static void __stm_device_exit(struct stm_device_state *state)
{
struct stm_device_config *config = state->config;
int i;
stm_device_power(state, stm_device_power_off);
if (config->pad_config)
stm_pad_release(state->pad_state);
if (config->exit)
config->exit(state);
for (i = 0; i < config->sysconfs_num; i++)
sysconf_release(state->sysconf_fields[i]);
}
static int __stm_device_init(struct stm_device_state *state,
struct stm_device_config *config, struct device *dev)
{
int i;
state->dev = dev;
state->config = config;
state->power_state = stm_device_power_off;
for (i = 0; i < config->sysconfs_num; i++) {
struct stm_device_sysconf *sysconf = &config->sysconfs[i];
state->sysconf_fields[i] = sysconf_claim(sysconf->regtype,
sysconf->regnum, sysconf->lsb, sysconf->msb,
dev_name(dev));
if (!state->sysconf_fields[i])
goto sysconf_error;
}
if (config->init && config->init(state))
goto sysconf_error;
if (config->pad_config &&
(state->pad_state = stm_pad_claim(config->pad_config,
dev_name(dev))) == NULL)
goto pad_error;
stm_device_power(state, stm_device_power_on);
return 0;
pad_error:
if (config->exit)
config->exit(state);
sysconf_error:
for (i--; i>=0; i--)
sysconf_release(state->sysconf_fields[i]);
return -EBUSY;
}
static int emi_hibernation(int resuming)
{
int idx;
int bank, data;
static struct emi_pm *emi_saved_data;
if (resuming)
if (emi_saved_data) {
/* restore the previous common value */
for (idx = 0; idx < emi_num_common_cfg-4; ++idx)
writel(emi_saved_data->common_cfg[idx],
emi_control+EMI_COMMON_CFG(idx));
writel(emi_saved_data->common_cfg[12], emi_control
+ EMI_BANK_ENABLE);
writel(emi_saved_data->common_cfg[13], emi_control
+ EMI_BANKNUMBER);
writel(emi_saved_data->common_cfg[14], emiss_config +
EMISS_CONFIG);
writel(emi_saved_data->common_cfg[15], emiss_config +
EMISS_ARBITER_CONFIG);
/* restore the previous bank values */
for (bank = 0; bank < emi_num_bank; ++bank) {
writel(emi_saved_data->bank[bank].base_address,
emi_control + BANK_BASEADDRESS(bank));
for (data = 0; data < emi_num_bank_cfg; ++data)
emi_bank_configure(bank, emi_saved_data->bank[bank].cfg);
}
kfree(emi_saved_data);
emi_saved_data = NULL;
emi_clk_enable();
stm_device_power(emi_device_state,
stm_device_power_on);
}
return 0;
/*
* hibernationg...
*/
emi_saved_data = kmalloc(sizeof(struct emi_pm), GFP_NOWAIT);
if (!emi_saved_data) {
printk(KERN_ERR "Unable to freeze the emi registers\n");
return -ENOMEM;
}
/* save the emi common values */
for (idx = 0; idx < emi_num_common_cfg-4; ++idx)
emi_saved_data->common_cfg[idx] =
readl(emi_control + EMI_COMMON_CFG(idx));
emi_saved_data->common_cfg[12] =
readl(emi_control + EMI_BANK_ENABLE);
emi_saved_data->common_cfg[13] =
readl(emi_control + EMI_BANKNUMBER);
emi_saved_data->common_cfg[14] =
readl(emiss_config + EMISS_CONFIG);
emi_saved_data->common_cfg[15] =
readl(emiss_config + EMISS_ARBITER_CONFIG);
/* save the emi bank value */
for (bank = 0; bank < emi_num_bank; ++bank) {
emi_saved_data->bank[bank].base_address =
readl(emi_control + BANK_BASEADDRESS(bank));
for (data = 0; data < emi_num_bank_cfg; ++data)
emi_saved_data->bank[bank].cfg[data] =
readl(emi_control + BANK_EMICONFIGDATA(bank, data));
}
return 0;
}
static int emi_resume(struct device *dev)
{
emi_clk_enable();
stm_device_power(emi_device_state, stm_device_power_on);
return 0;
}
static int emi_suspend(struct device *dev)
{
stm_device_power(emi_device_state, stm_device_power_off);
emi_clk_disable();
return 0;
}
static int emi_resume(void)
{
emi_clk_enable();
stm_device_power(emi_device_state, stm_device_power_on);
return 0;
}
