/* SPDX-License-Identifier: GPL-2.0-only */ #ifndef __INTEL_MIPI_CAMERA_CHIP_H__ #define __INTEL_MIPI_CAMERA_CHIP_H__ #include #include #include #define DEFAULT_LINK_FREQ 450000000 #define MAX_PWDB_ENTRIES 12 #define MAX_PORT_ENTRIES 4 #define MAX_LINK_FREQ_ENTRIES 4 #define MAX_CLK_CONFIGS 2 #define MAX_GPIO_CONFIGS 4 #define MAX_PWR_OPS 6 #define MAX_GUARDED_RESOURCES 10 #define IMGCLKOUT_0 0 #define IMGCLKOUT_1 1 #define IMGCLKOUT_2 2 #define IMGCLKOUT_3 3 #define IMGCLKOUT_4 4 #define IMGCLKOUT_5 5 #define FREQ_24_MHZ 0 #define FREQ_19_2_MHZ 1 #define SEQ_OPS_CLK_ENABLE(ind, delay) \ { .type = IMGCLK, .index = (ind), .action = ENABLE, .delay_ms = (delay) } #define SEQ_OPS_CLK_DISABLE(ind, delay) \ { .type = IMGCLK, .index = (ind), .action = DISABLE, .delay_ms = (delay) } #define SEQ_OPS_GPIO_ENABLE(ind, delay) \ { .type = GPIO, .index = (ind), .action = ENABLE, .delay_ms = (delay) } #define SEQ_OPS_GPIO_DISABLE(ind, delay) \ { .type = GPIO, .index = (ind), .action = DISABLE, .delay_ms = (delay) } enum camera_device_type { DEV_TYPE_SENSOR = 0, DEV_TYPE_VCM, DEV_TYPE_ROM }; enum intel_camera_platform_type { PLATFORM_SKC = 9, PLATFORM_CNL = 10 }; enum intel_camera_flash_type { FLASH_DEFAULT = 0, FLASH_DISABLE = 2, FLASH_ENABLE = 3 }; enum intel_camera_led_type { PRIVACY_LED_DEFAULT = 0, PRIVACY_LED_A_16mA }; enum intel_camera_mipi_info { MIPI_INFO_SENSOR_DRIVER = 0, MIPI_INFO_ACPI_DEFINED }; #define CLK_FREQ_19_2MHZ 19200000 #define CLK_FREQ_24MHZ 24000000 #define CLK_FREQ_20MHZ 20000000 enum intel_camera_device_type { INTEL_ACPI_CAMERA_CIO2, INTEL_ACPI_CAMERA_IMGU, INTEL_ACPI_CAMERA_SENSOR, INTEL_ACPI_CAMERA_VCM, INTEL_ACPI_CAMERA_NVM, INTEL_ACPI_CAMERA_PMIC = 100, }; enum intel_power_action_type { INTEL_ACPI_CAMERA_REGULATOR, INTEL_ACPI_CAMERA_CLK, INTEL_ACPI_CAMERA_GPIO, }; enum ctrl_type { UNKNOWN_CTRL, IMGCLK, GPIO }; enum action_type { UNKNOWN_ACTION, ENABLE, DISABLE }; struct camera_resource { uint8_t type; uint8_t id; }; struct camera_resource_manager { uint8_t cnt; struct camera_resource resource[MAX_GUARDED_RESOURCES]; }; struct resource_config { enum action_type action; enum ctrl_type type; union { const struct clk_config *clk_conf; const struct gpio_config *gpio_conf; }; }; struct clk_config { /* IMGCLKOUT_x being used for a port */ uint8_t clknum; /* frequency setting: 0:24MHz, 1:19.2 MHz */ uint8_t freq; }; struct gpio_config { uint16_t gpio_num; }; struct clock_ctrl_panel { struct clk_config clks[MAX_CLK_CONFIGS]; }; struct gpio_ctrl_panel { struct gpio_config gpio[MAX_GPIO_CONFIGS]; }; struct operation_type { enum ctrl_type type; uint8_t index; enum action_type action; uint32_t delay_ms; }; struct operation_seq { struct operation_type ops[MAX_PWR_OPS]; uint8_t ops_cnt; }; struct intel_ssdb { uint8_t version; /* Current version */ uint8_t sensor_card_sku; /* CRD Board type */ guid_t csi2_data_stream_interface; /* CSI2 data stream GUID */ uint16_t bdf_value; /* Bus number of the host controller */ uint32_t dphy_link_en_fuses; /* Host controller's fuses information used to verify if link is fused out or not */ uint32_t lanes_clock_division; /* Lanes/clock divisions per sensor */ uint8_t link_used; /* Link used by this sensor stream */ uint8_t lanes_used; /* Number of lanes connected for the sensor */ uint32_t csi_rx_dly_cnt_termen_clane; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_settle_clane; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_termen_dlane0; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_settle_dlane0; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_termen_dlane1; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_settle_dlane1; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_termen_dlane2; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_settle_dlane2; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_termen_dlane3; /* MIPI timing information */ uint32_t csi_rx_dly_cnt_settle_dlane3; /* MIPI timing information */ uint32_t max_lane_speed; /* Maximum lane speed for the sensor */ uint8_t sensor_cal_file_idx; /* Legacy field for sensor calibration file index */ uint8_t sensor_cal_file_idx_mbz[3]; /* Legacy field for sensor calibration file index */ uint8_t rom_type; /* NVM type of the camera module */ uint8_t vcm_type; /* VCM type of the camera module */ uint8_t platform; /* Platform information */ uint8_t platform_sub; /* Platform sub-categories */ uint8_t flash_support; /* Enable/disable flash support */ uint8_t privacy_led; /* Privacy LED support */ uint8_t degree; /* Camera Orientation */ uint8_t mipi_define; /* MIPI info defined in ACPI or sensor driver */ uint32_t mclk_speed; /* Clock info for sensor */ uint32_t mclk; /* Clock info for sensor */ uint8_t control_logic_id; /* PMIC device node used for the camera sensor */ uint8_t mipi_data_format; /* MIPI data format */ uint8_t silicon_version; /* Silicon version */ uint8_t customer_id; /* Customer ID */ uint8_t mclk_port; uint8_t reserved[13]; /* Pads SSDB out so the binary blob in ACPI is the same size as seen on other firmwares.*/ } __packed; struct intel_pwdb { char name[32]; /* Name of the resource required by the power action */ uint32_t value; /* The value to be set for the power action */ uint32_t entry_type; /* The type of the current power action */ uint32_t delay_usec; /* The delay time after which power action is performed and this is in unit of usec */ } __packed; struct drivers_intel_mipi_camera_config { struct clock_ctrl_panel clk_panel; struct gpio_ctrl_panel gpio_panel; struct operation_seq on_seq; struct operation_seq off_seq; struct intel_ssdb ssdb; struct intel_pwdb pwdb[MAX_PWDB_ENTRIES]; enum intel_camera_device_type device_type; uint8_t num_pwdb_entries; const char *acpi_hid; const char *acpi_name; const char *chip_name; unsigned int acpi_uid; const char *pr0; /* Settings specific to CIO2 device */ uint32_t cio2_num_ports; uint32_t cio2_lanes_used[MAX_PORT_ENTRIES]; const char *cio2_lane_endpoint[MAX_PORT_ENTRIES]; uint32_t cio2_prt[MAX_PORT_ENTRIES]; /* Settings specific to camera sensor */ bool disable_ssdb_defaults; uint8_t num_freq_entries; /* # of elements in link_freq */ uint32_t link_freq[MAX_LINK_FREQ_ENTRIES]; const char *sensor_name; /* default "UNKNOWN" */ const char *remote_name; /* default "\_SB.PCI0.CIO2" */ const char *vcm_name; /* defaults to |vcm_address| device */ bool use_pld; bool disable_pld_defaults; struct acpi_pld pld; uint16_t rom_address; /* I2C to use if ssdb.rom_type != 0 */ uint16_t vcm_address; /* I2C to use if ssdb.vcm_type != 0 */ /* * Settings specific to nvram. Many values, if left as zero, will be assigned a default. * Set disable_nvm_defaults to non-zero if you want to disable the defaulting behavior * so you can use zero for a value. */ bool disable_nvm_defaults; uint32_t nvm_size; uint32_t nvm_pagesize; uint32_t nvm_readonly; uint32_t nvm_width; const char *nvm_compat; /* Settings specific to vcm */ const char *vcm_compat; /* Does the device have a power resource entries */ bool has_power_resource; /* Perform low power probe */ bool low_power_probe; /* * This will create a _DSC method in ACPI which returns an integer, to tell the kernel * the highest allowed D state for a device during probe * Number State Description * 0 D0 Device fully powered on * 1 D1 * 2 D2 * 3 D3hot * 4 D3cold Off */ uint8_t max_dstate_for_probe; }; #endif