Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Linus Walleij | 2281 | 97.65% | 14 | 58.33% |
Rob Herring | 29 | 1.24% | 2 | 8.33% |
Stephen Boyd | 6 | 0.26% | 2 | 8.33% |
Arnd Bergmann | 5 | 0.21% | 1 | 4.17% |
Colin Ian King | 5 | 0.21% | 1 | 4.17% |
Dan Carpenter | 4 | 0.17% | 1 | 4.17% |
Thomas Gleixner | 2 | 0.09% | 1 | 4.17% |
Lee Jones | 2 | 0.09% | 1 | 4.17% |
SF Markus Elfring | 2 | 0.09% | 1 | 4.17% |
Total | 2336 | 24 |
// SPDX-License-Identifier: GPL-2.0-only /* * Driver for the ICST307 VCO clock found in the ARM Reference designs. * We wrap the custom interface from <asm/hardware/icst.h> into the generic * clock framework. * * Copyright (C) 2012-2015 Linus Walleij * * TODO: when all ARM reference designs are migrated to generic clocks, the * ICST clock code from the ARM tree should probably be merged into this * file. */ #include <linux/kernel.h> #include <linux/slab.h> #include <linux/export.h> #include <linux/err.h> #include <linux/clk-provider.h> #include <linux/io.h> #include <linux/regmap.h> #include <linux/mfd/syscon.h> #include "icst.h" #include "clk-icst.h" /* Magic unlocking token used on all Versatile boards */ #define VERSATILE_LOCK_VAL 0xA05F #define VERSATILE_AUX_OSC_BITS 0x7FFFF #define INTEGRATOR_AP_CM_BITS 0xFF #define INTEGRATOR_AP_SYS_BITS 0xFF #define INTEGRATOR_CP_CM_CORE_BITS 0x7FF #define INTEGRATOR_CP_CM_MEM_BITS 0x7FF000 #define INTEGRATOR_AP_PCI_25_33_MHZ BIT(8) /** * struct clk_icst - ICST VCO clock wrapper * @hw: corresponding clock hardware entry * @map: register map * @vcoreg_off: VCO register address * @lockreg_off: VCO lock register address * @params: parameters for this ICST instance * @rate: current rate * @ctype: the type of control register for the ICST */ struct clk_icst { struct clk_hw hw; struct regmap *map; u32 vcoreg_off; u32 lockreg_off; struct icst_params *params; unsigned long rate; enum icst_control_type ctype; }; #define to_icst(_hw) container_of(_hw, struct clk_icst, hw) /** * vco_get() - get ICST VCO settings from a certain ICST * @icst: the ICST clock to get * @vco: the VCO struct to return the value in */ static int vco_get(struct clk_icst *icst, struct icst_vco *vco) { u32 val; int ret; ret = regmap_read(icst->map, icst->vcoreg_off, &val); if (ret) return ret; /* * The Integrator/AP core clock can only access the low eight * bits of the v PLL divider. Bit 8 is tied low and always zero, * r is hardwired to 22 and output divider s is hardwired to 1 * (divide by 2) according to the document * "Integrator CM926EJ-S, CM946E-S, CM966E-S, CM1026EJ-S and * CM1136JF-S User Guide" ARM DUI 0138E, page 3-13 thru 3-14. */ if (icst->ctype == ICST_INTEGRATOR_AP_CM) { vco->v = val & INTEGRATOR_AP_CM_BITS; vco->r = 22; vco->s = 1; return 0; } /* * The Integrator/AP system clock on the base board can only * access the low eight bits of the v PLL divider. Bit 8 is tied low * and always zero, r is hardwired to 46, and the output divider is * hardwired to 3 (divide by 4) according to the document * "Integrator AP ASIC Development Motherboard" ARM DUI 0098B, * page 3-16. */ if (icst->ctype == ICST_INTEGRATOR_AP_SYS) { vco->v = val & INTEGRATOR_AP_SYS_BITS; vco->r = 46; vco->s = 3; return 0; } /* * The Integrator/AP PCI clock is using an odd pattern to create * the child clock, basically a single bit called DIVX/Y is used * to select between two different hardwired values: setting the * bit to 0 yields v = 17, r = 22 and OD = 1, whereas setting the * bit to 1 yields v = 14, r = 14 and OD = 1 giving the frequencies * 33 or 25 MHz respectively. */ if (icst->ctype == ICST_INTEGRATOR_AP_PCI) { bool divxy = !!(val & INTEGRATOR_AP_PCI_25_33_MHZ); vco->v = divxy ? 17 : 14; vco->r = divxy ? 22 : 14; vco->s = 1; return 0; } /* * The Integrator/CP core clock can access the low eight bits * of the v PLL divider. Bit 8 is tied low and always zero, * r is hardwired to 22 and the output divider s is accessible * in bits 8 thru 10 according to the document * "Integrator/CM940T, CM920T, CM740T, and CM720T User Guide" * ARM DUI 0157A, page 3-20 thru 3-23 and 4-10. */ if (icst->ctype == ICST_INTEGRATOR_CP_CM_CORE) { vco->v = val & 0xFF; vco->r = 22; vco->s = (val >> 8) & 7; return 0; } if (icst->ctype == ICST_INTEGRATOR_CP_CM_MEM) { vco->v = (val >> 12) & 0xFF; vco->r = 22; vco->s = (val >> 20) & 7; return 0; } vco->v = val & 0x1ff; vco->r = (val >> 9) & 0x7f; vco->s = (val >> 16) & 03; return 0; } /** * vco_set() - commit changes to an ICST VCO * @icst: the ICST clock to set * @vco: the VCO struct to set the changes from */ static int vco_set(struct clk_icst *icst, struct icst_vco vco) { u32 mask; u32 val; int ret; /* Mask the bits used by the VCO */ switch (icst->ctype) { case ICST_INTEGRATOR_AP_CM: mask = INTEGRATOR_AP_CM_BITS; val = vco.v & 0xFF; if (vco.v & 0x100) pr_err("ICST error: tried to set bit 8 of VDW\n"); if (vco.s != 1) pr_err("ICST error: tried to use VOD != 1\n"); if (vco.r != 22) pr_err("ICST error: tried to use RDW != 22\n"); break; case ICST_INTEGRATOR_AP_SYS: mask = INTEGRATOR_AP_SYS_BITS; val = vco.v & 0xFF; if (vco.v & 0x100) pr_err("ICST error: tried to set bit 8 of VDW\n"); if (vco.s != 3) pr_err("ICST error: tried to use VOD != 1\n"); if (vco.r != 46) pr_err("ICST error: tried to use RDW != 22\n"); break; case ICST_INTEGRATOR_CP_CM_CORE: mask = INTEGRATOR_CP_CM_CORE_BITS; /* Uses 12 bits */ val = (vco.v & 0xFF) | vco.s << 8; if (vco.v & 0x100) pr_err("ICST error: tried to set bit 8 of VDW\n"); if (vco.r != 22) pr_err("ICST error: tried to use RDW != 22\n"); break; case ICST_INTEGRATOR_CP_CM_MEM: mask = INTEGRATOR_CP_CM_MEM_BITS; /* Uses 12 bits */ val = ((vco.v & 0xFF) << 12) | (vco.s << 20); if (vco.v & 0x100) pr_err("ICST error: tried to set bit 8 of VDW\n"); if (vco.r != 22) pr_err("ICST error: tried to use RDW != 22\n"); break; default: /* Regular auxilary oscillator */ mask = VERSATILE_AUX_OSC_BITS; val = vco.v | (vco.r << 9) | (vco.s << 16); break; } pr_debug("ICST: new val = 0x%08x\n", val); /* This magic unlocks the VCO so it can be controlled */ ret = regmap_write(icst->map, icst->lockreg_off, VERSATILE_LOCK_VAL); if (ret) return ret; ret = regmap_update_bits(icst->map, icst->vcoreg_off, mask, val); if (ret) return ret; /* This locks the VCO again */ ret = regmap_write(icst->map, icst->lockreg_off, 0); if (ret) return ret; return 0; } static unsigned long icst_recalc_rate(struct clk_hw *hw, unsigned long parent_rate) { struct clk_icst *icst = to_icst(hw); struct icst_vco vco; int ret; if (parent_rate) icst->params->ref = parent_rate; ret = vco_get(icst, &vco); if (ret) { pr_err("ICST: could not get VCO setting\n"); return 0; } icst->rate = icst_hz(icst->params, vco); return icst->rate; } static long icst_round_rate(struct clk_hw *hw, unsigned long rate, unsigned long *prate) { struct clk_icst *icst = to_icst(hw); struct icst_vco vco; if (icst->ctype == ICST_INTEGRATOR_AP_CM || icst->ctype == ICST_INTEGRATOR_CP_CM_CORE) { if (rate <= 12000000) return 12000000; if (rate >= 160000000) return 160000000; /* Slam to closest megahertz */ return DIV_ROUND_CLOSEST(rate, 1000000) * 1000000; } if (icst->ctype == ICST_INTEGRATOR_CP_CM_MEM) { if (rate <= 6000000) return 6000000; if (rate >= 66000000) return 66000000; /* Slam to closest 0.5 megahertz */ return DIV_ROUND_CLOSEST(rate, 500000) * 500000; } if (icst->ctype == ICST_INTEGRATOR_AP_SYS) { /* Divides between 3 and 50 MHz in steps of 0.25 MHz */ if (rate <= 3000000) return 3000000; if (rate >= 50000000) return 5000000; /* Slam to closest 0.25 MHz */ return DIV_ROUND_CLOSEST(rate, 250000) * 250000; } if (icst->ctype == ICST_INTEGRATOR_AP_PCI) { /* * If we're below or less than halfway from 25 to 33 MHz * select 25 MHz */ if (rate <= 25000000 || rate < 29000000) return 25000000; /* Else just return the default frequency */ return 33000000; } vco = icst_hz_to_vco(icst->params, rate); return icst_hz(icst->params, vco); } static int icst_set_rate(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate) { struct clk_icst *icst = to_icst(hw); struct icst_vco vco; if (icst->ctype == ICST_INTEGRATOR_AP_PCI) { /* This clock is especially primitive */ unsigned int val; int ret; if (rate == 25000000) { val = 0; } else if (rate == 33000000) { val = INTEGRATOR_AP_PCI_25_33_MHZ; } else { pr_err("ICST: cannot set PCI frequency %lu\n", rate); return -EINVAL; } ret = regmap_write(icst->map, icst->lockreg_off, VERSATILE_LOCK_VAL); if (ret) return ret; ret = regmap_update_bits(icst->map, icst->vcoreg_off, INTEGRATOR_AP_PCI_25_33_MHZ, val); if (ret) return ret; /* This locks the VCO again */ ret = regmap_write(icst->map, icst->lockreg_off, 0); if (ret) return ret; return 0; } if (parent_rate) icst->params->ref = parent_rate; vco = icst_hz_to_vco(icst->params, rate); icst->rate = icst_hz(icst->params, vco); return vco_set(icst, vco); } static const struct clk_ops icst_ops = { .recalc_rate = icst_recalc_rate, .round_rate = icst_round_rate, .set_rate = icst_set_rate, }; struct clk *icst_clk_setup(struct device *dev, const struct clk_icst_desc *desc, const char *name, const char *parent_name, struct regmap *map, enum icst_control_type ctype) { struct clk *clk; struct clk_icst *icst; struct clk_init_data init; struct icst_params *pclone; icst = kzalloc(sizeof(*icst), GFP_KERNEL); if (!icst) return ERR_PTR(-ENOMEM); pclone = kmemdup(desc->params, sizeof(*pclone), GFP_KERNEL); if (!pclone) { kfree(icst); return ERR_PTR(-ENOMEM); } init.name = name; init.ops = &icst_ops; init.flags = 0; init.parent_names = (parent_name ? &parent_name : NULL); init.num_parents = (parent_name ? 1 : 0); icst->map = map; icst->hw.init = &init; icst->params = pclone; icst->vcoreg_off = desc->vco_offset; icst->lockreg_off = desc->lock_offset; icst->ctype = ctype; clk = clk_register(dev, &icst->hw); if (IS_ERR(clk)) { kfree(pclone); kfree(icst); } return clk; } EXPORT_SYMBOL_GPL(icst_clk_setup); struct clk *icst_clk_register(struct device *dev, const struct clk_icst_desc *desc, const char *name, const char *parent_name, void __iomem *base) { struct regmap_config icst_regmap_conf = { .reg_bits = 32, .val_bits = 32, .reg_stride = 4, }; struct regmap *map; map = regmap_init_mmio(dev, base, &icst_regmap_conf); if (IS_ERR(map)) { pr_err("could not initialize ICST regmap\n"); return ERR_CAST(map); } return icst_clk_setup(dev, desc, name, parent_name, map, ICST_VERSATILE); } EXPORT_SYMBOL_GPL(icst_clk_register); #ifdef CONFIG_OF /* * In a device tree, an memory-mapped ICST clock appear as a child * of a syscon node. Assume this and probe it only as a child of a * syscon. */ static const struct icst_params icst525_params = { .vco_max = ICST525_VCO_MAX_5V, .vco_min = ICST525_VCO_MIN, .vd_min = 8, .vd_max = 263, .rd_min = 3, .rd_max = 65, .s2div = icst525_s2div, .idx2s = icst525_idx2s, }; static const struct icst_params icst307_params = { .vco_max = ICST307_VCO_MAX, .vco_min = ICST307_VCO_MIN, .vd_min = 4 + 8, .vd_max = 511 + 8, .rd_min = 1 + 2, .rd_max = 127 + 2, .s2div = icst307_s2div, .idx2s = icst307_idx2s, }; /* * The core modules on the Integrator/AP and Integrator/CP have * especially crippled ICST525 control. */ static const struct icst_params icst525_apcp_cm_params = { .vco_max = ICST525_VCO_MAX_5V, .vco_min = ICST525_VCO_MIN, /* Minimum 12 MHz, VDW = 4 */ .vd_min = 12, /* * Maximum 160 MHz, VDW = 152 for all core modules, but * CM926EJ-S, CM1026EJ-S and CM1136JF-S can actually * go to 200 MHz (max VDW = 192). */ .vd_max = 192, /* r is hardcoded to 22 and this is the actual divisor, +2 */ .rd_min = 24, .rd_max = 24, .s2div = icst525_s2div, .idx2s = icst525_idx2s, }; static const struct icst_params icst525_ap_sys_params = { .vco_max = ICST525_VCO_MAX_5V, .vco_min = ICST525_VCO_MIN, /* Minimum 3 MHz, VDW = 4 */ .vd_min = 3, /* Maximum 50 MHz, VDW = 192 */ .vd_max = 50, /* r is hardcoded to 46 and this is the actual divisor, +2 */ .rd_min = 48, .rd_max = 48, .s2div = icst525_s2div, .idx2s = icst525_idx2s, }; static const struct icst_params icst525_ap_pci_params = { .vco_max = ICST525_VCO_MAX_5V, .vco_min = ICST525_VCO_MIN, /* Minimum 25 MHz */ .vd_min = 25, /* Maximum 33 MHz */ .vd_max = 33, /* r is hardcoded to 14 or 22 and this is the actual divisors +2 */ .rd_min = 16, .rd_max = 24, .s2div = icst525_s2div, .idx2s = icst525_idx2s, }; static void __init of_syscon_icst_setup(struct device_node *np) { struct device_node *parent; struct regmap *map; struct clk_icst_desc icst_desc; const char *name; const char *parent_name; struct clk *regclk; enum icst_control_type ctype; /* We do not release this reference, we are using it perpetually */ parent = of_get_parent(np); if (!parent) { pr_err("no parent node for syscon ICST clock\n"); return; } map = syscon_node_to_regmap(parent); if (IS_ERR(map)) { pr_err("no regmap for syscon ICST clock parent\n"); return; } if (of_property_read_u32(np, "reg", &icst_desc.vco_offset) && of_property_read_u32(np, "vco-offset", &icst_desc.vco_offset)) { pr_err("no VCO register offset for ICST clock\n"); return; } if (of_property_read_u32(np, "lock-offset", &icst_desc.lock_offset)) { pr_err("no lock register offset for ICST clock\n"); return; } if (of_device_is_compatible(np, "arm,syscon-icst525")) { icst_desc.params = &icst525_params; ctype = ICST_VERSATILE; } else if (of_device_is_compatible(np, "arm,syscon-icst307")) { icst_desc.params = &icst307_params; ctype = ICST_VERSATILE; } else if (of_device_is_compatible(np, "arm,syscon-icst525-integratorap-cm")) { icst_desc.params = &icst525_apcp_cm_params; ctype = ICST_INTEGRATOR_AP_CM; } else if (of_device_is_compatible(np, "arm,syscon-icst525-integratorap-sys")) { icst_desc.params = &icst525_ap_sys_params; ctype = ICST_INTEGRATOR_AP_SYS; } else if (of_device_is_compatible(np, "arm,syscon-icst525-integratorap-pci")) { icst_desc.params = &icst525_ap_pci_params; ctype = ICST_INTEGRATOR_AP_PCI; } else if (of_device_is_compatible(np, "arm,syscon-icst525-integratorcp-cm-core")) { icst_desc.params = &icst525_apcp_cm_params; ctype = ICST_INTEGRATOR_CP_CM_CORE; } else if (of_device_is_compatible(np, "arm,syscon-icst525-integratorcp-cm-mem")) { icst_desc.params = &icst525_apcp_cm_params; ctype = ICST_INTEGRATOR_CP_CM_MEM; } else { pr_err("unknown ICST clock %pOF\n", np); return; } /* Parent clock name is not the same as node parent */ parent_name = of_clk_get_parent_name(np, 0); name = kasprintf(GFP_KERNEL, "%pOFP", np); regclk = icst_clk_setup(NULL, &icst_desc, name, parent_name, map, ctype); if (IS_ERR(regclk)) { pr_err("error setting up syscon ICST clock %s\n", name); kfree(name); return; } of_clk_add_provider(np, of_clk_src_simple_get, regclk); pr_debug("registered syscon ICST clock %s\n", name); } CLK_OF_DECLARE(arm_syscon_icst525_clk, "arm,syscon-icst525", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_icst307_clk, "arm,syscon-icst307", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_integratorap_cm_clk, "arm,syscon-icst525-integratorap-cm", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_integratorap_sys_clk, "arm,syscon-icst525-integratorap-sys", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_integratorap_pci_clk, "arm,syscon-icst525-integratorap-pci", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_integratorcp_cm_core_clk, "arm,syscon-icst525-integratorcp-cm-core", of_syscon_icst_setup); CLK_OF_DECLARE(arm_syscon_integratorcp_cm_mem_clk, "arm,syscon-icst525-integratorcp-cm-mem", of_syscon_icst_setup); #endif
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