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linux-next/arch/arm/mach-msm/board-trout-panel.c
Stephen Boyd 2dfd9c1f77 ARM: msm: Prepare clk_get() users in mach-msm for clock-pcom driver
In the near future we'll be moving clock-pcom to a platform
driver, in which case these two users of clk_get() in mach-msm
need to be updated. Have board-trout-panel.c make the proc_comm
call directly so that we don't have to port this board specific
code to the driver right now and reorder the initcall order of
dma.c so that it initializes after the clock driver probes but
before any drivers use dma APIs.

Signed-off-by: Stephen Boyd <sboyd@codeaurora.org>
Signed-off-by: David Brown <davidb@codeaurora.org>
2013-06-24 13:06:43 -07:00

293 lines
9.3 KiB
C

/* linux/arch/arm/mach-msm/board-trout-mddi.c
** Author: Brian Swetland <swetland@google.com>
*/
#include <linux/gpio.h>
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/platform_device.h>
#include <linux/delay.h>
#include <linux/leds.h>
#include <linux/err.h>
#include <asm/io.h>
#include <asm/mach-types.h>
#include <asm/system_info.h>
#include <linux/platform_data/video-msm_fb.h>
#include <mach/vreg.h>
#include "board-trout.h"
#include "proc_comm.h"
#include "clock-pcom.h"
#include "devices.h"
#define TROUT_DEFAULT_BACKLIGHT_BRIGHTNESS 255
#define MDDI_CLIENT_CORE_BASE 0x108000
#define LCD_CONTROL_BLOCK_BASE 0x110000
#define SPI_BLOCK_BASE 0x120000
#define I2C_BLOCK_BASE 0x130000
#define PWM_BLOCK_BASE 0x140000
#define GPIO_BLOCK_BASE 0x150000
#define SYSTEM_BLOCK1_BASE 0x160000
#define SYSTEM_BLOCK2_BASE 0x170000
#define DPSUS (MDDI_CLIENT_CORE_BASE|0x24)
#define SYSCLKENA (MDDI_CLIENT_CORE_BASE|0x2C)
#define PWM0OFF (PWM_BLOCK_BASE|0x1C)
#define V_VDDE2E_VDD2_GPIO 0
#define MDDI_RST_N 82
#define MDDICAP0 (MDDI_CLIENT_CORE_BASE|0x00)
#define MDDICAP1 (MDDI_CLIENT_CORE_BASE|0x04)
#define MDDICAP2 (MDDI_CLIENT_CORE_BASE|0x08)
#define MDDICAP3 (MDDI_CLIENT_CORE_BASE|0x0C)
#define MDCAPCHG (MDDI_CLIENT_CORE_BASE|0x10)
#define MDCRCERC (MDDI_CLIENT_CORE_BASE|0x14)
#define TTBUSSEL (MDDI_CLIENT_CORE_BASE|0x18)
#define DPSET0 (MDDI_CLIENT_CORE_BASE|0x1C)
#define DPSET1 (MDDI_CLIENT_CORE_BASE|0x20)
#define DPSUS (MDDI_CLIENT_CORE_BASE|0x24)
#define DPRUN (MDDI_CLIENT_CORE_BASE|0x28)
#define SYSCKENA (MDDI_CLIENT_CORE_BASE|0x2C)
#define TESTMODE (MDDI_CLIENT_CORE_BASE|0x30)
#define FIFOMONI (MDDI_CLIENT_CORE_BASE|0x34)
#define INTMONI (MDDI_CLIENT_CORE_BASE|0x38)
#define MDIOBIST (MDDI_CLIENT_CORE_BASE|0x3C)
#define MDIOPSET (MDDI_CLIENT_CORE_BASE|0x40)
#define BITMAP0 (MDDI_CLIENT_CORE_BASE|0x44)
#define BITMAP1 (MDDI_CLIENT_CORE_BASE|0x48)
#define BITMAP2 (MDDI_CLIENT_CORE_BASE|0x4C)
#define BITMAP3 (MDDI_CLIENT_CORE_BASE|0x50)
#define BITMAP4 (MDDI_CLIENT_CORE_BASE|0x54)
#define SRST (LCD_CONTROL_BLOCK_BASE|0x00)
#define PORT_ENB (LCD_CONTROL_BLOCK_BASE|0x04)
#define START (LCD_CONTROL_BLOCK_BASE|0x08)
#define PORT (LCD_CONTROL_BLOCK_BASE|0x0C)
#define CMN (LCD_CONTROL_BLOCK_BASE|0x10)
#define GAMMA (LCD_CONTROL_BLOCK_BASE|0x14)
#define INTFLG (LCD_CONTROL_BLOCK_BASE|0x18)
#define INTMSK (LCD_CONTROL_BLOCK_BASE|0x1C)
#define MPLFBUF (LCD_CONTROL_BLOCK_BASE|0x20)
#define HDE_LEFT (LCD_CONTROL_BLOCK_BASE|0x24)
#define VDE_TOP (LCD_CONTROL_BLOCK_BASE|0x28)
#define PXL (LCD_CONTROL_BLOCK_BASE|0x30)
#define HCYCLE (LCD_CONTROL_BLOCK_BASE|0x34)
#define HSW (LCD_CONTROL_BLOCK_BASE|0x38)
#define HDE_START (LCD_CONTROL_BLOCK_BASE|0x3C)
#define HDE_SIZE (LCD_CONTROL_BLOCK_BASE|0x40)
#define VCYCLE (LCD_CONTROL_BLOCK_BASE|0x44)
#define VSW (LCD_CONTROL_BLOCK_BASE|0x48)
#define VDE_START (LCD_CONTROL_BLOCK_BASE|0x4C)
#define VDE_SIZE (LCD_CONTROL_BLOCK_BASE|0x50)
#define WAKEUP (LCD_CONTROL_BLOCK_BASE|0x54)
#define WSYN_DLY (LCD_CONTROL_BLOCK_BASE|0x58)
#define REGENB (LCD_CONTROL_BLOCK_BASE|0x5C)
#define VSYNIF (LCD_CONTROL_BLOCK_BASE|0x60)
#define WRSTB (LCD_CONTROL_BLOCK_BASE|0x64)
#define RDSTB (LCD_CONTROL_BLOCK_BASE|0x68)
#define ASY_DATA (LCD_CONTROL_BLOCK_BASE|0x6C)
#define ASY_DATB (LCD_CONTROL_BLOCK_BASE|0x70)
#define ASY_DATC (LCD_CONTROL_BLOCK_BASE|0x74)
#define ASY_DATD (LCD_CONTROL_BLOCK_BASE|0x78)
#define ASY_DATE (LCD_CONTROL_BLOCK_BASE|0x7C)
#define ASY_DATF (LCD_CONTROL_BLOCK_BASE|0x80)
#define ASY_DATG (LCD_CONTROL_BLOCK_BASE|0x84)
#define ASY_DATH (LCD_CONTROL_BLOCK_BASE|0x88)
#define ASY_CMDSET (LCD_CONTROL_BLOCK_BASE|0x8C)
#define SSICTL (SPI_BLOCK_BASE|0x00)
#define SSITIME (SPI_BLOCK_BASE|0x04)
#define SSITX (SPI_BLOCK_BASE|0x08)
#define SSIRX (SPI_BLOCK_BASE|0x0C)
#define SSIINTC (SPI_BLOCK_BASE|0x10)
#define SSIINTS (SPI_BLOCK_BASE|0x14)
#define SSIDBG1 (SPI_BLOCK_BASE|0x18)
#define SSIDBG2 (SPI_BLOCK_BASE|0x1C)
#define SSIID (SPI_BLOCK_BASE|0x20)
#define WKREQ (SYSTEM_BLOCK1_BASE|0x00)
#define CLKENB (SYSTEM_BLOCK1_BASE|0x04)
#define DRAMPWR (SYSTEM_BLOCK1_BASE|0x08)
#define INTMASK (SYSTEM_BLOCK1_BASE|0x0C)
#define GPIOSEL (SYSTEM_BLOCK2_BASE|0x00)
#define GPIODATA (GPIO_BLOCK_BASE|0x00)
#define GPIODIR (GPIO_BLOCK_BASE|0x04)
#define GPIOIS (GPIO_BLOCK_BASE|0x08)
#define GPIOIBE (GPIO_BLOCK_BASE|0x0C)
#define GPIOIEV (GPIO_BLOCK_BASE|0x10)
#define GPIOIE (GPIO_BLOCK_BASE|0x14)
#define GPIORIS (GPIO_BLOCK_BASE|0x18)
#define GPIOMIS (GPIO_BLOCK_BASE|0x1C)
#define GPIOIC (GPIO_BLOCK_BASE|0x20)
#define GPIOOMS (GPIO_BLOCK_BASE|0x24)
#define GPIOPC (GPIO_BLOCK_BASE|0x28)
#define GPIOID (GPIO_BLOCK_BASE|0x30)
#define SPI_WRITE(reg, val) \
{ SSITX, 0x00010000 | (((reg) & 0xff) << 8) | ((val) & 0xff) }, \
{ 0, 5 },
#define SPI_WRITE1(reg) \
{ SSITX, (reg) & 0xff }, \
{ 0, 5 },
struct mddi_table {
uint32_t reg;
uint32_t value;
};
static struct mddi_table mddi_toshiba_init_table[] = {
{ DPSET0, 0x09e90046 },
{ DPSET1, 0x00000118 },
{ DPSUS, 0x00000000 },
{ DPRUN, 0x00000001 },
{ 1, 14 }, /* msleep 14 */
{ SYSCKENA, 0x00000001 },
{ CLKENB, 0x0000A1EF }, /* # SYS.CLKENB # Enable clocks for each module (without DCLK , i2cCLK) */
{ GPIODATA, 0x02000200 }, /* # GPI .GPIODATA # GPIO2(RESET_LCD_N) set to 0 , GPIO3(eDRAM_Power) set to 0 */
{ GPIODIR, 0x000030D }, /* 24D # GPI .GPIODIR # Select direction of GPIO port (0,2,3,6,9 output) */
{ GPIOSEL, 0/*0x00000173*/}, /* # SYS.GPIOSEL # GPIO port multiplexing control */
{ GPIOPC, 0x03C300C0 }, /* # GPI .GPIOPC # GPIO2,3 PD cut */
{ WKREQ, 0x00000000 }, /* # SYS.WKREQ # Wake-up request event is VSYNC alignment */
{ GPIOIBE, 0x000003FF },
{ GPIOIS, 0x00000000 },
{ GPIOIC, 0x000003FF },
{ GPIOIE, 0x00000000 },
{ GPIODATA, 0x00040004 }, /* # GPI .GPIODATA # eDRAM VD supply */
{ 1, 1 }, /* msleep 1 */
{ GPIODATA, 0x02040004 }, /* # GPI .GPIODATA # eDRAM VD supply */
{ DRAMPWR, 0x00000001 }, /* eDRAM power */
};
#define GPIOSEL_VWAKEINT (1U << 0)
#define INTMASK_VWAKEOUT (1U << 0)
static int trout_new_backlight = 1;
static struct vreg *vreg_mddi_1v5;
static struct vreg *vreg_lcm_2v85;
static void trout_process_mddi_table(struct msm_mddi_client_data *client_data,
struct mddi_table *table, size_t count)
{
int i;
for (i = 0; i < count; i++) {
uint32_t reg = table[i].reg;
uint32_t value = table[i].value;
if (reg == 0)
udelay(value);
else if (reg == 1)
msleep(value);
else
client_data->remote_write(client_data, value, reg);
}
}
static int trout_mddi_toshiba_client_init(
struct msm_mddi_bridge_platform_data *bridge_data,
struct msm_mddi_client_data *client_data)
{
int panel_id;
client_data->auto_hibernate(client_data, 0);
trout_process_mddi_table(client_data, mddi_toshiba_init_table,
ARRAY_SIZE(mddi_toshiba_init_table));
client_data->auto_hibernate(client_data, 1);
panel_id = (client_data->remote_read(client_data, GPIODATA) >> 4) & 3;
if (panel_id > 1) {
printk(KERN_WARNING "unknown panel id at mddi_enable\n");
return -1;
}
return 0;
}
static int trout_mddi_toshiba_client_uninit(
struct msm_mddi_bridge_platform_data *bridge_data,
struct msm_mddi_client_data *client_data)
{
return 0;
}
static struct resource resources_msm_fb[] = {
{
.start = MSM_FB_BASE,
.end = MSM_FB_BASE + MSM_FB_SIZE,
.flags = IORESOURCE_MEM,
},
};
struct msm_mddi_bridge_platform_data toshiba_client_data = {
.init = trout_mddi_toshiba_client_init,
.uninit = trout_mddi_toshiba_client_uninit,
.fb_data = {
.xres = 320,
.yres = 480,
.width = 45,
.height = 67,
.output_format = 0,
},
};
static struct msm_mddi_platform_data mddi_pdata = {
.clk_rate = 122880000,
.fb_resource = resources_msm_fb,
.num_clients = 1,
.client_platform_data = {
{
.product_id = (0xd263 << 16 | 0),
.name = "mddi_c_d263_0000",
.id = 0,
.client_data = &toshiba_client_data,
.clk_rate = 0,
},
},
};
int __init trout_init_panel(void)
{
int rc;
if (!machine_is_trout())
return 0;
vreg_mddi_1v5 = vreg_get(0, "gp2");
if (IS_ERR(vreg_mddi_1v5))
return PTR_ERR(vreg_mddi_1v5);
vreg_lcm_2v85 = vreg_get(0, "gp4");
if (IS_ERR(vreg_lcm_2v85))
return PTR_ERR(vreg_lcm_2v85);
trout_new_backlight = system_rev >= 5;
if (trout_new_backlight) {
uint32_t config = PCOM_GPIO_CFG(27, 0, GPIO_OUTPUT,
GPIO_NO_PULL, GPIO_8MA);
msm_proc_comm(PCOM_RPC_GPIO_TLMM_CONFIG_EX, &config, 0);
} else {
uint32_t config = PCOM_GPIO_CFG(27, 1, GPIO_OUTPUT,
GPIO_NO_PULL, GPIO_8MA);
uint32_t id = P_GP_CLK;
uint32_t rate = 19200000;
msm_proc_comm(PCOM_RPC_GPIO_TLMM_CONFIG_EX, &config, 0);
msm_proc_comm(PCOM_CLKCTL_RPC_SET_RATE, &id, &rate);
if (id < 0)
pr_err("trout_init_panel: set clock rate failed\n");
}
rc = platform_device_register(&msm_device_mdp);
if (rc)
return rc;
msm_device_mddi0.dev.platform_data = &mddi_pdata;
return platform_device_register(&msm_device_mddi0);
}
device_initcall(trout_init_panel);