/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include "chip.h" #define CSI2_DATA_STREAM_INTERFACE_GUID \ GUID_INIT(0x8A395669, 0x11F7, 0x4EA9, \ 0x9C, 0x7D, 0x20, 0xEE, 0x0A, 0xB5, 0xCA, 0x40) #define SENSOR_NAME_UUID "822ace8f-2814-4174-a56b-5f029fe079ee" #define SENSOR_TYPE_UUID "26257549-9271-4ca4-bb43-c4899d5a4881" #define DEFAULT_ENDPOINT 0 #define DEFAULT_REMOTE_NAME "\\_SB.PCI0.CIO2" #define CIO2_PCI_DEV 0x14 #define CIO2_PCI_FN 0x3 #define POWER_RESOURCE_NAME "PRIC" #define GUARD_VARIABLE_FORMAT "RES%1d" #define ENABLE_METHOD_FORMAT "ENB%1d" #define DISABLE_METHOD_FORMAT "DSB%1d" #define UNKNOWN_METHOD_FORMAT "UNK%1d" #define CLK_ENABLE_METHOD "MCON" #define CLK_DISABLE_METHOD "MCOF" static struct camera_resource_manager res_mgr; static void resource_set_action_type(struct resource_config *res_config, enum action_type action) { if (res_config) res_config->action = action; } static enum action_type resource_get_action_type(const struct resource_config *res_config) { return res_config ? res_config->action : UNKNOWN_ACTION; } static enum ctrl_type resource_get_ctrl_type(const struct resource_config *res_config) { return res_config ? res_config->type : UNKNOWN_CTRL; } static void resource_set_clk_config(struct resource_config *res_config, const struct clk_config *clk_conf) { if (res_config) { res_config->type = IMGCLK; res_config->clk_conf = clk_conf; } } static const struct clk_config *resource_clk_config(const struct resource_config *res_config) { return res_config ? res_config->clk_conf : NULL; } static void resource_set_gpio_config(struct resource_config *res_config, const struct gpio_config *gpio_conf) { if (res_config) { res_config->type = GPIO; res_config->gpio_conf = gpio_conf; } } static const struct gpio_config *resource_gpio_config(const struct resource_config *res_config) { return res_config ? res_config->gpio_conf : NULL; } /* * This implementation assumes there is only 1 endpoint at each end of every data port. It also * assumes there are no clock lanes. It also assumes that any VCM or NVM for a CAM is on the * same I2C bus as the CAM. */ /* * Adds settings for a CIO2 device (typically at "\_SB.PCI0.CIO2"). A _DSD is added that * specifies a child table for each port (e.g., PRT0 for "port0" and PRT1 for "port1"). Each * PRTx table specifies a table for each endpoint (though only 1 endpoint is supported by this * implementation so the table only has an "endpoint0" that points to a EPx0 table). The EPx0 * table primarily describes the # of lanes in "data-lines" and specifies the name of the other * side in "remote-endpoint" (the name is usually of the form "\_SB.PCI0.I2Cx.CAM0" for the * first port/cam and "\_SB.PCI0.I2Cx.CAM1" if there's a second port/cam). */ static void camera_fill_cio2(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; struct acpi_dp *dsd = acpi_dp_new_table("_DSD"); char *ep_table_name[MAX_PORT_ENTRIES] = {NULL}; char *port_table_name[MAX_PORT_ENTRIES] = {NULL}; char *port_name[MAX_PORT_ENTRIES] = {NULL}; unsigned int i, j; char name[BUS_PATH_MAX]; struct acpi_dp *ep_table = NULL; struct acpi_dp *port_table = NULL; struct acpi_dp *remote = NULL; struct acpi_dp *lanes = NULL; for (i = 0; i < config->cio2_num_ports && i < MAX_PORT_ENTRIES; ++i) { snprintf(name, sizeof(name), "EP%u0", i); ep_table_name[i] = strdup(name); ep_table = acpi_dp_new_table(ep_table_name[i]); acpi_dp_add_integer(ep_table, "endpoint", 0); acpi_dp_add_integer(ep_table, "clock-lanes", 0); if (config->cio2_lanes_used[i] > 0) { lanes = acpi_dp_new_table("data-lanes"); for (j = 1; j <= config->cio2_lanes_used[i] && j <= MAX_PORT_ENTRIES; ++j) acpi_dp_add_integer(lanes, NULL, j); acpi_dp_add_array(ep_table, lanes); } if (config->cio2_lane_endpoint[i]) { remote = acpi_dp_new_table("remote-endpoint"); acpi_dp_add_reference(remote, NULL, config->cio2_lane_endpoint[i]); acpi_dp_add_integer(remote, NULL, 0); acpi_dp_add_integer(remote, NULL, 0); acpi_dp_add_array(ep_table, remote); } snprintf(name, sizeof(name), "PRT%u", i); port_table_name[i] = strdup(name); port_table = acpi_dp_new_table(port_table_name[i]); acpi_dp_add_integer(port_table, "port", config->cio2_prt[i]); acpi_dp_add_child(port_table, "endpoint0", ep_table); snprintf(name, sizeof(name), "port%u", i); port_name[i] = strdup(name); acpi_dp_add_integer(dsd, "is_es", CONFIG(DRIVERS_INTEL_MIPI_SUPPORTS_PRE_PRODUCTION_SOC)); acpi_dp_add_child(dsd, port_name[i], port_table); } acpi_dp_write(dsd); for (i = 0; i < config->cio2_num_ports; ++i) { free(ep_table_name[i]); free(port_table_name[i]); free(port_name[i]); } } static void apply_pld_defaults(struct drivers_intel_mipi_camera_config *config) { if (!config->pld.ignore_color) config->pld.ignore_color = 1; if (!config->pld.visible) config->pld.visible = 1; if (!config->pld.vertical_offset) config->pld.vertical_offset = 0xffff; if (!config->pld.horizontal_offset) config->pld.horizontal_offset = 0xffff; /* * PLD_PANEL_TOP has a value of zero, so the following will change any instance of * PLD_PANEL_TOP to PLD_PANEL_FRONT unless disable_pld_defaults is set. */ if (!config->pld.panel) config->pld.panel = PLD_PANEL_FRONT; /* * PLD_HORIZONTAL_POSITION_LEFT has a value of zero, so the following will change any * instance of that value to PLD_HORIZONTAL_POSITION_CENTER unless disable_pld_defaults * is set. */ if (!config->pld.horizontal_position) config->pld.horizontal_position = PLD_HORIZONTAL_POSITION_CENTER; /* * The desired default for |vertical_position| is PLD_VERTICAL_POSITION_UPPER, which * has a value of zero so no work is needed to set a default. The same applies for * setting |shape| to PLD_SHAPE_ROUND. */ } static void camera_generate_pld(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; if (config->use_pld) { if (!config->disable_pld_defaults) apply_pld_defaults(config); acpigen_write_pld(&config->pld); } } static uint32_t address_for_dev_type(const struct device *dev, uint8_t dev_type) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; uint16_t i2c_bus = dev->upstream ? dev->upstream->secondary : 0xFFFF; uint16_t i2c_addr; switch (dev_type) { case DEV_TYPE_SENSOR: i2c_addr = dev->path.i2c.device; break; case DEV_TYPE_VCM: i2c_addr = config->vcm_address; break; case DEV_TYPE_ROM: i2c_addr = config->rom_address; break; default: return 0; } return (((uint32_t)i2c_bus) << 24 | ((uint32_t)i2c_addr) << 8 | dev_type); } static void camera_generate_dsm(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; int local1_ret = 1 + (config->ssdb.vcm_type ? 1 : 0) + (config->ssdb.rom_type ? 1 : 0); int next_local1 = 1; /* Method (_DSM, 4, NotSerialized) */ acpigen_write_method("_DSM", 4); /* ToBuffer (Arg0, Local0) */ acpigen_write_to_buffer(ARG0_OP, LOCAL0_OP); /* If (LEqual (Local0, ToUUID(uuid))) */ acpigen_write_if(); acpigen_emit_byte(LEQUAL_OP); acpigen_emit_byte(LOCAL0_OP); acpigen_write_uuid(SENSOR_NAME_UUID); acpigen_write_return_string(config->sensor_name ? config->sensor_name : "UNKNOWN"); acpigen_pop_len(); /* If */ /* If (LEqual (Local0, ToUUID(uuid))) */ acpigen_write_if(); acpigen_emit_byte(LEQUAL_OP); acpigen_emit_byte(LOCAL0_OP); acpigen_write_uuid(SENSOR_TYPE_UUID); /* ToInteger (Arg2, Local1) */ acpigen_write_to_integer(ARG2_OP, LOCAL1_OP); /* If (LEqual (Local1, 1)) */ acpigen_write_if_lequal_op_int(LOCAL1_OP, next_local1++); acpigen_write_return_integer(local1_ret); acpigen_pop_len(); /* If Arg2=1 */ /* If (LEqual (Local1, 2)) */ acpigen_write_if_lequal_op_int(LOCAL1_OP, next_local1++); acpigen_write_return_integer(address_for_dev_type(dev, DEV_TYPE_SENSOR)); acpigen_pop_len(); /* If Arg2=2 */ if (config->ssdb.vcm_type) { /* If (LEqual (Local1, 3)) */ acpigen_write_if_lequal_op_int(LOCAL1_OP, next_local1++); acpigen_write_return_integer(address_for_dev_type(dev, DEV_TYPE_VCM)); acpigen_pop_len(); /* If Arg2=3 */ } if (config->ssdb.rom_type) { /* If (LEqual (Local1, 3 or 4)) */ acpigen_write_if_lequal_op_int(LOCAL1_OP, next_local1); acpigen_write_return_integer(address_for_dev_type(dev, DEV_TYPE_ROM)); acpigen_pop_len(); /* If Arg2=3 or 4 */ } acpigen_pop_len(); /* If uuid */ /* Return (Buffer (One) { 0x0 }) */ acpigen_write_return_singleton_buffer(0x0); acpigen_pop_len(); /* Method _DSM */ } static void camera_fill_ssdb_defaults(struct drivers_intel_mipi_camera_config *config) { struct device *cio2 = pcidev_on_root(CIO2_PCI_DEV, CIO2_PCI_FN); struct drivers_intel_mipi_camera_config *cio2_config; if (config->disable_ssdb_defaults) return; guidcpy(&config->ssdb.csi2_data_stream_interface, &CSI2_DATA_STREAM_INTERFACE_GUID); if (!config->ssdb.bdf_value) config->ssdb.bdf_value = PCI_DEVFN(CIO2_PCI_DEV, CIO2_PCI_FN); if (!config->ssdb.platform) config->ssdb.platform = PLATFORM_SKC; if (!config->ssdb.flash_support) config->ssdb.flash_support = FLASH_DISABLE; if (!config->ssdb.privacy_led) config->ssdb.privacy_led = PRIVACY_LED_A_16mA; if (!config->ssdb.mipi_define) config->ssdb.mipi_define = MIPI_INFO_ACPI_DEFINED; if (!config->ssdb.mclk_speed) config->ssdb.mclk_speed = CLK_FREQ_19_2MHZ; if (!config->ssdb.lanes_used) { cio2_config = cio2 ? cio2->chip_info : NULL; if (!cio2_config) { printk(BIOS_ERR, "Failed to get CIO2 config\n"); } else if (cio2_config->device_type != INTEL_ACPI_CAMERA_CIO2) { printk(BIOS_ERR, "Device type isn't CIO2: %u\n", (u32)cio2_config->device_type); } else if (config->ssdb.link_used >= cio2_config->cio2_num_ports) { printk(BIOS_ERR, "%u exceeds CIO2's %u links\n", (u32)config->ssdb.link_used, (u32)cio2_config->cio2_num_ports); } else { config->ssdb.lanes_used = cio2_config->cio2_lanes_used[config->ssdb.link_used]; } } } /* * Adds settings for a camera sensor device (typically at "\_SB.PCI0.I2Cx.CAMy"). The drivers * for Linux tends to expect the camera sensor device and any related nvram / vcm devices to be * separate ACPI devices, while the drivers for Windows want all of these to be grouped * together in the camera sensor ACPI device. This implementation tries to satisfy both, * though the unfortunate tradeoff is that the same I2C address for nvram and vcm is advertised * by multiple devices in ACPI (via "_CRS"). The Windows driver can use the "_DSM" method to * disambiguate the I2C resources in the camera sensor ACPI device. Drivers for Windows * typically query "SSDB" for configuration information (represented as a binary blob dump of * struct), while Linux drivers typically consult individual parameters in "_DSD". * * The tree of tables in "_DSD" is analogous to what's used for the "CIO2" device. The _DSD * specifies a child table for the sensor's port (e.g., PRT0 for "port0"--this implementation * assumes a camera only has 1 port). The PRT0 table specifies a table for each endpoint * (though only 1 endpoint is supported by this implementation so the table only has an * "endpoint0" that points to a EP00 table). The EP00 table primarily describes the # of lanes * in "data-lines", a list of frequencies in "list-frequencies", and specifies the name of the * other side in "remote-endpoint" (typically "\_SB.PCI0.CIO2"). */ static void camera_fill_sensor(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; struct acpi_dp *ep00 = NULL; struct acpi_dp *prt0 = NULL; struct acpi_dp *dsd = NULL; struct acpi_dp *remote = NULL; const char *vcm_name = NULL; struct acpi_dp *lens_focus = NULL; const char *remote_name; struct device *cio2 = pcidev_on_root(CIO2_PCI_DEV, CIO2_PCI_FN); camera_generate_pld(dev); camera_fill_ssdb_defaults(config); /* _DSM */ camera_generate_dsm(dev); ep00 = acpi_dp_new_table("EP00"); acpi_dp_add_integer(ep00, "endpoint", DEFAULT_ENDPOINT); acpi_dp_add_integer(ep00, "clock-lanes", 0); if (config->ssdb.lanes_used > 0) { struct acpi_dp *lanes = acpi_dp_new_table("data-lanes"); uint32_t i; for (i = 1; i <= config->ssdb.lanes_used; ++i) acpi_dp_add_integer(lanes, NULL, i); acpi_dp_add_array(ep00, lanes); } if (config->num_freq_entries) { struct acpi_dp *freq = acpi_dp_new_table("link-frequencies"); uint32_t i; for (i = 0; i < config->num_freq_entries && i < MAX_LINK_FREQ_ENTRIES; ++i) acpi_dp_add_integer(freq, NULL, config->link_freq[i]); acpi_dp_add_array(ep00, freq); } remote = acpi_dp_new_table("remote-endpoint"); if (config->remote_name) { remote_name = config->remote_name; } else { if (cio2) remote_name = acpi_device_path(cio2); else remote_name = DEFAULT_REMOTE_NAME; } acpi_dp_add_reference(remote, NULL, remote_name); acpi_dp_add_integer(remote, NULL, config->ssdb.link_used); acpi_dp_add_integer(remote, NULL, DEFAULT_ENDPOINT); acpi_dp_add_array(ep00, remote); prt0 = acpi_dp_new_table("PRT0"); acpi_dp_add_integer(prt0, "port", 0); acpi_dp_add_child(prt0, "endpoint0", ep00); dsd = acpi_dp_new_table("_DSD"); acpi_dp_add_integer(dsd, "clock-frequency", config->ssdb.mclk_speed); if (config->ssdb.degree) acpi_dp_add_integer(dsd, "rotation", 180); if (config->ssdb.vcm_type) { if (config->vcm_name) { vcm_name = config->vcm_name; } else { const struct device_path path = { .type = DEVICE_PATH_I2C, .i2c.device = config->vcm_address, }; struct device *vcm_dev = find_dev_path(dev->upstream, &path); struct drivers_intel_mipi_camera_config *vcm_config; vcm_config = vcm_dev ? vcm_dev->chip_info : NULL; if (!vcm_config) printk(BIOS_ERR, "Failed to get VCM\n"); else if (vcm_config->device_type != INTEL_ACPI_CAMERA_VCM) printk(BIOS_ERR, "Device isn't VCM\n"); else vcm_name = acpi_device_path(vcm_dev); } } if (vcm_name) { lens_focus = acpi_dp_new_table("lens-focus"); acpi_dp_add_reference(lens_focus, NULL, vcm_name); acpi_dp_add_array(dsd, lens_focus); } if (config->low_power_probe) acpi_dp_add_integer(dsd, "i2c-allow-low-power-probe", 0x01); acpi_dp_add_child(dsd, "port0", prt0); acpi_dp_write(dsd); acpigen_write_method_serialized("SSDB", 0); acpigen_write_return_byte_buffer((uint8_t *)&config->ssdb, sizeof(config->ssdb)); acpigen_pop_len(); /* Method */ /* Fill Power Sequencing Data */ if (config->num_pwdb_entries > 0) { acpigen_write_method_serialized("PWDB", 0); acpigen_write_return_byte_buffer((uint8_t *)&config->pwdb, sizeof(struct intel_pwdb) * config->num_pwdb_entries); acpigen_pop_len(); /* Method */ } } static void camera_fill_nvm(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; struct acpi_dp *dsd; if (!config->nvm_compat) return; dsd = acpi_dp_new_table("_DSD"); /* It might be possible to default size or width based on type. */ if (!config->disable_nvm_defaults && !config->nvm_pagesize) config->nvm_pagesize = 1; if (!config->disable_nvm_defaults && !config->nvm_readonly) config->nvm_readonly = 1; if (config->nvm_size) acpi_dp_add_integer(dsd, "size", config->nvm_size); if (config->nvm_pagesize) acpi_dp_add_integer(dsd, "pagesize", config->nvm_pagesize); if (config->nvm_readonly) acpi_dp_add_integer(dsd, "read-only", config->nvm_readonly); if (config->nvm_width) acpi_dp_add_integer(dsd, "address-width", config->nvm_width); acpi_dp_add_string(dsd, "compatible", config->nvm_compat); if (config->low_power_probe) acpi_dp_add_integer(dsd, "i2c-allow-low-power-probe", 0x01); acpi_dp_write(dsd); } static void camera_fill_vcm(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; struct acpi_dp *dsd; if (!config->vcm_compat) return; dsd = acpi_dp_new_table("_DSD"); acpi_dp_add_string(dsd, "compatible", config->vcm_compat); if (config->low_power_probe) acpi_dp_add_integer(dsd, "i2c-allow-low-power-probe", 0x01); acpi_dp_write(dsd); } static int get_resource_index(const struct resource_config *res_config) { enum ctrl_type type = resource_get_ctrl_type(res_config); const struct clk_config *clk_config; const struct gpio_config *gpio_config; unsigned int i; uint8_t res_id; switch (type) { case IMGCLK: clk_config = resource_clk_config(res_config); res_id = clk_config->clknum; break; case GPIO: gpio_config = resource_gpio_config(res_config); res_id = gpio_config->gpio_num; break; default: printk(BIOS_ERR, "Unsupported power operation: %x\n" "OS camera driver will likely not work", type); return -1; } for (i = 0; i < res_mgr.cnt; i++) if (res_mgr.resource[i].type == type && res_mgr.resource[i].id == res_id) return i; return -1; } static void add_guarded_method_namestring(struct resource_config *res_config, int res_index) { char method_name[ACPI_NAME_BUFFER_SIZE]; enum action_type action = resource_get_action_type(res_config); switch (action) { case ENABLE: snprintf(method_name, sizeof(method_name), ENABLE_METHOD_FORMAT, res_index); break; case DISABLE: snprintf(method_name, sizeof(method_name), DISABLE_METHOD_FORMAT, res_index); break; default: snprintf(method_name, sizeof(method_name), UNKNOWN_METHOD_FORMAT, res_index); printk(BIOS_ERR, "Unsupported resource action: %x\n", action); } acpigen_emit_namestring(method_name); } static void call_guarded_method(struct resource_config *res_config) { int res_index; if (res_config == NULL) return; res_index = get_resource_index(res_config); if (res_index != -1) add_guarded_method_namestring(res_config, res_index); } static void add_clk_op(const struct clk_config *clk_config, enum action_type action) { if (clk_config == NULL) return; switch (action) { case ENABLE: acpigen_write_if(); acpigen_emit_ext_op(COND_REFOF_OP); acpigen_emit_string(CLK_ENABLE_METHOD); acpigen_emit_namestring(CLK_ENABLE_METHOD); acpigen_write_integer(clk_config->clknum); acpigen_write_integer(clk_config->freq); acpigen_pop_len(); /* CondRefOf */ break; case DISABLE: acpigen_write_if(); acpigen_emit_ext_op(COND_REFOF_OP); acpigen_emit_string(CLK_DISABLE_METHOD); acpigen_emit_namestring(CLK_DISABLE_METHOD); acpigen_write_integer(clk_config->clknum); acpigen_pop_len(); /* CondRefOf */ break; default: acpigen_write_debug_string("Unsupported clock action"); printk(BIOS_ERR, "Unsupported clock action: %x\n" "OS camera driver will likely not work", action); } } static void add_gpio_op(const struct gpio_config *gpio_config, enum action_type action) { if (gpio_config == NULL) return; switch (action) { case ENABLE: acpigen_soc_set_tx_gpio(gpio_config->gpio_num); break; case DISABLE: acpigen_soc_clear_tx_gpio(gpio_config->gpio_num); break; default: acpigen_write_debug_string("Unsupported GPIO action"); printk(BIOS_ERR, "Unsupported GPIO action: %x\n" "OS camera driver will likely not work\n", action); } } static void add_power_operation(const struct resource_config *res_config) { const struct clk_config *clk_config; const struct gpio_config *gpio_config; enum ctrl_type type = resource_get_ctrl_type(res_config); enum action_type action = resource_get_action_type(res_config); if (res_config == NULL) return; switch (type) { case IMGCLK: clk_config = resource_clk_config(res_config); add_clk_op(clk_config, action); break; case GPIO: gpio_config = resource_gpio_config(res_config); add_gpio_op(gpio_config, action); break; default: printk(BIOS_ERR, "Unsupported power operation: %x\n" "OS camera driver will likely not work\n", type); break; } } static void write_guard_variable(uint8_t res_index) { char varname[ACPI_NAME_BUFFER_SIZE]; snprintf(varname, sizeof(varname), GUARD_VARIABLE_FORMAT, res_index); acpigen_write_name_integer(varname, 0); } static void write_enable_method(struct resource_config *res_config, uint8_t res_index) { char method_name[ACPI_NAME_BUFFER_SIZE]; char varname[ACPI_NAME_BUFFER_SIZE]; snprintf(varname, sizeof(varname), GUARD_VARIABLE_FORMAT, res_index); snprintf(method_name, sizeof(method_name), ENABLE_METHOD_FORMAT, res_index); acpigen_write_method_serialized(method_name, 0); acpigen_write_if_lequal_namestr_int(varname, 0); resource_set_action_type(res_config, ENABLE); add_power_operation(res_config); acpigen_pop_len(); /* if */ acpigen_emit_byte(INCREMENT_OP); acpigen_emit_namestring(varname); acpigen_pop_len(); /* method_name */ } static void write_disable_method(struct resource_config *res_config, uint8_t res_index) { char method_name[ACPI_NAME_BUFFER_SIZE]; char varname[ACPI_NAME_BUFFER_SIZE]; snprintf(varname, sizeof(varname), GUARD_VARIABLE_FORMAT, res_index); snprintf(method_name, sizeof(method_name), DISABLE_METHOD_FORMAT, res_index); acpigen_write_method_serialized(method_name, 0); acpigen_write_if(); acpigen_emit_byte(LGREATER_OP); acpigen_emit_namestring(varname); acpigen_write_integer(0x0); acpigen_emit_byte(DECREMENT_OP); acpigen_emit_namestring(varname); acpigen_pop_len(); /* if */ acpigen_write_if_lequal_namestr_int(varname, 0); resource_set_action_type(res_config, DISABLE); add_power_operation(res_config); acpigen_pop_len(); /* if */ acpigen_pop_len(); /* method_name */ } static void add_guarded_operations(const struct drivers_intel_mipi_camera_config *config, const struct operation_seq *seq) { unsigned int i; uint8_t index; uint8_t res_id; struct resource_config res_config; int res_index; for (i = 0; i < seq->ops_cnt && i < MAX_PWR_OPS; i++) { index = seq->ops[i].index; switch (seq->ops[i].type) { case IMGCLK: res_id = config->clk_panel.clks[index].clknum; resource_set_clk_config(&res_config, &config->clk_panel.clks[index]); break; case GPIO: res_id = config->gpio_panel.gpio[index].gpio_num; resource_set_gpio_config(&res_config, &config->gpio_panel.gpio[index]); break; default: printk(BIOS_ERR, "Unsupported power operation: %x\n" "OS camera driver will likely not work\n", seq->ops[i].type); return; } res_index = get_resource_index(&res_config); if (res_index == -1) { if (res_mgr.cnt >= MAX_GUARDED_RESOURCES) { printk(BIOS_ERR, "Unable to add guarded camera resource\n" "OS camera driver will likely not work\n"); return; } res_mgr.resource[res_mgr.cnt].id = res_id; res_mgr.resource[res_mgr.cnt].type = seq->ops[i].type; write_guard_variable(res_mgr.cnt); write_enable_method(&res_config, res_mgr.cnt); write_disable_method(&res_config, res_mgr.cnt); res_mgr.cnt++; } } } static void fill_power_res_sequence(struct drivers_intel_mipi_camera_config *config, struct operation_seq *seq) { struct resource_config res_config; unsigned int i; uint8_t index; for (i = 0; i < seq->ops_cnt && i < MAX_PWR_OPS; i++) { index = seq->ops[i].index; switch (seq->ops[i].type) { case IMGCLK: resource_set_clk_config(&res_config, &config->clk_panel.clks[index]); break; case GPIO: resource_set_gpio_config(&res_config, &config->gpio_panel.gpio[index]); break; default: printk(BIOS_ERR, "Unsupported power operation: %x\n" "OS camera driver will likely not work\n", seq->ops[i].type); return; } resource_set_action_type(&res_config, seq->ops[i].action); call_guarded_method(&res_config); if (seq->ops[i].delay_ms) acpigen_write_sleep(seq->ops[i].delay_ms); } } static void write_pci_camera_device(const struct device *dev) { if (dev->path.type != DEVICE_PATH_PCI) { printk(BIOS_ERR, "CIO2/IMGU devices require PCI\n"); return; } acpigen_write_device(acpi_device_name(dev)); acpigen_write_ADR_pci_device(dev); acpigen_write_name_string("_DDN", "Camera and Imaging Subsystem"); } static void write_i2c_camera_device(const struct device *dev, const char *scope) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; struct acpi_i2c i2c = { .address = dev->path.i2c.device, .mode_10bit = dev->path.i2c.mode_10bit, .speed = I2C_SPEED_FAST, .resource = scope, }; acpigen_write_device(acpi_device_name(dev)); /* add power resource */ if (config->has_power_resource) { acpigen_write_power_res(POWER_RESOURCE_NAME, 0, 0, NULL, 0); acpigen_write_name_integer("STA", 0); acpigen_write_STA_ext("STA"); acpigen_write_method_serialized("_ON", 0); acpigen_write_if(); acpigen_emit_byte(LEQUAL_OP); acpigen_emit_namestring("STA"); acpigen_write_integer(0); fill_power_res_sequence(config, &config->on_seq); acpigen_write_store_op_to_namestr(1, "STA"); acpigen_pop_len(); /* if */ acpigen_pop_len(); /* _ON */ /* _OFF operations */ acpigen_write_method_serialized("_OFF", 0); acpigen_write_if(); acpigen_emit_byte(LEQUAL_OP); acpigen_emit_namestring("STA"); acpigen_write_integer(1); fill_power_res_sequence(config, &config->off_seq); acpigen_write_store_op_to_namestr(0, "STA"); acpigen_pop_len(); /* if */ acpigen_pop_len(); /* _ON */ acpigen_pop_len(); /* Power Resource */ } if (config->device_type == INTEL_ACPI_CAMERA_SENSOR) acpigen_write_name_integer("_ADR", 0); if (config->acpi_hid) acpigen_write_name_string("_HID", config->acpi_hid); else if (config->device_type == INTEL_ACPI_CAMERA_VCM || config->device_type == INTEL_ACPI_CAMERA_NVM) acpigen_write_name_string("_HID", ACPI_DT_NAMESPACE_HID); acpigen_write_name_integer("_UID", config->acpi_uid); acpigen_write_name_string("_DDN", config->chip_name); acpigen_write_STA(acpi_device_status(dev)); acpigen_write_method("_DSC", 0); acpigen_write_return_integer(config->max_dstate_for_probe); acpigen_pop_len(); /* Method _DSC */ /* Resources */ acpigen_write_name("_CRS"); acpigen_write_resourcetemplate_header(); acpi_device_write_i2c(&i2c); /* * The optional vcm/nvram devices are presumed to be on the same I2C bus as the camera * sensor. */ if (config->device_type == INTEL_ACPI_CAMERA_SENSOR && config->ssdb.vcm_type && config->vcm_address) { struct acpi_i2c i2c_vcm = i2c; i2c_vcm.address = config->vcm_address; acpi_device_write_i2c(&i2c_vcm); } if (config->device_type == INTEL_ACPI_CAMERA_SENSOR && config->ssdb.rom_type && config->rom_address) { struct acpi_i2c i2c_rom = i2c; i2c_rom.address = config->rom_address; acpi_device_write_i2c(&i2c_rom); } acpigen_write_resourcetemplate_footer(); } static void write_camera_device_common(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; /* Mark it as Camera related device */ if (config->device_type == INTEL_ACPI_CAMERA_CIO2 || config->device_type == INTEL_ACPI_CAMERA_IMGU || config->device_type == INTEL_ACPI_CAMERA_SENSOR || config->device_type == INTEL_ACPI_CAMERA_VCM) { acpigen_write_name_integer("CAMD", config->device_type); } if (config->pr0 || config->has_power_resource) { acpigen_write_name("_PR0"); acpigen_write_package(1); if (config->pr0) acpigen_emit_namestring(config->pr0); /* External power resource */ else acpigen_emit_namestring(POWER_RESOURCE_NAME); acpigen_pop_len(); /* _PR0 */ } switch (config->device_type) { case INTEL_ACPI_CAMERA_CIO2: camera_fill_cio2(dev); break; case INTEL_ACPI_CAMERA_SENSOR: camera_fill_sensor(dev); break; case INTEL_ACPI_CAMERA_VCM: camera_fill_vcm(dev); break; case INTEL_ACPI_CAMERA_NVM: camera_fill_nvm(dev); break; default: break; } } static void camera_fill_ssdt(const struct device *dev) { struct drivers_intel_mipi_camera_config *config = dev->chip_info; const char *scope = NULL; const struct device *pdev; if (config->has_power_resource) { pdev = dev->upstream->dev; if (!pdev || !pdev->enabled) return; scope = acpi_device_scope(pdev); if (!scope) return; acpigen_write_scope(scope); add_guarded_operations(config, &config->on_seq); add_guarded_operations(config, &config->off_seq); acpigen_pop_len(); /* Guarded power resource operations scope */ } switch (dev->path.type) { case DEVICE_PATH_I2C: scope = acpi_device_scope(dev); if (!scope) return; acpigen_write_scope(scope); write_i2c_camera_device(dev, scope); break; case DEVICE_PATH_GENERIC: pdev = dev->upstream->dev; scope = acpi_device_scope(pdev); if (!scope) return; acpigen_write_scope(scope); write_pci_camera_device(pdev); break; default: printk(BIOS_ERR, "Unsupported device type: %x\n" "OS camera driver will likely not work\n", dev->path.type); return; } write_camera_device_common(dev); acpigen_pop_len(); /* Device */ acpigen_pop_len(); /* Scope */ if (dev->path.type == DEVICE_PATH_PCI) { printk(BIOS_INFO, "%s: %s PCI address 0%x\n", acpi_device_path(dev), dev->chip_ops->name, dev->path.pci.devfn); } else { printk(BIOS_INFO, "%s: %s I2C address 0%xh\n", acpi_device_path(dev), dev->chip_ops->name, dev->path.i2c.device); } } static const char *camera_acpi_name(const struct device *dev) { const char *prefix = NULL; static char name[ACPI_NAME_BUFFER_SIZE]; struct drivers_intel_mipi_camera_config *config = dev->chip_info; if (config->acpi_name) return config->acpi_name; switch (config->device_type) { case INTEL_ACPI_CAMERA_CIO2: return "CIO2"; case INTEL_ACPI_CAMERA_IMGU: return "IMGU"; case INTEL_ACPI_CAMERA_PMIC: return "PMIC"; case INTEL_ACPI_CAMERA_SENSOR: prefix = "CAM"; break; case INTEL_ACPI_CAMERA_VCM: prefix = "VCM"; break; case INTEL_ACPI_CAMERA_NVM: prefix = "NVM"; break; default: printk(BIOS_ERR, "Invalid device type: %x\n", config->device_type); return NULL; } /* * The camera # knows which link # they use, so that's used as the basis for the * instance #. The VCM and NVM don't have this information, so the best we can go on is * the _UID. */ snprintf(name, sizeof(name), "%s%1u", prefix, config->device_type == INTEL_ACPI_CAMERA_SENSOR ? config->ssdb.link_used : config->acpi_uid); return name; } static struct device_operations camera_ops = { .read_resources = noop_read_resources, .set_resources = noop_set_resources, .acpi_name = camera_acpi_name, .acpi_fill_ssdt = camera_fill_ssdt, }; static void camera_enable(struct device *dev) { dev->ops = &camera_ops; } struct chip_operations drivers_intel_mipi_camera_ops = { .name = "Intel MIPI Camera Device", .enable_dev = camera_enable };