[openwrt/openwrt] generic: platform/mikrotik: add partial AR71xx cpufreq support
LEDE Commits
lede-commits at lists.infradead.org
Wed Jul 8 10:07:27 EDT 2020
ynezz pushed a commit to openwrt/openwrt.git, branch master:
https://git.openwrt.org/78fffc2dfdb8736d82103e17bb936bdd48fb902b
commit 78fffc2dfdb8736d82103e17bb936bdd48fb902b
Author: Thibaut VARÈNE <hacks at slashdirt.org>
AuthorDate: Sun Jun 21 12:59:56 2020 +0200
generic: platform/mikrotik: add partial AR71xx cpufreq support
This patch adds cpu frequency setting for AR724x and AR7161.
It is unknown if all the AR71xx devices support the same value range,
so support is only enabled for AR7161 at this stage.
Signed-off-by: Thibaut VARÈNE <hacks at slashdirt.org>
---
.../drivers/platform/mikrotik/rb_softconfig.c | 99 ++++++++++++++++------
1 file changed, 71 insertions(+), 28 deletions(-)
diff --git a/target/linux/generic/files/drivers/platform/mikrotik/rb_softconfig.c b/target/linux/generic/files/drivers/platform/mikrotik/rb_softconfig.c
index 5cfb08f8ac..51a178ec7c 100644
--- a/target/linux/generic/files/drivers/platform/mikrotik/rb_softconfig.c
+++ b/target/linux/generic/files/drivers/platform/mikrotik/rb_softconfig.c
@@ -121,22 +121,36 @@
#define RB_BOOT_DEVICE_FLSHONCE 8 // "boot in flash configuration mode once, then NAND"
/*
- * ATH79 CPU frequency indices.
+ * ATH79 9xxx CPU frequency indices.
* It is unknown if they apply to all ATH79 RBs, and some do not seem to feature
* the upper levels (QCA955x), while F is presumably AR9344-only.
*/
-#define RB_CPU_FREQ_IDX_ATH79_A (0 << 3)
-#define RB_CPU_FREQ_IDX_ATH79_B (1 << 3) // 0x8
-#define RB_CPU_FREQ_IDX_ATH79_C (2 << 3) // 0x10 - factory freq for many devices
-#define RB_CPU_FREQ_IDX_ATH79_D (3 << 3) // 0x18
-#define RB_CPU_FREQ_IDX_ATH79_E (4 << 3) // 0x20
-#define RB_CPU_FREQ_IDX_ATH79_F (5 << 3) // 0x28
-
-#define RB_CPU_FREQ_IDX_ATH79_MIN 0 // all devices support lowest setting
-#define RB_CPU_FREQ_IDX_ATH79_AR9334_MAX 5 // stops at F
-#define RB_CPU_FREQ_IDX_ATH79_QCA953X_MAX 4 // stops at E
-#define RB_CPU_FREQ_IDX_ATH79_QCA9556_MAX 2 // stops at C
-#define RB_CPU_FREQ_IDX_ATH79_QCA9558_MAX 3 // stops at D
+#define RB_CPU_FREQ_IDX_ATH79_9X_A (0 << 3)
+#define RB_CPU_FREQ_IDX_ATH79_9X_B (1 << 3) // 0x8
+#define RB_CPU_FREQ_IDX_ATH79_9X_C (2 << 3) // 0x10 - factory freq for many devices
+#define RB_CPU_FREQ_IDX_ATH79_9X_D (3 << 3) // 0x18
+#define RB_CPU_FREQ_IDX_ATH79_9X_E (4 << 3) // 0x20
+#define RB_CPU_FREQ_IDX_ATH79_9X_F (5 << 3) // 0x28
+
+#define RB_CPU_FREQ_IDX_ATH79_9X_MIN 0 // all devices support lowest setting
+#define RB_CPU_FREQ_IDX_ATH79_9X_AR9334_MAX 5 // stops at F
+#define RB_CPU_FREQ_IDX_ATH79_9X_QCA953X_MAX 4 // stops at E
+#define RB_CPU_FREQ_IDX_ATH79_9X_QCA9556_MAX 2 // stops at C
+#define RB_CPU_FREQ_IDX_ATH79_9X_QCA9558_MAX 3 // stops at D
+
+/* ATH79 7xxx CPU frequency indices. */
+#define RB_CPU_FREQ_IDX_ATH79_7X_A ((0 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_B ((1 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_C ((2 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_D ((3 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_E ((4 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_F ((5 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_G ((6 * 9) << 4)
+#define RB_CPU_FREQ_IDX_ATH79_7X_H ((7 * 9) << 4)
+
+#define RB_CPU_FREQ_IDX_ATH79_7X_MIN 0 // all devices support lowest setting
+#define RB_CPU_FREQ_IDX_ATH79_7X_AR724X_MAX 3 // stops at D
+#define RB_CPU_FREQ_IDX_ATH79_7X_AR7161_MAX 7 // stops at H - check if applies to all AR71xx devices
#define RB_SC_CRC32_OFFSET 4 // located right after magic
@@ -389,41 +403,70 @@ static ssize_t sc_tag_store_bootdelays(const u8 *pld, u16 pld_len, const char *b
/* Support CPU frequency accessors only when the tag format has been asserted */
#if defined(CONFIG_ATH79)
/* Use the same letter-based nomenclature as RouterBOOT */
-static struct sc_u32tvs const sc_cpufreq_indexes_ath79[] = {
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_A, "a"),
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_B, "b"),
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_C, "c"),
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_D, "d"),
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_E, "e"),
- RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_F, "f"),
+static struct sc_u32tvs const sc_cpufreq_indexes_ath79_9x[] = {
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_A, "a"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_B, "b"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_C, "c"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_D, "d"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_E, "e"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_9X_F, "f"),
+};
+
+static struct sc_u32tvs const sc_cpufreq_indexes_ath79_7x[] = {
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_A, "a"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_B, "b"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_C, "c"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_D, "d"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_E, "e"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_F, "f"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_G, "g"),
+ RB_SC_TVS(RB_CPU_FREQ_IDX_ATH79_7X_H, "h"),
};
static int sc_tag_cpufreq_ath79_arraysize(void)
{
int idx_max;
- if (soc_is_ar9344())
- idx_max = RB_CPU_FREQ_IDX_ATH79_AR9334_MAX+1;
+ if (ATH79_SOC_AR7161 == ath79_soc)
+ idx_max = RB_CPU_FREQ_IDX_ATH79_7X_AR7161_MAX+1;
+ else if (soc_is_ar724x())
+ idx_max = RB_CPU_FREQ_IDX_ATH79_7X_AR724X_MAX+1;
+ else if (soc_is_ar9344())
+ idx_max = RB_CPU_FREQ_IDX_ATH79_9X_AR9334_MAX+1;
else if (soc_is_qca953x())
- idx_max = RB_CPU_FREQ_IDX_ATH79_QCA953X_MAX+1;
+ idx_max = RB_CPU_FREQ_IDX_ATH79_9X_QCA953X_MAX+1;
else if (soc_is_qca9556())
- idx_max = RB_CPU_FREQ_IDX_ATH79_QCA9556_MAX+1;
+ idx_max = RB_CPU_FREQ_IDX_ATH79_9X_QCA9556_MAX+1;
else if (soc_is_qca9558())
- idx_max = RB_CPU_FREQ_IDX_ATH79_QCA9558_MAX+1;
+ idx_max = RB_CPU_FREQ_IDX_ATH79_9X_QCA9558_MAX+1;
else
idx_max = -EOPNOTSUPP;
return idx_max;
}
-static ssize_t sc_tag_show_cpufreq_indexes(const u8 *pld, u16 pld_len, char * buf)
+static ssize_t sc_tag_show_cpufreq_indexes(const u8 *pld, u16 pld_len, char *buf)
{
- return sc_tag_show_u32tvs(pld, pld_len, buf, sc_cpufreq_indexes_ath79, sc_tag_cpufreq_ath79_arraysize());
+ const struct sc_u32tvs *tvs;
+
+ if (soc_is_ar71xx() || soc_is_ar724x())
+ tvs = sc_cpufreq_indexes_ath79_7x;
+ else
+ tvs = sc_cpufreq_indexes_ath79_9x;
+
+ return sc_tag_show_u32tvs(pld, pld_len, buf, tvs, sc_tag_cpufreq_ath79_arraysize());
}
static ssize_t sc_tag_store_cpufreq_indexes(const u8 *pld, u16 pld_len, const char *buf, size_t count)
{
- return sc_tag_store_u32tvs(pld, pld_len, buf, count, sc_cpufreq_indexes_ath79, sc_tag_cpufreq_ath79_arraysize());
+ const struct sc_u32tvs *tvs;
+
+ if (soc_is_ar71xx() || soc_is_ar724x())
+ tvs = sc_cpufreq_indexes_ath79_7x;
+ else
+ tvs = sc_cpufreq_indexes_ath79_9x;
+
+ return sc_tag_store_u32tvs(pld, pld_len, buf, count, tvs, sc_tag_cpufreq_ath79_arraysize());
}
#else
/* By default we only show the raw value to help with reverse-engineering */
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