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af65f28a3a
Low level functions for DisplayTop (Display Topology). Signed-off-by: Stefan Bosch <stefan_b@posteo.net>
309 lines
7.8 KiB
C
309 lines
7.8 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2016 Nexell Co., Ltd.
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*
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* Author: junghyun, kim <jhkim@nexell.co.kr>
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*/
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#include <linux/types.h>
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#include <linux/io.h>
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#include "s5pxx18_soc_disptop_clk.h"
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#include "s5pxx18_soc_disptop.h"
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static struct {
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struct nx_disptop_clkgen_register_set *__g_pregister;
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} __g_module_variables[NUMBER_OF_DISPTOP_CLKGEN_MODULE] = {
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{ NULL,},
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};
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int nx_disp_top_clkgen_initialize(void)
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{
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static int binit;
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u32 i;
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if (binit == 0) {
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for (i = 0; i < NUMBER_OF_DISPTOP_CLKGEN_MODULE; i++)
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__g_module_variables[i].__g_pregister = NULL;
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binit = 1;
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}
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return 1;
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}
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u32 nx_disp_top_clkgen_get_number_of_module(void)
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{
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return NUMBER_OF_DISPTOP_CLKGEN_MODULE;
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}
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u32 nx_disp_top_clkgen_get_physical_address(u32 module_index)
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{
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static const u32 physical_addr[] =
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PHY_BASEADDR_DISPTOP_CLKGEN_LIST;
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return (u32)physical_addr[module_index];
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}
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u32 nx_disp_top_clkgen_get_size_of_register_set(void)
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{
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return sizeof(struct nx_disptop_clkgen_register_set);
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}
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void nx_disp_top_clkgen_set_base_address(u32 module_index, void *base_address)
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{
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__g_module_variables[module_index].__g_pregister =
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(struct nx_disptop_clkgen_register_set *)base_address;
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}
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void *nx_disp_top_clkgen_get_base_address(u32 module_index)
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{
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return (void *)__g_module_variables[module_index].__g_pregister;
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}
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void nx_disp_top_clkgen_set_clock_bclk_mode(u32 module_index,
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enum nx_bclkmode mode)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 regvalue;
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u32 clkmode = 0;
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pregister = __g_module_variables[module_index].__g_pregister;
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switch (mode) {
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case nx_bclkmode_disable:
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clkmode = 0;
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case nx_bclkmode_dynamic:
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clkmode = 2;
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break;
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case nx_bclkmode_always:
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clkmode = 3;
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break;
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default:
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break;
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}
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regvalue = pregister->clkenb;
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regvalue &= ~3ul;
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regvalue |= (clkmode & 0x03);
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writel(regvalue, &pregister->clkenb);
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}
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enum nx_bclkmode nx_disp_top_clkgen_get_clock_bclk_mode(u32 module_index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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u32 mode = 0;
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pregister = __g_module_variables[module_index].__g_pregister;
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mode = (pregister->clkenb & 3ul);
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switch (mode) {
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case 0:
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return nx_bclkmode_disable;
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case 2:
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return nx_bclkmode_dynamic;
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case 3:
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return nx_bclkmode_always;
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default:
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break;
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}
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return nx_bclkmode_disable;
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}
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void nx_disp_top_clkgen_set_clock_pclk_mode(u32 module_index,
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enum nx_pclkmode mode)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 regvalue;
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const u32 pclkmode_pos = 3;
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u32 clkmode = 0;
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pregister = __g_module_variables[module_index].__g_pregister;
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switch (mode) {
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case nx_pclkmode_dynamic:
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clkmode = 0;
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break;
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case nx_pclkmode_always:
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clkmode = 1;
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break;
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default:
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break;
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}
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regvalue = pregister->clkenb;
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regvalue &= ~(1ul << pclkmode_pos);
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regvalue |= (clkmode & 0x01) << pclkmode_pos;
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writel(regvalue, &pregister->clkenb);
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}
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enum nx_pclkmode nx_disp_top_clkgen_get_clock_pclk_mode(u32 module_index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 pclkmode_pos = 3;
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pregister = __g_module_variables[module_index].__g_pregister;
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if (pregister->clkenb & (1ul << pclkmode_pos))
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return nx_pclkmode_always;
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return nx_pclkmode_dynamic;
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}
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void nx_disp_top_clkgen_set_clock_source(u32 module_index, u32 index,
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u32 clk_src)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 read_value;
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const u32 clksrcsel_pos = 2;
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const u32 clksrcsel_mask = 0x07 << clksrcsel_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->CLKGEN[index << 1];
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read_value &= ~clksrcsel_mask;
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read_value |= clk_src << clksrcsel_pos;
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writel(read_value, &pregister->CLKGEN[index << 1]);
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}
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u32 nx_disp_top_clkgen_get_clock_source(u32 module_index, u32 index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 clksrcsel_pos = 2;
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const u32 clksrcsel_mask = 0x07 << clksrcsel_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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return (pregister->CLKGEN[index << 1] &
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clksrcsel_mask) >> clksrcsel_pos;
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}
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void nx_disp_top_clkgen_set_clock_divisor(u32 module_index, u32 index,
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u32 divisor)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 clkdiv_pos = 5;
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const u32 clkdiv_mask = 0xff << clkdiv_pos;
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register u32 read_value;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->CLKGEN[index << 1];
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read_value &= ~clkdiv_mask;
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read_value |= (divisor - 1) << clkdiv_pos;
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writel(read_value, &pregister->CLKGEN[index << 1]);
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}
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u32 nx_disp_top_clkgen_get_clock_divisor(u32 module_index, u32 index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 clkdiv_pos = 5;
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const u32 clkdiv_mask = 0xff << clkdiv_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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return ((pregister->CLKGEN[index << 1] &
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clkdiv_mask) >> clkdiv_pos) + 1;
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}
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void nx_disp_top_clkgen_set_clock_divisor_enable(u32 module_index, int enable)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 read_value;
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const u32 clkgenenb_pos = 2;
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const u32 clkgenenb_mask = 1ul << clkgenenb_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->clkenb;
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read_value &= ~clkgenenb_mask;
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read_value |= (u32)enable << clkgenenb_pos;
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writel(read_value, &pregister->clkenb);
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}
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int nx_disp_top_clkgen_get_clock_divisor_enable(u32 module_index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 clkgenenb_pos = 2;
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const u32 clkgenenb_mask = 1ul << clkgenenb_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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return (int)((pregister->clkenb &
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clkgenenb_mask) >> clkgenenb_pos);
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}
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void nx_disp_top_clkgen_set_clock_out_inv(u32 module_index, u32 index,
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int out_clk_inv)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 read_value;
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const u32 outclkinv_pos = 1;
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const u32 outclkinv_mask = 1ul << outclkinv_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->CLKGEN[index << 1];
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read_value &= ~outclkinv_mask;
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read_value |= out_clk_inv << outclkinv_pos;
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writel(read_value, &pregister->CLKGEN[index << 1]);
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}
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int nx_disp_top_clkgen_get_clock_out_inv(u32 module_index, u32 index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 outclkinv_pos = 1;
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const u32 outclkinv_mask = 1ul << outclkinv_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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return (int)((pregister->CLKGEN[index << 1] &
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outclkinv_mask) >> outclkinv_pos);
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}
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int nx_disp_top_clkgen_set_input_inv(u32 module_index,
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u32 index, int in_clk_inv)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 read_value;
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const u32 inclkinv_pos = 4 + index;
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const u32 inclkinv_mask = 1ul << inclkinv_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->clkenb;
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read_value &= ~inclkinv_mask;
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read_value |= in_clk_inv << inclkinv_pos;
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writel(read_value, &pregister->clkenb);
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return true;
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}
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int nx_disp_top_clkgen_get_input_inv(u32 module_index, u32 index)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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const u32 inclkinv_pos = 4 + index;
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const u32 inclkinv_mask = 1ul << inclkinv_pos;
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pregister = __g_module_variables[module_index].__g_pregister;
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return (int)((pregister->clkenb &
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inclkinv_mask) >> inclkinv_pos);
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}
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void nx_disp_top_clkgen_set_clock_out_select(u32 module_index, u32 index,
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int bbypass)
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{
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register struct nx_disptop_clkgen_register_set *pregister;
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register u32 read_value;
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pregister = __g_module_variables[module_index].__g_pregister;
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read_value = pregister->CLKGEN[index << 1];
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read_value = read_value & (~0x01);
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read_value = read_value | bbypass;
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writel(read_value, &pregister->CLKGEN[index << 1]);
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}
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