From 102b0d2daa97dae68d3eed54d8fe37a9cc38a892 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 28 Apr 2024 11:13:47 +0200 Subject: Adding upstream version 2.8.0+dfsg. Signed-off-by: Daniel Baumann --- plat/xilinx/zynqmp/pm_service/pm_api_clock.c | 3048 ++++++++++++++++++++++++ plat/xilinx/zynqmp/pm_service/pm_api_clock.h | 333 +++ plat/xilinx/zynqmp/pm_service/pm_api_ioctl.c | 767 ++++++ plat/xilinx/zynqmp/pm_service/pm_api_ioctl.h | 96 + plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.c | 2112 ++++++++++++++++ plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.h | 723 ++++++ plat/xilinx/zynqmp/pm_service/pm_api_sys.c | 1836 ++++++++++++++ plat/xilinx/zynqmp/pm_service/pm_api_sys.h | 197 ++ plat/xilinx/zynqmp/pm_service/pm_client.c | 354 +++ plat/xilinx/zynqmp/pm_service/pm_defs.h | 363 +++ plat/xilinx/zynqmp/pm_service/pm_svc_main.c | 621 +++++ plat/xilinx/zynqmp/pm_service/pm_svc_main.h | 20 + 12 files changed, 10470 insertions(+) create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_clock.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_clock.h create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_ioctl.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_ioctl.h create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.h create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_sys.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_api_sys.h create mode 100644 plat/xilinx/zynqmp/pm_service/pm_client.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_defs.h create mode 100644 plat/xilinx/zynqmp/pm_service/pm_svc_main.c create mode 100644 plat/xilinx/zynqmp/pm_service/pm_svc_main.h (limited to 'plat/xilinx/zynqmp/pm_service') diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_clock.c b/plat/xilinx/zynqmp/pm_service/pm_api_clock.c new file mode 100644 index 0000000..e61310a --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_clock.c @@ -0,0 +1,3048 @@ +/* + * Copyright (c) 2018-2020, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for clock control. + */ + +#include +#include + +#include +#include +#include + +#include "pm_api_clock.h" +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_common.h" +#include "pm_ipi.h" + +#define CLK_NODE_MAX (6U) + +#define CLK_PARENTS_ID_LEN (16U) +#define CLK_TOPOLOGY_NODE_OFFSET (16U) +#define CLK_TOPOLOGY_PAYLOAD_LEN (12U) +#define CLK_PARENTS_PAYLOAD_LEN (12U) +#define CLK_TYPE_SHIFT (2U) +#define CLK_CLKFLAGS_SHIFT (8U) +#define CLK_TYPEFLAGS_SHIFT (24U) +#define CLK_TYPEFLAGS2_SHIFT (4U) +#define CLK_TYPEFLAGS_BITS_MASK (0xFFU) +#define CLK_TYPEFLAGS2_BITS_MASK (0x0F00U) +#define CLK_TYPEFLAGS_BITS (8U) + +#define CLK_EXTERNAL_PARENT (PARENT_CLK_EXTERNAL << CLK_PARENTS_ID_LEN) + +#define NA_MULT (0U) +#define NA_DIV (0U) +#define NA_SHIFT (0U) +#define NA_WIDTH (0U) +#define NA_CLK_FLAGS (0U) +#define NA_TYPE_FLAGS (0U) + +/* PLL nodes related definitions */ +#define PLL_PRESRC_MUX_SHIFT (20U) +#define PLL_PRESRC_MUX_WIDTH (3U) +#define PLL_POSTSRC_MUX_SHIFT (24U) +#define PLL_POSTSRC_MUX_WIDTH (3U) +#define PLL_DIV2_MUX_SHIFT (16U) +#define PLL_DIV2_MUX_WIDTH (1U) +#define PLL_BYPASS_MUX_SHIFT (3U) +#define PLL_BYPASS_MUX_WIDTH (1U) + +/* Peripheral nodes related definitions */ +/* Peripheral Clocks */ +#define PERIPH_MUX_SHIFT (0U) +#define PERIPH_MUX_WIDTH (3U) +#define PERIPH_DIV1_SHIFT (8U) +#define PERIPH_DIV1_WIDTH (6U) +#define PERIPH_DIV2_SHIFT (16U) +#define PERIPH_DIV2_WIDTH (6U) +#define PERIPH_GATE_SHIFT (24U) +#define PERIPH_GATE_WIDTH (1U) + +#define USB_GATE_SHIFT (25U) + +/* External clock related definitions */ + +#define EXT_CLK_MIO_DATA(mio) \ + [EXT_CLK_INDEX(EXT_CLK_MIO##mio)] = { \ + .name = "mio_clk_"#mio, \ + } + +#define EXT_CLK_INDEX(n) (n - CLK_MAX_OUTPUT_CLK) + +/* Clock control related definitions */ +#define BIT_MASK(x, y) (((1U << (y)) - 1) << (x)) + +#define ISPLL(id) (id == CLK_APLL_INT || \ + id == CLK_DPLL_INT || \ + id == CLK_VPLL_INT || \ + id == CLK_IOPLL_INT || \ + id == CLK_RPLL_INT) + + +#define PLLCTRL_BP_MASK BIT(3) +#define PLLCTRL_RESET_MASK (1U) +#define PLL_FRAC_OFFSET (8U) +#define PLL_FRAC_MODE (1U) +#define PLL_INT_MODE (0U) +#define PLL_FRAC_MODE_MASK (0x80000000U) +#define PLL_FRAC_MODE_SHIFT (31U) +#define PLL_FRAC_DATA_MASK (0xFFFFU) +#define PLL_FRAC_DATA_SHIFT (0U) +#define PLL_FBDIV_MASK (0x7F00U) +#define PLL_FBDIV_WIDTH (7U) +#define PLL_FBDIV_SHIFT (8U) + +#define CLK_PLL_RESET_ASSERT (1U) +#define CLK_PLL_RESET_RELEASE (2U) +#define CLK_PLL_RESET_PULSE (CLK_PLL_RESET_ASSERT | CLK_PLL_RESET_RELEASE) + +/* Common topology definitions */ +#define GENERIC_MUX \ + { \ + .type = TYPE_MUX, \ + .offset = PERIPH_MUX_SHIFT, \ + .width = PERIPH_MUX_WIDTH, \ + .clkflags = CLK_SET_RATE_NO_REPARENT | \ + CLK_IS_BASIC, \ + .typeflags = NA_TYPE_FLAGS, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define IGNORE_UNUSED_MUX \ + { \ + .type = TYPE_MUX, \ + .offset = PERIPH_MUX_SHIFT, \ + .width = PERIPH_MUX_WIDTH, \ + .clkflags = CLK_IGNORE_UNUSED | \ + CLK_SET_RATE_NO_REPARENT | \ + CLK_IS_BASIC, \ + .typeflags = NA_TYPE_FLAGS, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define GENERIC_DIV1 \ + { \ + .type = TYPE_DIV1, \ + .offset = PERIPH_DIV1_SHIFT, \ + .width = PERIPH_DIV1_WIDTH, \ + .clkflags = CLK_SET_RATE_NO_REPARENT | \ + CLK_IS_BASIC, \ + .typeflags = CLK_DIVIDER_ONE_BASED | \ + CLK_DIVIDER_ALLOW_ZERO, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define GENERIC_DIV2 \ + { \ + .type = TYPE_DIV2, \ + .offset = PERIPH_DIV2_SHIFT, \ + .width = PERIPH_DIV2_WIDTH, \ + .clkflags = CLK_SET_RATE_NO_REPARENT | \ + CLK_SET_RATE_PARENT | \ + CLK_IS_BASIC, \ + .typeflags = CLK_DIVIDER_ONE_BASED | \ + CLK_DIVIDER_ALLOW_ZERO, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define IGNORE_UNUSED_DIV(id) \ + { \ + .type = TYPE_DIV##id, \ + .offset = PERIPH_DIV##id##_SHIFT, \ + .width = PERIPH_DIV##id##_WIDTH, \ + .clkflags = CLK_IGNORE_UNUSED | \ + CLK_SET_RATE_NO_REPARENT | \ + CLK_IS_BASIC, \ + .typeflags = CLK_DIVIDER_ONE_BASED | \ + CLK_DIVIDER_ALLOW_ZERO, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define GENERIC_GATE \ + { \ + .type = TYPE_GATE, \ + .offset = PERIPH_GATE_SHIFT, \ + .width = PERIPH_GATE_WIDTH, \ + .clkflags = CLK_SET_RATE_PARENT | \ + CLK_SET_RATE_GATE | \ + CLK_IS_BASIC, \ + .typeflags = NA_TYPE_FLAGS, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +#define IGNORE_UNUSED_GATE \ + { \ + .type = TYPE_GATE, \ + .offset = PERIPH_GATE_SHIFT, \ + .width = PERIPH_GATE_WIDTH, \ + .clkflags = CLK_SET_RATE_PARENT | \ + CLK_IGNORE_UNUSED | \ + CLK_IS_BASIC, \ + .typeflags = NA_TYPE_FLAGS, \ + .mult = NA_MULT, \ + .div = NA_DIV, \ + } + +/** + * struct pm_clock_node - Clock topology node information + * @type: Topology type (mux/div1/div2/gate/pll/fixed factor) + * @offset: Offset in control register + * @width: Width of the specific type in control register + * @clkflags: Clk specific flags + * @typeflags: Type specific flags + * @mult: Multiplier for fixed factor + * @div: Divisor for fixed factor + */ +struct pm_clock_node { + uint16_t clkflags; + uint16_t typeflags; + uint8_t type; + uint8_t offset; + uint8_t width; + uint8_t mult:4; + uint8_t div:4; +}; + +/** + * struct pm_clock - Clock structure + * @name: Clock name + * @control_reg: Control register address + * @status_reg: Status register address + * @parents: Parents for first clock node. Lower byte indicates parent + * clock id and upper byte indicate flags for that id. + * pm_clock_node: Clock nodes + */ +struct pm_clock { + char name[CLK_NAME_LEN]; + uint8_t num_nodes; + uint32_t control_reg; + uint32_t status_reg; + int32_t (*parents)[]; + struct pm_clock_node(*nodes)[]; +}; + +/** + * struct pm_clock - Clock structure + * @name: Clock name + */ +struct pm_ext_clock { + char name[CLK_NAME_LEN]; +}; + +/* PLL Clocks */ +static struct pm_clock_node generic_pll_nodes[] = { + { + .type = TYPE_PLL, + .offset = NA_SHIFT, + .width = NA_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node ignore_unused_pll_nodes[] = { + { + .type = TYPE_PLL, + .offset = NA_SHIFT, + .width = NA_WIDTH, + .clkflags = CLK_IGNORE_UNUSED | CLK_SET_RATE_NO_REPARENT, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_pll_pre_src_nodes[] = { + { + .type = TYPE_MUX, + .offset = PLL_PRESRC_MUX_SHIFT, + .width = PLL_PRESRC_MUX_WIDTH, + .clkflags = CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_pll_half_nodes[] = { + { + .type = TYPE_FIXEDFACTOR, + .offset = NA_SHIFT, + .width = NA_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_SET_RATE_PARENT, + .typeflags = NA_TYPE_FLAGS, + .mult = 1, + .div = 2, + }, +}; + +static struct pm_clock_node generic_pll_int_nodes[] = { + { + .type = TYPE_MUX, + .offset = PLL_DIV2_MUX_SHIFT, + .width = PLL_DIV2_MUX_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | + CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_pll_post_src_nodes[] = { + { + .type = TYPE_MUX, + .offset = PLL_POSTSRC_MUX_SHIFT, + .width = PLL_POSTSRC_MUX_WIDTH, + .clkflags = CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_pll_system_nodes[] = { + { + .type = TYPE_MUX, + .offset = PLL_BYPASS_MUX_SHIFT, + .width = PLL_BYPASS_MUX_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | + CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node acpu_nodes[] = { + { + .type = TYPE_MUX, + .offset = PERIPH_MUX_SHIFT, + .width = PERIPH_MUX_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_DIV1, + .offset = PERIPH_DIV1_SHIFT, + .width = PERIPH_DIV1_WIDTH, + .clkflags = CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_mux_div_nodes[] = { + GENERIC_MUX, + GENERIC_DIV1, +}; + +static struct pm_clock_node generic_mux_div_gate_nodes[] = { + GENERIC_MUX, + GENERIC_DIV1, + GENERIC_GATE, +}; + +static struct pm_clock_node generic_mux_div_unused_gate_nodes[] = { + GENERIC_MUX, + GENERIC_DIV1, + IGNORE_UNUSED_GATE, +}; + +static struct pm_clock_node generic_mux_div_div_gate_nodes[] = { + GENERIC_MUX, + GENERIC_DIV1, + GENERIC_DIV2, + GENERIC_GATE, +}; + +static struct pm_clock_node dp_audio_video_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = PERIPH_MUX_SHIFT, + .width = PERIPH_MUX_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | + CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = CLK_FRAC, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_DIV1, + .offset = PERIPH_DIV1_SHIFT, + .width = PERIPH_DIV1_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO | + CLK_FRAC, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_DIV2, + .offset = PERIPH_DIV2_SHIFT, + .width = PERIPH_DIV2_WIDTH, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO | + CLK_FRAC, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_GATE, + .offset = PERIPH_GATE_SHIFT, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_GATE | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node usb_nodes[] = { + GENERIC_MUX, + GENERIC_DIV1, + GENERIC_DIV2, + { + .type = TYPE_GATE, + .offset = USB_GATE_SHIFT, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC | + CLK_SET_RATE_GATE, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node generic_domain_crossing_nodes[] = { + { + .type = TYPE_DIV1, + .offset = 8, + .width = 6, + .clkflags = CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node rpll_to_fpd_nodes[] = { + { + .type = TYPE_DIV1, + .offset = 8, + .width = 6, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node acpu_half_nodes[] = { + { + .type = TYPE_FIXEDFACTOR, + .offset = 0, + .width = 1, + .clkflags = 0, + .typeflags = 0, + .mult = 1, + .div = 2, + }, + { + .type = TYPE_GATE, + .offset = 25, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_IGNORE_UNUSED | + CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node acpu_full_nodes[] = { + { + .type = TYPE_GATE, + .offset = 24, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_IGNORE_UNUSED | + CLK_SET_RATE_PARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node wdt_nodes[] = { + { + .type = TYPE_MUX, + .offset = 0, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node ddr_nodes[] = { + GENERIC_MUX, + { + .type = TYPE_DIV1, + .offset = 8, + .width = 6, + .clkflags = CLK_IS_BASIC | CLK_IS_CRITICAL, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node pl_nodes[] = { + GENERIC_MUX, + { + .type = TYPE_DIV1, + .offset = PERIPH_DIV1_SHIFT, + .width = PERIPH_DIV1_WIDTH, + .clkflags = CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_DIV2, + .offset = PERIPH_DIV2_SHIFT, + .width = PERIPH_DIV2_WIDTH, + .clkflags = CLK_IS_BASIC | CLK_SET_RATE_PARENT, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_GATE, + .offset = PERIPH_GATE_SHIFT, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gpu_pp0_nodes[] = { + { + .type = TYPE_GATE, + .offset = 25, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gpu_pp1_nodes[] = { + { + .type = TYPE_GATE, + .offset = 26, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem_ref_ungated_nodes[] = { + GENERIC_MUX, + { + .type = TYPE_DIV1, + .offset = 8, + .width = 6, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, + { + .type = TYPE_DIV2, + .offset = 16, + .width = 6, + .clkflags = CLK_SET_RATE_NO_REPARENT | CLK_IS_BASIC | + CLK_SET_RATE_PARENT, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem0_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = 1, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem1_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = 6, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem2_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = 11, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem3_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = 16, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem_tx_nodes[] = { + { + .type = TYPE_GATE, + .offset = 25, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_SET_RATE_PARENT | CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem_rx_nodes[] = { + { + .type = TYPE_GATE, + .offset = 26, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node gem_tsu_nodes[] = { + { + .type = TYPE_MUX, + .offset = 20, + .width = 2, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node can0_mio_nodes[] = { + { + .type = TYPE_MUX, + .offset = 0, + .width = 7, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node can1_mio_nodes[] = { + { + .type = TYPE_MUX, + .offset = 15, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node can0_nodes[] = { + { + .type = TYPE_MUX, + .offset = 7, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node can1_nodes[] = { + { + .type = TYPE_MUX, + .offset = 22, + .width = 1, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node cpu_r5_core_nodes[] = { + { + .type = TYPE_GATE, + .offset = 25, + .width = PERIPH_GATE_WIDTH, + .clkflags = CLK_IGNORE_UNUSED | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node dll_ref_nodes[] = { + { + .type = TYPE_MUX, + .offset = 0, + .width = 3, + .clkflags = CLK_SET_RATE_PARENT | + CLK_SET_RATE_NO_REPARENT | + CLK_IS_BASIC, + .typeflags = NA_TYPE_FLAGS, + .mult = NA_MULT, + .div = NA_DIV, + }, +}; + +static struct pm_clock_node timestamp_ref_nodes[] = { + GENERIC_MUX, + { + .type = TYPE_DIV1, + .offset = 8, + .width = 6, + .clkflags = CLK_IS_BASIC, + .typeflags = CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ALLOW_ZERO, + .mult = NA_MULT, + .div = NA_DIV, + }, + IGNORE_UNUSED_GATE, +}; + +static int32_t can_mio_parents[] = { + EXT_CLK_MIO0, EXT_CLK_MIO1, EXT_CLK_MIO2, EXT_CLK_MIO3, + EXT_CLK_MIO4, EXT_CLK_MIO5, EXT_CLK_MIO6, EXT_CLK_MIO7, + EXT_CLK_MIO8, EXT_CLK_MIO9, EXT_CLK_MIO10, EXT_CLK_MIO11, + EXT_CLK_MIO12, EXT_CLK_MIO13, EXT_CLK_MIO14, EXT_CLK_MIO15, + EXT_CLK_MIO16, EXT_CLK_MIO17, EXT_CLK_MIO18, EXT_CLK_MIO19, + EXT_CLK_MIO20, EXT_CLK_MIO21, EXT_CLK_MIO22, EXT_CLK_MIO23, + EXT_CLK_MIO24, EXT_CLK_MIO25, EXT_CLK_MIO26, EXT_CLK_MIO27, + EXT_CLK_MIO28, EXT_CLK_MIO29, EXT_CLK_MIO30, EXT_CLK_MIO31, + EXT_CLK_MIO32, EXT_CLK_MIO33, EXT_CLK_MIO34, EXT_CLK_MIO35, + EXT_CLK_MIO36, EXT_CLK_MIO37, EXT_CLK_MIO38, EXT_CLK_MIO39, + EXT_CLK_MIO40, EXT_CLK_MIO41, EXT_CLK_MIO42, EXT_CLK_MIO43, + EXT_CLK_MIO44, EXT_CLK_MIO45, EXT_CLK_MIO46, EXT_CLK_MIO47, + EXT_CLK_MIO48, EXT_CLK_MIO49, EXT_CLK_MIO50, EXT_CLK_MIO51, + EXT_CLK_MIO52, EXT_CLK_MIO53, EXT_CLK_MIO54, EXT_CLK_MIO55, + EXT_CLK_MIO56, EXT_CLK_MIO57, EXT_CLK_MIO58, EXT_CLK_MIO59, + EXT_CLK_MIO60, EXT_CLK_MIO61, EXT_CLK_MIO62, EXT_CLK_MIO63, + EXT_CLK_MIO64, EXT_CLK_MIO65, EXT_CLK_MIO66, EXT_CLK_MIO67, + EXT_CLK_MIO68, EXT_CLK_MIO69, EXT_CLK_MIO70, EXT_CLK_MIO71, + EXT_CLK_MIO72, EXT_CLK_MIO73, EXT_CLK_MIO74, EXT_CLK_MIO75, + EXT_CLK_MIO76, EXT_CLK_MIO77, CLK_NA_PARENT +}; + +/* Clock array containing clock informaton */ +static struct pm_clock clocks[] = { + [CLK_APLL_INT] = { + .name = "apll_int", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_APLL_PRE_SRC, CLK_NA_PARENT}), + .nodes = &ignore_unused_pll_nodes, + .num_nodes = ARRAY_SIZE(ignore_unused_pll_nodes), + }, + [CLK_APLL_PRE_SRC] = { + .name = "apll_pre_src", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_pre_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_pre_src_nodes), + }, + [CLK_APLL_HALF] = { + .name = "apll_half", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_APLL_INT, CLK_NA_PARENT}), + .nodes = &generic_pll_half_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_half_nodes), + }, + [CLK_APLL_INT_MUX] = { + .name = "apll_int_mux", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_APLL_INT, + CLK_APLL_HALF, + CLK_NA_PARENT + }), + .nodes = &generic_pll_int_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_int_nodes), + }, + [CLK_APLL_POST_SRC] = { + .name = "apll_post_src", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_post_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_post_src_nodes), + }, + [CLK_APLL] = { + .name = "apll", + .control_reg = CRF_APB_APLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_APLL_INT_MUX, + CLK_APLL_POST_SRC, + CLK_NA_PARENT + }), + .nodes = &generic_pll_system_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_system_nodes), + }, + [CLK_DPLL_INT] = { + .name = "dpll_int", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_DPLL_PRE_SRC, CLK_NA_PARENT}), + .nodes = &generic_pll_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_nodes), + }, + [CLK_DPLL_PRE_SRC] = { + .name = "dpll_pre_src", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_pre_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_pre_src_nodes), + }, + [CLK_DPLL_HALF] = { + .name = "dpll_half", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_DPLL_INT, CLK_NA_PARENT}), + .nodes = &generic_pll_half_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_half_nodes), + }, + [CLK_DPLL_INT_MUX] = { + .name = "dpll_int_mux", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_DPLL_INT, + CLK_DPLL_HALF, + CLK_NA_PARENT + }), + .nodes = &generic_pll_int_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_int_nodes), + }, + [CLK_DPLL_POST_SRC] = { + .name = "dpll_post_src", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_post_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_post_src_nodes), + }, + [CLK_DPLL] = { + .name = "dpll", + .control_reg = CRF_APB_DPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_DPLL_INT_MUX, + CLK_DPLL_POST_SRC, + CLK_NA_PARENT + }), + .nodes = &generic_pll_system_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_system_nodes), + }, + [CLK_VPLL_INT] = { + .name = "vpll_int", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_VPLL_PRE_SRC, CLK_NA_PARENT}), + .nodes = &ignore_unused_pll_nodes, + .num_nodes = ARRAY_SIZE(ignore_unused_pll_nodes), + }, + [CLK_VPLL_PRE_SRC] = { + .name = "vpll_pre_src", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_pre_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_pre_src_nodes), + }, + [CLK_VPLL_HALF] = { + .name = "vpll_half", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_VPLL_INT, CLK_NA_PARENT}), + .nodes = &generic_pll_half_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_half_nodes), + }, + [CLK_VPLL_INT_MUX] = { + .name = "vpll_int_mux", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_VPLL_INT, + CLK_VPLL_HALF, + CLK_NA_PARENT + }), + .nodes = &generic_pll_int_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_int_nodes), + }, + [CLK_VPLL_POST_SRC] = { + .name = "vpll_post_src", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_post_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_post_src_nodes), + }, + [CLK_VPLL] = { + .name = "vpll", + .control_reg = CRF_APB_VPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_VPLL_INT_MUX, + CLK_VPLL_POST_SRC, + CLK_NA_PARENT + }), + .nodes = &generic_pll_system_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_system_nodes), + }, + [CLK_IOPLL_INT] = { + .name = "iopll_int", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_IOPLL_PRE_SRC, CLK_NA_PARENT}), + .nodes = &generic_pll_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_nodes), + }, + [CLK_IOPLL_PRE_SRC] = { + .name = "iopll_pre_src", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_pre_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_pre_src_nodes), + }, + [CLK_IOPLL_HALF] = { + .name = "iopll_half", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_IOPLL_INT, CLK_NA_PARENT}), + .nodes = &generic_pll_half_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_half_nodes), + }, + [CLK_IOPLL_INT_MUX] = { + .name = "iopll_int_mux", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_IOPLL_INT, + CLK_IOPLL_HALF, + CLK_NA_PARENT + }), + .nodes = &generic_pll_int_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_int_nodes), + }, + [CLK_IOPLL_POST_SRC] = { + .name = "iopll_post_src", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_post_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_post_src_nodes), + }, + [CLK_IOPLL] = { + .name = "iopll", + .control_reg = CRL_APB_IOPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_IOPLL_INT_MUX, + CLK_IOPLL_POST_SRC, + CLK_NA_PARENT + }), + .nodes = &generic_pll_system_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_system_nodes), + }, + [CLK_RPLL_INT] = { + .name = "rpll_int", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_RPLL_PRE_SRC, CLK_NA_PARENT}), + .nodes = &generic_pll_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_nodes), + }, + [CLK_RPLL_PRE_SRC] = { + .name = "rpll_pre_src", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + + .nodes = &generic_pll_pre_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_pre_src_nodes), + }, + [CLK_RPLL_HALF] = { + .name = "rpll_half", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) {CLK_RPLL_INT, CLK_NA_PARENT}), + .nodes = &generic_pll_half_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_half_nodes), + }, + [CLK_RPLL_INT_MUX] = { + .name = "rpll_int_mux", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_RPLL_INT, + CLK_RPLL_HALF, + CLK_NA_PARENT + }), + .nodes = &generic_pll_int_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_int_nodes), + }, + [CLK_RPLL_POST_SRC] = { + .name = "rpll_post_src", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRF_APB_PLL_STATUS, + .parents = &((int32_t []) { + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_VIDEO | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_ALT_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_AUX_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_GT_CRX_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &generic_pll_post_src_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_post_src_nodes), + }, + [CLK_RPLL] = { + .name = "rpll", + .control_reg = CRL_APB_RPLL_CTRL, + .status_reg = CRL_APB_PLL_STATUS, + .parents = &((int32_t []) { + CLK_RPLL_INT_MUX, + CLK_RPLL_POST_SRC, + CLK_NA_PARENT + }), + .nodes = &generic_pll_system_nodes, + .num_nodes = ARRAY_SIZE(generic_pll_system_nodes), + }, + /* Peripheral Clocks */ + [CLK_ACPU] = { + .name = "acpu", + .control_reg = CRF_APB_ACPU_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_APLL, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_VPLL, + CLK_NA_PARENT + }), + .nodes = &acpu_nodes, + .num_nodes = ARRAY_SIZE(acpu_nodes), + }, + [CLK_ACPU_FULL] = { + .name = "acpu_full", + .control_reg = CRF_APB_ACPU_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_ACPU | PARENT_CLK_NODE2 << CLK_PARENTS_ID_LEN, + CLK_NA_PARENT + }), + .nodes = &acpu_full_nodes, + .num_nodes = ARRAY_SIZE(acpu_full_nodes), + }, + [CLK_DBG_TRACE] = { + .name = "dbg_trace", + .control_reg = CRF_APB_DBG_TRACE_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_APLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_DBG_FPD] = { + .name = "dbg_fpd", + .control_reg = CRF_APB_DBG_FPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_APLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_DBG_TSTMP] = { + .name = "dbg_tstmp", + .control_reg = CRF_APB_DBG_TSTMP_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_APLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_nodes), + }, + [CLK_DP_VIDEO_REF] = { + .name = "dp_video_ref", + .control_reg = CRF_APB_DP_VIDEO_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_VPLL, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_RPLL_TO_FPD, + CLK_NA_PARENT + }), + .nodes = &dp_audio_video_ref_nodes, + .num_nodes = ARRAY_SIZE(dp_audio_video_ref_nodes), + }, + [CLK_DP_AUDIO_REF] = { + .name = "dp_audio_ref", + .control_reg = CRF_APB_DP_AUDIO_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_VPLL, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_RPLL_TO_FPD, + CLK_NA_PARENT + }), + .nodes = &dp_audio_video_ref_nodes, + .num_nodes = ARRAY_SIZE(dp_audio_video_ref_nodes), + }, + [CLK_DP_STC_REF] = { + .name = "dp_stc_ref", + .control_reg = CRF_APB_DP_STC_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_VPLL, + CLK_DUMMY_PARENT, + CLK_DPLL, + CLK_RPLL_TO_FPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_DPDMA_REF] = { + .name = "dpdma_ref", + .control_reg = CRF_APB_DPDMA_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_APLL, + CLK_DUMMY_PARENT, + CLK_VPLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_DDR_REF] = { + .name = "ddr_ref", + .control_reg = CRF_APB_DDR_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_DPLL, + CLK_VPLL, + CLK_NA_PARENT + }), + .nodes = &ddr_nodes, + .num_nodes = ARRAY_SIZE(ddr_nodes), + }, + [CLK_GPU_REF] = { + .name = "gpu_ref", + .control_reg = CRF_APB_GPU_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_VPLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_SATA_REF] = { + .name = "sata_ref", + .control_reg = CRF_APB_SATA_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_APLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_PCIE_REF] = { + .name = "pcie_ref", + .control_reg = CRF_APB_PCIE_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_RPLL_TO_FPD, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_GDMA_REF] = { + .name = "gdma_ref", + .control_reg = CRF_APB_GDMA_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_APLL, + CLK_DUMMY_PARENT, + CLK_VPLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_GTGREF0_REF] = { + .name = "gtgref0_ref", + .control_reg = CRF_APB_GTGREF0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL_TO_FPD, + CLK_DUMMY_PARENT, + CLK_APLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_TOPSW_MAIN] = { + .name = "topsw_main", + .control_reg = CRF_APB_TOPSW_MAIN_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_APLL, + CLK_DUMMY_PARENT, + CLK_VPLL, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_TOPSW_LSBUS] = { + .name = "topsw_lsbus", + .control_reg = CRF_APB_TOPSW_LSBUS_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_APLL, + CLK_DUMMY_PARENT, + CLK_IOPLL_TO_FPD, + CLK_DPLL, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_IOU_SWITCH] = { + .name = "iou_switch", + .control_reg = CRL_APB_IOU_SWITCH_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_GEM0_REF_UNGATED] = { + .name = "gem0_ref_ung", + .control_reg = CRL_APB_GEM0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &gem_ref_ungated_nodes, + .num_nodes = ARRAY_SIZE(gem_ref_ungated_nodes), + }, + [CLK_GEM1_REF_UNGATED] = { + .name = "gem1_ref_ung", + .control_reg = CRL_APB_GEM1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &gem_ref_ungated_nodes, + .num_nodes = ARRAY_SIZE(gem_ref_ungated_nodes), + }, + [CLK_GEM2_REF_UNGATED] = { + .name = "gem2_ref_ung", + .control_reg = CRL_APB_GEM2_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &gem_ref_ungated_nodes, + .num_nodes = ARRAY_SIZE(gem_ref_ungated_nodes), + }, + [CLK_GEM3_REF_UNGATED] = { + .name = "gem3_ref_ung", + .control_reg = CRL_APB_GEM3_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &gem_ref_ungated_nodes, + .num_nodes = ARRAY_SIZE(gem_ref_ungated_nodes), + }, + [CLK_GEM0_REF] = { + .name = "gem0_ref", + .control_reg = IOU_SLCR_GEM_CLK_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM0_REF_UNGATED | + (PARENT_CLK_NODE3 << CLK_PARENTS_ID_LEN), + EXT_CLK_GEM0_TX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem0_ref_nodes, + .num_nodes = ARRAY_SIZE(gem0_ref_nodes), + }, + [CLK_GEM1_REF] = { + .name = "gem1_ref", + .control_reg = IOU_SLCR_GEM_CLK_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM1_REF_UNGATED | + (PARENT_CLK_NODE3 << CLK_PARENTS_ID_LEN), + EXT_CLK_GEM1_TX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem1_ref_nodes, + .num_nodes = ARRAY_SIZE(gem1_ref_nodes), + }, + [CLK_GEM2_REF] = { + .name = "gem2_ref", + .control_reg = IOU_SLCR_GEM_CLK_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM2_REF_UNGATED | + (PARENT_CLK_NODE3 << CLK_PARENTS_ID_LEN), + EXT_CLK_GEM2_TX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem2_ref_nodes, + .num_nodes = ARRAY_SIZE(gem2_ref_nodes), + }, + [CLK_GEM3_REF] = { + .name = "gem3_ref", + .control_reg = IOU_SLCR_GEM_CLK_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM3_REF_UNGATED | + (PARENT_CLK_NODE3 << CLK_PARENTS_ID_LEN), + EXT_CLK_GEM3_TX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem3_ref_nodes, + .num_nodes = ARRAY_SIZE(gem3_ref_nodes), + }, + [CLK_USB0_BUS_REF] = { + .name = "usb0_bus_ref", + .control_reg = CRL_APB_USB0_BUS_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &usb_nodes, + .num_nodes = ARRAY_SIZE(usb_nodes), + }, + [CLK_USB1_BUS_REF] = { + .name = "usb1_bus_ref", + .control_reg = CRL_APB_USB1_BUS_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &usb_nodes, + .num_nodes = ARRAY_SIZE(usb_nodes), + }, + [CLK_USB3_DUAL_REF] = { + .name = "usb3_dual_ref", + .control_reg = CRL_APB_USB3_DUAL_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &usb_nodes, + .num_nodes = ARRAY_SIZE(usb_nodes), + }, + [CLK_QSPI_REF] = { + .name = "qspi_ref", + .control_reg = CRL_APB_QSPI_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_SDIO0_REF] = { + .name = "sdio0_ref", + .control_reg = CRL_APB_SDIO0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_VPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_SDIO1_REF] = { + .name = "sdio1_ref", + .control_reg = CRL_APB_SDIO1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_VPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_UART0_REF] = { + .name = "uart0_ref", + .control_reg = CRL_APB_UART0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_UART1_REF] = { + .name = "uart1_ref", + .control_reg = CRL_APB_UART1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_SPI0_REF] = { + .name = "spi0_ref", + .control_reg = CRL_APB_SPI0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_SPI1_REF] = { + .name = "spi1_ref", + .control_reg = CRL_APB_SPI1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_CAN0_REF] = { + .name = "can0_ref", + .control_reg = CRL_APB_CAN0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_CAN1_REF] = { + .name = "can1_ref", + .control_reg = CRL_APB_CAN1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_NAND_REF] = { + .name = "nand_ref", + .control_reg = CRL_APB_NAND_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_GEM_TSU_REF] = { + .name = "gem_tsu_ref", + .control_reg = CRL_APB_GEM_TSU_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_DLL_REF] = { + .name = "dll_ref", + .control_reg = CRL_APB_DLL_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_RPLL, + CLK_NA_PARENT + }), + .nodes = &dll_ref_nodes, + .num_nodes = ARRAY_SIZE(dll_ref_nodes), + }, + [CLK_ADMA_REF] = { + .name = "adma_ref", + .control_reg = CRL_APB_ADMA_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_DBG_LPD] = { + .name = "dbg_lpd", + .control_reg = CRL_APB_DBG_LPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_CPU_R5] = { + .name = "cpu_r5", + .control_reg = CRL_APB_CPU_R5_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_CSU_PLL] = { + .name = "csu_pll", + .control_reg = CRL_APB_CSU_PLL_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_PCAP] = { + .name = "pcap", + .control_reg = CRL_APB_PCAP_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_gate_nodes), + }, + [CLK_LPD_LSBUS] = { + .name = "lpd_lsbus", + .control_reg = CRL_APB_LPD_LSBUS_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_LPD_SWITCH] = { + .name = "lpd_switch", + .control_reg = CRL_APB_LPD_SWITCH_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_unused_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_unused_gate_nodes), + }, + [CLK_I2C0_REF] = { + .name = "i2c0_ref", + .control_reg = CRL_APB_I2C0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_I2C1_REF] = { + .name = "i2c1_ref", + .control_reg = CRL_APB_I2C1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_TIMESTAMP_REF] = { + .name = "timestamp_ref", + .control_reg = CRL_APB_TIMESTAMP_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + EXT_CLK_PSS_REF | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = ×tamp_ref_nodes, + .num_nodes = ARRAY_SIZE(timestamp_ref_nodes), + }, + [CLK_PL0_REF] = { + .name = "pl0_ref", + .control_reg = CRL_APB_PL0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &pl_nodes, + .num_nodes = ARRAY_SIZE(pl_nodes), + }, + [CLK_PL1_REF] = { + .name = "pl1_ref", + .control_reg = CRL_APB_PL1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &pl_nodes, + .num_nodes = ARRAY_SIZE(pl_nodes), + }, + [CLK_PL2_REF] = { + .name = "pl2_ref", + .control_reg = CRL_APB_PL2_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &pl_nodes, + .num_nodes = ARRAY_SIZE(pl_nodes), + }, + [CLK_PL3_REF] = { + .name = "pl3_ref", + .control_reg = CRL_APB_PL3_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_IOPLL, + CLK_DUMMY_PARENT, + CLK_RPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &pl_nodes, + .num_nodes = ARRAY_SIZE(pl_nodes), + }, + [CLK_AMS_REF] = { + .name = "ams_ref", + .control_reg = CRL_APB_AMS_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_RPLL, + CLK_DUMMY_PARENT, + CLK_IOPLL, + CLK_DPLL_TO_LPD, + CLK_NA_PARENT + }), + .nodes = &generic_mux_div_div_gate_nodes, + .num_nodes = ARRAY_SIZE(generic_mux_div_div_gate_nodes), + }, + [CLK_IOPLL_TO_FPD] = { + .name = "iopll_to_fpd", + .control_reg = CRL_APB_IOPLL_TO_FPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) {CLK_IOPLL, CLK_NA_PARENT}), + .nodes = &generic_domain_crossing_nodes, + .num_nodes = ARRAY_SIZE(generic_domain_crossing_nodes), + }, + [CLK_RPLL_TO_FPD] = { + .name = "rpll_to_fpd", + .control_reg = CRL_APB_RPLL_TO_FPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) {CLK_RPLL, CLK_NA_PARENT}), + .nodes = &rpll_to_fpd_nodes, + .num_nodes = ARRAY_SIZE(rpll_to_fpd_nodes), + }, + [CLK_APLL_TO_LPD] = { + .name = "apll_to_lpd", + .control_reg = CRF_APB_APLL_TO_LPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) {CLK_APLL, CLK_NA_PARENT}), + .nodes = &generic_domain_crossing_nodes, + .num_nodes = ARRAY_SIZE(generic_domain_crossing_nodes), + }, + [CLK_DPLL_TO_LPD] = { + .name = "dpll_to_lpd", + .control_reg = CRF_APB_DPLL_TO_LPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) {CLK_DPLL, CLK_NA_PARENT}), + .nodes = &generic_domain_crossing_nodes, + .num_nodes = ARRAY_SIZE(generic_domain_crossing_nodes), + }, + [CLK_VPLL_TO_LPD] = { + .name = "vpll_to_lpd", + .control_reg = CRF_APB_VPLL_TO_LPD_CTRL, + .status_reg = 0, + .parents = &((int32_t []) {CLK_VPLL, CLK_NA_PARENT}), + .nodes = &generic_domain_crossing_nodes, + .num_nodes = ARRAY_SIZE(generic_domain_crossing_nodes), + }, + [CLK_GEM0_TX] = { + .name = "gem0_tx", + .control_reg = CRL_APB_GEM0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM0_REF, + CLK_NA_PARENT + }), + .nodes = &gem_tx_nodes, + .num_nodes = ARRAY_SIZE(gem_tx_nodes), + }, + [CLK_GEM1_TX] = { + .name = "gem1_tx", + .control_reg = CRL_APB_GEM1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM1_REF, + CLK_NA_PARENT + }), + .nodes = &gem_tx_nodes, + .num_nodes = ARRAY_SIZE(gem_tx_nodes), + }, + [CLK_GEM2_TX] = { + .name = "gem2_tx", + .control_reg = CRL_APB_GEM2_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM2_REF, + CLK_NA_PARENT + }), + .nodes = &gem_tx_nodes, + .num_nodes = ARRAY_SIZE(gem_tx_nodes), + }, + [CLK_GEM3_TX] = { + .name = "gem3_tx", + .control_reg = CRL_APB_GEM3_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM3_REF, + CLK_NA_PARENT + }), + .nodes = &gem_tx_nodes, + .num_nodes = ARRAY_SIZE(gem_tx_nodes), + }, + [CLK_GEM0_RX] = { + .name = "gem0_rx", + .control_reg = CRL_APB_GEM0_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + EXT_CLK_GEM0_RX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem_rx_nodes, + .num_nodes = ARRAY_SIZE(gem_rx_nodes), + }, + [CLK_GEM1_RX] = { + .name = "gem1_rx", + .control_reg = CRL_APB_GEM1_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + EXT_CLK_GEM1_RX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem_rx_nodes, + .num_nodes = ARRAY_SIZE(gem_rx_nodes), + }, + [CLK_GEM2_RX] = { + .name = "gem2_rx", + .control_reg = CRL_APB_GEM2_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + EXT_CLK_GEM2_RX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem_rx_nodes, + .num_nodes = ARRAY_SIZE(gem_rx_nodes), + }, + [CLK_GEM3_RX] = { + .name = "gem3_rx", + .control_reg = CRL_APB_GEM3_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + EXT_CLK_GEM3_RX_EMIO | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem_rx_nodes, + .num_nodes = ARRAY_SIZE(gem_rx_nodes), + }, + [CLK_ACPU_HALF] = { + .name = "acpu_half", + .control_reg = CRF_APB_ACPU_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_ACPU | PARENT_CLK_NODE2 << CLK_PARENTS_ID_LEN, + CLK_NA_PARENT + }), + .nodes = &acpu_half_nodes, + .num_nodes = ARRAY_SIZE(acpu_half_nodes), + }, + [CLK_FPD_WDT] = { + .name = "fpd_wdt", + .control_reg = FPD_SLCR_WDT_CLK_SEL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_TOPSW_LSBUS, + EXT_CLK_SWDT0 | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &wdt_nodes, + .num_nodes = ARRAY_SIZE(wdt_nodes), + }, + [CLK_GPU_PP0_REF] = { + .name = "gpu_pp0_ref", + .control_reg = CRF_APB_GPU_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GPU_REF | PARENT_CLK_NODE2 << CLK_PARENTS_ID_LEN, + CLK_NA_PARENT + }), + .nodes = &gpu_pp0_nodes, + .num_nodes = ARRAY_SIZE(gpu_pp0_nodes), + }, + [CLK_GPU_PP1_REF] = { + .name = "gpu_pp1_ref", + .control_reg = CRF_APB_GPU_REF_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GPU_REF | PARENT_CLK_NODE2 << CLK_PARENTS_ID_LEN, + CLK_NA_PARENT + }), + .nodes = &gpu_pp1_nodes, + .num_nodes = ARRAY_SIZE(gpu_pp1_nodes), + }, + [CLK_GEM_TSU] = { + .name = "gem_tsu", + .control_reg = IOU_SLCR_GEM_CLK_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_GEM_TSU_REF, + CLK_GEM_TSU_REF, + EXT_CLK_MIO26 | CLK_EXTERNAL_PARENT, + EXT_CLK_MIO50_OR_MIO51 | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &gem_tsu_nodes, + .num_nodes = ARRAY_SIZE(gem_tsu_nodes), + }, + [CLK_CPU_R5_CORE] = { + .name = "cpu_r5_core", + .control_reg = CRL_APB_CPU_R5_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_CPU_R5 | PARENT_CLK_NODE2 << CLK_PARENTS_ID_LEN, + CLK_DUMMY_PARENT, + CLK_NA_PARENT + }), + .nodes = &cpu_r5_core_nodes, + .num_nodes = ARRAY_SIZE(cpu_r5_core_nodes), + }, + [CLK_CAN0_MIO] = { + .name = "can0_mio", + .control_reg = IOU_SLCR_CAN_MIO_CTRL, + .status_reg = 0, + .parents = &can_mio_parents, + .nodes = &can0_mio_nodes, + .num_nodes = ARRAY_SIZE(can0_mio_nodes), + }, + [CLK_CAN1_MIO] = { + .name = "can1_mio", + .control_reg = IOU_SLCR_CAN_MIO_CTRL, + .status_reg = 0, + .parents = &can_mio_parents, + .nodes = &can1_mio_nodes, + .num_nodes = ARRAY_SIZE(can1_mio_nodes), + }, + [CLK_CAN0] = { + .name = "can0", + .control_reg = IOU_SLCR_CAN_MIO_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_CAN0_REF, + CLK_CAN0_MIO, + CLK_NA_PARENT + }), + .nodes = &can0_nodes, + .num_nodes = ARRAY_SIZE(can0_nodes), + }, + [CLK_CAN1] = { + .name = "can1", + .control_reg = IOU_SLCR_CAN_MIO_CTRL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_CAN1_REF, + CLK_CAN1_MIO, + CLK_NA_PARENT + }), + .nodes = &can1_nodes, + .num_nodes = ARRAY_SIZE(can1_nodes), + }, + [CLK_LPD_WDT] = { + .name = "lpd_wdt", + .control_reg = IOU_SLCR_WDT_CLK_SEL, + .status_reg = 0, + .parents = &((int32_t []) { + CLK_LPD_LSBUS, + EXT_CLK_SWDT1 | CLK_EXTERNAL_PARENT, + CLK_NA_PARENT + }), + .nodes = &wdt_nodes, + .num_nodes = ARRAY_SIZE(wdt_nodes), + }, +}; + +static struct pm_ext_clock ext_clocks[] = { + [EXT_CLK_INDEX(EXT_CLK_PSS_REF)] = { + .name = "pss_ref_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_VIDEO)] = { + .name = "video_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_PSS_ALT_REF)] = { + .name = "pss_alt_ref_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_AUX_REF)] = { + .name = "aux_ref_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_GT_CRX_REF)] = { + .name = "video_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_SWDT0)] = { + .name = "swdt0_ext_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_SWDT1)] = { + .name = "swdt1_ext_clk", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM0_TX_EMIO)] = { + .name = "gem0_tx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM1_TX_EMIO)] = { + .name = "gem1_tx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM2_TX_EMIO)] = { + .name = "gem2_tx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM3_TX_EMIO)] = { + .name = "gem3_tx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM0_RX_EMIO)] = { + .name = "gem0_rx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM1_RX_EMIO)] = { + .name = "gem1_rx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM2_RX_EMIO)] = { + .name = "gem2_rx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_GEM3_RX_EMIO)] = { + .name = "gem3_rx_ext", + }, + [EXT_CLK_INDEX(EXT_CLK_MIO50_OR_MIO51)] = { + .name = "mio_clk_50_51", + }, + EXT_CLK_MIO_DATA(0), + EXT_CLK_MIO_DATA(1), + EXT_CLK_MIO_DATA(2), + EXT_CLK_MIO_DATA(3), + EXT_CLK_MIO_DATA(4), + EXT_CLK_MIO_DATA(5), + EXT_CLK_MIO_DATA(6), + EXT_CLK_MIO_DATA(7), + EXT_CLK_MIO_DATA(8), + EXT_CLK_MIO_DATA(9), + EXT_CLK_MIO_DATA(10), + EXT_CLK_MIO_DATA(11), + EXT_CLK_MIO_DATA(12), + EXT_CLK_MIO_DATA(13), + EXT_CLK_MIO_DATA(14), + EXT_CLK_MIO_DATA(15), + EXT_CLK_MIO_DATA(16), + EXT_CLK_MIO_DATA(17), + EXT_CLK_MIO_DATA(18), + EXT_CLK_MIO_DATA(19), + EXT_CLK_MIO_DATA(20), + EXT_CLK_MIO_DATA(21), + EXT_CLK_MIO_DATA(22), + EXT_CLK_MIO_DATA(23), + EXT_CLK_MIO_DATA(24), + EXT_CLK_MIO_DATA(25), + EXT_CLK_MIO_DATA(26), + EXT_CLK_MIO_DATA(27), + EXT_CLK_MIO_DATA(28), + EXT_CLK_MIO_DATA(29), + EXT_CLK_MIO_DATA(30), + EXT_CLK_MIO_DATA(31), + EXT_CLK_MIO_DATA(32), + EXT_CLK_MIO_DATA(33), + EXT_CLK_MIO_DATA(34), + EXT_CLK_MIO_DATA(35), + EXT_CLK_MIO_DATA(36), + EXT_CLK_MIO_DATA(37), + EXT_CLK_MIO_DATA(38), + EXT_CLK_MIO_DATA(39), + EXT_CLK_MIO_DATA(40), + EXT_CLK_MIO_DATA(41), + EXT_CLK_MIO_DATA(42), + EXT_CLK_MIO_DATA(43), + EXT_CLK_MIO_DATA(44), + EXT_CLK_MIO_DATA(45), + EXT_CLK_MIO_DATA(46), + EXT_CLK_MIO_DATA(47), + EXT_CLK_MIO_DATA(48), + EXT_CLK_MIO_DATA(49), + EXT_CLK_MIO_DATA(50), + EXT_CLK_MIO_DATA(51), + EXT_CLK_MIO_DATA(52), + EXT_CLK_MIO_DATA(53), + EXT_CLK_MIO_DATA(54), + EXT_CLK_MIO_DATA(55), + EXT_CLK_MIO_DATA(56), + EXT_CLK_MIO_DATA(57), + EXT_CLK_MIO_DATA(58), + EXT_CLK_MIO_DATA(59), + EXT_CLK_MIO_DATA(60), + EXT_CLK_MIO_DATA(61), + EXT_CLK_MIO_DATA(62), + EXT_CLK_MIO_DATA(63), + EXT_CLK_MIO_DATA(64), + EXT_CLK_MIO_DATA(65), + EXT_CLK_MIO_DATA(66), + EXT_CLK_MIO_DATA(67), + EXT_CLK_MIO_DATA(68), + EXT_CLK_MIO_DATA(69), + EXT_CLK_MIO_DATA(70), + EXT_CLK_MIO_DATA(71), + EXT_CLK_MIO_DATA(72), + EXT_CLK_MIO_DATA(73), + EXT_CLK_MIO_DATA(74), + EXT_CLK_MIO_DATA(75), + EXT_CLK_MIO_DATA(76), + EXT_CLK_MIO_DATA(77), +}; + +/* Array of clock which are invalid for this variant */ +static uint32_t pm_clk_invalid_list[] = {CLK_USB0, CLK_USB1, CLK_CSU_SPB, + CLK_ACPU_FULL, + CLK_ACPU_HALF, + CLK_APLL_TO_LPD, + CLK_DBG_FPD, + CLK_DBG_LPD, + CLK_DBG_TRACE, + CLK_DBG_TSTMP, + CLK_DDR_REF, + CLK_TOPSW_MAIN, + CLK_GTGREF0_REF, + CLK_LPD_SWITCH, + CLK_CPU_R5, + CLK_CPU_R5_CORE, + CLK_CSU_SPB, + CLK_CSU_PLL, + CLK_PCAP, + CLK_IOU_SWITCH, + CLK_DLL_REF, + CLK_TIMESTAMP_REF, +}; + +/** + * pm_clock_valid - Check if clock is valid or not + * @clock_id Id of the clock to be queried + * + * This function is used to check if given clock is valid + * or not for the chip variant. + * + * List of invalid clocks are maintained in array list for + * different variants. + * + * Return: Returns 1 if clock is valid else 0. + */ +static bool pm_clock_valid(uint32_t clock_id) +{ + unsigned int i; + + for (i = 0U; i < ARRAY_SIZE(pm_clk_invalid_list); i++) + if (pm_clk_invalid_list[i] == clock_id) + return 0; + + return 1; +} + +/** + * pm_clock_type - Get clock's type + * @clock_id Id of the clock to be queried + * + * This function is used to check type of clock (OUTPUT/EXTERNAL). + * + * Return: Returns type of clock (OUTPUT/EXTERNAL). + */ +static uint32_t pm_clock_type(uint32_t clock_id) +{ + return (clock_id < CLK_MAX_OUTPUT_CLK) ? + CLK_TYPE_OUTPUT : CLK_TYPE_EXTERNAL; +} + +/** + * pm_api_clock_get_num_clocks() - PM call to request number of clocks + * @nclocks Number of clocks + * + * This function is used by master to get number of clocks. + * + * @return Returns success. + */ +enum pm_ret_status pm_api_clock_get_num_clocks(uint32_t *nclocks) +{ + *nclocks = CLK_MAX; + + return PM_RET_SUCCESS; +} + +/** + * pm_api_clock_get_name() - PM call to request a clock's name + * @clock_id Clock ID + * @name Name of clock (max 16 bytes) + * + * This function is used by master to get nmae of clock specified + * by given clock ID. + */ +void pm_api_clock_get_name(uint32_t clock_id, char *name) +{ + if (clock_id == CLK_MAX) { + memcpy(name, END_OF_CLK, sizeof(END_OF_CLK) > CLK_NAME_LEN ? + CLK_NAME_LEN : sizeof(END_OF_CLK)); + } else if (!pm_clock_valid(clock_id)) { + memset(name, 0, CLK_NAME_LEN); + } else if (clock_id < CLK_MAX_OUTPUT_CLK) { + memcpy(name, clocks[clock_id].name, CLK_NAME_LEN); + } else { + memcpy(name, ext_clocks[clock_id - CLK_MAX_OUTPUT_CLK].name, + CLK_NAME_LEN); + } +} + +/** + * pm_api_clock_get_topology() - PM call to request a clock's topology + * @clock_id Clock ID + * @index Topology index for next toplogy node + * @topology Buffer to store nodes in topology and flags + * + * This function is used by master to get topology information for the + * clock specified by given clock ID. Each response would return 3 + * topology nodes. To get next nodes, caller needs to call this API with + * index of next node. Index starts from 0. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_api_clock_get_topology(uint32_t clock_id, + uint32_t index, + uint32_t *topology) +{ + struct pm_clock_node *clock_nodes; + uint8_t num_nodes; + uint32_t i; + uint16_t typeflags; + + if (!pm_clock_valid(clock_id)) { + return PM_RET_ERROR_ARGS; + } + + if (pm_clock_type(clock_id) != CLK_TYPE_OUTPUT) { + return PM_RET_ERROR_NOTSUPPORTED; + } + + memset(topology, 0, CLK_TOPOLOGY_PAYLOAD_LEN); + clock_nodes = *clocks[clock_id].nodes; + num_nodes = clocks[clock_id].num_nodes; + + /* Skip parent till index */ + if (index >= num_nodes) { + return PM_RET_SUCCESS; + } + + for (i = 0; i < 3U; i++) { + if ((index + i) == num_nodes) { + break; + } + + topology[i] = clock_nodes[index + i].type; + topology[i] |= clock_nodes[index + i].clkflags << + CLK_CLKFLAGS_SHIFT; + typeflags = clock_nodes[index + i].typeflags; + topology[i] |= (typeflags & CLK_TYPEFLAGS_BITS_MASK) << + CLK_TYPEFLAGS_SHIFT; + topology[i] |= (typeflags & CLK_TYPEFLAGS2_BITS_MASK) >> + (CLK_TYPEFLAGS_BITS - CLK_TYPEFLAGS2_SHIFT); + } + + return PM_RET_SUCCESS; +} + +/** + * pm_api_clock_get_fixedfactor_params() - PM call to request a clock's fixed + * factor parameters for fixed clock + * @clock_id Clock ID + * @mul Multiplication value + * @div Divisor value + * + * This function is used by master to get fixed factor parameers for the + * fixed clock. This API is application only for the fixed clock. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_api_clock_get_fixedfactor_params(uint32_t clock_id, + uint32_t *mul, + uint32_t *div) +{ + struct pm_clock_node *clock_nodes; + uint8_t num_nodes; + uint32_t type, i; + + if (!pm_clock_valid(clock_id)) { + return PM_RET_ERROR_ARGS; + } + + if (pm_clock_type(clock_id) != CLK_TYPE_OUTPUT) { + return PM_RET_ERROR_NOTSUPPORTED; + } + + clock_nodes = *clocks[clock_id].nodes; + num_nodes = clocks[clock_id].num_nodes; + + for (i = 0; i < num_nodes; i++) { + type = clock_nodes[i].type; + if (type == TYPE_FIXEDFACTOR) { + *mul = clock_nodes[i].mult; + *div = clock_nodes[i].div; + break; + } + } + + /* Clock is not fixed clock */ + if (i == num_nodes) { + return PM_RET_ERROR_ARGS; + } + + return PM_RET_SUCCESS; +} + +/** + * pm_api_clock_get_parents() - PM call to request a clock's first 3 parents + * @clock_id Clock ID + * @index Index of next parent + * @parents Parents of the given clock + * + * This function is used by master to get clock's parents information. + * This API will return 3 parents with a single response. To get other + * parents, master should call same API in loop with new parent index + * till error is returned. + * + * E.g First call should have index 0 which will return parents 0, 1 and + * 2. Next call, index should be 3 which will return parent 3,4 and 5 and + * so on. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_api_clock_get_parents(uint32_t clock_id, + uint32_t index, + uint32_t *parents) +{ + uint32_t i; + int32_t *clk_parents; + + if (!pm_clock_valid(clock_id)) { + return PM_RET_ERROR_ARGS; + } + + if (pm_clock_type(clock_id) != CLK_TYPE_OUTPUT) { + return PM_RET_ERROR_NOTSUPPORTED; + } + + clk_parents = *clocks[clock_id].parents; + if (clk_parents == NULL) { + return PM_RET_ERROR_ARGS; + } + + memset(parents, 0, CLK_PARENTS_PAYLOAD_LEN); + + /* Skip parent till index */ + for (i = 0; i < index; i++) { + if (clk_parents[i] == CLK_NA_PARENT) { + return PM_RET_SUCCESS; + } + } + + for (i = 0; i < 3U; i++) { + parents[i] = clk_parents[index + i]; + if (clk_parents[index + i] == CLK_NA_PARENT) { + break; + } + } + + return PM_RET_SUCCESS; +} + +/** + * pm_api_clock_get_attributes() - PM call to request a clock's attributes + * @clock_id Clock ID + * @attr Clock attributes + * + * This function is used by master to get clock's attributes + * (e.g. valid, clock type, etc). + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_api_clock_get_attributes(uint32_t clock_id, + uint32_t *attr) +{ + if (clock_id >= CLK_MAX) { + return PM_RET_ERROR_ARGS; + } + + /* Clock valid bit */ + *attr = pm_clock_valid(clock_id); + + /* Clock type (Output/External) */ + *attr |= (pm_clock_type(clock_id) << CLK_TYPE_SHIFT); + + return PM_RET_SUCCESS; +} + +/** + * pm_api_clock_get_max_divisor - PM call to get max divisor + * @clock_id Clock ID + * @div_type Divisor Type (TYPE_DIV1 or TYPE_DIV2) + * @max_div Maximum supported divisor + * + * This function is used by master to get maximum supported value. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_api_clock_get_max_divisor(enum clock_id clock_id, + uint8_t div_type, + uint32_t *max_div) +{ + uint32_t i; + struct pm_clock_node *nodes; + + if (clock_id >= CLK_MAX_OUTPUT_CLK) { + return PM_RET_ERROR_ARGS; + } + + nodes = *clocks[clock_id].nodes; + for (i = 0; i < clocks[clock_id].num_nodes; i++) { + if (nodes[i].type == div_type) { + if (CLK_DIVIDER_POWER_OF_TWO & + nodes[i].typeflags) { + *max_div = (1U << (BIT(nodes[i].width) - 1U)); + } else { + *max_div = BIT(nodes[i].width) - 1U; + } + return PM_RET_SUCCESS; + } + } + + return PM_RET_ERROR_ARGS; +} + +/** + * struct pm_pll - PLL related data required to map IOCTL-based PLL control + * implemented by linux to system-level EEMI APIs + * @nid: PLL node ID + * @cid: PLL clock ID + * @pre_src: Pre-source PLL clock ID + * @post_src: Post-source PLL clock ID + * @div2: DIV2 PLL clock ID + * @bypass: PLL output clock ID that maps to bypass select output + * @mode: PLL mode currently set via IOCTL (PLL_FRAC_MODE/PLL_INT_MODE) + */ +struct pm_pll { + const enum pm_node_id nid; + const enum clock_id cid; + const enum clock_id pre_src; + const enum clock_id post_src; + const enum clock_id div2; + const enum clock_id bypass; + uint8_t mode; +}; + +static struct pm_pll pm_plls[] = { + { + .nid = NODE_IOPLL, + .cid = CLK_IOPLL_INT, + .pre_src = CLK_IOPLL_PRE_SRC, + .post_src = CLK_IOPLL_POST_SRC, + .div2 = CLK_IOPLL_INT_MUX, + .bypass = CLK_IOPLL, + }, { + .nid = NODE_RPLL, + .cid = CLK_RPLL_INT, + .pre_src = CLK_RPLL_PRE_SRC, + .post_src = CLK_RPLL_POST_SRC, + .div2 = CLK_RPLL_INT_MUX, + .bypass = CLK_RPLL, + }, { + .nid = NODE_APLL, + .cid = CLK_APLL_INT, + .pre_src = CLK_APLL_PRE_SRC, + .post_src = CLK_APLL_POST_SRC, + .div2 = CLK_APLL_INT_MUX, + .bypass = CLK_APLL, + }, { + .nid = NODE_VPLL, + .cid = CLK_VPLL_INT, + .pre_src = CLK_VPLL_PRE_SRC, + .post_src = CLK_VPLL_POST_SRC, + .div2 = CLK_VPLL_INT_MUX, + .bypass = CLK_VPLL, + }, { + .nid = NODE_DPLL, + .cid = CLK_DPLL_INT, + .pre_src = CLK_DPLL_PRE_SRC, + .post_src = CLK_DPLL_POST_SRC, + .div2 = CLK_DPLL_INT_MUX, + .bypass = CLK_DPLL, + }, +}; + +/** + * pm_clock_get_pll() - Get PLL structure by PLL clock ID + * @clock_id Clock ID of the target PLL + * + * @return Pointer to PLL structure if found, NULL otherwise + */ +struct pm_pll *pm_clock_get_pll(enum clock_id clock_id) +{ + uint32_t i; + + for (i = 0; i < ARRAY_SIZE(pm_plls); i++) { + if (pm_plls[i].cid == clock_id) { + return &pm_plls[i]; + } + } + + return NULL; +} + +/** + * pm_clock_get_pll_node_id() - Get PLL node ID by PLL clock ID + * @clock_id Clock ID of the target PLL + * @node_id Location to store node ID of the target PLL + * + * @return PM_RET_SUCCESS if node ID is found, PM_RET_ERROR_ARGS otherwise + */ +enum pm_ret_status pm_clock_get_pll_node_id(enum clock_id clock_id, + enum pm_node_id *node_id) +{ + struct pm_pll *pll = pm_clock_get_pll(clock_id); + + if (pll) { + *node_id = pll->nid; + return PM_RET_SUCCESS; + } + + return PM_RET_ERROR_ARGS; +} + +/** + * pm_clock_get_pll_by_related_clk() - Get PLL structure by PLL-related clock ID + * @clock_id Clock ID + * + * @return Pointer to PLL structure if found, NULL otherwise + */ +struct pm_pll *pm_clock_get_pll_by_related_clk(enum clock_id clock_id) +{ + uint32_t i; + + for (i = 0; i < ARRAY_SIZE(pm_plls); i++) { + if (pm_plls[i].pre_src == clock_id || + pm_plls[i].post_src == clock_id || + pm_plls[i].div2 == clock_id || + pm_plls[i].bypass == clock_id) { + return &pm_plls[i]; + } + } + + return NULL; +} + +/** + * pm_clock_pll_enable() - "Enable" the PLL clock (lock the PLL) + * @pll: PLL to be locked + * + * This function is used to map IOCTL/linux-based PLL handling to system-level + * EEMI APIs + * + * Return: Error if the argument is not valid or status as returned by PMU + */ +enum pm_ret_status pm_clock_pll_enable(struct pm_pll *pll) +{ + if (pll == NULL) { + return PM_RET_ERROR_ARGS; + } + + /* Set the PLL mode according to the buffered mode value */ + if (pll->mode == PLL_FRAC_MODE) { + return pm_pll_set_mode(pll->nid, PM_PLL_MODE_FRACTIONAL); + } + + return pm_pll_set_mode(pll->nid, PM_PLL_MODE_INTEGER); +} + +/** + * pm_clock_pll_disable - "Disable" the PLL clock (bypass/reset the PLL) + * @pll PLL to be bypassed/reset + * + * This function is used to map IOCTL/linux-based PLL handling to system-level + * EEMI APIs + * + * Return: Error if the argument is not valid or status as returned by PMU + */ +enum pm_ret_status pm_clock_pll_disable(struct pm_pll *pll) +{ + if (pll == NULL) { + return PM_RET_ERROR_ARGS; + } + + return pm_pll_set_mode(pll->nid, PM_PLL_MODE_RESET); +} + +/** + * pm_clock_pll_get_state - Get state of the PLL + * @pll Pointer to the target PLL structure + * @state Location to store the state: 1/0 ("Enabled"/"Disabled") + * + * "Enable" actually means that the PLL is locked and its bypass is deasserted, + * "Disable" means that it is bypassed. + * + * Return: PM_RET_ERROR_ARGS error if the argument is not valid, success if + * returned state value is valid or an error if returned by PMU + */ +enum pm_ret_status pm_clock_pll_get_state(struct pm_pll *pll, + uint32_t *state) +{ + enum pm_ret_status status; + enum pm_pll_mode mode; + + if ((pll == NULL) || !state) { + return PM_RET_ERROR_ARGS; + } + + status = pm_pll_get_mode(pll->nid, &mode); + if (status != PM_RET_SUCCESS) { + return status; + } + + if (mode == PM_PLL_MODE_RESET) { + *state = 0; + } else { + *state = 1; + } + + return PM_RET_SUCCESS; +} + +/** + * pm_clock_pll_set_parent - Set the clock parent for PLL-related clock id + * @pll Target PLL structure + * @clock_id Id of the clock + * @parent_index parent index (=mux select value) + * + * The whole clock-tree implementation relies on the fact that parent indexes + * match to the multiplexer select values. This function has to rely on that + * assumption as well => parent_index is actually the mux select value. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_pll_set_parent(struct pm_pll *pll, + enum clock_id clock_id, + uint32_t parent_index) +{ + if (pll == NULL) { + return PM_RET_ERROR_ARGS; + } + if (pll->pre_src == clock_id) { + return pm_pll_set_parameter(pll->nid, PM_PLL_PARAM_PRE_SRC, + parent_index); + } + if (pll->post_src == clock_id) { + return pm_pll_set_parameter(pll->nid, PM_PLL_PARAM_POST_SRC, + parent_index); + } + if (pll->div2 == clock_id) { + return pm_pll_set_parameter(pll->nid, PM_PLL_PARAM_DIV2, + parent_index); + } + + return PM_RET_ERROR_ARGS; +} + +/** + * pm_clock_pll_get_parent - Get mux select value of PLL-related clock parent + * @pll Target PLL structure + * @clock_id Id of the clock + * @parent_index parent index (=mux select value) + * + * This function is used by master to get parent index for PLL-related clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_pll_get_parent(struct pm_pll *pll, + enum clock_id clock_id, + uint32_t *parent_index) +{ + if (pll == NULL) { + return PM_RET_ERROR_ARGS; + } + if (pll->pre_src == clock_id) { + return pm_pll_get_parameter(pll->nid, PM_PLL_PARAM_PRE_SRC, + parent_index); + } + if (pll->post_src == clock_id) { + return pm_pll_get_parameter(pll->nid, PM_PLL_PARAM_POST_SRC, + parent_index); + } + if (pll->div2 == clock_id) { + return pm_pll_get_parameter(pll->nid, PM_PLL_PARAM_DIV2, + parent_index); + } + if (pll->bypass == clock_id) { + *parent_index = 0; + return PM_RET_SUCCESS; + } + + return PM_RET_ERROR_ARGS; +} + +/** + * pm_clock_set_pll_mode() - Set PLL mode + * @clock_id PLL clock id + * @mode Mode fractional/integer + * + * This function buffers/saves the PLL mode that is set. + * + * @return Success if mode is buffered or error if an argument is invalid + */ +enum pm_ret_status pm_clock_set_pll_mode(enum clock_id clock_id, + uint32_t mode) +{ + struct pm_pll *pll = pm_clock_get_pll(clock_id); + + if ((pll == NULL) || (mode != PLL_FRAC_MODE && mode != PLL_INT_MODE)) { + return PM_RET_ERROR_ARGS; + } + pll->mode = mode; + + return PM_RET_SUCCESS; +} + +/** + * pm_clock_get_pll_mode() - Get PLL mode + * @clock_id PLL clock id + * @mode Location to store the mode (fractional/integer) + * + * This function returns buffered PLL mode. + * + * @return Success if mode is stored or error if an argument is invalid + */ +enum pm_ret_status pm_clock_get_pll_mode(enum clock_id clock_id, + uint32_t *mode) +{ + struct pm_pll *pll = pm_clock_get_pll(clock_id); + + if ((pll == NULL) || !mode) { + return PM_RET_ERROR_ARGS; + } + *mode = pll->mode; + + return PM_RET_SUCCESS; +} + +/** + * pm_clock_id_is_valid() - Check if given clock ID is valid + * @clock_id ID of the clock to be checked + * + * @return Returns success if clock_id is valid, otherwise an error + */ +enum pm_ret_status pm_clock_id_is_valid(uint32_t clock_id) +{ + if (!pm_clock_valid(clock_id)) { + return PM_RET_ERROR_ARGS; + } + + if (pm_clock_type(clock_id) != CLK_TYPE_OUTPUT) { + return PM_RET_ERROR_NOTSUPPORTED; + } + + return PM_RET_SUCCESS; +} + +/** + * pm_clock_has_div() - Check if the clock has divider with given ID + * @clock_id Clock ID + * @div_id Divider ID + * + * @return True(1)=clock has the divider, false(0)=otherwise + */ +uint8_t pm_clock_has_div(uint32_t clock_id, enum pm_clock_div_id div_id) +{ + uint32_t i; + struct pm_clock_node *nodes; + + if (clock_id >= CLK_MAX_OUTPUT_CLK) { + return 0; + } + + nodes = *clocks[clock_id].nodes; + for (i = 0; i < clocks[clock_id].num_nodes; i++) { + if (nodes[i].type == TYPE_DIV1) { + if (div_id == PM_CLOCK_DIV0_ID) + return 1; + } else if (nodes[i].type == TYPE_DIV2) { + if (div_id == PM_CLOCK_DIV1_ID) + return 1; + } else { + /* To fix the misra 15.7 warning */ + } + } + + return 0; +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_clock.h b/plat/xilinx/zynqmp/pm_service/pm_api_clock.h new file mode 100644 index 0000000..cc0dacc --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_clock.h @@ -0,0 +1,333 @@ +/* + * Copyright (c) 2018-2020, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for clock control. + */ + +#ifndef PM_API_CLOCK_H +#define PM_API_CLOCK_H + +#include + +#include "pm_common.h" + +#define CLK_NAME_LEN (15U) +#define MAX_PARENTS (100U) +#define CLK_NA_PARENT -1 +#define CLK_DUMMY_PARENT -2 + +/* Flags for parent id */ +#define PARENT_CLK_SELF (0U) +#define PARENT_CLK_NODE1 (1U) +#define PARENT_CLK_NODE2 (2U) +#define PARENT_CLK_NODE3 (3U) +#define PARENT_CLK_NODE4 (4U) +#define PARENT_CLK_EXTERNAL (5U) +#define PARENT_CLK_MIO0_MIO77 (6U) + +#define CLK_SET_RATE_GATE BIT(0) /* must be gated across rate change */ +#define CLK_SET_PARENT_GATE BIT(1) /* must be gated across re-parent */ +#define CLK_SET_RATE_PARENT BIT(2) /* propagate rate change up one level */ +#define CLK_IGNORE_UNUSED BIT(3) /* do not gate even if unused */ +/* unused */ +#define CLK_IS_BASIC BIT(5) /* Basic clk, can't do a to_clk_foo() */ +#define CLK_GET_RATE_NOCACHE BIT(6) /* do not use the cached clk rate */ +#define CLK_SET_RATE_NO_REPARENT BIT(7) /* don't re-parent on rate change */ +#define CLK_GET_ACCURACY_NOCACHE BIT(8) /* do not use the cached clk accuracy */ +#define CLK_RECALC_NEW_RATES BIT(9) /* recalc rates after notifications */ +#define CLK_SET_RATE_UNGATE BIT(10) /* clock needs to run to set rate */ +#define CLK_IS_CRITICAL BIT(11) /* do not gate, ever */ +/* parents need enable during gate/ungate, set rate and re-parent */ +#define CLK_OPS_PARENT_ENABLE BIT(12) + +#define CLK_DIVIDER_ONE_BASED BIT(0) +#define CLK_DIVIDER_POWER_OF_TWO BIT(1) +#define CLK_DIVIDER_ALLOW_ZERO BIT(2) +#define CLK_DIVIDER_HIWORD_MASK BIT(3) +#define CLK_DIVIDER_ROUND_CLOSEST BIT(4) +#define CLK_DIVIDER_READ_ONLY BIT(5) +#define CLK_DIVIDER_MAX_AT_ZERO BIT(6) +#define CLK_FRAC BIT(8) + +#define END_OF_CLK "END_OF_CLK" + +//CLock Ids +enum clock_id { + CLK_IOPLL = (0U), + CLK_RPLL = (1U), + CLK_APLL = (2U), + CLK_DPLL = (3U), + CLK_VPLL = (4U), + CLK_IOPLL_TO_FPD = (5U), + CLK_RPLL_TO_FPD = (6U), + CLK_APLL_TO_LPD = (7U), + CLK_DPLL_TO_LPD = (8U), + CLK_VPLL_TO_LPD = (9U), + CLK_ACPU = (10U), + CLK_ACPU_HALF = (11U), + CLK_DBG_FPD = (12U), + CLK_DBG_LPD = (13U), + CLK_DBG_TRACE = (14U), + CLK_DBG_TSTMP = (15U), + CLK_DP_VIDEO_REF = (16U), + CLK_DP_AUDIO_REF = (17U), + CLK_DP_STC_REF = (18U), + CLK_GDMA_REF = (19U), + CLK_DPDMA_REF = (20U), + CLK_DDR_REF = (21U), + CLK_SATA_REF = (22U), + CLK_PCIE_REF = (23U), + CLK_GPU_REF = (24U), + CLK_GPU_PP0_REF = (25U), + CLK_GPU_PP1_REF = (26U), + CLK_TOPSW_MAIN = (27U), + CLK_TOPSW_LSBUS = (28U), + CLK_GTGREF0_REF = (29U), + CLK_LPD_SWITCH = (30U), + CLK_LPD_LSBUS = (31U), + CLK_USB0_BUS_REF = (32U), + CLK_USB1_BUS_REF = (33U), + CLK_USB3_DUAL_REF = (34U), + CLK_USB0 = (35U), + CLK_USB1 = (36U), + CLK_CPU_R5 = (37U), + CLK_CPU_R5_CORE = (38U), + CLK_CSU_SPB = (39U), + CLK_CSU_PLL = (40U), + CLK_PCAP = (41U), + CLK_IOU_SWITCH = (42U), + CLK_GEM_TSU_REF = (43U), + CLK_GEM_TSU = (44U), + CLK_GEM0_TX = (45U), + CLK_GEM1_TX = (46U), + CLK_GEM2_TX = (47U), + CLK_GEM3_TX = (48U), + CLK_GEM0_RX = (49U), + CLK_GEM1_RX = (50U), + CLK_GEM2_RX = (51U), + CLK_GEM3_RX = (52U), + CLK_QSPI_REF = (53U), + CLK_SDIO0_REF = (54U), + CLK_SDIO1_REF = (55U), + CLK_UART0_REF = (56U), + CLK_UART1_REF = (57U), + CLK_SPI0_REF = (58U), + CLK_SPI1_REF = (59U), + CLK_NAND_REF = (60U), + CLK_I2C0_REF = (61U), + CLK_I2C1_REF = (62U), + CLK_CAN0_REF = (63U), + CLK_CAN1_REF = (64U), + CLK_CAN0 = (65U), + CLK_CAN1 = (66U), + CLK_DLL_REF = (67U), + CLK_ADMA_REF = (68U), + CLK_TIMESTAMP_REF = (69U), + CLK_AMS_REF = (70U), + CLK_PL0_REF = (71U), + CLK_PL1_REF = (72U), + CLK_PL2_REF = (73U), + CLK_PL3_REF = (74U), + CLK_FPD_WDT = (75U), + CLK_IOPLL_INT = (76U), + CLK_IOPLL_PRE_SRC = (77U), + CLK_IOPLL_HALF = (78U), + CLK_IOPLL_INT_MUX = (79U), + CLK_IOPLL_POST_SRC = (80U), + CLK_RPLL_INT = (81U), + CLK_RPLL_PRE_SRC = (82U), + CLK_RPLL_HALF = (83U), + CLK_RPLL_INT_MUX = (84U), + CLK_RPLL_POST_SRC = (85U), + CLK_APLL_INT = (86U), + CLK_APLL_PRE_SRC = (87U), + CLK_APLL_HALF = (88U), + CLK_APLL_INT_MUX = (89U), + CLK_APLL_POST_SRC = (90U), + CLK_DPLL_INT = (91U), + CLK_DPLL_PRE_SRC = (92U), + CLK_DPLL_HALF = (93U), + CLK_DPLL_INT_MUX = (94U), + CLK_DPLL_POST_SRC = (95U), + CLK_VPLL_INT = (96U), + CLK_VPLL_PRE_SRC = (97U), + CLK_VPLL_HALF = (98U), + CLK_VPLL_INT_MUX = (99U), + CLK_VPLL_POST_SRC = (100U), + CLK_CAN0_MIO = (101U), + CLK_CAN1_MIO = (102U), + CLK_ACPU_FULL = (103U), + CLK_GEM0_REF = (104U), + CLK_GEM1_REF = (105U), + CLK_GEM2_REF = (106U), + CLK_GEM3_REF = (107U), + CLK_GEM0_REF_UNGATED = (108U), + CLK_GEM1_REF_UNGATED = (109U), + CLK_GEM2_REF_UNGATED = (110U), + CLK_GEM3_REF_UNGATED = (111U), + CLK_LPD_WDT = (112U), + END_OF_OUTPUT_CLKS = (113U), +}; + +#define CLK_MAX_OUTPUT_CLK END_OF_OUTPUT_CLKS + +//External clock ids +enum { + EXT_CLK_PSS_REF = END_OF_OUTPUT_CLKS, + EXT_CLK_VIDEO = (114U), + EXT_CLK_PSS_ALT_REF = (115U), + EXT_CLK_AUX_REF = (116U), + EXT_CLK_GT_CRX_REF = (117U), + EXT_CLK_SWDT0 = (118U), + EXT_CLK_SWDT1 = (119U), + EXT_CLK_GEM0_TX_EMIO = (120U), + EXT_CLK_GEM1_TX_EMIO = (121U), + EXT_CLK_GEM2_TX_EMIO = (122U), + EXT_CLK_GEM3_TX_EMIO = (123U), + EXT_CLK_GEM0_RX_EMIO = (124U), + EXT_CLK_GEM1_RX_EMIO = (125U), + EXT_CLK_GEM2_RX_EMIO = (126U), + EXT_CLK_GEM3_RX_EMIO = (127U), + EXT_CLK_MIO50_OR_MIO51 = (128U), + EXT_CLK_MIO0 = (129U), + EXT_CLK_MIO1 = (130U), + EXT_CLK_MIO2 = (131U), + EXT_CLK_MIO3 = (132U), + EXT_CLK_MIO4 = (133U), + EXT_CLK_MIO5 = (134U), + EXT_CLK_MIO6 = (135U), + EXT_CLK_MIO7 = (136U), + EXT_CLK_MIO8 = (137U), + EXT_CLK_MIO9 = (138U), + EXT_CLK_MIO10 = (139U), + EXT_CLK_MIO11 = (140U), + EXT_CLK_MIO12 = (141U), + EXT_CLK_MIO13 = (142U), + EXT_CLK_MIO14 = (143U), + EXT_CLK_MIO15 = (144U), + EXT_CLK_MIO16 = (145U), + EXT_CLK_MIO17 = (146U), + EXT_CLK_MIO18 = (147U), + EXT_CLK_MIO19 = (148U), + EXT_CLK_MIO20 = (149U), + EXT_CLK_MIO21 = (150U), + EXT_CLK_MIO22 = (151U), + EXT_CLK_MIO23 = (152U), + EXT_CLK_MIO24 = (153U), + EXT_CLK_MIO25 = (154U), + EXT_CLK_MIO26 = (155U), + EXT_CLK_MIO27 = (156U), + EXT_CLK_MIO28 = (157U), + EXT_CLK_MIO29 = (158U), + EXT_CLK_MIO30 = (159U), + EXT_CLK_MIO31 = (160U), + EXT_CLK_MIO32 = (161U), + EXT_CLK_MIO33 = (162U), + EXT_CLK_MIO34 = (163U), + EXT_CLK_MIO35 = (164U), + EXT_CLK_MIO36 = (165U), + EXT_CLK_MIO37 = (166U), + EXT_CLK_MIO38 = (167U), + EXT_CLK_MIO39 = (168U), + EXT_CLK_MIO40 = (169U), + EXT_CLK_MIO41 = (170U), + EXT_CLK_MIO42 = (171U), + EXT_CLK_MIO43 = (172U), + EXT_CLK_MIO44 = (173U), + EXT_CLK_MIO45 = (174U), + EXT_CLK_MIO46 = (175U), + EXT_CLK_MIO47 = (176U), + EXT_CLK_MIO48 = (177U), + EXT_CLK_MIO49 = (178U), + EXT_CLK_MIO50 = (179U), + EXT_CLK_MIO51 = (180U), + EXT_CLK_MIO52 = (181U), + EXT_CLK_MIO53 = (182U), + EXT_CLK_MIO54 = (183U), + EXT_CLK_MIO55 = (184U), + EXT_CLK_MIO56 = (185U), + EXT_CLK_MIO57 = (186U), + EXT_CLK_MIO58 = (187U), + EXT_CLK_MIO59 = (188U), + EXT_CLK_MIO60 = (189U), + EXT_CLK_MIO61 = (190U), + EXT_CLK_MIO62 = (191U), + EXT_CLK_MIO63 = (192U), + EXT_CLK_MIO64 = (193U), + EXT_CLK_MIO65 = (194U), + EXT_CLK_MIO66 = (195U), + EXT_CLK_MIO67 = (196U), + EXT_CLK_MIO68 = (197U), + EXT_CLK_MIO69 = (198U), + EXT_CLK_MIO70 = (199U), + EXT_CLK_MIO71 = (200U), + EXT_CLK_MIO72 = (201U), + EXT_CLK_MIO73 = (202U), + EXT_CLK_MIO74 = (203U), + EXT_CLK_MIO75 = (204U), + EXT_CLK_MIO76 = (205U), + EXT_CLK_MIO77 = (206U), + END_OF_CLKS = (207U), +}; + +#define CLK_MAX END_OF_CLKS + +//CLock types +#define CLK_TYPE_OUTPUT 0U +#define CLK_TYPE_EXTERNAL 1U + +//Topology types +#define TYPE_INVALID 0U +#define TYPE_MUX 1U +#define TYPE_PLL 2U +#define TYPE_FIXEDFACTOR 3U +#define TYPE_DIV1 4U +#define TYPE_DIV2 5U +#define TYPE_GATE 6U + +struct pm_pll; +struct pm_pll *pm_clock_get_pll(enum clock_id clock_id); +struct pm_pll *pm_clock_get_pll_by_related_clk(enum clock_id clock_id); +uint8_t pm_clock_has_div(uint32_t clock_id, enum pm_clock_div_id div_id); + +void pm_api_clock_get_name(uint32_t clock_id, char *name); +enum pm_ret_status pm_api_clock_get_num_clocks(uint32_t *nclocks); +enum pm_ret_status pm_api_clock_get_topology(uint32_t clock_id, + uint32_t index, + uint32_t *topology); +enum pm_ret_status pm_api_clock_get_fixedfactor_params(uint32_t clock_id, + uint32_t *mul, + uint32_t *div); +enum pm_ret_status pm_api_clock_get_parents(uint32_t clock_id, + uint32_t index, + uint32_t *parents); +enum pm_ret_status pm_api_clock_get_attributes(uint32_t clock_id, + uint32_t *attr); +enum pm_ret_status pm_api_clock_get_max_divisor(enum clock_id clock_id, + uint8_t div_type, + uint32_t *max_div); + +enum pm_ret_status pm_clock_get_pll_node_id(enum clock_id clock_id, + enum pm_node_id *node_id); +enum pm_ret_status pm_clock_id_is_valid(uint32_t clock_id); + +enum pm_ret_status pm_clock_pll_enable(struct pm_pll *pll); +enum pm_ret_status pm_clock_pll_disable(struct pm_pll *pll); +enum pm_ret_status pm_clock_pll_get_state(struct pm_pll *pll, + uint32_t *state); +enum pm_ret_status pm_clock_pll_set_parent(struct pm_pll *pll, + enum clock_id clock_id, + uint32_t parent_index); +enum pm_ret_status pm_clock_pll_get_parent(struct pm_pll *pll, + enum clock_id clock_id, + uint32_t *parent_index); +enum pm_ret_status pm_clock_set_pll_mode(enum clock_id clock_id, + uint32_t mode); +enum pm_ret_status pm_clock_get_pll_mode(enum clock_id clock_id, + uint32_t *mode); + +#endif /* PM_API_CLOCK_H */ diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.c b/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.c new file mode 100644 index 0000000..c0bfd51 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.c @@ -0,0 +1,767 @@ +/* + * Copyright (c) 2018-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for ioctl. + */ + +#include +#include +#include +#include +#include + +#include "pm_api_clock.h" +#include "pm_api_ioctl.h" +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_common.h" +#include "pm_ipi.h" + +/** + * pm_ioctl_get_rpu_oper_mode () - Get current RPU operation mode + * @mode Buffer to store value of oper mode(Split/Lock-step) + * + * This function provides current configured RPU operational mode. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_get_rpu_oper_mode(uint32_t *mode) +{ + uint32_t val; + + val = mmio_read_32(ZYNQMP_RPU_GLBL_CNTL); + val &= ZYNQMP_SLSPLIT_MASK; + if (val == 0U) { + *mode = PM_RPU_MODE_LOCKSTEP; + } else { + *mode = PM_RPU_MODE_SPLIT; + } + + return PM_RET_SUCCESS; +} + +/** + * pm_ioctl_set_rpu_oper_mode () - Configure RPU operation mode + * @mode Value to set for oper mode(Split/Lock-step) + * + * This function configures RPU operational mode(Split/Lock-step). + * It also sets TCM combined mode in RPU lock-step and TCM non-combined + * mode for RPU split mode. In case of Lock step mode, RPU1's output is + * clamped. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_rpu_oper_mode(uint32_t mode) +{ + uint32_t val; + + if (mmio_read_32(CRL_APB_RST_LPD_TOP) & CRL_APB_RPU_AMBA_RESET) { + return PM_RET_ERROR_ACCESS; + } + + val = mmio_read_32(ZYNQMP_RPU_GLBL_CNTL); + + if (mode == PM_RPU_MODE_SPLIT) { + val |= ZYNQMP_SLSPLIT_MASK; + val &= ~ZYNQMP_TCM_COMB_MASK; + val &= ~ZYNQMP_SLCLAMP_MASK; + } else if (mode == PM_RPU_MODE_LOCKSTEP) { + val &= ~ZYNQMP_SLSPLIT_MASK; + val |= ZYNQMP_TCM_COMB_MASK; + val |= ZYNQMP_SLCLAMP_MASK; + } else { + return PM_RET_ERROR_ARGS; + } + + mmio_write_32(ZYNQMP_RPU_GLBL_CNTL, val); + + return PM_RET_SUCCESS; +} + +/** + * pm_ioctl_config_boot_addr() - Configure RPU boot address + * @nid Node ID of RPU + * @value Value to set for boot address (TCM/OCM) + * + * This function configures RPU boot address(memory). + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_config_boot_addr(enum pm_node_id nid, + uint32_t value) +{ + uint32_t rpu_cfg_addr, val; + + if (nid == NODE_RPU_0) { + rpu_cfg_addr = ZYNQMP_RPU0_CFG; + } else if (nid == NODE_RPU_1) { + rpu_cfg_addr = ZYNQMP_RPU1_CFG; + } else { + return PM_RET_ERROR_ARGS; + } + + val = mmio_read_32(rpu_cfg_addr); + + if (value == PM_RPU_BOOTMEM_LOVEC) { + val &= ~ZYNQMP_VINITHI_MASK; + } else if (value == PM_RPU_BOOTMEM_HIVEC) { + val |= ZYNQMP_VINITHI_MASK; + } else { + return PM_RET_ERROR_ARGS; + } + + mmio_write_32(rpu_cfg_addr, val); + + return PM_RET_SUCCESS; +} + +/** + * pm_ioctl_config_tcm_comb() - Configure TCM combined mode + * @value Value to set (Split/Combined) + * + * This function configures TCM to be in split mode or combined + * mode. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_config_tcm_comb(uint32_t value) +{ + uint32_t val; + + val = mmio_read_32(ZYNQMP_RPU_GLBL_CNTL); + + if (value == PM_RPU_TCM_SPLIT) { + val &= ~ZYNQMP_TCM_COMB_MASK; + } else if (value == PM_RPU_TCM_COMB) { + val |= ZYNQMP_TCM_COMB_MASK; + } else { + return PM_RET_ERROR_ARGS; + } + + mmio_write_32(ZYNQMP_RPU_GLBL_CNTL, val); + + return PM_RET_SUCCESS; +} + +/** + * pm_ioctl_set_tapdelay_bypass() - Enable/Disable tap delay bypass + * @type Type of tap delay to enable/disable (e.g. QSPI) + * @value Enable/Disable + * + * This function enable/disable tap delay bypass. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_tapdelay_bypass(uint32_t type, + uint32_t value) +{ + if ((value != PM_TAPDELAY_BYPASS_ENABLE && + value != PM_TAPDELAY_BYPASS_DISABLE) || type >= PM_TAPDELAY_MAX) { + return PM_RET_ERROR_ARGS; + } + + return pm_mmio_write(IOU_TAPDLY_BYPASS, TAP_DELAY_MASK, value << type); +} + +/** + * pm_ioctl_set_sgmii_mode() - Set SGMII mode for the GEM device + * @nid Node ID of the device + * @value Enable/Disable + * + * This function enable/disable SGMII mode for the GEM device. + * While enabling SGMII mode, it also ties the GEM PCS Signal + * Detect to 1 and selects EMIO for RX clock generation. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_sgmii_mode(enum pm_node_id nid, + uint32_t value) +{ + uint32_t val, mask, shift; + enum pm_ret_status ret; + + if (value != PM_SGMII_DISABLE && value != PM_SGMII_ENABLE) { + return PM_RET_ERROR_ARGS; + } + + switch (nid) { + case NODE_ETH_0: + shift = 0; + break; + case NODE_ETH_1: + shift = 1; + break; + case NODE_ETH_2: + shift = 2; + break; + case NODE_ETH_3: + shift = 3; + break; + default: + return PM_RET_ERROR_ARGS; + } + + if (value == PM_SGMII_DISABLE) { + mask = GEM_SGMII_MASK << GEM_CLK_CTRL_OFFSET * shift; + ret = pm_mmio_write(IOU_GEM_CLK_CTRL, mask, 0U); + } else { + /* Tie the GEM PCS Signal Detect to 1 */ + mask = SGMII_SD_MASK << SGMII_SD_OFFSET * shift; + val = SGMII_PCS_SD_1 << SGMII_SD_OFFSET * shift; + ret = pm_mmio_write(IOU_GEM_CTRL, mask, val); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + /* Set the GEM to SGMII mode */ + mask = GEM_CLK_CTRL_MASK << GEM_CLK_CTRL_OFFSET * shift; + val = GEM_RX_SRC_SEL_GTR | GEM_SGMII_MODE; + val <<= GEM_CLK_CTRL_OFFSET * shift; + ret = pm_mmio_write(IOU_GEM_CLK_CTRL, mask, val); + } + + return ret; +} + +/** + * pm_ioctl_sd_dll_reset() - Reset DLL logic + * @nid Node ID of the device + * @type Reset type + * + * This function resets DLL logic for the SD device. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_sd_dll_reset(enum pm_node_id nid, + uint32_t type) +{ + uint32_t mask, val; + enum pm_ret_status ret; + + if (nid == NODE_SD_0) { + mask = ZYNQMP_SD0_DLL_RST_MASK; + val = ZYNQMP_SD0_DLL_RST; + } else if (nid == NODE_SD_1) { + mask = ZYNQMP_SD1_DLL_RST_MASK; + val = ZYNQMP_SD1_DLL_RST; + } else { + return PM_RET_ERROR_ARGS; + } + + switch (type) { + case PM_DLL_RESET_ASSERT: + case PM_DLL_RESET_PULSE: + ret = pm_mmio_write(ZYNQMP_SD_DLL_CTRL, mask, val); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + if (type == PM_DLL_RESET_ASSERT) { + break; + } + mdelay(1); + /* Fallthrough */ + case PM_DLL_RESET_RELEASE: + ret = pm_mmio_write(ZYNQMP_SD_DLL_CTRL, mask, 0); + break; + default: + ret = PM_RET_ERROR_ARGS; + break; + } + + return ret; +} + +/** + * pm_ioctl_sd_set_tapdelay() - Set tap delay for the SD device + * @nid Node ID of the device + * @type Type of tap delay to set (input/output) + * @value Value to set fot the tap delay + * + * This function sets input/output tap delay for the SD device. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_sd_set_tapdelay(enum pm_node_id nid, + enum tap_delay_type type, + uint32_t value) +{ + uint32_t shift; + enum pm_ret_status ret; + uint32_t val, mask; + + if (nid == NODE_SD_0) { + shift = 0; + mask = ZYNQMP_SD0_DLL_RST_MASK; + } else if (nid == NODE_SD_1) { + shift = ZYNQMP_SD_TAP_OFFSET; + mask = ZYNQMP_SD1_DLL_RST_MASK; + } else { + return PM_RET_ERROR_ARGS; + } + + ret = pm_mmio_read(ZYNQMP_SD_DLL_CTRL, &val); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + if ((val & mask) == 0U) { + ret = pm_ioctl_sd_dll_reset(nid, PM_DLL_RESET_ASSERT); + if (ret != PM_RET_SUCCESS) { + return ret; + } + } + + if (type == PM_TAPDELAY_INPUT) { + ret = pm_mmio_write(ZYNQMP_SD_ITAP_DLY, + (ZYNQMP_SD_ITAPCHGWIN_MASK << shift), + (ZYNQMP_SD_ITAPCHGWIN << shift)); + + if (ret != PM_RET_SUCCESS) { + goto reset_release; + } + + if (value == 0U) { + ret = pm_mmio_write(ZYNQMP_SD_ITAP_DLY, + (ZYNQMP_SD_ITAPDLYENA_MASK << + shift), 0); + } else { + ret = pm_mmio_write(ZYNQMP_SD_ITAP_DLY, + (ZYNQMP_SD_ITAPDLYENA_MASK << + shift), (ZYNQMP_SD_ITAPDLYENA << + shift)); + } + + if (ret != PM_RET_SUCCESS) { + goto reset_release; + } + + ret = pm_mmio_write(ZYNQMP_SD_ITAP_DLY, + (ZYNQMP_SD_ITAPDLYSEL_MASK << shift), + (value << shift)); + + if (ret != PM_RET_SUCCESS) { + goto reset_release; + } + + ret = pm_mmio_write(ZYNQMP_SD_ITAP_DLY, + (ZYNQMP_SD_ITAPCHGWIN_MASK << shift), 0); + } else if (type == PM_TAPDELAY_OUTPUT) { + ret = pm_mmio_write(ZYNQMP_SD_OTAP_DLY, + (ZYNQMP_SD_OTAPDLYENA_MASK << shift), 0); + + if (ret != PM_RET_SUCCESS) { + goto reset_release; + } + + ret = pm_mmio_write(ZYNQMP_SD_OTAP_DLY, + (ZYNQMP_SD_OTAPDLYSEL_MASK << shift), + (value << shift)); + } else { + ret = PM_RET_ERROR_ARGS; + } + +reset_release: + if ((val & mask) == 0) { + (void)pm_ioctl_sd_dll_reset(nid, PM_DLL_RESET_RELEASE); + } + + return ret; +} + +/** + * pm_ioctl_set_pll_frac_mode() - Ioctl function for + * setting pll mode + * @pll PLL clock id + * @mode Mode fraction/integar + * + * This function sets PLL mode + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_pll_frac_mode + (uint32_t pll, uint32_t mode) +{ + return pm_clock_set_pll_mode(pll, mode); +} + +/** + * pm_ioctl_get_pll_frac_mode() - Ioctl function for + * getting pll mode + * @pll PLL clock id + * @mode Mode fraction/integar + * + * This function return current PLL mode + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_get_pll_frac_mode + (uint32_t pll, uint32_t *mode) +{ + return pm_clock_get_pll_mode(pll, mode); +} + +/** + * pm_ioctl_set_pll_frac_data() - Ioctl function for + * setting pll fraction data + * @pll PLL clock id + * @data fraction data + * + * This function sets fraction data. + * It is valid for fraction mode only. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_pll_frac_data + (uint32_t pll, uint32_t data) +{ + enum pm_node_id pll_nid; + enum pm_ret_status status; + + /* Get PLL node ID using PLL clock ID */ + status = pm_clock_get_pll_node_id(pll, &pll_nid); + if (status != PM_RET_SUCCESS) { + return status; + } + + return pm_pll_set_parameter(pll_nid, PM_PLL_PARAM_DATA, data); +} + +/** + * pm_ioctl_get_pll_frac_data() - Ioctl function for + * getting pll fraction data + * @pll PLL clock id + * @data fraction data + * + * This function returns fraction data value. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_get_pll_frac_data + (uint32_t pll, uint32_t *data) +{ + enum pm_node_id pll_nid; + enum pm_ret_status status; + + /* Get PLL node ID using PLL clock ID */ + status = pm_clock_get_pll_node_id(pll, &pll_nid); + if (status != PM_RET_SUCCESS) { + return status; + } + + return pm_pll_get_parameter(pll_nid, PM_PLL_PARAM_DATA, data); +} + +/** + * pm_ioctl_write_ggs() - Ioctl function for writing + * global general storage (ggs) + * @index GGS register index + * @value Register value to be written + * + * This function writes value to GGS register. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_write_ggs(uint32_t index, + uint32_t value) +{ + if (index >= GGS_NUM_REGS) { + return PM_RET_ERROR_ARGS; + } + + return pm_mmio_write(GGS_BASEADDR + (index << 2), + 0xFFFFFFFFU, value); +} + +/** + * pm_ioctl_read_ggs() - Ioctl function for reading + * global general storage (ggs) + * @index GGS register index + * @value Register value + * + * This function returns GGS register value. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_read_ggs(uint32_t index, + uint32_t *value) +{ + if (index >= GGS_NUM_REGS) { + return PM_RET_ERROR_ARGS; + } + + return pm_mmio_read(GGS_BASEADDR + (index << 2), value); +} + +/** + * pm_ioctl_write_pggs() - Ioctl function for writing persistent + * global general storage (pggs) + * @index PGGS register index + * @value Register value to be written + * + * This function writes value to PGGS register. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_write_pggs(uint32_t index, + uint32_t value) +{ + if (index >= PGGS_NUM_REGS) { + return PM_RET_ERROR_ARGS; + } + + return pm_mmio_write(PGGS_BASEADDR + (index << 2), + 0xFFFFFFFFU, value); +} + +/** + * pm_ioctl_afi() - Ioctl function for writing afi values + * + * @index AFI register index + * @value Register value to be written + * + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_afi(uint32_t index, + uint32_t value) +{ + uint32_t mask; + uint32_t regarr[] = {0xFD360000U, + 0xFD360014U, + 0xFD370000U, + 0xFD370014U, + 0xFD380000U, + 0xFD380014U, + 0xFD390000U, + 0xFD390014U, + 0xFD3a0000U, + 0xFD3a0014U, + 0xFD3b0000U, + 0xFD3b0014U, + 0xFF9b0000U, + 0xFF9b0014U, + 0xFD615000U, + 0xFF419000U, + }; + + if (index >= ARRAY_SIZE(regarr)) { + return PM_RET_ERROR_ARGS; + } + + if (index <= AFIFM6_WRCTRL) { + mask = FABRIC_WIDTH; + } else { + mask = 0xf00; + } + + return pm_mmio_write(regarr[index], mask, value); +} + +/** + * pm_ioctl_read_pggs() - Ioctl function for reading persistent + * global general storage (pggs) + * @index PGGS register index + * @value Register value + * + * This function returns PGGS register value. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_read_pggs(uint32_t index, + uint32_t *value) +{ + if (index >= PGGS_NUM_REGS) { + return PM_RET_ERROR_ARGS; + } + + return pm_mmio_read(PGGS_BASEADDR + (index << 2), value); +} + +/** + * pm_ioctl_ulpi_reset() - Ioctl function for performing ULPI reset + * + * This function peerforms the ULPI reset sequence for resetting + * the ULPI transceiver. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_ulpi_reset(void) +{ + enum pm_ret_status ret; + + ret = pm_mmio_write(CRL_APB_BOOT_PIN_CTRL, CRL_APB_BOOT_PIN_MASK, + ZYNQMP_ULPI_RESET_VAL_HIGH); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + /* Drive ULPI assert for atleast 1ms */ + mdelay(1); + + ret = pm_mmio_write(CRL_APB_BOOT_PIN_CTRL, CRL_APB_BOOT_PIN_MASK, + ZYNQMP_ULPI_RESET_VAL_LOW); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + /* Drive ULPI de-assert for atleast 1ms */ + mdelay(1); + + ret = pm_mmio_write(CRL_APB_BOOT_PIN_CTRL, CRL_APB_BOOT_PIN_MASK, + ZYNQMP_ULPI_RESET_VAL_HIGH); + + return ret; +} + +/** + * pm_ioctl_set_boot_health_status() - Ioctl for setting healthy boot status + * + * This function sets healthy bit value to indicate boot health status + * to firmware. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_ioctl_set_boot_health_status(uint32_t value) +{ + return pm_mmio_write(PMU_GLOBAL_GEN_STORAGE4, + PM_BOOT_HEALTH_STATUS_MASK, value); +} + +/** + * pm_api_ioctl() - PM IOCTL API for device control and configs + * @node_id Node ID of the device + * @ioctl_id ID of the requested IOCTL + * @arg1 Argument 1 to requested IOCTL call + * @arg2 Argument 2 to requested IOCTL call + * @value Returned output value + * + * This function calls IOCTL to firmware for device control and configuration. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_api_ioctl(enum pm_node_id nid, + uint32_t ioctl_id, + uint32_t arg1, + uint32_t arg2, + uint32_t *value) +{ + enum pm_ret_status ret; + uint32_t payload[PAYLOAD_ARG_CNT]; + + switch (ioctl_id) { + case IOCTL_GET_RPU_OPER_MODE: + ret = pm_ioctl_get_rpu_oper_mode(value); + break; + case IOCTL_SET_RPU_OPER_MODE: + ret = pm_ioctl_set_rpu_oper_mode(arg1); + break; + case IOCTL_RPU_BOOT_ADDR_CONFIG: + ret = pm_ioctl_config_boot_addr(nid, arg1); + break; + case IOCTL_TCM_COMB_CONFIG: + ret = pm_ioctl_config_tcm_comb(arg1); + break; + case IOCTL_SET_TAPDELAY_BYPASS: + ret = pm_ioctl_set_tapdelay_bypass(arg1, arg2); + break; + case IOCTL_SET_SGMII_MODE: + ret = pm_ioctl_set_sgmii_mode(nid, arg1); + break; + case IOCTL_SD_DLL_RESET: + ret = pm_ioctl_sd_dll_reset(nid, arg1); + break; + case IOCTL_SET_SD_TAPDELAY: + ret = pm_ioctl_sd_set_tapdelay(nid, arg1, arg2); + break; + case IOCTL_SET_PLL_FRAC_MODE: + ret = pm_ioctl_set_pll_frac_mode(arg1, arg2); + break; + case IOCTL_GET_PLL_FRAC_MODE: + ret = pm_ioctl_get_pll_frac_mode(arg1, value); + break; + case IOCTL_SET_PLL_FRAC_DATA: + ret = pm_ioctl_set_pll_frac_data(arg1, arg2); + break; + case IOCTL_GET_PLL_FRAC_DATA: + ret = pm_ioctl_get_pll_frac_data(arg1, value); + break; + case IOCTL_WRITE_GGS: + ret = pm_ioctl_write_ggs(arg1, arg2); + break; + case IOCTL_READ_GGS: + ret = pm_ioctl_read_ggs(arg1, value); + break; + case IOCTL_WRITE_PGGS: + ret = pm_ioctl_write_pggs(arg1, arg2); + break; + case IOCTL_READ_PGGS: + ret = pm_ioctl_read_pggs(arg1, value); + break; + case IOCTL_ULPI_RESET: + ret = pm_ioctl_ulpi_reset(); + break; + case IOCTL_SET_BOOT_HEALTH_STATUS: + ret = pm_ioctl_set_boot_health_status(arg1); + break; + case IOCTL_AFI: + ret = pm_ioctl_afi(arg1, arg2); + break; + default: + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_IOCTL, nid, ioctl_id, arg1, arg2); + + ret = pm_ipi_send_sync(primary_proc, payload, value, 1); + break; + } + + return ret; +} + +/** + * pm_update_ioctl_bitmask() - API to get supported IOCTL ID mask + * @bit_mask Returned bit mask of supported IOCTL IDs + */ +enum pm_ret_status atf_ioctl_bitmask(uint32_t *bit_mask) +{ + uint8_t supported_ids[] = { + IOCTL_GET_RPU_OPER_MODE, + IOCTL_SET_RPU_OPER_MODE, + IOCTL_RPU_BOOT_ADDR_CONFIG, + IOCTL_TCM_COMB_CONFIG, + IOCTL_SET_TAPDELAY_BYPASS, + IOCTL_SET_SGMII_MODE, + IOCTL_SD_DLL_RESET, + IOCTL_SET_SD_TAPDELAY, + IOCTL_SET_PLL_FRAC_MODE, + IOCTL_GET_PLL_FRAC_MODE, + IOCTL_SET_PLL_FRAC_DATA, + IOCTL_GET_PLL_FRAC_DATA, + IOCTL_WRITE_GGS, + IOCTL_READ_GGS, + IOCTL_WRITE_PGGS, + IOCTL_READ_PGGS, + IOCTL_ULPI_RESET, + IOCTL_SET_BOOT_HEALTH_STATUS, + IOCTL_AFI, + }; + uint8_t i, ioctl_id; + int32_t ret; + + for (i = 0U; i < ARRAY_SIZE(supported_ids); i++) { + ioctl_id = supported_ids[i]; + if (ioctl_id >= 64U) { + return PM_RET_ERROR_NOTSUPPORTED; + } + ret = check_api_dependency(ioctl_id); + if (ret == PM_RET_SUCCESS) { + bit_mask[ioctl_id / 32U] |= BIT(ioctl_id % 32U); + } + } + + return PM_RET_SUCCESS; +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.h b/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.h new file mode 100644 index 0000000..3b0d6ee --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_ioctl.h @@ -0,0 +1,96 @@ +/* + * Copyright (c) 2018-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for pin control. + */ + +#ifndef PM_API_IOCTL_H +#define PM_API_IOCTL_H + +#include "pm_common.h" + +//ioctl id +enum { + IOCTL_GET_RPU_OPER_MODE = 0, + IOCTL_SET_RPU_OPER_MODE = 1, + IOCTL_RPU_BOOT_ADDR_CONFIG = 2, + IOCTL_TCM_COMB_CONFIG = 3, + IOCTL_SET_TAPDELAY_BYPASS = 4, + IOCTL_SET_SGMII_MODE = 5, + IOCTL_SD_DLL_RESET = 6, + IOCTL_SET_SD_TAPDELAY = 7, + /* Ioctl for clock driver */ + IOCTL_SET_PLL_FRAC_MODE = 8, + IOCTL_GET_PLL_FRAC_MODE = 9, + IOCTL_SET_PLL_FRAC_DATA = 10, + IOCTL_GET_PLL_FRAC_DATA = 11, + IOCTL_WRITE_GGS = 12, + IOCTL_READ_GGS = 13, + IOCTL_WRITE_PGGS = 14, + IOCTL_READ_PGGS = 15, + /* IOCTL for ULPI reset */ + IOCTL_ULPI_RESET = 16, + /* Set healthy bit value */ + IOCTL_SET_BOOT_HEALTH_STATUS = 17, + IOCTL_AFI = 18, + /* Probe counter read/write */ + IOCTL_PROBE_COUNTER_READ = 19, + IOCTL_PROBE_COUNTER_WRITE = 20, + IOCTL_OSPI_MUX_SELECT = 21, + /* IOCTL for USB power request */ + IOCTL_USB_SET_STATE = 22, + /* IOCTL to get last reset reason */ + IOCTL_GET_LAST_RESET_REASON = 23, + /* AI engine NPI ISR clear */ + IOCTL_AIE_ISR_CLEAR = 24, + /* Register SGI to ATF */ + IOCTL_REGISTER_SGI = 25, +}; + +//RPU operation mode +#define PM_RPU_MODE_LOCKSTEP 0U +#define PM_RPU_MODE_SPLIT 1U + +//RPU boot mem +#define PM_RPU_BOOTMEM_LOVEC 0U +#define PM_RPU_BOOTMEM_HIVEC 1U + +//RPU tcm mpde +#define PM_RPU_TCM_SPLIT 0U +#define PM_RPU_TCM_COMB 1U + +//tap delay signal type +#define PM_TAPDELAY_NAND_DQS_IN 0U +#define PM_TAPDELAY_NAND_DQS_OUT 1U +#define PM_TAPDELAY_QSPI 2U +#define PM_TAPDELAY_MAX 3U + +//tap delay bypass +#define PM_TAPDELAY_BYPASS_DISABLE 0U +#define PM_TAPDELAY_BYPASS_ENABLE 1U + +//sgmii mode +#define PM_SGMII_DISABLE 0U +#define PM_SGMII_ENABLE 1U + +enum tap_delay_type { + PM_TAPDELAY_INPUT, + PM_TAPDELAY_OUTPUT, +}; + +//dll reset type +#define PM_DLL_RESET_ASSERT 0U +#define PM_DLL_RESET_RELEASE 1U +#define PM_DLL_RESET_PULSE 2U + +enum pm_ret_status pm_api_ioctl(enum pm_node_id nid, + uint32_t ioctl_id, + uint32_t arg1, + uint32_t arg2, + uint32_t *value); +enum pm_ret_status atf_ioctl_bitmask(uint32_t *bit_mask); +#endif /* PM_API_IOCTL_H */ diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.c b/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.c new file mode 100644 index 0000000..8f37341 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.c @@ -0,0 +1,2112 @@ +/* + * Copyright (c) 2018-2020, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for pin control. + */ + +#include + +#include +#include + +#include "pm_api_pinctrl.h" +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_common.h" +#include "pm_ipi.h" + +struct pinctrl_function { + char name[FUNCTION_NAME_LEN]; + uint16_t group_base; + uint8_t group_size; + uint8_t regval; +}; + +/* Max groups for one pin */ +#define MAX_PIN_GROUPS (13U) + +struct zynqmp_pin_group { + uint16_t (*groups)[]; +}; + +static struct pinctrl_function pinctrl_functions[MAX_FUNCTION] = { + [PINCTRL_FUNC_CAN0] = { + .name = "can0", + .regval = 0x20, + .group_base = PINCTRL_GRP_CAN0_0, + .group_size = PINCTRL_GRP_CAN0_18 - PINCTRL_GRP_CAN0_0 + 1U, + }, + [PINCTRL_FUNC_CAN1] = { + .name = "can1", + .regval = 0x20, + .group_base = PINCTRL_GRP_CAN1_0, + .group_size = PINCTRL_GRP_CAN1_19 - PINCTRL_GRP_CAN1_0 + 1U, + }, + [PINCTRL_FUNC_ETHERNET0] = { + .name = "ethernet0", + .regval = 0x02, + .group_base = PINCTRL_GRP_ETHERNET0_0, + .group_size = PINCTRL_GRP_ETHERNET0_0 - PINCTRL_GRP_ETHERNET0_0 + 1U, + }, + [PINCTRL_FUNC_ETHERNET1] = { + .name = "ethernet1", + .regval = 0x02, + .group_base = PINCTRL_GRP_ETHERNET1_0, + .group_size = PINCTRL_GRP_ETHERNET1_0 - PINCTRL_GRP_ETHERNET1_0 + 1U, + }, + [PINCTRL_FUNC_ETHERNET2] = { + .name = "ethernet2", + .regval = 0x02, + .group_base = PINCTRL_GRP_ETHERNET2_0, + .group_size = PINCTRL_GRP_ETHERNET2_0 - PINCTRL_GRP_ETHERNET2_0 + 1U, + }, + [PINCTRL_FUNC_ETHERNET3] = { + .name = "ethernet3", + .regval = 0x02, + .group_base = PINCTRL_GRP_ETHERNET3_0, + .group_size = PINCTRL_GRP_ETHERNET3_0 - PINCTRL_GRP_ETHERNET3_0 + 1U, + }, + [PINCTRL_FUNC_GEMTSU0] = { + .name = "gemtsu0", + .regval = 0x02, + .group_base = PINCTRL_GRP_GEMTSU0_0, + .group_size = PINCTRL_GRP_GEMTSU0_2 - PINCTRL_GRP_GEMTSU0_0 + 1U, + }, + [PINCTRL_FUNC_GPIO0] = { + .name = "gpio0", + .regval = 0x00, + .group_base = PINCTRL_GRP_GPIO0_0, + .group_size = PINCTRL_GRP_GPIO0_77 - PINCTRL_GRP_GPIO0_0 + 1U, + }, + [PINCTRL_FUNC_I2C0] = { + .name = "i2c0", + .regval = 0x40, + .group_base = PINCTRL_GRP_I2C0_0, + .group_size = PINCTRL_GRP_I2C0_18 - PINCTRL_GRP_I2C0_0 + 1U, + }, + [PINCTRL_FUNC_I2C1] = { + .name = "i2c1", + .regval = 0x40, + .group_base = PINCTRL_GRP_I2C1_0, + .group_size = PINCTRL_GRP_I2C1_19 - PINCTRL_GRP_I2C1_0 + 1U, + }, + [PINCTRL_FUNC_MDIO0] = { + .name = "mdio0", + .regval = 0x60, + .group_base = PINCTRL_GRP_MDIO0_0, + .group_size = PINCTRL_GRP_MDIO0_0 - PINCTRL_GRP_MDIO0_0 + 1U, + }, + [PINCTRL_FUNC_MDIO1] = { + .name = "mdio1", + .regval = 0x80, + .group_base = PINCTRL_GRP_MDIO1_0, + .group_size = PINCTRL_GRP_MDIO1_1 - PINCTRL_GRP_MDIO1_0 + 1U, + }, + [PINCTRL_FUNC_MDIO2] = { + .name = "mdio2", + .regval = 0xa0, + .group_base = PINCTRL_GRP_MDIO2_0, + .group_size = PINCTRL_GRP_MDIO2_0 - PINCTRL_GRP_MDIO2_0 + 1U, + }, + [PINCTRL_FUNC_MDIO3] = { + .name = "mdio3", + .regval = 0xc0, + .group_base = PINCTRL_GRP_MDIO3_0, + .group_size = PINCTRL_GRP_MDIO3_0 - PINCTRL_GRP_MDIO3_0 + 1U, + }, + [PINCTRL_FUNC_QSPI0] = { + .name = "qspi0", + .regval = 0x02, + .group_base = PINCTRL_GRP_QSPI0_0, + .group_size = PINCTRL_GRP_QSPI0_0 - PINCTRL_GRP_QSPI0_0 + 1U, + }, + [PINCTRL_FUNC_QSPI_FBCLK] = { + .name = "qspi_fbclk", + .regval = 0x02, + .group_base = PINCTRL_GRP_QSPI_FBCLK, + .group_size = PINCTRL_GRP_QSPI_FBCLK - PINCTRL_GRP_QSPI_FBCLK + 1U, + }, + [PINCTRL_FUNC_QSPI_SS] = { + .name = "qspi_ss", + .regval = 0x02, + .group_base = PINCTRL_GRP_QSPI_SS, + .group_size = PINCTRL_GRP_QSPI_SS - PINCTRL_GRP_QSPI_SS + 1U, + }, + [PINCTRL_FUNC_SPI0] = { + .name = "spi0", + .regval = 0x80, + .group_base = PINCTRL_GRP_SPI0_0, + .group_size = PINCTRL_GRP_SPI0_5 - PINCTRL_GRP_SPI0_0 + 1U, + }, + [PINCTRL_FUNC_SPI1] = { + .name = "spi1", + .regval = 0x80, + .group_base = PINCTRL_GRP_SPI1_0, + .group_size = PINCTRL_GRP_SPI1_5 - PINCTRL_GRP_SPI1_0 + 1U, + }, + [PINCTRL_FUNC_SPI0_SS] = { + .name = "spi0_ss", + .regval = 0x80, + .group_base = PINCTRL_GRP_SPI0_0_SS0, + .group_size = PINCTRL_GRP_SPI0_5_SS2 - PINCTRL_GRP_SPI0_0_SS0 + 1U, + }, + [PINCTRL_FUNC_SPI1_SS] = { + .name = "spi1_ss", + .regval = 0x80, + .group_base = PINCTRL_GRP_SPI1_0_SS0, + .group_size = PINCTRL_GRP_SPI1_5_SS2 - PINCTRL_GRP_SPI1_0_SS0 + 1U, + }, + [PINCTRL_FUNC_SDIO0] = { + .name = "sdio0", + .regval = 0x08, + .group_base = PINCTRL_GRP_SDIO0_0, + .group_size = PINCTRL_GRP_SDIO0_1BIT_2_7 - PINCTRL_GRP_SDIO0_0 + 1U, + }, + [PINCTRL_FUNC_SDIO0_PC] = { + .name = "sdio0_pc", + .regval = 0x08, + .group_base = PINCTRL_GRP_SDIO0_0_PC, + .group_size = PINCTRL_GRP_SDIO0_2_PC - PINCTRL_GRP_SDIO0_0_PC + 1U, + }, + [PINCTRL_FUNC_SDIO0_CD] = { + .name = "sdio0_cd", + .regval = 0x08, + .group_base = PINCTRL_GRP_SDIO0_0_CD, + .group_size = PINCTRL_GRP_SDIO0_2_CD - PINCTRL_GRP_SDIO0_0_CD + 1U, + }, + [PINCTRL_FUNC_SDIO0_WP] = { + .name = "sdio0_wp", + .regval = 0x08, + .group_base = PINCTRL_GRP_SDIO0_0_WP, + .group_size = PINCTRL_GRP_SDIO0_2_WP - PINCTRL_GRP_SDIO0_0_WP + 1U, + }, + [PINCTRL_FUNC_SDIO1] = { + .name = "sdio1", + .regval = 0x10, + .group_base = PINCTRL_GRP_SDIO1_0, + .group_size = PINCTRL_GRP_SDIO1_1BIT_1_3 - PINCTRL_GRP_SDIO1_0 + 1U, + }, + [PINCTRL_FUNC_SDIO1_PC] = { + .name = "sdio1_pc", + .regval = 0x10, + .group_base = PINCTRL_GRP_SDIO1_0_PC, + .group_size = PINCTRL_GRP_SDIO1_1_PC - PINCTRL_GRP_SDIO1_0_PC + 1U, + }, + [PINCTRL_FUNC_SDIO1_CD] = { + .name = "sdio1_cd", + .regval = 0x10, + .group_base = PINCTRL_GRP_SDIO1_0_CD, + .group_size = PINCTRL_GRP_SDIO1_1_CD - PINCTRL_GRP_SDIO1_0_CD + 1U, + }, + [PINCTRL_FUNC_SDIO1_WP] = { + .name = "sdio1_wp", + .regval = 0x10, + .group_base = PINCTRL_GRP_SDIO1_0_WP, + .group_size = PINCTRL_GRP_SDIO1_1_WP - PINCTRL_GRP_SDIO1_0_WP + 1U, + }, + [PINCTRL_FUNC_NAND0] = { + .name = "nand0", + .regval = 0x04, + .group_base = PINCTRL_GRP_NAND0_0, + .group_size = PINCTRL_GRP_NAND0_0 - PINCTRL_GRP_NAND0_0 + 1U, + }, + [PINCTRL_FUNC_NAND0_CE] = { + .name = "nand0_ce", + .regval = 0x04, + .group_base = PINCTRL_GRP_NAND0_0_CE, + .group_size = PINCTRL_GRP_NAND0_1_CE - PINCTRL_GRP_NAND0_0_CE + 1U, + }, + [PINCTRL_FUNC_NAND0_RB] = { + .name = "nand0_rb", + .regval = 0x04, + .group_base = PINCTRL_GRP_NAND0_0_RB, + .group_size = PINCTRL_GRP_NAND0_1_RB - PINCTRL_GRP_NAND0_0_RB + 1U, + }, + [PINCTRL_FUNC_NAND0_DQS] = { + .name = "nand0_dqs", + .regval = 0x04, + .group_base = PINCTRL_GRP_NAND0_0_DQS, + .group_size = PINCTRL_GRP_NAND0_1_DQS - PINCTRL_GRP_NAND0_0_DQS + 1U, + }, + [PINCTRL_FUNC_TTC0_CLK] = { + .name = "ttc0_clk", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC0_0_CLK, + .group_size = PINCTRL_GRP_TTC0_8_CLK - PINCTRL_GRP_TTC0_0_CLK + 1U, + }, + [PINCTRL_FUNC_TTC0_WAV] = { + .name = "ttc0_wav", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC0_0_WAV, + .group_size = PINCTRL_GRP_TTC0_8_WAV - PINCTRL_GRP_TTC0_0_WAV + 1U, + }, + [PINCTRL_FUNC_TTC1_CLK] = { + .name = "ttc1_clk", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC1_0_CLK, + .group_size = PINCTRL_GRP_TTC1_8_CLK - PINCTRL_GRP_TTC1_0_CLK + 1U, + }, + [PINCTRL_FUNC_TTC1_WAV] = { + .name = "ttc1_wav", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC1_0_WAV, + .group_size = PINCTRL_GRP_TTC1_8_WAV - PINCTRL_GRP_TTC1_0_WAV + 1U, + }, + [PINCTRL_FUNC_TTC2_CLK] = { + .name = "ttc2_clk", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC2_0_CLK, + .group_size = PINCTRL_GRP_TTC2_8_CLK - PINCTRL_GRP_TTC2_0_CLK + 1U, + }, + [PINCTRL_FUNC_TTC2_WAV] = { + .name = "ttc2_wav", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC2_0_WAV, + .group_size = PINCTRL_GRP_TTC2_8_WAV - PINCTRL_GRP_TTC2_0_WAV + 1U, + }, + [PINCTRL_FUNC_TTC3_CLK] = { + .name = "ttc3_clk", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC3_0_CLK, + .group_size = PINCTRL_GRP_TTC3_8_CLK - PINCTRL_GRP_TTC3_0_CLK + 1U, + }, + [PINCTRL_FUNC_TTC3_WAV] = { + .name = "ttc3_wav", + .regval = 0xa0, + .group_base = PINCTRL_GRP_TTC3_0_WAV, + .group_size = PINCTRL_GRP_TTC3_8_WAV - PINCTRL_GRP_TTC3_0_WAV + 1U, + }, + [PINCTRL_FUNC_UART0] = { + .name = "uart0", + .regval = 0xc0, + .group_base = PINCTRL_GRP_UART0_0, + .group_size = PINCTRL_GRP_UART0_18 - PINCTRL_GRP_UART0_0 + 1U, + }, + [PINCTRL_FUNC_UART1] = { + .name = "uart1", + .regval = 0xc0, + .group_base = PINCTRL_GRP_UART1_0, + .group_size = PINCTRL_GRP_UART1_18 - PINCTRL_GRP_UART1_0 + 1U, + }, + [PINCTRL_FUNC_USB0] = { + .name = "usb0", + .regval = 0x04, + .group_base = PINCTRL_GRP_USB0_0, + .group_size = PINCTRL_GRP_USB0_0 - PINCTRL_GRP_USB0_0 + 1U, + }, + [PINCTRL_FUNC_USB1] = { + .name = "usb1", + .regval = 0x04, + .group_base = PINCTRL_GRP_USB1_0, + .group_size = PINCTRL_GRP_USB1_0 - PINCTRL_GRP_USB1_0 + 1U, + }, + [PINCTRL_FUNC_SWDT0_CLK] = { + .name = "swdt0_clk", + .regval = 0x60, + .group_base = PINCTRL_GRP_SWDT0_0_CLK, + .group_size = PINCTRL_GRP_SWDT0_12_CLK - PINCTRL_GRP_SWDT0_0_CLK + 1U, + }, + [PINCTRL_FUNC_SWDT0_RST] = { + .name = "swdt0_rst", + .regval = 0x60, + .group_base = PINCTRL_GRP_SWDT0_0_RST, + .group_size = PINCTRL_GRP_SWDT0_12_RST - PINCTRL_GRP_SWDT0_0_RST + 1U, + }, + [PINCTRL_FUNC_SWDT1_CLK] = { + .name = "swdt1_clk", + .regval = 0x60, + .group_base = PINCTRL_GRP_SWDT1_0_CLK, + .group_size = PINCTRL_GRP_SWDT1_12_CLK - PINCTRL_GRP_SWDT1_0_CLK + 1U, + }, + [PINCTRL_FUNC_SWDT1_RST] = { + .name = "swdt1_rst", + .regval = 0x60, + .group_base = PINCTRL_GRP_SWDT1_0_RST, + .group_size = PINCTRL_GRP_SWDT1_12_RST - PINCTRL_GRP_SWDT1_0_RST + 1U, + }, + [PINCTRL_FUNC_PMU0] = { + .name = "pmu0", + .regval = 0x08, + .group_base = PINCTRL_GRP_PMU0_0, + .group_size = PINCTRL_GRP_PMU0_11 - PINCTRL_GRP_PMU0_0 + 1U, + }, + [PINCTRL_FUNC_PCIE0] = { + .name = "pcie0", + .regval = 0x04, + .group_base = PINCTRL_GRP_PCIE0_0, + .group_size = PINCTRL_GRP_PCIE0_7 - PINCTRL_GRP_PCIE0_0 + 1U, + }, + [PINCTRL_FUNC_CSU0] = { + .name = "csu0", + .regval = 0x18, + .group_base = PINCTRL_GRP_CSU0_0, + .group_size = PINCTRL_GRP_CSU0_11 - PINCTRL_GRP_CSU0_0 + 1U, + }, + [PINCTRL_FUNC_DPAUX0] = { + .name = "dpaux0", + .regval = 0x18, + .group_base = PINCTRL_GRP_DPAUX0_0, + .group_size = PINCTRL_GRP_DPAUX0_3 - PINCTRL_GRP_DPAUX0_0 + 1U, + }, + [PINCTRL_FUNC_PJTAG0] = { + .name = "pjtag0", + .regval = 0x60, + .group_base = PINCTRL_GRP_PJTAG0_0, + .group_size = PINCTRL_GRP_PJTAG0_5 - PINCTRL_GRP_PJTAG0_0 + 1U, + }, + [PINCTRL_FUNC_TRACE0] = { + .name = "trace0", + .regval = 0xe0, + .group_base = PINCTRL_GRP_TRACE0_0, + .group_size = PINCTRL_GRP_TRACE0_2 - PINCTRL_GRP_TRACE0_0 + 1U, + }, + [PINCTRL_FUNC_TRACE0_CLK] = { + .name = "trace0_clk", + .regval = 0xe0, + .group_base = PINCTRL_GRP_TRACE0_0_CLK, + .group_size = PINCTRL_GRP_TRACE0_2_CLK - PINCTRL_GRP_TRACE0_0_CLK + 1U, + }, + [PINCTRL_FUNC_TESTSCAN0] = { + .name = "testscan0", + .regval = 0x10, + .group_base = PINCTRL_GRP_TESTSCAN0_0, + .group_size = PINCTRL_GRP_TESTSCAN0_0 - PINCTRL_GRP_TESTSCAN0_0 + 1U, + }, +}; + +static struct zynqmp_pin_group zynqmp_pin_groups[MAX_PIN] = { + [PINCTRL_PIN_0] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_0, + PINCTRL_GRP_CAN1_0, + PINCTRL_GRP_I2C1_0, + PINCTRL_GRP_PJTAG0_0, + PINCTRL_GRP_SPI0_0, + PINCTRL_GRP_TTC3_0_CLK, + PINCTRL_GRP_UART1_0, + PINCTRL_GRP_TRACE0_0_CLK, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_1] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_1, + PINCTRL_GRP_CAN1_0, + PINCTRL_GRP_I2C1_0, + PINCTRL_GRP_PJTAG0_0, + PINCTRL_GRP_SPI0_0_SS2, + PINCTRL_GRP_TTC3_0_WAV, + PINCTRL_GRP_UART1_0, + PINCTRL_GRP_TRACE0_0_CLK, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_2] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_2, + PINCTRL_GRP_CAN0_0, + PINCTRL_GRP_I2C0_0, + PINCTRL_GRP_PJTAG0_0, + PINCTRL_GRP_SPI0_0_SS1, + PINCTRL_GRP_TTC2_0_CLK, + PINCTRL_GRP_UART0_0, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_3] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_3, + PINCTRL_GRP_CAN0_0, + PINCTRL_GRP_I2C0_0, + PINCTRL_GRP_PJTAG0_0, + PINCTRL_GRP_SPI0_0_SS0, + PINCTRL_GRP_TTC2_0_WAV, + PINCTRL_GRP_UART0_0, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_4] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_4, + PINCTRL_GRP_CAN1_1, + PINCTRL_GRP_I2C1_1, + PINCTRL_GRP_SWDT1_0_CLK, + PINCTRL_GRP_SPI0_0, + PINCTRL_GRP_TTC1_0_CLK, + PINCTRL_GRP_UART1_1, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_5] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI_SS, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_5, + PINCTRL_GRP_CAN1_1, + PINCTRL_GRP_I2C1_1, + PINCTRL_GRP_SWDT1_0_RST, + PINCTRL_GRP_SPI0_0, + PINCTRL_GRP_TTC1_0_WAV, + PINCTRL_GRP_UART1_1, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_6] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI_FBCLK, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_6, + PINCTRL_GRP_CAN0_1, + PINCTRL_GRP_I2C0_1, + PINCTRL_GRP_SWDT0_0_CLK, + PINCTRL_GRP_SPI1_0, + PINCTRL_GRP_TTC0_0_CLK, + PINCTRL_GRP_UART0_1, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_7] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI_SS, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_7, + PINCTRL_GRP_CAN0_1, + PINCTRL_GRP_I2C0_1, + PINCTRL_GRP_SWDT0_0_RST, + PINCTRL_GRP_SPI1_0_SS2, + PINCTRL_GRP_TTC0_0_WAV, + PINCTRL_GRP_UART0_1, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_8] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_8, + PINCTRL_GRP_CAN1_2, + PINCTRL_GRP_I2C1_2, + PINCTRL_GRP_SWDT1_1_CLK, + PINCTRL_GRP_SPI1_0_SS1, + PINCTRL_GRP_TTC3_1_CLK, + PINCTRL_GRP_UART1_2, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_9] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_NAND0_0_CE, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_9, + PINCTRL_GRP_CAN1_2, + PINCTRL_GRP_I2C1_2, + PINCTRL_GRP_SWDT1_1_RST, + PINCTRL_GRP_SPI1_0_SS0, + PINCTRL_GRP_TTC3_1_WAV, + PINCTRL_GRP_UART1_2, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_10] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_NAND0_0_RB, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_10, + PINCTRL_GRP_CAN0_2, + PINCTRL_GRP_I2C0_2, + PINCTRL_GRP_SWDT0_1_CLK, + PINCTRL_GRP_SPI1_0, + PINCTRL_GRP_TTC2_1_CLK, + PINCTRL_GRP_UART0_2, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_11] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_NAND0_0_RB, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_11, + PINCTRL_GRP_CAN0_2, + PINCTRL_GRP_I2C0_2, + PINCTRL_GRP_SWDT0_1_RST, + PINCTRL_GRP_SPI1_0, + PINCTRL_GRP_TTC2_1_WAV, + PINCTRL_GRP_UART0_2, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_12] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_NAND0_0_DQS, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_12, + PINCTRL_GRP_CAN1_3, + PINCTRL_GRP_I2C1_3, + PINCTRL_GRP_PJTAG0_1, + PINCTRL_GRP_SPI0_1, + PINCTRL_GRP_TTC1_1_CLK, + PINCTRL_GRP_UART1_3, + PINCTRL_GRP_TRACE0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_13] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_13, + PINCTRL_GRP_CAN1_3, + PINCTRL_GRP_I2C1_3, + PINCTRL_GRP_PJTAG0_1, + PINCTRL_GRP_SPI0_1_SS2, + PINCTRL_GRP_TTC1_1_WAV, + PINCTRL_GRP_UART1_3, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_14] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_14, + PINCTRL_GRP_CAN0_3, + PINCTRL_GRP_I2C0_3, + PINCTRL_GRP_PJTAG0_1, + PINCTRL_GRP_SPI0_1_SS1, + PINCTRL_GRP_TTC0_1_CLK, + PINCTRL_GRP_UART0_3, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_15] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_15, + PINCTRL_GRP_CAN0_3, + PINCTRL_GRP_I2C0_3, + PINCTRL_GRP_PJTAG0_1, + PINCTRL_GRP_SPI0_1_SS0, + PINCTRL_GRP_TTC0_1_WAV, + PINCTRL_GRP_UART0_3, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_16] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_16, + PINCTRL_GRP_CAN1_4, + PINCTRL_GRP_I2C1_4, + PINCTRL_GRP_SWDT1_2_CLK, + PINCTRL_GRP_SPI0_1, + PINCTRL_GRP_TTC3_2_CLK, + PINCTRL_GRP_UART1_4, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_17] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_17, + PINCTRL_GRP_CAN1_4, + PINCTRL_GRP_I2C1_4, + PINCTRL_GRP_SWDT1_2_RST, + PINCTRL_GRP_SPI0_1, + PINCTRL_GRP_TTC3_2_WAV, + PINCTRL_GRP_UART1_4, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_4, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_18] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_0, + PINCTRL_GRP_GPIO0_18, + PINCTRL_GRP_CAN0_4, + PINCTRL_GRP_I2C0_4, + PINCTRL_GRP_SWDT0_2_CLK, + PINCTRL_GRP_SPI1_1, + PINCTRL_GRP_TTC2_2_CLK, + PINCTRL_GRP_UART0_4, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_5, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_19] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_1, + PINCTRL_GRP_GPIO0_19, + PINCTRL_GRP_CAN0_4, + PINCTRL_GRP_I2C0_4, + PINCTRL_GRP_SWDT0_2_RST, + PINCTRL_GRP_SPI1_1_SS2, + PINCTRL_GRP_TTC2_2_WAV, + PINCTRL_GRP_UART0_4, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_6, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_20] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_2, + PINCTRL_GRP_GPIO0_20, + PINCTRL_GRP_CAN1_5, + PINCTRL_GRP_I2C1_5, + PINCTRL_GRP_SWDT1_3_CLK, + PINCTRL_GRP_SPI1_1_SS1, + PINCTRL_GRP_TTC1_2_CLK, + PINCTRL_GRP_UART1_5, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_21] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_3, + PINCTRL_GRP_GPIO0_21, + PINCTRL_GRP_CAN1_5, + PINCTRL_GRP_I2C1_5, + PINCTRL_GRP_SWDT1_3_RST, + PINCTRL_GRP_SPI1_1_SS0, + PINCTRL_GRP_TTC1_2_WAV, + PINCTRL_GRP_UART1_5, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_2, + PINCTRL_GRP_SDIO0_1BIT_0_3, + PINCTRL_GRP_SDIO0_1BIT_0_4, + PINCTRL_GRP_SDIO0_1BIT_0_5, + PINCTRL_GRP_SDIO0_1BIT_0_6, + PINCTRL_GRP_SDIO0_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_22] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_4, + PINCTRL_GRP_GPIO0_22, + PINCTRL_GRP_CAN0_5, + PINCTRL_GRP_I2C0_5, + PINCTRL_GRP_SWDT0_3_CLK, + PINCTRL_GRP_SPI1_1, + PINCTRL_GRP_TTC0_2_CLK, + PINCTRL_GRP_UART0_5, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_2, + PINCTRL_GRP_SDIO0_1BIT_0_3, + PINCTRL_GRP_SDIO0_1BIT_0_4, + PINCTRL_GRP_SDIO0_1BIT_0_5, + PINCTRL_GRP_SDIO0_1BIT_0_6, + PINCTRL_GRP_SDIO0_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_23] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0_PC, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_5, + PINCTRL_GRP_GPIO0_23, + PINCTRL_GRP_CAN0_5, + PINCTRL_GRP_I2C0_5, + PINCTRL_GRP_SWDT0_3_RST, + PINCTRL_GRP_SPI1_1, + PINCTRL_GRP_TTC0_2_WAV, + PINCTRL_GRP_UART0_5, + PINCTRL_GRP_RESERVED, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_24] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0_CD, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_6, + PINCTRL_GRP_GPIO0_24, + PINCTRL_GRP_CAN1_6, + PINCTRL_GRP_I2C1_6, + PINCTRL_GRP_SWDT1_4_CLK, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TTC3_3_CLK, + PINCTRL_GRP_UART1_6, + PINCTRL_GRP_RESERVED, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_25] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_SDIO0_0_WP, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_7, + PINCTRL_GRP_GPIO0_25, + PINCTRL_GRP_CAN1_6, + PINCTRL_GRP_I2C1_6, + PINCTRL_GRP_SWDT1_4_RST, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_TTC3_3_WAV, + PINCTRL_GRP_UART1_6, + PINCTRL_GRP_RESERVED, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_26] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_GEMTSU0_0, + PINCTRL_GRP_NAND0_1_CE, + PINCTRL_GRP_PMU0_0, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_8, + PINCTRL_GRP_GPIO0_26, + PINCTRL_GRP_CAN0_6, + PINCTRL_GRP_I2C0_6, + PINCTRL_GRP_PJTAG0_2, + PINCTRL_GRP_SPI0_2, + PINCTRL_GRP_TTC2_3_CLK, + PINCTRL_GRP_UART0_6, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_27] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_NAND0_1_RB, + PINCTRL_GRP_PMU0_1, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_0, + PINCTRL_GRP_GPIO0_27, + PINCTRL_GRP_CAN0_6, + PINCTRL_GRP_I2C0_6, + PINCTRL_GRP_PJTAG0_2, + PINCTRL_GRP_SPI0_2_SS2, + PINCTRL_GRP_TTC2_3_WAV, + PINCTRL_GRP_UART0_6, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_28] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_NAND0_1_RB, + PINCTRL_GRP_PMU0_2, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_0, + PINCTRL_GRP_GPIO0_28, + PINCTRL_GRP_CAN1_7, + PINCTRL_GRP_I2C1_7, + PINCTRL_GRP_PJTAG0_2, + PINCTRL_GRP_SPI0_2_SS1, + PINCTRL_GRP_TTC1_3_CLK, + PINCTRL_GRP_UART1_7, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_29] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_0, + PINCTRL_GRP_PMU0_3, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_1, + PINCTRL_GRP_GPIO0_29, + PINCTRL_GRP_CAN1_7, + PINCTRL_GRP_I2C1_7, + PINCTRL_GRP_PJTAG0_2, + PINCTRL_GRP_SPI0_2_SS0, + PINCTRL_GRP_TTC1_3_WAV, + PINCTRL_GRP_UART1_7, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_30] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_1, + PINCTRL_GRP_PMU0_4, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_1, + PINCTRL_GRP_GPIO0_30, + PINCTRL_GRP_CAN0_7, + PINCTRL_GRP_I2C0_7, + PINCTRL_GRP_SWDT0_4_CLK, + PINCTRL_GRP_SPI0_2, + PINCTRL_GRP_TTC0_3_CLK, + PINCTRL_GRP_UART0_7, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_31] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_2, + PINCTRL_GRP_PMU0_5, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_9, + PINCTRL_GRP_GPIO0_31, + PINCTRL_GRP_CAN0_7, + PINCTRL_GRP_I2C0_7, + PINCTRL_GRP_SWDT0_4_RST, + PINCTRL_GRP_SPI0_2, + PINCTRL_GRP_TTC0_3_WAV, + PINCTRL_GRP_UART0_7, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_32] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_NAND0_1_DQS, + PINCTRL_GRP_PMU0_6, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_10, + PINCTRL_GRP_GPIO0_32, + PINCTRL_GRP_CAN1_8, + PINCTRL_GRP_I2C1_8, + PINCTRL_GRP_SWDT1_5_CLK, + PINCTRL_GRP_SPI1_2, + PINCTRL_GRP_TTC3_4_CLK, + PINCTRL_GRP_UART1_8, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_33] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_3, + PINCTRL_GRP_PMU0_7, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_CSU0_11, + PINCTRL_GRP_GPIO0_33, + PINCTRL_GRP_CAN1_8, + PINCTRL_GRP_I2C1_8, + PINCTRL_GRP_SWDT1_5_RST, + PINCTRL_GRP_SPI1_2_SS2, + PINCTRL_GRP_TTC3_4_WAV, + PINCTRL_GRP_UART1_8, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_34] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_4, + PINCTRL_GRP_PMU0_8, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_2, + PINCTRL_GRP_GPIO0_34, + PINCTRL_GRP_CAN0_8, + PINCTRL_GRP_I2C0_8, + PINCTRL_GRP_SWDT0_5_CLK, + PINCTRL_GRP_SPI1_2_SS1, + PINCTRL_GRP_TTC2_4_CLK, + PINCTRL_GRP_UART0_8, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_35] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_5, + PINCTRL_GRP_PMU0_9, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_2, + PINCTRL_GRP_GPIO0_35, + PINCTRL_GRP_CAN0_8, + PINCTRL_GRP_I2C0_8, + PINCTRL_GRP_SWDT0_5_RST, + PINCTRL_GRP_SPI1_2_SS0, + PINCTRL_GRP_TTC2_4_WAV, + PINCTRL_GRP_UART0_8, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_36] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_6, + PINCTRL_GRP_PMU0_10, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_3, + PINCTRL_GRP_GPIO0_36, + PINCTRL_GRP_CAN1_9, + PINCTRL_GRP_I2C1_9, + PINCTRL_GRP_SWDT1_6_CLK, + PINCTRL_GRP_SPI1_2, + PINCTRL_GRP_TTC1_4_CLK, + PINCTRL_GRP_UART1_9, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_37] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_PCIE0_7, + PINCTRL_GRP_PMU0_11, + PINCTRL_GRP_TESTSCAN0_0, + PINCTRL_GRP_DPAUX0_3, + PINCTRL_GRP_GPIO0_37, + PINCTRL_GRP_CAN1_9, + PINCTRL_GRP_I2C1_9, + PINCTRL_GRP_SWDT1_6_RST, + PINCTRL_GRP_SPI1_2, + PINCTRL_GRP_TTC1_4_WAV, + PINCTRL_GRP_UART1_9, + PINCTRL_GRP_TRACE0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_38] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_38, + PINCTRL_GRP_CAN0_9, + PINCTRL_GRP_I2C0_9, + PINCTRL_GRP_PJTAG0_3, + PINCTRL_GRP_SPI0_3, + PINCTRL_GRP_TTC0_4_CLK, + PINCTRL_GRP_UART0_9, + PINCTRL_GRP_TRACE0_1_CLK, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_2, + PINCTRL_GRP_SDIO0_1BIT_1_3, + PINCTRL_GRP_SDIO0_1BIT_1_4, + PINCTRL_GRP_SDIO0_1BIT_1_5, + PINCTRL_GRP_SDIO0_1BIT_1_6, + PINCTRL_GRP_SDIO0_1BIT_1_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_39] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1_CD, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_39, + PINCTRL_GRP_CAN0_9, + PINCTRL_GRP_I2C0_9, + PINCTRL_GRP_PJTAG0_3, + PINCTRL_GRP_SPI0_3_SS2, + PINCTRL_GRP_TTC0_4_WAV, + PINCTRL_GRP_UART0_9, + PINCTRL_GRP_TRACE0_1_CLK, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_40] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_40, + PINCTRL_GRP_CAN1_10, + PINCTRL_GRP_I2C1_10, + PINCTRL_GRP_PJTAG0_3, + PINCTRL_GRP_SPI0_3_SS1, + PINCTRL_GRP_TTC3_5_CLK, + PINCTRL_GRP_UART1_10, + PINCTRL_GRP_TRACE0_1, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_2, + PINCTRL_GRP_SDIO0_1BIT_1_3, + PINCTRL_GRP_SDIO0_1BIT_1_4, + PINCTRL_GRP_SDIO0_1BIT_1_5, + PINCTRL_GRP_SDIO0_1BIT_1_6, + PINCTRL_GRP_SDIO0_1BIT_1_7, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_41] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_41, + PINCTRL_GRP_CAN1_10, + PINCTRL_GRP_I2C1_10, + PINCTRL_GRP_PJTAG0_3, + PINCTRL_GRP_SPI0_3_SS0, + PINCTRL_GRP_TTC3_5_WAV, + PINCTRL_GRP_UART1_10, + PINCTRL_GRP_TRACE0_1, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_0, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_42] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_42, + PINCTRL_GRP_CAN0_10, + PINCTRL_GRP_I2C0_10, + PINCTRL_GRP_SWDT0_6_CLK, + PINCTRL_GRP_SPI0_3, + PINCTRL_GRP_TTC2_5_CLK, + PINCTRL_GRP_UART0_10, + PINCTRL_GRP_TRACE0_1, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_1, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_43] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0_PC, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_43, + PINCTRL_GRP_CAN0_10, + PINCTRL_GRP_I2C0_10, + PINCTRL_GRP_SWDT0_6_RST, + PINCTRL_GRP_SPI0_3, + PINCTRL_GRP_TTC2_5_WAV, + PINCTRL_GRP_UART0_10, + PINCTRL_GRP_TRACE0_1, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_44] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0_WP, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_44, + PINCTRL_GRP_CAN1_11, + PINCTRL_GRP_I2C1_11, + PINCTRL_GRP_SWDT1_7_CLK, + PINCTRL_GRP_SPI1_3, + PINCTRL_GRP_TTC1_5_CLK, + PINCTRL_GRP_UART1_11, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_45] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0_CD, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_45, + PINCTRL_GRP_CAN1_11, + PINCTRL_GRP_I2C1_11, + PINCTRL_GRP_SWDT1_7_RST, + PINCTRL_GRP_SPI1_3_SS2, + PINCTRL_GRP_TTC1_5_WAV, + PINCTRL_GRP_UART1_11, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_4, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_46] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_46, + PINCTRL_GRP_CAN0_11, + PINCTRL_GRP_I2C0_11, + PINCTRL_GRP_SWDT0_7_CLK, + PINCTRL_GRP_SPI1_3_SS1, + PINCTRL_GRP_TTC0_5_CLK, + PINCTRL_GRP_UART0_11, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_5, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_4, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_47] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_47, + PINCTRL_GRP_CAN0_11, + PINCTRL_GRP_I2C0_11, + PINCTRL_GRP_SWDT0_7_RST, + PINCTRL_GRP_SPI1_3_SS0, + PINCTRL_GRP_TTC0_5_WAV, + PINCTRL_GRP_UART0_11, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_6, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_5, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_48] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_48, + PINCTRL_GRP_CAN1_12, + PINCTRL_GRP_I2C1_12, + PINCTRL_GRP_SWDT1_8_CLK, + PINCTRL_GRP_SPI1_3, + PINCTRL_GRP_TTC3_6_CLK, + PINCTRL_GRP_UART1_12, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_7, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_6, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_49] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1_PC, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_49, + PINCTRL_GRP_CAN1_12, + PINCTRL_GRP_I2C1_12, + PINCTRL_GRP_SWDT1_8_RST, + PINCTRL_GRP_SPI1_3, + PINCTRL_GRP_TTC3_6_WAV, + PINCTRL_GRP_UART1_12, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_50] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_GEMTSU0_1, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_1_WP, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_50, + PINCTRL_GRP_CAN0_12, + PINCTRL_GRP_I2C0_12, + PINCTRL_GRP_SWDT0_8_CLK, + PINCTRL_GRP_MDIO1_0, + PINCTRL_GRP_TTC2_6_CLK, + PINCTRL_GRP_UART0_12, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_2, + PINCTRL_GRP_SDIO1_1BIT_0_3, + PINCTRL_GRP_SDIO1_1BIT_0_4, + PINCTRL_GRP_SDIO1_1BIT_0_5, + PINCTRL_GRP_SDIO1_1BIT_0_6, + PINCTRL_GRP_SDIO1_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_51] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_GEMTSU0_2, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_51, + PINCTRL_GRP_CAN0_12, + PINCTRL_GRP_I2C0_12, + PINCTRL_GRP_SWDT0_8_RST, + PINCTRL_GRP_MDIO1_0, + PINCTRL_GRP_TTC2_6_WAV, + PINCTRL_GRP_UART0_12, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_2, + PINCTRL_GRP_SDIO1_1BIT_0_3, + PINCTRL_GRP_SDIO1_1BIT_0_4, + PINCTRL_GRP_SDIO1_1BIT_0_5, + PINCTRL_GRP_SDIO1_1BIT_0_6, + PINCTRL_GRP_SDIO1_1BIT_0_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_52] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_52, + PINCTRL_GRP_CAN1_13, + PINCTRL_GRP_I2C1_13, + PINCTRL_GRP_PJTAG0_4, + PINCTRL_GRP_SPI0_4, + PINCTRL_GRP_TTC1_6_CLK, + PINCTRL_GRP_UART1_13, + PINCTRL_GRP_TRACE0_2_CLK, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_53] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_53, + PINCTRL_GRP_CAN1_13, + PINCTRL_GRP_I2C1_13, + PINCTRL_GRP_PJTAG0_4, + PINCTRL_GRP_SPI0_4_SS2, + PINCTRL_GRP_TTC1_6_WAV, + PINCTRL_GRP_UART1_13, + PINCTRL_GRP_TRACE0_2_CLK, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_54] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_54, + PINCTRL_GRP_CAN0_13, + PINCTRL_GRP_I2C0_13, + PINCTRL_GRP_PJTAG0_4, + PINCTRL_GRP_SPI0_4_SS1, + PINCTRL_GRP_TTC0_6_CLK, + PINCTRL_GRP_UART0_13, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_55] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_55, + PINCTRL_GRP_CAN0_13, + PINCTRL_GRP_I2C0_13, + PINCTRL_GRP_PJTAG0_4, + PINCTRL_GRP_SPI0_4_SS0, + PINCTRL_GRP_TTC0_6_WAV, + PINCTRL_GRP_UART0_13, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_56] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_56, + PINCTRL_GRP_CAN1_14, + PINCTRL_GRP_I2C1_14, + PINCTRL_GRP_SWDT1_9_CLK, + PINCTRL_GRP_SPI0_4, + PINCTRL_GRP_TTC3_7_CLK, + PINCTRL_GRP_UART1_14, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_57] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_57, + PINCTRL_GRP_CAN1_14, + PINCTRL_GRP_I2C1_14, + PINCTRL_GRP_SWDT1_9_RST, + PINCTRL_GRP_SPI0_4, + PINCTRL_GRP_TTC3_7_WAV, + PINCTRL_GRP_UART1_14, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_58] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_58, + PINCTRL_GRP_CAN0_14, + PINCTRL_GRP_I2C0_14, + PINCTRL_GRP_PJTAG0_5, + PINCTRL_GRP_SPI1_4, + PINCTRL_GRP_TTC2_7_CLK, + PINCTRL_GRP_UART0_14, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_59] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_59, + PINCTRL_GRP_CAN0_14, + PINCTRL_GRP_I2C0_14, + PINCTRL_GRP_PJTAG0_5, + PINCTRL_GRP_SPI1_4_SS2, + PINCTRL_GRP_TTC2_7_WAV, + PINCTRL_GRP_UART0_14, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_60] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_60, + PINCTRL_GRP_CAN1_15, + PINCTRL_GRP_I2C1_15, + PINCTRL_GRP_PJTAG0_5, + PINCTRL_GRP_SPI1_4_SS1, + PINCTRL_GRP_TTC1_7_CLK, + PINCTRL_GRP_UART1_15, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_61] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_61, + PINCTRL_GRP_CAN1_15, + PINCTRL_GRP_I2C1_15, + PINCTRL_GRP_PJTAG0_5, + PINCTRL_GRP_SPI1_4_SS0, + PINCTRL_GRP_TTC1_7_WAV, + PINCTRL_GRP_UART1_15, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_62] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_62, + PINCTRL_GRP_CAN0_15, + PINCTRL_GRP_I2C0_15, + PINCTRL_GRP_SWDT0_9_CLK, + PINCTRL_GRP_SPI1_4, + PINCTRL_GRP_TTC0_7_CLK, + PINCTRL_GRP_UART0_15, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_63] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_63, + PINCTRL_GRP_CAN0_15, + PINCTRL_GRP_I2C0_15, + PINCTRL_GRP_SWDT0_9_RST, + PINCTRL_GRP_SPI1_4, + PINCTRL_GRP_TTC0_7_WAV, + PINCTRL_GRP_UART0_15, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_64] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_64, + PINCTRL_GRP_CAN1_16, + PINCTRL_GRP_I2C1_16, + PINCTRL_GRP_SWDT1_10_CLK, + PINCTRL_GRP_SPI0_5, + PINCTRL_GRP_TTC3_8_CLK, + PINCTRL_GRP_UART1_16, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_2, + PINCTRL_GRP_SDIO0_1BIT_2_3, + PINCTRL_GRP_SDIO0_1BIT_2_4, + PINCTRL_GRP_SDIO0_1BIT_2_5, + PINCTRL_GRP_SDIO0_1BIT_2_6, + PINCTRL_GRP_SDIO0_1BIT_2_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_65] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2_CD, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_65, + PINCTRL_GRP_CAN1_16, + PINCTRL_GRP_I2C1_16, + PINCTRL_GRP_SWDT1_10_RST, + PINCTRL_GRP_SPI0_5_SS2, + PINCTRL_GRP_TTC3_8_WAV, + PINCTRL_GRP_UART1_16, + PINCTRL_GRP_TRACE0_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_66] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_66, + PINCTRL_GRP_CAN0_16, + PINCTRL_GRP_I2C0_16, + PINCTRL_GRP_SWDT0_10_CLK, + PINCTRL_GRP_SPI0_5_SS1, + PINCTRL_GRP_TTC2_8_CLK, + PINCTRL_GRP_UART0_16, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_2, + PINCTRL_GRP_SDIO0_1BIT_2_3, + PINCTRL_GRP_SDIO0_1BIT_2_4, + PINCTRL_GRP_SDIO0_1BIT_2_5, + PINCTRL_GRP_SDIO0_1BIT_2_6, + PINCTRL_GRP_SDIO0_1BIT_2_7, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_67] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_67, + PINCTRL_GRP_CAN0_16, + PINCTRL_GRP_I2C0_16, + PINCTRL_GRP_SWDT0_10_RST, + PINCTRL_GRP_SPI0_5_SS0, + PINCTRL_GRP_TTC2_8_WAV, + PINCTRL_GRP_UART0_16, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_68] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_68, + PINCTRL_GRP_CAN1_17, + PINCTRL_GRP_I2C1_17, + PINCTRL_GRP_SWDT1_11_CLK, + PINCTRL_GRP_SPI0_5, + PINCTRL_GRP_TTC1_8_CLK, + PINCTRL_GRP_UART1_17, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_69] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_1_WP, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_69, + PINCTRL_GRP_CAN1_17, + PINCTRL_GRP_I2C1_17, + PINCTRL_GRP_SWDT1_11_RST, + PINCTRL_GRP_SPI0_5, + PINCTRL_GRP_TTC1_8_WAV, + PINCTRL_GRP_UART1_17, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_70] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_1_PC, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_70, + PINCTRL_GRP_CAN0_17, + PINCTRL_GRP_I2C0_17, + PINCTRL_GRP_SWDT0_11_CLK, + PINCTRL_GRP_SPI1_5, + PINCTRL_GRP_TTC0_8_CLK, + PINCTRL_GRP_UART0_17, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_71] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_71, + PINCTRL_GRP_CAN0_17, + PINCTRL_GRP_I2C0_17, + PINCTRL_GRP_SWDT0_11_RST, + PINCTRL_GRP_SPI1_5_SS2, + PINCTRL_GRP_TTC0_8_WAV, + PINCTRL_GRP_UART0_17, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_4, + PINCTRL_GRP_SDIO1_1BIT_1_0, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_72] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_72, + PINCTRL_GRP_CAN1_18, + PINCTRL_GRP_I2C1_18, + PINCTRL_GRP_SWDT1_12_CLK, + PINCTRL_GRP_SPI1_5_SS1, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_UART1_18, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_5, + PINCTRL_GRP_SDIO1_1BIT_1_1, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_73] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_73, + PINCTRL_GRP_CAN1_18, + PINCTRL_GRP_I2C1_18, + PINCTRL_GRP_SWDT1_12_RST, + PINCTRL_GRP_SPI1_5_SS0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_UART1_18, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_6, + PINCTRL_GRP_SDIO1_1BIT_1_2, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_74] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_74, + PINCTRL_GRP_CAN0_18, + PINCTRL_GRP_I2C0_18, + PINCTRL_GRP_SWDT0_12_CLK, + PINCTRL_GRP_SPI1_5, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_UART0_18, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_7, + PINCTRL_GRP_SDIO1_1BIT_1_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_75] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_SDIO0_2_PC, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_75, + PINCTRL_GRP_CAN0_18, + PINCTRL_GRP_I2C0_18, + PINCTRL_GRP_SWDT0_12_RST, + PINCTRL_GRP_SPI1_5, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_UART0_18, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_1BIT_1_0, + PINCTRL_GRP_SDIO1_1BIT_1_1, + PINCTRL_GRP_SDIO1_1BIT_1_2, + PINCTRL_GRP_SDIO1_1BIT_1_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_76] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO0_2_WP, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_76, + PINCTRL_GRP_CAN1_19, + PINCTRL_GRP_I2C1_19, + PINCTRL_GRP_MDIO0_0, + PINCTRL_GRP_MDIO1_1, + PINCTRL_GRP_MDIO2_0, + PINCTRL_GRP_MDIO3_0, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_1BIT_1_0, + PINCTRL_GRP_SDIO1_1BIT_1_1, + PINCTRL_GRP_SDIO1_1BIT_1_2, + PINCTRL_GRP_SDIO1_1BIT_1_3, + END_OF_GROUPS, + }), + }, + [PINCTRL_PIN_77] = { + .groups = &((uint16_t []) { + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_SDIO1_1_CD, + PINCTRL_GRP_RESERVED, + PINCTRL_GRP_GPIO0_77, + PINCTRL_GRP_CAN1_19, + PINCTRL_GRP_I2C1_19, + PINCTRL_GRP_MDIO0_0, + PINCTRL_GRP_MDIO1_1, + PINCTRL_GRP_MDIO2_0, + PINCTRL_GRP_MDIO3_0, + PINCTRL_GRP_RESERVED, + END_OF_GROUPS, + }), + }, +}; + +/** + * pm_api_pinctrl_get_num_pins() - PM call to request number of pins + * @npins Number of pins + * + * This function is used by master to get number of pins + * + * @return Returns success. + */ +enum pm_ret_status pm_api_pinctrl_get_num_pins(uint32_t *npins) +{ + *npins = MAX_PIN; + + return PM_RET_SUCCESS; +} + +/** + * pm_api_pinctrl_get_num_functions() - PM call to request number of functions + * @nfuncs Number of functions + * + * This function is used by master to get number of functions + * + * @return Returns success. + */ +enum pm_ret_status pm_api_pinctrl_get_num_functions(uint32_t *nfuncs) +{ + *nfuncs = MAX_FUNCTION; + + return PM_RET_SUCCESS; +} + +/** + * pm_api_pinctrl_get_num_func_groups() - PM call to request number of + * function groups + * @fid Function Id + * @ngroups Number of function groups + * + * This function is used by master to get number of function groups + * + * @return Returns success. + */ +enum pm_ret_status pm_api_pinctrl_get_num_func_groups(uint32_t fid, + uint32_t *ngroups) +{ + if (fid >= MAX_FUNCTION) { + return PM_RET_ERROR_ARGS; + } + + *ngroups = pinctrl_functions[fid].group_size; + + return PM_RET_SUCCESS; +} + +/** + * pm_api_pinctrl_get_function_name() - PM call to request a function name + * @fid Function ID + * @name Name of function (max 16 bytes) + * + * This function is used by master to get name of function specified + * by given function ID. + */ +void pm_api_pinctrl_get_function_name(uint32_t fid, char *name) +{ + if (fid >= MAX_FUNCTION) { + memcpy(name, END_OF_FUNCTION, FUNCTION_NAME_LEN); + } else { + memcpy(name, pinctrl_functions[fid].name, FUNCTION_NAME_LEN); + } +} + +/** + * pm_api_pinctrl_get_function_groups() - PM call to request first 6 function + * groups of function Id + * @fid Function ID + * @index Index of next function groups + * @groups Function groups + * + * This function is used by master to get function groups specified + * by given function Id. This API will return 6 function groups with + * a single response. To get other function groups, master should call + * same API in loop with new function groups index till error is returned. + * + * E.g First call should have index 0 which will return function groups + * 0, 1, 2, 3, 4 and 5. Next call, index should be 6 which will return + * function groups 6, 7, 8, 9, 10 and 11 and so on. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_api_pinctrl_get_function_groups(uint32_t fid, + uint32_t index, + uint16_t *groups) +{ + uint16_t grps; + uint16_t end_of_grp_offset; + uint16_t i; + + if (fid >= MAX_FUNCTION) { + return PM_RET_ERROR_ARGS; + } + + memset(groups, END_OF_GROUPS, GROUPS_PAYLOAD_LEN); + + grps = pinctrl_functions[fid].group_base; + end_of_grp_offset = grps + pinctrl_functions[fid].group_size; + + for (i = 0U; i < NUM_GROUPS_PER_RESP; i++) { + if ((grps + index + i) >= end_of_grp_offset) { + break; + } + groups[i] = (grps + index + i); + } + + return PM_RET_SUCCESS; +} + +/** + * pm_api_pinctrl_get_pin_groups() - PM call to request first 6 pin + * groups of pin + * @pin Pin + * @index Index of next pin groups + * @groups pin groups + * + * This function is used by master to get pin groups specified + * by given pin Id. This API will return 6 pin groups with + * a single response. To get other pin groups, master should call + * same API in loop with new pin groups index till error is returned. + * + * E.g First call should have index 0 which will return pin groups + * 0, 1, 2, 3, 4 and 5. Next call, index should be 6 which will return + * pin groups 6, 7, 8, 9, 10 and 11 and so on. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_api_pinctrl_get_pin_groups(uint32_t pin, + uint32_t index, + uint16_t *groups) +{ + uint32_t i; + uint16_t *grps; + + if (pin >= MAX_PIN) { + return PM_RET_ERROR_ARGS; + } + + memset(groups, END_OF_GROUPS, GROUPS_PAYLOAD_LEN); + + grps = *zynqmp_pin_groups[pin].groups; + if (grps == NULL) { + return PM_RET_SUCCESS; + } + + /* Skip groups till index */ + for (i = 0; i < index; i++) { + if (grps[i] == (uint16_t)END_OF_GROUPS) { + return PM_RET_SUCCESS; + } + } + + for (i = 0; i < NUM_GROUPS_PER_RESP; i++) { + groups[i] = grps[index + i]; + if (groups[i] == (uint16_t)END_OF_GROUPS) { + break; + } + } + + return PM_RET_SUCCESS; +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.h b/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.h new file mode 100644 index 0000000..5c4cb45 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_pinctrl.h @@ -0,0 +1,723 @@ +/* + * Copyright (c) 2018-2020, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions for pin control. + */ + +#ifndef PM_API_PINCTRL_H +#define PM_API_PINCTRL_H + +#include "pm_common.h" + +#define FUNCTION_NAME_LEN (16U) +#define GROUPS_PAYLOAD_LEN (12U) +#define NUM_GROUPS_PER_RESP (6U) +#define END_OF_FUNCTION "END_OF_FUNCTION" +#define END_OF_GROUPS -1 +#define PINCTRL_GRP_RESERVED -2 + +//pinctrl function ids +enum { + PINCTRL_FUNC_CAN0 = (0U), + PINCTRL_FUNC_CAN1 = (1U), + PINCTRL_FUNC_ETHERNET0 = (2U), + PINCTRL_FUNC_ETHERNET1 = (3U), + PINCTRL_FUNC_ETHERNET2 = (4U), + PINCTRL_FUNC_ETHERNET3 = (5U), + PINCTRL_FUNC_GEMTSU0 = (6U), + PINCTRL_FUNC_GPIO0 = (7U), + PINCTRL_FUNC_I2C0 = (8U), + PINCTRL_FUNC_I2C1 = (9U), + PINCTRL_FUNC_MDIO0 = (10U), + PINCTRL_FUNC_MDIO1 = (11U), + PINCTRL_FUNC_MDIO2 = (12U), + PINCTRL_FUNC_MDIO3 = (13U), + PINCTRL_FUNC_QSPI0 = (14U), + PINCTRL_FUNC_QSPI_FBCLK = (15U), + PINCTRL_FUNC_QSPI_SS = (16U), + PINCTRL_FUNC_SPI0 = (17U), + PINCTRL_FUNC_SPI1 = (18U), + PINCTRL_FUNC_SPI0_SS = (19U), + PINCTRL_FUNC_SPI1_SS = (20U), + PINCTRL_FUNC_SDIO0 = (21U), + PINCTRL_FUNC_SDIO0_PC = (22U), + PINCTRL_FUNC_SDIO0_CD = (23U), + PINCTRL_FUNC_SDIO0_WP = (24U), + PINCTRL_FUNC_SDIO1 = (25U), + PINCTRL_FUNC_SDIO1_PC = (26U), + PINCTRL_FUNC_SDIO1_CD = (27U), + PINCTRL_FUNC_SDIO1_WP = (28U), + PINCTRL_FUNC_NAND0 = (29U), + PINCTRL_FUNC_NAND0_CE = (30U), + PINCTRL_FUNC_NAND0_RB = (31U), + PINCTRL_FUNC_NAND0_DQS = (32U), + PINCTRL_FUNC_TTC0_CLK = (33U), + PINCTRL_FUNC_TTC0_WAV = (34U), + PINCTRL_FUNC_TTC1_CLK = (35U), + PINCTRL_FUNC_TTC1_WAV = (36U), + PINCTRL_FUNC_TTC2_CLK = (37U), + PINCTRL_FUNC_TTC2_WAV = (38U), + PINCTRL_FUNC_TTC3_CLK = (39U), + PINCTRL_FUNC_TTC3_WAV = (40U), + PINCTRL_FUNC_UART0 = (41U), + PINCTRL_FUNC_UART1 = (42U), + PINCTRL_FUNC_USB0 = (43U), + PINCTRL_FUNC_USB1 = (44U), + PINCTRL_FUNC_SWDT0_CLK = (45U), + PINCTRL_FUNC_SWDT0_RST = (46U), + PINCTRL_FUNC_SWDT1_CLK = (47U), + PINCTRL_FUNC_SWDT1_RST = (48U), + PINCTRL_FUNC_PMU0 = (49U), + PINCTRL_FUNC_PCIE0 = (50U), + PINCTRL_FUNC_CSU0 = (51U), + PINCTRL_FUNC_DPAUX0 = (52U), + PINCTRL_FUNC_PJTAG0 = (53U), + PINCTRL_FUNC_TRACE0 = (54U), + PINCTRL_FUNC_TRACE0_CLK = (55U), + PINCTRL_FUNC_TESTSCAN0 = (56U), + END_FUNCTION = (57U), +}; + +#define MAX_FUNCTION END_FUNCTION + +// pinctrl pin numbers +enum { + PINCTRL_PIN_0, + PINCTRL_PIN_1, + PINCTRL_PIN_2, + PINCTRL_PIN_3, + PINCTRL_PIN_4, + PINCTRL_PIN_5, + PINCTRL_PIN_6, + PINCTRL_PIN_7, + PINCTRL_PIN_8, + PINCTRL_PIN_9, + PINCTRL_PIN_10, + PINCTRL_PIN_11, + PINCTRL_PIN_12, + PINCTRL_PIN_13, + PINCTRL_PIN_14, + PINCTRL_PIN_15, + PINCTRL_PIN_16, + PINCTRL_PIN_17, + PINCTRL_PIN_18, + PINCTRL_PIN_19, + PINCTRL_PIN_20, + PINCTRL_PIN_21, + PINCTRL_PIN_22, + PINCTRL_PIN_23, + PINCTRL_PIN_24, + PINCTRL_PIN_25, + PINCTRL_PIN_26, + PINCTRL_PIN_27, + PINCTRL_PIN_28, + PINCTRL_PIN_29, + PINCTRL_PIN_30, + PINCTRL_PIN_31, + PINCTRL_PIN_32, + PINCTRL_PIN_33, + PINCTRL_PIN_34, + PINCTRL_PIN_35, + PINCTRL_PIN_36, + PINCTRL_PIN_37, + PINCTRL_PIN_38, + PINCTRL_PIN_39, + PINCTRL_PIN_40, + PINCTRL_PIN_41, + PINCTRL_PIN_42, + PINCTRL_PIN_43, + PINCTRL_PIN_44, + PINCTRL_PIN_45, + PINCTRL_PIN_46, + PINCTRL_PIN_47, + PINCTRL_PIN_48, + PINCTRL_PIN_49, + PINCTRL_PIN_50, + PINCTRL_PIN_51, + PINCTRL_PIN_52, + PINCTRL_PIN_53, + PINCTRL_PIN_54, + PINCTRL_PIN_55, + PINCTRL_PIN_56, + PINCTRL_PIN_57, + PINCTRL_PIN_58, + PINCTRL_PIN_59, + PINCTRL_PIN_60, + PINCTRL_PIN_61, + PINCTRL_PIN_62, + PINCTRL_PIN_63, + PINCTRL_PIN_64, + PINCTRL_PIN_65, + PINCTRL_PIN_66, + PINCTRL_PIN_67, + PINCTRL_PIN_68, + PINCTRL_PIN_69, + PINCTRL_PIN_70, + PINCTRL_PIN_71, + PINCTRL_PIN_72, + PINCTRL_PIN_73, + PINCTRL_PIN_74, + PINCTRL_PIN_75, + PINCTRL_PIN_76, + PINCTRL_PIN_77, + END_PINS = (78U), +}; + +#define MAX_PIN END_PINS + +// pinctrl group ids +enum { + PINCTRL_GRP_ETHERNET0_0, + PINCTRL_GRP_ETHERNET1_0, + PINCTRL_GRP_ETHERNET2_0, + PINCTRL_GRP_ETHERNET3_0, + PINCTRL_GRP_GEMTSU0_0, + PINCTRL_GRP_GEMTSU0_1, + PINCTRL_GRP_GEMTSU0_2, + PINCTRL_GRP_MDIO0_0, + PINCTRL_GRP_MDIO1_0, + PINCTRL_GRP_MDIO1_1, + PINCTRL_GRP_MDIO2_0, + PINCTRL_GRP_MDIO3_0, + PINCTRL_GRP_QSPI0_0, + PINCTRL_GRP_QSPI_SS, + PINCTRL_GRP_QSPI_FBCLK, + PINCTRL_GRP_SPI0_0, + PINCTRL_GRP_SPI0_1, + PINCTRL_GRP_SPI0_2, + PINCTRL_GRP_SPI0_3, + PINCTRL_GRP_SPI0_4, + PINCTRL_GRP_SPI0_5, + PINCTRL_GRP_SPI0_0_SS0, + PINCTRL_GRP_SPI0_0_SS1, + PINCTRL_GRP_SPI0_0_SS2, + PINCTRL_GRP_SPI0_1_SS0, + PINCTRL_GRP_SPI0_1_SS1, + PINCTRL_GRP_SPI0_1_SS2, + PINCTRL_GRP_SPI0_2_SS0, + PINCTRL_GRP_SPI0_2_SS1, + PINCTRL_GRP_SPI0_2_SS2, + PINCTRL_GRP_SPI0_3_SS0, + PINCTRL_GRP_SPI0_3_SS1, + PINCTRL_GRP_SPI0_3_SS2, + PINCTRL_GRP_SPI0_4_SS0, + PINCTRL_GRP_SPI0_4_SS1, + PINCTRL_GRP_SPI0_4_SS2, + PINCTRL_GRP_SPI0_5_SS0, + PINCTRL_GRP_SPI0_5_SS1, + PINCTRL_GRP_SPI0_5_SS2, + PINCTRL_GRP_SPI1_0, + PINCTRL_GRP_SPI1_1, + PINCTRL_GRP_SPI1_2, + PINCTRL_GRP_SPI1_3, + PINCTRL_GRP_SPI1_4, + PINCTRL_GRP_SPI1_5, + PINCTRL_GRP_SPI1_0_SS0, + PINCTRL_GRP_SPI1_0_SS1, + PINCTRL_GRP_SPI1_0_SS2, + PINCTRL_GRP_SPI1_1_SS0, + PINCTRL_GRP_SPI1_1_SS1, + PINCTRL_GRP_SPI1_1_SS2, + PINCTRL_GRP_SPI1_2_SS0, + PINCTRL_GRP_SPI1_2_SS1, + PINCTRL_GRP_SPI1_2_SS2, + PINCTRL_GRP_SPI1_3_SS0, + PINCTRL_GRP_SPI1_3_SS1, + PINCTRL_GRP_SPI1_3_SS2, + PINCTRL_GRP_SPI1_4_SS0, + PINCTRL_GRP_SPI1_4_SS1, + PINCTRL_GRP_SPI1_4_SS2, + PINCTRL_GRP_SPI1_5_SS0, + PINCTRL_GRP_SPI1_5_SS1, + PINCTRL_GRP_SPI1_5_SS2, + PINCTRL_GRP_SDIO0_0, + PINCTRL_GRP_SDIO0_1, + PINCTRL_GRP_SDIO0_2, + PINCTRL_GRP_SDIO0_4BIT_0_0, + PINCTRL_GRP_SDIO0_4BIT_0_1, + PINCTRL_GRP_SDIO0_4BIT_1_0, + PINCTRL_GRP_SDIO0_4BIT_1_1, + PINCTRL_GRP_SDIO0_4BIT_2_0, + PINCTRL_GRP_SDIO0_4BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_0_0, + PINCTRL_GRP_SDIO0_1BIT_0_1, + PINCTRL_GRP_SDIO0_1BIT_0_2, + PINCTRL_GRP_SDIO0_1BIT_0_3, + PINCTRL_GRP_SDIO0_1BIT_0_4, + PINCTRL_GRP_SDIO0_1BIT_0_5, + PINCTRL_GRP_SDIO0_1BIT_0_6, + PINCTRL_GRP_SDIO0_1BIT_0_7, + PINCTRL_GRP_SDIO0_1BIT_1_0, + PINCTRL_GRP_SDIO0_1BIT_1_1, + PINCTRL_GRP_SDIO0_1BIT_1_2, + PINCTRL_GRP_SDIO0_1BIT_1_3, + PINCTRL_GRP_SDIO0_1BIT_1_4, + PINCTRL_GRP_SDIO0_1BIT_1_5, + PINCTRL_GRP_SDIO0_1BIT_1_6, + PINCTRL_GRP_SDIO0_1BIT_1_7, + PINCTRL_GRP_SDIO0_1BIT_2_0, + PINCTRL_GRP_SDIO0_1BIT_2_1, + PINCTRL_GRP_SDIO0_1BIT_2_2, + PINCTRL_GRP_SDIO0_1BIT_2_3, + PINCTRL_GRP_SDIO0_1BIT_2_4, + PINCTRL_GRP_SDIO0_1BIT_2_5, + PINCTRL_GRP_SDIO0_1BIT_2_6, + PINCTRL_GRP_SDIO0_1BIT_2_7, + PINCTRL_GRP_SDIO0_0_PC, + PINCTRL_GRP_SDIO0_1_PC, + PINCTRL_GRP_SDIO0_2_PC, + PINCTRL_GRP_SDIO0_0_CD, + PINCTRL_GRP_SDIO0_1_CD, + PINCTRL_GRP_SDIO0_2_CD, + PINCTRL_GRP_SDIO0_0_WP, + PINCTRL_GRP_SDIO0_1_WP, + PINCTRL_GRP_SDIO0_2_WP, + PINCTRL_GRP_SDIO1_0, + PINCTRL_GRP_SDIO1_4BIT_0_0, + PINCTRL_GRP_SDIO1_4BIT_0_1, + PINCTRL_GRP_SDIO1_4BIT_1_0, + PINCTRL_GRP_SDIO1_1BIT_0_0, + PINCTRL_GRP_SDIO1_1BIT_0_1, + PINCTRL_GRP_SDIO1_1BIT_0_2, + PINCTRL_GRP_SDIO1_1BIT_0_3, + PINCTRL_GRP_SDIO1_1BIT_0_4, + PINCTRL_GRP_SDIO1_1BIT_0_5, + PINCTRL_GRP_SDIO1_1BIT_0_6, + PINCTRL_GRP_SDIO1_1BIT_0_7, + PINCTRL_GRP_SDIO1_1BIT_1_0, + PINCTRL_GRP_SDIO1_1BIT_1_1, + PINCTRL_GRP_SDIO1_1BIT_1_2, + PINCTRL_GRP_SDIO1_1BIT_1_3, + PINCTRL_GRP_SDIO1_0_PC, + PINCTRL_GRP_SDIO1_1_PC, + PINCTRL_GRP_SDIO1_0_CD, + PINCTRL_GRP_SDIO1_1_CD, + PINCTRL_GRP_SDIO1_0_WP, + PINCTRL_GRP_SDIO1_1_WP, + PINCTRL_GRP_NAND0_0, + PINCTRL_GRP_NAND0_0_CE, + PINCTRL_GRP_NAND0_1_CE, + PINCTRL_GRP_NAND0_0_RB, + PINCTRL_GRP_NAND0_1_RB, + PINCTRL_GRP_NAND0_0_DQS, + PINCTRL_GRP_NAND0_1_DQS, + PINCTRL_GRP_CAN0_0, + PINCTRL_GRP_CAN0_1, + PINCTRL_GRP_CAN0_2, + PINCTRL_GRP_CAN0_3, + PINCTRL_GRP_CAN0_4, + PINCTRL_GRP_CAN0_5, + PINCTRL_GRP_CAN0_6, + PINCTRL_GRP_CAN0_7, + PINCTRL_GRP_CAN0_8, + PINCTRL_GRP_CAN0_9, + PINCTRL_GRP_CAN0_10, + PINCTRL_GRP_CAN0_11, + PINCTRL_GRP_CAN0_12, + PINCTRL_GRP_CAN0_13, + PINCTRL_GRP_CAN0_14, + PINCTRL_GRP_CAN0_15, + PINCTRL_GRP_CAN0_16, + PINCTRL_GRP_CAN0_17, + PINCTRL_GRP_CAN0_18, + PINCTRL_GRP_CAN1_0, + PINCTRL_GRP_CAN1_1, + PINCTRL_GRP_CAN1_2, + PINCTRL_GRP_CAN1_3, + PINCTRL_GRP_CAN1_4, + PINCTRL_GRP_CAN1_5, + PINCTRL_GRP_CAN1_6, + PINCTRL_GRP_CAN1_7, + PINCTRL_GRP_CAN1_8, + PINCTRL_GRP_CAN1_9, + PINCTRL_GRP_CAN1_10, + PINCTRL_GRP_CAN1_11, + PINCTRL_GRP_CAN1_12, + PINCTRL_GRP_CAN1_13, + PINCTRL_GRP_CAN1_14, + PINCTRL_GRP_CAN1_15, + PINCTRL_GRP_CAN1_16, + PINCTRL_GRP_CAN1_17, + PINCTRL_GRP_CAN1_18, + PINCTRL_GRP_CAN1_19, + PINCTRL_GRP_UART0_0, + PINCTRL_GRP_UART0_1, + PINCTRL_GRP_UART0_2, + PINCTRL_GRP_UART0_3, + PINCTRL_GRP_UART0_4, + PINCTRL_GRP_UART0_5, + PINCTRL_GRP_UART0_6, + PINCTRL_GRP_UART0_7, + PINCTRL_GRP_UART0_8, + PINCTRL_GRP_UART0_9, + PINCTRL_GRP_UART0_10, + PINCTRL_GRP_UART0_11, + PINCTRL_GRP_UART0_12, + PINCTRL_GRP_UART0_13, + PINCTRL_GRP_UART0_14, + PINCTRL_GRP_UART0_15, + PINCTRL_GRP_UART0_16, + PINCTRL_GRP_UART0_17, + PINCTRL_GRP_UART0_18, + PINCTRL_GRP_UART1_0, + PINCTRL_GRP_UART1_1, + PINCTRL_GRP_UART1_2, + PINCTRL_GRP_UART1_3, + PINCTRL_GRP_UART1_4, + PINCTRL_GRP_UART1_5, + PINCTRL_GRP_UART1_6, + PINCTRL_GRP_UART1_7, + PINCTRL_GRP_UART1_8, + PINCTRL_GRP_UART1_9, + PINCTRL_GRP_UART1_10, + PINCTRL_GRP_UART1_11, + PINCTRL_GRP_UART1_12, + PINCTRL_GRP_UART1_13, + PINCTRL_GRP_UART1_14, + PINCTRL_GRP_UART1_15, + PINCTRL_GRP_UART1_16, + PINCTRL_GRP_UART1_17, + PINCTRL_GRP_UART1_18, + PINCTRL_GRP_I2C0_0, + PINCTRL_GRP_I2C0_1, + PINCTRL_GRP_I2C0_2, + PINCTRL_GRP_I2C0_3, + PINCTRL_GRP_I2C0_4, + PINCTRL_GRP_I2C0_5, + PINCTRL_GRP_I2C0_6, + PINCTRL_GRP_I2C0_7, + PINCTRL_GRP_I2C0_8, + PINCTRL_GRP_I2C0_9, + PINCTRL_GRP_I2C0_10, + PINCTRL_GRP_I2C0_11, + PINCTRL_GRP_I2C0_12, + PINCTRL_GRP_I2C0_13, + PINCTRL_GRP_I2C0_14, + PINCTRL_GRP_I2C0_15, + PINCTRL_GRP_I2C0_16, + PINCTRL_GRP_I2C0_17, + PINCTRL_GRP_I2C0_18, + PINCTRL_GRP_I2C1_0, + PINCTRL_GRP_I2C1_1, + PINCTRL_GRP_I2C1_2, + PINCTRL_GRP_I2C1_3, + PINCTRL_GRP_I2C1_4, + PINCTRL_GRP_I2C1_5, + PINCTRL_GRP_I2C1_6, + PINCTRL_GRP_I2C1_7, + PINCTRL_GRP_I2C1_8, + PINCTRL_GRP_I2C1_9, + PINCTRL_GRP_I2C1_10, + PINCTRL_GRP_I2C1_11, + PINCTRL_GRP_I2C1_12, + PINCTRL_GRP_I2C1_13, + PINCTRL_GRP_I2C1_14, + PINCTRL_GRP_I2C1_15, + PINCTRL_GRP_I2C1_16, + PINCTRL_GRP_I2C1_17, + PINCTRL_GRP_I2C1_18, + PINCTRL_GRP_I2C1_19, + PINCTRL_GRP_TTC0_0_CLK, + PINCTRL_GRP_TTC0_1_CLK, + PINCTRL_GRP_TTC0_2_CLK, + PINCTRL_GRP_TTC0_3_CLK, + PINCTRL_GRP_TTC0_4_CLK, + PINCTRL_GRP_TTC0_5_CLK, + PINCTRL_GRP_TTC0_6_CLK, + PINCTRL_GRP_TTC0_7_CLK, + PINCTRL_GRP_TTC0_8_CLK, + PINCTRL_GRP_TTC0_0_WAV, + PINCTRL_GRP_TTC0_1_WAV, + PINCTRL_GRP_TTC0_2_WAV, + PINCTRL_GRP_TTC0_3_WAV, + PINCTRL_GRP_TTC0_4_WAV, + PINCTRL_GRP_TTC0_5_WAV, + PINCTRL_GRP_TTC0_6_WAV, + PINCTRL_GRP_TTC0_7_WAV, + PINCTRL_GRP_TTC0_8_WAV, + PINCTRL_GRP_TTC1_0_CLK, + PINCTRL_GRP_TTC1_1_CLK, + PINCTRL_GRP_TTC1_2_CLK, + PINCTRL_GRP_TTC1_3_CLK, + PINCTRL_GRP_TTC1_4_CLK, + PINCTRL_GRP_TTC1_5_CLK, + PINCTRL_GRP_TTC1_6_CLK, + PINCTRL_GRP_TTC1_7_CLK, + PINCTRL_GRP_TTC1_8_CLK, + PINCTRL_GRP_TTC1_0_WAV, + PINCTRL_GRP_TTC1_1_WAV, + PINCTRL_GRP_TTC1_2_WAV, + PINCTRL_GRP_TTC1_3_WAV, + PINCTRL_GRP_TTC1_4_WAV, + PINCTRL_GRP_TTC1_5_WAV, + PINCTRL_GRP_TTC1_6_WAV, + PINCTRL_GRP_TTC1_7_WAV, + PINCTRL_GRP_TTC1_8_WAV, + PINCTRL_GRP_TTC2_0_CLK, + PINCTRL_GRP_TTC2_1_CLK, + PINCTRL_GRP_TTC2_2_CLK, + PINCTRL_GRP_TTC2_3_CLK, + PINCTRL_GRP_TTC2_4_CLK, + PINCTRL_GRP_TTC2_5_CLK, + PINCTRL_GRP_TTC2_6_CLK, + PINCTRL_GRP_TTC2_7_CLK, + PINCTRL_GRP_TTC2_8_CLK, + PINCTRL_GRP_TTC2_0_WAV, + PINCTRL_GRP_TTC2_1_WAV, + PINCTRL_GRP_TTC2_2_WAV, + PINCTRL_GRP_TTC2_3_WAV, + PINCTRL_GRP_TTC2_4_WAV, + PINCTRL_GRP_TTC2_5_WAV, + PINCTRL_GRP_TTC2_6_WAV, + PINCTRL_GRP_TTC2_7_WAV, + PINCTRL_GRP_TTC2_8_WAV, + PINCTRL_GRP_TTC3_0_CLK, + PINCTRL_GRP_TTC3_1_CLK, + PINCTRL_GRP_TTC3_2_CLK, + PINCTRL_GRP_TTC3_3_CLK, + PINCTRL_GRP_TTC3_4_CLK, + PINCTRL_GRP_TTC3_5_CLK, + PINCTRL_GRP_TTC3_6_CLK, + PINCTRL_GRP_TTC3_7_CLK, + PINCTRL_GRP_TTC3_8_CLK, + PINCTRL_GRP_TTC3_0_WAV, + PINCTRL_GRP_TTC3_1_WAV, + PINCTRL_GRP_TTC3_2_WAV, + PINCTRL_GRP_TTC3_3_WAV, + PINCTRL_GRP_TTC3_4_WAV, + PINCTRL_GRP_TTC3_5_WAV, + PINCTRL_GRP_TTC3_6_WAV, + PINCTRL_GRP_TTC3_7_WAV, + PINCTRL_GRP_TTC3_8_WAV, + PINCTRL_GRP_SWDT0_0_CLK, + PINCTRL_GRP_SWDT0_1_CLK, + PINCTRL_GRP_SWDT0_2_CLK, + PINCTRL_GRP_SWDT0_3_CLK, + PINCTRL_GRP_SWDT0_4_CLK, + PINCTRL_GRP_SWDT0_5_CLK, + PINCTRL_GRP_SWDT0_6_CLK, + PINCTRL_GRP_SWDT0_7_CLK, + PINCTRL_GRP_SWDT0_8_CLK, + PINCTRL_GRP_SWDT0_9_CLK, + PINCTRL_GRP_SWDT0_10_CLK, + PINCTRL_GRP_SWDT0_11_CLK, + PINCTRL_GRP_SWDT0_12_CLK, + PINCTRL_GRP_SWDT0_0_RST, + PINCTRL_GRP_SWDT0_1_RST, + PINCTRL_GRP_SWDT0_2_RST, + PINCTRL_GRP_SWDT0_3_RST, + PINCTRL_GRP_SWDT0_4_RST, + PINCTRL_GRP_SWDT0_5_RST, + PINCTRL_GRP_SWDT0_6_RST, + PINCTRL_GRP_SWDT0_7_RST, + PINCTRL_GRP_SWDT0_8_RST, + PINCTRL_GRP_SWDT0_9_RST, + PINCTRL_GRP_SWDT0_10_RST, + PINCTRL_GRP_SWDT0_11_RST, + PINCTRL_GRP_SWDT0_12_RST, + PINCTRL_GRP_SWDT1_0_CLK, + PINCTRL_GRP_SWDT1_1_CLK, + PINCTRL_GRP_SWDT1_2_CLK, + PINCTRL_GRP_SWDT1_3_CLK, + PINCTRL_GRP_SWDT1_4_CLK, + PINCTRL_GRP_SWDT1_5_CLK, + PINCTRL_GRP_SWDT1_6_CLK, + PINCTRL_GRP_SWDT1_7_CLK, + PINCTRL_GRP_SWDT1_8_CLK, + PINCTRL_GRP_SWDT1_9_CLK, + PINCTRL_GRP_SWDT1_10_CLK, + PINCTRL_GRP_SWDT1_11_CLK, + PINCTRL_GRP_SWDT1_12_CLK, + PINCTRL_GRP_SWDT1_0_RST, + PINCTRL_GRP_SWDT1_1_RST, + PINCTRL_GRP_SWDT1_2_RST, + PINCTRL_GRP_SWDT1_3_RST, + PINCTRL_GRP_SWDT1_4_RST, + PINCTRL_GRP_SWDT1_5_RST, + PINCTRL_GRP_SWDT1_6_RST, + PINCTRL_GRP_SWDT1_7_RST, + PINCTRL_GRP_SWDT1_8_RST, + PINCTRL_GRP_SWDT1_9_RST, + PINCTRL_GRP_SWDT1_10_RST, + PINCTRL_GRP_SWDT1_11_RST, + PINCTRL_GRP_SWDT1_12_RST, + PINCTRL_GRP_GPIO0_0, + PINCTRL_GRP_GPIO0_1, + PINCTRL_GRP_GPIO0_2, + PINCTRL_GRP_GPIO0_3, + PINCTRL_GRP_GPIO0_4, + PINCTRL_GRP_GPIO0_5, + PINCTRL_GRP_GPIO0_6, + PINCTRL_GRP_GPIO0_7, + PINCTRL_GRP_GPIO0_8, + PINCTRL_GRP_GPIO0_9, + PINCTRL_GRP_GPIO0_10, + PINCTRL_GRP_GPIO0_11, + PINCTRL_GRP_GPIO0_12, + PINCTRL_GRP_GPIO0_13, + PINCTRL_GRP_GPIO0_14, + PINCTRL_GRP_GPIO0_15, + PINCTRL_GRP_GPIO0_16, + PINCTRL_GRP_GPIO0_17, + PINCTRL_GRP_GPIO0_18, + PINCTRL_GRP_GPIO0_19, + PINCTRL_GRP_GPIO0_20, + PINCTRL_GRP_GPIO0_21, + PINCTRL_GRP_GPIO0_22, + PINCTRL_GRP_GPIO0_23, + PINCTRL_GRP_GPIO0_24, + PINCTRL_GRP_GPIO0_25, + PINCTRL_GRP_GPIO0_26, + PINCTRL_GRP_GPIO0_27, + PINCTRL_GRP_GPIO0_28, + PINCTRL_GRP_GPIO0_29, + PINCTRL_GRP_GPIO0_30, + PINCTRL_GRP_GPIO0_31, + PINCTRL_GRP_GPIO0_32, + PINCTRL_GRP_GPIO0_33, + PINCTRL_GRP_GPIO0_34, + PINCTRL_GRP_GPIO0_35, + PINCTRL_GRP_GPIO0_36, + PINCTRL_GRP_GPIO0_37, + PINCTRL_GRP_GPIO0_38, + PINCTRL_GRP_GPIO0_39, + PINCTRL_GRP_GPIO0_40, + PINCTRL_GRP_GPIO0_41, + PINCTRL_GRP_GPIO0_42, + PINCTRL_GRP_GPIO0_43, + PINCTRL_GRP_GPIO0_44, + PINCTRL_GRP_GPIO0_45, + PINCTRL_GRP_GPIO0_46, + PINCTRL_GRP_GPIO0_47, + PINCTRL_GRP_GPIO0_48, + PINCTRL_GRP_GPIO0_49, + PINCTRL_GRP_GPIO0_50, + PINCTRL_GRP_GPIO0_51, + PINCTRL_GRP_GPIO0_52, + PINCTRL_GRP_GPIO0_53, + PINCTRL_GRP_GPIO0_54, + PINCTRL_GRP_GPIO0_55, + PINCTRL_GRP_GPIO0_56, + PINCTRL_GRP_GPIO0_57, + PINCTRL_GRP_GPIO0_58, + PINCTRL_GRP_GPIO0_59, + PINCTRL_GRP_GPIO0_60, + PINCTRL_GRP_GPIO0_61, + PINCTRL_GRP_GPIO0_62, + PINCTRL_GRP_GPIO0_63, + PINCTRL_GRP_GPIO0_64, + PINCTRL_GRP_GPIO0_65, + PINCTRL_GRP_GPIO0_66, + PINCTRL_GRP_GPIO0_67, + PINCTRL_GRP_GPIO0_68, + PINCTRL_GRP_GPIO0_69, + PINCTRL_GRP_GPIO0_70, + PINCTRL_GRP_GPIO0_71, + PINCTRL_GRP_GPIO0_72, + PINCTRL_GRP_GPIO0_73, + PINCTRL_GRP_GPIO0_74, + PINCTRL_GRP_GPIO0_75, + PINCTRL_GRP_GPIO0_76, + PINCTRL_GRP_GPIO0_77, + PINCTRL_GRP_USB0_0, + PINCTRL_GRP_USB1_0, + PINCTRL_GRP_PMU0_0, + PINCTRL_GRP_PMU0_1, + PINCTRL_GRP_PMU0_2, + PINCTRL_GRP_PMU0_3, + PINCTRL_GRP_PMU0_4, + PINCTRL_GRP_PMU0_5, + PINCTRL_GRP_PMU0_6, + PINCTRL_GRP_PMU0_7, + PINCTRL_GRP_PMU0_8, + PINCTRL_GRP_PMU0_9, + PINCTRL_GRP_PMU0_10, + PINCTRL_GRP_PMU0_11, + PINCTRL_GRP_PCIE0_0, + PINCTRL_GRP_PCIE0_1, + PINCTRL_GRP_PCIE0_2, + PINCTRL_GRP_PCIE0_3, + PINCTRL_GRP_PCIE0_4, + PINCTRL_GRP_PCIE0_5, + PINCTRL_GRP_PCIE0_6, + PINCTRL_GRP_PCIE0_7, + PINCTRL_GRP_CSU0_0, + PINCTRL_GRP_CSU0_1, + PINCTRL_GRP_CSU0_2, + PINCTRL_GRP_CSU0_3, + PINCTRL_GRP_CSU0_4, + PINCTRL_GRP_CSU0_5, + PINCTRL_GRP_CSU0_6, + PINCTRL_GRP_CSU0_7, + PINCTRL_GRP_CSU0_8, + PINCTRL_GRP_CSU0_9, + PINCTRL_GRP_CSU0_10, + PINCTRL_GRP_CSU0_11, + PINCTRL_GRP_DPAUX0_0, + PINCTRL_GRP_DPAUX0_1, + PINCTRL_GRP_DPAUX0_2, + PINCTRL_GRP_DPAUX0_3, + PINCTRL_GRP_PJTAG0_0, + PINCTRL_GRP_PJTAG0_1, + PINCTRL_GRP_PJTAG0_2, + PINCTRL_GRP_PJTAG0_3, + PINCTRL_GRP_PJTAG0_4, + PINCTRL_GRP_PJTAG0_5, + PINCTRL_GRP_TRACE0_0, + PINCTRL_GRP_TRACE0_1, + PINCTRL_GRP_TRACE0_2, + PINCTRL_GRP_TRACE0_0_CLK, + PINCTRL_GRP_TRACE0_1_CLK, + PINCTRL_GRP_TRACE0_2_CLK, + PINCTRL_GRP_TESTSCAN0_0, +}; + +// pinctrl config parameters +enum { + PINCTRL_CONFIG_SLEW_RATE, + PINCTRL_CONFIG_BIAS_STATUS, + PINCTRL_CONFIG_PULL_CTRL, + PINCTRL_CONFIG_SCHMITT_CMOS, + PINCTRL_CONFIG_DRIVE_STRENGTH, + PINCTRL_CONFIG_VOLTAGE_STATUS, + PINCTRL_CONFIG_MAX, +}; + +// pinctrl slew rate +#define PINCTRL_SLEW_RATE_FAST 0U +#define PINCTRL_SLEW_RATE_SLOW 1U + +// pinctrl bias status +#define PINCTRL_BIAS_DISABLE 0U +#define PINCTRL_BIAS_ENABLE 1U + +// pinctrl pull control +#define PINCTRL_BIAS_PULL_DOWN 0U +#define PINCTRL_BIAS_PULL_UP 1U + +// pinctrl schmitt cmos type +#define PINCTRL_INPUT_TYPE_CMOS 0U +#define PINCTRL_INPUT_TYPE_SCHMITT 1U + +//pinctrl drive strength values +#define PINCTRL_DRIVE_STRENGTH_2MA 0U +#define PINCTRL_DRIVE_STRENGTH_4MA 1U +#define PINCTRL_DRIVE_STRENGTH_8MA 2U +#define PINCTRL_DRIVE_STRENGTH_12MA 3U + +void pm_api_pinctrl_get_function_name(uint32_t fid, char *name); +enum pm_ret_status pm_api_pinctrl_get_function_groups(uint32_t fid, + uint32_t index, + uint16_t *groups); +enum pm_ret_status pm_api_pinctrl_get_pin_groups(uint32_t pin, + uint32_t index, + uint16_t *groups); +enum pm_ret_status pm_api_pinctrl_get_num_pins(uint32_t *npins); +enum pm_ret_status pm_api_pinctrl_get_num_functions(uint32_t *nfuncs); +enum pm_ret_status pm_api_pinctrl_get_num_func_groups(uint32_t fid, + uint32_t *ngroups); +#endif /* PM_API_PINCTRL_H */ diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_sys.c b/plat/xilinx/zynqmp/pm_service/pm_api_sys.c new file mode 100644 index 0000000..a17b6c5 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_sys.c @@ -0,0 +1,1836 @@ +/* + * Copyright (c) 2013-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * ZynqMP system level PM-API functions and communication with PMU via + * IPI interrupts + */ + +#include +#include + +#include "pm_api_clock.h" +#include "pm_api_ioctl.h" +#include "pm_api_pinctrl.h" +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_common.h" +#include "pm_ipi.h" + +#define PM_QUERY_FEATURE_BITMASK ( \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_NAME) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_TOPOLOGY) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_FIXEDFACTOR_PARAMS) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_PARENTS) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_ATTRIBUTES) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_NUM_PINS) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_NUM_FUNCTIONS) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_NUM_FUNCTION_GROUPS) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_FUNCTION_NAME) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_FUNCTION_GROUPS) | \ + (1ULL << (uint64_t)PM_QID_PINCTRL_GET_PIN_GROUPS) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_NUM_CLOCKS) | \ + (1ULL << (uint64_t)PM_QID_CLOCK_GET_MAX_DIVISOR)) + +/** + * struct eemi_api_dependency - Dependent EEMI APIs which are implemented + * on both the ATF and firmware + * + * @id: EEMI API id or IOCTL id to be checked + * @api_id: Dependent EEMI API + */ +typedef struct __attribute__((packed)) { + uint8_t id; + uint8_t api_id; +} eemi_api_dependency; + +/* Dependent APIs for ATF to check their version from firmware */ +static const eemi_api_dependency api_dep_table[] = { + { + .id = PM_SELF_SUSPEND, + .api_id = PM_SELF_SUSPEND, + }, + { + .id = PM_REQ_WAKEUP, + .api_id = PM_REQ_WAKEUP, + }, + { + .id = PM_ABORT_SUSPEND, + .api_id = PM_ABORT_SUSPEND, + }, + { + .id = PM_SET_WAKEUP_SOURCE, + .api_id = PM_SET_WAKEUP_SOURCE, + }, + { + .id = PM_SYSTEM_SHUTDOWN, + .api_id = PM_SYSTEM_SHUTDOWN, + }, + { + .id = PM_GET_API_VERSION, + .api_id = PM_GET_API_VERSION, + }, + { + .id = PM_CLOCK_ENABLE, + .api_id = PM_PLL_SET_MODE, + }, + { + .id = PM_CLOCK_ENABLE, + .api_id = PM_CLOCK_ENABLE, + }, + { + .id = PM_CLOCK_DISABLE, + .api_id = PM_PLL_SET_MODE, + }, + { + .id = PM_CLOCK_DISABLE, + .api_id = PM_CLOCK_DISABLE, + }, + { + .id = PM_CLOCK_GETSTATE, + .api_id = PM_PLL_GET_MODE, + }, + { + .id = PM_CLOCK_GETSTATE, + .api_id = PM_CLOCK_GETSTATE, + }, + { + .id = PM_CLOCK_SETDIVIDER, + .api_id = PM_PLL_SET_PARAMETER, + }, + { + .id = PM_CLOCK_SETDIVIDER, + .api_id = PM_CLOCK_SETDIVIDER, + }, + { + .id = PM_CLOCK_GETDIVIDER, + .api_id = PM_PLL_GET_PARAMETER, + }, + { + .id = PM_CLOCK_GETDIVIDER, + .api_id = PM_CLOCK_GETDIVIDER, + }, + { + .id = PM_CLOCK_SETPARENT, + .api_id = PM_PLL_SET_PARAMETER, + }, + { + .id = PM_CLOCK_SETPARENT, + .api_id = PM_CLOCK_SETPARENT, + }, + { + .id = PM_CLOCK_GETPARENT, + .api_id = PM_PLL_GET_PARAMETER, + }, + { + .id = PM_CLOCK_GETPARENT, + .api_id = PM_CLOCK_GETPARENT, + }, + { + .id = PM_PLL_SET_PARAMETER, + .api_id = PM_PLL_SET_PARAMETER, + }, + { + .id = PM_PLL_GET_PARAMETER, + .api_id = PM_PLL_GET_PARAMETER, + }, + { + .id = PM_PLL_SET_MODE, + .api_id = PM_PLL_SET_MODE, + }, + { + .id = PM_PLL_GET_MODE, + .api_id = PM_PLL_GET_MODE, + }, + { + .id = PM_REGISTER_ACCESS, + .api_id = PM_MMIO_WRITE, + }, + { + .id = PM_REGISTER_ACCESS, + .api_id = PM_MMIO_READ, + }, + { + .id = PM_FEATURE_CHECK, + .api_id = PM_FEATURE_CHECK, + }, + { + .id = IOCTL_SET_TAPDELAY_BYPASS, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_SET_SGMII_MODE, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_SD_DLL_RESET, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_SET_SD_TAPDELAY, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_SET_SD_TAPDELAY, + .api_id = PM_MMIO_READ, + }, + { + .id = IOCTL_SET_PLL_FRAC_DATA, + .api_id = PM_PLL_SET_PARAMETER, + }, + { + .id = IOCTL_GET_PLL_FRAC_DATA, + .api_id = PM_PLL_GET_PARAMETER, + }, + { + .id = IOCTL_WRITE_GGS, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_READ_GGS, + .api_id = PM_MMIO_READ, + }, + { + .id = IOCTL_WRITE_PGGS, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_READ_PGGS, + .api_id = PM_MMIO_READ, + }, + { + .id = IOCTL_ULPI_RESET, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_SET_BOOT_HEALTH_STATUS, + .api_id = PM_MMIO_WRITE, + }, + { + .id = IOCTL_AFI, + .api_id = PM_MMIO_WRITE, + }, +}; + +/* Expected firmware API version to ATF */ +static const uint8_t atf_expected_ver_id[] = { + [PM_SELF_SUSPEND] = FW_API_BASE_VERSION, + [PM_REQ_WAKEUP] = FW_API_BASE_VERSION, + [PM_ABORT_SUSPEND] = FW_API_BASE_VERSION, + [PM_SET_WAKEUP_SOURCE] = FW_API_BASE_VERSION, + [PM_SYSTEM_SHUTDOWN] = FW_API_BASE_VERSION, + [PM_GET_API_VERSION] = FW_API_BASE_VERSION, + [PM_PLL_SET_MODE] = FW_API_BASE_VERSION, + [PM_PLL_GET_MODE] = FW_API_BASE_VERSION, + [PM_CLOCK_ENABLE] = FW_API_BASE_VERSION, + [PM_CLOCK_DISABLE] = FW_API_BASE_VERSION, + [PM_CLOCK_GETSTATE] = FW_API_BASE_VERSION, + [PM_PLL_SET_PARAMETER] = FW_API_BASE_VERSION, + [PM_PLL_GET_PARAMETER] = FW_API_BASE_VERSION, + [PM_CLOCK_SETDIVIDER] = FW_API_BASE_VERSION, + [PM_CLOCK_GETDIVIDER] = FW_API_BASE_VERSION, + [PM_CLOCK_SETPARENT] = FW_API_BASE_VERSION, + [PM_CLOCK_GETPARENT] = FW_API_BASE_VERSION, + [PM_MMIO_WRITE] = FW_API_BASE_VERSION, + [PM_MMIO_READ] = FW_API_BASE_VERSION, + [PM_FEATURE_CHECK] = FW_API_VERSION_2, +}; + +/* default shutdown/reboot scope is system(2) */ +static uint32_t pm_shutdown_scope = PMF_SHUTDOWN_SUBTYPE_SYSTEM; + +/** + * pm_get_shutdown_scope() - Get the currently set shutdown scope + * + * @return Shutdown scope value + */ +uint32_t pm_get_shutdown_scope(void) +{ + return pm_shutdown_scope; +} + +#define EM_PACK_PAYLOAD1(pl, arg0) { \ + pl[0] = (uint16_t)(0xE) << 16 | (uint16_t)arg0; \ +} + +/** + * pm_self_suspend() - PM call for processor to suspend itself + * @nid Node id of the processor or subsystem + * @latency Requested maximum wakeup latency (not supported) + * @state Requested state + * @address Resume address + * + * This is a blocking call, it will return only once PMU has responded. + * On a wakeup, resume address will be automatically set by PMU. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_self_suspend(enum pm_node_id nid, + uint32_t latency, + uint32_t state, + uintptr_t address) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + uint32_t cpuid = plat_my_core_pos(); + const struct pm_proc *proc = pm_get_proc(cpuid); + + /* + * Do client specific suspend operations + * (e.g. set powerdown request bit) + */ + pm_client_suspend(proc, state); + /* Send request to the PMU */ + PM_PACK_PAYLOAD6(payload, PM_SELF_SUSPEND, proc->node_id, latency, + state, address, (address >> 32)); + return pm_ipi_send_sync(proc, payload, NULL, 0); +} + +/** + * pm_req_suspend() - PM call to request for another PU or subsystem to + * be suspended gracefully. + * @target Node id of the targeted PU or subsystem + * @ack Flag to specify whether acknowledge is requested + * @latency Requested wakeup latency (not supported) + * @state Requested state (not supported) + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_req_suspend(enum pm_node_id target, + enum pm_request_ack ack, + uint32_t latency, uint32_t state) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_REQ_SUSPEND, target, ack, latency, state); + if (ack == REQ_ACK_BLOCKING) { + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); + } else { + return pm_ipi_send(primary_proc, payload); + } +} + +/** + * pm_req_wakeup() - PM call for processor to wake up selected processor + * or subsystem + * @target Node id of the processor or subsystem to wake up + * @ack Flag to specify whether acknowledge requested + * @set_address Resume address presence indicator + * 1 resume address specified, 0 otherwise + * @address Resume address + * + * This API function is either used to power up another APU core for SMP + * (by PSCI) or to power up an entirely different PU or subsystem, such + * as RPU0, RPU, or PL_CORE_xx. Resume address for the target PU will be + * automatically set by PMU. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_req_wakeup(enum pm_node_id target, + uint32_t set_address, + uintptr_t address, + enum pm_request_ack ack) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + uint64_t encoded_address; + + + /* encode set Address into 1st bit of address */ + encoded_address = address; + encoded_address |= !!set_address; + + /* Send request to the PMU to perform the wake of the PU */ + PM_PACK_PAYLOAD5(payload, PM_REQ_WAKEUP, target, encoded_address, + encoded_address >> 32, ack); + + if (ack == REQ_ACK_BLOCKING) { + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); + } else { + return pm_ipi_send(primary_proc, payload); + } +} + +/** + * pm_force_powerdown() - PM call to request for another PU or subsystem to + * be powered down forcefully + * @target Node id of the targeted PU or subsystem + * @ack Flag to specify whether acknowledge is requested + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_force_powerdown(enum pm_node_id target, + enum pm_request_ack ack) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_FORCE_POWERDOWN, target, ack); + + if (ack == REQ_ACK_BLOCKING) { + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); + } else { + return pm_ipi_send(primary_proc, payload); + } +} + +/** + * pm_abort_suspend() - PM call to announce that a prior suspend request + * is to be aborted. + * @reason Reason for the abort + * + * Calling PU expects the PMU to abort the initiated suspend procedure. + * This is a non-blocking call without any acknowledge. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_abort_suspend(enum pm_abort_reason reason) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* + * Do client specific abort suspend operations + * (e.g. enable interrupts and clear powerdown request bit) + */ + pm_client_abort_suspend(); + /* Send request to the PMU */ + /* TODO: allow passing the node ID of the affected CPU */ + PM_PACK_PAYLOAD3(payload, PM_ABORT_SUSPEND, reason, + primary_proc->node_id); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_set_wakeup_source() - PM call to specify the wakeup source while suspended + * @target Node id of the targeted PU or subsystem + * @wkup_node Node id of the wakeup peripheral + * @enable Enable or disable the specified peripheral as wake source + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_set_wakeup_source(enum pm_node_id target, + enum pm_node_id wkup_node, + uint32_t enable) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD4(payload, PM_SET_WAKEUP_SOURCE, target, wkup_node, + enable); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_system_shutdown() - PM call to request a system shutdown or restart + * @type Shutdown or restart? 0=shutdown, 1=restart, 2=setscope + * @subtype Scope: 0=APU-subsystem, 1=PS, 2=system + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_system_shutdown(uint32_t type, uint32_t subtype) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + if (type == PMF_SHUTDOWN_TYPE_SETSCOPE_ONLY) { + /* Setting scope for subsequent PSCI reboot or shutdown */ + pm_shutdown_scope = subtype; + return PM_RET_SUCCESS; + } + + PM_PACK_PAYLOAD3(payload, PM_SYSTEM_SHUTDOWN, type, subtype); + return pm_ipi_send_non_blocking(primary_proc, payload); +} + +/* APIs for managing PM slaves: */ + +/** + * pm_req_node() - PM call to request a node with specific capabilities + * @nid Node id of the slave + * @capabilities Requested capabilities of the slave + * @qos Quality of service (not supported) + * @ack Flag to specify whether acknowledge is requested + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_req_node(enum pm_node_id nid, + uint32_t capabilities, + uint32_t qos, + enum pm_request_ack ack) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD5(payload, PM_REQ_NODE, nid, capabilities, qos, ack); + + if (ack == REQ_ACK_BLOCKING) { + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); + } else { + return pm_ipi_send(primary_proc, payload); + } +} + +/** + * pm_set_requirement() - PM call to set requirement for PM slaves + * @nid Node id of the slave + * @capabilities Requested capabilities of the slave + * @qos Quality of service (not supported) + * @ack Flag to specify whether acknowledge is requested + * + * This API function is to be used for slaves a PU already has requested + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_set_requirement(enum pm_node_id nid, + uint32_t capabilities, + uint32_t qos, + enum pm_request_ack ack) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD5(payload, PM_SET_REQUIREMENT, nid, capabilities, qos, + ack); + + if (ack == REQ_ACK_BLOCKING) { + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); + } else { + return pm_ipi_send(primary_proc, payload); + } +} + +/* Miscellaneous API functions */ + +/** + * pm_get_api_version() - Get version number of PMU PM firmware + * @version Returns 32-bit version number of PMU Power Management Firmware + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_get_api_version(uint32_t *version) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD1(payload, PM_GET_API_VERSION); + return pm_ipi_send_sync(primary_proc, payload, version, 1); +} + +/** + * pm_get_node_status() - PM call to request a node's current status + * @nid Node id + * @ret_buff Buffer for the return values: + * [0] - Current power state of the node + * [1] - Current requirements for the node (slave nodes only) + * [2] - Current usage status for the node (slave nodes only) + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_get_node_status(enum pm_node_id nid, + uint32_t *ret_buff) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD2(payload, PM_GET_NODE_STATUS, nid); + return pm_ipi_send_sync(primary_proc, payload, ret_buff, 3); +} + +/** + * pm_mmio_write() - Perform write to protected mmio + * @address Address to write to + * @mask Mask to apply + * @value Value to write + * + * This function provides access to PM-related control registers + * that may not be directly accessible by a particular PU. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_mmio_write(uintptr_t address, + uint32_t mask, + uint32_t value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD4(payload, PM_MMIO_WRITE, address, mask, value); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_mmio_read() - Read value from protected mmio + * @address Address to write to + * @value Value to write + * + * This function provides access to PM-related control registers + * that may not be directly accessible by a particular PU. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_mmio_read(uintptr_t address, uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD2(payload, PM_MMIO_READ, address); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +/** + * pm_fpga_load() - Load the bitstream into the PL. + * + * This function provides access to the xilfpga library to load + * the Bit-stream into PL. + * + * address_low: lower 32-bit Linear memory space address + * + * address_high: higher 32-bit Linear memory space address + * + * size: Number of 32bit words + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_fpga_load(uint32_t address_low, + uint32_t address_high, + uint32_t size, + uint32_t flags) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_FPGA_LOAD, address_high, address_low, + size, flags); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_fpga_get_status() - Read value from fpga status register + * @value Value to read + * + * This function provides access to the xilfpga library to get + * the fpga status + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_fpga_get_status(uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD1(payload, PM_FPGA_GET_STATUS); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +/** + * pm_get_chipid() - Read silicon ID registers + * @value Buffer for return values. Must be large enough + * to hold 8 bytes. + * + * @return Returns silicon ID registers + */ +enum pm_ret_status pm_get_chipid(uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD1(payload, PM_GET_CHIPID); + return pm_ipi_send_sync(primary_proc, payload, value, 2); +} + +/** + * pm_secure_rsaaes() - Load the secure images. + * + * This function provides access to the xilsecure library to load + * the authenticated, encrypted, and authenicated/encrypted images. + * + * address_low: lower 32-bit Linear memory space address + * + * address_high: higher 32-bit Linear memory space address + * + * size: Number of 32bit words + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_secure_rsaaes(uint32_t address_low, + uint32_t address_high, + uint32_t size, + uint32_t flags) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_SECURE_RSA_AES, address_high, address_low, + size, flags); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_aes_engine() - Aes data blob encryption/decryption + * This function provides access to the xilsecure library to + * encrypt/decrypt data blobs. + * + * address_low: lower 32-bit address of the AesParams structure + * + * address_high: higher 32-bit address of the AesParams structure + * + * value: Returned output value + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_aes_engine(uint32_t address_high, + uint32_t address_low, + uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_SECURE_AES, address_high, address_low); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +/** + * pm_get_callbackdata() - Read from IPI response buffer + * @data - array of PAYLOAD_ARG_CNT elements + * + * Read value from ipi buffer response buffer. + */ +void pm_get_callbackdata(uint32_t *data, size_t count) +{ + /* Return if interrupt is not from PMU */ + if (!pm_ipi_irq_status(primary_proc)) { + return; + } + + pm_ipi_buff_read_callb(data, count); + pm_ipi_irq_clear(primary_proc); +} + +/** + * pm_ioctl() - PM IOCTL API for device control and configs + * @node_id Node ID of the device + * @ioctl_id ID of the requested IOCTL + * @arg1 Argument 1 to requested IOCTL call + * @arg2 Argument 2 to requested IOCTL call + * @out Returned output value + * + * This function calls IOCTL to firmware for device control and configuration. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_ioctl(enum pm_node_id nid, + uint32_t ioctl_id, + uint32_t arg1, + uint32_t arg2, + uint32_t *value) +{ + return pm_api_ioctl(nid, ioctl_id, arg1, arg2, value); +} + +/** + * fw_api_version() - Returns API version implemented in firmware + * @api_id API ID to check + * @version Returned supported API version + * @len Number of words to be returned + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status fw_api_version(uint32_t id, uint32_t *version, + uint32_t len) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD2(payload, PM_FEATURE_CHECK, id); + return pm_ipi_send_sync(primary_proc, payload, version, len); +} + +/** + * check_api_dependency() - API to check dependent EEMI API version + * @id EEMI API ID to check + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status check_api_dependency(uint8_t id) +{ + uint8_t i; + uint32_t version; + int ret; + + for (i = 0U; i < ARRAY_SIZE(api_dep_table); i++) { + if (api_dep_table[i].id == id) { + if (api_dep_table[i].api_id == 0U) { + break; + } + + ret = fw_api_version(api_dep_table[i].api_id, + &version, 1); + if (ret != PM_RET_SUCCESS) { + return ret; + } + + /* Check if fw version matches ATF expected version */ + if (version != atf_expected_ver_id[api_dep_table[i].api_id]) { + return PM_RET_ERROR_NOTSUPPORTED; + } + } + } + + return PM_RET_SUCCESS; +} + +/** + * feature_check_atf() - These are API's completely implemented in ATF + * @api_id API ID to check + * @version Returned supported API version + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status feature_check_atf(uint32_t api_id, uint32_t *version, + uint32_t *bit_mask) +{ + switch (api_id) { + case PM_QUERY_DATA: + *version = ATF_API_BASE_VERSION; + bit_mask[0] = (uint32_t)(PM_QUERY_FEATURE_BITMASK); + bit_mask[1] = (uint32_t)(PM_QUERY_FEATURE_BITMASK >> 32); + return PM_RET_SUCCESS; + case PM_GET_CALLBACK_DATA: + case PM_GET_TRUSTZONE_VERSION: + case PM_SET_SUSPEND_MODE: + *version = ATF_API_BASE_VERSION; + return PM_RET_SUCCESS; + default: + return PM_RET_ERROR_NO_FEATURE; + } +} + +/** + * get_atf_version_for_partial_apis() - Return ATF version for partially + * implemented APIs + * @api_id API ID to check + * @version Returned supported API version + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status get_atf_version_for_partial_apis(uint32_t api_id, + uint32_t *version) +{ + switch (api_id) { + case PM_SELF_SUSPEND: + case PM_REQ_WAKEUP: + case PM_ABORT_SUSPEND: + case PM_SET_WAKEUP_SOURCE: + case PM_SYSTEM_SHUTDOWN: + case PM_GET_API_VERSION: + case PM_CLOCK_ENABLE: + case PM_CLOCK_DISABLE: + case PM_CLOCK_GETSTATE: + case PM_CLOCK_SETDIVIDER: + case PM_CLOCK_GETDIVIDER: + case PM_CLOCK_SETPARENT: + case PM_CLOCK_GETPARENT: + case PM_PLL_SET_PARAMETER: + case PM_PLL_GET_PARAMETER: + case PM_PLL_SET_MODE: + case PM_PLL_GET_MODE: + case PM_REGISTER_ACCESS: + *version = ATF_API_BASE_VERSION; + return PM_RET_SUCCESS; + case PM_FEATURE_CHECK: + *version = FW_API_VERSION_2; + return PM_RET_SUCCESS; + default: + return PM_RET_ERROR_ARGS; + } +} + +/** + * feature_check_partial() - These are API's partially implemented in + * ATF and firmware both + * @api_id API ID to check + * @version Returned supported API version + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status feature_check_partial(uint32_t api_id, + uint32_t *version) +{ + uint32_t status; + + switch (api_id) { + case PM_SELF_SUSPEND: + case PM_REQ_WAKEUP: + case PM_ABORT_SUSPEND: + case PM_SET_WAKEUP_SOURCE: + case PM_SYSTEM_SHUTDOWN: + case PM_GET_API_VERSION: + case PM_CLOCK_ENABLE: + case PM_CLOCK_DISABLE: + case PM_CLOCK_GETSTATE: + case PM_CLOCK_SETDIVIDER: + case PM_CLOCK_GETDIVIDER: + case PM_CLOCK_SETPARENT: + case PM_CLOCK_GETPARENT: + case PM_PLL_SET_PARAMETER: + case PM_PLL_GET_PARAMETER: + case PM_PLL_SET_MODE: + case PM_PLL_GET_MODE: + case PM_REGISTER_ACCESS: + case PM_FEATURE_CHECK: + status = check_api_dependency(api_id); + if (status != PM_RET_SUCCESS) { + return status; + } + return get_atf_version_for_partial_apis(api_id, version); + default: + return PM_RET_ERROR_NO_FEATURE; + } +} + +/** + * pm_feature_check() - Returns the supported API version if supported + * @api_id API ID to check + * @version Returned supported API version + * @bit_mask Returned supported IOCTL id version + * @len Number of bytes to be returned in bit_mask variable + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_feature_check(uint32_t api_id, uint32_t *version, + uint32_t *bit_mask, uint8_t len) +{ + uint32_t ret_payload[PAYLOAD_ARG_CNT] = {0U}; + uint32_t status; + + /* Get API version implemented in ATF */ + status = feature_check_atf(api_id, version, bit_mask); + if (status != PM_RET_ERROR_NO_FEATURE) { + return status; + } + + /* Get API version implemented by firmware and ATF both */ + status = feature_check_partial(api_id, version); + if (status != PM_RET_ERROR_NO_FEATURE) { + return status; + } + + /* Get API version implemented by firmware */ + status = fw_api_version(api_id, ret_payload, 3); + /* IOCTL call may return failure whose ID is not implemented in + * firmware but implemented in ATF + */ + if ((api_id != PM_IOCTL) && (status != PM_RET_SUCCESS)) { + return status; + } + + *version = ret_payload[0]; + + /* Update IOCTL bit mask which are implemented in ATF */ + if (api_id == PM_IOCTL) { + if (len < 2) { + return PM_RET_ERROR_ARGS; + } + bit_mask[0] = ret_payload[1]; + bit_mask[1] = ret_payload[2]; + /* Get IOCTL's implemented by ATF */ + status = atf_ioctl_bitmask(bit_mask); + } else { + /* Requires for MISRA */ + } + + return status; +} + +/** + * pm_clock_get_max_divisor - PM call to get max divisor + * @clock_id Clock ID + * @div_type Divisor ID (TYPE_DIV1 or TYPE_DIV2) + * @max_div Maximum supported divisor + * + * This function is used by master to get maximum supported value. + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_clock_get_max_divisor(uint32_t clock_id, + uint8_t div_type, + uint32_t *max_div) +{ + return pm_api_clock_get_max_divisor(clock_id, div_type, max_div); +} + +/** + * pm_clock_get_num_clocks - PM call to request number of clocks + * @nclockss: Number of clocks + * + * This function is used by master to get number of clocks. + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_clock_get_num_clocks(uint32_t *nclocks) +{ + return pm_api_clock_get_num_clocks(nclocks); +} + +/** + * pm_clock_get_name() - PM call to request a clock's name + * @clock_id Clock ID + * @name Name of clock (max 16 bytes) + * + * This function is used by master to get nmae of clock specified + * by given clock ID. + */ +static void pm_clock_get_name(uint32_t clock_id, char *name) +{ + pm_api_clock_get_name(clock_id, name); +} + +/** + * pm_clock_get_topology() - PM call to request a clock's topology + * @clock_id Clock ID + * @index Topology index for next toplogy node + * @topology Buffer to store nodes in topology and flags + * + * This function is used by master to get topology information for the + * clock specified by given clock ID. Each response would return 3 + * topology nodes. To get next nodes, caller needs to call this API with + * index of next node. Index starts from 0. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_clock_get_topology(uint32_t clock_id, + uint32_t index, + uint32_t *topology) +{ + return pm_api_clock_get_topology(clock_id, index, topology); +} + +/** + * pm_clock_get_fixedfactor_params() - PM call to request a clock's fixed factor + * parameters for fixed clock + * @clock_id Clock ID + * @mul Multiplication value + * @div Divisor value + * + * This function is used by master to get fixed factor parameers for the + * fixed clock. This API is application only for the fixed clock. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_clock_get_fixedfactor_params(uint32_t clock_id, + uint32_t *mul, + uint32_t *div) +{ + return pm_api_clock_get_fixedfactor_params(clock_id, mul, div); +} + +/** + * pm_clock_get_parents() - PM call to request a clock's first 3 parents + * @clock_id Clock ID + * @index Index of next parent + * @parents Parents of the given clock + * + * This function is used by master to get clock's parents information. + * This API will return 3 parents with a single response. To get other + * parents, master should call same API in loop with new parent index + * till error is returned. + * + * E.g First call should have index 0 which will return parents 0, 1 and + * 2. Next call, index should be 3 which will return parent 3,4 and 5 and + * so on. + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_clock_get_parents(uint32_t clock_id, + uint32_t index, + uint32_t *parents) +{ + return pm_api_clock_get_parents(clock_id, index, parents); +} + +/** + * pm_clock_get_attributes() - PM call to request a clock's attributes + * @clock_id Clock ID + * @attr Clock attributes + * + * This function is used by master to get clock's attributes + * (e.g. valid, clock type, etc). + * + * @return Returns status, either success or error+reason + */ +static enum pm_ret_status pm_clock_get_attributes(uint32_t clock_id, + uint32_t *attr) +{ + return pm_api_clock_get_attributes(clock_id, attr); +} + +/** + * pm_clock_gate() - Configure clock gate + * @clock_id Id of the clock to be configured + * @enable Flag 0=disable (gate the clock), !0=enable (activate the clock) + * + * @return Error if an argument is not valid or status as returned by the + * PM controller (PMU) + */ +static enum pm_ret_status pm_clock_gate(uint32_t clock_id, + uint8_t enable) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + enum pm_ret_status status; + enum pm_api_id api_id; + + /* Check if clock ID is valid and return an error if it is not */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + if (enable) { + api_id = PM_CLOCK_ENABLE; + } else { + api_id = PM_CLOCK_DISABLE; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD2(payload, api_id, clock_id); + status = pm_ipi_send_sync(primary_proc, payload, NULL, 0); + + /* If action fails due to the lack of permissions filter the error */ + if (status == PM_RET_ERROR_ACCESS) { + status = PM_RET_SUCCESS; + } + + return status; +} + +/** + * pm_clock_enable() - Enable the clock for given id + * @clock_id: Id of the clock to be enabled + * + * This function is used by master to enable the clock + * including peripherals and PLL clocks. + * + * @return: Error if an argument is not valid or status as returned by the + * pm_clock_gate + */ +enum pm_ret_status pm_clock_enable(uint32_t clock_id) +{ + struct pm_pll *pll; + + /* First try to handle it as a PLL */ + pll = pm_clock_get_pll(clock_id); + if (pll) { + return pm_clock_pll_enable(pll); + } + + /* It's an on-chip clock, PMU should configure clock's gate */ + return pm_clock_gate(clock_id, 1); +} + +/** + * pm_clock_disable - Disable the clock for given id + * @clock_id: Id of the clock to be disable + * + * This function is used by master to disable the clock + * including peripherals and PLL clocks. + * + * @return: Error if an argument is not valid or status as returned by the + * pm_clock_gate + */ +enum pm_ret_status pm_clock_disable(uint32_t clock_id) +{ + struct pm_pll *pll; + + /* First try to handle it as a PLL */ + pll = pm_clock_get_pll(clock_id); + if (pll) { + return pm_clock_pll_disable(pll); + } + + /* It's an on-chip clock, PMU should configure clock's gate */ + return pm_clock_gate(clock_id, 0); +} + +/** + * pm_clock_getstate - Get the clock state for given id + * @clock_id: Id of the clock to be queried + * @state: 1/0 (Enabled/Disabled) + * + * This function is used by master to get the state of clock + * including peripherals and PLL clocks. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_getstate(uint32_t clock_id, + uint32_t *state) +{ + struct pm_pll *pll; + uint32_t payload[PAYLOAD_ARG_CNT]; + enum pm_ret_status status; + + /* First try to handle it as a PLL */ + pll = pm_clock_get_pll(clock_id); + if (pll) + return pm_clock_pll_get_state(pll, state); + + /* Check if clock ID is a valid on-chip clock */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD2(payload, PM_CLOCK_GETSTATE, clock_id); + return pm_ipi_send_sync(primary_proc, payload, state, 1); +} + +/** + * pm_clock_setdivider - Set the clock divider for given id + * @clock_id: Id of the clock + * @divider: divider value + * + * This function is used by master to set divider for any clock + * to achieve desired rate. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_setdivider(uint32_t clock_id, + uint32_t divider) +{ + enum pm_ret_status status; + enum pm_node_id nid; + enum pm_clock_div_id div_id; + uint32_t payload[PAYLOAD_ARG_CNT]; + const uint32_t div0 = 0xFFFF0000; + const uint32_t div1 = 0x0000FFFF; + uint32_t val; + + /* Get PLL node ID using PLL clock ID */ + status = pm_clock_get_pll_node_id(clock_id, &nid); + if (status == PM_RET_SUCCESS) { + return pm_pll_set_parameter(nid, PM_PLL_PARAM_FBDIV, divider); + } + + /* Check if clock ID is a valid on-chip clock */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + if (div0 == (divider & div0)) { + div_id = PM_CLOCK_DIV0_ID; + val = divider & ~div0; + } else if (div1 == (divider & div1)) { + div_id = PM_CLOCK_DIV1_ID; + val = (divider & ~div1) >> 16; + } else { + return PM_RET_ERROR_ARGS; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD4(payload, PM_CLOCK_SETDIVIDER, clock_id, div_id, val); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_clock_getdivider - Get the clock divider for given id + * @clock_id: Id of the clock + * @divider: divider value + * + * This function is used by master to get divider values + * for any clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_getdivider(uint32_t clock_id, + uint32_t *divider) +{ + enum pm_ret_status status; + enum pm_node_id nid; + uint32_t payload[PAYLOAD_ARG_CNT]; + uint32_t val; + + /* Get PLL node ID using PLL clock ID */ + status = pm_clock_get_pll_node_id(clock_id, &nid); + if (status == PM_RET_SUCCESS) { + return pm_pll_get_parameter(nid, PM_PLL_PARAM_FBDIV, divider); + } + + /* Check if clock ID is a valid on-chip clock */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + if (pm_clock_has_div(clock_id, PM_CLOCK_DIV0_ID)) { + /* Send request to the PMU to get div0 */ + PM_PACK_PAYLOAD3(payload, PM_CLOCK_GETDIVIDER, clock_id, + PM_CLOCK_DIV0_ID); + status = pm_ipi_send_sync(primary_proc, payload, &val, 1); + if (status != PM_RET_SUCCESS) { + return status; + } + *divider = val; + } + + if (pm_clock_has_div(clock_id, PM_CLOCK_DIV1_ID)) { + /* Send request to the PMU to get div1 */ + PM_PACK_PAYLOAD3(payload, PM_CLOCK_GETDIVIDER, clock_id, + PM_CLOCK_DIV1_ID); + status = pm_ipi_send_sync(primary_proc, payload, &val, 1); + if (status != PM_RET_SUCCESS) { + return status; + } + *divider |= val << 16; + } + + return status; +} + +/** + * pm_clock_setrate - Set the clock rate for given id + * @clock_id: Id of the clock + * @rate: rate value in hz + * + * This function is used by master to set rate for any clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_setrate(uint32_t clock_id, + uint64_t rate) +{ + return PM_RET_ERROR_NOTSUPPORTED; +} + +/** + * pm_clock_getrate - Get the clock rate for given id + * @clock_id: Id of the clock + * @rate: rate value in hz + * + * This function is used by master to get rate + * for any clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_getrate(uint32_t clock_id, + uint64_t *rate) +{ + return PM_RET_ERROR_NOTSUPPORTED; +} + +/** + * pm_clock_setparent - Set the clock parent for given id + * @clock_id: Id of the clock + * @parent_index: Index of the parent clock into clock's parents array + * + * This function is used by master to set parent for any clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_setparent(uint32_t clock_id, + uint32_t parent_index) +{ + struct pm_pll *pll; + uint32_t payload[PAYLOAD_ARG_CNT]; + enum pm_ret_status status; + + /* First try to handle it as a PLL */ + pll = pm_clock_get_pll_by_related_clk(clock_id); + if (pll) { + return pm_clock_pll_set_parent(pll, clock_id, parent_index); + } + + /* Check if clock ID is a valid on-chip clock */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_CLOCK_SETPARENT, clock_id, parent_index); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_clock_getparent - Get the clock parent for given id + * @clock_id: Id of the clock + * @parent_index: parent index + * + * This function is used by master to get parent index + * for any clock. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_clock_getparent(uint32_t clock_id, + uint32_t *parent_index) +{ + struct pm_pll *pll; + uint32_t payload[PAYLOAD_ARG_CNT]; + enum pm_ret_status status; + + /* First try to handle it as a PLL */ + pll = pm_clock_get_pll_by_related_clk(clock_id); + if (pll) { + return pm_clock_pll_get_parent(pll, clock_id, parent_index); + } + + /* Check if clock ID is a valid on-chip clock */ + status = pm_clock_id_is_valid(clock_id); + if (status != PM_RET_SUCCESS) { + return status; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD2(payload, PM_CLOCK_GETPARENT, clock_id); + return pm_ipi_send_sync(primary_proc, payload, parent_index, 1); +} + +/** + * pm_pinctrl_get_num_pins - PM call to request number of pins + * @npins: Number of pins + * + * This function is used by master to get number of pins + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_pinctrl_get_num_pins(uint32_t *npins) +{ + return pm_api_pinctrl_get_num_pins(npins); +} + +/** + * pm_pinctrl_get_num_functions - PM call to request number of functions + * @nfuncs: Number of functions + * + * This function is used by master to get number of functions + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_pinctrl_get_num_functions(uint32_t *nfuncs) +{ + return pm_api_pinctrl_get_num_functions(nfuncs); +} + +/** + * pm_pinctrl_get_num_function_groups - PM call to request number of + * function groups + * @fid: Id of function + * @ngroups: Number of function groups + * + * This function is used by master to get number of function groups specified + * by given function Id + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_pinctrl_get_num_function_groups(uint32_t fid, + uint32_t *ngroups) +{ + return pm_api_pinctrl_get_num_func_groups(fid, ngroups); +} + +/** + * pm_pinctrl_get_function_name - PM call to request function name + * @fid: Id of function + * @name: Name of function + * + * This function is used by master to get name of function specified + * by given function Id + */ +static void pm_pinctrl_get_function_name(uint32_t fid, char *name) +{ + pm_api_pinctrl_get_function_name(fid, name); +} + +/** + * pm_pinctrl_get_function_groups - PM call to request function groups + * @fid: Id of function + * @index: Index of next function groups + * @groups: Function groups + * + * This function is used by master to get function groups specified + * by given function Id. This API will return 6 function groups with + * a single response. To get other function groups, master should call + * same API in loop with new function groups index till error is returned. + * + * E.g First call should have index 0 which will return function groups + * 0, 1, 2, 3, 4 and 5. Next call, index should be 6 which will return + * function groups 6, 7, 8, 9, 10 and 11 and so on. + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_pinctrl_get_function_groups(uint32_t fid, + uint32_t index, + uint16_t *groups) +{ + return pm_api_pinctrl_get_function_groups(fid, index, groups); +} + +/** + * pm_pinctrl_get_pin_groups - PM call to request pin groups + * @pin_id: Id of pin + * @index: Index of next pin groups + * @groups: pin groups + * + * This function is used by master to get pin groups specified + * by given pin Id. This API will return 6 pin groups with + * a single response. To get other pin groups, master should call + * same API in loop with new pin groups index till error is returned. + * + * E.g First call should have index 0 which will return pin groups + * 0, 1, 2, 3, 4 and 5. Next call, index should be 6 which will return + * pin groups 6, 7, 8, 9, 10 and 11 and so on. + * + * Return: Returns status, either success or error+reason. + */ +static enum pm_ret_status pm_pinctrl_get_pin_groups(uint32_t pin_id, + uint32_t index, + uint16_t *groups) +{ + return pm_api_pinctrl_get_pin_groups(pin_id, index, groups); +} + +/** + * pm_query_data() - PM API for querying firmware data + * @arg1 Argument 1 to requested IOCTL call + * @arg2 Argument 2 to requested IOCTL call + * @arg3 Argument 3 to requested IOCTL call + * @arg4 Argument 4 to requested IOCTL call + * @data Returned output data + * + * This function returns requested data. + */ +void pm_query_data(enum pm_query_id qid, uint32_t arg1, uint32_t arg2, + uint32_t arg3, uint32_t *data) +{ + switch (qid) { + case PM_QID_CLOCK_GET_NAME: + pm_clock_get_name(arg1, (char *)data); + break; + case PM_QID_CLOCK_GET_TOPOLOGY: + data[0] = pm_clock_get_topology(arg1, arg2, &data[1]); + break; + case PM_QID_CLOCK_GET_FIXEDFACTOR_PARAMS: + data[0] = pm_clock_get_fixedfactor_params(arg1, &data[1], + &data[2]); + break; + case PM_QID_CLOCK_GET_PARENTS: + data[0] = pm_clock_get_parents(arg1, arg2, &data[1]); + break; + case PM_QID_CLOCK_GET_ATTRIBUTES: + data[0] = pm_clock_get_attributes(arg1, &data[1]); + break; + case PM_QID_PINCTRL_GET_NUM_PINS: + data[0] = pm_pinctrl_get_num_pins(&data[1]); + break; + case PM_QID_PINCTRL_GET_NUM_FUNCTIONS: + data[0] = pm_pinctrl_get_num_functions(&data[1]); + break; + case PM_QID_PINCTRL_GET_NUM_FUNCTION_GROUPS: + data[0] = pm_pinctrl_get_num_function_groups(arg1, &data[1]); + break; + case PM_QID_PINCTRL_GET_FUNCTION_NAME: + pm_pinctrl_get_function_name(arg1, (char *)data); + break; + case PM_QID_PINCTRL_GET_FUNCTION_GROUPS: + data[0] = pm_pinctrl_get_function_groups(arg1, arg2, + (uint16_t *)&data[1]); + break; + case PM_QID_PINCTRL_GET_PIN_GROUPS: + data[0] = pm_pinctrl_get_pin_groups(arg1, arg2, + (uint16_t *)&data[1]); + break; + case PM_QID_CLOCK_GET_NUM_CLOCKS: + data[0] = pm_clock_get_num_clocks(&data[1]); + break; + + case PM_QID_CLOCK_GET_MAX_DIVISOR: + data[0] = pm_clock_get_max_divisor(arg1, arg2, &data[1]); + break; + default: + data[0] = PM_RET_ERROR_ARGS; + WARN("Unimplemented query service call: 0x%x\n", qid); + break; + } +} + +enum pm_ret_status pm_sha_hash(uint32_t address_high, + uint32_t address_low, + uint32_t size, + uint32_t flags) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_SECURE_SHA, address_high, address_low, + size, flags); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +enum pm_ret_status pm_rsa_core(uint32_t address_high, + uint32_t address_low, + uint32_t size, + uint32_t flags) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_SECURE_RSA, address_high, address_low, + size, flags); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +enum pm_ret_status pm_secure_image(uint32_t address_low, + uint32_t address_high, + uint32_t key_lo, + uint32_t key_hi, + uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_SECURE_IMAGE, address_high, address_low, + key_hi, key_lo); + return pm_ipi_send_sync(primary_proc, payload, value, 2); +} + +/** + * pm_fpga_read - Perform the fpga configuration readback + * + * @reg_numframes: Configuration register offset (or) Number of frames to read + * @address_low: lower 32-bit Linear memory space address + * @address_high: higher 32-bit Linear memory space address + * @readback_type: Type of fpga readback operation + * 0 -- Configuration Register readback + * 1 -- Configuration Data readback + * @value: Value to read + * + * This function provides access to the xilfpga library to read + * the PL configuration. + * + * Return: Returns status, either success or error+reason. + */ +enum pm_ret_status pm_fpga_read(uint32_t reg_numframes, + uint32_t address_low, + uint32_t address_high, + uint32_t readback_type, + uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD5(payload, PM_FPGA_READ, reg_numframes, address_low, + address_high, readback_type); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +/* + * pm_pll_set_parameter() - Set the PLL parameter value + * @nid Node id of the target PLL + * @param_id ID of the PLL parameter + * @value Parameter value to be set + * + * Setting the parameter will have physical effect once the PLL mode is set to + * integer or fractional. + * + * @return Error if an argument is not valid or status as returned by the + * PM controller (PMU) + */ +enum pm_ret_status pm_pll_set_parameter(enum pm_node_id nid, + enum pm_pll_param param_id, + uint32_t value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Check if given node ID is a PLL node */ + if (nid < NODE_APLL || nid > NODE_IOPLL) { + return PM_RET_ERROR_ARGS; + } + + /* Check if parameter ID is valid and return an error if it's not */ + if (param_id >= PM_PLL_PARAM_MAX) { + return PM_RET_ERROR_ARGS; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD4(payload, PM_PLL_SET_PARAMETER, nid, param_id, value); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_pll_get_parameter() - Get the PLL parameter value + * @nid Node id of the target PLL + * @param_id ID of the PLL parameter + * @value Location to store the parameter value + * + * @return Error if an argument is not valid or status as returned by the + * PM controller (PMU) + */ +enum pm_ret_status pm_pll_get_parameter(enum pm_node_id nid, + enum pm_pll_param param_id, + uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Check if given node ID is a PLL node */ + if (nid < NODE_APLL || nid > NODE_IOPLL) { + return PM_RET_ERROR_ARGS; + } + + /* Check if parameter ID is valid and return an error if it's not */ + if (param_id >= PM_PLL_PARAM_MAX) { + return PM_RET_ERROR_ARGS; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_PLL_GET_PARAMETER, nid, param_id); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +/** + * pm_pll_set_mode() - Set the PLL mode + * @nid Node id of the target PLL + * @mode PLL mode to be set + * + * If reset mode is set the PM controller will first bypass the PLL and then + * assert the reset. If integer or fractional mode is set the PM controller will + * ensure that the complete PLL programming sequence is satisfied. After this + * function returns success the PLL is locked and its bypass is deasserted. + * + * @return Error if an argument is not valid or status as returned by the + * PM controller (PMU) + */ +enum pm_ret_status pm_pll_set_mode(enum pm_node_id nid, enum pm_pll_mode mode) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Check if given node ID is a PLL node */ + if (nid < NODE_APLL || nid > NODE_IOPLL) { + return PM_RET_ERROR_ARGS; + } + + /* Check if PLL mode is valid */ + if (mode >= PM_PLL_MODE_MAX) { + return PM_RET_ERROR_ARGS; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_PLL_SET_MODE, nid, mode); + return pm_ipi_send_sync(primary_proc, payload, NULL, 0); +} + +/** + * pm_pll_get_mode() - Get the PLL mode + * @nid Node id of the target PLL + * @mode Location to store the mode of the PLL + * + * @return Error if an argument is not valid or status as returned by the + * PM controller (PMU) + */ +enum pm_ret_status pm_pll_get_mode(enum pm_node_id nid, enum pm_pll_mode *mode) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Check if given node ID is a PLL node */ + if (nid < NODE_APLL || nid > NODE_IOPLL) { + return PM_RET_ERROR_ARGS; + } + + /* Send request to the PMU */ + PM_PACK_PAYLOAD2(payload, PM_PLL_GET_MODE, nid); + return pm_ipi_send_sync(primary_proc, payload, mode, 1); +} + +/** + * pm_register_access() - PM API for register read/write access data + * + * @register_access_id Register_access_id which says register read/write + * + * @address Address of the register to be accessed + * + * @mask Mask value to be used while writing value + * + * @value Value to be written to register + * + * @out Returned output data + * + * This function returns requested data. + * + * @return Returns status, either success or error+reason + */ +enum pm_ret_status pm_register_access(uint32_t register_access_id, + uint32_t address, + uint32_t mask, + uint32_t value, + uint32_t *out) +{ + enum pm_ret_status ret; + + if (((ZYNQMP_CSU_BASEADDR & address) != ZYNQMP_CSU_BASEADDR) && + ((CSUDMA_BASE & address) != CSUDMA_BASE) && + ((RSA_CORE_BASE & address) != RSA_CORE_BASE) && + ((PMU_GLOBAL_BASE & address) != PMU_GLOBAL_BASE)) { + return PM_RET_ERROR_ACCESS; + } + + switch (register_access_id) { + case CONFIG_REG_WRITE: + ret = pm_mmio_write(address, mask, value); + break; + case CONFIG_REG_READ: + ret = pm_mmio_read(address, out); + break; + default: + ret = PM_RET_ERROR_ARGS; + WARN("Unimplemented register_access call\n\r"); + break; + } + return ret; +} + +/** + * pm_efuse_access() - To program or read efuse bits. + * + * This function provides access to the xilskey library to program/read + * efuse bits. + * + * address_low: lower 32-bit Linear memory space address + * address_high: higher 32-bit Linear memory space address + * + * value: Returned output value + * + * @return Returns status, either success or error+reason + * + */ +enum pm_ret_status pm_efuse_access(uint32_t address_high, + uint32_t address_low, + uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + PM_PACK_PAYLOAD3(payload, PM_EFUSE_ACCESS, address_high, address_low); + + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +enum pm_ret_status em_set_action(uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + EM_PACK_PAYLOAD1(payload, EM_SET_ACTION); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +enum pm_ret_status em_remove_action(uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + EM_PACK_PAYLOAD1(payload, EM_REMOVE_ACTION); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} + +enum pm_ret_status em_send_errors(uint32_t *value) +{ + uint32_t payload[PAYLOAD_ARG_CNT]; + + /* Send request to the PMU */ + EM_PACK_PAYLOAD1(payload, EM_SEND_ERRORS); + return pm_ipi_send_sync(primary_proc, payload, value, 1); +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_api_sys.h b/plat/xilinx/zynqmp/pm_service/pm_api_sys.h new file mode 100644 index 0000000..9ba9475 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_api_sys.h @@ -0,0 +1,197 @@ +/* + * Copyright (c) 2013-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +#ifndef PM_API_SYS_H +#define PM_API_SYS_H + +#include + +#include "pm_defs.h" + +enum pm_query_id { + PM_QID_INVALID, + PM_QID_CLOCK_GET_NAME, + PM_QID_CLOCK_GET_TOPOLOGY, + PM_QID_CLOCK_GET_FIXEDFACTOR_PARAMS, + PM_QID_CLOCK_GET_PARENTS, + PM_QID_CLOCK_GET_ATTRIBUTES, + PM_QID_PINCTRL_GET_NUM_PINS, + PM_QID_PINCTRL_GET_NUM_FUNCTIONS, + PM_QID_PINCTRL_GET_NUM_FUNCTION_GROUPS, + PM_QID_PINCTRL_GET_FUNCTION_NAME, + PM_QID_PINCTRL_GET_FUNCTION_GROUPS, + PM_QID_PINCTRL_GET_PIN_GROUPS, + PM_QID_CLOCK_GET_NUM_CLOCKS, + PM_QID_CLOCK_GET_MAX_DIVISOR, +}; + +enum pm_register_access_id { + CONFIG_REG_WRITE, + CONFIG_REG_READ, +}; + +/** + * Assigning of argument values into array elements. + */ +#define PM_PACK_PAYLOAD1(pl, arg0) { \ + pl[0] = (uint32_t)(arg0); \ +} + +#define PM_PACK_PAYLOAD2(pl, arg0, arg1) { \ + pl[1] = (uint32_t)(arg1); \ + PM_PACK_PAYLOAD1(pl, arg0); \ +} + +#define PM_PACK_PAYLOAD3(pl, arg0, arg1, arg2) { \ + pl[2] = (uint32_t)(arg2); \ + PM_PACK_PAYLOAD2(pl, arg0, arg1); \ +} + +#define PM_PACK_PAYLOAD4(pl, arg0, arg1, arg2, arg3) { \ + pl[3] = (uint32_t)(arg3); \ + PM_PACK_PAYLOAD3(pl, arg0, arg1, arg2); \ +} + +#define PM_PACK_PAYLOAD5(pl, arg0, arg1, arg2, arg3, arg4) { \ + pl[4] = (uint32_t)(arg4); \ + PM_PACK_PAYLOAD4(pl, arg0, arg1, arg2, arg3); \ +} + +#define PM_PACK_PAYLOAD6(pl, arg0, arg1, arg2, arg3, arg4, arg5) { \ + pl[5] = (uint32_t)(arg5); \ + PM_PACK_PAYLOAD5(pl, arg0, arg1, arg2, arg3, arg4); \ +} + +/********************************************************** + * System-level API function declarations + **********************************************************/ +enum pm_ret_status pm_req_suspend(enum pm_node_id target, + enum pm_request_ack ack, + uint32_t latency, + uint32_t state); + +enum pm_ret_status pm_self_suspend(enum pm_node_id nid, + uint32_t latency, + uint32_t state, + uintptr_t address); + +enum pm_ret_status pm_force_powerdown(enum pm_node_id target, + enum pm_request_ack ack); + +enum pm_ret_status pm_abort_suspend(enum pm_abort_reason reason); + +enum pm_ret_status pm_req_wakeup(enum pm_node_id target, + uint32_t set_address, + uintptr_t address, + enum pm_request_ack ack); + +enum pm_ret_status pm_set_wakeup_source(enum pm_node_id target, + enum pm_node_id wkup_node, + uint32_t enable); + +enum pm_ret_status pm_system_shutdown(uint32_t type, uint32_t subtype); + +/* API functions for managing PM Slaves */ +enum pm_ret_status pm_req_node(enum pm_node_id nid, + uint32_t capabilities, + uint32_t qos, + enum pm_request_ack ack); + +enum pm_ret_status pm_set_requirement(enum pm_node_id nid, + uint32_t capabilities, + uint32_t qos, + enum pm_request_ack ack); + +/* Miscellaneous API functions */ +enum pm_ret_status pm_get_api_version(uint32_t *version); +enum pm_ret_status pm_get_node_status(enum pm_node_id nid, + uint32_t *ret_buff); + +/* Direct-Control API functions */ +enum pm_ret_status pm_mmio_write(uintptr_t address, + uint32_t mask, + uint32_t value); +enum pm_ret_status pm_mmio_read(uintptr_t address, uint32_t *value); +enum pm_ret_status pm_fpga_load(uint32_t address_low, + uint32_t address_high, + uint32_t size, + uint32_t flags); +enum pm_ret_status pm_fpga_get_status(uint32_t *value); + +enum pm_ret_status pm_get_chipid(uint32_t *value); +enum pm_ret_status pm_secure_rsaaes(uint32_t address_low, + uint32_t address_high, + uint32_t size, + uint32_t flags); +uint32_t pm_get_shutdown_scope(void); +void pm_get_callbackdata(uint32_t *data, size_t count); +enum pm_ret_status pm_ioctl(enum pm_node_id nid, + uint32_t ioctl_id, + uint32_t arg1, + uint32_t arg2, + uint32_t *value); +enum pm_ret_status pm_clock_enable(uint32_t clock_id); +enum pm_ret_status pm_clock_disable(uint32_t clock_id); +enum pm_ret_status pm_clock_getstate(uint32_t clock_id, + uint32_t *state); +enum pm_ret_status pm_clock_setdivider(uint32_t clock_id, + uint32_t divider); +enum pm_ret_status pm_clock_getdivider(uint32_t clock_id, + uint32_t *divider); +enum pm_ret_status pm_clock_setrate(uint32_t clock_id, + uint64_t rate); +enum pm_ret_status pm_clock_getrate(uint32_t clock_id, + uint64_t *rate); +enum pm_ret_status pm_clock_setparent(uint32_t clock_id, + uint32_t parent_index); +enum pm_ret_status pm_clock_getparent(uint32_t clock_id, + uint32_t *parent_index); +void pm_query_data(enum pm_query_id qid, uint32_t arg1, uint32_t arg2, + uint32_t arg3, uint32_t *data); +enum pm_ret_status pm_sha_hash(uint32_t address_high, + uint32_t address_low, + uint32_t size, + uint32_t flags); +enum pm_ret_status pm_rsa_core(uint32_t address_high, + uint32_t address_low, + uint32_t size, + uint32_t flags); +enum pm_ret_status pm_secure_image(uint32_t address_low, + uint32_t address_high, + uint32_t key_lo, + uint32_t key_hi, + uint32_t *value); +enum pm_ret_status pm_fpga_read(uint32_t reg_numframes, + uint32_t address_low, + uint32_t address_high, + uint32_t readback_type, + uint32_t *value); +enum pm_ret_status pm_aes_engine(uint32_t address_high, + uint32_t address_low, + uint32_t *value); +enum pm_ret_status pm_register_access(uint32_t register_access_id, + uint32_t address, + uint32_t mask, + uint32_t value, + uint32_t *out); +enum pm_ret_status pm_pll_set_parameter(enum pm_node_id nid, + enum pm_pll_param param_id, + uint32_t value); +enum pm_ret_status pm_pll_get_parameter(enum pm_node_id nid, + enum pm_pll_param param_id, + uint32_t *value); +enum pm_ret_status pm_pll_set_mode(enum pm_node_id nid, enum pm_pll_mode mode); +enum pm_ret_status pm_pll_get_mode(enum pm_node_id nid, enum pm_pll_mode *mode); +enum pm_ret_status pm_efuse_access(uint32_t address_high, + uint32_t address_low, uint32_t *value); +enum pm_ret_status em_set_action(uint32_t *value); +enum pm_ret_status em_remove_action(uint32_t *value); +enum pm_ret_status em_send_errors(uint32_t *value); +enum pm_ret_status pm_feature_check(uint32_t api_id, uint32_t *version, + uint32_t *bit_mask, uint8_t len); +enum pm_ret_status check_api_dependency(uint8_t id); + +#endif /* PM_API_SYS_H */ diff --git a/plat/xilinx/zynqmp/pm_service/pm_client.c b/plat/xilinx/zynqmp/pm_service/pm_client.c new file mode 100644 index 0000000..7217fa1 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_client.c @@ -0,0 +1,354 @@ +/* + * Copyright (c) 2013-2018, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * APU specific definition of processors in the subsystem as well as functions + * for getting information about and changing state of the APU. + */ + +#include +#include + +#include +#include +#include +#include +#include +#include + +#include +#include +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_ipi.h" + +#define IRQ_MAX 84U +#define NUM_GICD_ISENABLER ((IRQ_MAX >> 5U) + 1U) +#define UNDEFINED_CPUID (~0U) + +#define PM_SUSPEND_MODE_STD 0U +#define PM_SUSPEND_MODE_POWER_OFF 1U + +DEFINE_BAKERY_LOCK(pm_client_secure_lock); + +extern const struct pm_ipi apu_ipi; + +const struct pm_ipi apu_ipi = { + .local_ipi_id = IPI_ID_APU, + .remote_ipi_id = IPI_ID_PMU0, + .buffer_base = IPI_BUFFER_APU_BASE, +}; + +static uint32_t suspend_mode = PM_SUSPEND_MODE_STD; + +/* Order in pm_procs_all array must match cpu ids */ +static const struct pm_proc pm_procs_all[] = { + { + .node_id = NODE_APU_0, + .pwrdn_mask = APU_0_PWRCTL_CPUPWRDWNREQ_MASK, + .ipi = &apu_ipi, + }, + { + .node_id = NODE_APU_1, + .pwrdn_mask = APU_1_PWRCTL_CPUPWRDWNREQ_MASK, + .ipi = &apu_ipi, + }, + { + .node_id = NODE_APU_2, + .pwrdn_mask = APU_2_PWRCTL_CPUPWRDWNREQ_MASK, + .ipi = &apu_ipi, + }, + { + .node_id = NODE_APU_3, + .pwrdn_mask = APU_3_PWRCTL_CPUPWRDWNREQ_MASK, + .ipi = &apu_ipi, + }, +}; + +/* Interrupt to PM node ID map */ +static enum pm_node_id irq_node_map[IRQ_MAX + 1U] = { + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 3 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 7 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 11 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_NAND, + NODE_QSPI, /* 15 */ + NODE_GPIO, + NODE_I2C_0, + NODE_I2C_1, + NODE_SPI_0, /* 19 */ + NODE_SPI_1, + NODE_UART_0, + NODE_UART_1, + NODE_CAN_0, /* 23 */ + NODE_CAN_1, + NODE_UNKNOWN, + NODE_RTC, + NODE_RTC, /* 27 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 31 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 35, NODE_IPI_APU */ + NODE_TTC_0, + NODE_TTC_0, + NODE_TTC_0, + NODE_TTC_1, /* 39 */ + NODE_TTC_1, + NODE_TTC_1, + NODE_TTC_2, + NODE_TTC_2, /* 43 */ + NODE_TTC_2, + NODE_TTC_3, + NODE_TTC_3, + NODE_TTC_3, /* 47 */ + NODE_SD_0, + NODE_SD_1, + NODE_SD_0, + NODE_SD_1, /* 51 */ + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, + NODE_UNKNOWN, /* 55 */ + NODE_UNKNOWN, + NODE_ETH_0, + NODE_ETH_0, + NODE_ETH_1, /* 59 */ + NODE_ETH_1, + NODE_ETH_2, + NODE_ETH_2, + NODE_ETH_3, /* 63 */ + NODE_ETH_3, + NODE_USB_0, + NODE_USB_0, + NODE_USB_0, /* 67 */ + NODE_USB_0, + NODE_USB_0, + NODE_USB_1, + NODE_USB_1, /* 71 */ + NODE_USB_1, + NODE_USB_1, + NODE_USB_1, + NODE_USB_0, /* 75 */ + NODE_USB_0, + NODE_ADMA, + NODE_ADMA, + NODE_ADMA, /* 79 */ + NODE_ADMA, + NODE_ADMA, + NODE_ADMA, + NODE_ADMA, /* 83 */ + NODE_ADMA, +}; + +/** + * irq_to_pm_node - Get PM node ID corresponding to the interrupt number + * @irq: Interrupt number + * + * Return: PM node ID corresponding to the specified interrupt + */ +static enum pm_node_id irq_to_pm_node(uint32_t irq) +{ + assert(irq <= IRQ_MAX); + return irq_node_map[irq]; +} + +/** + * pm_client_set_wakeup_sources - Set all slaves with enabled interrupts as wake + * sources in the PMU firmware + */ +static void pm_client_set_wakeup_sources(void) +{ + uint32_t reg_num; + uint8_t pm_wakeup_nodes_set[NODE_MAX] = { 0 }; + uintptr_t isenabler1 = BASE_GICD_BASE + GICD_ISENABLER + 4U; + + /* In case of power-off suspend, only NODE_EXTERN must be set */ + if (suspend_mode == PM_SUSPEND_MODE_POWER_OFF) { + enum pm_ret_status ret; + + ret = pm_set_wakeup_source(NODE_APU, NODE_EXTERN, 1U); + /** + * If NODE_EXTERN could not be set as wake source, proceed with + * standard suspend (no one will wake the system otherwise) + */ + if (ret == PM_RET_SUCCESS) { + return; + } + } + + zeromem(&pm_wakeup_nodes_set, sizeof(pm_wakeup_nodes_set)); + + for (reg_num = 0U; reg_num < NUM_GICD_ISENABLER; reg_num++) { + uint32_t base_irq = reg_num << ISENABLER_SHIFT; + uint32_t reg = mmio_read_32(isenabler1 + (reg_num << 2U)); + + if (reg == 0) { + continue; + } + + while (reg) { + enum pm_node_id node; + uint32_t idx, ret, irq, lowest_set = reg & (-reg); + + idx = __builtin_ctz(lowest_set); + irq = base_irq + idx; + + if (irq > IRQ_MAX) { + break; + } + + node = irq_to_pm_node(irq); + reg &= ~lowest_set; + + if (node > NODE_UNKNOWN && node < NODE_MAX) { + if (pm_wakeup_nodes_set[node] == 0U) { + ret = pm_set_wakeup_source(NODE_APU, node, 1U); + pm_wakeup_nodes_set[node] = (ret == PM_RET_SUCCESS) ? 1U : 0U; + } + } + } + } +} + +/** + * pm_get_proc() - returns pointer to the proc structure + * @cpuid: id of the cpu whose proc struct pointer should be returned + * + * Return: pointer to a proc structure if proc is found, otherwise NULL + */ +const struct pm_proc *pm_get_proc(uint32_t cpuid) +{ + if (cpuid < ARRAY_SIZE(pm_procs_all)) { + return &pm_procs_all[cpuid]; + } + + return NULL; +} + +/** + * pm_get_proc_by_node() - returns pointer to the proc structure + * @nid: node id of the processor + * + * Return: pointer to a proc structure if proc is found, otherwise NULL + */ +const struct pm_proc *pm_get_proc_by_node(enum pm_node_id nid) +{ + for (size_t i = 0; i < ARRAY_SIZE(pm_procs_all); i++) { + if (nid == pm_procs_all[i].node_id) { + return &pm_procs_all[i]; + } + } + return NULL; +} + +/** + * pm_get_cpuid() - get the local cpu ID for a global node ID + * @nid: node id of the processor + * + * Return: the cpu ID (starting from 0) for the subsystem + */ +static uint32_t pm_get_cpuid(enum pm_node_id nid) +{ + for (size_t i = 0; i < ARRAY_SIZE(pm_procs_all); i++) { + if (pm_procs_all[i].node_id == nid) { + return i; + } + } + return UNDEFINED_CPUID; +} + +const struct pm_proc *primary_proc = &pm_procs_all[0]; + +/** + * pm_client_suspend() - Client-specific suspend actions + * + * This function should contain any PU-specific actions + * required prior to sending suspend request to PMU + * Actions taken depend on the state system is suspending to. + */ +void pm_client_suspend(const struct pm_proc *proc, uint32_t state) +{ + bakery_lock_get(&pm_client_secure_lock); + + if (state == PM_STATE_SUSPEND_TO_RAM) { + pm_client_set_wakeup_sources(); + } + + /* Set powerdown request */ + mmio_write_32(APU_PWRCTL, mmio_read_32(APU_PWRCTL) | proc->pwrdn_mask); + + bakery_lock_release(&pm_client_secure_lock); +} + + +/** + * pm_client_abort_suspend() - Client-specific abort-suspend actions + * + * This function should contain any PU-specific actions + * required for aborting a prior suspend request + */ +void pm_client_abort_suspend(void) +{ + /* Enable interrupts at processor level (for current cpu) */ + gicv2_cpuif_enable(); + + bakery_lock_get(&pm_client_secure_lock); + + /* Clear powerdown request */ + mmio_write_32(APU_PWRCTL, + mmio_read_32(APU_PWRCTL) & ~primary_proc->pwrdn_mask); + + bakery_lock_release(&pm_client_secure_lock); +} + +/** + * pm_client_wakeup() - Client-specific wakeup actions + * + * This function should contain any PU-specific actions + * required for waking up another APU core + */ +void pm_client_wakeup(const struct pm_proc *proc) +{ + uint32_t cpuid = pm_get_cpuid(proc->node_id); + + if (cpuid == UNDEFINED_CPUID) { + return; + } + + bakery_lock_get(&pm_client_secure_lock); + + /* clear powerdown bit for affected cpu */ + uint32_t val = mmio_read_32(APU_PWRCTL); + val &= ~(proc->pwrdn_mask); + mmio_write_32(APU_PWRCTL, val); + + bakery_lock_release(&pm_client_secure_lock); +} + +enum pm_ret_status pm_set_suspend_mode(uint32_t mode) +{ + if ((mode != PM_SUSPEND_MODE_STD) && + (mode != PM_SUSPEND_MODE_POWER_OFF)) { + return PM_RET_ERROR_ARGS; + } + + suspend_mode = mode; + return PM_RET_SUCCESS; +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_defs.h b/plat/xilinx/zynqmp/pm_service/pm_defs.h new file mode 100644 index 0000000..e335b94 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_defs.h @@ -0,0 +1,363 @@ +/* + * Copyright (c) 2013-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* ZynqMP power management enums and defines */ + +#ifndef PM_DEFS_H +#define PM_DEFS_H + +/********************************************************************* + * Macro definitions + ********************************************************************/ + +/* + * Version number is a 32bit value, like: + * (PM_VERSION_MAJOR << 16) | PM_VERSION_MINOR + */ +#define PM_VERSION_MAJOR 1U +#define PM_VERSION_MINOR 1U + +#define PM_VERSION ((PM_VERSION_MAJOR << 16U) | PM_VERSION_MINOR) + +/** + * PM API versions + */ +/* Expected version of firmware APIs */ +#define FW_API_BASE_VERSION (1U) +/* Expected version of firmware API for feature check */ +#define FW_API_VERSION_2 (2U) +/* Version of APIs implemented in ATF */ +#define ATF_API_BASE_VERSION (1U) + +/* Capabilities for RAM */ +#define PM_CAP_ACCESS 0x1U +#define PM_CAP_CONTEXT 0x2U + +#define MAX_LATENCY (~0U) +#define MAX_QOS 100U + +/* State arguments of the self suspend */ +#define PM_STATE_CPU_IDLE 0x0U +#define PM_STATE_SUSPEND_TO_RAM 0xFU + +/* APU processor states */ +#define PM_PROC_STATE_FORCEDOFF 0U +#define PM_PROC_STATE_ACTIVE 1U +#define PM_PROC_STATE_SLEEP 2U +#define PM_PROC_STATE_SUSPENDING 3U + +#define EM_FUNID_NUM_MASK 0xF0000U + +#define PM_GET_CALLBACK_DATA 0xa01 +#define PM_SET_SUSPEND_MODE 0xa02 +#define PM_GET_TRUSTZONE_VERSION 0xa03 + +/********************************************************************* + * Enum definitions + ********************************************************************/ + +enum pm_api_id { + /* Miscellaneous API functions: */ + PM_GET_API_VERSION = 1, /* Do not change or move */ + PM_SET_CONFIGURATION, + PM_GET_NODE_STATUS, + PM_GET_OP_CHARACTERISTIC, + PM_REGISTER_NOTIFIER, + /* API for suspending of PUs: */ + PM_REQ_SUSPEND, + PM_SELF_SUSPEND, + PM_FORCE_POWERDOWN, + PM_ABORT_SUSPEND, + PM_REQ_WAKEUP, + PM_SET_WAKEUP_SOURCE, + PM_SYSTEM_SHUTDOWN, + /* API for managing PM slaves: */ + PM_REQ_NODE, + PM_RELEASE_NODE, + PM_SET_REQUIREMENT, + PM_SET_MAX_LATENCY, + /* Direct control API functions: */ + PM_RESET_ASSERT, + PM_RESET_GET_STATUS, + PM_MMIO_WRITE, + PM_MMIO_READ, + PM_INIT_FINALIZE, + PM_FPGA_LOAD, + PM_FPGA_GET_STATUS, + PM_GET_CHIPID, + PM_SECURE_RSA_AES, + PM_SECURE_SHA, + PM_SECURE_RSA, + PM_PINCTRL_REQUEST, + PM_PINCTRL_RELEASE, + PM_PINCTRL_GET_FUNCTION, + PM_PINCTRL_SET_FUNCTION, + PM_PINCTRL_CONFIG_PARAM_GET, + PM_PINCTRL_CONFIG_PARAM_SET, + PM_IOCTL, + /* API to query information from firmware */ + PM_QUERY_DATA, + /* Clock control API functions */ + PM_CLOCK_ENABLE, + PM_CLOCK_DISABLE, + PM_CLOCK_GETSTATE, + PM_CLOCK_SETDIVIDER, + PM_CLOCK_GETDIVIDER, + PM_CLOCK_SETRATE, + PM_CLOCK_GETRATE, + PM_CLOCK_SETPARENT, + PM_CLOCK_GETPARENT, + PM_SECURE_IMAGE, + /* FPGA PL Readback */ + PM_FPGA_READ, + PM_SECURE_AES, + /* PLL control API functions */ + PM_PLL_SET_PARAMETER, + PM_PLL_GET_PARAMETER, + PM_PLL_SET_MODE, + PM_PLL_GET_MODE, + /* PM Register Access API */ + PM_REGISTER_ACCESS, + PM_EFUSE_ACCESS, + PM_FPGA_GET_VERSION, + PM_FPGA_GET_FEATURE_LIST, + PM_FEATURE_CHECK = 63, + PM_API_MAX +}; + +enum pm_node_id { + NODE_UNKNOWN = 0, + NODE_APU, + NODE_APU_0, + NODE_APU_1, + NODE_APU_2, + NODE_APU_3, + NODE_RPU, + NODE_RPU_0, + NODE_RPU_1, + NODE_PLD, + NODE_FPD, + NODE_OCM_BANK_0, + NODE_OCM_BANK_1, + NODE_OCM_BANK_2, + NODE_OCM_BANK_3, + NODE_TCM_0_A, + NODE_TCM_0_B, + NODE_TCM_1_A, + NODE_TCM_1_B, + NODE_L2, + NODE_GPU_PP_0, + NODE_GPU_PP_1, + NODE_USB_0, + NODE_USB_1, + NODE_TTC_0, + NODE_TTC_1, + NODE_TTC_2, + NODE_TTC_3, + NODE_SATA, + NODE_ETH_0, + NODE_ETH_1, + NODE_ETH_2, + NODE_ETH_3, + NODE_UART_0, + NODE_UART_1, + NODE_SPI_0, + NODE_SPI_1, + NODE_I2C_0, + NODE_I2C_1, + NODE_SD_0, + NODE_SD_1, + NODE_DP, + NODE_GDMA, + NODE_ADMA, + NODE_NAND, + NODE_QSPI, + NODE_GPIO, + NODE_CAN_0, + NODE_CAN_1, + NODE_EXTERN, + NODE_APLL, + NODE_VPLL, + NODE_DPLL, + NODE_RPLL, + NODE_IOPLL, + NODE_DDR, + NODE_IPI_APU, + NODE_IPI_RPU_0, + NODE_GPU, + NODE_PCIE, + NODE_PCAP, + NODE_RTC, + NODE_LPD, + NODE_VCU, + NODE_IPI_RPU_1, + NODE_IPI_PL_0, + NODE_IPI_PL_1, + NODE_IPI_PL_2, + NODE_IPI_PL_3, + NODE_PL, + NODE_GEM_TSU, + NODE_SWDT_0, + NODE_SWDT_1, + NODE_CSU, + NODE_PJTAG, + NODE_TRACE, + NODE_TESTSCAN, + NODE_PMU, + NODE_MAX, +}; + +enum pm_request_ack { + REQ_ACK_NO = 1, + REQ_ACK_BLOCKING, + REQ_ACK_NON_BLOCKING, +}; + +enum pm_abort_reason { + ABORT_REASON_WKUP_EVENT = 100, + ABORT_REASON_PU_BUSY, + ABORT_REASON_NO_PWRDN, + ABORT_REASON_UNKNOWN, +}; + +enum pm_suspend_reason { + SUSPEND_REASON_PU_REQ = 201, + SUSPEND_REASON_ALERT, + SUSPEND_REASON_SYS_SHUTDOWN, +}; + +enum pm_ram_state { + PM_RAM_STATE_OFF = 1, + PM_RAM_STATE_RETENTION, + PM_RAM_STATE_ON, +}; + +enum pm_opchar_type { + PM_OPCHAR_TYPE_POWER = 1, + PM_OPCHAR_TYPE_TEMP, + PM_OPCHAR_TYPE_LATENCY, +}; + +/** + * @PM_RET_SUCCESS: success + * @PM_RET_ERROR_ARGS: illegal arguments provided (deprecated) + * @PM_RET_ERROR_NOTSUPPORTED: feature not supported (deprecated) + * @PM_RET_ERROR_NOT_ENABLED: feature is not enabled + * @PM_RET_ERROR_INTERNAL: internal error + * @PM_RET_ERROR_CONFLICT: conflict + * @PM_RET_ERROR_ACCESS: access rights violation + * @PM_RET_ERROR_INVALID_NODE: invalid node + * @PM_RET_ERROR_DOUBLE_REQ: duplicate request for same node + * @PM_RET_ERROR_ABORT_SUSPEND: suspend procedure has been aborted + * @PM_RET_ERROR_TIMEOUT: timeout in communication with PMU + * @PM_RET_ERROR_NODE_USED: node is already in use + */ +enum pm_ret_status { + PM_RET_SUCCESS = (0U), + PM_RET_ERROR_ARGS = (1U), + PM_RET_ERROR_NOTSUPPORTED = (4U), + PM_RET_ERROR_NOT_ENABLED = (29U), + PM_RET_ERROR_INTERNAL = (2000U), + PM_RET_ERROR_CONFLICT = (2001U), + PM_RET_ERROR_ACCESS = (2002U), + PM_RET_ERROR_INVALID_NODE = (2003U), + PM_RET_ERROR_DOUBLE_REQ = (2004U), + PM_RET_ERROR_ABORT_SUSPEND = (2005U), + PM_RET_ERROR_TIMEOUT = (2006U), + PM_RET_ERROR_NODE_USED = (2007U), + PM_RET_ERROR_NO_FEATURE = (2008U) +}; + +/** + * @PM_INITIAL_BOOT: boot is a fresh system startup + * @PM_RESUME: boot is a resume + * @PM_BOOT_ERROR: error, boot cause cannot be identified + */ +enum pm_boot_status { + PM_INITIAL_BOOT, + PM_RESUME, + PM_BOOT_ERROR, +}; + +/** + * @PMF_SHUTDOWN_TYPE_SHUTDOWN: shutdown + * @PMF_SHUTDOWN_TYPE_RESET: reset/reboot + * @PMF_SHUTDOWN_TYPE_SETSCOPE_ONLY: set the shutdown/reboot scope + */ +enum pm_shutdown_type { + PMF_SHUTDOWN_TYPE_SHUTDOWN, + PMF_SHUTDOWN_TYPE_RESET, + PMF_SHUTDOWN_TYPE_SETSCOPE_ONLY, +}; + +/** + * @PMF_SHUTDOWN_SUBTYPE_SUBSYSTEM: shutdown/reboot APU subsystem only + * @PMF_SHUTDOWN_SUBTYPE_PS_ONLY: shutdown/reboot entire PS (but not PL) + * @PMF_SHUTDOWN_SUBTYPE_SYSTEM: shutdown/reboot entire system + */ +enum pm_shutdown_subtype { + PMF_SHUTDOWN_SUBTYPE_SUBSYSTEM, + PMF_SHUTDOWN_SUBTYPE_PS_ONLY, + PMF_SHUTDOWN_SUBTYPE_SYSTEM, +}; + +/** + * @PM_PLL_PARAM_DIV2: Enable for divide by 2 function inside the PLL + * @PM_PLL_PARAM_FBDIV: Feedback divisor integer portion for the PLL + * @PM_PLL_PARAM_DATA: Feedback divisor fractional portion for the PLL + * @PM_PLL_PARAM_PRE_SRC: Clock source for PLL input + * @PM_PLL_PARAM_POST_SRC: Clock source for PLL Bypass mode + * @PM_PLL_PARAM_LOCK_DLY: Lock circuit config settings for lock windowsize + * @PM_PLL_PARAM_LOCK_CNT: Lock circuit counter setting + * @PM_PLL_PARAM_LFHF: PLL loop filter high frequency capacitor control + * @PM_PLL_PARAM_CP: PLL charge pump control + * @PM_PLL_PARAM_RES: PLL loop filter resistor control + */ +enum pm_pll_param { + PM_PLL_PARAM_DIV2, + PM_PLL_PARAM_FBDIV, + PM_PLL_PARAM_DATA, + PM_PLL_PARAM_PRE_SRC, + PM_PLL_PARAM_POST_SRC, + PM_PLL_PARAM_LOCK_DLY, + PM_PLL_PARAM_LOCK_CNT, + PM_PLL_PARAM_LFHF, + PM_PLL_PARAM_CP, + PM_PLL_PARAM_RES, + PM_PLL_PARAM_MAX, +}; + +/** + * @PM_PLL_MODE_RESET: PLL is in reset (not locked) + * @PM_PLL_MODE_INTEGER: PLL is locked in integer mode + * @PM_PLL_MODE_FRACTIONAL: PLL is locked in fractional mode + */ +enum pm_pll_mode { + PM_PLL_MODE_RESET, + PM_PLL_MODE_INTEGER, + PM_PLL_MODE_FRACTIONAL, + PM_PLL_MODE_MAX, +}; + +/** + * @PM_CLOCK_DIV0_ID: Clock divider 0 + * @PM_CLOCK_DIV1_ID: Clock divider 1 + */ +enum pm_clock_div_id { + PM_CLOCK_DIV0_ID, + PM_CLOCK_DIV1_ID, +}; + +/** + * EM API IDs + */ +enum em_api_id { + EM_SET_ACTION = 1, + EM_REMOVE_ACTION, + EM_SEND_ERRORS, +}; + +#endif /* PM_DEFS_H */ diff --git a/plat/xilinx/zynqmp/pm_service/pm_svc_main.c b/plat/xilinx/zynqmp/pm_service/pm_svc_main.c new file mode 100644 index 0000000..03fa316 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_svc_main.c @@ -0,0 +1,621 @@ +/* + * Copyright (c) 2013-2022, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/* + * Top-level SMC handler for ZynqMP power management calls and + * IPI setup functions for communication with PMU. + */ + +#include + +#include +#if ZYNQMP_WDT_RESTART +#include +#include +#include +#include +#include +#endif + +#include +#include "pm_api_sys.h" +#include "pm_client.h" +#include "pm_defs.h" +#include "pm_ipi.h" + +/* pm_up = !0 - UP, pm_up = 0 - DOWN */ +static int32_t pm_up, ipi_irq_flag; + +#if ZYNQMP_WDT_RESTART +static spinlock_t inc_lock; +static int active_cores = 0; +#endif + +/** + * pm_context - Structure which contains data for power management + * @api_version version of PM API, must match with one on PMU side + * @payload payload array used to store received + * data from ipi buffer registers + */ +static struct { + uint32_t api_version; + uint32_t payload[PAYLOAD_ARG_CNT]; +} pm_ctx; + +#if ZYNQMP_WDT_RESTART +/** + * trigger_wdt_restart() - Trigger warm restart event to APU cores + * + * This function triggers SGI for all active APU CPUs. SGI handler then + * power down CPU and call system reset. + */ +static void trigger_wdt_restart(void) +{ + uint32_t core_count = 0; + uint32_t core_status[3]; + uint32_t target_cpu_list = 0; + int i; + + for (i = 0; i < 4; i++) { + pm_get_node_status(NODE_APU_0 + i, core_status); + if (core_status[0] == 1) { + core_count++; + target_cpu_list |= (1 << i); + } + } + + spin_lock(&inc_lock); + active_cores = core_count; + spin_unlock(&inc_lock); + + INFO("Active Cores: %d\n", active_cores); + + for (i = PLATFORM_CORE_COUNT - 1; i >= 0; i--) { + if (target_cpu_list & (1 << i)) { + /* trigger SGI to active cores */ + plat_ic_raise_el3_sgi(ARM_IRQ_SEC_SGI_7, i); + } + } +} + +/** + * ttc_fiq_handler() - TTC Handler for timer event + * @id number of the highest priority pending interrupt of the type + * that this handler was registered for + * @flags security state, bit[0] + * @handler pointer to 'cpu_context' structure of the current CPU for the + * security state specified in the 'flags' parameter + * @cookie unused + * + * Function registered as INTR_TYPE_EL3 interrupt handler + * + * When WDT event is received in PMU, PMU needs to notify master to do cleanup + * if required. PMU sets up timer and starts timer to overflow in zero time upon + * WDT event. ATF handles this timer event and takes necessary action required + * for warm restart. + * + * In presence of non-secure software layers (EL1/2) sets the interrupt + * at registered entrance in GIC and informs that PMU responsed or demands + * action. + */ +static uint64_t ttc_fiq_handler(uint32_t id, uint32_t flags, void *handle, + void *cookie) +{ + INFO("BL31: Got TTC FIQ\n"); + + plat_ic_end_of_interrupt(id); + + /* Clear TTC interrupt by reading interrupt register */ + mmio_read_32(TTC3_INTR_REGISTER_1); + + /* Disable the timer interrupts */ + mmio_write_32(TTC3_INTR_ENABLE_1, 0); + + trigger_wdt_restart(); + + return 0; +} + +/** + * zynqmp_sgi7_irq() - Handler for SGI7 IRQ + * @id number of the highest priority pending interrupt of the type + * that this handler was registered for + * @flags security state, bit[0] + * @handler pointer to 'cpu_context' structure of the current CPU for the + * security state specified in the 'flags' parameter + * @cookie unused + * + * Function registered as INTR_TYPE_EL3 interrupt handler + * + * On receiving WDT event from PMU, ATF generates SGI7 to all running CPUs. + * In response to SGI7 interrupt, each CPUs do clean up if required and last + * running CPU calls system restart. + */ +static uint64_t __unused __dead2 zynqmp_sgi7_irq(uint32_t id, uint32_t flags, + void *handle, void *cookie) +{ + int i; + uint32_t value; + + /* enter wfi and stay there */ + INFO("Entering wfi\n"); + + spin_lock(&inc_lock); + active_cores--; + + for (i = 0; i < 4; i++) { + mmio_write_32(BASE_GICD_BASE + GICD_CPENDSGIR + 4 * i, + 0xffffffff); + } + + dsb(); + + spin_unlock(&inc_lock); + + if (active_cores == 0) { + pm_mmio_read(PMU_GLOBAL_GEN_STORAGE4, &value); + value = (value & RESTART_SCOPE_MASK) >> RESTART_SCOPE_SHIFT; + pm_system_shutdown(PMF_SHUTDOWN_TYPE_RESET, value); + } + + /* enter wfi and stay there */ + while (1) + wfi(); +} + +/** + * pm_wdt_restart_setup() - Setup warm restart interrupts + * + * This function sets up handler for SGI7 and TTC interrupts + * used for warm restart. + */ +static int pm_wdt_restart_setup(void) +{ + int ret; + + /* register IRQ handler for SGI7 */ + ret = request_intr_type_el3(ARM_IRQ_SEC_SGI_7, zynqmp_sgi7_irq); + if (ret) { + WARN("BL31: registering SGI7 interrupt failed\n"); + goto err; + } + + ret = request_intr_type_el3(IRQ_TTC3_1, ttc_fiq_handler); + if (ret) + WARN("BL31: registering TTC3 interrupt failed\n"); + +err: + return ret; +} +#endif + +/** + * pm_setup() - PM service setup + * + * @return On success, the initialization function must return 0. + * Any other return value will cause the framework to ignore + * the service + * + * Initialization functions for ZynqMP power management for + * communicaton with PMU. + * + * Called from sip_svc_setup initialization function with the + * rt_svc_init signature. + */ +int32_t pm_setup(void) +{ + + pm_ipi_init(primary_proc); + + pm_get_api_version(&pm_ctx.api_version); + if (pm_ctx.api_version < PM_VERSION) { + ERROR("BL31: Platform Management API version error. Expected: " + "v%d.%d - Found: v%d.%d\n", PM_VERSION_MAJOR, + PM_VERSION_MINOR, pm_ctx.api_version >> 16, + pm_ctx.api_version & 0xFFFFU); + return -EINVAL; + } + + int32_t status = 0, ret = 0; +#if ZYNQMP_WDT_RESTART + status = pm_wdt_restart_setup(); + if (status) + WARN("BL31: warm-restart setup failed\n"); +#endif + + if (status >= 0) { + INFO("BL31: PM Service Init Complete: API v%d.%d\n", + PM_VERSION_MAJOR, PM_VERSION_MINOR); + ret = 0; + } else { + INFO("BL31: PM Service Init Failed, Error Code %d!\n", status); + ret = status; + } + + pm_up = !status; + + return ret; +} + +/** + * pm_smc_handler() - SMC handler for PM-API calls coming from EL1/EL2. + * @smc_fid - Function Identifier + * @x1 - x4 - Arguments + * @cookie - Unused + * @handler - Pointer to caller's context structure + * + * @return - Unused + * + * Determines that smc_fid is valid and supported PM SMC Function ID from the + * list of pm_api_ids, otherwise completes the request with + * the unknown SMC Function ID + * + * The SMC calls for PM service are forwarded from SIP Service SMC handler + * function with rt_svc_handle signature + */ +uint64_t pm_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, + uint64_t x4, const void *cookie, void *handle, uint64_t flags) +{ + enum pm_ret_status ret; + uint32_t payload[PAYLOAD_ARG_CNT]; + + uint32_t pm_arg[5]; + uint32_t result[PAYLOAD_ARG_CNT] = {0}; + uint32_t api_id; + + /* Handle case where PM wasn't initialized properly */ + if (pm_up == 0) + SMC_RET1(handle, SMC_UNK); + + pm_arg[0] = (uint32_t)x1; + pm_arg[1] = (uint32_t)(x1 >> 32); + pm_arg[2] = (uint32_t)x2; + pm_arg[3] = (uint32_t)(x2 >> 32); + pm_arg[4] = (uint32_t)x3; + + api_id = smc_fid & FUNCID_NUM_MASK; + + switch (api_id) { + /* PM API Functions */ + case PM_SELF_SUSPEND: + ret = pm_self_suspend(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_REQ_SUSPEND: + ret = pm_req_suspend(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_REQ_WAKEUP: + { + /* Use address flag is encoded in the 1st bit of the low-word */ + uint32_t set_addr = pm_arg[1] & 0x1U; + uint64_t address = (uint64_t)pm_arg[2] << 32U; + + address |= pm_arg[1] & (~0x1U); + ret = pm_req_wakeup(pm_arg[0], set_addr, address, + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + } + + case PM_FORCE_POWERDOWN: + ret = pm_force_powerdown(pm_arg[0], pm_arg[1]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_ABORT_SUSPEND: + ret = pm_abort_suspend(pm_arg[0]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SET_WAKEUP_SOURCE: + ret = pm_set_wakeup_source(pm_arg[0], pm_arg[1], pm_arg[2]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SYSTEM_SHUTDOWN: + ret = pm_system_shutdown(pm_arg[0], pm_arg[1]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_REQ_NODE: + ret = pm_req_node(pm_arg[0], pm_arg[1], pm_arg[2], pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SET_REQUIREMENT: + ret = pm_set_requirement(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_GET_API_VERSION: + /* Check is PM API version already verified */ + if (pm_ctx.api_version >= PM_VERSION) { + if (ipi_irq_flag == 0U) { + /* + * Enable IPI IRQ + * assume the rich OS is OK to handle callback IRQs now. + * Even if we were wrong, it would not enable the IRQ in + * the GIC. + */ + pm_ipi_irq_enable(primary_proc); + ipi_irq_flag = 1U; + } + SMC_RET1(handle, (uint64_t)PM_RET_SUCCESS | + ((uint64_t)pm_ctx.api_version << 32)); + } + + case PM_FPGA_LOAD: + ret = pm_fpga_load(pm_arg[0], pm_arg[1], pm_arg[2], pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_FPGA_GET_STATUS: + { + uint32_t value = 0; + + ret = pm_fpga_get_status(&value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32); + } + + case PM_SECURE_RSA_AES: + ret = pm_secure_rsaaes(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_GET_CALLBACK_DATA: + pm_get_callbackdata(result, ARRAY_SIZE(result)); + SMC_RET2(handle, + (uint64_t)result[0] | ((uint64_t)result[1] << 32), + (uint64_t)result[2] | ((uint64_t)result[3] << 32)); + case PM_IOCTL: + { + uint32_t value = 0; + + ret = pm_ioctl(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32); + } + + case PM_QUERY_DATA: + { + uint32_t data[4] = { 0 }; + + pm_query_data(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3], data); + SMC_RET2(handle, (uint64_t)data[0] | ((uint64_t)data[1] << 32), + (uint64_t)data[2] | ((uint64_t)data[3] << 32)); + } + + case PM_CLOCK_ENABLE: + ret = pm_clock_enable(pm_arg[0]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_CLOCK_DISABLE: + ret = pm_clock_disable(pm_arg[0]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_CLOCK_GETSTATE: + { + uint32_t value = 0; + + ret = pm_clock_getstate(pm_arg[0], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32); + } + + case PM_CLOCK_SETDIVIDER: + ret = pm_clock_setdivider(pm_arg[0], pm_arg[1]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_CLOCK_GETDIVIDER: + { + uint32_t value = 0; + + ret = pm_clock_getdivider(pm_arg[0], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32); + } + + case PM_CLOCK_SETRATE: + ret = pm_clock_setrate(pm_arg[0], + ((uint64_t)pm_arg[2]) << 32 | pm_arg[1]); + + SMC_RET1(handle, (uint64_t)ret); + + case PM_CLOCK_GETRATE: + { + uint64_t value = 0; + + ret = pm_clock_getrate(pm_arg[0], &value); + SMC_RET2(handle, (uint64_t)ret | + (((uint64_t)value & 0xFFFFFFFFU) << 32U), + (value >> 32U) & 0xFFFFFFFFU); + + } + + case PM_CLOCK_SETPARENT: + ret = pm_clock_setparent(pm_arg[0], pm_arg[1]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_CLOCK_GETPARENT: + { + uint32_t value = 0; + + ret = pm_clock_getparent(pm_arg[0], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case PM_GET_TRUSTZONE_VERSION: + SMC_RET1(handle, (uint64_t)PM_RET_SUCCESS | + ((uint64_t)ZYNQMP_TZ_VERSION << 32U)); + + case PM_SET_SUSPEND_MODE: + ret = pm_set_suspend_mode(pm_arg[0]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SECURE_SHA: + ret = pm_sha_hash(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SECURE_RSA: + ret = pm_rsa_core(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_SECURE_IMAGE: + { + ret = pm_secure_image(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3], &result[0]); + SMC_RET2(handle, (uint64_t)ret | ((uint64_t)result[0] << 32U), + result[1]); + } + + case PM_FPGA_READ: + { + uint32_t value = 0; + + ret = pm_fpga_read(pm_arg[0], pm_arg[1], pm_arg[2], pm_arg[3], + &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case PM_SECURE_AES: + { + uint32_t value = 0; + + ret = pm_aes_engine(pm_arg[0], pm_arg[1], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case PM_PLL_SET_PARAMETER: + ret = pm_pll_set_parameter(pm_arg[0], pm_arg[1], pm_arg[2]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_PLL_GET_PARAMETER: + { + uint32_t value = 0; + + ret = pm_pll_get_parameter(pm_arg[0], pm_arg[1], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value << 32U)); + } + + case PM_PLL_SET_MODE: + ret = pm_pll_set_mode(pm_arg[0], pm_arg[1]); + SMC_RET1(handle, (uint64_t)ret); + + case PM_PLL_GET_MODE: + { + uint32_t mode = 0; + + ret = pm_pll_get_mode(pm_arg[0], &mode); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)mode << 32U)); + } + + case PM_REGISTER_ACCESS: + { + uint32_t value = 0; + + ret = pm_register_access(pm_arg[0], pm_arg[1], pm_arg[2], + pm_arg[3], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case PM_EFUSE_ACCESS: + { + uint32_t value = 0; + +#if defined(ZYNQMP_SECURE_EFUSES) + if (is_caller_non_secure(flags)) { + SMC_RET1(handle, + (((uint64_t)PM_RET_ERROR_NOT_ENABLED) << 32U) | + (uint64_t)PM_RET_ERROR_ACCESS); + } +#endif + ret = pm_efuse_access(pm_arg[0], pm_arg[1], &value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case PM_FPGA_GET_VERSION: + case PM_FPGA_GET_FEATURE_LIST: + { + uint32_t ret_payload[PAYLOAD_ARG_CNT]; + + PM_PACK_PAYLOAD5(payload, smc_fid & FUNCID_NUM_MASK, + pm_arg[0], pm_arg[1], pm_arg[2], pm_arg[3]); + ret = pm_ipi_send_sync(primary_proc, payload, ret_payload, 3U); + SMC_RET2(handle, (uint64_t)ret | (uint64_t)ret_payload[0] << 32U, + (uint64_t)ret_payload[1] | (uint64_t)ret_payload[2] << 32U); + } + + case PM_FEATURE_CHECK: + { + uint32_t version = 0; + uint32_t bit_mask[2] = {0}; + + ret = pm_feature_check(pm_arg[0], &version, bit_mask, + ARRAY_SIZE(bit_mask)); + SMC_RET2(handle, (uint64_t)ret | ((uint64_t)version << 32U), + (uint64_t)bit_mask[0] | ((uint64_t)bit_mask[1] << 32U)); + } + + default: + /* Send request to the PMU */ + PM_PACK_PAYLOAD6(payload, api_id, pm_arg[0], pm_arg[1], + pm_arg[2], pm_arg[3], pm_arg[4]); + ret = pm_ipi_send_sync(primary_proc, payload, result, + PAYLOAD_ARG_CNT); + SMC_RET2(handle, (uint64_t)ret | ((uint64_t)result[0] << 32U), + (uint64_t)result[1] | ((uint64_t)result[2] << 32U)); + } +} + +/** + * em_smc_handler() - SMC handler for EM-API calls coming from EL1/EL2. + * @smc_fid - Function Identifier + * @x1 - x4 - Arguments + * @cookie - Unused + * @handler - Pointer to caller's context structure + * + * @return - Unused + * + * Determines that smc_fid is valid and supported EM SMC Function ID from the + * list of em_api_ids, otherwise completes the request with + * the unknown SMC Function ID + * + * The SMC calls for EM service are forwarded from SIP Service SMC handler + * function with rt_svc_handle signature + */ +uint64_t em_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, + uint64_t x4, const void *cookie, void *handle, uint64_t flags) +{ + enum pm_ret_status ret; + + switch (smc_fid & FUNCID_NUM_MASK) { + /* EM API Functions */ + case EM_SET_ACTION: + { + uint32_t value; + + ret = em_set_action(&value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case EM_REMOVE_ACTION: + { + uint32_t value; + + ret = em_remove_action(&value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + case EM_SEND_ERRORS: + { + uint32_t value; + + ret = em_send_errors(&value); + SMC_RET1(handle, (uint64_t)ret | ((uint64_t)value) << 32U); + } + + default: + WARN("Unimplemented EM Service Call: 0x%x\n", smc_fid); + SMC_RET1(handle, SMC_UNK); + } +} diff --git a/plat/xilinx/zynqmp/pm_service/pm_svc_main.h b/plat/xilinx/zynqmp/pm_service/pm_svc_main.h new file mode 100644 index 0000000..c1781f3 --- /dev/null +++ b/plat/xilinx/zynqmp/pm_service/pm_svc_main.h @@ -0,0 +1,20 @@ +/* + * Copyright (c) 2013-2020, ARM Limited and Contributors. All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +#ifndef PM_SVC_MAIN_H +#define PM_SVC_MAIN_H + +#include "pm_common.h" + +int32_t pm_setup(void); +uint64_t pm_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, + uint64_t x4, const void *cookie, void *handle, + uint64_t flags); + +uint64_t em_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, + uint64_t x4, const void *cookie, void *handle, + uint64_t flags); +#endif /* PM_SVC_MAIN_H */ -- cgit v1.2.3