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Subject[PATCH] soc: bcm: brcmstb: biuctrl: Enable Read-ahead cache
Date
Brahma-B53 and Cortex-A72 CPUs integrated on Broadcom STB SoCs feature a
read-ahead cache that performs cache line size adaptation between the
bus interface unit and the memory controller.

On 32-bit ARM kernels we have to resort to a full featured read-ahead
cache driver under arch/arm/mm/cache-b15-rac.c (CONFIG_CACHE_B15_RAC)
because there are still cache maintenance operations by set/ways/index
that cannot be transparently handled by the ARM Coherency Extension that
the read-ahead cache interfaces to.

The 64-bit ARM kernel however has long deprecated all of those, so this
is simply a one time configuration.

Signed-off-by: Florian Fainelli <f.fainelli@gmail.com>
---
drivers/soc/bcm/brcmstb/biuctrl.c | 87 +++++++++++++++++++++++++++----
1 file changed, 77 insertions(+), 10 deletions(-)

diff --git a/drivers/soc/bcm/brcmstb/biuctrl.c b/drivers/soc/bcm/brcmstb/biuctrl.c
index 61731e01f94b..95602ece51d4 100644
--- a/drivers/soc/bcm/brcmstb/biuctrl.c
+++ b/drivers/soc/bcm/brcmstb/biuctrl.c
@@ -13,6 +13,20 @@
#include <linux/syscore_ops.h>
#include <linux/soc/brcmstb/brcmstb.h>

+#define RACENPREF_MASK 0x3
+#define RACPREFINST_SHIFT 0
+#define RACENINST_SHIFT 2
+#define RACPREFDATA_SHIFT 4
+#define RACENDATA_SHIFT 6
+#define RAC_CPU_SHIFT 8
+#define RACCFG_MASK 0xff
+
+/* Bitmask to enable instruction and data prefetching with a 256-bytes stride */
+#define RAC_DATA_INST_EN_MASK (1 << RACPREFINST_SHIFT | \
+ RACENPREF_MASK << RACENINST_SHIFT | \
+ 1 << RACPREFDATA_SHIFT | \
+ RACENPREF_MASK << RACENDATA_SHIFT)
+
#define CPU_CREDIT_REG_MCPx_WR_PAIRING_EN_MASK 0x70000000
#define CPU_CREDIT_REG_MCPx_READ_CRED_MASK 0xf
#define CPU_CREDIT_REG_MCPx_WRITE_CRED_MASK 0xf
@@ -31,11 +45,20 @@ static void __iomem *cpubiuctrl_base;
static bool mcp_wr_pairing_en;
static const int *cpubiuctrl_regs;

+enum cpubiuctrl_regs {
+ CPU_CREDIT_REG = 0,
+ CPU_MCP_FLOW_REG,
+ CPU_WRITEBACK_CTRL_REG,
+ RAC_CONFIG0_REG,
+ NUM_CPU_BIUCTRL_REGS,
+};
+
static inline u32 cbc_readl(int reg)
{
int offset = cpubiuctrl_regs[reg];

- if (offset == -1)
+ if (offset == -1 ||
+ (IS_ENABLED(CONFIG_CACHE_B15_RAC) && reg == RAC_CONFIG0_REG))
return (u32)-1;

return readl_relaxed(cpubiuctrl_base + offset);
@@ -45,22 +68,18 @@ static inline void cbc_writel(u32 val, int reg)
{
int offset = cpubiuctrl_regs[reg];

- if (offset == -1)
+ if (offset == -1 ||
+ (IS_ENABLED(CONFIG_CACHE_B15_RAC) && reg == RAC_CONFIG0_REG))
return;

writel(val, cpubiuctrl_base + offset);
}

-enum cpubiuctrl_regs {
- CPU_CREDIT_REG = 0,
- CPU_MCP_FLOW_REG,
- CPU_WRITEBACK_CTRL_REG
-};
-
static const int b15_cpubiuctrl_regs[] = {
[CPU_CREDIT_REG] = 0x184,
[CPU_MCP_FLOW_REG] = -1,
[CPU_WRITEBACK_CTRL_REG] = -1,
+ [RAC_CONFIG0_REG] = -1,
};

/* Odd cases, e.g: 7260A0 */
@@ -68,22 +87,23 @@ static const int b53_cpubiuctrl_no_wb_regs[] = {
[CPU_CREDIT_REG] = 0x0b0,
[CPU_MCP_FLOW_REG] = 0x0b4,
[CPU_WRITEBACK_CTRL_REG] = -1,
+ [RAC_CONFIG0_REG] = 0x78,
};

static const int b53_cpubiuctrl_regs[] = {
[CPU_CREDIT_REG] = 0x0b0,
[CPU_MCP_FLOW_REG] = 0x0b4,
[CPU_WRITEBACK_CTRL_REG] = 0x22c,
+ [RAC_CONFIG0_REG] = 0x78,
};

static const int a72_cpubiuctrl_regs[] = {
[CPU_CREDIT_REG] = 0x18,
[CPU_MCP_FLOW_REG] = 0x1c,
[CPU_WRITEBACK_CTRL_REG] = 0x20,
+ [RAC_CONFIG0_REG] = 0x08,
};

-#define NUM_CPU_BIUCTRL_REGS 3
-
static int __init mcp_write_pairing_set(void)
{
u32 creds = 0;
@@ -117,6 +137,52 @@ static const u32 a72_b53_mach_compat[] = {
0x7278,
};

+/* The read-ahead cache present in the Brahma-B53 CPU is a special piece of
+ * hardware after the integrated L2 cache of the B53 CPU complex whose purpose
+ * is to prefetch instruction and/or data with a line size of either 64 bytes
+ * or 256 bytes. The rationale is that the data-bus of the CPU interface is
+ * optimized for 256-byte transactions, and enabling the read-ahead cache
+ * provides a significant performance boost (typically twice the performance
+ * for a memcpy benchmark application).
+ *
+ * The read-ahead cache is transparent for Virtual Address cache maintenance
+ * operations: IC IVAU, DC IVAC, DC CVAC, DC CVAU and DC CIVAC. So no special
+ * handling is needed for the DMA API above and beyond what is included in the
+ * arm64 implementation.
+ *
+ * In addition, since the Point of Unification is typically between L1 and L2
+ * for the Brahma-B53 processor no special read-ahead cache handling is needed
+ * for the IC IALLU and IC IALLUIS cache maintenance operations.
+ *
+ * However, it is not possible to specify the cache level (L3) for the cache
+ * maintenance instructions operating by set/way to operate on the read-ahead
+ * cache. The read-ahead cache will maintain coherency when inner cache lines
+ * are cleaned by set/way, but if it is necessary to invalidate inner cache
+ * lines by set/way to maintain coherency with system masters operating on
+ * shared memory that does not have hardware support for coherency, then it
+ * will also be necessary to explicitly invalidate the read-ahead cache.
+ */
+static void __init a72_b53_rac_enable_all(struct device_node *np)
+{
+ unsigned int cpu;
+ u32 enable = 0;
+
+ if (IS_ENABLED(CONFIG_CACHE_B15_RAC))
+ return;
+
+ if (WARN(num_possible_cpus() > 4, "RAC only supports 4 CPUs\n"))
+ return;
+
+ for_each_possible_cpu(cpu)
+ enable |= RAC_DATA_INST_EN_MASK << (cpu * RAC_CPU_SHIFT);
+
+ cbc_writel(enable, RAC_CONFIG0_REG);
+
+ pr_info("%pOF: Broadcom %s read-ahead cache\n",
+ np, cpubiuctrl_regs == a72_cpubiuctrl_regs ?
+ "Cortex-A72" : "Brahma-B53");
+}
+
static void __init mcp_a72_b53_set(void)
{
unsigned int i;
@@ -262,6 +328,7 @@ static int __init brcmstb_biuctrl_init(void)
return ret;
}

+ a72_b53_rac_enable_all(np);
mcp_a72_b53_set();
#ifdef CONFIG_PM_SLEEP
register_syscore_ops(&brcmstb_cpu_credit_syscore_ops);
--
2.17.1
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