1f6f9be1cSFlorian Fainelli /* 2f6f9be1cSFlorian Fainelli * Broadcom Brahma-B15 CPU read-ahead cache management functions 3f6f9be1cSFlorian Fainelli * 4f6f9be1cSFlorian Fainelli * Copyright (C) 2015-2016 Broadcom 5f6f9be1cSFlorian Fainelli * 6f6f9be1cSFlorian Fainelli * This program is free software; you can redistribute it and/or modify 7f6f9be1cSFlorian Fainelli * it under the terms of the GNU General Public License version 2 as 8f6f9be1cSFlorian Fainelli * published by the Free Software Foundation. 9f6f9be1cSFlorian Fainelli */ 10f6f9be1cSFlorian Fainelli 11f6f9be1cSFlorian Fainelli #include <linux/err.h> 12f6f9be1cSFlorian Fainelli #include <linux/spinlock.h> 13f6f9be1cSFlorian Fainelli #include <linux/io.h> 14f6f9be1cSFlorian Fainelli #include <linux/bitops.h> 15f6f9be1cSFlorian Fainelli #include <linux/of_address.h> 1655de8877SFlorian Fainelli #include <linux/notifier.h> 1755de8877SFlorian Fainelli #include <linux/cpu.h> 18534f5f36SFlorian Fainelli #include <linux/syscore_ops.h> 19f6f9be1cSFlorian Fainelli 20f6f9be1cSFlorian Fainelli #include <asm/cacheflush.h> 21f6f9be1cSFlorian Fainelli #include <asm/hardware/cache-b15-rac.h> 22f6f9be1cSFlorian Fainelli 23f6f9be1cSFlorian Fainelli extern void v7_flush_kern_cache_all(void); 24f6f9be1cSFlorian Fainelli 25f6f9be1cSFlorian Fainelli /* RAC register offsets, relative to the HIF_CPU_BIUCTRL register base */ 26f6f9be1cSFlorian Fainelli #define RAC_CONFIG0_REG (0x78) 27f6f9be1cSFlorian Fainelli #define RACENPREF_MASK (0x3) 28f6f9be1cSFlorian Fainelli #define RACPREFINST_SHIFT (0) 29f6f9be1cSFlorian Fainelli #define RACENINST_SHIFT (2) 30f6f9be1cSFlorian Fainelli #define RACPREFDATA_SHIFT (4) 31f6f9be1cSFlorian Fainelli #define RACENDATA_SHIFT (6) 32f6f9be1cSFlorian Fainelli #define RAC_CPU_SHIFT (8) 33f6f9be1cSFlorian Fainelli #define RACCFG_MASK (0xff) 34f6f9be1cSFlorian Fainelli #define RAC_CONFIG1_REG (0x7c) 35f6f9be1cSFlorian Fainelli #define RAC_FLUSH_REG (0x80) 36f6f9be1cSFlorian Fainelli #define FLUSH_RAC (1 << 0) 37f6f9be1cSFlorian Fainelli 38f6f9be1cSFlorian Fainelli /* Bitmask to enable instruction and data prefetching with a 256-bytes stride */ 39f6f9be1cSFlorian Fainelli #define RAC_DATA_INST_EN_MASK (1 << RACPREFINST_SHIFT | \ 40f6f9be1cSFlorian Fainelli RACENPREF_MASK << RACENINST_SHIFT | \ 41f6f9be1cSFlorian Fainelli 1 << RACPREFDATA_SHIFT | \ 42f6f9be1cSFlorian Fainelli RACENPREF_MASK << RACENDATA_SHIFT) 43f6f9be1cSFlorian Fainelli 44f6f9be1cSFlorian Fainelli #define RAC_ENABLED 0 45534f5f36SFlorian Fainelli /* Special state where we want to bypass the spinlock and call directly 46534f5f36SFlorian Fainelli * into the v7 cache maintenance operations during suspend/resume 47534f5f36SFlorian Fainelli */ 48534f5f36SFlorian Fainelli #define RAC_SUSPENDED 1 49f6f9be1cSFlorian Fainelli 50f6f9be1cSFlorian Fainelli static void __iomem *b15_rac_base; 51f6f9be1cSFlorian Fainelli static DEFINE_SPINLOCK(rac_lock); 5255de8877SFlorian Fainelli static u32 rac_config0_reg; 53f6f9be1cSFlorian Fainelli 54f6f9be1cSFlorian Fainelli /* Initialization flag to avoid checking for b15_rac_base, and to prevent 55f6f9be1cSFlorian Fainelli * multi-platform kernels from crashing here as well. 56f6f9be1cSFlorian Fainelli */ 57f6f9be1cSFlorian Fainelli static unsigned long b15_rac_flags; 58f6f9be1cSFlorian Fainelli 59f6f9be1cSFlorian Fainelli static inline u32 __b15_rac_disable(void) 60f6f9be1cSFlorian Fainelli { 61f6f9be1cSFlorian Fainelli u32 val = __raw_readl(b15_rac_base + RAC_CONFIG0_REG); 62f6f9be1cSFlorian Fainelli __raw_writel(0, b15_rac_base + RAC_CONFIG0_REG); 63f6f9be1cSFlorian Fainelli dmb(); 64f6f9be1cSFlorian Fainelli return val; 65f6f9be1cSFlorian Fainelli } 66f6f9be1cSFlorian Fainelli 67f6f9be1cSFlorian Fainelli static inline void __b15_rac_flush(void) 68f6f9be1cSFlorian Fainelli { 69f6f9be1cSFlorian Fainelli u32 reg; 70f6f9be1cSFlorian Fainelli 71f6f9be1cSFlorian Fainelli __raw_writel(FLUSH_RAC, b15_rac_base + RAC_FLUSH_REG); 72f6f9be1cSFlorian Fainelli do { 73f6f9be1cSFlorian Fainelli /* This dmb() is required to force the Bus Interface Unit 74f6f9be1cSFlorian Fainelli * to clean oustanding writes, and forces an idle cycle 75f6f9be1cSFlorian Fainelli * to be inserted. 76f6f9be1cSFlorian Fainelli */ 77f6f9be1cSFlorian Fainelli dmb(); 78f6f9be1cSFlorian Fainelli reg = __raw_readl(b15_rac_base + RAC_FLUSH_REG); 79f6f9be1cSFlorian Fainelli } while (reg & FLUSH_RAC); 80f6f9be1cSFlorian Fainelli } 81f6f9be1cSFlorian Fainelli 82f6f9be1cSFlorian Fainelli static inline u32 b15_rac_disable_and_flush(void) 83f6f9be1cSFlorian Fainelli { 84f6f9be1cSFlorian Fainelli u32 reg; 85f6f9be1cSFlorian Fainelli 86f6f9be1cSFlorian Fainelli reg = __b15_rac_disable(); 87f6f9be1cSFlorian Fainelli __b15_rac_flush(); 88f6f9be1cSFlorian Fainelli return reg; 89f6f9be1cSFlorian Fainelli } 90f6f9be1cSFlorian Fainelli 91f6f9be1cSFlorian Fainelli static inline void __b15_rac_enable(u32 val) 92f6f9be1cSFlorian Fainelli { 93f6f9be1cSFlorian Fainelli __raw_writel(val, b15_rac_base + RAC_CONFIG0_REG); 94f6f9be1cSFlorian Fainelli /* dsb() is required here to be consistent with __flush_icache_all() */ 95f6f9be1cSFlorian Fainelli dsb(); 96f6f9be1cSFlorian Fainelli } 97f6f9be1cSFlorian Fainelli 98f6f9be1cSFlorian Fainelli #define BUILD_RAC_CACHE_OP(name, bar) \ 99f6f9be1cSFlorian Fainelli void b15_flush_##name(void) \ 100f6f9be1cSFlorian Fainelli { \ 101f6f9be1cSFlorian Fainelli unsigned int do_flush; \ 102f6f9be1cSFlorian Fainelli u32 val = 0; \ 103f6f9be1cSFlorian Fainelli \ 104534f5f36SFlorian Fainelli if (test_bit(RAC_SUSPENDED, &b15_rac_flags)) { \ 105534f5f36SFlorian Fainelli v7_flush_##name(); \ 106534f5f36SFlorian Fainelli bar; \ 107534f5f36SFlorian Fainelli return; \ 108534f5f36SFlorian Fainelli } \ 109534f5f36SFlorian Fainelli \ 110f6f9be1cSFlorian Fainelli spin_lock(&rac_lock); \ 111f6f9be1cSFlorian Fainelli do_flush = test_bit(RAC_ENABLED, &b15_rac_flags); \ 112f6f9be1cSFlorian Fainelli if (do_flush) \ 113f6f9be1cSFlorian Fainelli val = b15_rac_disable_and_flush(); \ 114f6f9be1cSFlorian Fainelli v7_flush_##name(); \ 115f6f9be1cSFlorian Fainelli if (!do_flush) \ 116f6f9be1cSFlorian Fainelli bar; \ 117f6f9be1cSFlorian Fainelli else \ 118f6f9be1cSFlorian Fainelli __b15_rac_enable(val); \ 119f6f9be1cSFlorian Fainelli spin_unlock(&rac_lock); \ 120f6f9be1cSFlorian Fainelli } 121f6f9be1cSFlorian Fainelli 122f6f9be1cSFlorian Fainelli #define nobarrier 123f6f9be1cSFlorian Fainelli 124f6f9be1cSFlorian Fainelli /* The readahead cache present in the Brahma-B15 CPU is a special piece of 125f6f9be1cSFlorian Fainelli * hardware after the integrated L2 cache of the B15 CPU complex whose purpose 126f6f9be1cSFlorian Fainelli * is to prefetch instruction and/or data with a line size of either 64 bytes 127f6f9be1cSFlorian Fainelli * or 256 bytes. The rationale is that the data-bus of the CPU interface is 128f6f9be1cSFlorian Fainelli * optimized for 256-bytes transactions, and enabling the readahead cache 129f6f9be1cSFlorian Fainelli * provides a significant performance boost we want it enabled (typically 130f6f9be1cSFlorian Fainelli * twice the performance for a memcpy benchmark application). 131f6f9be1cSFlorian Fainelli * 132f6f9be1cSFlorian Fainelli * The readahead cache is transparent for Modified Virtual Addresses 133f6f9be1cSFlorian Fainelli * cache maintenance operations: ICIMVAU, DCIMVAC, DCCMVAC, DCCMVAU and 134f6f9be1cSFlorian Fainelli * DCCIMVAC. 135f6f9be1cSFlorian Fainelli * 136f6f9be1cSFlorian Fainelli * It is however not transparent for the following cache maintenance 137f6f9be1cSFlorian Fainelli * operations: DCISW, DCCSW, DCCISW, ICIALLUIS and ICIALLU which is precisely 138f6f9be1cSFlorian Fainelli * what we are patching here with our BUILD_RAC_CACHE_OP here. 139f6f9be1cSFlorian Fainelli */ 140f6f9be1cSFlorian Fainelli BUILD_RAC_CACHE_OP(kern_cache_all, nobarrier); 141f6f9be1cSFlorian Fainelli 142f6f9be1cSFlorian Fainelli static void b15_rac_enable(void) 143f6f9be1cSFlorian Fainelli { 144f6f9be1cSFlorian Fainelli unsigned int cpu; 145f6f9be1cSFlorian Fainelli u32 enable = 0; 146f6f9be1cSFlorian Fainelli 147f6f9be1cSFlorian Fainelli for_each_possible_cpu(cpu) 148f6f9be1cSFlorian Fainelli enable |= (RAC_DATA_INST_EN_MASK << (cpu * RAC_CPU_SHIFT)); 149f6f9be1cSFlorian Fainelli 150f6f9be1cSFlorian Fainelli b15_rac_disable_and_flush(); 151f6f9be1cSFlorian Fainelli __b15_rac_enable(enable); 152f6f9be1cSFlorian Fainelli } 153f6f9be1cSFlorian Fainelli 15455de8877SFlorian Fainelli #ifdef CONFIG_HOTPLUG_CPU 15555de8877SFlorian Fainelli /* The CPU hotplug case is the most interesting one, we basically need to make 15655de8877SFlorian Fainelli * sure that the RAC is disabled for the entire system prior to having a CPU 15755de8877SFlorian Fainelli * die, in particular prior to this dying CPU having exited the coherency 15855de8877SFlorian Fainelli * domain. 15955de8877SFlorian Fainelli * 16055de8877SFlorian Fainelli * Once this CPU is marked dead, we can safely re-enable the RAC for the 16155de8877SFlorian Fainelli * remaining CPUs in the system which are still online. 16255de8877SFlorian Fainelli * 16355de8877SFlorian Fainelli * Offlining a CPU is the problematic case, onlining a CPU is not much of an 16455de8877SFlorian Fainelli * issue since the CPU and its cache-level hierarchy will start filling with 16555de8877SFlorian Fainelli * the RAC disabled, so L1 and L2 only. 16655de8877SFlorian Fainelli * 16755de8877SFlorian Fainelli * In this function, we should NOT have to verify any unsafe setting/condition 16855de8877SFlorian Fainelli * b15_rac_base: 16955de8877SFlorian Fainelli * 17055de8877SFlorian Fainelli * It is protected by the RAC_ENABLED flag which is cleared by default, and 17155de8877SFlorian Fainelli * being cleared when initial procedure is done. b15_rac_base had been set at 17255de8877SFlorian Fainelli * that time. 17355de8877SFlorian Fainelli * 17455de8877SFlorian Fainelli * RAC_ENABLED: 17555de8877SFlorian Fainelli * There is a small timing windows, in b15_rac_init(), between 17655de8877SFlorian Fainelli * cpuhp_setup_state_*() 17755de8877SFlorian Fainelli * ... 17855de8877SFlorian Fainelli * set RAC_ENABLED 17955de8877SFlorian Fainelli * However, there is no hotplug activity based on the Linux booting procedure. 18055de8877SFlorian Fainelli * 18155de8877SFlorian Fainelli * Since we have to disable RAC for all cores, we keep RAC on as long as as 18255de8877SFlorian Fainelli * possible (disable it as late as possible) to gain the cache benefit. 18355de8877SFlorian Fainelli * 18455de8877SFlorian Fainelli * Thus, dying/dead states are chosen here 18555de8877SFlorian Fainelli * 18655de8877SFlorian Fainelli * We are choosing not do disable the RAC on a per-CPU basis, here, if we did 18755de8877SFlorian Fainelli * we would want to consider disabling it as early as possible to benefit the 18855de8877SFlorian Fainelli * other active CPUs. 18955de8877SFlorian Fainelli */ 19055de8877SFlorian Fainelli 19155de8877SFlorian Fainelli /* Running on the dying CPU */ 19255de8877SFlorian Fainelli static int b15_rac_dying_cpu(unsigned int cpu) 19355de8877SFlorian Fainelli { 19455de8877SFlorian Fainelli spin_lock(&rac_lock); 19555de8877SFlorian Fainelli 19655de8877SFlorian Fainelli /* Indicate that we are starting a hotplug procedure */ 19755de8877SFlorian Fainelli __clear_bit(RAC_ENABLED, &b15_rac_flags); 19855de8877SFlorian Fainelli 19955de8877SFlorian Fainelli /* Disable the readahead cache and save its value to a global */ 20055de8877SFlorian Fainelli rac_config0_reg = b15_rac_disable_and_flush(); 20155de8877SFlorian Fainelli 20255de8877SFlorian Fainelli spin_unlock(&rac_lock); 20355de8877SFlorian Fainelli 20455de8877SFlorian Fainelli return 0; 20555de8877SFlorian Fainelli } 20655de8877SFlorian Fainelli 20755de8877SFlorian Fainelli /* Running on a non-dying CPU */ 20855de8877SFlorian Fainelli static int b15_rac_dead_cpu(unsigned int cpu) 20955de8877SFlorian Fainelli { 21055de8877SFlorian Fainelli spin_lock(&rac_lock); 21155de8877SFlorian Fainelli 21255de8877SFlorian Fainelli /* And enable it */ 21355de8877SFlorian Fainelli __b15_rac_enable(rac_config0_reg); 21455de8877SFlorian Fainelli __set_bit(RAC_ENABLED, &b15_rac_flags); 21555de8877SFlorian Fainelli 21655de8877SFlorian Fainelli spin_unlock(&rac_lock); 21755de8877SFlorian Fainelli 21855de8877SFlorian Fainelli return 0; 21955de8877SFlorian Fainelli } 22055de8877SFlorian Fainelli #endif /* CONFIG_HOTPLUG_CPU */ 22155de8877SFlorian Fainelli 222534f5f36SFlorian Fainelli #ifdef CONFIG_PM_SLEEP 223534f5f36SFlorian Fainelli static int b15_rac_suspend(void) 224534f5f36SFlorian Fainelli { 225534f5f36SFlorian Fainelli /* Suspend the read-ahead cache oeprations, forcing our cache 226534f5f36SFlorian Fainelli * implementation to fallback to the regular ARMv7 calls. 227534f5f36SFlorian Fainelli * 228534f5f36SFlorian Fainelli * We are guaranteed to be running on the boot CPU at this point and 229534f5f36SFlorian Fainelli * with every other CPU quiesced, so setting RAC_SUSPENDED is not racy 230534f5f36SFlorian Fainelli * here. 231534f5f36SFlorian Fainelli */ 232534f5f36SFlorian Fainelli rac_config0_reg = b15_rac_disable_and_flush(); 233534f5f36SFlorian Fainelli set_bit(RAC_SUSPENDED, &b15_rac_flags); 234534f5f36SFlorian Fainelli 235534f5f36SFlorian Fainelli return 0; 236534f5f36SFlorian Fainelli } 237534f5f36SFlorian Fainelli 238534f5f36SFlorian Fainelli static void b15_rac_resume(void) 239534f5f36SFlorian Fainelli { 240534f5f36SFlorian Fainelli /* Coming out of a S3 suspend/resume cycle, the read-ahead cache 241534f5f36SFlorian Fainelli * register RAC_CONFIG0_REG will be restored to its default value, make 242534f5f36SFlorian Fainelli * sure we re-enable it and set the enable flag, we are also guaranteed 243534f5f36SFlorian Fainelli * to run on the boot CPU, so not racy again. 244534f5f36SFlorian Fainelli */ 245534f5f36SFlorian Fainelli __b15_rac_enable(rac_config0_reg); 246534f5f36SFlorian Fainelli clear_bit(RAC_SUSPENDED, &b15_rac_flags); 247534f5f36SFlorian Fainelli } 248534f5f36SFlorian Fainelli 249534f5f36SFlorian Fainelli static struct syscore_ops b15_rac_syscore_ops = { 250534f5f36SFlorian Fainelli .suspend = b15_rac_suspend, 251534f5f36SFlorian Fainelli .resume = b15_rac_resume, 252534f5f36SFlorian Fainelli }; 253534f5f36SFlorian Fainelli #endif 254534f5f36SFlorian Fainelli 255f6f9be1cSFlorian Fainelli static int __init b15_rac_init(void) 256f6f9be1cSFlorian Fainelli { 257f6f9be1cSFlorian Fainelli struct device_node *dn; 258f6f9be1cSFlorian Fainelli int ret = 0, cpu; 259f6f9be1cSFlorian Fainelli u32 reg, en_mask = 0; 260f6f9be1cSFlorian Fainelli 261f6f9be1cSFlorian Fainelli dn = of_find_compatible_node(NULL, NULL, "brcm,brcmstb-cpu-biu-ctrl"); 262f6f9be1cSFlorian Fainelli if (!dn) 263f6f9be1cSFlorian Fainelli return -ENODEV; 264f6f9be1cSFlorian Fainelli 265f6f9be1cSFlorian Fainelli if (WARN(num_possible_cpus() > 4, "RAC only supports 4 CPUs\n")) 266f6f9be1cSFlorian Fainelli goto out; 267f6f9be1cSFlorian Fainelli 268f6f9be1cSFlorian Fainelli b15_rac_base = of_iomap(dn, 0); 269f6f9be1cSFlorian Fainelli if (!b15_rac_base) { 270f6f9be1cSFlorian Fainelli pr_err("failed to remap BIU control base\n"); 271f6f9be1cSFlorian Fainelli ret = -ENOMEM; 272f6f9be1cSFlorian Fainelli goto out; 273f6f9be1cSFlorian Fainelli } 274f6f9be1cSFlorian Fainelli 27555de8877SFlorian Fainelli #ifdef CONFIG_HOTPLUG_CPU 27655de8877SFlorian Fainelli ret = cpuhp_setup_state_nocalls(CPUHP_AP_ARM_CACHE_B15_RAC_DEAD, 27755de8877SFlorian Fainelli "arm/cache-b15-rac:dead", 27855de8877SFlorian Fainelli NULL, b15_rac_dead_cpu); 27955de8877SFlorian Fainelli if (ret) 28055de8877SFlorian Fainelli goto out_unmap; 28155de8877SFlorian Fainelli 28255de8877SFlorian Fainelli ret = cpuhp_setup_state_nocalls(CPUHP_AP_ARM_CACHE_B15_RAC_DYING, 28355de8877SFlorian Fainelli "arm/cache-b15-rac:dying", 28455de8877SFlorian Fainelli NULL, b15_rac_dying_cpu); 28555de8877SFlorian Fainelli if (ret) 28655de8877SFlorian Fainelli goto out_cpu_dead; 28755de8877SFlorian Fainelli #endif 28855de8877SFlorian Fainelli 289534f5f36SFlorian Fainelli #ifdef CONFIG_PM_SLEEP 290534f5f36SFlorian Fainelli register_syscore_ops(&b15_rac_syscore_ops); 291534f5f36SFlorian Fainelli #endif 292534f5f36SFlorian Fainelli 293f6f9be1cSFlorian Fainelli spin_lock(&rac_lock); 294f6f9be1cSFlorian Fainelli reg = __raw_readl(b15_rac_base + RAC_CONFIG0_REG); 295f6f9be1cSFlorian Fainelli for_each_possible_cpu(cpu) 296f6f9be1cSFlorian Fainelli en_mask |= ((1 << RACPREFDATA_SHIFT) << (cpu * RAC_CPU_SHIFT)); 297f6f9be1cSFlorian Fainelli WARN(reg & en_mask, "Read-ahead cache not previously disabled\n"); 298f6f9be1cSFlorian Fainelli 299f6f9be1cSFlorian Fainelli b15_rac_enable(); 300f6f9be1cSFlorian Fainelli set_bit(RAC_ENABLED, &b15_rac_flags); 301f6f9be1cSFlorian Fainelli spin_unlock(&rac_lock); 302f6f9be1cSFlorian Fainelli 303f6f9be1cSFlorian Fainelli pr_info("Broadcom Brahma-B15 readahead cache at: 0x%p\n", 304f6f9be1cSFlorian Fainelli b15_rac_base + RAC_CONFIG0_REG); 305f6f9be1cSFlorian Fainelli 30655de8877SFlorian Fainelli goto out; 30755de8877SFlorian Fainelli 30855de8877SFlorian Fainelli out_cpu_dead: 30955de8877SFlorian Fainelli cpuhp_remove_state_nocalls(CPUHP_AP_ARM_CACHE_B15_RAC_DYING); 31055de8877SFlorian Fainelli out_unmap: 31155de8877SFlorian Fainelli iounmap(b15_rac_base); 312f6f9be1cSFlorian Fainelli out: 313f6f9be1cSFlorian Fainelli of_node_put(dn); 314f6f9be1cSFlorian Fainelli return ret; 315f6f9be1cSFlorian Fainelli } 316f6f9be1cSFlorian Fainelli arch_initcall(b15_rac_init); 317