\n",
+ hash2_to_asc(d->hash, asc_hash);
+ WRITE_STATUS_ITEM(b, SI_hash, "%s\n", asc_hash);
+ WRITE_STATUS_ITEM(b, SI_bitrate, "%dkbit/s\n", afhi->bitrate);
+ WRITE_STATUS_ITEM(b, SI_format, "%s\n",
audio_format_name(afsi->audio_format_id));
- WRITE_STATUS_ITEM(b, SI_FREQUENCY, "%dHz\n", afhi->frequency);
- WRITE_STATUS_ITEM(b, SI_CHANNELS, "%d\n", afhi->channels);
- WRITE_STATUS_ITEM(b, SI_DURATION, "%s\n", duration_buf);
- WRITE_STATUS_ITEM(b, SI_SECONDS_TOTAL, "%" PRIu32 "\n",
+ WRITE_STATUS_ITEM(b, SI_frequency, "%dHz\n", afhi->frequency);
+ WRITE_STATUS_ITEM(b, SI_channels, "%d\n", afhi->channels);
+ WRITE_STATUS_ITEM(b, SI_duration, "%s\n", duration_buf);
+ WRITE_STATUS_ITEM(b, SI_seconds_total, "%" PRIu32 "\n",
afhi->seconds_total);
- WRITE_STATUS_ITEM(b, SI_LAST_PLAYED, "%s\n", last_played_time);
- WRITE_STATUS_ITEM(b, SI_NUM_PLAYED, "%u\n", afsi->num_played);
- WRITE_STATUS_ITEM(b, SI_AMPLIFICATION, "%u\n", afsi->amp);
- WRITE_STATUS_ITEM(b, SI_CHUNK_TIME, "%lu\n", tv2ms(&afhi->chunk_tv));
- WRITE_STATUS_ITEM(b, SI_NUM_CHUNKS, "%" PRIu32 "\n",
+ WRITE_STATUS_ITEM(b, SI_last_played, "%s\n", last_played_time);
+ WRITE_STATUS_ITEM(b, SI_num_played, "%u\n", afsi->num_played);
+ WRITE_STATUS_ITEM(b, SI_amplification, "%u\n", afsi->amp);
+ WRITE_STATUS_ITEM(b, SI_chunk_time, "%lu\n", tv2ms(&afhi->chunk_tv));
+ WRITE_STATUS_ITEM(b, SI_num_chunks, "%" PRIu32 "\n",
afhi->chunks_total);
- WRITE_STATUS_ITEM(b, SI_TECHINFO, "%s\n", afhi->techinfo);
- WRITE_STATUS_ITEM(b, SI_ARTIST, "%s\n", afhi->tags.artist);
- WRITE_STATUS_ITEM(b, SI_TITLE, "%s\n", afhi->tags.title);
- WRITE_STATUS_ITEM(b, SI_YEAR, "%s\n", afhi->tags.year);
- WRITE_STATUS_ITEM(b, SI_ALBUM, "%s\n", afhi->tags.album);
- WRITE_STATUS_ITEM(b, SI_COMMENT, "%s\n", afhi->tags.comment);
+ WRITE_STATUS_ITEM(b, SI_max_chunk_size, "%" PRIu32 "\n",
+ afhi->max_chunk_size);
+ WRITE_STATUS_ITEM(b, SI_techinfo, "%s\n", afhi->techinfo);
+ WRITE_STATUS_ITEM(b, SI_artist, "%s\n", afhi->tags.artist);
+ WRITE_STATUS_ITEM(b, SI_title, "%s\n", afhi->tags.title);
+ WRITE_STATUS_ITEM(b, SI_year, "%s\n", afhi->tags.year);
+ WRITE_STATUS_ITEM(b, SI_album, "%s\n", afhi->tags.album);
+ WRITE_STATUS_ITEM(b, SI_comment, "%s\n", afhi->tags.comment);
if (opts->mode == LS_MODE_MBOX) {
struct osl_object lyrics_def;
lyr_get_def_by_id(afsi->lyrics_id, &lyrics_def);
return ret;
}
-static struct ls_data status_item_ls_data;
-static struct osl_row *current_aft_row;
-
static void make_inode_status_items(struct para_buffer *pb)
{
struct stat statbuf = {.st_size = 0};
ret = strftime(mtime_str, 29, "%b %d %Y", &mtime_tm);
assert(ret > 0); /* number of bytes placed in mtime_str */
out:
- WRITE_STATUS_ITEM(pb, SI_MTIME, "%s\n", mtime_str);
- WRITE_STATUS_ITEM(pb, SI_FILE_SIZE, "%ld\n", statbuf.st_size / 1024);
+ WRITE_STATUS_ITEM(pb, SI_mtime, "%s\n", mtime_str);
+ WRITE_STATUS_ITEM(pb, SI_file_size, "%ld\n", statbuf.st_size / 1024);
+}
+
+/**
+ * Deallocate and invalidate the status item strings.
+ *
+ * This needs to be a public function so that afs.c can call it on shutdown.
+ */
+void free_status_items(void)
+{
+ freep(&status_items);
+ freep(&parser_friendly_status_items);
}
-static int make_status_items(void)
+static void make_status_items(void)
{
const struct lls_command *cmd = SERVER_CMD_CMD_PTR(LS);
char *argv[] = {"ls", "--admissible", "--listing-mode=verbose"};
time_t current_time;
int ret;
+ free_status_items();
+ if (!status_item_ls_data.path) /* no audio file open */
+ return;
ret = lls_parse(ARRAY_SIZE(argv), argv, cmd, &opts.lpr, NULL);
assert(ret >= 0);
time(¤t_time);
if (ret < 0)
goto out;
make_inode_status_items(&pb);
- free(status_items);
status_items = pb.buf;
memset(&pb, 0, sizeof(pb));
pb.max_size = shm_get_shmmax() - 1;
pb.flags = PBF_SIZE_PREFIX;
ret = print_list_item(&status_item_ls_data, &opts, &pb, current_time);
- if (ret < 0) {
- free(status_items);
- status_items = NULL;
- return ret;
- }
+ if (ret < 0)
+ goto out;
make_inode_status_items(&pb);
- free(parser_friendly_status_items);
parser_friendly_status_items = pb.buf;
ret = 1;
out:
+ if (ret < 0) {
+ PARA_WARNING_LOG("could not create status items: %s\n",
+ para_strerror(-ret));
+ free_status_items();
+ }
lls_free_parse_result(opts.lpr, cmd);
- return ret;
}
/**
* Open the audio file with highest score and set up an afd structure.
*
- * \param afd Result pointer.
+ * This determines and opens the next audio file, verifies that it did not
+ * change by comparing the recomputed the hash value of the file contents
+ * against the value stored in the audio file table. If all goes well, it
+ * creates a shared memory area containing the serialized version of the afd
+ * structure, including the chunk table, if any. The caller can then send the
+ * ID of this area and the open fd to the server process.
+ *
+ * \param fd Result pointer for the file descriptor of the audio file.
*
* On success, the numplayed field of the audio file selector info is increased
* and the lastplayed time is set to the current time. Finally, the score of
*
* \return Positive shmid on success, negative on errors.
*/
-int open_and_update_audio_file(struct audio_file_data *afd)
+int open_and_update_audio_file(int *fd)
{
- unsigned char file_hash[HASH_SIZE];
+ unsigned char file_hash[HASH2_SIZE];
struct osl_object afsi_obj;
struct afs_info new_afsi;
int ret;
struct afsi_change_event_data aced;
struct osl_object map, chunk_table_obj;
struct ls_data *d = &status_item_ls_data;
+ unsigned char *tmp_hash;
+ struct audio_file_data afd;
again:
ret = score_get_best(¤t_aft_row, &d->score);
if (ret < 0)
return ret;
- ret = get_hash_of_row(current_aft_row, &d->hash);
+ /*
+ * get_hash_of_row() and get_audio_file_path_of_row() initialize
+ * their pointer argument to point to memory-mapped files. These pointers
+ * become stale after a new audio file has been added or after the
+ * server process received SIGHUP. For in both cases libosl unmaps and
+ * remaps the underlying database files, and this remapping may well
+ * change the starting address of the mapping. To avoid stale pointer
+ * references we create copies on the heap.
+ */
+ ret = get_hash_of_row(current_aft_row, &tmp_hash);
if (ret < 0)
return ret;
+ if (!d->hash)
+ d->hash = alloc(HASH2_SIZE);
+ memcpy(d->hash, tmp_hash, HASH2_SIZE);
+ free(d->path);
ret = get_audio_file_path_of_row(current_aft_row, &d->path);
if (ret < 0)
return ret;
PARA_NOTICE_LOG("%s\n", d->path);
+ d->path = para_strdup(d->path);
+
ret = get_afsi_object_of_row(current_aft_row, &afsi_obj);
if (ret < 0)
return ret;
ret = load_afsi(&d->afsi, &afsi_obj);
if (ret < 0)
return ret;
- ret = get_afhi_of_row(current_aft_row, &afd->afhi);
+ ret = get_afhi_of_row(current_aft_row, &afd.afhi);
if (ret < 0)
return ret;
- d->afhi = afd->afhi;
- d->afhi.chunk_table = afd->afhi.chunk_table = NULL;
+ d->afhi = afd.afhi;
+ d->afhi.chunk_table = afd.afhi.chunk_table = NULL;
ret = osl(osl_open_disk_object(audio_file_table, current_aft_row,
AFTCOL_CHUNKS, &chunk_table_obj));
- if (ret < 0)
- return ret;
- ret = mmap_full_file(d->path, O_RDONLY, &map.data, &map.size, &afd->fd);
+ if (ret < 0) {
+ if (!afh_supports_dynamic_chunks(d->afsi.audio_format_id))
+ return ret;
+ PARA_INFO_LOG("no chunk table for %s\n", d->path);
+ chunk_table_obj.data = NULL;
+ chunk_table_obj.size = 0;
+ } else {
+ PARA_INFO_LOG("chunk table: %zu bytes\n", chunk_table_obj.size);
+ }
+ ret = mmap_full_file(d->path, O_RDONLY, &map.data, &map.size, fd);
if (ret < 0)
goto out;
- hash_function(map.data, map.size, file_hash);
- ret = hash_compare(file_hash, d->hash);
+ hash2_function(map.data, map.size, file_hash);
+ ret = hash2_compare(file_hash, d->hash);
para_munmap(map.data, map.size);
if (ret) {
ret = -E_HASH_MISMATCH;
new_afsi.last_played = time(NULL);
save_afsi(&new_afsi, &afsi_obj); /* in-place update */
- afd->audio_format_id = d->afsi.audio_format_id;
- load_chunk_table(&afd->afhi, chunk_table_obj.data);
+ afd.audio_format_id = d->afsi.audio_format_id;
+ load_chunk_table(&afd.afhi, &chunk_table_obj);
aced.aft_row = current_aft_row;
aced.old_afsi = &d->afsi;
/*
ret = afs_event(AFSI_CHANGE, NULL, &aced);
if (ret < 0)
goto out;
- ret = save_afd(afd);
+ ret = save_afd(&afd);
out:
- free(afd->afhi.chunk_table);
- osl_close_disk_object(&chunk_table_obj);
+ free(afd.afhi.chunk_table);
+ if (chunk_table_obj.data)
+ osl_close_disk_object(&chunk_table_obj);
if (ret < 0) {
PARA_ERROR_LOG("%s: %s\n", d->path, para_strerror(-ret));
ret = score_delete(current_aft_row);
return ret;
}
+static int ls_hash_compare(const void *a, const void *b)
+{
+ struct ls_data *d1 = *(struct ls_data **)a, *d2 = *(struct ls_data **)b;
+ return memcmp(d1->hash, d2->hash, HASH2_SIZE);
+}
+
static int ls_audio_format_compare(const void *a, const void *b)
{
struct ls_data *d1 = *(struct ls_data **)a, *d2 = *(struct ls_data **)b;
int (*compar)(const void *, const void *);
int i;
- options->data_ptr = para_malloc(nmemb * sizeof(*options->data_ptr));
+ options->data_ptr = arr_alloc(nmemb, sizeof(*options->data_ptr));
for (i = 0; i < nmemb; i++)
options->data_ptr[i] = options->data + i;
compar = ls_duration_compare; break;
case LS_SORT_BY_AUDIO_FORMAT:
compar = ls_audio_format_compare; break;
+ case LS_SORT_BY_HASH:
+ compar = ls_hash_compare; break;
default:
return -E_BAD_SORT;
}
if (options->num_matching_paths > options->array_size) {
options->array_size++;
options->array_size *= 2;
- options->data = para_realloc(options->data, options->array_size
- * sizeof(*options->data));
+ options->data = arr_realloc(options->data, options->array_size,
+ sizeof(*options->data));
}
d = options->data + tmp;
ret = get_afsi_of_row(aft_row, &d->afsi);
return ret;
}
+static int mop_loop(const char *arg, struct afs_callback_arg *aca,
+ struct ls_options *opts)
+{
+ int ret;
+ char *msg;
+
+ if (!arg || strcmp(arg, ".") == 0)
+ return score_loop(prepare_ls_row, NULL, opts);
+ if (!strncmp(arg, "m/", 2)) {
+ struct mood_instance *m;
+ ret = mood_load(arg + 2, &m, &msg);
+ if (ret < 0)
+ afs_error(aca, "%s", msg);
+ free(msg);
+ if (ret < 0)
+ return ret;
+ ret = mood_loop(m, prepare_ls_row, opts);
+ mood_unload(m);
+ return ret;
+ }
+ if (!strncmp(arg, "p/", 2)) {
+ struct playlist_instance *pi;
+ ret = playlist_load(arg + 2, &pi, &msg);
+ if (ret < 0)
+ afs_error(aca, "%s", msg);
+ free(msg);
+ if (ret < 0)
+ return ret;
+ ret = playlist_loop(pi, prepare_ls_row, opts);
+ playlist_unload(pi);
+ return ret;
+ }
+ afs_error(aca, "bad mood/playlist specifier: %s\n", arg);
+ return -ERRNO_TO_PARA_ERROR(EINVAL);
+}
+
static int com_ls_callback(struct afs_callback_arg *aca)
{
const struct lls_command *cmd = SERVER_CMD_CMD_PTR(LS);
struct ls_options *opts = aca->query.data;
- int i = 0, ret;
+ int ret;
time_t current_time;
- const struct lls_opt_result *r_r;
+ const struct lls_opt_result *r_r, *r_a;
+ uint32_t limit, k, n;
ret = lls_deserialize_parse_result(
(char *)aca->query.data + sizeof(*opts), cmd, &opts->lpr);
assert(ret >= 0);
r_r = SERVER_CMD_OPT_RESULT(LS, REVERSE, opts->lpr);
-
+ r_a = SERVER_CMD_OPT_RESULT(LS, ADMISSIBLE, opts->lpr);
aca->pbout.flags = (opts->mode == LS_MODE_PARSER)? PBF_SIZE_PREFIX : 0;
- if (admissible_only(opts))
- ret = admissible_file_loop(opts, prepare_ls_row);
- else
+ if (admissible_only(opts)) {
+ const char *arg = lls_string_val(0, r_a);
+ ret = mop_loop(arg, aca, opts);
+ } else
ret = osl(osl_rbtree_loop(audio_file_table, AFTCOL_PATH, opts,
prepare_ls_row));
if (ret < 0)
goto out;
- if (opts->num_matching_paths == 0) {
+ n = opts->num_matching_paths;
+ if (n == 0) {
ret = lls_num_inputs(opts->lpr) > 0? -E_NO_MATCH : 0;
goto out;
}
if (ret < 0)
goto out;
time(¤t_time);
- if (lls_opt_given(r_r))
- for (i = opts->num_matching_paths - 1; i >= 0; i--) {
- ret = print_list_item(opts->data_ptr[i], opts,
- &aca->pbout, current_time);
- if (ret < 0)
- goto out;
- }
- else
- for (i = 0; i < opts->num_matching_paths; i++) {
- ret = print_list_item(opts->data_ptr[i], opts,
- &aca->pbout, current_time);
- if (ret < 0)
- goto out;
- }
+ limit = SERVER_CMD_UINT32_VAL(LS, LIMIT, opts->lpr);
+ for (k = 0; k < n && (limit == 0 || k < limit); k++) {
+ uint32_t idx = lls_opt_given(r_r)? n - 1 - k : k;
+ ret = print_list_item(opts->data_ptr[idx], opts, &aca->pbout,
+ current_time);
+ if (ret < 0)
+ goto out;
+ }
out:
lls_free_parse_result(opts->lpr, cmd);
free(opts->data);
return ret;
}
-/* TODO: flags -h (sort by hash) */
static int com_ls(struct command_context *cc, struct lls_parse_result *lpr)
{
const struct lls_command *cmd = SERVER_CMD_CMD_PTR(LS);
ret = lls_serialize_parse_result(lpr, cmd, NULL, &query.size);
assert(ret >= 0);
query.size += sizeof(*opts);
- query.data = para_malloc(query.size);
+ query.data = alloc(query.size);
opts = query.data;
memset(opts, 0, sizeof(*opts));
slpr = query.data + sizeof(*opts);
opts->mode = LS_MODE_SHORT;
else if (!strcmp(val, "v") || !strcmp(val, "verbose"))
opts->mode = LS_MODE_VERBOSE;
- else if (!strcmp(val, "m") || !strcmp(val, "mbox"))
- opts->mode = LS_MODE_MBOX;
- else if (!strcmp(val, "c") || !strcmp(val, "chunk-table"))
+ else if (!strcmp(val, "m") || !strcmp(val, "mbox")) {
+ send_sb_va(&cc->scc, SBD_WARNING_LOG,
+ "Warning: mbox listing mode is deprecated\n");
opts->mode = LS_MODE_MBOX;
- else if (!strcmp(val, "p") || !strcmp(val, "parser-friendly"))
+ } else if (!strcmp(val, "c") || !strcmp(val, "chunk-table")) {
+ send_sb_va(&cc->scc, SBD_WARNING_LOG,
+ "Warning: chunk table listing mode is deprecated\n");
+ opts->mode = LS_MODE_CHUNKS;
+ } else if (!strcmp(val, "p") || !strcmp(val, "parser-friendly"))
opts->mode = LS_MODE_PARSER;
else {
- ret = -E_AFT_SYNTAX;
+ ret = -ERRNO_TO_PARA_ERROR(EINVAL);
goto out;
}
}
opts->sorting = LS_SORT_BY_DURATION;
else if (!strcmp(val, "a") || !strcmp(val, "audio-format"))
opts->sorting = LS_SORT_BY_AUDIO_FORMAT;
+ else if (!strcmp(val, "h") || !strcmp(val, "hash"))
+ opts->sorting = LS_SORT_BY_HASH;
else {
- ret = -E_AFT_SYNTAX;
+ ret = -ERRNO_TO_PARA_ERROR(EINVAL);
goto out;
}
}
/** The hash of the audio file being added. */
CAB_HASH_OFFSET = 13,
/** Start of the path of the audio file. */
- CAB_PATH_OFFSET = (CAB_HASH_OFFSET + HASH_SIZE),
+ CAB_PATH_OFFSET = (CAB_HASH_OFFSET + HASH2_SIZE),
};
/*
size_t afhi_size = sizeof_afhi_buf(afhi);
size_t size = CAB_PATH_OFFSET + path_len + afhi_size
+ sizeof_chunk_table(afhi) + slpr_size;
- char *buf = para_malloc(size);
+ char *buf = alloc(size);
uint32_t pos;
assert(size <= ~(uint32_t)0);
write_u8(buf + CAB_AUDIO_FORMAT_ID_OFFSET, audio_format_num);
- memcpy(buf + CAB_HASH_OFFSET, hash, HASH_SIZE);
+ memcpy(buf + CAB_HASH_OFFSET, hash, HASH2_SIZE);
strcpy(buf + CAB_PATH_OFFSET, path);
pos = CAB_PATH_OFFSET + path_len;
write_u32(buf + CAB_AFHI_OFFSET_POS, pos);
+----+----+---+------+---------------------------------------------------+
| N | N | Y | Y | (new file) create new entry (force has no effect)
+----+----+---+------+---------------------------------------------------+
-| N | N | N | Y | (new file) create new entry
+| N | N | N | Y | (new file) create new entry
+----+----+---+------+---------------------------------------------------+
Notes:
struct osl_row *hs;
struct osl_object objs[NUM_AFT_COLUMNS];
unsigned char *hash;
- char asc[2 * HASH_SIZE + 1];
+ char asc[2 * HASH2_SIZE + 1];
int ret;
char afsi_buf[AFSI_SIZE];
- char *slpr = buf + read_u32(buf + CAB_LPR_OFFSET);
+ uint32_t slpr_offset = read_u32(buf + CAB_LPR_OFFSET);
+ char *slpr = buf + slpr_offset;
struct afs_info default_afsi = {.last_played = 0};
uint16_t afhi_offset, chunks_offset;
const struct lls_command *cmd = SERVER_CMD_CMD_PTR(ADD);
r_v = SERVER_CMD_OPT_RESULT(ADD, VERBOSE, aca->lpr);
hash = (unsigned char *)buf + CAB_HASH_OFFSET;
- hash_to_asc(hash, asc);
+ hash2_to_asc(hash, asc);
objs[AFTCOL_HASH].data = buf + CAB_HASH_OFFSET;
- objs[AFTCOL_HASH].size = HASH_SIZE;
+ objs[AFTCOL_HASH].size = HASH2_SIZE;
path = buf + CAB_PATH_OFFSET;
objs[AFTCOL_PATH].data = path;
/* no hs or force mode, child must have sent afhi */
afhi_offset = read_u32(buf + CAB_AFHI_OFFSET_POS);
chunks_offset = read_u32(buf + CAB_CHUNKS_OFFSET_POS);
+ assert(chunks_offset <= slpr_offset);
objs[AFTCOL_AFHI].data = buf + afhi_offset;
objs[AFTCOL_AFHI].size = chunks_offset - afhi_offset;
if (!objs[AFTCOL_AFHI].size) /* "impossible" */
goto out;
objs[AFTCOL_CHUNKS].data = buf + chunks_offset;
- objs[AFTCOL_CHUNKS].size = aca->query.size - chunks_offset;
+ objs[AFTCOL_CHUNKS].size = slpr_offset - chunks_offset;
if (pb && !hs) { /* update pb's hash */
- char old_asc[2 * HASH_SIZE + 1];
+ char old_asc[2 * HASH2_SIZE + 1];
unsigned char *old_hash;
ret = get_hash_of_row(pb, &old_hash);
if (ret < 0)
goto out;
- hash_to_asc(old_hash, old_asc);
+ hash2_to_asc(old_hash, old_asc);
if (lls_opt_given(r_v))
para_printf(&aca->pbout, "file change: %s -> %s\n",
old_asc, asc);
&objs[AFTCOL_AFHI]));
if (ret < 0)
goto out;
+ /* truncate the file to size zero if there is no chunk table */
ret = osl(osl_update_object(audio_file_table, row, AFTCOL_CHUNKS,
&objs[AFTCOL_CHUNKS]));
if (ret < 0)
ret = afs_event(AUDIO_FILE_ADD, &aca->pbout, aft_row);
out:
if (ret < 0)
- para_printf(&aca->pbout, "could not add %s\n", path);
+ afs_error(aca, "could not add %s\n", path);
lls_free_parse_result(aca->lpr, cmd);
return ret;
}
struct afh_info afhi, *afhi_ptr = NULL;
struct osl_row *pb = NULL, *hs = NULL; /* path brother/hash sister */
struct osl_object map, obj = {.data = NULL}, query;
- unsigned char hash[HASH_SIZE];
+ unsigned char hash[HASH2_SIZE];
bool a_given = SERVER_CMD_OPT_GIVEN(ADD, ALL, pad->lpr);
bool f_given = SERVER_CMD_OPT_GIVEN(ADD, FORCE, pad->lpr);
bool l_given = SERVER_CMD_OPT_GIVEN(ADD, LAZY, pad->lpr);
ret = mmap_full_file(path, O_RDONLY, &map.data, &map.size, &fd);
if (ret < 0)
goto out_free;
- hash_function(map.data, map.size, hash);
+ hash2_function(map.data, map.size, hash);
/* Check whether the database contains a file with the same hash. */
query.data = hash;
- query.size = HASH_SIZE;
+ query.size = HASH2_SIZE;
ret = send_callback_request(hash_sister_callback, &query,
get_row_pointer_from_result, &hs);
if (ret < 0)
return send_ret;
}
+/*
+ * Call back once for each regular file below a directory.
+ *
+ * Traverse the given directory recursively and call the supplied callback for
+ * each regular file encountered. The first argument to the callback will be
+ * the path to the regular file and the second argument will be the data
+ * pointer. All file types except regular files and directories are ignored. In
+ * particular, symlinks are not followed. Subdirectories are ignored silently
+ * if the calling process has insufficient access permissions.
+ */
+static int for_each_file_in_dir(const char *dirname,
+ int (*func)(const char *, void *), void *data)
+{
+ int ret;
+ DIR *dir;
+ struct dirent *entry;
+
+ dir = opendir(dirname);
+ if (!dir)
+ return errno == EACCES? 1 : -ERRNO_TO_PARA_ERROR(errno);
+ /* scan cwd recursively */
+ while ((entry = readdir(dir))) {
+ char *tmp;
+ struct stat s;
+
+ if (!strcmp(entry->d_name, "."))
+ continue;
+ if (!strcmp(entry->d_name, ".."))
+ continue;
+ tmp = make_message("%s/%s", dirname, entry->d_name);
+ ret = 0;
+ if (lstat(tmp, &s) != -1) {
+ if (S_ISREG(s.st_mode))
+ ret = func(tmp, data);
+ else if (S_ISDIR(s.st_mode))
+ ret = for_each_file_in_dir(tmp, func, data);
+ }
+ free(tmp);
+ if (ret < 0)
+ goto out;
+ }
+ ret = 1;
+out:
+ closedir(dir);
+ return ret;
+}
+
static int com_add(struct command_context *cc, struct lls_parse_result *lpr)
{
int i, ret;
}
EXPORT_SERVER_CMD_HANDLER(add);
-/**
- * Flags used by the touch command.
- *
- * \sa com_touch().
- */
+/** Flags used by the touch command. */
enum touch_flags {
/** Whether the \p FNM_PATHNAME flag should be passed to fnmatch(). */
TOUCH_FLAG_FNM_PATHNAME = 1,
ret = get_afsi_object_of_row(row, &obj);
if (ret < 0) {
- para_printf(&aca->pbout, "cannot touch %s\n", name);
+ afs_error(aca, "cannot touch %s\n", name);
return ret;
}
ret = load_afsi(&old_afsi, &obj);
if (ret < 0) {
- para_printf(&aca->pbout, "cannot touch %s\n", name);
+ afs_error(aca, "cannot touch %s\n", name);
return ret;
}
new_afsi = old_afsi;
uint32_t id = lls_uint32_val(0, r_i);
ret = img_get_name_by_id(id, NULL);
if (ret < 0) {
- para_printf(&aca->pbout, "invalid image ID: %u\n", id);
+ afs_error(aca, "invalid image ID: %u\n", id);
return ret;
}
}
uint32_t id = lls_uint32_val(0, r_y);
ret = lyr_get_name_by_id(id, NULL);
if (ret < 0) {
- para_printf(&aca->pbout, "invalid lyrics ID: %u\n", id);
+ afs_error(aca, "invalid lyrics ID: %u\n", id);
return ret;
}
}
return ret;
ret = osl(osl_del_row(audio_file_table, row));
if (ret < 0)
- para_printf(&aca->pbout, "cannot remove %s\n", name);
+ afs_error(aca, "cannot remove %s\n", name);
return ret;
}
ret = get_afsi_object_of_row(row, &target_afsi_obj);
if (ret < 0)
return ret;
- load_afsi(&target_afsi, &target_afsi_obj);
+ ret = load_afsi(&target_afsi, &target_afsi_obj);
+ if (ret < 0)
+ return ret;
old_afsi = target_afsi;
if (cad->copy_all || y_given)
target_afsi.lyrics_id = cad->source_afsi.lyrics_id;
goto out; /* no attribute modifier given */
goto set_atts;
}
- p = para_malloc(len);
+ p = alloc(len);
memcpy(p, arg, len - 1);
p[len - 1] = '\0';
ret = get_attribute_bitnum_by_name(p, &bitnum);
free(p);
if (ret < 0) {
- para_printf(&aca->pbout, "invalid argument: %s\n", arg);
+ afs_error(aca, "invalid argument: %s\n", arg);
goto out;
}
if (c == '+')
* \param aca Only ->pbout is used for diagnostics.
*
* \return Standard. Inconsistencies are reported but not regarded as an error.
- *
- * \sa com_check().
*/
int aft_check_callback(struct afs_callback_arg *aca)
{
return audio_file_loop(&acad, check_atts_of_audio_file);
}
-/**
- * Close the audio file table.
- *
- * \param flags Usual flags that are passed to osl_close_table().
- *
- * \sa osl_close_table().
+/*
+ * This sets audio_file_table to NULL, but leaves current_aft_row unmodified,
+ * though stale (pointing to unmapped memory). If the table is being closed
+ * because we received SIGHUP, the table will be reopened after the config file
+ * has been reloaded. We remember the hash of the current audio file here so
+ * that aft_open() can initialize current_aft_row by looking up the saved hash.
*/
static void aft_close(void)
{
+ int ret;
+ unsigned char *p;
+
+ if (current_aft_row) {
+ ret = get_hash_of_row(current_aft_row, &p);
+ if (ret < 0) {
+ PARA_WARNING_LOG("hash lookup failure\n");
+ current_aft_row = NULL;
+ } else
+ memcpy(current_hash, p, HASH2_SIZE);
+ }
osl_close_table(audio_file_table, OSL_MARK_CLEAN);
audio_file_table = NULL;
}
-/**
- * Open the audio file table.
- *
- * \param dir The database directory.
- *
- * \return Standard.
- *
- * \sa osl_open_table().
- */
static int aft_open(const char *dir)
{
int ret;
unsigned num;
osl_get_num_rows(audio_file_table, &num);
PARA_INFO_LOG("audio file table contains %u files\n", num);
- return ret;
+ if (!current_aft_row) {
+ PARA_DEBUG_LOG("no current aft row\n");
+ return 1;
+ }
+ /* SIGHUP case, update current_aft_row */
+ ret = aft_get_row_of_hash(current_hash, ¤t_aft_row);
+ if (ret < 0) { /* not fatal */
+ PARA_WARNING_LOG("current hash lookup failure: %s\n",
+ para_strerror(-ret));
+ current_aft_row = NULL;
+ return 1;
+ }
+ PARA_NOTICE_LOG("current audio file hash lookup: success\n");
+ return 1;
}
- PARA_NOTICE_LOG("failed to open audio file table\n");
audio_file_table = NULL;
- if (ret == -OSL_ERRNO_TO_PARA_ERROR(E_OSL_NOENT))
+ if (ret == -OSL_ERRNO_TO_PARA_ERROR(E_OSL_NOENT)) {
+ PARA_WARNING_LOG("no audio file table\n");
return 1;
+ }
+ PARA_NOTICE_LOG("failed to open audio file table\n");
return ret;
}
status_item_ls_data.afsi.last_played = old_last_played;
make_status_items();
return 1;
+ } case AUDIO_FILE_RENAME: {
+ char *path;
+ if (data != current_aft_row)
+ return 0;
+ ret = get_audio_file_path_of_row(current_aft_row, &path);
+ if (ret < 0)
+ return ret;
+ free(status_item_ls_data.path);
+ status_item_ls_data.path = para_strdup(path);
+ make_status_items();
+ return 1;
} case AFHI_CHANGE: {
if (data != current_aft_row)
return 0;
return ret;
make_status_items();
return 1;
+ } case AUDIO_FILE_REMOVE: {
+ if (data == current_aft_row)
+ current_aft_row = NULL;
+ return 0;
+ }
+ case BLOB_RENAME:
+ case BLOB_REMOVE:
+ case BLOB_ADD: {
+ /*
+ * These events are rare. We don't bother to check whether the
+ * current status items are affected and simply recreate them
+ * whenever an audio file is open.
+ */
+ if (!current_aft_row)
+ return 0;
+ ret = get_afhi_of_row(current_aft_row,
+ &status_item_ls_data.afhi);
+ if (ret < 0)
+ return ret;
+ make_status_items();
+ return 0;
} default:
return 0;
}
}
-/**
- * Initialize the audio file table.
- *
- * \param t Pointer to the structure to be initialized.
- */
-void aft_init(struct afs_table *t)
-{
- t->open = aft_open;
- t->close = aft_close;
- t->create = aft_create;
- t->event_handler = aft_event_handler;
-}
+/** The audio file table contains information about known audio files. */
+const struct afs_table_operations aft_ops = {
+ .open = aft_open,
+ .close = aft_close,
+ .create = aft_create,
+ .event_handler = aft_event_handler,
+};