10bc752c9SSamuel Holland /*
20bc752c9SSamuel Holland * Copyright (c) 2017-2019, ARM Limited and Contributors. All rights reserved.
30bc752c9SSamuel Holland *
40bc752c9SSamuel Holland * SPDX-License-Identifier: BSD-3-Clause
50bc752c9SSamuel Holland */
60bc752c9SSamuel Holland
70bc752c9SSamuel Holland #include <errno.h>
80bc752c9SSamuel Holland
90bc752c9SSamuel Holland #include <libfdt.h>
100bc752c9SSamuel Holland
110bc752c9SSamuel Holland #include <common/debug.h>
12*06eb3e36SAndre Przywara #include <common/fdt_wrappers.h>
130bc752c9SSamuel Holland #include <drivers/allwinner/axp.h>
140bc752c9SSamuel Holland
axp_check_id(void)150bc752c9SSamuel Holland int axp_check_id(void)
160bc752c9SSamuel Holland {
170bc752c9SSamuel Holland int ret;
180bc752c9SSamuel Holland
190bc752c9SSamuel Holland ret = axp_read(0x03);
200bc752c9SSamuel Holland if (ret < 0)
210bc752c9SSamuel Holland return ret;
220bc752c9SSamuel Holland
230bc752c9SSamuel Holland ret &= 0xcf;
240bc752c9SSamuel Holland if (ret != axp_chip_id) {
250bc752c9SSamuel Holland ERROR("PMIC: Found unknown PMIC %02x\n", ret);
260bc752c9SSamuel Holland return ret;
270bc752c9SSamuel Holland }
280bc752c9SSamuel Holland
290bc752c9SSamuel Holland return 0;
300bc752c9SSamuel Holland }
310bc752c9SSamuel Holland
axp_clrsetbits(uint8_t reg,uint8_t clr_mask,uint8_t set_mask)320bc752c9SSamuel Holland int axp_clrsetbits(uint8_t reg, uint8_t clr_mask, uint8_t set_mask)
330bc752c9SSamuel Holland {
340bc752c9SSamuel Holland uint8_t val;
350bc752c9SSamuel Holland int ret;
360bc752c9SSamuel Holland
370bc752c9SSamuel Holland ret = axp_read(reg);
380bc752c9SSamuel Holland if (ret < 0)
390bc752c9SSamuel Holland return ret;
400bc752c9SSamuel Holland
410bc752c9SSamuel Holland val = (ret & ~clr_mask) | set_mask;
420bc752c9SSamuel Holland
430bc752c9SSamuel Holland return axp_write(reg, val);
440bc752c9SSamuel Holland }
450bc752c9SSamuel Holland
axp_power_off(void)460bc752c9SSamuel Holland void axp_power_off(void)
470bc752c9SSamuel Holland {
480bc752c9SSamuel Holland /* Set "power disable control" bit */
490bc752c9SSamuel Holland axp_setbits(0x32, BIT(7));
500bc752c9SSamuel Holland }
510bc752c9SSamuel Holland
5267412e4dSAndre Przywara #if SUNXI_SETUP_REGULATORS == 1
530bc752c9SSamuel Holland /*
540bc752c9SSamuel Holland * Retrieve the voltage from a given regulator DTB node.
550bc752c9SSamuel Holland * Both the regulator-{min,max}-microvolt properties must be present and
560bc752c9SSamuel Holland * have the same value. Return that value in millivolts.
570bc752c9SSamuel Holland */
fdt_get_regulator_millivolt(const void * fdt,int node)580bc752c9SSamuel Holland static int fdt_get_regulator_millivolt(const void *fdt, int node)
590bc752c9SSamuel Holland {
600bc752c9SSamuel Holland const fdt32_t *prop;
610bc752c9SSamuel Holland uint32_t min_volt;
620bc752c9SSamuel Holland
630bc752c9SSamuel Holland prop = fdt_getprop(fdt, node, "regulator-min-microvolt", NULL);
640bc752c9SSamuel Holland if (prop == NULL)
650bc752c9SSamuel Holland return -EINVAL;
660bc752c9SSamuel Holland min_volt = fdt32_to_cpu(*prop);
670bc752c9SSamuel Holland
680bc752c9SSamuel Holland prop = fdt_getprop(fdt, node, "regulator-max-microvolt", NULL);
690bc752c9SSamuel Holland if (prop == NULL)
700bc752c9SSamuel Holland return -EINVAL;
710bc752c9SSamuel Holland
720bc752c9SSamuel Holland if (fdt32_to_cpu(*prop) != min_volt)
730bc752c9SSamuel Holland return -EINVAL;
740bc752c9SSamuel Holland
750bc752c9SSamuel Holland return min_volt / 1000;
760bc752c9SSamuel Holland }
770bc752c9SSamuel Holland
setup_regulator(const void * fdt,int node,const struct axp_regulator * reg)780bc752c9SSamuel Holland static int setup_regulator(const void *fdt, int node,
790bc752c9SSamuel Holland const struct axp_regulator *reg)
800bc752c9SSamuel Holland {
810bc752c9SSamuel Holland uint8_t val;
820bc752c9SSamuel Holland int mvolt;
830bc752c9SSamuel Holland
840bc752c9SSamuel Holland mvolt = fdt_get_regulator_millivolt(fdt, node);
850bc752c9SSamuel Holland if (mvolt < reg->min_volt || mvolt > reg->max_volt)
860bc752c9SSamuel Holland return -EINVAL;
870bc752c9SSamuel Holland
880bc752c9SSamuel Holland val = (mvolt / reg->step) - (reg->min_volt / reg->step);
890bc752c9SSamuel Holland if (val > reg->split)
900bc752c9SSamuel Holland val = ((val - reg->split) / 2) + reg->split;
910bc752c9SSamuel Holland
920bc752c9SSamuel Holland axp_write(reg->volt_reg, val);
930bc752c9SSamuel Holland axp_setbits(reg->switch_reg, BIT(reg->switch_bit));
940bc752c9SSamuel Holland
950bc752c9SSamuel Holland INFO("PMIC: %s voltage: %d.%03dV\n", reg->dt_name,
960bc752c9SSamuel Holland mvolt / 1000, mvolt % 1000);
970bc752c9SSamuel Holland
980bc752c9SSamuel Holland return 0;
990bc752c9SSamuel Holland }
1000bc752c9SSamuel Holland
should_enable_regulator(const void * fdt,int node)1010bc752c9SSamuel Holland static bool should_enable_regulator(const void *fdt, int node)
1020bc752c9SSamuel Holland {
103*06eb3e36SAndre Przywara if (!fdt_node_is_enabled(fdt, node)) {
1049655a1f5SRoman Beranek return false;
1059655a1f5SRoman Beranek }
1069655a1f5SRoman Beranek if (fdt_getprop(fdt, node, "phandle", NULL) != NULL) {
1070bc752c9SSamuel Holland return true;
1089655a1f5SRoman Beranek }
1099655a1f5SRoman Beranek if (fdt_getprop(fdt, node, "regulator-always-on", NULL) != NULL) {
1100bc752c9SSamuel Holland return true;
1119655a1f5SRoman Beranek }
1120bc752c9SSamuel Holland return false;
1130bc752c9SSamuel Holland }
1140bc752c9SSamuel Holland
board_uses_usb0_host_mode(const void * fdt)11593fa305cSAndre Przywara static bool board_uses_usb0_host_mode(const void *fdt)
11693fa305cSAndre Przywara {
11793fa305cSAndre Przywara int node, length;
11893fa305cSAndre Przywara const char *prop;
11993fa305cSAndre Przywara
12093fa305cSAndre Przywara node = fdt_node_offset_by_compatible(fdt, -1,
12193fa305cSAndre Przywara "allwinner,sun8i-a33-musb");
12293fa305cSAndre Przywara if (node < 0) {
12393fa305cSAndre Przywara return false;
12493fa305cSAndre Przywara }
12593fa305cSAndre Przywara
12693fa305cSAndre Przywara prop = fdt_getprop(fdt, node, "dr_mode", &length);
12793fa305cSAndre Przywara if (!prop) {
12893fa305cSAndre Przywara return false;
12993fa305cSAndre Przywara }
13093fa305cSAndre Przywara
13193fa305cSAndre Przywara return !strncmp(prop, "host", length);
13293fa305cSAndre Przywara }
13393fa305cSAndre Przywara
axp_setup_regulators(const void * fdt)1340bc752c9SSamuel Holland void axp_setup_regulators(const void *fdt)
1350bc752c9SSamuel Holland {
1360bc752c9SSamuel Holland int node;
137f6d9c4caSSamuel Holland bool sw = false;
1380bc752c9SSamuel Holland
1390bc752c9SSamuel Holland if (fdt == NULL)
1400bc752c9SSamuel Holland return;
1410bc752c9SSamuel Holland
1420bc752c9SSamuel Holland /* locate the PMIC DT node, bail out if not found */
1430bc752c9SSamuel Holland node = fdt_node_offset_by_compatible(fdt, -1, axp_compatible);
1440bc752c9SSamuel Holland if (node < 0) {
1450bc752c9SSamuel Holland WARN("PMIC: No PMIC DT node, skipping setup\n");
1460bc752c9SSamuel Holland return;
1470bc752c9SSamuel Holland }
1480bc752c9SSamuel Holland
149f6d9c4caSSamuel Holland /* This applies to AXP803 only. */
15093fa305cSAndre Przywara if (fdt_getprop(fdt, node, "x-powers,drive-vbus-en", NULL) &&
15193fa305cSAndre Przywara board_uses_usb0_host_mode(fdt)) {
1520bc752c9SSamuel Holland axp_clrbits(0x8f, BIT(4));
1530bc752c9SSamuel Holland axp_setbits(0x30, BIT(2));
1540bc752c9SSamuel Holland INFO("PMIC: Enabling DRIVEVBUS\n");
1550bc752c9SSamuel Holland }
1560bc752c9SSamuel Holland
1570bc752c9SSamuel Holland /* descend into the "regulators" subnode */
1580bc752c9SSamuel Holland node = fdt_subnode_offset(fdt, node, "regulators");
1590bc752c9SSamuel Holland if (node < 0) {
1600bc752c9SSamuel Holland WARN("PMIC: No regulators DT node, skipping setup\n");
1610bc752c9SSamuel Holland return;
1620bc752c9SSamuel Holland }
1630bc752c9SSamuel Holland
1640bc752c9SSamuel Holland /* iterate over all regulators to find used ones */
1650bc752c9SSamuel Holland fdt_for_each_subnode(node, fdt, node) {
1660bc752c9SSamuel Holland const struct axp_regulator *reg;
1670bc752c9SSamuel Holland const char *name;
1680bc752c9SSamuel Holland int length;
1690bc752c9SSamuel Holland
1700bc752c9SSamuel Holland /* We only care if it's always on or referenced. */
1710bc752c9SSamuel Holland if (!should_enable_regulator(fdt, node))
1720bc752c9SSamuel Holland continue;
1730bc752c9SSamuel Holland
1740bc752c9SSamuel Holland name = fdt_get_name(fdt, node, &length);
175f6d9c4caSSamuel Holland
176f6d9c4caSSamuel Holland /* Enable the switch last to avoid overheating. */
177f6d9c4caSSamuel Holland if (!strncmp(name, "dc1sw", length) ||
178f6d9c4caSSamuel Holland !strncmp(name, "sw", length)) {
179f6d9c4caSSamuel Holland sw = true;
180f6d9c4caSSamuel Holland continue;
181f6d9c4caSSamuel Holland }
182f6d9c4caSSamuel Holland
1830bc752c9SSamuel Holland for (reg = axp_regulators; reg->dt_name; reg++) {
1840bc752c9SSamuel Holland if (!strncmp(name, reg->dt_name, length)) {
1850bc752c9SSamuel Holland setup_regulator(fdt, node, reg);
1860bc752c9SSamuel Holland break;
1870bc752c9SSamuel Holland }
1880bc752c9SSamuel Holland }
1890bc752c9SSamuel Holland }
1900bc752c9SSamuel Holland
1910bc752c9SSamuel Holland /*
192f6d9c4caSSamuel Holland * On the AXP803, if DLDO2 is enabled after DC1SW, the PMIC overheats
193f6d9c4caSSamuel Holland * and shuts down. So always enable DC1SW as the very last regulator.
1940bc752c9SSamuel Holland */
195f6d9c4caSSamuel Holland if (sw) {
196f6d9c4caSSamuel Holland INFO("PMIC: Enabling DC SW\n");
197f6d9c4caSSamuel Holland if (axp_chip_id == AXP803_CHIP_ID)
1980bc752c9SSamuel Holland axp_setbits(0x12, BIT(7));
199f6d9c4caSSamuel Holland if (axp_chip_id == AXP805_CHIP_ID)
200f6d9c4caSSamuel Holland axp_setbits(0x11, BIT(7));
2010bc752c9SSamuel Holland }
2020bc752c9SSamuel Holland }
20367412e4dSAndre Przywara #endif /* SUNXI_SETUP_REGULATORS */
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