/* linux/arch/arm/mach-msm/board-sapphire-mmc.c * Copyright (C) 2007-2009 HTC Corporation. * Author: Thomas Tsai * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * This program 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "devices.h" #include "gpio_chip.h" #include "board-sapphire.h" #define DEBUG_SDSLOT_VDD 0 extern int msm_add_sdcc(unsigned int controller, struct mmc_platform_data *plat, unsigned int stat_irq, unsigned long stat_irq_flags); /* ---- COMMON ---- */ static void config_gpio_table(uint32_t *table, int len) { int n; unsigned id; for (n = 0; n < len; n++) { id = table[n]; msm_proc_comm(PCOM_RPC_GPIO_TLMM_CONFIG_EX, &id, 0); } } /* ---- SDCARD ---- */ static uint32_t sdcard_on_gpio_table[] = { PCOM_GPIO_CFG(62, 2, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_8MA), /* CLK */ PCOM_GPIO_CFG(63, 2, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_8MA), /* CMD */ PCOM_GPIO_CFG(64, 2, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_8MA), /* DAT3 */ PCOM_GPIO_CFG(65, 2, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_8MA), /* DAT2 */ PCOM_GPIO_CFG(66, 2, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT1 */ PCOM_GPIO_CFG(67, 2, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT0 */ }; static uint32_t sdcard_off_gpio_table[] = { PCOM_GPIO_CFG(62, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* CLK */ PCOM_GPIO_CFG(63, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* CMD */ PCOM_GPIO_CFG(64, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT3 */ PCOM_GPIO_CFG(65, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT2 */ PCOM_GPIO_CFG(66, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT1 */ PCOM_GPIO_CFG(67, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT0 */ }; static uint opt_disable_sdcard; static int __init sapphire_disablesdcard_setup(char *str) { int cal = simple_strtol(str, NULL, 0); opt_disable_sdcard = cal; return 1; } __setup("board_sapphire.disable_sdcard=", sapphire_disablesdcard_setup); static struct vreg *vreg_sdslot; /* SD slot power */ struct mmc_vdd_xlat { int mask; int level; }; static struct mmc_vdd_xlat mmc_vdd_table[] = { { MMC_VDD_165_195, 1800 }, { MMC_VDD_20_21, 2050 }, { MMC_VDD_21_22, 2150 }, { MMC_VDD_22_23, 2250 }, { MMC_VDD_23_24, 2350 }, { MMC_VDD_24_25, 2450 }, { MMC_VDD_25_26, 2550 }, { MMC_VDD_26_27, 2650 }, { MMC_VDD_27_28, 2750 }, { MMC_VDD_28_29, 2850 }, { MMC_VDD_29_30, 2950 }, }; static unsigned int sdslot_vdd = 0xffffffff; static unsigned int sdslot_vreg_enabled; static uint32_t sapphire_sdslot_switchvdd(struct device *dev, unsigned int vdd) { int i, rc; BUG_ON(!vreg_sdslot); if (vdd == sdslot_vdd) return 0; sdslot_vdd = vdd; if (vdd == 0) { #if DEBUG_SDSLOT_VDD printk(KERN_DEBUG "%s: Disabling SD slot power\n", __func__); #endif config_gpio_table(sdcard_off_gpio_table, ARRAY_SIZE(sdcard_off_gpio_table)); vreg_disable(vreg_sdslot); sdslot_vreg_enabled = 0; return 0; } if (!sdslot_vreg_enabled) { rc = vreg_enable(vreg_sdslot); if (rc) { printk(KERN_ERR "%s: Error enabling vreg (%d)\n", __func__, rc); } config_gpio_table(sdcard_on_gpio_table, ARRAY_SIZE(sdcard_on_gpio_table)); sdslot_vreg_enabled = 1; } for (i = 0; i < ARRAY_SIZE(mmc_vdd_table); i++) { if (mmc_vdd_table[i].mask == (1 << vdd)) { #if DEBUG_SDSLOT_VDD printk(KERN_DEBUG "%s: Setting level to %u\n", __func__, mmc_vdd_table[i].level); #endif rc = vreg_set_level(vreg_sdslot, mmc_vdd_table[i].level); if (rc) { printk(KERN_ERR "%s: Error setting vreg level (%d)\n", __func__, rc); } return 0; } } printk(KERN_ERR "%s: Invalid VDD %d specified\n", __func__, vdd); return 0; } static unsigned int sapphire_sdslot_status(struct device *dev) { unsigned int status; status = (unsigned int) gpio_get_value(SAPPHIRE_GPIO_SDMC_CD_N); return !status; } #define SAPPHIRE_MMC_VDD (MMC_VDD_165_195 | MMC_VDD_20_21 | MMC_VDD_21_22 \ | MMC_VDD_22_23 | MMC_VDD_23_24 | MMC_VDD_24_25 \ | MMC_VDD_25_26 | MMC_VDD_26_27 | MMC_VDD_27_28 \ | MMC_VDD_28_29 | MMC_VDD_29_30) static struct mmc_platform_data sapphire_sdslot_data = { .ocr_mask = SAPPHIRE_MMC_VDD, .status = sapphire_sdslot_status, .translate_vdd = sapphire_sdslot_switchvdd, }; /* ---- WIFI ---- */ static uint32_t wifi_on_gpio_table[] = { PCOM_GPIO_CFG(51, 1, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT3 */ PCOM_GPIO_CFG(52, 1, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT2 */ PCOM_GPIO_CFG(53, 1, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT1 */ PCOM_GPIO_CFG(54, 1, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_4MA), /* DAT0 */ PCOM_GPIO_CFG(55, 1, GPIO_OUTPUT, GPIO_PULL_UP, GPIO_8MA), /* CMD */ PCOM_GPIO_CFG(56, 1, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_8MA), /* CLK */ PCOM_GPIO_CFG(29, 0, GPIO_INPUT, GPIO_NO_PULL, GPIO_4MA), /* WLAN IRQ */ }; static uint32_t wifi_off_gpio_table[] = { PCOM_GPIO_CFG(51, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT3 */ PCOM_GPIO_CFG(52, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT2 */ PCOM_GPIO_CFG(53, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT1 */ PCOM_GPIO_CFG(54, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* DAT0 */ PCOM_GPIO_CFG(55, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* CMD */ PCOM_GPIO_CFG(56, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* CLK */ PCOM_GPIO_CFG(29, 0, GPIO_OUTPUT, GPIO_NO_PULL, GPIO_4MA), /* WLAN IRQ */ }; static struct vreg *vreg_wifi_osc; /* WIFI 32khz oscilator */ static int sapphire_wifi_cd = 0; /* WIFI virtual 'card detect' status */ static struct sdio_embedded_func wifi_func = { .f_class = SDIO_CLASS_WLAN, .f_maxblksize = 512, }; static struct embedded_sdio_data sapphire_wifi_emb_data = { .cis = { .vendor = 0x104c, .device = 0x9066, .blksize = 512, .max_dtr = 20000000, }, .cccr = { .multi_block = 0, .low_speed = 0, .wide_bus = 1, .high_power = 0, .high_speed = 0, }, .funcs = &wifi_func, .num_funcs = 1, }; static void (*wifi_status_cb)(int card_present, void *dev_id); static void *wifi_status_cb_devid; static int sapphire_wifi_status_register(void (*callback)(int card_present, void *dev_id), void *dev_id) { if (wifi_status_cb) return -EAGAIN; wifi_status_cb = callback; wifi_status_cb_devid = dev_id; return 0; } static unsigned int sapphire_wifi_status(struct device *dev) { return sapphire_wifi_cd; } int sapphire_wifi_set_carddetect(int val) { printk(KERN_DEBUG "%s: %d\n", __func__, val); sapphire_wifi_cd = val; if (wifi_status_cb) wifi_status_cb(val, wifi_status_cb_devid); else printk(KERN_WARNING "%s: Nobody to notify\n", __func__); return 0; } #ifndef CONFIG_WIFI_CONTROL_FUNC EXPORT_SYMBOL(sapphire_wifi_set_carddetect); #endif int sapphire_wifi_power_state=0; int sapphire_bt_power_state=0; int sapphire_wifi_power(int on) { int rc; printk(KERN_DEBUG "%s: %d\n", __func__, on); if (on) { config_gpio_table(wifi_on_gpio_table, ARRAY_SIZE(wifi_on_gpio_table)); rc = vreg_enable(vreg_wifi_osc); if (rc) return rc; htc_pwrsink_set(PWRSINK_WIFI, 70); } else { config_gpio_table(wifi_off_gpio_table, ARRAY_SIZE(wifi_off_gpio_table)); htc_pwrsink_set(PWRSINK_WIFI, 0); } gpio_set_value(SAPPHIRE_GPIO_MAC_32K_EN, on); mdelay(100); gpio_set_value(SAPPHIRE_GPIO_WIFI_EN, on); mdelay(100); if (!on) { if(!sapphire_bt_power_state) { vreg_disable(vreg_wifi_osc); printk("WiFi disable vreg_wifi_osc.\n"); } else printk("WiFi shouldn't disable vreg_wifi_osc. BT is using it!!\n"); } sapphire_wifi_power_state = on; return 0; } #ifndef CONFIG_WIFI_CONTROL_FUNC EXPORT_SYMBOL(sapphire_wifi_power); #endif /* Eenable VREG_MMC pin to turn on fastclock oscillator : colin */ int sapphire_bt_fastclock_power(int on) { int rc; printk(KERN_DEBUG "sapphire_bt_fastclock_power on = %d\n", on); if (vreg_wifi_osc) { if (on) { rc = vreg_enable(vreg_wifi_osc); printk(KERN_DEBUG "BT vreg_enable vreg_mmc, rc=%d\n", rc); if (rc) { printk("Error turn sapphire_bt_fastclock_power rc=%d\n", rc); return rc; } } else { if (!sapphire_wifi_power_state) { vreg_disable(vreg_wifi_osc); printk(KERN_DEBUG "BT disable vreg_wifi_osc.\n"); } else printk(KERN_DEBUG "BT shouldn't disable vreg_wifi_osc. WiFi is using it!!\n"); } } sapphire_bt_power_state = on; return 0; } EXPORT_SYMBOL(sapphire_bt_fastclock_power); static int sapphire_wifi_reset_state; void sapphire_wifi_reset(int on) { printk(KERN_DEBUG "%s: %d\n", __func__, on); gpio_set_value(SAPPHIRE_GPIO_WIFI_PA_RESETX, !on); sapphire_wifi_reset_state = on; mdelay(50); } #ifndef CONFIG_WIFI_CONTROL_FUNC EXPORT_SYMBOL(sapphire_wifi_reset); #endif static struct mmc_platform_data sapphire_wifi_data = { .ocr_mask = MMC_VDD_28_29, .status = sapphire_wifi_status, .register_status_notify = sapphire_wifi_status_register, .embedded_sdio = &sapphire_wifi_emb_data, }; int __init sapphire_init_mmc(unsigned int sys_rev) { wifi_status_cb = NULL; sdslot_vreg_enabled = 0; vreg_sdslot = vreg_get(0, "gp6"); if (IS_ERR(vreg_sdslot)) return PTR_ERR(vreg_sdslot); vreg_wifi_osc = vreg_get(0, "mmc"); if (IS_ERR(vreg_wifi_osc)) return PTR_ERR(vreg_wifi_osc); set_irq_wake(SAPPHIRE_GPIO_TO_INT(SAPPHIRE_GPIO_SDMC_CD_N), 1); msm_add_sdcc(1, &sapphire_wifi_data, 0, 0); if (!opt_disable_sdcard) msm_add_sdcc(2, &sapphire_sdslot_data, SAPPHIRE_GPIO_TO_INT(SAPPHIRE_GPIO_SDMC_CD_N), 0); else printk(KERN_INFO "sapphire: SD-Card interface disabled\n"); return 0; } #if defined(CONFIG_DEBUG_FS) static int sapphiremmc_dbg_wifi_reset_set(void *data, u64 val) { sapphire_wifi_reset((int) val); return 0; } static int sapphiremmc_dbg_wifi_reset_get(void *data, u64 *val) { *val = sapphire_wifi_reset_state; return 0; } static int sapphiremmc_dbg_wifi_cd_set(void *data, u64 val) { sapphire_wifi_set_carddetect((int) val); return 0; } static int sapphiremmc_dbg_wifi_cd_get(void *data, u64 *val) { *val = sapphire_wifi_cd; return 0; } static int sapphiremmc_dbg_wifi_pwr_set(void *data, u64 val) { sapphire_wifi_power((int) val); return 0; } static int sapphiremmc_dbg_wifi_pwr_get(void *data, u64 *val) { *val = sapphire_wifi_power_state; return 0; } static int sapphiremmc_dbg_sd_pwr_set(void *data, u64 val) { sapphire_sdslot_switchvdd(NULL, (unsigned int) val); return 0; } static int sapphiremmc_dbg_sd_pwr_get(void *data, u64 *val) { *val = sdslot_vdd; return 0; } static int sapphiremmc_dbg_sd_cd_set(void *data, u64 val) { return -ENOSYS; } static int sapphiremmc_dbg_sd_cd_get(void *data, u64 *val) { *val = sapphire_sdslot_status(NULL); return 0; } DEFINE_SIMPLE_ATTRIBUTE(sapphiremmc_dbg_wifi_reset_fops, sapphiremmc_dbg_wifi_reset_get, sapphiremmc_dbg_wifi_reset_set, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(sapphiremmc_dbg_wifi_cd_fops, sapphiremmc_dbg_wifi_cd_get, sapphiremmc_dbg_wifi_cd_set, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(sapphiremmc_dbg_wifi_pwr_fops, sapphiremmc_dbg_wifi_pwr_get, sapphiremmc_dbg_wifi_pwr_set, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(sapphiremmc_dbg_sd_pwr_fops, sapphiremmc_dbg_sd_pwr_get, sapphiremmc_dbg_sd_pwr_set, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(sapphiremmc_dbg_sd_cd_fops, sapphiremmc_dbg_sd_cd_get, sapphiremmc_dbg_sd_cd_set, "%llu\n"); static int __init sapphiremmc_dbg_init(void) { struct dentry *dent; if (!machine_is_sapphire()) return 0; dent = debugfs_create_dir("sapphiremmc_dbg", 0); if (IS_ERR(dent)) return PTR_ERR(dent); debugfs_create_file("wifi_reset", 0644, dent, NULL, &sapphiremmc_dbg_wifi_reset_fops); debugfs_create_file("wifi_cd", 0644, dent, NULL, &sapphiremmc_dbg_wifi_cd_fops); debugfs_create_file("wifi_pwr", 0644, dent, NULL, &sapphiremmc_dbg_wifi_pwr_fops); debugfs_create_file("sd_pwr", 0644, dent, NULL, &sapphiremmc_dbg_sd_pwr_fops); debugfs_create_file("sd_cd", 0644, dent, NULL, &sapphiremmc_dbg_sd_cd_fops); return 0; } device_initcall(sapphiremmc_dbg_init); #endif