/* * arch/sh/kernel/cpu/sh4a/clock-sh7722.c * * SH7343, SH7722, SH7723 & SH7366 support for the clock framework * * Copyright (c) 2006-2007 Nomad Global Solutions Inc * Based on code for sh7343 by Paul Mundt * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. */ #include #include #include #include #include #include #include #define N (-1) #define NM (-2) #define ROUND_NEAREST 0 #define ROUND_DOWN -1 #define ROUND_UP +1 static int adjust_algos[][3] = { {}, /* NO_CHANGE */ { NM, N, 1 }, /* N:1, N:1 */ { 3, 2, 2 }, /* 3:2:2 */ { 5, 2, 2 }, /* 5:2:2 */ { N, 1, 1 }, /* N:1:1 */ { N, 1 }, /* N:1 */ { N, 1 }, /* N:1 */ { 3, 2 }, { 4, 3 }, { 5, 4 }, { N, 1 } }; static unsigned long adjust_pair_of_clocks(unsigned long r1, unsigned long r2, int m1, int m2, int round_flag) { unsigned long rem, div; int the_one = 0; pr_debug( "Actual values: r1 = %ld\n", r1); pr_debug( "...............r2 = %ld\n", r2); if (m1 == m2) { r2 = r1; pr_debug( "setting equal rates: r2 now %ld\n", r2); } else if ((m2 == N && m1 == 1) || (m2 == NM && m1 == N)) { /* N:1 or NM:N */ pr_debug( "Setting rates as 1:N (N:N*M)\n"); rem = r2 % r1; pr_debug( "...remainder = %ld\n", rem); if (rem) { div = r2 / r1; pr_debug( "...div = %ld\n", div); switch (round_flag) { case ROUND_NEAREST: the_one = rem >= r1/2 ? 1 : 0; break; case ROUND_UP: the_one = 1; break; case ROUND_DOWN: the_one = 0; break; } r2 = r1 * (div + the_one); pr_debug( "...setting r2 to %ld\n", r2); } } else if ((m2 == 1 && m1 == N) || (m2 == N && m1 == NM)) { /* 1:N or N:NM */ pr_debug( "Setting rates as N:1 (N*M:N)\n"); rem = r1 % r2; pr_debug( "...remainder = %ld\n", rem); if (rem) { div = r1 / r2; pr_debug( "...div = %ld\n", div); switch (round_flag) { case ROUND_NEAREST: the_one = rem > r2/2 ? 1 : 0; break; case ROUND_UP: the_one = 0; break; case ROUND_DOWN: the_one = 1; break; } r2 = r1 / (div + the_one); pr_debug( "...setting r2 to %ld\n", r2); } } else { /* value:value */ pr_debug( "Setting rates as %d:%d\n", m1, m2); div = r1 / m1; r2 = div * m2; pr_debug( "...div = %ld\n", div); pr_debug( "...setting r2 to %ld\n", r2); } return r2; } static void adjust_clocks(int originate, int *l, unsigned long v[], int n_in_line) { int x; pr_debug( "Go down from %d...\n", originate); /* go up recalculation clocks */ for (x = originate; x>0; x -- ) v[x-1] = adjust_pair_of_clocks(v[x], v[x-1], l[x], l[x-1], ROUND_UP); pr_debug( "Go up from %d...\n", originate); /* go down recalculation clocks */ for (x = originate; xrate = CONFIG_SH_PCLK_FREQ * (((frqcr >> 24) & 0x1f) + 1); } static void master_clk_init(struct clk *clk) { clk->parent = NULL; clk->flags |= CLK_RATE_PROPAGATES; clk->rate = CONFIG_SH_PCLK_FREQ; master_clk_recalc(clk); } static void module_clk_recalc(struct clk *clk) { unsigned long frqcr = ctrl_inl(FRQCR); clk->rate = clk->parent->rate / (((frqcr >> 24) & 0x1f) + 1); } static int master_clk_setrate(struct clk *clk, unsigned long rate, int id) { int div = rate / clk->rate; int master_divs[] = { 2, 3, 4, 6, 8, 16 }; int index; unsigned long frqcr; for (index = 1; index < ARRAY_SIZE(master_divs); index++) if (div >= master_divs[index - 1] && div < master_divs[index]) break; if (index >= ARRAY_SIZE(master_divs)) index = ARRAY_SIZE(master_divs); div = master_divs[index - 1]; frqcr = ctrl_inl(FRQCR); frqcr &= ~(0xF << 24); frqcr |= ( (div-1) << 24); ctrl_outl(frqcr, FRQCR); return 0; } static struct clk_ops sh7722_master_clk_ops = { .init = master_clk_init, .recalc = master_clk_recalc, .set_rate = master_clk_setrate, }; static struct clk_ops sh7722_module_clk_ops = { .recalc = module_clk_recalc, }; struct frqcr_context { unsigned mask; unsigned shift; }; struct frqcr_context sh7722_get_clk_context(const char *name) { struct frqcr_context ctx = { 0, }; if (!strcmp(name, "peripheral_clk")) { ctx.shift = 0; ctx.mask = 0xF; } else if (!strcmp(name, "sdram_clk")) { ctx.shift = 4; ctx.mask = 0xF; } else if (!strcmp(name, "bus_clk")) { ctx.shift = 8; ctx.mask = 0xF; } else if (!strcmp(name, "sh_clk")) { ctx.shift = 12; ctx.mask = 0xF; } else if (!strcmp(name, "umem_clk")) { ctx.shift = 16; ctx.mask = 0xF; } else if (!strcmp(name, "cpu_clk")) { ctx.shift = 20; ctx.mask = 7; } return ctx; } /** * sh7722_find_div_index - find divisor for setting rate * * All sh7722 clocks use the same set of multipliers/divisors. This function * chooses correct divisor to set the rate of clock with parent clock that * generates frequency of 'parent_rate' * * @parent_rate: rate of parent clock * @rate: requested rate to be set */ static int sh7722_find_div_index(unsigned long parent_rate, unsigned rate) { unsigned div2 = parent_rate * 2 / rate; int index; if (rate > parent_rate) return -EINVAL; for (index = 1; index < ARRAY_SIZE(divisors2); index++) { if (div2 > divisors2[index - 1] && div2 <= divisors2[index]) break; } if (index >= ARRAY_SIZE(divisors2)) index = ARRAY_SIZE(divisors2) - 1; return index; } static void sh7722_frqcr_recalc(struct clk *clk) { struct frqcr_context ctx = sh7722_get_clk_context(clk->name); unsigned long frqcr = ctrl_inl(FRQCR); int index; index = (frqcr >> ctx.shift) & ctx.mask; clk->rate = clk->parent->rate * 2 / divisors2[index]; } static int sh7722_frqcr_set_rate(struct clk *clk, unsigned long rate, int algo_id) { struct frqcr_context ctx = sh7722_get_clk_context(clk->name); unsigned long parent_rate = clk->parent->rate; int div; unsigned long frqcr; int err = 0; /* pretty invalid */ if (parent_rate < rate) return -EINVAL; /* look for multiplier/divisor pair */ div = sh7722_find_div_index(parent_rate, rate); if (div<0) return div; /* calculate new value of clock rate */ clk->rate = parent_rate * 2 / divisors2[div]; frqcr = ctrl_inl(FRQCR); /* FIXME: adjust as algo_id specifies */ if (algo_id != NO_CHANGE) { int originator; char *algo_group_1[] = { "cpu_clk", "umem_clk", "sh_clk" }; char *algo_group_2[] = { "sh_clk", "bus_clk" }; char *algo_group_3[] = { "sh_clk", "sdram_clk" }; char *algo_group_4[] = { "bus_clk", "peripheral_clk" }; char *algo_group_5[] = { "cpu_clk", "peripheral_clk" }; char **algo_current = NULL; /* 3 is the maximum number of clocks in relation */ struct clk *ck[3]; unsigned long values[3]; /* the same comment as above */ int part_length = -1; int i; /* * all the steps below only required if adjustion was * requested */ if (algo_id == IUS_N1_N1 || algo_id == IUS_322 || algo_id == IUS_522 || algo_id == IUS_N11) { algo_current = algo_group_1; part_length = 3; } if (algo_id == SB_N1) { algo_current = algo_group_2; part_length = 2; } if (algo_id == SB3_N1 || algo_id == SB3_32 || algo_id == SB3_43 || algo_id == SB3_54) { algo_current = algo_group_3; part_length = 2; } if (algo_id == BP_N1) { algo_current = algo_group_4; part_length = 2; } if (algo_id == IP_N1) { algo_current = algo_group_5; part_length = 2; } if (!algo_current) goto incorrect_algo_id; originator = -1; for (i = 0; i < part_length; i ++ ) { if (originator >= 0 && !strcmp(clk->name, algo_current[i])) originator = i; ck[i] = clk_get(NULL, algo_current[i]); values[i] = clk_get_rate(ck[i]); } if (originator >= 0) adjust_clocks(originator, adjust_algos[algo_id], values, part_length); for (i = 0; i < part_length; i ++ ) { struct frqcr_context part_ctx; int part_div; if (likely(!err)) { part_div = sh7722_find_div_index(parent_rate, rate); if (part_div > 0) { part_ctx = sh7722_get_clk_context( ck[i]->name); frqcr &= ~(part_ctx.mask << part_ctx.shift); frqcr |= part_div << part_ctx.shift; } else err = part_div; } ck[i]->ops->recalc(ck[i]); clk_put(ck[i]); } } /* was there any error during recalculation ? If so, bail out.. */ if (unlikely(err!=0)) goto out_err; /* clear FRQCR bits */ frqcr &= ~(ctx.mask << ctx.shift); frqcr |= div << ctx.shift; /* ...and perform actual change */ ctrl_outl(frqcr, FRQCR); return 0; incorrect_algo_id: return -EINVAL; out_err: return err; } static long sh7722_frqcr_round_rate(struct clk *clk, unsigned long rate) { unsigned long parent_rate = clk->parent->rate; int div; /* look for multiplier/divisor pair */ div = sh7722_find_div_index(parent_rate, rate); if (div < 0) return clk->rate; /* calculate new value of clock rate */ return parent_rate * 2 / divisors2[div]; } static struct clk_ops sh7722_frqcr_clk_ops = { .recalc = sh7722_frqcr_recalc, .set_rate = sh7722_frqcr_set_rate, .round_rate = sh7722_frqcr_round_rate, }; /* * clock ops methods for SIU A/B and IrDA clock * */ #ifndef CONFIG_CPU_SUBTYPE_SH7343 static int sh7722_siu_set_rate(struct clk *clk, unsigned long rate, int algo_id) { unsigned long r; int div; r = ctrl_inl(clk->arch_flags); div = sh7722_find_div_index(clk->parent->rate, rate); if (div < 0) return div; r = (r & ~0xF) | div; ctrl_outl(r, clk->arch_flags); return 0; } static void sh7722_siu_recalc(struct clk *clk) { unsigned long r; r = ctrl_inl(clk->arch_flags); clk->rate = clk->parent->rate * 2 / divisors2[r & 0xF]; } static int sh7722_siu_start_stop(struct clk *clk, int enable) { unsigned long r; r = ctrl_inl(clk->arch_flags); if (enable) ctrl_outl(r & ~(1 << 8), clk->arch_flags); else ctrl_outl(r | (1 << 8), clk->arch_flags); return 0; } static void sh7722_siu_enable(struct clk *clk) { sh7722_siu_start_stop(clk, 1); } static void sh7722_siu_disable(struct clk *clk) { sh7722_siu_start_stop(clk, 0); } static struct clk_ops sh7722_siu_clk_ops = { .recalc = sh7722_siu_recalc, .set_rate = sh7722_siu_set_rate, .enable = sh7722_siu_enable, .disable = sh7722_siu_disable, }; #endif /* CONFIG_CPU_SUBTYPE_SH7343 */ static void sh7722_video_enable(struct clk *clk) { unsigned long r; r = ctrl_inl(VCLKCR); ctrl_outl( r & ~(1<<8), VCLKCR); } static void sh7722_video_disable(struct clk *clk) { unsigned long r; r = ctrl_inl(VCLKCR); ctrl_outl( r | (1<<8), VCLKCR); } static int sh7722_video_set_rate(struct clk *clk, unsigned long rate, int algo_id) { unsigned long r; r = ctrl_inl(VCLKCR); r &= ~0x3F; r |= ((clk->parent->rate / rate - 1) & 0x3F); ctrl_outl(r, VCLKCR); return 0; } static void sh7722_video_recalc(struct clk *clk) { unsigned long r; r = ctrl_inl(VCLKCR); clk->rate = clk->parent->rate / ((r & 0x3F) + 1); } static struct clk_ops sh7722_video_clk_ops = { .recalc = sh7722_video_recalc, .set_rate = sh7722_video_set_rate, .enable = sh7722_video_enable, .disable = sh7722_video_disable, }; /* * and at last, clock definitions themselves */ static struct clk sh7722_umem_clock = { .name = "umem_clk", .ops = &sh7722_frqcr_clk_ops, .flags = CLK_RATE_PROPAGATES, }; static struct clk sh7722_sh_clock = { .name = "sh_clk", .ops = &sh7722_frqcr_clk_ops, .flags = CLK_RATE_PROPAGATES, }; static struct clk sh7722_peripheral_clock = { .name = "peripheral_clk", .ops = &sh7722_frqcr_clk_ops, .flags = CLK_RATE_PROPAGATES, }; static struct clk sh7722_sdram_clock = { .name = "sdram_clk", .ops = &sh7722_frqcr_clk_ops, }; static struct clk sh7722_r_clock = { .name = "r_clk", .rate = 32768, .flags = CLK_RATE_PROPAGATES, }; #ifndef CONFIG_CPU_SUBTYPE_SH7343 /* * these three clocks - SIU A, SIU B, IrDA - share the same clk_ops * methods of clk_ops determine which register they should access by * examining clk->name field */ static struct clk sh7722_siu_a_clock = { .name = "siu_a_clk", .arch_flags = SCLKACR, .ops = &sh7722_siu_clk_ops, }; static struct clk sh7722_siu_b_clock = { .name = "siu_b_clk", .arch_flags = SCLKBCR, .ops = &sh7722_siu_clk_ops, }; #if defined(CONFIG_CPU_SUBTYPE_SH7722) static struct clk sh7722_irda_clock = { .name = "irda_clk", .arch_flags = IrDACLKCR, .ops = &sh7722_siu_clk_ops, }; #endif #endif /* CONFIG_CPU_SUBTYPE_SH7343 */ static struct clk sh7722_video_clock = { .name = "video_clk", .ops = &sh7722_video_clk_ops, }; #define MSTPCR_ARCH_FLAGS(reg, bit) (((reg) << 8) | (bit)) #define MSTPCR_ARCH_FLAGS_REG(value) ((value) >> 8) #define MSTPCR_ARCH_FLAGS_BIT(value) ((value) & 0xff) static int sh7722_mstpcr_start_stop(struct clk *clk, int enable) { unsigned long bit = MSTPCR_ARCH_FLAGS_BIT(clk->arch_flags); unsigned long reg; unsigned long r; switch(MSTPCR_ARCH_FLAGS_REG(clk->arch_flags)) { case 0: reg = MSTPCR0; break; case 1: reg = MSTPCR1; break; case 2: reg = MSTPCR2; break; default: return -EINVAL; } r = ctrl_inl(reg); if (enable) r &= ~(1 << bit); else r |= (1 << bit); ctrl_outl(r, reg); return 0; } static void sh7722_mstpcr_enable(struct clk *clk) { sh7722_mstpcr_start_stop(clk, 1); } static void sh7722_mstpcr_disable(struct clk *clk) { sh7722_mstpcr_start_stop(clk, 0); } static void sh7722_mstpcr_recalc(struct clk *clk) { if (clk->parent) clk->rate = clk->parent->rate; } static struct clk_ops sh7722_mstpcr_clk_ops = { .enable = sh7722_mstpcr_enable, .disable = sh7722_mstpcr_disable, .recalc = sh7722_mstpcr_recalc, }; #define MSTPCR(_name, _parent, regnr, bitnr) \ { \ .name = _name, \ .arch_flags = MSTPCR_ARCH_FLAGS(regnr, bitnr), \ .ops = (void *)_parent, \ } static struct clk sh7722_mstpcr_clocks[] = { #if defined(CONFIG_CPU_SUBTYPE_SH7722) MSTPCR("uram0", "umem_clk", 0, 28), MSTPCR("xymem0", "bus_clk", 0, 26), MSTPCR("tmu0", "peripheral_clk", 0, 15), MSTPCR("cmt0", "r_clk", 0, 14), MSTPCR("rwdt0", "r_clk", 0, 13), MSTPCR("flctl0", "peripheral_clk", 0, 10), MSTPCR("scif0", "peripheral_clk", 0, 7), MSTPCR("scif1", "peripheral_clk", 0, 6), MSTPCR("scif2", "peripheral_clk", 0, 5), MSTPCR("i2c0", "peripheral_clk", 1, 9), MSTPCR("rtc0", "r_clk", 1, 8), MSTPCR("sdhi0", "peripheral_clk", 2, 18), MSTPCR("keysc0", "r_clk", 2, 14), MSTPCR("usbf0", "peripheral_clk", 2, 11), MSTPCR("2dg0", "bus_clk", 2, 9), MSTPCR("siu0", "bus_clk", 2, 8), MSTPCR("vou0", "bus_clk", 2, 5), MSTPCR("jpu0", "bus_clk", 2, 6), MSTPCR("beu0", "bus_clk", 2, 4), MSTPCR("ceu0", "bus_clk", 2, 3), MSTPCR("veu0", "bus_clk", 2, 2), MSTPCR("vpu0", "bus_clk", 2, 1), MSTPCR("lcdc0", "bus_clk", 2, 0), #endif #if defined(CONFIG_CPU_SUBTYPE_SH7723) /* See page 60 of Datasheet V1.0: Overview -> Block Diagram */ MSTPCR("tlb0", "cpu_clk", 0, 31), MSTPCR("ic0", "cpu_clk", 0, 30), MSTPCR("oc0", "cpu_clk", 0, 29), MSTPCR("l2c0", "sh_clk", 0, 28), MSTPCR("ilmem0", "cpu_clk", 0, 27), MSTPCR("fpu0", "cpu_clk", 0, 24), MSTPCR("intc0", "cpu_clk", 0, 22), MSTPCR("dmac0", "bus_clk", 0, 21), MSTPCR("sh0", "sh_clk", 0, 20), MSTPCR("hudi0", "peripheral_clk", 0, 19), MSTPCR("ubc0", "cpu_clk", 0, 17), MSTPCR("tmu0", "peripheral_clk", 0, 15), MSTPCR("cmt0", "r_clk", 0, 14), MSTPCR("rwdt0", "r_clk", 0, 13), MSTPCR("dmac1", "bus_clk", 0, 12), MSTPCR("tmu1", "peripheral_clk", 0, 11), MSTPCR("flctl0", "peripheral_clk", 0, 10), MSTPCR("scif0", "peripheral_clk", 0, 9), MSTPCR("scif1", "peripheral_clk", 0, 8), MSTPCR("scif2", "peripheral_clk", 0, 7), MSTPCR("scif3", "bus_clk", 0, 6), MSTPCR("scif4", "bus_clk", 0, 5), MSTPCR("scif5", "bus_clk", 0, 4), MSTPCR("msiof0", "bus_clk", 0, 2), MSTPCR("msiof1", "bus_clk", 0, 1), MSTPCR("meram0", "sh_clk", 0, 0), MSTPCR("i2c0", "peripheral_clk", 1, 9), MSTPCR("rtc0", "r_clk", 1, 8), MSTPCR("atapi0", "sh_clk", 2, 28), MSTPCR("adc0", "peripheral_clk", 2, 28), MSTPCR("tpu0", "bus_clk", 2, 25), MSTPCR("irda0", "peripheral_clk", 2, 24), MSTPCR("tsif0", "bus_clk", 2, 22), MSTPCR("icb0", "bus_clk", 2, 21), MSTPCR("sdhi0", "bus_clk", 2, 18), MSTPCR("sdhi1", "bus_clk", 2, 17), MSTPCR("keysc0", "r_clk", 2, 14), MSTPCR("usb0", "bus_clk", 2, 11), MSTPCR("2dg0", "bus_clk", 2, 10), MSTPCR("siu0", "bus_clk", 2, 8), MSTPCR("veu1", "bus_clk", 2, 6), MSTPCR("vou0", "bus_clk", 2, 5), MSTPCR("beu0", "bus_clk", 2, 4), MSTPCR("ceu0", "bus_clk", 2, 3), MSTPCR("veu0", "bus_clk", 2, 2), MSTPCR("vpu0", "bus_clk", 2, 1), MSTPCR("lcdc0", "bus_clk", 2, 0), #endif #if defined(CONFIG_CPU_SUBTYPE_SH7343) MSTPCR("uram0", "umem_clk", 0, 28), MSTPCR("xymem0", "bus_clk", 0, 26), MSTPCR("tmu0", "peripheral_clk", 0, 15), MSTPCR("cmt0", "r_clk", 0, 14), MSTPCR("rwdt0", "r_clk", 0, 13), MSTPCR("scif0", "peripheral_clk", 0, 7), MSTPCR("scif1", "peripheral_clk", 0, 6), MSTPCR("scif2", "peripheral_clk", 0, 5), MSTPCR("scif3", "peripheral_clk", 0, 4), MSTPCR("i2c0", "peripheral_clk", 1, 9), MSTPCR("i2c1", "peripheral_clk", 1, 8), MSTPCR("sdhi0", "peripheral_clk", 2, 18), MSTPCR("keysc0", "r_clk", 2, 14), MSTPCR("usbf0", "peripheral_clk", 2, 11), MSTPCR("siu0", "bus_clk", 2, 8), MSTPCR("jpu0", "bus_clk", 2, 6), MSTPCR("vou0", "bus_clk", 2, 5), MSTPCR("beu0", "bus_clk", 2, 4), MSTPCR("ceu0", "bus_clk", 2, 3), MSTPCR("veu0", "bus_clk", 2, 2), MSTPCR("vpu0", "bus_clk", 2, 1), MSTPCR("lcdc0", "bus_clk", 2, 0), #endif #if defined(CONFIG_CPU_SUBTYPE_SH7366) /* See page 52 of Datasheet V0.40: Overview -> Block Diagram */ MSTPCR("tlb0", "cpu_clk", 0, 31), MSTPCR("ic0", "cpu_clk", 0, 30), MSTPCR("oc0", "cpu_clk", 0, 29), MSTPCR("rsmem0", "sh_clk", 0, 28), MSTPCR("xymem0", "cpu_clk", 0, 26), MSTPCR("intc30", "peripheral_clk", 0, 23), MSTPCR("intc0", "peripheral_clk", 0, 22), MSTPCR("dmac0", "bus_clk", 0, 21), MSTPCR("sh0", "sh_clk", 0, 20), MSTPCR("hudi0", "peripheral_clk", 0, 19), MSTPCR("ubc0", "cpu_clk", 0, 17), MSTPCR("tmu0", "peripheral_clk", 0, 15), MSTPCR("cmt0", "r_clk", 0, 14), MSTPCR("rwdt0", "r_clk", 0, 13), MSTPCR("flctl0", "peripheral_clk", 0, 10), MSTPCR("scif0", "peripheral_clk", 0, 7), MSTPCR("scif1", "bus_clk", 0, 6), MSTPCR("scif2", "bus_clk", 0, 5), MSTPCR("msiof0", "peripheral_clk", 0, 2), MSTPCR("sbr0", "peripheral_clk", 0, 1), MSTPCR("i2c0", "peripheral_clk", 1, 9), MSTPCR("icb0", "bus_clk", 2, 27), MSTPCR("meram0", "sh_clk", 2, 26), MSTPCR("dacc0", "peripheral_clk", 2, 24), MSTPCR("dacy0", "peripheral_clk", 2, 23), MSTPCR("tsif0", "bus_clk", 2, 22), MSTPCR("sdhi0", "bus_clk", 2, 18), MSTPCR("mmcif0", "bus_clk", 2, 17), MSTPCR("usb0", "bus_clk", 2, 11), MSTPCR("siu0", "bus_clk", 2, 8), MSTPCR("veu1", "bus_clk", 2, 7), MSTPCR("vou0", "bus_clk", 2, 5), MSTPCR("beu0", "bus_clk", 2, 4), MSTPCR("ceu0", "bus_clk", 2, 3), MSTPCR("veu0", "bus_clk", 2, 2), MSTPCR("vpu0", "bus_clk", 2, 1), MSTPCR("lcdc0", "bus_clk", 2, 0), #endif }; static struct clk *sh7722_clocks[] = { &sh7722_umem_clock, &sh7722_sh_clock, &sh7722_peripheral_clock, &sh7722_sdram_clock, #ifndef CONFIG_CPU_SUBTYPE_SH7343 &sh7722_siu_a_clock, &sh7722_siu_b_clock, #if defined(CONFIG_CPU_SUBTYPE_SH7722) &sh7722_irda_clock, #endif #endif &sh7722_video_clock, }; /* * init in order: master, module, bus, cpu */ struct clk_ops *onchip_ops[] = { &sh7722_master_clk_ops, &sh7722_module_clk_ops, &sh7722_frqcr_clk_ops, &sh7722_frqcr_clk_ops, }; void __init arch_init_clk_ops(struct clk_ops **ops, int type) { BUG_ON(type < 0 || type > ARRAY_SIZE(onchip_ops)); *ops = onchip_ops[type]; } int __init arch_clk_init(void) { struct clk *clk; int i; clk = clk_get(NULL, "master_clk"); for (i = 0; i < ARRAY_SIZE(sh7722_clocks); i++) { pr_debug( "Registering clock '%s'\n", sh7722_clocks[i]->name); sh7722_clocks[i]->parent = clk; clk_register(sh7722_clocks[i]); } clk_put(clk); clk_register(&sh7722_r_clock); for (i = 0; i < ARRAY_SIZE(sh7722_mstpcr_clocks); i++) { pr_debug( "Registering mstpcr clock '%s'\n", sh7722_mstpcr_clocks[i].name); clk = clk_get(NULL, (void *) sh7722_mstpcr_clocks[i].ops); sh7722_mstpcr_clocks[i].parent = clk; sh7722_mstpcr_clocks[i].ops = &sh7722_mstpcr_clk_ops; clk_register(&sh7722_mstpcr_clocks[i]); clk_put(clk); } clk_recalc_rate(&sh7722_r_clock); /* make sure rate gets propagated */ return 0; }