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07d538d281
Add a clock driver for the MPC83xx architecture. Signed-off-by: Mario Six <mario.six@gdsys.cc>
379 lines
11 KiB
C
379 lines
11 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* (C) Copyright 2018
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* Mario Six, Guntermann & Drunck GmbH, mario.six@gdsys.cc
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*/
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/**
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* enum ratio - Description of a core clock ratio
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* @RAT_UNK: Unknown ratio
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* @RAT_BYP: Bypass
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* @RAT_1_TO_8: Ratio 1:8
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* @RAT_1_TO_4: Ratio 1:4
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* @RAT_1_TO_2: Ratio 1:2
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* @RAT_1_TO_1: Ratio 1:1
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* @RAT_1_5_TO_1: Ratio 1.5:1
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* @RAT_2_TO_1: Ratio 2:1
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* @RAT_2_5_TO_1: Ratio 2.5:1
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* @RAT_3_TO_1: Ratio 3:1
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*/
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enum ratio {
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RAT_UNK,
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RAT_BYP,
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RAT_1_TO_8,
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RAT_1_TO_4,
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RAT_1_TO_2,
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RAT_1_TO_1,
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RAT_1_5_TO_1,
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RAT_2_TO_1,
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RAT_2_5_TO_1,
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RAT_3_TO_1
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};
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/**
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* struct corecnf - Description for a core clock configuration
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* @core_csb_ratio: Core clock frequency to CSB clock frequency ratio
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* @vco_divider: VCO divider (Core VCO frequency = Core frequency * VCO divider)
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*/
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struct corecnf {
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int core_csb_ratio;
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int vco_divider;
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};
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/*
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* Table with all valid Core CSB frequency ratio / VCO divider combinations as
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* indexed by the COREPLL field of the SPMR
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*/
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static const struct corecnf corecnf_tab[] = {
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{RAT_BYP, RAT_BYP}, /* 0x00 */
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{RAT_BYP, RAT_BYP}, /* 0x01 */
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{RAT_BYP, RAT_BYP}, /* 0x02 */
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{RAT_BYP, RAT_BYP}, /* 0x03 */
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{RAT_BYP, RAT_BYP}, /* 0x04 */
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{RAT_BYP, RAT_BYP}, /* 0x05 */
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{RAT_BYP, RAT_BYP}, /* 0x06 */
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{RAT_BYP, RAT_BYP}, /* 0x07 */
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{RAT_1_TO_1, RAT_1_TO_2}, /* 0x08 */
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{RAT_1_TO_1, RAT_1_TO_4}, /* 0x09 */
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{RAT_1_TO_1, RAT_1_TO_8}, /* 0x0A */
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{RAT_1_TO_1, RAT_1_TO_8}, /* 0x0B */
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{RAT_1_5_TO_1, RAT_1_TO_2}, /* 0x0C */
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{RAT_1_5_TO_1, RAT_1_TO_4}, /* 0x0D */
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{RAT_1_5_TO_1, RAT_1_TO_8}, /* 0x0E */
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{RAT_1_5_TO_1, RAT_1_TO_8}, /* 0x0F */
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{RAT_2_TO_1, RAT_1_TO_2}, /* 0x10 */
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{RAT_2_TO_1, RAT_1_TO_4}, /* 0x11 */
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{RAT_2_TO_1, RAT_1_TO_8}, /* 0x12 */
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{RAT_2_TO_1, RAT_1_TO_8}, /* 0x13 */
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{RAT_2_5_TO_1, RAT_1_TO_2}, /* 0x14 */
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{RAT_2_5_TO_1, RAT_1_TO_4}, /* 0x15 */
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{RAT_2_5_TO_1, RAT_1_TO_8}, /* 0x16 */
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{RAT_2_5_TO_1, RAT_1_TO_8}, /* 0x17 */
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{RAT_3_TO_1, RAT_1_TO_2}, /* 0x18 */
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{RAT_3_TO_1, RAT_1_TO_4}, /* 0x19 */
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{RAT_3_TO_1, RAT_1_TO_8}, /* 0x1A */
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{RAT_3_TO_1, RAT_1_TO_8}, /* 0x1B */
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};
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/**
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* enum reg_type - Register to read a field from
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* @REG_SCCR: Use the SCCR register
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* @REG_SPMR: Use the SPMR register
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*/
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enum reg_type {
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REG_SCCR,
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REG_SPMR,
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};
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/**
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* enum mode_type - Description of how to read a specific frequency value
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* @TYPE_INVALID: Unknown type, will provoke error
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* @TYPE_SCCR_STANDARD: Read a field from the SCCR register, and use it
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* as a divider for the CSB clock to compute the
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* frequency
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* @TYPE_SCCR_ONOFF: The field describes a bit flag that can turn the
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* clock on or off
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* @TYPE_SPMR_DIRECT_MULTIPLY: Read a field from the SPMR register, and use it
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* as a multiplier for the CSB clock to compute the
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* frequency
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* @TYPE_SPECIAL: The frequency is calculated in a non-standard way
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*/
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enum mode_type {
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TYPE_INVALID = 0,
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TYPE_SCCR_STANDARD,
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TYPE_SCCR_ONOFF,
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TYPE_SPMR_DIRECT_MULTIPLY,
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TYPE_SPECIAL,
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};
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/* Map of each clock index to its human-readable name */
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static const char * const names[] = {
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[MPC83XX_CLK_CORE] = "Core",
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[MPC83XX_CLK_CSB] = "Coherent System Bus",
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[MPC83XX_CLK_QE] = "QE",
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[MPC83XX_CLK_BRG] = "BRG",
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[MPC83XX_CLK_LBIU] = "Local Bus Controller",
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[MPC83XX_CLK_LCLK] = "Local Bus",
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[MPC83XX_CLK_MEM] = "DDR",
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[MPC83XX_CLK_MEM_SEC] = "DDR Secondary",
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[MPC83XX_CLK_ENC] = "SEC",
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[MPC83XX_CLK_I2C1] = "I2C1",
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[MPC83XX_CLK_I2C2] = "I2C2",
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[MPC83XX_CLK_TDM] = "TDM",
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[MPC83XX_CLK_SDHC] = "SDHC",
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[MPC83XX_CLK_TSEC1] = "TSEC1",
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[MPC83XX_CLK_TSEC2] = "TSEC2",
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[MPC83XX_CLK_USBDR] = "USB DR",
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[MPC83XX_CLK_USBMPH] = "USB MPH",
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[MPC83XX_CLK_PCIEXP1] = "PCIEXP1",
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[MPC83XX_CLK_PCIEXP2] = "PCIEXP2",
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[MPC83XX_CLK_SATA] = "SATA",
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[MPC83XX_CLK_DMAC] = "DMAC",
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[MPC83XX_CLK_PCI] = "PCI",
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};
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/**
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* struct clk_mode - Structure for clock mode descriiptions
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* @low: The low bit of the data field to read for this mode (may not apply to
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* some modes)
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* @high: The high bit of the data field to read for this mode (may not apply to
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* some modes)
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* @type: The type of the mode description (one of enum mode_type)
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*/
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struct clk_mode {
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u8 low;
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u8 high;
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int type;
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};
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/**
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* set_mode() - Build a clock mode description from data
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* @mode: The clock mode description to be filled out
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* @low: The low bit of the data field to read for this mode (may not apply to
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* some modes)
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* @high: The high bit of the data field to read for this mode (may not apply to
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* some modes)
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* @type: The type of the mode description (one of enum mode_type)
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*
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* Clock mode descriptions are a succinct description of how to read a specific
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* clock's rate from the hardware; usually by reading a specific field of a
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* register, such a s the SCCR register, but some types use different methods
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* for obtaining the clock rate.
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*/
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static void set_mode(struct clk_mode *mode, u8 low, u8 high, int type)
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{
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mode->low = low;
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mode->high = high;
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mode->type = type;
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}
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/**
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* retrieve_mode() - Get the clock mode description for a specific clock
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* @clk: The identifier of the clock for which the clock description should
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* be retrieved
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* @soc_type: The type of MPC83xx SoC for which the clock description should be
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* retrieved
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* @mode: Pointer to a clk_mode structure to be filled with data for the
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* clock
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*
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* Since some clock rate are stored in different places on different MPC83xx
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* SoCs, the SoC type has to be supplied along with the clock's identifier.
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*
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* Return: 0 if OK, -ve on error
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*/
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static int retrieve_mode(int clk, int soc_type, struct clk_mode *mode)
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{
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switch (clk) {
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case MPC83XX_CLK_CORE:
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case MPC83XX_CLK_CSB:
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case MPC83XX_CLK_QE:
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case MPC83XX_CLK_BRG:
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case MPC83XX_CLK_LCLK:
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case MPC83XX_CLK_I2C2:
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set_mode(mode, 0, 0, TYPE_SPECIAL);
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break;
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case MPC83XX_CLK_MEM:
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set_mode(mode, 1, 1, TYPE_SPMR_DIRECT_MULTIPLY);
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break;
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case MPC83XX_CLK_LBIU:
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case MPC83XX_CLK_MEM_SEC:
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set_mode(mode, 0, 0, TYPE_SPMR_DIRECT_MULTIPLY);
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break;
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case MPC83XX_CLK_TSEC1:
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set_mode(mode, 0, 1, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_TSEC2:
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if (soc_type == SOC_MPC8313) /* I2C and TSEC2 are the same register */
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set_mode(mode, 2, 3, TYPE_SCCR_STANDARD);
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else /* FIXME(mario.six@gdsys.cc): This has separate enable/disable bit! */
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set_mode(mode, 0, 1, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_SDHC:
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set_mode(mode, 4, 5, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_ENC:
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set_mode(mode, 6, 7, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_I2C1:
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if (soc_type == SOC_MPC8349)
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set_mode(mode, 2, 3, TYPE_SCCR_STANDARD);
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else /* I2C and ENC are the same register */
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set_mode(mode, 6, 7, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_PCIEXP1:
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set_mode(mode, 10, 11, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_PCIEXP2:
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set_mode(mode, 12, 13, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_USBDR:
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if (soc_type == SOC_MPC8313 || soc_type == SOC_MPC8349)
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set_mode(mode, 10, 11, TYPE_SCCR_STANDARD);
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else
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set_mode(mode, 8, 9, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_USBMPH:
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set_mode(mode, 8, 9, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_PCI:
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set_mode(mode, 15, 15, TYPE_SCCR_ONOFF);
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break;
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case MPC83XX_CLK_DMAC:
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set_mode(mode, 26, 27, TYPE_SCCR_STANDARD);
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break;
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case MPC83XX_CLK_SATA:
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/* FIXME(mario.six@gdsys.cc): All SATA controllers must have the same clock ratio */
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if (soc_type == SOC_MPC8379) {
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set_mode(mode, 24, 25, TYPE_SCCR_STANDARD);
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set_mode(mode, 26, 27, TYPE_SCCR_STANDARD);
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set_mode(mode, 28, 29, TYPE_SCCR_STANDARD);
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set_mode(mode, 30, 31, TYPE_SCCR_STANDARD);
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} else {
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set_mode(mode, 18, 19, TYPE_SCCR_STANDARD);
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set_mode(mode, 20, 21, TYPE_SCCR_STANDARD);
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}
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break;
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case MPC83XX_CLK_TDM:
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set_mode(mode, 26, 27, TYPE_SCCR_STANDARD);
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break;
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default:
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debug("%s: Unknown clock type %d on soc type %d\n",
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__func__, clk, soc_type);
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set_mode(mode, 0, 0, TYPE_INVALID);
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return -EINVAL;
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}
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return 0;
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}
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/**
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* get_spmr() - Read the SPMR (System PLL Mode Register)
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* @im: Pointer to the MPC83xx main register map in question
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*
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* Return: The SPMR value as a 32-bit number.
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*/
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static inline u32 get_spmr(immap_t *im)
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{
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u32 res = in_be32(&im->clk.spmr);
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return res;
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}
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/**
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* get_sccr() - Read the SCCR (System Clock Control Register)
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* @im: Pointer to the MPC83xx main register map in question
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*
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* Return: The SCCR value as a 32-bit number.
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*/
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static inline u32 get_sccr(immap_t *im)
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{
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u32 res = in_be32(&im->clk.sccr);
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return res;
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}
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/**
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* get_lcrr() - Read the LCRR (Clock Ratio Register)
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* @im: Pointer to the MPC83xx main register map in question
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*
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* Return: The LCRR value as a 32-bit number.
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*/
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static inline u32 get_lcrr(immap_t *im)
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{
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u32 res = in_be32(&im->im_lbc.lcrr);
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return res;
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}
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/**
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* get_pci_sync_in() - Read the PCI synchronization clock speed
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* @im: Pointer to the MPC83xx main register map in question
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*
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* Return: The PCI synchronization clock speed value as a 32-bit number.
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*/
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static inline u32 get_pci_sync_in(immap_t *im)
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{
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u8 clkin_div;
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clkin_div = (get_spmr(im) & SPMR_CKID) >> SPMR_CKID_SHIFT;
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return CONFIG_SYS_CLK_FREQ / (1 + clkin_div);
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}
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/**
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* get_csb_clk() - Read the CSB (Coheren System Bus) clock speed
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* @im: Pointer to the MPC83xx main register map in question
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*
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* Return: The CSB clock speed value as a 32-bit number.
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*/
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static inline u32 get_csb_clk(immap_t *im)
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{
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u8 spmf;
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spmf = (get_spmr(im) & SPMR_SPMF) >> SPMR_SPMF_SHIFT;
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return CONFIG_SYS_CLK_FREQ * spmf;
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}
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/**
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* spmr_field() - Read a specific SPMR field
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* @im: Pointer to the MPC83xx main register map in question
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* @mask: A bitmask that describes the bitfield to be read
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*
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* Return: The value of the bit field as a 32-bit number.
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*/
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static inline uint spmr_field(immap_t *im, u32 mask)
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{
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/* Extract shift from bitmask */
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uint shift = mask ? ffs(mask) - 1 : 0;
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return (get_spmr(im) & mask) >> shift;
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}
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/**
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* sccr_field() - Read a specific SCCR field
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* @im: Pointer to the MPC83xx main register map in question
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* @mask: A bitmask that describes the bitfield to be read
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*
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* Return: The value of the bit field as a 32-bit number.
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*/
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static inline uint sccr_field(immap_t *im, u32 mask)
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{
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/* Extract shift from bitmask */
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uint shift = mask ? ffs(mask) - 1 : 0;
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return (get_sccr(im) & mask) >> shift;
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}
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/**
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* lcrr_field() - Read a specific LCRR field
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* @im: Pointer to the MPC83xx main register map in question
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* @mask: A bitmask that describes the bitfield to be read
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*
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* Return: The value of the bit field as a 32-bit number.
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*/
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static inline uint lcrr_field(immap_t *im, u32 mask)
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{
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/* Extract shift from bitmask */
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uint shift = mask ? ffs(mask) - 1 : 0;
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return (get_lcrr(im) & mask) >> shift;
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}
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