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#include <string.h>
#include <errno.h>
#include <liboil/liboil.h>

#include "sydney.h"
#include "macro.h"
#include "malloc.h"
#include "common.h"
#include "driver.h"

/* contains code */
#include "meta-name-table.h"

static sa_device_t *device_alloc(void) {
    sa_device_t *d;

    if (!(d = sa_new0(sa_device_t, 1)))
        return NULL;

    /* All fields a carefully chosen in a way that initializing them
     * NUL bytes is sufficient */
    
    return d;
}

int sa_device_create_opaque(
        sa_device_t **dev,
        sa_mode_t mode,
        const char *codec) {
    
    int error;

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(mode == SA_MODE_RDONLY || mode == SA_MODE_WRONLY || mode == SA_MODE_RDWR, SA_ERROR_INVALID);
    sa_return_val_if_fail(codec, SA_ERROR_INVALID);

    if (!(*dev = device_alloc()))
        return SA_ERROR_OOM;

    (*dev)->mode = mode;

    if (!((*dev)->codec = sa_strdup(codec))) {
        error = SA_ERROR_OOM;
        goto fail;
    }

    oil_init();

    return SA_SUCCESS;

fail:
    sa_device_destroy(*dev);
    return error;
}

int sa_device_create_pcm(
        sa_device_t **dev,
        sa_mode_t mode,
        sa_pcm_format_t format,
        unsigned rate,
        unsigned nchannels) {

    int ret;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(mode == SA_MODE_RDONLY || mode == SA_MODE_WRONLY || mode == SA_MODE_RDWR, SA_ERROR_INVALID);
    sa_return_val_if_fail(format < SA_PCM_FORMAT_MAX, SA_ERROR_INVALID);
    sa_return_val_if_fail(rate > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(nchannels > 0, SA_ERROR_INVALID);

    if (!(*dev = device_alloc()))
        return SA_ERROR_OOM;

    (*dev)->mode = mode;
    (*dev)->pcm_attrs.format = format;
    (*dev)->pcm_attrs.nchannels = nchannels;
    (*dev)->pcm_sample_size = get_pcm_sample_size(format);
    (*dev)->pcm_frame_size = (*dev)->pcm_sample_size * nchannels;

    if (nchannels <= 2) {
        static const sa_channel_t map_stereo[2] = { SA_CHANNEL_LEFT, SA_CHANNEL_RIGHT };
        static const sa_channel_t map_mono[1] = { SA_CHANNEL_MONO };

        if ((ret = sa_device_set_channel_map(*dev, nchannels == 2 ? map_stereo : map_mono)))
            goto fail;
    }

    if ((ret = sa_device_change_rate(*dev, rate)))
        goto fail;

    oil_init();

    return SA_SUCCESS;

fail:
    
    sa_device_destroy(*dev);
    return ret;
}

int sa_device_open(sa_device_t *dev) {
    int ret;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    if ((ret = device_open(dev)) == 0)
        dev->state = SA_STATE_STOPPED;

    return ret;
}

int sa_device_destroy(sa_device_t *dev) {
    int ret;
    unsigned u;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);

    ret = device_destroy(dev);

    sa_free(dev->codec);
    sa_free(dev->driver);
    sa_free(dev->device);
    sa_free(dev->pcm_attrs.channel_map);
    sa_free(dev->input_volume);
    sa_free(dev->output_volume);

    for (u = 0; u < META_NAMES_MAX; u++)
        sa_free(dev->meta_data[u]);

    sa_free(dev);
    return ret;
}

int sa_device_set_write_lower_watermark(sa_device_t *dev, size_t size) {

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->write_lower_watermark = size;
    return SA_SUCCESS;
}

int sa_device_set_read_lower_watermark(sa_device_t *dev, size_t size) {

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->read_lower_watermark = size;
    return SA_SUCCESS;
}

int sa_device_set_write_upper_watermark(sa_device_t *dev, size_t size) {

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->write_upper_watermark = size;
    return SA_SUCCESS;
}

int sa_device_set_read_upper_watermark(sa_device_t *dev, size_t size) {

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->read_upper_watermark = size;
    return SA_SUCCESS;
}

int sa_device_set_channel_map(sa_device_t *dev, const sa_channel_t *map) {
    const sa_channel_t *c;
    sa_channel_t *m;
    unsigned n;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(map, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    for (c = map, n = dev->pcm_attrs.nchannels; n > 0; c++, n--)
        if (*c >= SA_CHANNEL_MAX)
            return SA_ERROR_INVALID;
    
    if (!(m = sa_memdup(map, sizeof(sa_channel_t) * dev->pcm_attrs.nchannels)))
        return SA_ERROR_OOM;

    sa_free(dev->pcm_attrs.channel_map);
    dev->pcm_attrs.channel_map = m;

    return SA_SUCCESS;
}

int sa_device_set_xrun_mode(sa_device_t *dev, sa_xrun_mode_t mode) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(mode == SA_XRUN_MODE_STOP || mode == SA_XRUN_MODE_SPIN, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->xrun_mode = mode;
    return SA_SUCCESS;
}

int sa_device_set_ni(sa_device_t *dev, int enable) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    dev->ni_enabled = !!enable;
    return SA_SUCCESS;
}

int sa_device_set_dynamic_rate(sa_device_t *dev, int enable) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    dev->dynamic_rate_enabled = !!enable;
    return SA_SUCCESS;
}

int sa_device_set_driver(sa_device_t *dev, const char *driver) {
    char *d;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(driver, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    if (!(d = sa_strdup(driver)))
        return SA_ERROR_OOM;
    
    sa_free(dev->driver);
    dev->driver = d;
    
    return SA_SUCCESS;
}

int sa_device_start_thread(sa_device_t *dev, sa_event_callback_t *callback) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(callback, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->codec || dev->pcm_attrs.channel_map, SA_ERROR_NO_INIT);

    return device_start_thread(dev, callback);
}

int sa_device_change_device(sa_device_t *dev, const char *device_name) {
    char *d;
    int ret;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(device_name, SA_ERROR_INVALID);

    if (!(d = sa_strdup(device_name)))
        return SA_ERROR_OOM;

    ret = dev->state == SA_STATE_INIT ? SA_SUCCESS : device_change_device(dev, device_name);

    if (ret == SA_SUCCESS) {
        sa_free(dev->device);
        dev->device = d;
    } else
        sa_free(d);

    return ret;
}

int sa_device_change_input_volume(sa_device_t *dev, const int vol[]) {
    int *v, ret;

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(vol, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_NOT_SUPPORTED);
    sa_return_val_if_fail(dev->mode & SA_MODE_RDONLY, SA_ERROR_STATE);

    if (!(v = sa_newdup(vol, int, dev->pcm_attrs.nchannels)))
        return SA_ERROR_OOM;
    
    ret = dev->state == SA_STATE_INIT ? SA_SUCCESS : device_change_input_volume(dev, v);

    if (ret == SA_SUCCESS) {
        sa_free(dev->input_volume);
        dev->input_volume = v;
    } else
        sa_free(v);

    return ret;
}

int sa_device_change_output_volume(sa_device_t *dev, const int vol[]) {
    int *v, ret;

    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(vol, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_NOT_SUPPORTED);
    sa_return_val_if_fail(dev->mode & SA_MODE_WRONLY, SA_ERROR_STATE);

    if (!(v = sa_newdup(vol, int, dev->pcm_attrs.nchannels)))
        return SA_ERROR_OOM;

    ret = dev->state == SA_STATE_INIT ? SA_SUCCESS : device_change_output_volume(dev, v);

    if (ret == SA_SUCCESS) {
        sa_free(dev->output_volume);
        dev->output_volume = v;
    } else
        sa_free(v);

    return ret;
}

int sa_device_change_rate(sa_device_t *dev, unsigned rate) {
    int ret;
    
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(rate > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->dynamic_rate_enabled || dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    ret = dev->state == SA_STATE_INIT ? SA_SUCCESS : device_change_rate(dev, rate);

    if (ret == SA_SUCCESS)
        dev->pcm_attrs.rate = rate;

    return ret;
}

int sa_device_change_user_data(sa_device_t *dev, void *value) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);

    dev->user_data = value;
    return SA_SUCCESS;
}

int sa_device_adjust_rate(sa_device_t *dev, sa_adjust_t direction) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->adjust_rate = direction;
    return SA_SUCCESS;
}

int sa_device_adjust_nchannels(sa_device_t *dev, sa_adjust_t direction) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->adjust_rate = direction;
    return SA_SUCCESS;
}

int sa_device_adjust_pcm_format(sa_device_t *dev, sa_adjust_t direction) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_INIT, SA_ERROR_STATE);

    dev->adjust_pcm_format = direction;
    return SA_SUCCESS;
}

int sa_device_get_state(sa_device_t *dev, sa_state_t *state) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(state, SA_ERROR_INVALID);

    return device_get_state(dev, state);
}

int sa_device_get_rate(sa_device_t *dev, unsigned *rate) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(rate, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    *rate = dev->pcm_attrs.rate;
    return SA_SUCCESS;
}

int sa_device_get_nchannels(sa_device_t *dev, int *nchannels) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(nchannels, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    *nchannels = dev->pcm_attrs.nchannels;
    return SA_SUCCESS;
}

int sa_device_get_pcm_format(sa_device_t *dev, sa_pcm_format_t *pcm_format) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(pcm_format, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);

    *pcm_format = dev->pcm_attrs.format;
    return SA_SUCCESS;
}

int sa_device_get_user_data(sa_device_t *dev, void **value) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(value, SA_ERROR_INVALID);

    *value = dev->user_data;
    return SA_SUCCESS;
}

int sa_device_get_event_error(sa_device_t *dev, sa_error_t *error) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(error, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->event == SA_EVENT_ERROR, SA_ERROR_STATE);

    *error = dev->error;
    return SA_SUCCESS;
}

int sa_device_get_event_notify(sa_device_t *dev, sa_notify_t *notify) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(notify, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->event == SA_EVENT_NOTIFY, SA_ERROR_STATE);

    *notify = dev->notify;
    return SA_SUCCESS;
}

int sa_device_get_position(sa_device_t *dev, sa_position_t position, int64_t *pos) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(pos, SA_ERROR_INVALID);
    sa_return_val_if_fail(position < SA_POSITION_MAX, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_get_position(dev, position, pos);
}

int sa_device_read(sa_device_t *dev, void *data, size_t nbytes) {
    return sa_device_pread(dev, data, nbytes, 0, SA_SEEK_RELATIVE);
}

int sa_device_write(sa_device_t *dev, const void *data, size_t nbytes) {
    return sa_device_pwrite(dev, data, nbytes, 0, SA_SEEK_RELATIVE);
}

int sa_device_read_ni(sa_device_t *dev, unsigned channel, void *data, size_t nbytes) {
    return sa_device_pread_ni(dev, channel, data, nbytes, 0, SA_SEEK_RELATIVE);
}

int sa_device_write_ni(sa_device_t *dev, unsigned channel, const void *data, size_t nbytes) {
    return sa_device_pwrite_ni(dev, channel, data, nbytes, 0, SA_SEEK_RELATIVE);
}

int sa_device_pread(sa_device_t *dev, void *data, size_t nbytes, int64_t offset, sa_seek_t whence) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(data, SA_ERROR_INVALID);
    sa_return_val_if_fail(nbytes > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(whence == SA_SEEK_RELATIVE || whence == SA_SEEK_ABSOLUTE || whence == SA_SEEK_RELATIVE_END, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->ni_enabled, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->codec || (nbytes % dev->pcm_frame_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->codec || (offset % dev->pcm_frame_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_RDONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_pread(dev, data, nbytes, offset, whence);
}

int sa_device_pwrite(sa_device_t *dev, const void *data, size_t nbytes, int64_t offset, sa_seek_t whence) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(data, SA_ERROR_INVALID);
    sa_return_val_if_fail(nbytes > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(whence == SA_SEEK_RELATIVE || whence == SA_SEEK_ABSOLUTE || whence == SA_SEEK_RELATIVE_END, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->ni_enabled, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->codec || (nbytes % dev->pcm_frame_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->codec || (offset % dev->pcm_frame_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_WRONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_pwrite(dev, data, nbytes, offset, whence);
}

int sa_device_pread_ni(sa_device_t *dev, unsigned channel, void *data, size_t nbytes, int64_t offset, sa_seek_t whence) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(data, SA_ERROR_INVALID);
    sa_return_val_if_fail(nbytes > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(whence == SA_SEEK_RELATIVE || whence == SA_SEEK_ABSOLUTE || whence == SA_SEEK_RELATIVE_END, SA_ERROR_INVALID);
    sa_return_val_if_fail(channel < dev->pcm_attrs.nchannels, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->ni_enabled, SA_ERROR_STATE);
    sa_return_val_if_fail((nbytes % dev->pcm_sample_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail((offset % dev->pcm_sample_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_RDONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_pread_ni(dev, channel, data, nbytes, offset, whence);
}

int sa_device_pwrite_ni(sa_device_t *dev, unsigned channel, const void *data, size_t nbytes, int64_t offset, sa_seek_t whence) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(data, SA_ERROR_INVALID);
    sa_return_val_if_fail(nbytes > 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(!dev->codec, SA_ERROR_STATE);
    sa_return_val_if_fail(whence == SA_SEEK_RELATIVE || whence == SA_SEEK_ABSOLUTE || whence == SA_SEEK_RELATIVE_END, SA_ERROR_INVALID);
    sa_return_val_if_fail(channel < dev->pcm_attrs.nchannels, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->ni_enabled, SA_ERROR_STATE);
    sa_return_val_if_fail((nbytes % dev->pcm_sample_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail((offset % dev->pcm_sample_size) == 0, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_WRONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_pwrite_ni(dev, channel, data, nbytes, offset, whence);
}

int sa_device_get_read_size(sa_device_t *dev, size_t *size) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_RDONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_get_read_size(dev, size);
}

int sa_device_get_write_size(sa_device_t *dev, size_t *size) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(size, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_WRONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_get_write_size(dev, size);
}

int sa_device_resume(sa_device_t *dev) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_resume(dev);
}

int sa_device_pause(sa_device_t *dev) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_pause(dev);
}

int sa_device_drain(sa_device_t *dev) {
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(dev->mode & SA_MODE_WRONLY, SA_ERROR_STATE);
    sa_return_val_if_fail(dev->state == SA_STATE_RUNNING || dev->state == SA_STATE_STOPPED, SA_ERROR_STATE);

    return device_drain(dev);
}

size_t get_pcm_sample_size(sa_pcm_format_t f) {
    
    switch (f) {
        case SA_PCM_FORMAT_U8:
        case SA_PCM_FORMAT_ULAW:
        case SA_PCM_FORMAT_ALAW:
            return 1;

        case SA_PCM_FORMAT_S16_LE:
        case SA_PCM_FORMAT_S16_BE:
            return 2;
        case SA_PCM_FORMAT_S24_LE:
        case SA_PCM_FORMAT_S24_BE:
            return 3;
            
        case SA_PCM_FORMAT_S32_LE:
        case SA_PCM_FORMAT_S32_BE:
        case SA_PCM_FORMAT_FLOAT32_LE:
        case SA_PCM_FORMAT_FLOAT32_BE:
            return 4;

        case SA_PCM_FORMAT_MAX:
            ;
    }

    sa_assert_not_reached();
}

static int meta_check_png(const void *data, size_t size) {
    static const uint8_t png_signature[] = { 0x89, 0x50, 0x4E, 0x47, 0x0D, 0x0A, 0x1A, 0x0A };
    sa_assert(data);

    if (size < sizeof(png_signature))
        return 0;
    
    return memcmp(data, png_signature, 8) == 0;
}

static int meta_check_utf8(const void *data, size_t size) {
    int32_t idx;
    
    oil_utf8_validate(&idx, data, size);

    return (size_t) idx == size;
}

static int meta_check_pid(const void *data, size_t size) {
    long int pid;
    char *t;

    if (size <= 0)
        return 0;

    if (memchr(data, 0, size))
        return 0;
    
    if (!(t = sa_strndup(data, size)))
        return 0;
    
    errno = 0;
    pid = strtol(t, NULL, 10);
    sa_free(t);
    
    if (errno != 0)
        return 0;

    if (pid <= 1)
        return 0;

    return 1;
}

static int meta_check_icon_name(const void *data, size_t size) {
    const char *t = data;

    if (size <= 0)
        return 0;

    if (memchr(data, 0, size))
        return 0;
    
    if (size == 1 && t[0] == '.')
        return 0;

    if (size == 2 && t[0] == '.' &&  t[1] == '.')
        return 0;

    if (memchr(t, '/', size))
        return 0;
    
    return 1;
}

static int meta_check_word(const void *data, size_t size) {
    const char *t = data;

    for (; size > 0; size --, t++)
        if (*t <= 32 || *t >= 127)
            return 0;
    
    return 1;
}

typedef int (*meta_check_func_t)(const void *data, size_t size);

int sa_device_change_meta_data(sa_device_t *dev, const char *name, const void *data, size_t size) {
    void *d = NULL;
    const struct meta_name *m;
    int ret;

    static const meta_check_func_t check_table[] = {
        meta_check_utf8,
        meta_check_pid,
        meta_check_word, /* FIXME */
        meta_check_utf8,
        meta_check_icon_name,
        meta_check_png,
        meta_check_word, /* FIXME */
        meta_check_word, /* FIXME */
    };
        
    sa_return_val_if_fail(dev, SA_ERROR_INVALID);
    sa_return_val_if_fail(name, SA_ERROR_INVALID);
    sa_return_val_if_fail(data || size == 0, SA_ERROR_INVALID);

    if (!(m = lookup_meta_name(name, strlen(name))))
        return SA_ERROR_NO_META;

    if (!check_table[m->idx](data, size))
        return SA_ERROR_INVALID;

    if (data)
        if (!(d = sa_memdup(data, size)))
            return SA_ERROR_OOM;

    ret = dev->state == SA_STATE_INIT ? SA_SUCCESS : device_change_meta_data(dev, name, data, size);

    if (ret == SA_SUCCESS) {
        sa_free(dev->meta_data[m->idx]);
        dev->meta_data[m->idx] = d;
        dev->meta_data_size[m->idx] = size;
    }
    
    return ret;
}


const char *sa_strerror(int code) {
    const char * const error_table[-SA_ERROR_MAX] = {
        [-SA_SUCCESS] = "Success",
        [-SA_ERROR_NOT_SUPPORTED] = "Operation not supported",
        [-SA_ERROR_INVALID] = "Invalid argument",
        [-SA_ERROR_STATE] = "Invalid state",
        [-SA_ERROR_OOM] = "Out of memory",
        [-SA_ERROR_NO_DEVICE] = "No such device",
        [-SA_ERROR_NO_DRIVER] = "No such driver",
        [-SA_ERROR_NO_CODEC] = "No such codec",
        [-SA_ERROR_NO_PCM_FORMAT] = "No such PCM format",
        [-SA_ERROR_SYSTEM] = "System error",
        [-SA_ERROR_NO_INIT] = "Not initialized",
        [-SA_ERROR_NO_META] ="No such meta name"
    };

    sa_assert(code <= 0);
    sa_assert(code > SA_ERROR_MAX);

    return error_table[-code];
}