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linux/drivers/clk/clk-en7523.c
Linus Torvalds 647d69605c pci-v6.14-changes 
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Merge tag 'pci-v6.14-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/pci/pci

Pull pci updates from Bjorn Helgaas:
 "Enumeration:

   - Batch sizing of multiple BARs while memory decoding is disabled
     instead of disabling/enabling decoding for each BAR individually;
     this optimizes virtualized environments where toggling decoding
     enable is expensive (Alex Williamson)

   - Add host bridge .enable_device() and .disable_device() hooks for
     bridges that need to configure things like Requester ID to StreamID
     mapping when enabling devices (Frank Li)

   - Extend struct pci_ecam_ops with .enable_device() and
     .disable_device() hooks so drivers that use pci_host_common_probe()
     instead of their own .probe() have a way to set the
     .enable_device() callbacks (Marc Zyngier)

   - Drop 'No bus range found' message so we don't complain when DTs
     don't specify the default 'bus-range = <0x00 0xff>' (Bjorn Helgaas)

   - Rename the drivers/pci/of_property.c struct of_pci_range to
     of_pci_range_entry to avoid confusion with the global of_pci_range
     in include/linux/of_address.h (Bjorn Helgaas)

  Driver binding:

   - Update resource request API documentation to encourage callers to
     supply a driver name when requesting resources (Philipp Stanner)

   - Export pci_intx_unmanaged() and pcim_intx() (always managed) so
     callers of pci_intx() (which is sometimes managed) can explicitly
     choose the one they need (Philipp Stanner)

   - Convert drivers from pci_intx() to always-managed pcim_intx() or
     never-managed pci_intx_unmanaged(): amd_sfh, ata (ahci, ata_piix,
     pata_rdc, sata_sil24, sata_sis, sata_uli, sata_vsc), bnx2x, bna,
     ntb, qtnfmac, rtsx, tifm_7xx1, vfio, xen-pciback (Philipp Stanner)

   - Remove pci_intx_unmanaged() since pci_intx() is now always
     unmanaged and pcim_intx() is always managed (Philipp Stanner)

  Error handling:

   - Unexport pcie_read_tlp_log() to encourage drivers to use PCI core
     logging rather than building their own (Ilpo Järvinen)

   - Move TLP Log handling to its own file (Ilpo Järvinen)

   - Store number of supported End-End TLP Prefixes always so we can
     read the correct number of DWORDs from the TLP Prefix Log (Ilpo
     Järvinen)

   - Read TLP Prefixes in addition to the Header Log in
     pcie_read_tlp_log() (Ilpo Järvinen)

   - Add pcie_print_tlp_log() to consolidate printing of TLP Header and
     Prefix Log (Ilpo Järvinen)

   - Quirk the Intel Raptor Lake-P PIO log size to accommodate vendor
     BIOSes that don't configure it correctly (Takashi Iwai)

  ASPM:

   - Save parent L1 PM Substates config so when we restore it along with
     an endpoint's config, the parent info isn't junk (Jian-Hong Pan)

  Power management:

   - Avoid D3 for Root Ports on TUXEDO Sirius Gen1 with old BIOS because
     the system can't wake up from suspend (Werner Sembach)

  Endpoint framework:

   - Destroy the EPC device in devm_pci_epc_destroy(), which previously
     didn't call devres_release() (Zijun Hu)

   - Finish virtual EP removal in pci_epf_remove_vepf(), which
     previously caused a subsequent pci_epf_add_vepf() to fail with
     -EBUSY (Zijun Hu)

   - Write BAR_MASK before iATU registers in pci_epc_set_bar() so we
     don't depend on the BAR_MASK reset value being larger than the
     requested BAR size (Niklas Cassel)

   - Prevent changing BAR size/flags in pci_epc_set_bar() to prevent
     reads from bypassing the iATU if we reduced the BAR size (Niklas
     Cassel)

   - Verify address alignment when programming iATU so we don't attempt
     to write bits that are read-only because of the BAR size, which
     could lead to directing accesses to the wrong address (Niklas
     Cassel)

   - Implement artpec6 pci_epc_features so we can rely on all drivers
     supporting it so we can use it in EPC core code (Niklas Cassel)

   - Check for BARs of fixed size to prevent endpoint drivers from
     trying to change their size (Niklas Cassel)

   - Verify that requested BAR size is a power of two when endpoint
     driver sets the BAR (Niklas Cassel)

  Endpoint framework tests:

   - Clear pci-epf-test dma_chan_rx, not dma_chan_tx, after freeing
     dma_chan_rx (Mohamed Khalfella)

   - Correct the DMA MEMCPY test so it doesn't fail if the Endpoint
     supports both DMA_PRIVATE and DMA_MEMCPY (Manivannan Sadhasivam)

   - Add pci-epf-test and pci_endpoint_test support for capabilities
     (Niklas Cassel)

   - Add Endpoint test for consecutive BARs (Niklas Cassel)

   - Remove redundant comparison from Endpoint BAR test because a > 1MB
     BAR can always be exactly covered by iterating with a 1MB buffer
     (Hans Zhang)

   - Move and convert PCI Endpoint tests from tools/pci to Kselftests
     (Manivannan Sadhasivam)

  Apple PCIe controller driver:

   - Convert StreamID mapping configuration from a bus notifier to the
     .enable_device() and .disable_device() callbacks (Marc Zyngier)

  Freescale i.MX6 PCIe controller driver:

   - Add Requester ID to StreamID mapping configuration when enabling
     devices (Frank Li)

   - Use DWC core suspend/resume functions for imx6 (Frank Li)

   - Add suspend/resume support for i.MX8MQ, i.MX8Q, and i.MX95 (Richard
     Zhu)

   - Add DT compatible string 'fsl,imx8q-pcie-ep' and driver support for
     i.MX8Q series (i.MX8QM, i.MX8QXP, and i.MX8DXL) Endpoints (Frank
     Li)

   - Add DT binding for optional i.MX95 Refclk and driver support to
     enable it if the platform hasn't enabled it (Richard Zhu)

   - Configure PHY based on controller being in Root Complex or Endpoint
     mode (Frank Li)

   - Rely on dbi2 and iATU base addresses from DT via
     dw_pcie_get_resources() instead of hardcoding them (Richard Zhu)

   - Deassert apps_reset in imx_pcie_deassert_core_reset() since it is
     asserted in imx_pcie_assert_core_reset() (Richard Zhu)

   - Add missing reference clock enable or disable logic for IMX6SX,
     IMX7D, IMX8MM (Richard Zhu)

   - Remove redundant imx7d_pcie_init_phy() since
     imx7d_pcie_enable_ref_clk() does the same thing (Richard Zhu)

  Freescale Layerscape PCIe controller driver:

   - Simplify by using syscon_regmap_lookup_by_phandle_args() instead
     of syscon_regmap_lookup_by_phandle() followed by
     of_property_read_u32_array() (Krzysztof Kozlowski)

  Marvell MVEBU PCIe controller driver:

   - Add MODULE_DEVICE_TABLE() to enable module autoloading (Liao Chen)

  MediaTek PCIe Gen3 controller driver:

   - Use clk_bulk_prepare_enable() instead of separate
     clk_bulk_prepare() and clk_bulk_enable() (Lorenzo Bianconi)

   - Rearrange reset assert/deassert so they're both done in the
     *_power_up() callbacks (Lorenzo Bianconi)

   - Document that Airoha EN7581 requires PHY init and power-on before
     PHY reset deassert, unlike other MediaTek Gen3 controllers (Lorenzo
     Bianconi)

   - Move Airoha EN7581 post-reset delay from the en7581 clock .enable()
     method to mtk_pcie_en7581_power_up() (Lorenzo Bianconi)

   - Sleep instead of delay during Airoha EN7581 power-up, since this is
     a non-atomic context (Lorenzo Bianconi)

   - Skip PERST# assertion on Airoha EN7581 during probe and
     suspend/resume to avoid a hardware defect (Lorenzo Bianconi)

   - Enable async probe to reduce system startup time (Douglas Anderson)

  Microchip PolarFlare PCIe controller driver:

   - Set up the inbound address translation based on whether the
     platform allows coherent or non-coherent DMA (Daire McNamara)

   - Update DT binding such that platforms are DMA-coherent by default
     and must specify 'dma-noncoherent' if needed (Conor Dooley)

  Mobiveil PCIe controller driver:

   - Convert mobiveil-pcie.txt to YAML and update 'interrupt-names'
     and 'reg-names' (Frank Li)

  Qualcomm PCIe controller driver:

   - Add DT SM8550 and SM8650 optional 'global' interrupt for link
     events (Neil Armstrong)

   - Add DT 'compatible' strings for IPQ5424 PCIe controller (Manikanta
     Mylavarapu)

   - If 'global' IRQ is supported for detection of Link Up events, tell
     DWC core not to wait for link up (Krishna chaitanya chundru)

  Renesas R-Car PCIe controller driver:

   - Avoid passing stack buffer as resource name (King Dix)

  Rockchip PCIe controller driver:

   - Simplify clock and reset handling by using bulk interfaces (Anand
     Moon)

   - Pass typed rockchip_pcie (not void) pointer to
     rockchip_pcie_disable_clocks() (Anand Moon)

   - Return -ENOMEM, not success, when pci_epc_mem_alloc_addr() fails
     (Dan Carpenter)

  Rockchip DesignWare PCIe controller driver:

   - Use dll_link_up IRQ to detect Link Up and enumerate devices so
     users don't have to manually rescan (Niklas Cassel)

   - Tell DWC core not to wait for link up since the 'sys' interrupt is
     required and detects Link Up events (Niklas Cassel)

  Synopsys DesignWare PCIe controller driver:

   - Don't wait for link up in DWC core if driver can detect Link Up
     event (Krishna chaitanya chundru)

   - Update ICC and OPP votes after Link Up events (Krishna chaitanya
     chundru)

   - Always stop link in dw_pcie_suspend_noirq(), which is required at
     least for i.MX8QM to re-establish link on resume (Richard Zhu)

   - Drop racy and unnecessary LTSSM state check before sending
     PME_TURN_OFF message in dw_pcie_suspend_noirq() (Richard Zhu)

   - Add struct of_pci_range.parent_bus_addr for devices that need their
     immediate parent bus address, not the CPU address, e.g., to program
     an internal Address Translation Unit (iATU) (Frank Li)

  TI DRA7xx PCIe controller driver:

   - Simplify by using syscon_regmap_lookup_by_phandle_args() instead of
     syscon_regmap_lookup_by_phandle() followed by
     of_parse_phandle_with_fixed_args() or of_property_read_u32_index()
     (Krzysztof Kozlowski)

  Xilinx Versal CPM PCIe controller driver:

   - Add DT binding and driver support for Xilinx Versal CPM5
     (Thippeswamy Havalige)

  MicroSemi Switchtec management driver:

   - Add Microchip PCI100X device IDs (Rakesh Babu Saladi)

  Miscellaneous:

   - Move reset related sysfs code from pci.c to pci-sysfs.c where other
     similar code lives (Ilpo Järvinen)

   - Simplify reset_method_store() memory management by using __free()
     instead of explicit kfree() cleanup (Ilpo Järvinen)

   - Constify struct bin_attribute for sysfs, VPD, P2PDMA, and the IBM
     ACPI hotplug driver (Thomas Weißschuh)

   - Remove redundant PCI_VSEC_HDR and PCI_VSEC_HDR_LEN_SHIFT (Dongdong
     Zhang)

   - Correct documentation of the 'config_acs=' kernel parameter
     (Akihiko Odaki)"

* tag 'pci-v6.14-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/pci/pci: (111 commits)
  PCI: Batch BAR sizing operations
  dt-bindings: PCI: microchip,pcie-host: Allow dma-noncoherent
  PCI: microchip: Set inbound address translation for coherent or non-coherent mode
  Documentation: Fix pci=config_acs= example
  PCI: Remove redundant PCI_VSEC_HDR and PCI_VSEC_HDR_LEN_SHIFT
  PCI: Don't include 'pm_wakeup.h' directly
  selftests: pci_endpoint: Migrate to Kselftest framework
  selftests: Move PCI Endpoint tests from tools/pci to Kselftests
  misc: pci_endpoint_test: Fix IOCTL return value
  dt-bindings: PCI: qcom: Document the IPQ5424 PCIe controller
  dt-bindings: PCI: qcom,pcie-sm8550: Document 'global' interrupt
  dt-bindings: PCI: mobiveil: Convert mobiveil-pcie.txt to YAML
  PCI: switchtec: Add Microchip PCI100X device IDs
  misc: pci_endpoint_test: Remove redundant 'remainder' test
  misc: pci_endpoint_test: Add consecutive BAR test
  misc: pci_endpoint_test: Add support for capabilities
  PCI: endpoint: pci-epf-test: Add support for capabilities
  PCI: endpoint: pci-epf-test: Fix check for DMA MEMCPY test
  PCI: endpoint: pci-epf-test: Set dma_chan_rx pointer to NULL on error
  PCI: dwc: Simplify config resource lookup
  ...
2025-01-25 16:03:40 -08:00

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// SPDX-License-Identifier: GPL-2.0-only
#include <linux/delay.h>
#include <linux/clk-provider.h>
#include <linux/io.h>
#include <linux/mfd/syscon.h>
#include <linux/platform_device.h>
#include <linux/property.h>
#include <linux/regmap.h>
#include <linux/reset-controller.h>
#include <dt-bindings/clock/en7523-clk.h>
#include <dt-bindings/reset/airoha,en7581-reset.h>
#define RST_NR_PER_BANK 32
#define REG_PCI_CONTROL 0x88
#define REG_PCI_CONTROL_PERSTOUT BIT(29)
#define REG_PCI_CONTROL_PERSTOUT1 BIT(26)
#define REG_PCI_CONTROL_REFCLK_EN0 BIT(23)
#define REG_PCI_CONTROL_REFCLK_EN1 BIT(22)
#define REG_PCI_CONTROL_PERSTOUT2 BIT(16)
#define REG_GSW_CLK_DIV_SEL 0x1b4
#define REG_EMI_CLK_DIV_SEL 0x1b8
#define REG_BUS_CLK_DIV_SEL 0x1bc
#define REG_SPI_CLK_DIV_SEL 0x1c4
#define REG_SPI_CLK_FREQ_SEL 0x1c8
#define REG_NPU_CLK_DIV_SEL 0x1fc
#define REG_CRYPTO_CLKSRC 0x200
#define REG_RESET_CONTROL2 0x830
#define REG_RESET2_CONTROL_PCIE2 BIT(27)
#define REG_RESET_CONTROL1 0x834
#define REG_RESET_CONTROL_PCIEHB BIT(29)
#define REG_RESET_CONTROL_PCIE1 BIT(27)
#define REG_RESET_CONTROL_PCIE2 BIT(26)
/* EN7581 */
#define REG_NP_SCU_PCIC 0x88
#define REG_NP_SCU_SSTR 0x9c
#define REG_PCIE_XSI0_SEL_MASK GENMASK(14, 13)
#define REG_PCIE_XSI1_SEL_MASK GENMASK(12, 11)
#define REG_CRYPTO_CLKSRC2 0x20c
#define REG_RST_CTRL2 0x830
#define REG_RST_CTRL1 0x834
struct en_clk_desc {
int id;
const char *name;
u32 base_reg;
u8 base_bits;
u8 base_shift;
union {
const unsigned int *base_values;
unsigned int base_value;
};
size_t n_base_values;
u16 div_reg;
u8 div_bits;
u8 div_shift;
u16 div_val0;
u8 div_step;
u8 div_offset;
};
struct en_clk_gate {
void __iomem *base;
struct clk_hw hw;
};
struct en_rst_data {
const u16 *bank_ofs;
const u16 *idx_map;
void __iomem *base;
struct reset_controller_dev rcdev;
};
struct en_clk_soc_data {
u32 num_clocks;
const struct clk_ops pcie_ops;
int (*hw_init)(struct platform_device *pdev,
struct clk_hw_onecell_data *clk_data);
};
static const u32 gsw_base[] = { 400000000, 500000000 };
static const u32 emi_base[] = { 333000000, 400000000 };
static const u32 bus_base[] = { 500000000, 540000000 };
static const u32 slic_base[] = { 100000000, 3125000 };
static const u32 npu_base[] = { 333000000, 400000000, 500000000 };
/* EN7581 */
static const u32 emi7581_base[] = { 540000000, 480000000, 400000000, 300000000 };
static const u32 bus7581_base[] = { 600000000, 540000000 };
static const u32 npu7581_base[] = { 800000000, 750000000, 720000000, 600000000 };
static const u32 crypto_base[] = { 540000000, 480000000 };
static const u32 emmc7581_base[] = { 200000000, 150000000 };
static const struct en_clk_desc en7523_base_clks[] = {
{
.id = EN7523_CLK_GSW,
.name = "gsw",
.base_reg = REG_GSW_CLK_DIV_SEL,
.base_bits = 1,
.base_shift = 8,
.base_values = gsw_base,
.n_base_values = ARRAY_SIZE(gsw_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_EMI,
.name = "emi",
.base_reg = REG_EMI_CLK_DIV_SEL,
.base_bits = 1,
.base_shift = 8,
.base_values = emi_base,
.n_base_values = ARRAY_SIZE(emi_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_BUS,
.name = "bus",
.base_reg = REG_BUS_CLK_DIV_SEL,
.base_bits = 1,
.base_shift = 8,
.base_values = bus_base,
.n_base_values = ARRAY_SIZE(bus_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_SLIC,
.name = "slic",
.base_reg = REG_SPI_CLK_FREQ_SEL,
.base_bits = 1,
.base_shift = 0,
.base_values = slic_base,
.n_base_values = ARRAY_SIZE(slic_base),
.div_reg = REG_SPI_CLK_DIV_SEL,
.div_bits = 5,
.div_shift = 24,
.div_val0 = 20,
.div_step = 2,
}, {
.id = EN7523_CLK_SPI,
.name = "spi",
.base_reg = REG_SPI_CLK_DIV_SEL,
.base_value = 400000000,
.div_bits = 5,
.div_shift = 8,
.div_val0 = 40,
.div_step = 2,
}, {
.id = EN7523_CLK_NPU,
.name = "npu",
.base_reg = REG_NPU_CLK_DIV_SEL,
.base_bits = 2,
.base_shift = 8,
.base_values = npu_base,
.n_base_values = ARRAY_SIZE(npu_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_CRYPTO,
.name = "crypto",
.base_reg = REG_CRYPTO_CLKSRC,
.base_bits = 1,
.base_shift = 0,
.base_values = emi_base,
.n_base_values = ARRAY_SIZE(emi_base),
}
};
static const struct en_clk_desc en7581_base_clks[] = {
{
.id = EN7523_CLK_GSW,
.name = "gsw",
.base_reg = REG_GSW_CLK_DIV_SEL,
.base_bits = 1,
.base_shift = 8,
.base_values = gsw_base,
.n_base_values = ARRAY_SIZE(gsw_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_EMI,
.name = "emi",
.base_reg = REG_EMI_CLK_DIV_SEL,
.base_bits = 2,
.base_shift = 8,
.base_values = emi7581_base,
.n_base_values = ARRAY_SIZE(emi7581_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_BUS,
.name = "bus",
.base_reg = REG_BUS_CLK_DIV_SEL,
.base_bits = 1,
.base_shift = 8,
.base_values = bus7581_base,
.n_base_values = ARRAY_SIZE(bus7581_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_SLIC,
.name = "slic",
.base_reg = REG_SPI_CLK_FREQ_SEL,
.base_bits = 1,
.base_shift = 0,
.base_values = slic_base,
.n_base_values = ARRAY_SIZE(slic_base),
.div_reg = REG_SPI_CLK_DIV_SEL,
.div_bits = 5,
.div_shift = 24,
.div_val0 = 20,
.div_step = 2,
}, {
.id = EN7523_CLK_SPI,
.name = "spi",
.base_reg = REG_SPI_CLK_DIV_SEL,
.base_value = 400000000,
.div_bits = 5,
.div_shift = 8,
.div_val0 = 40,
.div_step = 2,
}, {
.id = EN7523_CLK_NPU,
.name = "npu",
.base_reg = REG_NPU_CLK_DIV_SEL,
.base_bits = 2,
.base_shift = 8,
.base_values = npu7581_base,
.n_base_values = ARRAY_SIZE(npu7581_base),
.div_bits = 3,
.div_shift = 0,
.div_step = 1,
.div_offset = 1,
}, {
.id = EN7523_CLK_CRYPTO,
.name = "crypto",
.base_reg = REG_CRYPTO_CLKSRC2,
.base_bits = 1,
.base_shift = 0,
.base_values = crypto_base,
.n_base_values = ARRAY_SIZE(crypto_base),
}, {
.id = EN7581_CLK_EMMC,
.name = "emmc",
.base_reg = REG_CRYPTO_CLKSRC2,
.base_bits = 1,
.base_shift = 12,
.base_values = emmc7581_base,
.n_base_values = ARRAY_SIZE(emmc7581_base),
}
};
static const u16 en7581_rst_ofs[] = {
REG_RST_CTRL2,
REG_RST_CTRL1,
};
static const u16 en7581_rst_map[] = {
/* RST_CTRL2 */
[EN7581_XPON_PHY_RST] = 0,
[EN7581_CPU_TIMER2_RST] = 2,
[EN7581_HSUART_RST] = 3,
[EN7581_UART4_RST] = 4,
[EN7581_UART5_RST] = 5,
[EN7581_I2C2_RST] = 6,
[EN7581_XSI_MAC_RST] = 7,
[EN7581_XSI_PHY_RST] = 8,
[EN7581_NPU_RST] = 9,
[EN7581_I2S_RST] = 10,
[EN7581_TRNG_RST] = 11,
[EN7581_TRNG_MSTART_RST] = 12,
[EN7581_DUAL_HSI0_RST] = 13,
[EN7581_DUAL_HSI1_RST] = 14,
[EN7581_HSI_RST] = 15,
[EN7581_DUAL_HSI0_MAC_RST] = 16,
[EN7581_DUAL_HSI1_MAC_RST] = 17,
[EN7581_HSI_MAC_RST] = 18,
[EN7581_WDMA_RST] = 19,
[EN7581_WOE0_RST] = 20,
[EN7581_WOE1_RST] = 21,
[EN7581_HSDMA_RST] = 22,
[EN7581_TDMA_RST] = 24,
[EN7581_EMMC_RST] = 25,
[EN7581_SOE_RST] = 26,
[EN7581_PCIE2_RST] = 27,
[EN7581_XFP_MAC_RST] = 28,
[EN7581_USB_HOST_P1_RST] = 29,
[EN7581_USB_HOST_P1_U3_PHY_RST] = 30,
/* RST_CTRL1 */
[EN7581_PCM1_ZSI_ISI_RST] = RST_NR_PER_BANK + 0,
[EN7581_FE_PDMA_RST] = RST_NR_PER_BANK + 1,
[EN7581_FE_QDMA_RST] = RST_NR_PER_BANK + 2,
[EN7581_PCM_SPIWP_RST] = RST_NR_PER_BANK + 4,
[EN7581_CRYPTO_RST] = RST_NR_PER_BANK + 6,
[EN7581_TIMER_RST] = RST_NR_PER_BANK + 8,
[EN7581_PCM1_RST] = RST_NR_PER_BANK + 11,
[EN7581_UART_RST] = RST_NR_PER_BANK + 12,
[EN7581_GPIO_RST] = RST_NR_PER_BANK + 13,
[EN7581_GDMA_RST] = RST_NR_PER_BANK + 14,
[EN7581_I2C_MASTER_RST] = RST_NR_PER_BANK + 16,
[EN7581_PCM2_ZSI_ISI_RST] = RST_NR_PER_BANK + 17,
[EN7581_SFC_RST] = RST_NR_PER_BANK + 18,
[EN7581_UART2_RST] = RST_NR_PER_BANK + 19,
[EN7581_GDMP_RST] = RST_NR_PER_BANK + 20,
[EN7581_FE_RST] = RST_NR_PER_BANK + 21,
[EN7581_USB_HOST_P0_RST] = RST_NR_PER_BANK + 22,
[EN7581_GSW_RST] = RST_NR_PER_BANK + 23,
[EN7581_SFC2_PCM_RST] = RST_NR_PER_BANK + 25,
[EN7581_PCIE0_RST] = RST_NR_PER_BANK + 26,
[EN7581_PCIE1_RST] = RST_NR_PER_BANK + 27,
[EN7581_CPU_TIMER_RST] = RST_NR_PER_BANK + 28,
[EN7581_PCIE_HB_RST] = RST_NR_PER_BANK + 29,
[EN7581_XPON_MAC_RST] = RST_NR_PER_BANK + 31,
};
static u32 en7523_get_base_rate(const struct en_clk_desc *desc, u32 val)
{
if (!desc->base_bits)
return desc->base_value;
val >>= desc->base_shift;
val &= (1 << desc->base_bits) - 1;
if (val >= desc->n_base_values)
return 0;
return desc->base_values[val];
}
static u32 en7523_get_div(const struct en_clk_desc *desc, u32 val)
{
if (!desc->div_bits)
return 1;
val >>= desc->div_shift;
val &= (1 << desc->div_bits) - 1;
if (!val && desc->div_val0)
return desc->div_val0;
return (val + desc->div_offset) * desc->div_step;
}
static int en7523_pci_is_enabled(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
return !!(readl(cg->base + REG_PCI_CONTROL) & REG_PCI_CONTROL_REFCLK_EN1);
}
static int en7523_pci_prepare(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
void __iomem *np_base = cg->base;
u32 val, mask;
/* Need to pull device low before reset */
val = readl(np_base + REG_PCI_CONTROL);
val &= ~(REG_PCI_CONTROL_PERSTOUT1 | REG_PCI_CONTROL_PERSTOUT);
writel(val, np_base + REG_PCI_CONTROL);
usleep_range(1000, 2000);
/* Enable PCIe port 1 */
val |= REG_PCI_CONTROL_REFCLK_EN1;
writel(val, np_base + REG_PCI_CONTROL);
usleep_range(1000, 2000);
/* Reset to default */
val = readl(np_base + REG_RESET_CONTROL1);
mask = REG_RESET_CONTROL_PCIE1 | REG_RESET_CONTROL_PCIE2 |
REG_RESET_CONTROL_PCIEHB;
writel(val & ~mask, np_base + REG_RESET_CONTROL1);
usleep_range(1000, 2000);
writel(val | mask, np_base + REG_RESET_CONTROL1);
msleep(100);
writel(val & ~mask, np_base + REG_RESET_CONTROL1);
usleep_range(5000, 10000);
/* Release device */
mask = REG_PCI_CONTROL_PERSTOUT1 | REG_PCI_CONTROL_PERSTOUT;
val = readl(np_base + REG_PCI_CONTROL);
writel(val & ~mask, np_base + REG_PCI_CONTROL);
usleep_range(1000, 2000);
writel(val | mask, np_base + REG_PCI_CONTROL);
msleep(250);
return 0;
}
static void en7523_pci_unprepare(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
void __iomem *np_base = cg->base;
u32 val;
val = readl(np_base + REG_PCI_CONTROL);
val &= ~REG_PCI_CONTROL_REFCLK_EN1;
writel(val, np_base + REG_PCI_CONTROL);
}
static struct clk_hw *en7523_register_pcie_clk(struct device *dev,
void __iomem *np_base)
{
const struct en_clk_soc_data *soc_data = device_get_match_data(dev);
struct clk_init_data init = {
.name = "pcie",
.ops = &soc_data->pcie_ops,
};
struct en_clk_gate *cg;
cg = devm_kzalloc(dev, sizeof(*cg), GFP_KERNEL);
if (!cg)
return NULL;
cg->base = np_base;
cg->hw.init = &init;
if (init.ops->unprepare)
init.ops->unprepare(&cg->hw);
if (clk_hw_register(dev, &cg->hw))
return NULL;
return &cg->hw;
}
static int en7581_pci_is_enabled(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
u32 val, mask;
mask = REG_PCI_CONTROL_REFCLK_EN0 | REG_PCI_CONTROL_REFCLK_EN1;
val = readl(cg->base + REG_PCI_CONTROL);
return (val & mask) == mask;
}
static int en7581_pci_enable(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
void __iomem *np_base = cg->base;
u32 val, mask;
mask = REG_PCI_CONTROL_REFCLK_EN0 | REG_PCI_CONTROL_REFCLK_EN1 |
REG_PCI_CONTROL_PERSTOUT1 | REG_PCI_CONTROL_PERSTOUT2 |
REG_PCI_CONTROL_PERSTOUT;
val = readl(np_base + REG_PCI_CONTROL);
writel(val | mask, np_base + REG_PCI_CONTROL);
return 0;
}
static void en7581_pci_disable(struct clk_hw *hw)
{
struct en_clk_gate *cg = container_of(hw, struct en_clk_gate, hw);
void __iomem *np_base = cg->base;
u32 val, mask;
mask = REG_PCI_CONTROL_REFCLK_EN0 | REG_PCI_CONTROL_REFCLK_EN1 |
REG_PCI_CONTROL_PERSTOUT1 | REG_PCI_CONTROL_PERSTOUT2 |
REG_PCI_CONTROL_PERSTOUT;
val = readl(np_base + REG_PCI_CONTROL);
writel(val & ~mask, np_base + REG_PCI_CONTROL);
usleep_range(1000, 2000);
}
static void en7523_register_clocks(struct device *dev, struct clk_hw_onecell_data *clk_data,
void __iomem *base, void __iomem *np_base)
{
struct clk_hw *hw;
u32 rate;
int i;
for (i = 0; i < ARRAY_SIZE(en7523_base_clks); i++) {
const struct en_clk_desc *desc = &en7523_base_clks[i];
u32 reg = desc->div_reg ? desc->div_reg : desc->base_reg;
u32 val = readl(base + desc->base_reg);
rate = en7523_get_base_rate(desc, val);
val = readl(base + reg);
rate /= en7523_get_div(desc, val);
hw = clk_hw_register_fixed_rate(dev, desc->name, NULL, 0, rate);
if (IS_ERR(hw)) {
pr_err("Failed to register clk %s: %ld\n",
desc->name, PTR_ERR(hw));
continue;
}
clk_data->hws[desc->id] = hw;
}
hw = en7523_register_pcie_clk(dev, np_base);
clk_data->hws[EN7523_CLK_PCIE] = hw;
}
static int en7523_clk_hw_init(struct platform_device *pdev,
struct clk_hw_onecell_data *clk_data)
{
void __iomem *base, *np_base;
base = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(base))
return PTR_ERR(base);
np_base = devm_platform_ioremap_resource(pdev, 1);
if (IS_ERR(np_base))
return PTR_ERR(np_base);
en7523_register_clocks(&pdev->dev, clk_data, base, np_base);
return 0;
}
static void en7581_register_clocks(struct device *dev, struct clk_hw_onecell_data *clk_data,
struct regmap *map, void __iomem *base)
{
struct clk_hw *hw;
u32 rate;
int i;
for (i = 0; i < ARRAY_SIZE(en7581_base_clks); i++) {
const struct en_clk_desc *desc = &en7581_base_clks[i];
u32 val, reg = desc->div_reg ? desc->div_reg : desc->base_reg;
int err;
err = regmap_read(map, desc->base_reg, &val);
if (err) {
pr_err("Failed reading fixed clk rate %s: %d\n",
desc->name, err);
continue;
}
rate = en7523_get_base_rate(desc, val);
err = regmap_read(map, reg, &val);
if (err) {
pr_err("Failed reading fixed clk div %s: %d\n",
desc->name, err);
continue;
}
rate /= en7523_get_div(desc, val);
hw = clk_hw_register_fixed_rate(dev, desc->name, NULL, 0, rate);
if (IS_ERR(hw)) {
pr_err("Failed to register clk %s: %ld\n",
desc->name, PTR_ERR(hw));
continue;
}
clk_data->hws[desc->id] = hw;
}
hw = en7523_register_pcie_clk(dev, base);
clk_data->hws[EN7523_CLK_PCIE] = hw;
}
static int en7523_reset_update(struct reset_controller_dev *rcdev,
unsigned long id, bool assert)
{
struct en_rst_data *rst_data = container_of(rcdev, struct en_rst_data, rcdev);
void __iomem *addr = rst_data->base + rst_data->bank_ofs[id / RST_NR_PER_BANK];
u32 val;
val = readl(addr);
if (assert)
val |= BIT(id % RST_NR_PER_BANK);
else
val &= ~BIT(id % RST_NR_PER_BANK);
writel(val, addr);
return 0;
}
static int en7523_reset_assert(struct reset_controller_dev *rcdev,
unsigned long id)
{
return en7523_reset_update(rcdev, id, true);
}
static int en7523_reset_deassert(struct reset_controller_dev *rcdev,
unsigned long id)
{
return en7523_reset_update(rcdev, id, false);
}
static int en7523_reset_status(struct reset_controller_dev *rcdev,
unsigned long id)
{
struct en_rst_data *rst_data = container_of(rcdev, struct en_rst_data, rcdev);
void __iomem *addr = rst_data->base + rst_data->bank_ofs[id / RST_NR_PER_BANK];
return !!(readl(addr) & BIT(id % RST_NR_PER_BANK));
}
static int en7523_reset_xlate(struct reset_controller_dev *rcdev,
const struct of_phandle_args *reset_spec)
{
struct en_rst_data *rst_data = container_of(rcdev, struct en_rst_data, rcdev);
if (reset_spec->args[0] >= rcdev->nr_resets)
return -EINVAL;
return rst_data->idx_map[reset_spec->args[0]];
}
static const struct reset_control_ops en7581_reset_ops = {
.assert = en7523_reset_assert,
.deassert = en7523_reset_deassert,
.status = en7523_reset_status,
};
static int en7581_reset_register(struct device *dev, void __iomem *base)
{
struct en_rst_data *rst_data;
rst_data = devm_kzalloc(dev, sizeof(*rst_data), GFP_KERNEL);
if (!rst_data)
return -ENOMEM;
rst_data->bank_ofs = en7581_rst_ofs;
rst_data->idx_map = en7581_rst_map;
rst_data->base = base;
rst_data->rcdev.nr_resets = ARRAY_SIZE(en7581_rst_map);
rst_data->rcdev.of_xlate = en7523_reset_xlate;
rst_data->rcdev.ops = &en7581_reset_ops;
rst_data->rcdev.of_node = dev->of_node;
rst_data->rcdev.of_reset_n_cells = 1;
rst_data->rcdev.owner = THIS_MODULE;
rst_data->rcdev.dev = dev;
return devm_reset_controller_register(dev, &rst_data->rcdev);
}
static int en7581_clk_hw_init(struct platform_device *pdev,
struct clk_hw_onecell_data *clk_data)
{
struct regmap *map;
void __iomem *base;
u32 val;
map = syscon_regmap_lookup_by_compatible("airoha,en7581-chip-scu");
if (IS_ERR(map))
return PTR_ERR(map);
base = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(base))
return PTR_ERR(base);
en7581_register_clocks(&pdev->dev, clk_data, map, base);
val = readl(base + REG_NP_SCU_SSTR);
val &= ~(REG_PCIE_XSI0_SEL_MASK | REG_PCIE_XSI1_SEL_MASK);
writel(val, base + REG_NP_SCU_SSTR);
val = readl(base + REG_NP_SCU_PCIC);
writel(val | 3, base + REG_NP_SCU_PCIC);
return en7581_reset_register(&pdev->dev, base);
}
static int en7523_clk_probe(struct platform_device *pdev)
{
struct device_node *node = pdev->dev.of_node;
const struct en_clk_soc_data *soc_data;
struct clk_hw_onecell_data *clk_data;
int r;
soc_data = device_get_match_data(&pdev->dev);
clk_data = devm_kzalloc(&pdev->dev,
struct_size(clk_data, hws, soc_data->num_clocks),
GFP_KERNEL);
if (!clk_data)
return -ENOMEM;
clk_data->num = soc_data->num_clocks;
r = soc_data->hw_init(pdev, clk_data);
if (r)
return r;
return of_clk_add_hw_provider(node, of_clk_hw_onecell_get, clk_data);
}
static const struct en_clk_soc_data en7523_data = {
.num_clocks = ARRAY_SIZE(en7523_base_clks) + 1,
.pcie_ops = {
.is_enabled = en7523_pci_is_enabled,
.prepare = en7523_pci_prepare,
.unprepare = en7523_pci_unprepare,
},
.hw_init = en7523_clk_hw_init,
};
static const struct en_clk_soc_data en7581_data = {
/* We increment num_clocks by 1 to account for additional PCIe clock */
.num_clocks = ARRAY_SIZE(en7581_base_clks) + 1,
.pcie_ops = {
.is_enabled = en7581_pci_is_enabled,
.enable = en7581_pci_enable,
.disable = en7581_pci_disable,
},
.hw_init = en7581_clk_hw_init,
};
static const struct of_device_id of_match_clk_en7523[] = {
{ .compatible = "airoha,en7523-scu", .data = &en7523_data },
{ .compatible = "airoha,en7581-scu", .data = &en7581_data },
{ /* sentinel */ }
};
static struct platform_driver clk_en7523_drv = {
.probe = en7523_clk_probe,
.driver = {
.name = "clk-en7523",
.of_match_table = of_match_clk_en7523,
.suppress_bind_attrs = true,
},
};
static int __init clk_en7523_init(void)
{
return platform_driver_register(&clk_en7523_drv);
}
arch_initcall(clk_en7523_init);
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