| .. SPDX-License-Identifier: GPL-2.0+ |
| |
| Compiled-in Device Tree / Platform Data |
| ======================================= |
| |
| |
| Introduction |
| ------------ |
| |
| Device tree is the standard configuration method in U-Boot. It is used to |
| define what devices are in the system and provide configuration information |
| to these devices. |
| |
| The overhead of adding devicetree access to U-Boot is fairly modest, |
| approximately 3KB on Thumb 2 (plus the size of the DT itself). This means |
| that in most cases it is best to use devicetree for configuration. |
| |
| However there are some very constrained environments where U-Boot needs to |
| work. These include SPL with severe memory limitations. For example, some |
| SoCs require a 16KB SPL image which must include a full MMC stack. In this |
| case the overhead of devicetree access may be too great. |
| |
| It is possible to create platform data manually by defining C structures |
| for it, and reference that data in a `U_BOOT_DRVINFO()` declaration. This |
| bypasses the use of devicetree completely, effectively creating a parallel |
| configuration mechanism. But it is an available option for SPL. |
| |
| As an alternative, the 'of-platdata' feature is provided. This converts the |
| devicetree contents into C code which can be compiled into the SPL binary. |
| This saves the 3KB of code overhead and perhaps a few hundred more bytes due |
| to more efficient storage of the data. |
| |
| |
| How it works |
| ------------ |
| |
| The feature is enabled by CONFIG OF_PLATDATA. This is only available in |
| SPL/TPL and should be tested with: |
| |
| .. code-block:: c |
| |
| #if CONFIG_IS_ENABLED(OF_PLATDATA) |
| |
| A tool called 'dtoc' converts a devicetree file either into a set of |
| struct declarations, one for each compatible node, and a set of |
| `U_BOOT_DRVINFO()` declarations along with the actual platform data for each |
| device. As an example, consider this MMC node: |
| |
| .. code-block:: none |
| |
| sdmmc: dwmmc@ff0c0000 { |
| compatible = "rockchip,rk3288-dw-mshc"; |
| clock-freq-min-max = <400000 150000000>; |
| clocks = <&cru HCLK_SDMMC>, <&cru SCLK_SDMMC>, |
| <&cru SCLK_SDMMC_DRV>, <&cru SCLK_SDMMC_SAMPLE>; |
| clock-names = "biu", "ciu", "ciu_drv", "ciu_sample"; |
| fifo-depth = <0x100>; |
| interrupts = <GIC_SPI 32 IRQ_TYPE_LEVEL_HIGH>; |
| reg = <0xff0c0000 0x4000>; |
| bus-width = <4>; |
| cap-mmc-highspeed; |
| cap-sd-highspeed; |
| card-detect-delay = <200>; |
| disable-wp; |
| num-slots = <1>; |
| pinctrl-names = "default"; |
| pinctrl-0 = <&sdmmc_clk>, <&sdmmc_cmd>, <&sdmmc_cd>, <&sdmmc_bus4>; |
| vmmc-supply = <&vcc_sd>; |
| status = "okay"; |
| u-boot,dm-pre-reloc; |
| }; |
| |
| |
| Some of these properties are dropped by U-Boot under control of the |
| CONFIG_OF_SPL_REMOVE_PROPS option. The rest are processed. This will produce |
| the following C struct declaration: |
| |
| .. code-block:: c |
| |
| struct dtd_rockchip_rk3288_dw_mshc { |
| fdt32_t bus_width; |
| bool cap_mmc_highspeed; |
| bool cap_sd_highspeed; |
| fdt32_t card_detect_delay; |
| fdt32_t clock_freq_min_max[2]; |
| struct phandle_1_arg clocks[4]; |
| bool disable_wp; |
| fdt32_t fifo_depth; |
| fdt32_t interrupts[3]; |
| fdt32_t num_slots; |
| fdt32_t reg[2]; |
| fdt32_t vmmc_supply; |
| }; |
| |
| and the following device declarations: |
| |
| .. code-block:: c |
| |
| /* Node /clock-controller@ff760000 index 0 */ |
| ... |
| |
| /* Node /dwmmc@ff0c0000 index 2 */ |
| static struct dtd_rockchip_rk3288_dw_mshc dtv_dwmmc_at_ff0c0000 = { |
| .fifo_depth = 0x100, |
| .cap_sd_highspeed = true, |
| .interrupts = {0x0, 0x20, 0x4}, |
| .clock_freq_min_max = {0x61a80, 0x8f0d180}, |
| .vmmc_supply = 0xb, |
| .num_slots = 0x1, |
| .clocks = {{0, 456}, |
| {0, 68}, |
| {0, 114}, |
| {0, 118}}, |
| .cap_mmc_highspeed = true, |
| .disable_wp = true, |
| .bus_width = 0x4, |
| .u_boot_dm_pre_reloc = true, |
| .reg = {0xff0c0000, 0x4000}, |
| .card_detect_delay = 0xc8, |
| }; |
| |
| U_BOOT_DRVINFO(dwmmc_at_ff0c0000) = { |
| .name = "rockchip_rk3288_dw_mshc", |
| .plat = &dtv_dwmmc_at_ff0c0000, |
| .plat_size = sizeof(dtv_dwmmc_at_ff0c0000), |
| .parent_idx = -1, |
| }; |
| |
| The device is then instantiated at run-time and the platform data can be |
| accessed using: |
| |
| .. code-block:: c |
| |
| struct udevice *dev; |
| struct dtd_rockchip_rk3288_dw_mshc *plat = dev_get_plat(dev); |
| |
| This avoids the code overhead of converting the devicetree data to |
| platform data in the driver. The `of_to_plat()` method should |
| therefore do nothing in such a driver. |
| |
| Note that for the platform data to be matched with a driver, the 'name' |
| property of the `U_BOOT_DRVINFO()` declaration has to match a driver declared |
| via `U_BOOT_DRIVER()`. This effectively means that a `U_BOOT_DRIVER()` with a |
| 'name' corresponding to the devicetree 'compatible' string (after converting |
| it to a valid name for C) is needed, so a dedicated driver is required for |
| each 'compatible' string. |
| |
| In order to make this a bit more flexible, the `DM_DRIVER_ALIAS()` macro can be |
| used to declare an alias for a driver name, typically a 'compatible' string. |
| This macro produces no code, but is used by dtoc tool. It must be located in the |
| same file as its associated driver, ideally just after it. |
| |
| The parent_idx is the index of the parent `driver_info` structure within its |
| linker list (instantiated by the `U_BOOT_DRVINFO()` macro). This is used to |
| support `dev_get_parent()`. |
| |
| During the build process dtoc parses both `U_BOOT_DRIVER()` and |
| `DM_DRIVER_ALIAS()` to build a list of valid driver names and driver aliases. |
| If the 'compatible' string used for a device does not not match a valid driver |
| name, it will be checked against the list of driver aliases in order to get the |
| right driver name to use. If in this step there is no match found a warning is |
| issued to avoid run-time failures. |
| |
| Where a node has multiple compatible strings, dtoc generates a `#define` to |
| make them equivalent, e.g.: |
| |
| .. code-block:: c |
| |
| #define dtd_rockchip_rk3299_dw_mshc dtd_rockchip_rk3288_dw_mshc |
| |
| |
| Converting of-platdata to a useful form |
| --------------------------------------- |
| |
| Of course it would be possible to use the of-platdata directly in your driver |
| whenever configuration information is required. However this means that the |
| driver will not be able to support devicetree, since the of-platdata |
| structure is not available when devicetree is used. It would make no sense |
| to use this structure if devicetree were available, since the structure has |
| all the limitations metioned in caveats below. |
| |
| Therefore it is recommended that the of-platdata structure should be used |
| only in the `probe()` method of your driver. It cannot be used in the |
| `of_to_plat()` method since this is not called when platform data is |
| already present. |
| |
| |
| How to structure your driver |
| ---------------------------- |
| |
| Drivers should always support devicetree as an option. The of-platdata |
| feature is intended as a add-on to existing drivers. |
| |
| Your driver should convert the plat struct in its `probe()` method. The |
| existing devicetree decoding logic should be kept in the |
| `of_to_plat()` method and wrapped with `#if`. |
| |
| For example: |
| |
| .. code-block:: c |
| |
| #include <dt-structs.h> |
| |
| struct mmc_plat { |
| #if CONFIG_IS_ENABLED(OF_PLATDATA) |
| /* Put this first since driver model will copy the data here */ |
| struct dtd_mmc dtplat; |
| #endif |
| /* |
| * Other fields can go here, to be filled in by decoding from |
| * the devicetree (or the C structures when of-platdata is used). |
| */ |
| int fifo_depth; |
| }; |
| |
| static int mmc_of_to_plat(struct udevice *dev) |
| { |
| #if !CONFIG_IS_ENABLED(OF_PLATDATA) |
| /* Decode the devicetree data */ |
| struct mmc_plat *plat = dev_get_plat(dev); |
| const void *blob = gd->fdt_blob; |
| int node = dev_of_offset(dev); |
| |
| plat->fifo_depth = fdtdec_get_int(blob, node, "fifo-depth", 0); |
| #endif |
| |
| return 0; |
| } |
| |
| static int mmc_probe(struct udevice *dev) |
| { |
| struct mmc_plat *plat = dev_get_plat(dev); |
| |
| #if CONFIG_IS_ENABLED(OF_PLATDATA) |
| /* Decode the of-platdata from the C structures */ |
| struct dtd_mmc *dtplat = &plat->dtplat; |
| |
| plat->fifo_depth = dtplat->fifo_depth; |
| #endif |
| /* Set up the device from the plat data */ |
| writel(plat->fifo_depth, ...) |
| } |
| |
| static const struct udevice_id mmc_ids[] = { |
| { .compatible = "vendor,mmc" }, |
| { } |
| }; |
| |
| U_BOOT_DRIVER(mmc_drv) = { |
| .name = "mmc_drv", |
| .id = UCLASS_MMC, |
| .of_match = mmc_ids, |
| .of_to_plat = mmc_of_to_plat, |
| .probe = mmc_probe, |
| .priv_auto = sizeof(struct mmc_priv), |
| .plat_auto = sizeof(struct mmc_plat), |
| }; |
| |
| DM_DRIVER_ALIAS(mmc_drv, vendor_mmc) /* matches compatible string */ |
| |
| Note that `struct mmc_plat` is defined in the C file, not in a header. This |
| is to avoid needing to include dt-structs.h in a header file. The idea is to |
| keep the use of each of-platdata struct to the smallest possible code area. |
| There is just one driver C file for each struct, that can convert from the |
| of-platdata struct to the standard one used by the driver. |
| |
| In the case where SPL_OF_PLATDATA is enabled, `plat_auto` is |
| still used to allocate space for the platform data. This is different from |
| the normal behaviour and is triggered by the use of of-platdata (strictly |
| speaking it is a non-zero `plat_size` which triggers this). |
| |
| The of-platdata struct contents is copied from the C structure data to the |
| start of the newly allocated area. In the case where devicetree is used, |
| the platform data is allocated, and starts zeroed. In this case the |
| `of_to_plat()` method should still set up the platform data (and the |
| of-platdata struct will not be present). |
| |
| SPL must use either of-platdata or devicetree. Drivers cannot use both at |
| the same time, but they must support devicetree. Supporting of-platdata is |
| optional. |
| |
| The devicetree becomes inaccessible when CONFIG_SPL_OF_PLATDATA is enabled, |
| since the devicetree access code is not compiled in. A corollary is that |
| a board can only move to using of-platdata if all the drivers it uses support |
| it. There would be little point in having some drivers require the device |
| tree data, since then libfdt would still be needed for those drivers and |
| there would be no code-size benefit. |
| |
| |
| Build-time instantiation |
| ------------------------ |
| |
| Even with of-platdata there is a fair amount of code required in driver model. |
| It is possible to have U-Boot handle the instantiation of devices at build-time, |
| so avoiding the need for the `device_bind()` code and some parts of |
| `device_probe()`. |
| |
| The feature is enabled by CONFIG_OF_PLATDATA_INST. |
| |
| Here is an example device, as generated by dtoc:: |
| |
| /* |
| * Node /serial index 6 |
| * driver sandbox_serial parent root_driver |
| */ |
| |
| #include <asm/serial.h> |
| struct sandbox_serial_plat __attribute__ ((section (".priv_data"))) |
| _sandbox_serial_plat_serial = { |
| .dtplat = { |
| .sandbox_text_colour = "cyan", |
| }, |
| }; |
| #include <asm/serial.h> |
| u8 _sandbox_serial_priv_serial[sizeof(struct sandbox_serial_priv)] |
| __attribute__ ((section (".priv_data"))); |
| #include <serial.h> |
| u8 _sandbox_serial_uc_priv_serial[sizeof(struct serial_dev_priv)] |
| __attribute__ ((section (".priv_data"))); |
| |
| DM_DEVICE_INST(serial) = { |
| .driver = DM_DRIVER_REF(sandbox_serial), |
| .name = "sandbox_serial", |
| .plat_ = &_sandbox_serial_plat_serial, |
| .priv_ = _sandbox_serial_priv_serial, |
| .uclass = DM_UCLASS_REF(serial), |
| .uclass_priv_ = _sandbox_serial_uc_priv_serial, |
| .uclass_node = { |
| .prev = &DM_UCLASS_REF(serial)->dev_head, |
| .next = &DM_UCLASS_REF(serial)->dev_head, |
| }, |
| .child_head = { |
| .prev = &DM_DEVICE_REF(serial)->child_head, |
| .next = &DM_DEVICE_REF(serial)->child_head, |
| }, |
| .sibling_node = { |
| .prev = &DM_DEVICE_REF(i2c_at_0)->sibling_node, |
| .next = &DM_DEVICE_REF(spl_test)->sibling_node, |
| }, |
| .seq_ = 0, |
| }; |
| |
| Here is part of the driver, for reference:: |
| |
| static const struct udevice_id sandbox_serial_ids[] = { |
| { .compatible = "sandbox,serial" }, |
| { } |
| }; |
| |
| U_BOOT_DRIVER(sandbox_serial) = { |
| .name = "sandbox_serial", |
| .id = UCLASS_SERIAL, |
| .of_match = sandbox_serial_ids, |
| .of_to_plat = sandbox_serial_of_to_plat, |
| .plat_auto = sizeof(struct sandbox_serial_plat), |
| .priv_auto = sizeof(struct sandbox_serial_priv), |
| .probe = sandbox_serial_probe, |
| .remove = sandbox_serial_remove, |
| .ops = &sandbox_serial_ops, |
| .flags = DM_FLAG_PRE_RELOC, |
| }; |
| |
| |
| The `DM_DEVICE_INST()` macro declares a struct udevice so you can see that the |
| members are from that struct. The private data is declared immediately above, |
| as `_sandbox_serial_priv_serial`, so there is no need for run-time memory |
| allocation. The #include lines are generated as well, since dtoc searches the |
| U-Boot source code for the definition of `struct sandbox_serial_priv` and adds |
| the relevant header so that the code will compile without errors. |
| |
| The `plat_` member is set to the dtv data which is declared immediately above |
| the device. This is similar to how it would look without of-platdata-inst, but |
| node that the `dtplat` member inside is part of the wider |
| `_sandbox_serial_plat_serial` struct. This is because the driver declares its |
| own platform data, and the part generated by dtoc can only be a portion of it. |
| The `dtplat` part is always first in the struct. If the device has no |
| `.plat_auto` field, then a simple dtv struct can be used as with this example:: |
| |
| static struct dtd_sandbox_clk dtv_clk_sbox = { |
| .assigned_clock_rates = 0x141, |
| .assigned_clocks = {0x7, 0x3}, |
| }; |
| |
| #include <asm/clk.h> |
| u8 _sandbox_clk_priv_clk_sbox[sizeof(struct sandbox_clk_priv)] |
| __attribute__ ((section (".priv_data"))); |
| |
| DM_DEVICE_INST(clk_sbox) = { |
| .driver = DM_DRIVER_REF(sandbox_clk), |
| .name = "sandbox_clk", |
| .plat_ = &dtv_clk_sbox, |
| |
| Here is part of the driver, for reference:: |
| |
| static const struct udevice_id sandbox_clk_ids[] = { |
| { .compatible = "sandbox,clk" }, |
| { } |
| }; |
| |
| U_BOOT_DRIVER(sandbox_clk) = { |
| .name = "sandbox_clk", |
| .id = UCLASS_CLK, |
| .of_match = sandbox_clk_ids, |
| .ops = &sandbox_clk_ops, |
| .probe = sandbox_clk_probe, |
| .priv_auto = sizeof(struct sandbox_clk_priv), |
| }; |
| |
| |
| You can see that `dtv_clk_sbox` just has the devicetree contents and there is |
| no need for the `dtplat` separation, since the driver has no platform data of |
| its own, besides that provided by the devicetree (i.e. no `.plat_auto` field). |
| |
| The doubly linked lists are handled by explicitly declaring the value of each |
| node, as you can see with the `.prev` and `.next` values in the example above. |
| Since dtoc knows the order of devices it can link them into the appropriate |
| lists correctly. |
| |
| One of the features of driver model is the ability for a uclass to have a |
| small amount of private data for each device in that uclass. This is used to |
| provide a generic data structure that the uclass can use for all devices, thus |
| allowing generic features to be implemented in common code. An example is I2C, |
| which stores the bus speed there. |
| |
| Similarly, parent devices can have data associated with each of their children. |
| This is used to provide information common to all children of a particular bus. |
| For an I2C bus, this is used to store the I2C address of each child on the bus. |
| |
| This is all handled automatically by dtoc:: |
| |
| #include <asm/i2c.h> |
| u8 _sandbox_i2c_priv_i2c_at_0[sizeof(struct sandbox_i2c_priv)] |
| __attribute__ ((section (".priv_data"))); |
| #include <i2c.h> |
| u8 _sandbox_i2c_uc_priv_i2c_at_0[sizeof(struct dm_i2c_bus)] |
| __attribute__ ((section (".priv_data"))); |
| |
| DM_DEVICE_INST(i2c_at_0) = { |
| .driver = DM_DRIVER_REF(sandbox_i2c), |
| .name = "sandbox_i2c", |
| .plat_ = &dtv_i2c_at_0, |
| .priv_ = _sandbox_i2c_priv_i2c_at_0, |
| .uclass = DM_UCLASS_REF(i2c), |
| .uclass_priv_ = _sandbox_i2c_uc_priv_i2c_at_0, |
| ... |
| |
| Part of driver, for reference:: |
| |
| static const struct udevice_id sandbox_i2c_ids[] = { |
| { .compatible = "sandbox,i2c" }, |
| { } |
| }; |
| |
| U_BOOT_DRIVER(sandbox_i2c) = { |
| .name = "sandbox_i2c", |
| .id = UCLASS_I2C, |
| .of_match = sandbox_i2c_ids, |
| .ops = &sandbox_i2c_ops, |
| .priv_auto = sizeof(struct sandbox_i2c_priv), |
| }; |
| |
| Part of I2C uclass, for reference:: |
| |
| UCLASS_DRIVER(i2c) = { |
| .id = UCLASS_I2C, |
| .name = "i2c", |
| .flags = DM_UC_FLAG_SEQ_ALIAS, |
| .post_bind = i2c_post_bind, |
| .pre_probe = i2c_pre_probe, |
| .post_probe = i2c_post_probe, |
| .per_device_auto = sizeof(struct dm_i2c_bus), |
| .per_child_plat_auto = sizeof(struct dm_i2c_chip), |
| .child_post_bind = i2c_child_post_bind, |
| }; |
| |
| Here, `_sandbox_i2c_uc_priv_i2c_at_0` is required by the uclass but is declared |
| in the device, as required by driver model. The required header file is included |
| so that the code will compile without errors. A similar mechanism is used for |
| child devices, but is not shown by this example. |
| |
| It would not be that useful to avoid binding devices but still need to allocate |
| uclasses at runtime. So dtoc generates uclass instances as well:: |
| |
| struct list_head uclass_head = { |
| .prev = &DM_UCLASS_REF(serial)->sibling_node, |
| .next = &DM_UCLASS_REF(clk)->sibling_node, |
| }; |
| |
| DM_UCLASS_INST(clk) = { |
| .uc_drv = DM_UCLASS_DRIVER_REF(clk), |
| .sibling_node = { |
| .prev = &uclass_head, |
| .next = &DM_UCLASS_REF(i2c)->sibling_node, |
| }, |
| .dev_head = { |
| .prev = &DM_DEVICE_REF(clk_sbox)->uclass_node, |
| .next = &DM_DEVICE_REF(clk_fixed)->uclass_node, |
| }, |
| }; |
| |
| At the top is the list head. Driver model uses this on start-up, instead of |
| creating its own. |
| |
| Below that are a set of `DM_UCLASS_INST()` macros, each declaring a |
| `struct uclass`. The doubly linked lists work as for devices. |
| |
| All private data is placed into a `.priv_data` section so that it is contiguous |
| in the resulting output binary. |
| |
| |
| Indexes |
| ------- |
| |
| U-Boot stores drivers, devices and many other things in linker_list structures. |
| These are sorted by name, so dtoc knows the order that they will appear when |
| the linker runs. Each driver_info / udevice is referenced by its index in the |
| linker_list array, called 'idx' in the code. |
| |
| When CONFIG_OF_PLATDATA_INST is enabled, idx is the udevice index, otherwise it |
| is the driver_info index. In either case, indexes are used to reference devices |
| using device_get_by_ofplat_idx(). This allows phandles to work as expected. |
| |
| |
| Phases |
| ------ |
| |
| U-Boot operates in several phases, typically TPL, SPL and U-Boot proper. |
| The latter does not use dtoc. |
| |
| In some rare cases different drivers are used for two phases. For example, |
| in TPL it may not be necessary to use the full PCI subsystem, so a simple |
| driver can be used instead. |
| |
| This works in the build system simply by compiling in one driver or the |
| other (e.g. PCI driver + uclass for SPL; simple_bus for TPL). But dtoc has |
| no way of knowing which code is compiled in for which phase, since it does |
| not inspect Makefiles or dependency graphs. |
| |
| So to make this work for dtoc, we need to be able to explicitly mark |
| drivers with their phase. This is done by adding a macro to the driver:: |
| |
| /* code in tpl.c only compiled into TPL */ |
| U_BOOT_DRIVER(pci_x86) = { |
| .name = "pci_x86", |
| .id = UCLASS_SIMPLE_BUS, |
| .of_match = of_match_ptr(tpl_fake_pci_ids), |
| DM_PHASE(tpl) |
| }; |
| |
| |
| /* code in pci_x86.c compiled into SPL and U-Boot proper */ |
| U_BOOT_DRIVER(pci_x86) = { |
| .name = "pci_x86", |
| .id = UCLASS_PCI, |
| .of_match = pci_x86_ids, |
| .ops = &pci_x86_ops, |
| }; |
| |
| |
| Notice that the second driver has the same name but no DM_PHASE(), so it will be |
| used for SPL and U-Boot. |
| |
| Note also that this only affects the code generated by dtoc. You still need to |
| make sure that only the required driver is build into each phase. |
| |
| |
| Header files |
| ------------ |
| |
| With OF_PLATDATA_INST, dtoc must include the correct header file in the |
| generated code for any structs that are used, so that the code will compile. |
| For example, if `struct ns16550_plat` is used, the code must include the |
| `ns16550.h` header file. |
| |
| Typically dtoc can detect the header file needed for a driver by looking |
| for the structs that it uses. For example, if a driver as a `.priv_auto` |
| that uses `struct ns16550_plat`, then dtoc can search header files for the |
| definition of that struct and use the file. |
| |
| In some cases, enums are used in drivers, typically with the `.data` field |
| of `struct udevice_id`. Since dtoc does not support searching for these, |
| you must use the `DM_HDR()` macro to tell dtoc which header to use. This works |
| as a macro included in the driver definition:: |
| |
| static const struct udevice_id apl_syscon_ids[] = { |
| { .compatible = "intel,apl-punit", .data = X86_SYSCON_PUNIT }, |
| { } |
| }; |
| |
| U_BOOT_DRIVER(intel_apl_punit) = { |
| .name = "intel_apl_punit", |
| .id = UCLASS_SYSCON, |
| .of_match = apl_syscon_ids, |
| .probe = apl_punit_probe, |
| DM_HEADER(<asm/cpu.h>) /* for X86_SYSCON_PUNIT */ |
| }; |
| |
| |
| |
| Problems |
| -------- |
| |
| In some cases you will you see something like this:: |
| |
| WARNING: the driver rockchip_rk3188_grf was not found in the driver list |
| |
| The driver list is a list of drivers, each with a name. The name is in the |
| U_BOOT_DRIVER() declaration, repeated twice, one in brackets and once as the |
| .name member. For example, in the following declaration the driver name is |
| `rockchip_rk3188_grf`:: |
| |
| U_BOOT_DRIVER(rockchip_rk3188_grf) = { |
| .name = "rockchip_rk3188_grf", |
| .id = UCLASS_SYSCON, |
| .of_match = rk3188_syscon_ids + 1, |
| .bind = rk3188_syscon_bind_of_plat, |
| }; |
| |
| The first name U_BOOT_DRIVER(xx) is used to create a linker symbol so that the |
| driver can be accessed at build-time without any overhead. The second one |
| (.name = "xx") is used at runtime when something wants to print out the driver |
| name. |
| |
| The dtoc tool expects to be able to find a driver for each compatible string in |
| the devicetree. For example, if the devicetree has:: |
| |
| grf: grf@20008000 { |
| compatible = "rockchip,rk3188-grf", "syscon"; |
| reg = <0x20008000 0x200>; |
| u-boot,dm-spl; |
| }; |
| |
| then dtoc looks at the first compatible string ("rockchip,rk3188-grf"), |
| converts that to a C identifier (rockchip_rk3188_grf) and then looks for that. |
| |
| Various things can cause dtoc to fail to find the driver and it tries to |
| warn about these. For example: |
| |
| rockchip_rk3188_uart: Missing .compatible in drivers/serial/serial_rockchip.c |
| : WARNING: the driver rockchip_rk3188_uart was not found in the driver list |
| |
| Without a compatible string a driver cannot be used by dtoc, even if the |
| compatible string is not actually needed at runtime. |
| |
| If the problem is simply that there are multiple compatible strings, the |
| DM_DRIVER_ALIAS() macro can be used to tell dtoc about this and avoid a problem. |
| |
| Checks are also made to confirm that the referenced driver has a .compatible |
| member and a .id member. The first provides the array of compatible strings and |
| the second provides the uclass ID. |
| |
| |
| Caveats |
| ------- |
| |
| There are various complications with this feature which mean it should only |
| be used when strictly necessary, i.e. in SPL with limited memory. Notable |
| caveats include: |
| |
| - Device tree does not describe data types. But the C code must define a |
| type for each property. These are guessed using heuristics which |
| are wrong in several fairly common cases. For example an 8-byte value |
| is considered to be a 2-item integer array, and is byte-swapped. A |
| boolean value that is not present means 'false', but cannot be |
| included in the structures since there is generally no mention of it |
| in the devicetree file. |
| |
| - Naming of nodes and properties is automatic. This means that they follow |
| the naming in the devicetree, which may result in C identifiers that |
| look a bit strange. |
| |
| - It is not possible to find a value given a property name. Code must use |
| the associated C member variable directly in the code. This makes |
| the code less robust in the face of devicetree changes. To avoid having |
| a second struct with similar members and names you need to explicitly |
| declare it as an alias with `DM_DRIVER_ALIAS()`. |
| |
| - The platform data is provided to drivers as a C structure. The driver |
| must use the same structure to access the data. Since a driver |
| normally also supports devicetree it must use `#ifdef` to separate |
| out this code, since the structures are only available in SPL. This could |
| be fixed fairly easily by making the structs available outside SPL, so |
| that `IS_ENABLED()` could be used. |
| |
| - With CONFIG_OF_PLATDATA_INST all binding happens at build-time, meaning |
| that (by default) it is not possible to call `device_bind()` from C code. |
| This means that all devices must have an associated devicetree node and |
| compatible string. For example if a GPIO device currently creates child |
| devices in its `bind()` method, it will not work with |
| CONFIG_OF_PLATDATA_INST. Arguably this is bad practice anyway and the |
| devicetree binding should be updated to declare compatible strings for |
| the child devices. It is possible to disable OF_PLATDATA_NO_BIND but this |
| is not recommended since it increases code size. |
| |
| |
| Internals |
| --------- |
| |
| Generated files |
| ``````````````` |
| |
| When enabled, dtoc generates the following five files: |
| |
| include/generated/dt-decl.h (OF_PLATDATA_INST only) |
| Contains declarations for all drivers, devices and uclasses. This allows |
| any `struct udevice`, `struct driver` or `struct uclass` to be located by its |
| name |
| |
| include/generated/dt-structs-gen.h |
| Contains the struct definitions for the devicetree nodes that are used. This |
| is the same as without OF_PLATDATA_INST |
| |
| spl/dts/dt-plat.c (only with !OF_PLATDATA_INST) |
| Contains the `U_BOOT_DRVINFO()` declarations that U-Boot uses to bind devices |
| at start-up. See above for an example |
| |
| spl/dts/dt-device.c (only with OF_PLATDATA_INST) |
| Contains `DM_DEVICE_INST()` declarations for each device that can be used at |
| run-time. These are declared in the file along with any private/platform data |
| that they use. Every device has an idx, as above. Since each device must be |
| part of a double-linked list, the nodes are declared in the code as well. |
| |
| spl/dts/dt-uclass.c (only with OF_PLATDATA_INST) |
| Contains `DM_UCLASS_INST()` declarations for each uclass that can be used at |
| run-time. These are declared in the file along with any private data |
| associated with the uclass itself (the `.priv_auto` member). Since each |
| uclass must be part of a double-linked list, the nodes are declared in the |
| code as well. |
| |
| The dt-structs.h file includes the generated file |
| `(include/generated/dt-structs.h`) if CONFIG_SPL_OF_PLATDATA is enabled. |
| Otherwise (such as in U-Boot proper) these structs are not available. This |
| prevents them being used inadvertently. All usage must be bracketed with |
| `#if CONFIG_IS_ENABLED(OF_PLATDATA)`. |
| |
| The dt-plat.c file contains the device declarations and is is built in |
| spl/dt-plat.c. |
| |
| |
| CONFIG options |
| `````````````` |
| |
| Several CONFIG options are used to control the behaviour of of-platdata, all |
| available for both SPL and TPL: |
| |
| OF_PLATDATA |
| This is the main option which enables the of-platdata feature |
| |
| OF_PLATDATA_PARENT |
| This allows `device_get_parent()` to work. Without this, all devices exist as |
| direct children of the root node. This option is highly desirable (if not |
| always absolutely essential) for buses such as I2C. |
| |
| OF_PLATDATA_INST |
| This controls the instantiation of devices at build time. With it disabled, |
| only `U_BOOT_DRVINFO()` records are created, with U-Boot handling the binding |
| in `device_bind()` on start-up. With it enabled, only `DM_DEVICE_INST()` and |
| `DM_UCLASS_INST()` records are created, and `device_bind()` is not needed at |
| runtime. |
| |
| OF_PLATDATA_NO_BIND |
| This controls whether `device_bind()` is supported. It is enabled by default |
| with OF_PLATDATA_INST since code-size reduction is really the main point of |
| the feature. It can be disabled if needed but is not likely to be supported |
| in the long term. |
| |
| OF_PLATDATA_DRIVER_RT |
| This controls whether the `struct driver_rt` records are used by U-Boot. |
| Normally when a device is bound, U-Boot stores the device pointer in one of |
| these records. There is one for every `struct driver_info` in the system, |
| i.e. one for every device that is bound from those records. It provides a |
| way to locate a device in the code and is used by |
| `device_get_by_ofplat_idx()`. This option is always enabled with of-platdata, |
| provided OF_PLATDATA_INST is not. In that case the records are useless since |
| we don't have any `struct driver_info` records. |
| |
| OF_PLATDATA_RT |
| This controls whether the `struct udevice_rt` records are used by U-Boot. |
| It moves the updatable fields from `struct udevice` (currently only `flags`) |
| into a separate structure, allowing the records to be kept in read-only |
| memory. It is generally enabled if OF_PLATDATA_INST is enabled. This option |
| also controls whether the private data is used in situ, or first copied into |
| an allocated region. Again this is to allow the private data declared by |
| dtoc-generated code to be in read-only memory. Note that access to private |
| data must be done via accessor functions, such as `dev_get_priv()`, so that |
| the relocation is handled. |
| |
| READ_ONLY |
| This indicates that the data generated by dtoc should not be modified. Only |
| a few fields actually do get changed in U-Boot, such as device flags. This |
| option causes those to move into an allocated space (see OF_PLATDATA_RT). |
| Also, since updating doubly linked lists is generally impossible when some of |
| the nodes cannot be updated, OF_PLATDATA_NO_BIND is enabled. |
| |
| Data structures |
| ``````````````` |
| |
| A few extra data structures are used with of-platdata: |
| |
| `struct udevice_rt` |
| Run-time information for devices. When OF_PLATDATA_RT is enabled, this holds |
| the flags for each device, so that `struct udevice` can remain unchanged by |
| U-Boot, and potentially reside in read-only memory. Access to flags is then |
| via functions like `dev_get_flags()` and `dev_or_flags()`. This data |
| structure is allocated on start-up, where the private data is also copied. |
| All flags values start at 0 and any changes are handled by `dev_or_flags()` |
| and `dev_bic_flags()`. It would be more correct for the flags to be set to |
| `DM_FLAG_BOUND`, or perhaps `DM_FLAG_BOUND | DM_FLAG_ALLOC_PDATA`, but since |
| there is no code to bind/unbind devices and no code to allocate/free |
| private data / platform data, it doesn't matter. |
| |
| `struct driver_rt` |
| Run-time information for `struct driver_info` records. When |
| OF_PLATDATA_DRIVER_RT is enabled, this holds a pointer to the device |
| created by each record. This is needed so that is it possible to locate a |
| device from C code. Specifically, the code can use `DM_DRVINFO_GET(name)` to |
| get a reference to a particular `struct driver_info`, with `name` being the |
| name of the devicetree node. This is very convenient. It is also fast, since |
| no searching or string comparison is needed. This data structure is |
| allocated on start-up, filled out by `device_bind()` and used by |
| `device_get_by_ofplat_idx()`. |
| |
| Other changes |
| ````````````` |
| |
| Some other changes are made with of-platdata: |
| |
| Accessor functions |
| Accessing private / platform data via functions such as `dev_get_priv()` has |
| always been encouraged. With OF_PLATDATA_RT this is essential, since the |
| `priv_` and `plat_` (etc.) values point to the data generated by dtoc, not |
| the read-write copy that is sometimes made on start-up. Changing the |
| private / platform data pointers has always been discouraged (the API is |
| marked internal) but with OF_PLATDATA_RT this is not currently supported in |
| general, since it assumes that all such pointers point to the relocated data. |
| Note also that the renaming of struct members to have a trailing underscore |
| was partly done to make people aware that they should not be accessed |
| directly. |
| |
| `gd->uclass_root_s` |
| Normally U-Boot sets up the head of the uclass list here and makes |
| `gd->uclass_root` point to it. With OF_PLATDATA_INST, dtoc generates a |
| declaration of `uclass_head` in `dt-uclass.c` since it needs to link the |
| head node into the list. In that case, `gd->uclass_root_s` is not used and |
| U-Boot just makes `gd->uclass_root` point to `uclass_head`. |
| |
| `gd->dm_driver_rt` |
| This holds a pointer to a list of `struct driver_rt` records, one for each |
| `struct driver_info`. The list is in alphabetical order by the name used |
| in `U_BOOT_DRVINFO(name)` and indexed by idx, with the first record having |
| an index of 0. It is only used if OF_PLATDATA_INST is not enabled. This is |
| accessed via macros so that it can be used inside IS_ENABLED(), rather than |
| requiring #ifdefs in the C code when it is not present. |
| |
| `gd->dm_udevice_rt` |
| This holds a pointer to a list of `struct udevice_rt` records, one for each |
| `struct udevice`. The list is in alphabetical order by the name used |
| in `DM_DEVICE_INST(name)` (a C version of the devicetree node) and indexed by |
| idx, with the first record having an index of 0. It is only used if |
| OF_PLATDATA_INST is enabled. This is accessed via macros so that it can be |
| used inside `IS_ENABLED()`, rather than requiring #ifdefs in the C code when |
| it is not present. |
| |
| `gd->dm_priv_base` |
| When OF_PLATDATA_RT is enabled, the private/platform data for each device is |
| copied into an allocated region by U-Boot on start-up. This points to that |
| region. All calls to accessor functions (e.g. `dev_get_priv()`) then |
| translate from the pointer provided by the caller (assumed to lie between |
| `__priv_data_start` and `__priv_data_end`) to the new allocated region. This |
| member is accessed via macros so that it can be used inside IS_ENABLED(), |
| rather than required #ifdefs in the C code when it is not present. |
| |
| `struct udevice->flags_` |
| When OF_PLATDATA_RT is enabled, device flags are no-longer part of |
| `struct udevice`, but are instead kept in `struct udevice_rt`, as described |
| above. Flags are accessed via functions, such as `dev_get_flags()` and |
| `dev_or_flags()`. |
| |
| `struct udevice->node_` |
| When OF_PLATDATA is enabled, there is no devicetree at runtime, so no need |
| for this field. It is removed, just to save space. |
| |
| `DM_PHASE` |
| This macro is used to indicate which phase of U-Boot a driver is intended |
| for. See above for details. |
| |
| `DM_HDR` |
| This macro is used to indicate which header file dtoc should use to allow |
| a driver declaration to compile correctly. See above for details. |
| |
| `device_get_by_ofplat_idx()` |
| There used to be a function called `device_get_by_driver_info()` which |
| looked up a `struct driver_info` pointer and returned the `struct udevice` |
| that was created from it. It was only available for use with of-platdata. |
| This has been removed in favour of `device_get_by_ofplat_idx()` which uses |
| `idx`, the index of the `struct driver_info` or `struct udevice` in the |
| linker_list. Similarly, the `struct phandle_0_arg` (etc.) structs have been |
| updated to use this index instead of a pointer to `struct driver_info`. |
| |
| `DM_DRVINFO_GET` |
| This has been removed since we now use indexes to obtain a driver from |
| `struct phandle_0_arg` and the like. |
| |
| Two-pass binding |
| The original of-platdata tried to order `U_BOOT_DRVINFO()` in the generated |
| files so as to have parents declared ahead of children. This was convenient |
| as it avoided any special code in U-Boot. With OF_PLATDATA_INST this does |
| not work as the idx value relies on using alphabetical order for everything, |
| so that dtoc and U-Boot's linker_lists agree on the idx value. Devices are |
| then bound in order of idx, having no regard to parent/child relationships. |
| For this reason, device binding now hapens in multiple passes, with parents |
| being bound before their children. This is important so that children can |
| find their parents in the bind() method if needed. |
| |
| Root device |
| The root device is generally bound by U-Boot but with OF_PLATDATA_INST it |
| cannot be, since binding needs to be done at build time. So in this case |
| dtoc sets up a root device using `DM_DEVICE_INST()` in `dt-device.c` and |
| U-Boot makes use of that. When OF_PLATDATA_INST is not enabled, U-Boot |
| generally ignores the root node and does not create a `U_BOOT_DRVINFO()` |
| record for it. This means that the idx numbers used by `struct driver_info` |
| (when OF_PLATDATA_INST is disabled) and the idx numbers used by |
| `struct udevice` (when OF_PLATDATA_INST is enabled) differ, since one has a |
| root node and the other does not. This does not actually matter, since only |
| one of them is actually used for any particular build, but it is worth |
| keeping in mind if comparing index values and switching OF_PLATDATA_INST on |
| and off. |
| |
| `__priv_data_start` and `__priv_data_end` |
| The private/platform data declared by dtoc is all collected together in |
| a linker section and these symbols mark the start and end of it. This allows |
| U-Boot to relocate the area to a new location if needed (with |
| OF_PLATDATA_RT) |
| |
| `dm_priv_to_rw()` |
| This function converts a private- or platform-data pointer value generated by |
| dtoc into one that can be used by U-Boot. It is a NOP unless OF_PLATDATA_RT |
| is enabled, in which case it translates the address to the relocated |
| region. See above for more information. |
| |
| The dm_populate_phandle_data() function that was previous needed has now been |
| removed, since dtoc can address the drivers directly from dt-plat.c and does |
| not need to fix up things at runtime. |
| |
| The pylibfdt Python module is used to access the devicetree. |
| |
| |
| Credits |
| ------- |
| |
| This is an implementation of an idea by Tom Rini <trini@konsulko.com>. |
| |
| |
| Future work |
| ----------- |
| - Consider programmatically reading binding files instead of devicetree |
| contents |
| - Allow IS_ENABLED() to be used in the C code instead of #if |
| |
| |
| .. Simon Glass <sjg@chromium.org> |
| .. Google, Inc |
| .. 6/6/16 |
| .. Updated Independence Day 2016 |
| .. Updated 1st October 2020 |
| .. Updated 5th February 2021 |