iBoot/platform/s5l8955x/miu/miu.c

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2023-07-08 13:03:17 -07:00
/*
* Copyright (C) 2010-2013 Apple Inc. All rights reserved.
*
* This document is the property of Apple Inc.
* It is considered confidential and proprietary.
*
* This document may not be reproduced or transmitted in any form,
* in whole or in part, without the express written permission of
* Apple Inc.
*/
#include <debug.h>
#include <drivers/miu.h>
#include <platform.h>
#include <platform/memmap.h>
#include <platform/miu.h>
#include <platform/soc/miu.h>
#include <platform/soc/pmgr.h>
#include <platform/clocks.h>
#include <platform/soc/hwclocks.h>
static void miu_configure_bridge(const u_int32_t *bridge_settings);
#define BRIDGE_SHIFT (16)
#define BRIDGE_MASK (0xFFFF)
#define NRT_DART_WIDGETS (0 << BRIDGE_SHIFT)
#define NRT_DART_BRIDGE (1 << BRIDGE_SHIFT)
#define NRT_TOP_WIDGETS (2 << BRIDGE_SHIFT)
#define NRT_TOP_BRIDGE (3 << BRIDGE_SHIFT)
#define RT_TOP_WIDGETS (4 << BRIDGE_SHIFT)
#define RT_TOP_BRIDGE (5 << BRIDGE_SHIFT)
#define UPERF_WIDGETS (6 << BRIDGE_SHIFT)
#define UPERF_BRIDGE (7 << BRIDGE_SHIFT)
#define CDIO_WIDGETS (8 << BRIDGE_SHIFT)
#define CDIO_BRIDGE (9 << BRIDGE_SHIFT)
static const u_int32_t bridge_registers[] = {
NRT_DART_WIDGETS_BASE_ADDR, NRT_DART_PL301_BASE_ADDR,
NRT_TOP_WIDGETS_BASE_ADDR, NRT_TOP_PL301_BASE_ADDR,
RT_TOP_WIDGETS_BASE_ADDR, RT_TOP_PL301_BASE_ADDR,
UPERF_WIDGETS_BASE_ADDR, UPERF_PL301_BASE_ADDR,
CDIO_WIDGETS_BASE_ADDR, CDIO_PL301_BASE_ADDR,
};
#if APPLICATION_SECUREROM || (APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC)
// The following settings are based on H5P/Bali Tunables Revision 0.46
static const u_int32_t bridge_settings_static[] = {
// Configure recommended transaction limits in CDIO
CDIO_WIDGETS | CDIO_IOP_RRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_IOP_WRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_IOP_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_IOP_WTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_CDMA_RRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_CDMA_WRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_CDMA_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_CDMA_WTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_UPERF_RRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_UPERF_WRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_UPERF_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_UPERF_WTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_AUDIO_RRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_AUDIO_WRLIMIT, 0x00000000,
CDIO_WIDGETS | CDIO_AUDIO_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_AUDIO_WTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_PIO_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_PIO_WTLIMIT, 0x00000404,
CDIO_WIDGETS | CDIO_CIM_RTLIMIT, 0x00003F3F,
CDIO_WIDGETS | CDIO_CIM_WTLIMIT, 0x00000F0F,
// Configure recommended bridge settings in CDIO
CDIO_BRIDGE | CDIO_AR_CHAN_ARB_MI0, 0x00000000,
CDIO_BRIDGE | CDIO_AW_CHAN_ARB_MI0, 0x00000000,
CDIO_BRIDGE | CDIO_AR_CHAN_ARB_MI1, 0x00000000,
CDIO_BRIDGE | CDIO_AW_CHAN_ARB_MI1, 0x00000000,
// Configure recommended features in CDIO
CDIO_WIDGETS | CDIO_IOP_WGATHER, 0x00000100,
CDIO_WIDGETS | CDIO_IOP_RC_REMAP(0), 0xffffbbbb,
CDIO_WIDGETS | CDIO_IOP_RC_REMAP(1), 0xfedcba98,
CDIO_WIDGETS | CDIO_IOP_RC_REMAP(2), 0xffffbbbb,
CDIO_WIDGETS | CDIO_IOP_RC_REMAP(3), 0xfedcba98,
CDIO_WIDGETS | CDIO_IOP_WC_REMAP(0), 0x76767676,
CDIO_WIDGETS | CDIO_IOP_WC_REMAP(1), 0xfedcfedc,
CDIO_WIDGETS | CDIO_IOP_WC_REMAP(2), 0x76767676,
CDIO_WIDGETS | CDIO_IOP_WC_REMAP(3), 0xfedcfedc,
CDIO_WIDGETS | CDIO_IOP_C_REMAP_EN, 0x00000003,
CDIO_WIDGETS | CDIO_CDMA_WGATHER, 0x00000100,
CDIO_WIDGETS | CDIO_UPERF_WGATHER, 0x00000100,
CDIO_WIDGETS | CDIO_AUDIO_WGATHER, 0x00000100,
// Configure recommended traffic attributes in UPERF
// AxCACHE = Cacheable
// AxUSER = enable Shared bit
UPERF_WIDGETS | UPERF_OTG_QOS, 0x01010101,
UPERF_WIDGETS | UPERF_OTG_CACHE, 0x0107010B,
UPERF_WIDGETS | UPERF_EHCI_QOS, 0x01010101,
UPERF_WIDGETS | UPERF_EHCI_CACHE, 0x0107010B,
UPERF_WIDGETS | UPERF_OHCI0_QOS, 0x01010101,
UPERF_WIDGETS | UPERF_OHCI0_CACHE, 0x0107010B,
UPERF_WIDGETS | UPERF_OHCI1_QOS, 0x01010101,
UPERF_WIDGETS | UPERF_OHCI1_CACHE, 0x0107010B,
UPERF_WIDGETS | UPERF_USB2HOST1EHCI_QOS, 0x01010101,
UPERF_WIDGETS | UPERF_USB2HOST1EHCI_CACHE, 0x0107010B,
// Configure recommended bridge settings in UPERF
UPERF_BRIDGE | UPERF_RTLIMIT, 0x00000404,
UPERF_BRIDGE | UPERF_WTLIMIT, 0x00000404,
0, 0,
0, 0
};
#endif // APPLICATION_SECUREROM || (APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC)
#if WITH_DEVICETREE || (APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC)
static const u_int32_t bridge_settings_dynamic[] = {
// Configure recommended transaction limits in HPerf-NRT DART
NRT_DART_WIDGETS | HPERF_NRT_DART_DART_RTLIMIT, 0x00003F3F,
NRT_DART_WIDGETS | HPERF_NRT_DART_DART_WTLIMIT, 0x00003F3F,
NRT_DART_WIDGETS | HPERF_NRT_DART_SCALER0_RTLIMIT, 0x00000707,
NRT_DART_WIDGETS | HPERF_NRT_DART_SCALER0_WTLIMIT, 0x00000404,
NRT_DART_WIDGETS | HPERF_NRT_DART_SCALER1_RTLIMIT, 0x00000707,
NRT_DART_WIDGETS | HPERF_NRT_DART_SCALER1_WTLIMIT, 0x00000404,
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG0_RTLIMIT, 0x00003F3F,
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG0_WTLIMIT, 0x00003F3F,
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG1_RTLIMIT, 0x00003F3F,
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG1_WTLIMIT, 0x00003F3F,
// Configure recommended bridge settings in HPerf-NRT DART
NRT_DART_BRIDGE | HPERF_NRT_DART_AR_CHAN_ARB_MI, 0x00000000, // JPEG0 High Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AR_CHAN_ARB_MI, 0x01000001, // JPEG1 High Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AR_CHAN_ARB_MI, 0x02000002, // Scaler0 Reduced Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AR_CHAN_ARB_MI, 0x03000003, // Sclaer1 Reduced Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AW_CHAN_ARB_MI, 0x00000000, // JPEG0 High Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AW_CHAN_ARB_MI, 0x01000001, // JPEG1 High Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AW_CHAN_ARB_MI, 0x02000002, // Scaler0 Reduced Priority
NRT_DART_BRIDGE | HPERF_NRT_DART_AW_CHAN_ARB_MI, 0x03000003, // Sclaer1 Reduced Priority
// Configure recommended bridge settings in HPerf-NRT DART
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG0_QOS, 0x01010101, // JPEG0 LLT Traffic for R&W
NRT_DART_WIDGETS | HPERF_NRT_DART_JPEG1_QOS, 0x01010101, // JPEG1 LLT Traffic for R&W
0, 0,
// Configure recommended transaction limits in HPerf-NRT Top
NRT_TOP_WIDGETS | HPERF_NRT_TOP_TOP_RTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_TOP_WTLIMIT, 0x00000F0F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_VENC_RTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_VENC_WTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_VDEC_RTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_VDEC_WTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_AUX_RTLIMIT, 0x00003F3F,
NRT_TOP_WIDGETS | HPERF_NRT_TOP_AUX_WTLIMIT, 0x00003F3F,
// Configure recommended bridge settings in HPerf-NRT Top
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AR_CHAN_ARB_MI, 0x00000000,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AR_CHAN_ARB_MI, 0x01000001,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AR_CHAN_ARB_MI, 0x02000002,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AR_CHAN_ARB_MI, 0x03000003,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AW_CHAN_ARB_MI, 0x00000000,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AW_CHAN_ARB_MI, 0x01000001,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AW_CHAN_ARB_MI, 0x02000002,
NRT_TOP_BRIDGE | HPERF_NRT_TOP_AW_CHAN_ARB_MI, 0x03000003,
// Configure recommended features in HPerf-NRT Top
NRT_TOP_WIDGETS | HPERF_NRT_TOP_AUX_WGATHER, 0x00000100,
0, 0,
// Configure recommended transaction limits in HPerf-RT Top
RT_TOP_WIDGETS | HPERF_RT_TOP_DISP0_RTLIMIT, 0x00003F3F,
RT_TOP_WIDGETS | HPERF_RT_TOP_DISP1_RTLIMIT, 0x00001818,
RT_TOP_WIDGETS | HPERF_RT_TOP_ISP_RTLIMIT, 0x00003F3F,
RT_TOP_WIDGETS | HPERF_RT_TOP_ISP_WTLIMIT, 0x00003F3F,
RT_TOP_WIDGETS | HPERF_RT_TOP_TOP_RTLIMIT, 0x00003F3F,
RT_TOP_WIDGETS | HPERF_RT_TOP_TOP_WTLIMIT, 0x00000F0F,
// Configure recommended bridge settings in HPerf-RT Top
RT_TOP_BRIDGE | HPERF_RT_TOP_AR_CHAN_ARB_MI, 0x00000000,
RT_TOP_BRIDGE | HPERF_RT_TOP_AW_CHAN_ARB_MI, 0x00000000,
0, 0,
0, 0
};
#endif // WITH_DEVICETREE || (APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC)
int miu_initialize_internal_ram(void)
{
#if APPLICATION_SECUREROM
// Ensure that rPMGR_SCRATCH0-3 get cleared
rPMGR_SCRATCH0 = 0;
rPMGR_SCRATCH1 = 0;
rPMGR_SCRATCH2 = 0;
rPMGR_SCRATCH3 = 0;
#endif /* APPLICATION_SECUREROM */
// Save the Security Epoch in the top byte of PMGR_SCRATCH0
rPMGR_SCRATCH0 &= ~0xFF000000;
rPMGR_SCRATCH0 |= (platform_get_security_epoch()) << 24;
return 0;
}
int miu_init(void)
{
#if APPLICATION_IBOOT && !PRODUCT_IBEC
// Verify that the Security Epoch in PMGR_SCRATCH0 matches
if ((rPMGR_SCRATCH0 >> 24) != platform_get_security_epoch()) {
panic("miu_init: Epoch Mismatch\n");
}
#endif
#if APPLICATION_SECUREROM || (APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC)
// Configure bridges that are statically powered
clock_gate(CLK_UPERF, true);
miu_configure_bridge(bridge_settings_static);
clock_gate(CLK_UPERF, false);
#endif
#if APPLICATION_IBOOT && !PRODUCT_IBOOT && !PRODUCT_IBEC
// Configure bridges that are dynamically powered
clock_gate(CLK_HPERFNRT, true);
clock_gate(CLK_HPERFRT, true);
miu_configure_bridge(bridge_settings_dynamic);
clock_gate(CLK_HPERFNRT, false);
clock_gate(CLK_HPERFRT, false);
#endif
/* remap whatever bank of ram we're in to zero */
if (TEXT_BASE == SRAM_BASE)
miu_select_remap(REMAP_SRAM);
else if ((TEXT_BASE >= SDRAM_BASE) && (TEXT_BASE < SDRAM_END))
miu_select_remap(REMAP_SDRAM);
return 0;
}
static void miu_configure_bridge(const u_int32_t *bridge_settings)
{
volatile u_int32_t *reg;
u_int32_t cnt = 0, bridge, offset, data;
while ((bridge_settings[cnt] != 0) || (bridge_settings[cnt + 1] != 0)) {
while ((bridge_settings[cnt] != 0) || (bridge_settings[cnt + 1] != 0)) {
bridge = bridge_settings[cnt] >> BRIDGE_SHIFT;
offset = bridge_settings[cnt] & BRIDGE_MASK;
data = bridge_settings[cnt + 1];
reg = (volatile u_int32_t *)(bridge_registers[bridge] + offset);
*reg = data;
cnt += 2;
}
cnt += 2;
}
}
void miu_suspend(void)
{
/* nothing required for suspend */
}
int miu_initialize_dram(bool resume)
{
#if APPLICATION_IBOOT && WITH_HW_AMC
mcu_initialize_dram(resume);
#endif
return 0;
}
void miu_select_remap(enum remap_select sel)
{
u_int32_t tmp;
switch (sel) {
case REMAP_SRAM:
tmp = miu_read_l2cadrmap() & ~3;
tmp |= 1; // RemapMode = 1 (L2C RAM)
miu_write_l2cadrmap(tmp);
break;
case REMAP_SDRAM:
tmp = miu_read_l2cadrmap() & ~3;
tmp |= 2; // RemapMode = 2 (MEM)
miu_write_l2cadrmap(tmp);
break;
}
}
void miu_bypass_prep(int step)
{
#if APPLICATION_IBOOT && WITH_HW_AMC
extern void mcu_bypass_prep(int step);
mcu_bypass_prep(step);
#endif
}
#if WITH_DEVICETREE
void miu_update_device_tree(DTNode *pmgr_node)
{
uint32_t propSize;
char *propName;
void *propData;
// Fill in the bridge-settings property
propName = "bridge-settings";
if (FindProperty(pmgr_node, &propName, &propData, &propSize)) {
if (propSize < sizeof(bridge_settings_dynamic)) {
panic("miu_update_device_tree: bridge-settings property is too small (0x%x)", propSize);
}
memcpy(propData, bridge_settings_dynamic, sizeof(bridge_settings_dynamic));
}
}
#endif