void mot_setup_power(void) { unsigned int i; int error; unsigned long pmc_cntrl_0; pmc_cntrl_0 = readl(IO_ADDRESS(TEGRA_PMC_BASE)); printk(KERN_INFO "pICS_%s: pmc_cntrl_0 = 0x%X\n",__func__, pmc_cntrl_0); /* CPCAP standby lines connected to CPCAP GPIOs on Etna P1B & Olympus P2 */ if ( HWREV_TYPE_IS_FINAL(system_rev) || (machine_is_etna() && HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_1B)) || (machine_is_olympus() && HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_2)) || machine_is_tegra_daytona() || machine_is_sunfire()) { tegra_cpcap_data.hwcfg[1] |= CPCAP_HWCFG1_STBY_GPIO; } /* For Olympus P3 the following is done: * 1. VWLAN2 is shutdown in standby by the CPCAP uC. * 2. VWLAN1 is shutdown all of the time. */ if (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_3))) { pr_info("Detected P3 Olympus hardware.\n"); tegra_cpcap_data.hwcfg[1] |= CPCAP_HWCFG1_SEC_STBY_VWLAN2; tegra_cpcap_data.hwcfg[1] &= ~CPCAP_HWCFG1_SEC_STBY_VWLAN1; cpcap_regulator[CPCAP_VWLAN2].constraints.always_on = 0; } else { /* Currently only Olympus P3 or greater can handle turning off the external SD card. */ fixed_sdio_config.enabled_at_boot = 1; } /* Indicate the macro controls SW5. */ tegra_cpcap_leds.rgb_led.regulator_macro_controlled = true; /* For all machine types, disable watchdog when HWREV is debug, brassboard or mortable */ if (HWREV_TYPE_IS_DEBUG(system_rev) || HWREV_TYPE_IS_BRASSBOARD(system_rev) || HWREV_TYPE_IS_MORTABLE(system_rev) ){ tegra_cpcap_data.wdt_disable = 1; } spi_register_board_info(tegra_spi_devices, ARRAY_SIZE(tegra_spi_devices)); for (i = 0; i < sizeof(fixed_regulator_devices)/sizeof(fixed_regulator_devices[0]); i++) { error = platform_device_register(&fixed_regulator_devices[i]); pr_info("Registered reg-fixed-voltage: %d result: %d\n", i, error); } #ifdef CONFIG_REGULATOR_VIRTUAL_CONSUMER (void) platform_device_register(&cpcap_reg_virt_vcam); (void) platform_device_register(&cpcap_reg_virt_vcsi); (void) platform_device_register(&cpcap_reg_virt_vcsi_2); (void) platform_device_register(&cpcap_reg_virt_sw5); #endif }
int __init mot_modem_init(void) { char bp_ctrl_bus[40] = "UART"; char bp_data_bus[20] = "only"; if ((machine_is_olympus() && !(HWREV_TYPE_IS_MORTABLE(system_rev) && HWREV_REV(system_rev) <= HWREV_REV_1)) || (machine_is_etna() && ((HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_2C) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3))) || machine_is_tegra_daytona() || machine_is_sunfire()) { strcat(bp_ctrl_bus, " (with mdm_ctrl)"); mot_mdm_ctrl_init(); mot_mdm6600_agent_init(); } else strcat(bp_ctrl_bus, " (NO mdm_ctrl)"); if (machine_is_olympus() || machine_is_tegra_daytona() || machine_is_sunfire()) { strcpy(bp_data_bus, "and SPI"); mot_setup_mdm6600_spi_ipc(); mot_setup_mdm6600_usb_ipc(0); } else if (machine_is_etna()) { strcpy(bp_data_bus, "and USB"); mot_setup_mdm6600_usb_ipc(MDM6600_HOST_WAKE_GPIO); } /* All hardware at least has MDM6x00 at the moment. */ printk(KERN_INFO "%s: MDM6x00 on %s %s\n", __func__, bp_ctrl_bus, bp_data_bus); if (machine_is_etna() && ((HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_2C) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3))) mot_setup_wrigley_host_wake(); return 0; }
int __init mot_modem_init(void) { char bp_ctrl_bus[40] = "UART"; char bp_data_bus[20] = "only"; if ( !(HWREV_TYPE_IS_MORTABLE(system_rev) && HWREV_REV(system_rev) <= HWREV_REV_1) ) { strcat(bp_ctrl_bus, " (with mdm_ctrl)"); mot_mdm_ctrl_init(); mot_mdm6600_agent_init(); } else strcat(bp_ctrl_bus, " (NO mdm_ctrl)"); strcpy(bp_data_bus, "and SPI"); mot_setup_mdm6600_spi_ipc(); mot_setup_mdm6600_usb_ipc(0); /* All hardware at least has MDM6x00 at the moment. */ printk(KERN_INFO "%s: MDM6x00 on %s %s\n", __func__, bp_ctrl_bus, bp_data_bus); return 0; }
void mot_setup_power(void) { unsigned int i; int error; /* CPCAP standby lines connected to CPCAP GPIOs on Etna P1B & Olympus P2 */ if ( HWREV_TYPE_IS_FINAL(system_rev) || (machine_is_etna() && HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_1B)) || (machine_is_olympus() && HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_2)) || machine_is_tegra_daytona() || machine_is_sunfire()) { tegra_cpcap_data.hwcfg[1] |= CPCAP_HWCFG1_STBY_GPIO; } /* For Olympus P3 the following is done: * 1. VWLAN2 is shutdown in standby by the CPCAP uC. * 2. VWLAN1 is shutdown all of the time. */ if (machine_is_olympus()) { if (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_3))) { pr_info("Detected P3 Olympus hardware.\n"); tegra_cpcap_data.hwcfg[1] |= CPCAP_HWCFG1_SEC_STBY_VWLAN2; tegra_cpcap_data.hwcfg[1] &= ~CPCAP_HWCFG1_SEC_STBY_VWLAN1; cpcap_regulator[CPCAP_VWLAN2].constraints.always_on = 0; } else { /* Currently only Olympus P3 or greater can handle turning off the external SD card. */ fixed_sdio_config.enabled_at_boot = 1; } /* Indicate the macro controls SW5. */ tegra_cpcap_leds.rgb_led.regulator_macro_controlled = true; } /* For Etna the following is done: * 1. VWLAN1 is shutdown all the time for P3B+ * 2. External SDIO can turn off on P2+ and S3+ * 3. SW5 is enabled in the blink macro for <P4FB and brassboard * 4. regulator control for button LED is removed for P2C+ & S3+ (moved to B+) * 5. regulator control for RGB LED is removed for P4FB+ (moved to B+) */ else if (machine_is_etna()) { if ( HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_3B))) { tegra_cpcap_data.hwcfg[1] &= ~CPCAP_HWCFG1_SEC_STBY_VWLAN1; } if ( HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_2)) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_3)) ){ fixed_sdio_config.enabled_at_boot = 0; } else { fixed_sdio_config.enabled_at_boot = 1; } if ( HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_2C)) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_3)) ) { tegra_cpcap_leds.button_led.regulator = NULL; } if ( HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_4FB)) ) { tegra_cpcap_leds.rgb_led.regulator = NULL; } else { tegra_cpcap_leds.rgb_led.regulator_macro_controlled = true; } } /* For Daytona the following is done * 1. VWLAN1 is shutdown all the time */ else if (machine_is_tegra_daytona()) { tegra_cpcap_data.hwcfg[1] &= ~CPCAP_HWCFG1_SEC_STBY_VWLAN1; } /* For Sunfire the following is done * 1. VWLAN1 is shutdown all the time * 2. VWLAN2 is shutdown in standby by the CPCAP uC. * 3. Regulator control for button LED is removed (on B+) * 4. SW5 is enabled in the blink macro */ else if (machine_is_sunfire()) { tegra_cpcap_data.hwcfg[1] |= CPCAP_HWCFG1_SEC_STBY_VWLAN2; tegra_cpcap_data.hwcfg[1] &= ~CPCAP_HWCFG1_SEC_STBY_VWLAN1; cpcap_regulator[CPCAP_VWLAN2].constraints.always_on = 0; tegra_cpcap_leds.button_led.regulator = NULL; tegra_cpcap_leds.rgb_led.regulator_macro_controlled = true; } else { printk(KERN_ERR "Unkown hardware type encountered: 0x%x\n", machine_arch_type); } if ((machine_is_etna() && (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_1)))) || machine_is_tegra_daytona() || machine_is_sunfire()) { printk(KERN_INFO "%s: updating button backlight for portable\n", __func__); tegra_cpcap_leds.button_led.button_reg = CPCAP_REG_ADLC; tegra_cpcap_leds.button_led.button_mask = 0x7FF; tegra_cpcap_leds.button_led.button_on = 0x67F3; } if (machine_is_tegra_daytona()) { /* IKDAYTONA-123 reduce current through 4 android hard keys */ tegra_cpcap_leds.button_led.button_mask = 0x7FF; tegra_cpcap_leds.button_led.button_on = 0x7F1; } /* For all machine types, disable watchdog when HWREV is debug, brassboard or mortable */ if (HWREV_TYPE_IS_DEBUG(system_rev) || HWREV_TYPE_IS_BRASSBOARD(system_rev) || HWREV_TYPE_IS_MORTABLE(system_rev) ){ tegra_cpcap_data.wdt_disable = 1; } spi_register_board_info(tegra_spi_devices, ARRAY_SIZE(tegra_spi_devices)); for (i = 0; i < sizeof(fixed_regulator_devices)/sizeof(fixed_regulator_devices[0]); i++) { error = platform_device_register(&fixed_regulator_devices[i]); pr_info("Registered reg-fixed-voltage: %d result: %d\n", i, error); } #ifdef CONFIG_REGULATOR_VIRTUAL_CONSUMER (void) platform_device_register(&cpcap_reg_virt_vcam); (void) platform_device_register(&cpcap_reg_virt_vcsi); (void) platform_device_register(&cpcap_reg_virt_vcsi_2); (void) platform_device_register(&cpcap_reg_virt_sw5); #endif }
static void __init tegra_mot_init(void) { tegra_common_init(); tegra_setup_nvodm(true, true); tegra_register_socdev(); #ifdef CONFIG_APANIC_RAM apanic_ram_init(); #endif #ifdef CONFIG_APANIC_MMC apanic_mmc_init(); #endif mot_setup_power(); mot_setup_lights(&tegra_i2c_bus0_board_info[BACKLIGHT_DEV]); mot_setup_touch(&tegra_i2c_bus0_board_info[TOUCHSCREEN_DEV]); mot_sec_init(); mot_tcmd_init(); mot_setup_gadget(); if(machine_is_olympus()) { tegra_uart_platform[UART_IPC_OLYMPUS].uart_ipc = 1; tegra_uart_platform[UART_IPC_OLYMPUS].uart_wake_host = TEGRA_GPIO_PA0; tegra_uart_platform[UART_IPC_OLYMPUS].uart_wake_request = TEGRA_GPIO_PF1; tegra_uart_platform[UART_IPC_OLYMPUS].peer_register = mot_mdm_ctrl_peer_register; } else if(machine_is_etna()) { if (HWREV_TYPE_IS_BRASSBOARD(system_rev)) { /* The modem is dead on S2, which makes the UART angry. */ tegra_uart_platform[UART_IPC_ETNA].uart_ipc = 0; tegra_uart_platform[UART_IPC_ETNA].p.irq = ~0; } else { tegra_uart_platform[UART_IPC_ETNA].uart_ipc = 1; tegra_uart_platform[UART_IPC_ETNA].uart_wake_host = TEGRA_GPIO_PA0; tegra_uart_platform[UART_IPC_ETNA].uart_wake_request = TEGRA_GPIO_PF1; tegra_uart_platform[UART_IPC_ETNA].peer_register = mot_mdm_ctrl_peer_register; } } else if(machine_is_tegra_daytona()) { tegra_uart_platform[UART_IPC_DAYTONA].uart_ipc = 1; tegra_uart_platform[UART_IPC_DAYTONA].uart_wake_host = TEGRA_GPIO_PA0; tegra_uart_platform[UART_IPC_DAYTONA].uart_wake_request = TEGRA_GPIO_PF1; tegra_uart_platform[UART_IPC_DAYTONA].peer_register = mot_mdm_ctrl_peer_register; } else if(machine_is_sunfire()) { tegra_uart_platform[UART_IPC_SUNFIRE].uart_ipc = 1; tegra_uart_platform[UART_IPC_SUNFIRE].uart_wake_host = TEGRA_GPIO_PA0; tegra_uart_platform[UART_IPC_SUNFIRE].uart_wake_request = TEGRA_GPIO_PF1; tegra_uart_platform[UART_IPC_SUNFIRE].peer_register = mot_mdm_ctrl_peer_register; } if( (bi_powerup_reason() & PWRUP_FACTORY_CABLE) && (bi_powerup_reason() != PWRUP_INVALID) ){ #ifdef NEED_FACT_BUSY_HINT FactoryBusyHint(); //factory workaround no longer needed #endif } mot_modem_init(); (void) platform_driver_register(&cpcap_usb_connected_driver); #ifdef CONFIG_MOT_WIMAX mot_wimax_gpio_init(); #endif mot_wlan_init(); mot_sensors_init(); mot_nvodmcam_init(); printk("%s: registering i2c devices...\n", __func__); if(!(bi_powerup_reason() & PWRUP_BAREBOARD)) { printk("bus 0: %d devices\n", ARRAY_SIZE(tegra_i2c_bus0_board_info)); i2c_register_board_info(0, tegra_i2c_bus0_board_info, ARRAY_SIZE(tegra_i2c_bus0_board_info)); } if (machine_is_etna() || machine_is_tegra_daytona() || machine_is_sunfire()) { printk("bus 2: %d devices\n", ARRAY_SIZE(tegra_i2c_bus2_board_info)); i2c_register_board_info(2, tegra_i2c_bus2_board_info, ARRAY_SIZE(tegra_i2c_bus2_board_info)); } printk("bus 3: %d devices\n", ARRAY_SIZE(tegra_i2c_bus3_board_info)); i2c_register_board_info(3, tegra_i2c_bus3_board_info, ARRAY_SIZE(tegra_i2c_bus3_board_info)); if (machine_is_olympus()){ /* console UART can be routed to 'headset jack by setting HSJ mux to 0*/ short hsj_mux_gpio=1; if ( HWREV_TYPE_IS_DEBUG(system_rev) ){ printk("%s: Enabling console on headset jack\n", __FUNCTION__); hsj_mux_gpio=0; } mot_set_hsj_mux( hsj_mux_gpio ); } pm_power_off = mot_system_power_off; tegra_setup_bluesleep(); /* Configure SPDIF_OUT as GPIO by default, it can be later controlled as needed. When SPDIF_OUT is enabled and if HDMI is connected, it can interefere with CPCAP ID pin, as SPDIF_OUT and ID are coupled. */ tegra_gpio_enable(TEGRA_GPIO_PD4); gpio_request(TEGRA_GPIO_PD4, "spdif_enable"); gpio_direction_output(TEGRA_GPIO_PD4, 0); gpio_export(TEGRA_GPIO_PD4, false); if (machine_is_olympus() && (HWREV_TYPE_IS_PORTABLE(system_rev) || HWREV_TYPE_IS_FINAL(system_rev))) { if (HWREV_REV(system_rev) >= HWREV_REV_1 && HWREV_REV(system_rev) < HWREV_REV_2) { // Olympus P1 config_unused_pins(oly_unused_pins_p1, ARRAY_SIZE(oly_unused_pins_p1)); } else if (HWREV_REV(system_rev) >= HWREV_REV_2 && HWREV_REV(system_rev) < HWREV_REV_3) { // Olympus P2 config_unused_pins(oly_unused_pins_p2, ARRAY_SIZE(oly_unused_pins_p2)); } else if (HWREV_REV(system_rev) >= HWREV_REV_3 || HWREV_TYPE_IS_FINAL(system_rev)) { // Olympus P3 and newer config_unused_pins(oly_unused_pins_p3, ARRAY_SIZE(oly_unused_pins_p3)); } } if (machine_is_etna()) { if (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) >= HWREV_REV_2) && (HWREV_REV(system_rev) < HWREV_REV_2C)) { config_unused_pins(etna_unused_pins_p2a, ARRAY_SIZE(etna_unused_pins_p2a)); } else if ((HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_2C) || (HWREV_TYPE_IS_MORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3) || HWREV_TYPE_IS_FINAL(system_rev)) { config_unused_pins(etna_unused_pins_p2c, ARRAY_SIZE(etna_unused_pins_p2c)); } } if (machine_is_tegra_daytona()) config_unused_pins(daytona_unused_pins_p1, ARRAY_SIZE(daytona_unused_pins_p1)); if (machine_is_etna() || machine_is_tegra_daytona() || machine_is_sunfire()) // UTS tool support mot_keymap_update_init(); }
int __init mot_nvodmcam_init(void) { int i; memset((unsigned char *)&pdata, 0, sizeof(pdata)); for(i = 0; i < NVODMCAM_MAX_CAMERAS; i++) { UNASSIGN(pdata.camera[i].cam_pd); UNASSIGN(pdata.camera[i].cam_rs); UNASSIGN(pdata.camera[i].flash_rs); } /* ===== ETNA ===== */ if (machine_is_etna()) { pdata.num_cameras = 2; /* camera 0 - back camera */ if (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3B) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3)) { /* Etna P3B+,S3+ -> AP8140 pd=D2,no rs */ SENSOR(pdata.camera[0], AP8140); ASSIGN(pdata.camera[0].cam_pd, D2, 1); } else if (system_rev == HWREV_UNDEFINED || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && HWREV_REV(system_rev) == HWREV_REV_1)) { /* Etna UND,S1 -> OV5650 pd=N5,rs=D2 */ SENSOR(pdata.camera[0], OV5650); ASSIGN(pdata.camera[0].cam_pd, N5, 0); ASSIGN(pdata.camera[0].cam_rs, D2, 1); } else { /* Etna other -> OV5650 pd=BB1,rs=D2 */ SENSOR(pdata.camera[0], OV5650); ASSIGN(pdata.camera[0].cam_pd, BB1, 0); ASSIGN(pdata.camera[0].cam_rs, D2, 1); } /* camera 0 - flash */ if (system_rev == HWREV_UNDEFINED || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && (HWREV_REV(system_rev) == HWREV_REV_1 || HWREV_REV(system_rev) == HWREV_REV_2))) { /* Etna UND,S1,S2 -> LM3554 rs=BB4 */ ASSIGN(pdata.camera[0].flash_rs, BB4, 1); } else { /* Etna other -> LM3554 rs=T3 */ ASSIGN(pdata.camera[0].flash_rs, T3, 1); } /* camera 1 - front camera */ if (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3) || (HWREV_TYPE_IS_BRASSBOARD(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_3)) { /* Etna P3+,S3+ -> OV7739 pd=BB5,rs=L4 */ SENSOR(pdata.camera[1], OV7739); ASSIGN(pdata.camera[1].cam_pd, BB5, 0); ASSIGN(pdata.camera[1].cam_rs, L4, 1); } else { /* Etna other -> OV7692 pd=BB5,no rs */ SENSOR(pdata.camera[1], OV7692); ASSIGN(pdata.camera[1].cam_pd, BB5, 0); } } /* ===== DAYTONA ===== */ else if (machine_is_tegra_daytona()) { pdata.num_cameras = 1; /* camera 0 - back camera */ /* Daytona All HW -> AP8140 pd=D2,no rs */ SENSOR(pdata.camera[0], AP8140); ASSIGN(pdata.camera[0].cam_pd, D2, 1); /* camera 0 - flash */ /* Daytona All HW -> LM3559 rs=T3 */ ASSIGN(pdata.camera[0].flash_rs, T3, 1); } /* ===== SUNFIRE ===== */ else if (machine_is_sunfire()) { pdata.num_cameras = 2; /* camera 0 - back camera */ /* Sunfire All HW -> AP8140 pd=D2,no rs */ SENSOR(pdata.camera[0], AP8140); ASSIGN(pdata.camera[0].cam_pd, D2, 1); /* camera 0 - flash */ /* Daytona All HW -> LM3554 rs=T3 */ ASSIGN(pdata.camera[0].flash_rs, T3, 1); /* camera 1 - front camera */ /* Sunfire All HW -> OV7739 pd=BB5,rs=L4 */ SENSOR(pdata.camera[1], OV7739); ASSIGN(pdata.camera[1].cam_pd, BB5, 0); ASSIGN(pdata.camera[1].cam_rs, L4, 1); } /* ===== OLYMPUS ===== */ else if (machine_is_olympus()) { pdata.num_cameras = 2; /* camera 0 - back camera */ if (system_rev == HWREV_UNDEFINED || (HWREV_TYPE_IS_MORTABLE(system_rev) && (HWREV_REV(system_rev) == HWREV_REV_1 || HWREV_REV(system_rev) == HWREV_REV_1B))) { /* Olympus UND,M1,M1B -> OV5650 pd=N5,rs=D2 */ SENSOR(pdata.camera[0], OV5650); ASSIGN(pdata.camera[0].cam_pd, N5, 0); ASSIGN(pdata.camera[0].cam_rs, D2, 1); } else { /* Olympus other -> OV5650 pd=BB1,rs=D2 */ SENSOR(pdata.camera[0], OV5650); ASSIGN(pdata.camera[0].cam_pd, BB1, 0); ASSIGN(pdata.camera[0].cam_rs, D2, 1); } /* camera 0 - flash */ if (system_rev == HWREV_UNDEFINED || (HWREV_TYPE_IS_MORTABLE(system_rev) && (HWREV_REV(system_rev) == HWREV_REV_1 || HWREV_REV(system_rev) == HWREV_REV_1B)) || (HWREV_TYPE_IS_PORTABLE(system_rev) && (HWREV_REV(system_rev) == HWREV_REV_0))) { /* Olympus UND,M1,M1B,P0 -> LM3554 rs=BB4 */ ASSIGN(pdata.camera[0].flash_rs, BB4, 1); } else { /* Olympus other -> LM3554 rs=T3 */ ASSIGN(pdata.camera[0].flash_rs, T3, 1); } /* camera 1 - front camera */ if (HWREV_TYPE_IS_FINAL(system_rev) || (HWREV_TYPE_IS_PORTABLE(system_rev) && HWREV_REV(system_rev) >= HWREV_REV_2C)) { /* Olympus P2C+ -> SOC380 pd=BB5,rs=L4 */ SENSOR(pdata.camera[1], SOC380); ASSIGN(pdata.camera[1].cam_pd, BB5, 0); ASSIGN(pdata.camera[1].cam_rs, L4, 1); } else { /* Olympus other -> OV7692 pd=BB5,no rs */ SENSOR(pdata.camera[1], OV7692); ASSIGN(pdata.camera[1].cam_pd, BB5, 0); } } else { printk(KERN_ERR "%s: your hw not supported\n", __func__); return -ENODEV; } return platform_device_register(&nvodmcam_platform_device); }