M7350/bootable/bootloader/lk/target/msm8974/init.c

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/* Copyright (c) 2012-2014, The Linux Foundation. All rights reserved.
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*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <debug.h>
#include <platform/iomap.h>
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#include <platform/irqs.h>
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#include <platform/gpio.h>
#include <reg.h>
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#include <string.h>
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#include <target.h>
#include <platform.h>
#include <dload_util.h>
#include <uart_dm.h>
#include <mmc.h>
#include <spmi.h>
#include <board.h>
#include <smem.h>
#include <baseband.h>
#include <dev/keys.h>
#include <pm8x41.h>
#include <crypto5_wrapper.h>
#include <hsusb.h>
#include <clock.h>
#include <partition_parser.h>
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#include <sdhci_msm.h>
#include <qtimer.h>
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#include <scm.h>
#include <platform/clock.h>
#include <platform/gpio.h>
#include <stdlib.h>
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#define HW_PLATFORM_8994_INTERPOSER 0x3
extern int platform_is_8974();
extern int platform_is_8974ac();
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extern bool target_use_signed_kernel(void);
static void set_sdc_power_ctrl();
static unsigned int target_id;
static uint32_t pmic_ver;
#if MMC_SDHCI_SUPPORT
struct mmc_device *dev;
#endif
#define PMIC_ARB_CHANNEL_NUM 0
#define PMIC_ARB_OWNER_ID 0
#define WDOG_DEBUG_DISABLE_BIT 17
#define CE_INSTANCE 2
#define CE_EE 1
#define CE_FIFO_SIZE 64
#define CE_READ_PIPE 3
#define CE_WRITE_PIPE 2
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#define CE_READ_PIPE_LOCK_GRP 0
#define CE_WRITE_PIPE_LOCK_GRP 0
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#define CE_ARRAY_SIZE 20
#ifdef SSD_ENABLE
#define SSD_CE_INSTANCE_1 1
#define SSD_PARTITION_SIZE 8192
#endif
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#define FASTBOOT_MODE 0x77665500
#define BOARD_SOC_VERSION1(soc_rev) (soc_rev >= 0x10000 && soc_rev < 0x20000)
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#if MMC_SDHCI_SUPPORT
static uint32_t mmc_sdhci_base[] =
{ MSM_SDC1_SDHCI_BASE, MSM_SDC2_SDHCI_BASE, MSM_SDC3_SDHCI_BASE, MSM_SDC4_SDHCI_BASE };
#endif
static uint32_t mmc_sdc_base[] =
{ MSM_SDC1_BASE, MSM_SDC2_BASE, MSM_SDC3_BASE, MSM_SDC4_BASE };
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static uint32_t mmc_sdc_pwrctl_irq[] =
{ SDCC1_PWRCTL_IRQ, SDCC2_PWRCTL_IRQ, SDCC3_PWRCTL_IRQ, SDCC4_PWRCTL_IRQ };
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void target_early_init(void)
{
#if WITH_DEBUG_UART
uart_dm_init(1, 0, BLSP1_UART1_BASE);
#endif
}
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uint32_t target_hw_interposer()
{
return board_hardware_subtype() == HW_PLATFORM_8994_INTERPOSER ? 1 : 0;
}
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/* Return 1 if vol_up pressed */
static int target_volume_up()
{
uint8_t status = 0;
struct pm8x41_gpio gpio;
/* CDP vol_up seems to be always grounded. So gpio status is read as 0,
* whether key is pressed or not.
* Ignore volume_up key on CDP for now.
*/
if (board_hardware_id() == HW_PLATFORM_SURF)
return 0;
/* Configure the GPIO */
gpio.direction = PM_GPIO_DIR_IN;
gpio.function = 0;
gpio.pull = PM_GPIO_PULL_UP_30;
gpio.vin_sel = 2;
pm8x41_gpio_config(5, &gpio);
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/* Wait for the pmic gpio config to take effect */
thread_sleep(1);
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/* Get status of P_GPIO_5 */
pm8x41_gpio_get(5, &status);
return !status; /* active low */
}
/* Return 1 if vol_down pressed */
uint32_t target_volume_down()
{
/* Volume down button is tied in with RESIN on MSM8974. */
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if (platform_is_8974() && (pmic_ver == PM8X41_VERSION_V2))
return pm8x41_v2_resin_status();
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else
return pm8x41_resin_status();
}
static void target_keystatus()
{
keys_init();
if(target_volume_down())
keys_post_event(KEY_VOLUMEDOWN, 1);
if(target_volume_up())
keys_post_event(KEY_VOLUMEUP, 1);
}
/* Set up params for h/w CE. */
void target_crypto_init_params()
{
struct crypto_init_params ce_params;
/* Set up base addresses and instance. */
ce_params.crypto_instance = CE_INSTANCE;
ce_params.crypto_base = MSM_CE2_BASE;
ce_params.bam_base = MSM_CE2_BAM_BASE;
/* Set up BAM config. */
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ce_params.bam_ee = CE_EE;
ce_params.pipes.read_pipe = CE_READ_PIPE;
ce_params.pipes.write_pipe = CE_WRITE_PIPE;
ce_params.pipes.read_pipe_grp = CE_READ_PIPE_LOCK_GRP;
ce_params.pipes.write_pipe_grp = CE_WRITE_PIPE_LOCK_GRP;
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/* Assign buffer sizes. */
ce_params.num_ce = CE_ARRAY_SIZE;
ce_params.read_fifo_size = CE_FIFO_SIZE;
ce_params.write_fifo_size = CE_FIFO_SIZE;
/* BAM is initialized by TZ for this platform.
* Do not do it again as the initialization address space
* is locked.
*/
ce_params.do_bam_init = 0;
crypto_init_params(&ce_params);
}
crypto_engine_type board_ce_type(void)
{
return CRYPTO_ENGINE_TYPE_HW;
}
#if MMC_SDHCI_SUPPORT
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static void target_mmc_sdhci_init()
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{
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struct mmc_config_data config = {0};
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uint32_t soc_ver = 0;
soc_ver = board_soc_version();
/*
* 8974 v1 fluid devices, have a hardware bug
* which limits the bus width to 4 bit.
*/
switch(board_hardware_id())
{
case HW_PLATFORM_FLUID:
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if (platform_is_8974() && BOARD_SOC_VERSION1(soc_ver))
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config.bus_width = DATA_BUS_WIDTH_4BIT;
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else
config.bus_width = DATA_BUS_WIDTH_8BIT;
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break;
default:
config.bus_width = DATA_BUS_WIDTH_8BIT;
};
/* Trying Slot 1*/
config.slot = 1;
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/*
* For 8974 AC platform the software clock
* plan recommends to use the following frequencies:
* 200 MHz --> 192 MHZ
* 400 MHZ --> 384 MHZ
* only for emmc slot
*/
if (platform_is_8974ac())
config.max_clk_rate = MMC_CLK_192MHZ;
else
config.max_clk_rate = MMC_CLK_200MHZ;
config.sdhc_base = mmc_sdhci_base[config.slot - 1];
config.pwrctl_base = mmc_sdc_base[config.slot - 1];
config.pwr_irq = mmc_sdc_pwrctl_irq[config.slot - 1];
config.hs400_support = 1;
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if (!(dev = mmc_init(&config))) {
/* Trying Slot 2 next */
config.slot = 2;
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config.max_clk_rate = MMC_CLK_200MHZ;
config.sdhc_base = mmc_sdhci_base[config.slot - 1];
config.pwrctl_base = mmc_sdc_base[config.slot - 1];
config.pwr_irq = mmc_sdc_pwrctl_irq[config.slot - 1];
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if (!(dev = mmc_init(&config))) {
dprintf(CRITICAL, "mmc init failed!");
ASSERT(0);
}
}
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/*
* MMC initialization is complete, read the partition table info
*/
if (partition_read_table()) {
dprintf(CRITICAL, "Error reading the partition table info\n");
ASSERT(0);
}
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}
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void *target_mmc_device()
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{
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return (void *) dev;
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}
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#else
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static void target_mmc_mci_init()
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{
uint32_t base_addr;
uint8_t slot;
/* Trying Slot 1 */
slot = 1;
base_addr = mmc_sdc_base[slot - 1];
if (mmc_boot_main(slot, base_addr))
{
/* Trying Slot 2 next */
slot = 2;
base_addr = mmc_sdc_base[slot - 1];
if (mmc_boot_main(slot, base_addr)) {
dprintf(CRITICAL, "mmc init failed!");
ASSERT(0);
}
}
}
/*
* Function to set the capabilities for the host
*/
void target_mmc_caps(struct mmc_host *host)
{
uint32_t soc_ver = 0;
soc_ver = board_soc_version();
/*
* 8974 v1 fluid devices, have a hardware bug
* which limits the bus width to 4 bit.
*/
switch(board_hardware_id())
{
case HW_PLATFORM_FLUID:
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if (platform_is_8974() && BOARD_SOC_VERSION1(soc_ver))
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host->caps.bus_width = MMC_BOOT_BUS_WIDTH_4_BIT;
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else
host->caps.bus_width = MMC_BOOT_BUS_WIDTH_8_BIT;
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break;
default:
host->caps.bus_width = MMC_BOOT_BUS_WIDTH_8_BIT;
};
host->caps.ddr_mode = 1;
host->caps.hs200_mode = 1;
host->caps.hs_clk_rate = MMC_CLK_96MHZ;
}
#endif
void target_init(void)
{
dprintf(INFO, "target_init()\n");
spmi_init(PMIC_ARB_CHANNEL_NUM, PMIC_ARB_OWNER_ID);
/* Save PM8941 version info. */
pmic_ver = pm8x41_get_pmic_rev();
target_keystatus();
if (target_use_signed_kernel())
target_crypto_init_params();
/*
* Set drive strength & pull ctrl for
* emmc
*/
set_sdc_power_ctrl();
#if MMC_SDHCI_SUPPORT
target_mmc_sdhci_init();
#else
target_mmc_mci_init();
#endif
}
unsigned board_machtype(void)
{
return target_id;
}
/* Do any target specific intialization needed before entering fastboot mode */
#ifdef SSD_ENABLE
static void ssd_load_keystore_from_emmc()
{
uint64_t ptn = 0;
int index = -1;
uint32_t size = SSD_PARTITION_SIZE;
int ret = -1;
uint32_t *buffer = (uint32_t *)memalign(CACHE_LINE,
ROUNDUP(SSD_PARTITION_SIZE, CACHE_LINE));
if (!buffer) {
dprintf(CRITICAL, "Error Allocating memory for SSD buffer\n");
ASSERT(0);
}
index = partition_get_index("ssd");
ptn = partition_get_offset(index);
if(ptn == 0){
dprintf(CRITICAL,"ERROR: ssd parition not found");
return;
}
if(mmc_read(ptn, buffer, size)){
dprintf(CRITICAL,"ERROR:Cannot read data\n");
return;
}
ret = scm_protect_keystore((uint32_t *)&buffer[0],size);
if(ret != 0)
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dprintf(CRITICAL,"ERROR: scm_protect_keystore Failed\n");
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free(buffer);
}
#endif
void target_fastboot_init(void)
{
/* Set the BOOT_DONE flag in PM8921 */
pm8x41_set_boot_done();
#ifdef SSD_ENABLE
clock_ce_enable(SSD_CE_INSTANCE_1);
ssd_load_keystore_from_emmc();
#endif
}
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/* Initialize target specific USB handlers */
target_usb_iface_t* target_usb30_init()
{
target_usb_iface_t *t_usb_iface;
t_usb_iface = calloc(1, sizeof(target_usb_iface_t));
ASSERT(t_usb_iface);
t_usb_iface->mux_config = target_usb_phy_mux_configure;
t_usb_iface->clock_init = clock_usb30_init;
return t_usb_iface;
}
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/* Detect the target type */
void target_detect(struct board_data *board)
{
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/* This property is filled in board.c */
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}
/* Detect the modem type */
void target_baseband_detect(struct board_data *board)
{
uint32_t platform;
uint32_t platform_subtype;
platform = board->platform;
platform_subtype = board->platform_subtype;
/*
* Look for platform subtype if present, else
* check for platform type to decide on the
* baseband type
*/
switch(platform_subtype) {
case HW_PLATFORM_SUBTYPE_UNKNOWN:
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case HW_PLATFORM_SUBTYPE_8974PRO_PM8084:
case HW_PLATFORM_8994_INTERPOSER:
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break;
default:
dprintf(CRITICAL, "Platform Subtype : %u is not supported\n",platform_subtype);
ASSERT(0);
};
switch(platform) {
case MSM8974:
case MSM8274:
case MSM8674:
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case MSM8274AA:
case MSM8274AB:
case MSM8274AC:
case MSM8674AA:
case MSM8674AB:
case MSM8674AC:
case MSM8974AA:
case MSM8974AB:
case MSM8974AC:
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board->baseband = BASEBAND_MSM;
break;
case APQ8074:
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case APQ8074AA:
case APQ8074AB:
case APQ8074AC:
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board->baseband = BASEBAND_APQ;
break;
default:
dprintf(CRITICAL, "Platform type: %u is not supported\n",platform);
ASSERT(0);
};
}
unsigned target_baseband()
{
return board_baseband();
}
void target_serialno(unsigned char *buf)
{
unsigned int serialno;
if (target_is_emmc_boot()) {
serialno = mmc_get_psn();
snprintf((char *)buf, 13, "%x", serialno);
}
}
unsigned check_reboot_mode(void)
{
uint32_t restart_reason = 0;
uint32_t soc_ver = 0;
uint32_t restart_reason_addr;
soc_ver = board_soc_version();
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if (platform_is_8974() && BOARD_SOC_VERSION1(soc_ver))
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restart_reason_addr = RESTART_REASON_ADDR;
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else
restart_reason_addr = RESTART_REASON_ADDR_V2;
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/* Read reboot reason and scrub it */
restart_reason = readl(restart_reason_addr);
writel(0x00, restart_reason_addr);
return restart_reason;
}
void reboot_device(unsigned reboot_reason)
{
uint32_t soc_ver = 0;
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uint8_t reset_type = 0;
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soc_ver = board_soc_version();
/* Write the reboot reason */
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if (platform_is_8974() && BOARD_SOC_VERSION1(soc_ver))
writel(reboot_reason, RESTART_REASON_ADDR);
else
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writel(reboot_reason, RESTART_REASON_ADDR_V2);
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if(reboot_reason == FASTBOOT_MODE)
reset_type = PON_PSHOLD_WARM_RESET;
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else
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reset_type = PON_PSHOLD_HARD_RESET;
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/* Configure PMIC for warm reset */
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if (platform_is_8974() && (pmic_ver == PM8X41_VERSION_V2))
pm8x41_v2_reset_configure(reset_type);
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else
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pm8x41_reset_configure(reset_type);
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/* Drop PS_HOLD for MSM */
writel(0x00, MPM2_MPM_PS_HOLD);
mdelay(5000);
dprintf(CRITICAL, "Rebooting failed\n");
}
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int set_download_mode(enum dload_mode mode)
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{
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dload_util_write_cookie(mode == NORMAL_DLOAD ?
DLOAD_MODE_ADDR_V2 : EMERGENCY_DLOAD_MODE_ADDR_V2, mode);
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return 0;
}
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/* Check if MSM needs VBUS mimic for USB */
static int target_needs_vbus_mimic()
{
if (platform_is_8974())
return 0;
return 1;
}
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/* Do target specific usb initialization */
void target_usb_init(void)
{
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uint32_t val;
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/* Enable secondary USB PHY on DragonBoard8074 */
if (board_hardware_id() == HW_PLATFORM_DRAGON) {
/* Route ChipIDea to use secondary USB HS port2 */
writel_relaxed(1, USB2_PHY_SEL);
/* Enable access to secondary PHY by clamping the low
* voltage interface between DVDD of the PHY and Vddcx
* (set bit16 (USB2_PHY_HS2_DIG_CLAMP_N_2) = 1) */
writel_relaxed(readl_relaxed(USB_OTG_HS_PHY_SEC_CTRL)
| 0x00010000, USB_OTG_HS_PHY_SEC_CTRL);
/* Perform power-on-reset of the PHY.
* Delay values are arbitrary */
writel_relaxed(readl_relaxed(USB_OTG_HS_PHY_CTRL)|1,
USB_OTG_HS_PHY_CTRL);
thread_sleep(10);
writel_relaxed(readl_relaxed(USB_OTG_HS_PHY_CTRL) & 0xFFFFFFFE,
USB_OTG_HS_PHY_CTRL);
thread_sleep(10);
/* Enable HSUSB PHY port for ULPI interface,
* then configure related parameters within the PHY */
writel_relaxed(((readl_relaxed(USB_PORTSC) & 0xC0000000)
| 0x8c000004), USB_PORTSC);
}
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if (target_needs_vbus_mimic())
{
/* Select and enable external configuration with USB PHY */
ulpi_write(ULPI_MISC_A_VBUSVLDEXTSEL | ULPI_MISC_A_VBUSVLDEXT, ULPI_MISC_A_SET);
/* Enable sess_vld */
val = readl(USB_GENCONFIG_2) | GEN2_SESS_VLD_CTRL_EN;
writel(val, USB_GENCONFIG_2);
/* Enable external vbus configuration in the LINK */
val = readl(USB_USBCMD);
val |= SESS_VLD_CTRL;
writel(val, USB_USBCMD);
}
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}
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uint8_t target_panel_auto_detect_enabled()
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{
switch(board_hardware_id())
{
case HW_PLATFORM_SURF:
case HW_PLATFORM_MTP:
case HW_PLATFORM_FLUID:
return 1;
break;
default:
return 0;
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break;
}
return 0;
}
uint8_t target_is_edp()
{
switch(board_hardware_id())
{
case HW_PLATFORM_LIQUID:
return 1;
break;
default:
return 0;
break;
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}
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return 0;
}
static uint8_t splash_override;
/* Returns 1 if target supports continuous splash screen. */
int target_cont_splash_screen()
{
uint8_t splash_screen = 0;
if(!splash_override) {
switch(board_hardware_id())
{
case HW_PLATFORM_SURF:
case HW_PLATFORM_MTP:
case HW_PLATFORM_FLUID:
case HW_PLATFORM_DRAGON:
case HW_PLATFORM_LIQUID:
dprintf(SPEW, "Target_cont_splash=1\n");
splash_screen = 1;
break;
default:
dprintf(SPEW, "Target_cont_splash=0\n");
splash_screen = 0;
}
}
return splash_screen;
}
void target_force_cont_splash_disable(uint8_t override)
{
splash_override = override;
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}
unsigned target_pause_for_battery_charge(void)
{
/* This function will always return 0 to facilitate
* automated testing/reboot with usb connected.
* uncomment if this feature is needed */
/* if ((pon_reason == USB_CHG) || (pon_reason == DC_CHG))
return 1;*/
return 0;
}
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void target_uninit(void)
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{
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#if MMC_SDHCI_SUPPORT
mmc_put_card_to_sleep(dev);
#else
mmc_put_card_to_sleep();
#endif
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#ifdef SSD_ENABLE
clock_ce_disable(SSD_CE_INSTANCE_1);
#endif
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if (crypto_initialized())
crypto_eng_cleanup();
/* Disable HC mode before jumping to kernel */
sdhci_mode_disable(&dev->host);
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}
void shutdown_device()
{
dprintf(CRITICAL, "Going down for shutdown.\n");
/* Configure PMIC for shutdown. */
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if (platform_is_8974() && (pmic_ver == PM8X41_VERSION_V2))
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pm8x41_v2_reset_configure(PON_PSHOLD_SHUTDOWN);
else
pm8x41_reset_configure(PON_PSHOLD_SHUTDOWN);
/* Drop PS_HOLD for MSM */
writel(0x00, MPM2_MPM_PS_HOLD);
mdelay(5000);
dprintf(CRITICAL, "Shutdown failed\n");
}
static void set_sdc_power_ctrl()
{
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uint8_t tlmm_hdrv_clk = 0;
uint32_t platform_id = 0;
platform_id = board_platform_id();
switch(platform_id)
{
case MSM8274AA:
case MSM8274AB:
case MSM8674AA:
case MSM8674AB:
case MSM8974AA:
case MSM8974AB:
if (board_hardware_id() == HW_PLATFORM_MTP)
tlmm_hdrv_clk = TLMM_CUR_VAL_10MA;
else
tlmm_hdrv_clk = TLMM_CUR_VAL_16MA;
break;
default:
tlmm_hdrv_clk = TLMM_CUR_VAL_16MA;
};
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/* Drive strength configs for sdc pins */
struct tlmm_cfgs sdc1_hdrv_cfg[] =
{
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{ SDC1_CLK_HDRV_CTL_OFF, tlmm_hdrv_clk, TLMM_HDRV_MASK },
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{ SDC1_CMD_HDRV_CTL_OFF, TLMM_CUR_VAL_10MA, TLMM_HDRV_MASK },
{ SDC1_DATA_HDRV_CTL_OFF, TLMM_CUR_VAL_10MA, TLMM_HDRV_MASK },
};
/* Pull configs for sdc pins */
struct tlmm_cfgs sdc1_pull_cfg[] =
{
{ SDC1_CLK_PULL_CTL_OFF, TLMM_NO_PULL, TLMM_PULL_MASK },
{ SDC1_CMD_PULL_CTL_OFF, TLMM_PULL_UP, TLMM_PULL_MASK },
{ SDC1_DATA_PULL_CTL_OFF, TLMM_PULL_UP, TLMM_PULL_MASK },
};
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struct tlmm_cfgs sdc1_rclk_cfg[] =
{
{ SDC1_RCLK_PULL_CTL_OFF, TLMM_PULL_DOWN, TLMM_PULL_MASK },
};
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/* Set the drive strength & pull control values */
tlmm_set_hdrive_ctrl(sdc1_hdrv_cfg, ARRAY_SIZE(sdc1_hdrv_cfg));
tlmm_set_pull_ctrl(sdc1_pull_cfg, ARRAY_SIZE(sdc1_pull_cfg));
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/* RCLK is supported only with 8974 pro, set rclk to pull down
* only for 8974 pro targets
*/
if (!platform_is_8974())
tlmm_set_pull_ctrl(sdc1_rclk_cfg, ARRAY_SIZE(sdc1_rclk_cfg));
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}
int emmc_recovery_init(void)
{
return _emmc_recovery_init();
}
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void target_usb_stop(void)
{
/* Disable VBUS mimicing in the controller. */
if (target_needs_vbus_mimic())
ulpi_write(ULPI_MISC_A_VBUSVLDEXTSEL | ULPI_MISC_A_VBUSVLDEXT, ULPI_MISC_A_CLEAR);
}
/* identify the usb controller to be used for the target */
const char * target_usb_controller()
{
switch(board_platform_id())
{
/* use dwc controller for PRO chips (with some exceptions) */
case MSM8974AA:
case MSM8974AB:
case MSM8974AC:
/* exceptions based on hardware id */
if (board_hardware_id() != HW_PLATFORM_DRAGON && !target_hw_interposer())
return "dwc";
/* fall through to default "ci" for anything that did'nt select "dwc" */
default:
return "ci";
}
}
/* UTMI MUX configuration to connect PHY to SNPS controller:
* Configure primary HS phy mux to use UTMI interface
* (connected to usb30 controller).
*/
static void tcsr_hs_phy_mux_configure(void)
{
uint32_t reg;
reg = readl(USB2_PHY_SEL);
writel(reg | 0x1, USB2_PHY_SEL);
}
/* configure hs phy mux if using dwc controller */
void target_usb_phy_mux_configure(void)
{
if(!strcmp(target_usb_controller(), "dwc"))
{
tcsr_hs_phy_mux_configure();
}
}