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author | Mylène Josserand <mylene.josserand@bootlin.com> | 2018-05-04 21:05:43 +0200 |
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committer | Maxime Ripard <maxime.ripard@bootlin.com> | 2018-05-08 15:00:20 +0200 |
commit | 6961275e72a8c15cc4ebf108a81eee758480a6a2 (patch) | |
tree | 4d6505f5cd3405bbb81ba44106fdb82d232aa3e3 /arch/arm/mach-sunxi/mc_smp.c | |
parent | ARM: sun9i: smp: Add is_a83t field (diff) | |
download | linux-6961275e72a8c15cc4ebf108a81eee758480a6a2.tar.xz linux-6961275e72a8c15cc4ebf108a81eee758480a6a2.zip |
ARM: sun8i: smp: Add support for A83T
Add the support for A83T.
A83T SoC has an additional register than A80 to handle CPU configurations:
R_CPUS_CFG. Information about the register comes from Allwinner's BSP
driver.
An important difference is the Power Off Gating register for clusters
which is BIT(4) in case of SUN9I-A80 and BIT(0) in case of SUN8I-A83T.
There is also a bit swap between sun8i-a83t and sun9i-a80 that must be
handled.
Signed-off-by: Mylène Josserand <mylene.josserand@bootlin.com>
Acked-by: Maxime Ripard <maxime.ripard@bootlin.com>
Signed-off-by: Maxime Ripard <maxime.ripard@bootlin.com>
Diffstat (limited to 'arch/arm/mach-sunxi/mc_smp.c')
-rw-r--r-- | arch/arm/mach-sunxi/mc_smp.c | 151 |
1 files changed, 136 insertions, 15 deletions
diff --git a/arch/arm/mach-sunxi/mc_smp.c b/arch/arm/mach-sunxi/mc_smp.c index fc10e3a3268f..b4037b603897 100644 --- a/arch/arm/mach-sunxi/mc_smp.c +++ b/arch/arm/mach-sunxi/mc_smp.c @@ -55,22 +55,31 @@ #define CPUCFG_CX_RST_CTRL_L2_RST BIT(8) #define CPUCFG_CX_RST_CTRL_CX_RST(n) BIT(4 + (n)) #define CPUCFG_CX_RST_CTRL_CORE_RST(n) BIT(n) +#define CPUCFG_CX_RST_CTRL_CORE_RST_ALL (0xf << 0) #define PRCM_CPU_PO_RST_CTRL(c) (0x4 + 0x4 * (c)) #define PRCM_CPU_PO_RST_CTRL_CORE(n) BIT(n) #define PRCM_CPU_PO_RST_CTRL_CORE_ALL 0xf #define PRCM_PWROFF_GATING_REG(c) (0x100 + 0x4 * (c)) +/* The power off register for clusters are different from a80 and a83t */ +#define PRCM_PWROFF_GATING_REG_CLUSTER_SUN8I BIT(0) #define PRCM_PWROFF_GATING_REG_CLUSTER_SUN9I BIT(4) #define PRCM_PWROFF_GATING_REG_CORE(n) BIT(n) #define PRCM_PWR_SWITCH_REG(c, cpu) (0x140 + 0x10 * (c) + 0x4 * (cpu)) #define PRCM_CPU_SOFT_ENTRY_REG 0x164 +/* R_CPUCFG registers, specific to sun8i-a83t */ +#define R_CPUCFG_CLUSTER_PO_RST_CTRL(c) (0x30 + (c) * 0x4) +#define R_CPUCFG_CLUSTER_PO_RST_CTRL_CORE(n) BIT(n) +#define R_CPUCFG_CPU_SOFT_ENTRY_REG 0x01a4 + #define CPU0_SUPPORT_HOTPLUG_MAGIC0 0xFA50392F #define CPU0_SUPPORT_HOTPLUG_MAGIC1 0x790DCA3A static void __iomem *cpucfg_base; static void __iomem *prcm_base; static void __iomem *sram_b_smp_base; +static void __iomem *r_cpucfg_base; extern void sunxi_mc_smp_secondary_startup(void); extern void sunxi_mc_smp_resume(void); @@ -161,6 +170,16 @@ static int sunxi_cpu_powerup(unsigned int cpu, unsigned int cluster) reg &= ~PRCM_CPU_PO_RST_CTRL_CORE(cpu); writel(reg, prcm_base + PRCM_CPU_PO_RST_CTRL(cluster)); + if (is_a83t) { + /* assert cpu power-on reset */ + reg = readl(r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + reg &= ~(R_CPUCFG_CLUSTER_PO_RST_CTRL_CORE(cpu)); + writel(reg, r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + udelay(10); + } + /* Cortex-A7: hold L1 reset disable signal low */ if (!sunxi_core_is_cortex_a15(cpu, cluster)) { reg = readl(cpucfg_base + CPUCFG_CX_CTRL_REG0(cluster)); @@ -184,17 +203,38 @@ static int sunxi_cpu_powerup(unsigned int cpu, unsigned int cluster) /* open power switch */ sunxi_cpu_power_switch_set(cpu, cluster, true); + /* Handle A83T bit swap */ + if (is_a83t) { + if (cpu == 0) + cpu = 4; + } + /* clear processor power gate */ reg = readl(prcm_base + PRCM_PWROFF_GATING_REG(cluster)); reg &= ~PRCM_PWROFF_GATING_REG_CORE(cpu); writel(reg, prcm_base + PRCM_PWROFF_GATING_REG(cluster)); udelay(20); + /* Handle A83T bit swap */ + if (is_a83t) { + if (cpu == 4) + cpu = 0; + } + /* de-assert processor power-on reset */ reg = readl(prcm_base + PRCM_CPU_PO_RST_CTRL(cluster)); reg |= PRCM_CPU_PO_RST_CTRL_CORE(cpu); writel(reg, prcm_base + PRCM_CPU_PO_RST_CTRL(cluster)); + if (is_a83t) { + reg = readl(r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + reg |= R_CPUCFG_CLUSTER_PO_RST_CTRL_CORE(cpu); + writel(reg, r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + udelay(10); + } + /* de-assert all processor resets */ reg = readl(cpucfg_base + CPUCFG_CX_RST_CTRL(cluster)); reg |= CPUCFG_CX_RST_CTRL_DBG_RST(cpu); @@ -216,6 +256,14 @@ static int sunxi_cluster_powerup(unsigned int cluster) if (cluster >= SUNXI_NR_CLUSTERS) return -EINVAL; + /* For A83T, assert cluster cores resets */ + if (is_a83t) { + reg = readl(cpucfg_base + CPUCFG_CX_RST_CTRL(cluster)); + reg &= ~CPUCFG_CX_RST_CTRL_CORE_RST_ALL; /* Core Reset */ + writel(reg, cpucfg_base + CPUCFG_CX_RST_CTRL(cluster)); + udelay(10); + } + /* assert ACINACTM */ reg = readl(cpucfg_base + CPUCFG_CX_CTRL_REG1(cluster)); reg |= CPUCFG_CX_CTRL_REG1_ACINACTM; @@ -226,6 +274,16 @@ static int sunxi_cluster_powerup(unsigned int cluster) reg &= ~PRCM_CPU_PO_RST_CTRL_CORE_ALL; writel(reg, prcm_base + PRCM_CPU_PO_RST_CTRL(cluster)); + /* assert cluster cores resets */ + if (is_a83t) { + reg = readl(r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + reg &= ~CPUCFG_CX_RST_CTRL_CORE_RST_ALL; + writel(reg, r_cpucfg_base + + R_CPUCFG_CLUSTER_PO_RST_CTRL(cluster)); + udelay(10); + } + /* assert cluster resets */ reg = readl(cpucfg_base + CPUCFG_CX_RST_CTRL(cluster)); reg &= ~CPUCFG_CX_RST_CTRL_DBG_SOC_RST; @@ -256,7 +314,10 @@ static int sunxi_cluster_powerup(unsigned int cluster) /* clear cluster power gate */ reg = readl(prcm_base + PRCM_PWROFF_GATING_REG(cluster)); - reg &= ~PRCM_PWROFF_GATING_REG_CLUSTER_SUN9I; + if (is_a83t) + reg &= ~PRCM_PWROFF_GATING_REG_CLUSTER_SUN8I; + else + reg &= ~PRCM_PWROFF_GATING_REG_CLUSTER_SUN9I; writel(reg, prcm_base + PRCM_PWROFF_GATING_REG(cluster)); udelay(20); @@ -453,7 +514,10 @@ static int sunxi_cluster_powerdown(unsigned int cluster) /* gate cluster power */ pr_debug("%s: gate cluster power\n", __func__); reg = readl(prcm_base + PRCM_PWROFF_GATING_REG(cluster)); - reg |= PRCM_PWROFF_GATING_REG_CLUSTER_SUN9I; + if (is_a83t) + reg |= PRCM_PWROFF_GATING_REG_CLUSTER_SUN8I; + else + reg |= PRCM_PWROFF_GATING_REG_CLUSTER_SUN9I; writel(reg, prcm_base + PRCM_PWROFF_GATING_REG(cluster)); udelay(20); @@ -535,8 +599,12 @@ out: return !ret; } -static bool sunxi_mc_smp_cpu_can_disable(unsigned int __unused) +static bool sunxi_mc_smp_cpu_can_disable(unsigned int cpu) { + /* CPU0 hotplug not handled for sun8i-a83t */ + if (is_a83t) + if (cpu == 0) + return false; return true; } #endif @@ -619,6 +687,7 @@ struct sunxi_mc_smp_nodes { struct device_node *prcm_node; struct device_node *cpucfg_node; struct device_node *sram_node; + struct device_node *r_cpucfg_node; }; /* This structure holds SoC-specific bits tied to an enable-method string. */ @@ -633,6 +702,7 @@ static void __init sunxi_mc_smp_put_nodes(struct sunxi_mc_smp_nodes *nodes) of_node_put(nodes->prcm_node); of_node_put(nodes->cpucfg_node); of_node_put(nodes->sram_node); + of_node_put(nodes->r_cpucfg_node); memset(nodes, 0, sizeof(*nodes)); } @@ -662,11 +732,42 @@ static int __init sun9i_a80_get_smp_nodes(struct sunxi_mc_smp_nodes *nodes) return 0; } +static int __init sun8i_a83t_get_smp_nodes(struct sunxi_mc_smp_nodes *nodes) +{ + nodes->prcm_node = of_find_compatible_node(NULL, NULL, + "allwinner,sun8i-a83t-r-ccu"); + if (!nodes->prcm_node) { + pr_err("%s: PRCM not available\n", __func__); + return -ENODEV; + } + + nodes->cpucfg_node = of_find_compatible_node(NULL, NULL, + "allwinner,sun8i-a83t-cpucfg"); + if (!nodes->cpucfg_node) { + pr_err("%s: CPUCFG not available\n", __func__); + return -ENODEV; + } + + nodes->r_cpucfg_node = of_find_compatible_node(NULL, NULL, + "allwinner,sun8i-a83t-r-cpucfg"); + if (!nodes->r_cpucfg_node) { + pr_err("%s: RCPUCFG not available\n", __func__); + return -ENODEV; + } + + return 0; +} + static const struct sunxi_mc_smp_data sunxi_mc_smp_data[] __initconst = { { .enable_method = "allwinner,sun9i-a80-smp", .get_smp_nodes = sun9i_a80_get_smp_nodes, }, + { + .enable_method = "allwinner,sun8i-a83t-smp", + .get_smp_nodes = sun8i_a83t_get_smp_nodes, + .is_a83t = true, + }, }; static int __init sunxi_mc_smp_init(void) @@ -674,6 +775,7 @@ static int __init sunxi_mc_smp_init(void) struct sunxi_mc_smp_nodes nodes = { 0 }; struct device_node *node; struct resource res; + void __iomem *addr; int i, ret; /* @@ -738,12 +840,23 @@ static int __init sunxi_mc_smp_init(void) goto err_unmap_prcm; } - sram_b_smp_base = of_io_request_and_map(nodes.sram_node, 0, - "sunxi-mc-smp"); - if (IS_ERR(sram_b_smp_base)) { - ret = PTR_ERR(sram_b_smp_base); - pr_err("%s: failed to map secure SRAM\n", __func__); - goto err_unmap_release_cpucfg; + if (is_a83t) { + r_cpucfg_base = of_io_request_and_map(nodes.r_cpucfg_node, + 0, "sunxi-mc-smp"); + if (IS_ERR(r_cpucfg_base)) { + ret = PTR_ERR(r_cpucfg_base); + pr_err("%s: failed to map R-CPUCFG registers\n", + __func__); + goto err_unmap_release_cpucfg; + } + } else { + sram_b_smp_base = of_io_request_and_map(nodes.sram_node, 0, + "sunxi-mc-smp"); + if (IS_ERR(sram_b_smp_base)) { + ret = PTR_ERR(sram_b_smp_base); + pr_err("%s: failed to map secure SRAM\n", __func__); + goto err_unmap_release_cpucfg; + } } /* Configure CCI-400 for boot cluster */ @@ -751,15 +864,18 @@ static int __init sunxi_mc_smp_init(void) if (ret) { pr_err("%s: failed to configure boot cluster: %d\n", __func__, ret); - goto err_unmap_release_secure_sram; + goto err_unmap_release_sram_rcpucfg; } /* We don't need the device nodes anymore */ sunxi_mc_smp_put_nodes(&nodes); /* Set the hardware entry point address */ - writel(__pa_symbol(sunxi_mc_smp_secondary_startup), - prcm_base + PRCM_CPU_SOFT_ENTRY_REG); + if (is_a83t) + addr = r_cpucfg_base + R_CPUCFG_CPU_SOFT_ENTRY_REG; + else + addr = prcm_base + PRCM_CPU_SOFT_ENTRY_REG; + writel(__pa_symbol(sunxi_mc_smp_secondary_startup), addr); /* Actually enable multi cluster SMP */ smp_set_ops(&sunxi_mc_smp_smp_ops); @@ -768,9 +884,14 @@ static int __init sunxi_mc_smp_init(void) return 0; -err_unmap_release_secure_sram: - iounmap(sram_b_smp_base); - of_address_to_resource(nodes.sram_node, 0, &res); +err_unmap_release_sram_rcpucfg: + if (is_a83t) { + iounmap(r_cpucfg_base); + of_address_to_resource(nodes.r_cpucfg_node, 0, &res); + } else { + iounmap(sram_b_smp_base); + of_address_to_resource(nodes.sram_node, 0, &res); + } release_mem_region(res.start, resource_size(&res)); err_unmap_release_cpucfg: iounmap(cpucfg_base); |