Commit 3d21c945 authored by davidcunado-arm's avatar davidcunado-arm Committed by GitHub
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Merge pull request #899 from vwadekar/tegra186-platform-support-v6

Tegra186 platform support v6
parents ea69a93e 50e91633
...@@ -419,6 +419,10 @@ ...@@ -419,6 +419,10 @@
#define EC_BITS(x) (x >> ESR_EC_SHIFT) & ESR_EC_MASK #define EC_BITS(x) (x >> ESR_EC_SHIFT) & ESR_EC_MASK
/* Reset bit inside the Reset management register for EL3 (RMR_EL3) */
#define RMR_RESET_REQUEST_SHIFT 0x1u
#define RMR_WARM_RESET_CPU (1u << RMR_RESET_REQUEST_SHIFT)
/******************************************************************************* /*******************************************************************************
* Definitions of register offsets, fields and macros for CPU system * Definitions of register offsets, fields and macros for CPU system
* instructions. * instructions.
......
...@@ -243,11 +243,12 @@ endfunc platform_mem_init ...@@ -243,11 +243,12 @@ endfunc platform_mem_init
* --------------------------------------------- * ---------------------------------------------
*/ */
func plat_crash_console_init func plat_crash_console_init
adr x0, tegra_console_base mov x0, #0
ldr x0, [x0] adr x1, tegra_console_base
mov_imm x1, TEGRA_BOOT_UART_CLK_IN_HZ ldr x1, [x1]
mov_imm x2, TEGRA_CONSOLE_BAUDRATE cbz x1, 1f
b console_core_init mov w0, #1
1: ret
endfunc plat_crash_console_init endfunc plat_crash_console_init
/* --------------------------------------------- /* ---------------------------------------------
......
...@@ -217,3 +217,29 @@ done: ...@@ -217,3 +217,29 @@ done:
video_mem_base = phys_base; video_mem_base = phys_base;
video_mem_size = size_in_bytes >> 20; video_mem_size = size_in_bytes >> 20;
} }
/*
* During boot, USB3 and flash media (SDMMC/SATA) devices need access to
* IRAM. Because these clients connect to the MC and do not have a direct
* path to the IRAM, the MC implements AHB redirection during boot to allow
* path to IRAM. In this mode, accesses to a programmed memory address aperture
* are directed to the AHB bus, allowing access to the IRAM. The AHB aperture
* is defined by the IRAM_BASE_LO and IRAM_BASE_HI registers, which are
* initialized to disable this aperture.
*
* Once bootup is complete, we must program IRAM base to 0xffffffff and
* IRAM top to 0x00000000, thus disabling access to IRAM. DRAM is then
* potentially accessible in this address range. These aperture registers
* also have an access_control/lock bit. After disabling the aperture, the
* access_control register should be programmed to lock the registers.
*/
void tegra_memctrl_disable_ahb_redirection(void)
{
/* program the aperture registers */
tegra_mc_write_32(MC_IRAM_BASE_LO, 0xFFFFFFFF);
tegra_mc_write_32(MC_IRAM_TOP_LO, 0);
tegra_mc_write_32(MC_IRAM_BASE_TOP_HI, 0);
/* lock the aperture registers */
tegra_mc_write_32(MC_IRAM_REG_CTRL, MC_DISABLE_IRAM_CFG_WRITES);
}
...@@ -30,6 +30,7 @@ ...@@ -30,6 +30,7 @@
#include <arch_helpers.h> #include <arch_helpers.h>
#include <assert.h> #include <assert.h>
#include <bl_common.h>
#include <debug.h> #include <debug.h>
#include <mce.h> #include <mce.h>
#include <memctrl.h> #include <memctrl.h>
...@@ -305,6 +306,58 @@ static void tegra_memctrl_reconfig_mss_clients(void) ...@@ -305,6 +306,58 @@ static void tegra_memctrl_reconfig_mss_clients(void)
#endif #endif
} }
static void tegra_memctrl_set_overrides(void)
{
tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings();
const mc_txn_override_cfg_t *mc_txn_override_cfgs;
uint32_t num_txn_override_cfgs;
uint32_t i, val;
/* Get the settings from the platform */
assert(plat_mc_settings);
mc_txn_override_cfgs = plat_mc_settings->txn_override_cfg;
num_txn_override_cfgs = plat_mc_settings->num_txn_override_cfgs;
/*
* Set the MC_TXN_OVERRIDE registers for write clients.
*/
if ((tegra_chipid_is_t186()) &&
(!tegra_platform_is_silicon() ||
(tegra_platform_is_silicon() && (tegra_get_chipid_minor() == 1)))) {
/*
* GPU and NVENC settings for Tegra186 simulation and
* Silicon rev. A01
*/
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR,
val | MC_TXN_OVERRIDE_CGID_TAG_ZERO);
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR2);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR2,
val | MC_TXN_OVERRIDE_CGID_TAG_ZERO);
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_NVENCSWR);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_NVENCSWR,
val | MC_TXN_OVERRIDE_CGID_TAG_CLIENT_AXI_ID);
} else {
/*
* Settings for Tegra186 silicon rev. A02 and onwards.
*/
for (i = 0; i < num_txn_override_cfgs; i++) {
val = tegra_mc_read_32(mc_txn_override_cfgs[i].offset);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(mc_txn_override_cfgs[i].offset,
val | mc_txn_override_cfgs[i].cgid_tag);
}
}
}
/* /*
* Init Memory controller during boot. * Init Memory controller during boot.
*/ */
...@@ -315,10 +368,8 @@ void tegra_memctrl_setup(void) ...@@ -315,10 +368,8 @@ void tegra_memctrl_setup(void)
uint32_t num_streamid_override_regs; uint32_t num_streamid_override_regs;
const mc_streamid_security_cfg_t *mc_streamid_sec_cfgs; const mc_streamid_security_cfg_t *mc_streamid_sec_cfgs;
uint32_t num_streamid_sec_cfgs; uint32_t num_streamid_sec_cfgs;
const mc_txn_override_cfg_t *mc_txn_override_cfgs;
uint32_t num_txn_override_cfgs;
tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings(); tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings();
int i; uint32_t i;
INFO("Tegra Memory Controller (v2)\n"); INFO("Tegra Memory Controller (v2)\n");
...@@ -332,8 +383,6 @@ void tegra_memctrl_setup(void) ...@@ -332,8 +383,6 @@ void tegra_memctrl_setup(void)
num_streamid_override_regs = plat_mc_settings->num_streamid_override_cfgs; num_streamid_override_regs = plat_mc_settings->num_streamid_override_cfgs;
mc_streamid_sec_cfgs = plat_mc_settings->streamid_security_cfg; mc_streamid_sec_cfgs = plat_mc_settings->streamid_security_cfg;
num_streamid_sec_cfgs = plat_mc_settings->num_streamid_security_cfgs; num_streamid_sec_cfgs = plat_mc_settings->num_streamid_security_cfgs;
mc_txn_override_cfgs = plat_mc_settings->txn_override_cfg;
num_txn_override_cfgs = plat_mc_settings->num_txn_override_cfgs;
/* Program all the Stream ID overrides */ /* Program all the Stream ID overrides */
for (i = 0; i < num_streamid_override_regs; i++) for (i = 0; i < num_streamid_override_regs; i++)
...@@ -372,39 +421,8 @@ void tegra_memctrl_setup(void) ...@@ -372,39 +421,8 @@ void tegra_memctrl_setup(void)
*/ */
tegra_memctrl_reconfig_mss_clients(); tegra_memctrl_reconfig_mss_clients();
/* /* Program overrides for MC transactions */
* Set the MC_TXN_OVERRIDE registers for write clients. tegra_memctrl_set_overrides();
*/
if (!tegra_platform_is_silicon() ||
(tegra_platform_is_silicon() && tegra_get_chipid_minor() == 1)) {
/* GPU and NVENC settings for rev. A01 */
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR,
val | MC_TXN_OVERRIDE_CGID_TAG_ZERO);
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR2);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_GPUSWR2,
val | MC_TXN_OVERRIDE_CGID_TAG_ZERO);
val = tegra_mc_read_32(MC_TXN_OVERRIDE_CONFIG_NVENCSWR);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(MC_TXN_OVERRIDE_CONFIG_NVENCSWR,
val | MC_TXN_OVERRIDE_CGID_TAG_CLIENT_AXI_ID);
} else {
/* settings for rev. A02 */
for (i = 0; i < num_txn_override_cfgs; i++) {
val = tegra_mc_read_32(mc_txn_override_cfgs[i].offset);
val &= ~MC_TXN_OVERRIDE_CGID_TAG_MASK;
tegra_mc_write_32(mc_txn_override_cfgs[i].offset,
val | mc_txn_override_cfgs[i].cgid_tag);
}
}
} }
/* /*
...@@ -420,6 +438,9 @@ void tegra_memctrl_restore_settings(void) ...@@ -420,6 +438,9 @@ void tegra_memctrl_restore_settings(void)
*/ */
tegra_memctrl_reconfig_mss_clients(); tegra_memctrl_reconfig_mss_clients();
/* Program overrides for MC transactions */
tegra_memctrl_set_overrides();
/* video memory carveout region */ /* video memory carveout region */
if (video_mem_base) { if (video_mem_base) {
tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_LO, tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_LO,
...@@ -575,3 +596,11 @@ void tegra_memctrl_videomem_setup(uint64_t phys_base, uint32_t size_in_bytes) ...@@ -575,3 +596,11 @@ void tegra_memctrl_videomem_setup(uint64_t phys_base, uint32_t size_in_bytes)
*/ */
mce_update_gsc_videomem(); mce_update_gsc_videomem();
} }
/*
* This feature exists only for v1 of the Tegra Memory Controller.
*/
void tegra_memctrl_disable_ahb_redirection(void)
{
; /* do nothing */
}
...@@ -31,400 +31,56 @@ ...@@ -31,400 +31,56 @@
#include <assert.h> #include <assert.h>
#include <bl_common.h> #include <bl_common.h>
#include <debug.h> #include <debug.h>
#include <memctrl_v2.h>
#include <platform_def.h> #include <platform_def.h>
#include <smmu.h> #include <smmu.h>
#include <string.h> #include <string.h>
#include <tegra_private.h> #include <tegra_private.h>
typedef struct smmu_regs { /* SMMU IDs currently supported by the driver */
uint32_t reg; enum {
uint32_t val; TEGRA_SMMU0,
} smmu_regs_t; TEGRA_SMMU1,
TEGRA_SMMU2
#define mc_make_sid_override_cfg(name) \ };
{ \
.reg = TEGRA_MC_STREAMID_BASE + MC_STREAMID_OVERRIDE_CFG_ ## name, \
.val = 0x00000000, \
}
#define mc_make_sid_security_cfg(name) \
{ \
.reg = TEGRA_MC_STREAMID_BASE + \
MC_STREAMID_OVERRIDE_TO_SECURITY_CFG( \
MC_STREAMID_OVERRIDE_CFG_ ## name), \
.val = 0x00000000, \
}
#define smmu_make_gnsr0_sec_cfg(name) \
{ \
.reg = TEGRA_SMMU_BASE + SMMU_GNSR0_ ## name, \
.val = 0x00000000, \
}
/*
* On ARM-SMMU, conditional offset to access secure aliases of non-secure registers
* is 0x400. So, add it to register address
*/
#define smmu_make_gnsr0_nsec_cfg(name) \
{ \
.reg = TEGRA_SMMU_BASE + 0x400 + SMMU_GNSR0_ ## name, \
.val = 0x00000000, \
}
#define smmu_make_gnsr0_smr_cfg(n) \
{ \
.reg = TEGRA_SMMU_BASE + SMMU_GNSR0_SMR ## n, \
.val = 0x00000000, \
}
#define smmu_make_gnsr0_s2cr_cfg(n) \
{ \
.reg = TEGRA_SMMU_BASE + SMMU_GNSR0_S2CR ## n, \
.val = 0x00000000, \
}
#define smmu_make_gnsr1_cbar_cfg(n) \
{ \
.reg = TEGRA_SMMU_BASE + (1 << PGSHIFT) + SMMU_GNSR1_CBAR ## n, \
.val = 0x00000000, \
}
#define smmu_make_gnsr1_cba2r_cfg(n) \
{ \
.reg = TEGRA_SMMU_BASE + (1 << PGSHIFT) + SMMU_GNSR1_CBA2R ## n, \
.val = 0x00000000, \
}
#define make_smmu_cb_cfg(name, n) \ static uint32_t tegra_smmu_read_32(uint32_t smmu_id, uint32_t off)
{ \ {
.reg = TEGRA_SMMU_BASE + (CB_SIZE >> 1) + (n * (1 << PGSHIFT)) \ #if defined(TEGRA_SMMU0_BASE)
+ SMMU_CBn_ ## name, \ if (smmu_id == TEGRA_SMMU0)
.val = 0x00000000, \ return mmio_read_32(TEGRA_SMMU0_BASE + off);
} #endif
#define smmu_make_smrg_group(n) \ #if defined(TEGRA_SMMU1_BASE)
smmu_make_gnsr0_smr_cfg(n), \ if (smmu_id == TEGRA_SMMU1)
smmu_make_gnsr0_s2cr_cfg(n), \ return mmio_read_32(TEGRA_SMMU1_BASE + off);
smmu_make_gnsr1_cbar_cfg(n), \ #endif
smmu_make_gnsr1_cba2r_cfg(n) /* don't put "," here. */
#define smmu_make_cb_group(n) \ #if defined(TEGRA_SMMU2_BASE)
make_smmu_cb_cfg(SCTLR, n), \ if (smmu_id == TEGRA_SMMU2)
make_smmu_cb_cfg(TCR2, n), \ return mmio_read_32(TEGRA_SMMU2_BASE + off);
make_smmu_cb_cfg(TTBR0_LO, n), \ #endif
make_smmu_cb_cfg(TTBR0_HI, n), \
make_smmu_cb_cfg(TCR, n), \
make_smmu_cb_cfg(PRRR_MAIR0, n),\
make_smmu_cb_cfg(FSR, n), \
make_smmu_cb_cfg(FAR_LO, n), \
make_smmu_cb_cfg(FAR_HI, n), \
make_smmu_cb_cfg(FSYNR0, n) /* don't put "," here. */
#define smmu_bypass_cfg \ return 0;
{ \ }
.reg = TEGRA_MC_BASE + MC_SMMU_BYPASS_CONFIG, \
.val = 0x00000000, \
}
#define _START_OF_TABLE_ \ static void tegra_smmu_write_32(uint32_t smmu_id,
{ \ uint32_t off, uint32_t val)
.reg = 0xCAFE05C7, \ {
.val = 0x00000000, \ #if defined(TEGRA_SMMU0_BASE)
} if (smmu_id == TEGRA_SMMU0)
mmio_write_32(TEGRA_SMMU0_BASE + off, val);
#endif
#define _END_OF_TABLE_ \ #if defined(TEGRA_SMMU1_BASE)
{ \ if (smmu_id == TEGRA_SMMU1)
.reg = 0xFFFFFFFF, \ mmio_write_32(TEGRA_SMMU1_BASE + off, val);
.val = 0xFFFFFFFF, \ #endif
}
static __attribute__((aligned(16))) smmu_regs_t smmu_ctx_regs[] = { #if defined(TEGRA_SMMU2_BASE)
_START_OF_TABLE_, if (smmu_id == TEGRA_SMMU2)
mc_make_sid_security_cfg(SCEW), mmio_write_32(TEGRA_SMMU2_BASE + off, val);
mc_make_sid_security_cfg(AFIR), #endif
mc_make_sid_security_cfg(NVDISPLAYR1), }
mc_make_sid_security_cfg(XUSB_DEVR),
mc_make_sid_security_cfg(VICSRD1),
mc_make_sid_security_cfg(NVENCSWR),
mc_make_sid_security_cfg(TSECSRDB),
mc_make_sid_security_cfg(AXISW),
mc_make_sid_security_cfg(SDMMCWAB),
mc_make_sid_security_cfg(AONDMAW),
mc_make_sid_security_cfg(GPUSWR2),
mc_make_sid_security_cfg(SATAW),
mc_make_sid_security_cfg(UFSHCW),
mc_make_sid_security_cfg(AFIW),
mc_make_sid_security_cfg(SDMMCR),
mc_make_sid_security_cfg(SCEDMAW),
mc_make_sid_security_cfg(UFSHCR),
mc_make_sid_security_cfg(SDMMCWAA),
mc_make_sid_security_cfg(APEDMAW),
mc_make_sid_security_cfg(SESWR),
mc_make_sid_security_cfg(MPCORER),
mc_make_sid_security_cfg(PTCR),
mc_make_sid_security_cfg(BPMPW),
mc_make_sid_security_cfg(ETRW),
mc_make_sid_security_cfg(GPUSRD),
mc_make_sid_security_cfg(VICSWR),
mc_make_sid_security_cfg(SCEDMAR),
mc_make_sid_security_cfg(HDAW),
mc_make_sid_security_cfg(ISPWA),
mc_make_sid_security_cfg(EQOSW),
mc_make_sid_security_cfg(XUSB_HOSTW),
mc_make_sid_security_cfg(TSECSWR),
mc_make_sid_security_cfg(SDMMCRAA),
mc_make_sid_security_cfg(APER),
mc_make_sid_security_cfg(VIW),
mc_make_sid_security_cfg(APEW),
mc_make_sid_security_cfg(AXISR),
mc_make_sid_security_cfg(SDMMCW),
mc_make_sid_security_cfg(BPMPDMAW),
mc_make_sid_security_cfg(ISPRA),
mc_make_sid_security_cfg(NVDECSWR),
mc_make_sid_security_cfg(XUSB_DEVW),
mc_make_sid_security_cfg(NVDECSRD),
mc_make_sid_security_cfg(MPCOREW),
mc_make_sid_security_cfg(NVDISPLAYR),
mc_make_sid_security_cfg(BPMPDMAR),
mc_make_sid_security_cfg(NVJPGSWR),
mc_make_sid_security_cfg(NVDECSRD1),
mc_make_sid_security_cfg(TSECSRD),
mc_make_sid_security_cfg(NVJPGSRD),
mc_make_sid_security_cfg(SDMMCWA),
mc_make_sid_security_cfg(SCER),
mc_make_sid_security_cfg(XUSB_HOSTR),
mc_make_sid_security_cfg(VICSRD),
mc_make_sid_security_cfg(AONDMAR),
mc_make_sid_security_cfg(AONW),
mc_make_sid_security_cfg(SDMMCRA),
mc_make_sid_security_cfg(HOST1XDMAR),
mc_make_sid_security_cfg(EQOSR),
mc_make_sid_security_cfg(SATAR),
mc_make_sid_security_cfg(BPMPR),
mc_make_sid_security_cfg(HDAR),
mc_make_sid_security_cfg(SDMMCRAB),
mc_make_sid_security_cfg(ETRR),
mc_make_sid_security_cfg(AONR),
mc_make_sid_security_cfg(APEDMAR),
mc_make_sid_security_cfg(SESRD),
mc_make_sid_security_cfg(NVENCSRD),
mc_make_sid_security_cfg(GPUSWR),
mc_make_sid_security_cfg(TSECSWRB),
mc_make_sid_security_cfg(ISPWB),
mc_make_sid_security_cfg(GPUSRD2),
mc_make_sid_override_cfg(APER),
mc_make_sid_override_cfg(VICSRD),
mc_make_sid_override_cfg(NVENCSRD),
mc_make_sid_override_cfg(NVJPGSWR),
mc_make_sid_override_cfg(AONW),
mc_make_sid_override_cfg(BPMPR),
mc_make_sid_override_cfg(BPMPW),
mc_make_sid_override_cfg(HDAW),
mc_make_sid_override_cfg(NVDISPLAYR1),
mc_make_sid_override_cfg(APEDMAR),
mc_make_sid_override_cfg(AFIR),
mc_make_sid_override_cfg(AXISR),
mc_make_sid_override_cfg(VICSRD1),
mc_make_sid_override_cfg(TSECSRD),
mc_make_sid_override_cfg(BPMPDMAW),
mc_make_sid_override_cfg(MPCOREW),
mc_make_sid_override_cfg(XUSB_HOSTR),
mc_make_sid_override_cfg(GPUSWR),
mc_make_sid_override_cfg(XUSB_DEVR),
mc_make_sid_override_cfg(UFSHCW),
mc_make_sid_override_cfg(XUSB_HOSTW),
mc_make_sid_override_cfg(SDMMCWAB),
mc_make_sid_override_cfg(SATAW),
mc_make_sid_override_cfg(SCEDMAR),
mc_make_sid_override_cfg(HOST1XDMAR),
mc_make_sid_override_cfg(SDMMCWA),
mc_make_sid_override_cfg(APEDMAW),
mc_make_sid_override_cfg(SESWR),
mc_make_sid_override_cfg(AXISW),
mc_make_sid_override_cfg(AONDMAW),
mc_make_sid_override_cfg(TSECSWRB),
mc_make_sid_override_cfg(MPCORER),
mc_make_sid_override_cfg(ISPWB),
mc_make_sid_override_cfg(AONR),
mc_make_sid_override_cfg(BPMPDMAR),
mc_make_sid_override_cfg(HDAR),
mc_make_sid_override_cfg(SDMMCRA),
mc_make_sid_override_cfg(ETRW),
mc_make_sid_override_cfg(GPUSWR2),
mc_make_sid_override_cfg(EQOSR),
mc_make_sid_override_cfg(TSECSWR),
mc_make_sid_override_cfg(ETRR),
mc_make_sid_override_cfg(NVDECSRD),
mc_make_sid_override_cfg(TSECSRDB),
mc_make_sid_override_cfg(SDMMCRAA),
mc_make_sid_override_cfg(NVDECSRD1),
mc_make_sid_override_cfg(SDMMCR),
mc_make_sid_override_cfg(NVJPGSRD),
mc_make_sid_override_cfg(SCEDMAW),
mc_make_sid_override_cfg(SDMMCWAA),
mc_make_sid_override_cfg(APEW),
mc_make_sid_override_cfg(AONDMAR),
mc_make_sid_override_cfg(PTCR),
mc_make_sid_override_cfg(SCER),
mc_make_sid_override_cfg(ISPRA),
mc_make_sid_override_cfg(ISPWA),
mc_make_sid_override_cfg(VICSWR),
mc_make_sid_override_cfg(SESRD),
mc_make_sid_override_cfg(SDMMCW),
mc_make_sid_override_cfg(SDMMCRAB),
mc_make_sid_override_cfg(EQOSW),
mc_make_sid_override_cfg(GPUSRD2),
mc_make_sid_override_cfg(SCEW),
mc_make_sid_override_cfg(GPUSRD),
mc_make_sid_override_cfg(NVDECSWR),
mc_make_sid_override_cfg(XUSB_DEVW),
mc_make_sid_override_cfg(SATAR),
mc_make_sid_override_cfg(NVDISPLAYR),
mc_make_sid_override_cfg(VIW),
mc_make_sid_override_cfg(UFSHCR),
mc_make_sid_override_cfg(NVENCSWR),
mc_make_sid_override_cfg(AFIW),
smmu_make_gnsr0_nsec_cfg(CR0),
smmu_make_gnsr0_sec_cfg(IDR0),
smmu_make_gnsr0_sec_cfg(IDR1),
smmu_make_gnsr0_sec_cfg(IDR2),
smmu_make_gnsr0_nsec_cfg(GFSR),
smmu_make_gnsr0_nsec_cfg(GFSYNR0),
smmu_make_gnsr0_nsec_cfg(GFSYNR1),
smmu_make_gnsr0_nsec_cfg(TLBGSTATUS),
smmu_make_gnsr0_nsec_cfg(PIDR2),
smmu_make_smrg_group(0),
smmu_make_smrg_group(1),
smmu_make_smrg_group(2),
smmu_make_smrg_group(3),
smmu_make_smrg_group(4),
smmu_make_smrg_group(5),
smmu_make_smrg_group(6),
smmu_make_smrg_group(7),
smmu_make_smrg_group(8),
smmu_make_smrg_group(9),
smmu_make_smrg_group(10),
smmu_make_smrg_group(11),
smmu_make_smrg_group(12),
smmu_make_smrg_group(13),
smmu_make_smrg_group(14),
smmu_make_smrg_group(15),
smmu_make_smrg_group(16),
smmu_make_smrg_group(17),
smmu_make_smrg_group(18),
smmu_make_smrg_group(19),
smmu_make_smrg_group(20),
smmu_make_smrg_group(21),
smmu_make_smrg_group(22),
smmu_make_smrg_group(23),
smmu_make_smrg_group(24),
smmu_make_smrg_group(25),
smmu_make_smrg_group(26),
smmu_make_smrg_group(27),
smmu_make_smrg_group(28),
smmu_make_smrg_group(29),
smmu_make_smrg_group(30),
smmu_make_smrg_group(31),
smmu_make_smrg_group(32),
smmu_make_smrg_group(33),
smmu_make_smrg_group(34),
smmu_make_smrg_group(35),
smmu_make_smrg_group(36),
smmu_make_smrg_group(37),
smmu_make_smrg_group(38),
smmu_make_smrg_group(39),
smmu_make_smrg_group(40),
smmu_make_smrg_group(41),
smmu_make_smrg_group(42),
smmu_make_smrg_group(43),
smmu_make_smrg_group(44),
smmu_make_smrg_group(45),
smmu_make_smrg_group(46),
smmu_make_smrg_group(47),
smmu_make_smrg_group(48),
smmu_make_smrg_group(49),
smmu_make_smrg_group(50),
smmu_make_smrg_group(51),
smmu_make_smrg_group(52),
smmu_make_smrg_group(53),
smmu_make_smrg_group(54),
smmu_make_smrg_group(55),
smmu_make_smrg_group(56),
smmu_make_smrg_group(57),
smmu_make_smrg_group(58),
smmu_make_smrg_group(59),
smmu_make_smrg_group(60),
smmu_make_smrg_group(61),
smmu_make_smrg_group(62),
smmu_make_smrg_group(63),
smmu_make_cb_group(0),
smmu_make_cb_group(1),
smmu_make_cb_group(2),
smmu_make_cb_group(3),
smmu_make_cb_group(4),
smmu_make_cb_group(5),
smmu_make_cb_group(6),
smmu_make_cb_group(7),
smmu_make_cb_group(8),
smmu_make_cb_group(9),
smmu_make_cb_group(10),
smmu_make_cb_group(11),
smmu_make_cb_group(12),
smmu_make_cb_group(13),
smmu_make_cb_group(14),
smmu_make_cb_group(15),
smmu_make_cb_group(16),
smmu_make_cb_group(17),
smmu_make_cb_group(18),
smmu_make_cb_group(19),
smmu_make_cb_group(20),
smmu_make_cb_group(21),
smmu_make_cb_group(22),
smmu_make_cb_group(23),
smmu_make_cb_group(24),
smmu_make_cb_group(25),
smmu_make_cb_group(26),
smmu_make_cb_group(27),
smmu_make_cb_group(28),
smmu_make_cb_group(29),
smmu_make_cb_group(30),
smmu_make_cb_group(31),
smmu_make_cb_group(32),
smmu_make_cb_group(33),
smmu_make_cb_group(34),
smmu_make_cb_group(35),
smmu_make_cb_group(36),
smmu_make_cb_group(37),
smmu_make_cb_group(38),
smmu_make_cb_group(39),
smmu_make_cb_group(40),
smmu_make_cb_group(41),
smmu_make_cb_group(42),
smmu_make_cb_group(43),
smmu_make_cb_group(44),
smmu_make_cb_group(45),
smmu_make_cb_group(46),
smmu_make_cb_group(47),
smmu_make_cb_group(48),
smmu_make_cb_group(49),
smmu_make_cb_group(50),
smmu_make_cb_group(51),
smmu_make_cb_group(52),
smmu_make_cb_group(53),
smmu_make_cb_group(54),
smmu_make_cb_group(55),
smmu_make_cb_group(56),
smmu_make_cb_group(57),
smmu_make_cb_group(58),
smmu_make_cb_group(59),
smmu_make_cb_group(60),
smmu_make_cb_group(61),
smmu_make_cb_group(62),
smmu_make_cb_group(63),
smmu_bypass_cfg, /* TBU settings */
_END_OF_TABLE_,
};
/* /*
* Save SMMU settings before "System Suspend" to TZDRAM * Save SMMU settings before "System Suspend" to TZDRAM
...@@ -432,6 +88,7 @@ static __attribute__((aligned(16))) smmu_regs_t smmu_ctx_regs[] = { ...@@ -432,6 +88,7 @@ static __attribute__((aligned(16))) smmu_regs_t smmu_ctx_regs[] = {
void tegra_smmu_save_context(uint64_t smmu_ctx_addr) void tegra_smmu_save_context(uint64_t smmu_ctx_addr)
{ {
uint32_t i; uint32_t i;
smmu_regs_t *smmu_ctx_regs;
#if DEBUG #if DEBUG
plat_params_from_bl2_t *params_from_bl2 = bl31_get_plat_params(); plat_params_from_bl2_t *params_from_bl2 = bl31_get_plat_params();
uint64_t tzdram_base = params_from_bl2->tzdram_base; uint64_t tzdram_base = params_from_bl2->tzdram_base;
...@@ -439,7 +96,7 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr) ...@@ -439,7 +96,7 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr)
uint32_t reg_id1, pgshift, cb_size; uint32_t reg_id1, pgshift, cb_size;
/* sanity check SMMU settings c*/ /* sanity check SMMU settings c*/
reg_id1 = mmio_read_32((TEGRA_SMMU_BASE + SMMU_GNSR0_IDR1)); reg_id1 = mmio_read_32((TEGRA_SMMU0_BASE + SMMU_GNSR0_IDR1));
pgshift = (reg_id1 & ID1_PAGESIZE) ? 16 : 12; pgshift = (reg_id1 & ID1_PAGESIZE) ? 16 : 12;
cb_size = (2 << pgshift) * \ cb_size = (2 << pgshift) * \
(1 << (((reg_id1 >> ID1_NUMPAGENDXB_SHIFT) & ID1_NUMPAGENDXB_MASK) + 1)); (1 << (((reg_id1 >> ID1_NUMPAGENDXB_SHIFT) & ID1_NUMPAGENDXB_MASK) + 1));
...@@ -449,11 +106,12 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr) ...@@ -449,11 +106,12 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr)
assert((smmu_ctx_addr >= tzdram_base) && (smmu_ctx_addr <= tzdram_end)); assert((smmu_ctx_addr >= tzdram_base) && (smmu_ctx_addr <= tzdram_end));
/* index of _END_OF_TABLE_ */ /* get SMMU context table */
smmu_ctx_regs[0].val = ARRAY_SIZE(smmu_ctx_regs) - 1; smmu_ctx_regs = plat_get_smmu_ctx();
assert(smmu_ctx_regs);
/* save SMMU register values */ /* save SMMU register values */
for (i = 1; i < ARRAY_SIZE(smmu_ctx_regs) - 1; i++) for (i = 1; i < smmu_ctx_regs[0].val; i++)
smmu_ctx_regs[i].val = mmio_read_32(smmu_ctx_regs[i].reg); smmu_ctx_regs[i].val = mmio_read_32(smmu_ctx_regs[i].reg);
/* Save SMMU config settings */ /* Save SMMU config settings */
...@@ -475,34 +133,39 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr) ...@@ -475,34 +133,39 @@ void tegra_smmu_save_context(uint64_t smmu_ctx_addr)
*/ */
void tegra_smmu_init(void) void tegra_smmu_init(void)
{ {
uint32_t val, i, ctx_base; uint32_t val, cb_idx, smmu_id, ctx_base;
for (smmu_id = 0; smmu_id < NUM_SMMU_DEVICES; smmu_id++) {
/* Program the SMMU pagesize and reset CACHE_LOCK bit */ /* Program the SMMU pagesize and reset CACHE_LOCK bit */
val = tegra_smmu_read_32(SMMU_GSR0_SECURE_ACR); val = tegra_smmu_read_32(smmu_id, SMMU_GSR0_SECURE_ACR);
val |= SMMU_GSR0_PGSIZE_64K; val |= SMMU_GSR0_PGSIZE_64K;
val &= ~SMMU_ACR_CACHE_LOCK_ENABLE_BIT; val &= ~SMMU_ACR_CACHE_LOCK_ENABLE_BIT;
tegra_smmu_write_32(SMMU_GSR0_SECURE_ACR, val); tegra_smmu_write_32(smmu_id, SMMU_GSR0_SECURE_ACR, val);
/* reset CACHE LOCK bit for NS Aux. Config. Register */ /* reset CACHE LOCK bit for NS Aux. Config. Register */
val = tegra_smmu_read_32(SMMU_GNSR_ACR); val = tegra_smmu_read_32(smmu_id, SMMU_GNSR_ACR);
val &= ~SMMU_ACR_CACHE_LOCK_ENABLE_BIT; val &= ~SMMU_ACR_CACHE_LOCK_ENABLE_BIT;
tegra_smmu_write_32(SMMU_GNSR_ACR, val); tegra_smmu_write_32(smmu_id, SMMU_GNSR_ACR, val);
/* disable TCU prefetch for all contexts */ /* disable TCU prefetch for all contexts */
ctx_base = (SMMU_GSR0_PGSIZE_64K * SMMU_NUM_CONTEXTS) + SMMU_CBn_ACTLR; ctx_base = (SMMU_GSR0_PGSIZE_64K * SMMU_NUM_CONTEXTS)
for (i = 0; i < SMMU_CONTEXT_BANK_MAX_IDX; i++) { + SMMU_CBn_ACTLR;
val = tegra_smmu_read_32(ctx_base + (SMMU_GSR0_PGSIZE_64K * i)); for (cb_idx = 0; cb_idx < SMMU_CONTEXT_BANK_MAX_IDX; cb_idx++) {
val = tegra_smmu_read_32(smmu_id,
ctx_base + (SMMU_GSR0_PGSIZE_64K * cb_idx));
val &= ~SMMU_CBn_ACTLR_CPRE_BIT; val &= ~SMMU_CBn_ACTLR_CPRE_BIT;
tegra_smmu_write_32(ctx_base + (SMMU_GSR0_PGSIZE_64K * i), val); tegra_smmu_write_32(smmu_id, ctx_base +
(SMMU_GSR0_PGSIZE_64K * cb_idx), val);
} }
/* set CACHE LOCK bit for NS Aux. Config. Register */ /* set CACHE LOCK bit for NS Aux. Config. Register */
val = tegra_smmu_read_32(SMMU_GNSR_ACR); val = tegra_smmu_read_32(smmu_id, SMMU_GNSR_ACR);
val |= SMMU_ACR_CACHE_LOCK_ENABLE_BIT; val |= SMMU_ACR_CACHE_LOCK_ENABLE_BIT;
tegra_smmu_write_32(SMMU_GNSR_ACR, val); tegra_smmu_write_32(smmu_id, SMMU_GNSR_ACR, val);
/* set CACHE LOCK bit for S Aux. Config. Register */ /* set CACHE LOCK bit for S Aux. Config. Register */
val = tegra_smmu_read_32(SMMU_GSR0_SECURE_ACR); val = tegra_smmu_read_32(smmu_id, SMMU_GSR0_SECURE_ACR);
val |= SMMU_ACR_CACHE_LOCK_ENABLE_BIT; val |= SMMU_ACR_CACHE_LOCK_ENABLE_BIT;
tegra_smmu_write_32(SMMU_GSR0_SECURE_ACR, val); tegra_smmu_write_32(smmu_id, SMMU_GSR0_SECURE_ACR, val);
}
} }
...@@ -202,9 +202,6 @@ void bl31_early_platform_setup(bl31_params_t *from_bl2, ...@@ -202,9 +202,6 @@ void bl31_early_platform_setup(bl31_params_t *from_bl2,
*/ */
console_init(tegra_console_base, TEGRA_BOOT_UART_CLK_IN_HZ, console_init(tegra_console_base, TEGRA_BOOT_UART_CLK_IN_HZ,
TEGRA_CONSOLE_BAUDRATE); TEGRA_CONSOLE_BAUDRATE);
/* Initialise crash console */
plat_crash_console_init();
} }
/* /*
...@@ -299,7 +296,16 @@ void bl31_platform_setup(void) ...@@ -299,7 +296,16 @@ void bl31_platform_setup(void)
******************************************************************************/ ******************************************************************************/
void bl31_plat_runtime_setup(void) void bl31_plat_runtime_setup(void)
{ {
; /* do nothing */ /*
* During boot, USB3 and flash media (SDMMC/SATA) devices need
* access to IRAM. Because these clients connect to the MC and
* do not have a direct path to the IRAM, the MC implements AHB
* redirection during boot to allow path to IRAM. In this mode
* accesses to a programmed memory address aperture are directed
* to the AHB bus, allowing access to the IRAM. This mode must be
* disabled before we jump to the non-secure world.
*/
tegra_memctrl_disable_ahb_redirection();
} }
/******************************************************************************* /*******************************************************************************
......
...@@ -69,6 +69,7 @@ typedef enum tegra_platform { ...@@ -69,6 +69,7 @@ typedef enum tegra_platform {
typedef enum tegra_chipid { typedef enum tegra_chipid {
TEGRA_CHIPID_TEGRA13 = 0x13, TEGRA_CHIPID_TEGRA13 = 0x13,
TEGRA_CHIPID_TEGRA21 = 0x21, TEGRA_CHIPID_TEGRA21 = 0x21,
TEGRA_CHIPID_TEGRA18 = 0x18,
} tegra_chipid_t; } tegra_chipid_t;
/* /*
...@@ -109,6 +110,13 @@ uint8_t tegra_chipid_is_t210(void) ...@@ -109,6 +110,13 @@ uint8_t tegra_chipid_is_t210(void)
return (chip_id == TEGRA_CHIPID_TEGRA21); return (chip_id == TEGRA_CHIPID_TEGRA21);
} }
uint8_t tegra_chipid_is_t186(void)
{
uint32_t chip_id = (tegra_get_chipid() >> CHIP_ID_SHIFT) & CHIP_ID_MASK;
return (chip_id == TEGRA_CHIPID_TEGRA18);
}
/* /*
* Read the chip ID value and derive the platform * Read the chip ID value and derive the platform
*/ */
......
/* /*
* Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -48,6 +48,14 @@ extern uint64_t tegra_bl31_phys_base; ...@@ -48,6 +48,14 @@ extern uint64_t tegra_bl31_phys_base;
extern uint64_t tegra_sec_entry_point; extern uint64_t tegra_sec_entry_point;
extern uint64_t tegra_console_base; extern uint64_t tegra_console_base;
/*
* tegra_fake_system_suspend acts as a boolean var controlling whether
* we are going to take fake system suspend code or normal system suspend code
* path. This variable is set inside the sip call handlers,when the kernel
* requests a SIP call to set the suspend debug flags.
*/
uint8_t tegra_fake_system_suspend;
/* /*
* The following platform setup functions are weakly defined. They * The following platform setup functions are weakly defined. They
* provide typical implementations that will be overridden by a SoC. * provide typical implementations that will be overridden by a SoC.
...@@ -182,14 +190,31 @@ void tegra_pwr_domain_suspend(const psci_power_state_t *target_state) ...@@ -182,14 +190,31 @@ void tegra_pwr_domain_suspend(const psci_power_state_t *target_state)
__dead2 void tegra_pwr_domain_power_down_wfi(const psci_power_state_t __dead2 void tegra_pwr_domain_power_down_wfi(const psci_power_state_t
*target_state) *target_state)
{ {
uint8_t pwr_state = target_state->pwr_domain_state[PLAT_MAX_PWR_LVL];
uint64_t rmr_el3 = 0;
/* call the chip's power down handler */ /* call the chip's power down handler */
tegra_soc_pwr_domain_power_down_wfi(target_state); tegra_soc_pwr_domain_power_down_wfi(target_state);
/*
* If we are in fake system suspend mode, ensure we start doing
* procedures that help in looping back towards system suspend exit
* instead of calling WFI by requesting a warm reset.
* Else, just call WFI to enter low power state.
*/
if ((tegra_fake_system_suspend != 0U) &&
(pwr_state == (uint8_t)PSTATE_ID_SOC_POWERDN)) {
/* warm reboot */
rmr_el3 = read_rmr_el3();
write_rmr_el3(rmr_el3 | RMR_WARM_RESET_CPU);
} else {
/* enter power down state */ /* enter power down state */
wfi(); wfi();
}
/* we can never reach here */ /* we can never reach here */
ERROR("%s: operation not handled.\n", __func__);
panic(); panic();
} }
......
/* /*
* Copyright (c) 2015, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -37,6 +37,7 @@ ...@@ -37,6 +37,7 @@
#include <memctrl.h> #include <memctrl.h>
#include <runtime_svc.h> #include <runtime_svc.h>
#include <tegra_private.h> #include <tegra_private.h>
#include <tegra_platform.h>
/******************************************************************************* /*******************************************************************************
* Common Tegra SiP SMCs * Common Tegra SiP SMCs
...@@ -44,6 +45,13 @@ ...@@ -44,6 +45,13 @@
#define TEGRA_SIP_NEW_VIDEOMEM_REGION 0x82000003 #define TEGRA_SIP_NEW_VIDEOMEM_REGION 0x82000003
#define TEGRA_SIP_FIQ_NS_ENTRYPOINT 0x82000005 #define TEGRA_SIP_FIQ_NS_ENTRYPOINT 0x82000005
#define TEGRA_SIP_FIQ_NS_GET_CONTEXT 0x82000006 #define TEGRA_SIP_FIQ_NS_GET_CONTEXT 0x82000006
#define TEGRA_SIP_ENABLE_FAKE_SYSTEM_SUSPEND 0xC2000007
/*******************************************************************************
* Fake system suspend mode control var
******************************************************************************/
extern uint8_t tegra_fake_system_suspend;
/******************************************************************************* /*******************************************************************************
* SoC specific SiP handler * SoC specific SiP handler
...@@ -144,6 +152,26 @@ uint64_t tegra_sip_handler(uint32_t smc_fid, ...@@ -144,6 +152,26 @@ uint64_t tegra_sip_handler(uint32_t smc_fid,
SMC_RET0(handle); SMC_RET0(handle);
break; break;
case TEGRA_SIP_ENABLE_FAKE_SYSTEM_SUSPEND:
/*
* System suspend fake mode is set if we are on VDK and we make
* a debug SIP call. This mode ensures that we excercise debug
* path instead of the regular code path to suit the pre-silicon
* platform needs. These include replacing the call to WFI by
* a warm reset request.
*/
if (tegra_platform_is_emulation() != 0U) {
tegra_fake_system_suspend = 1;
SMC_RET1(handle, 0);
}
/*
* We return to the external world as if this SIP is not
* implemented in case, we are not running on VDK.
*/
break;
default: default:
ERROR("%s: unhandled SMC (0x%x)\n", __func__, smc_fid); ERROR("%s: unhandled SMC (0x%x)\n", __func__, smc_fid);
break; break;
......
/* /*
* Copyright (c) 2015, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -34,34 +34,34 @@ ...@@ -34,34 +34,34 @@
#include <mmio.h> #include <mmio.h>
#include <tegra_def.h> #include <tegra_def.h>
#define FLOWCTRL_HALT_CPU0_EVENTS 0x0 #define FLOWCTRL_HALT_CPU0_EVENTS 0x0U
#define FLOWCTRL_WAITEVENT (2 << 29) #define FLOWCTRL_WAITEVENT (2U << 29)
#define FLOWCTRL_WAIT_FOR_INTERRUPT (4 << 29) #define FLOWCTRL_WAIT_FOR_INTERRUPT (4U << 29)
#define FLOWCTRL_JTAG_RESUME (1 << 28) #define FLOWCTRL_JTAG_RESUME (1U << 28)
#define FLOWCTRL_HALT_SCLK (1 << 27) #define FLOWCTRL_HALT_SCLK (1U << 27)
#define FLOWCTRL_HALT_LIC_IRQ (1 << 11) #define FLOWCTRL_HALT_LIC_IRQ (1U << 11)
#define FLOWCTRL_HALT_LIC_FIQ (1 << 10) #define FLOWCTRL_HALT_LIC_FIQ (1U << 10)
#define FLOWCTRL_HALT_GIC_IRQ (1 << 9) #define FLOWCTRL_HALT_GIC_IRQ (1U << 9)
#define FLOWCTRL_HALT_GIC_FIQ (1 << 8) #define FLOWCTRL_HALT_GIC_FIQ (1U << 8)
#define FLOWCTRL_HALT_BPMP_EVENTS 0x4 #define FLOWCTRL_HALT_BPMP_EVENTS 0x4U
#define FLOWCTRL_CPU0_CSR 0x8 #define FLOWCTRL_CPU0_CSR 0x8U
#define FLOW_CTRL_CSR_PWR_OFF_STS (1 << 16) #define FLOW_CTRL_CSR_PWR_OFF_STS (1U << 16)
#define FLOWCTRL_CSR_INTR_FLAG (1 << 15) #define FLOWCTRL_CSR_INTR_FLAG (1U << 15)
#define FLOWCTRL_CSR_EVENT_FLAG (1 << 14) #define FLOWCTRL_CSR_EVENT_FLAG (1U << 14)
#define FLOWCTRL_CSR_IMMEDIATE_WAKE (1 << 3) #define FLOWCTRL_CSR_IMMEDIATE_WAKE (1U << 3)
#define FLOWCTRL_CSR_ENABLE (1 << 0) #define FLOWCTRL_CSR_ENABLE (1U << 0)
#define FLOWCTRL_HALT_CPU1_EVENTS 0x14 #define FLOWCTRL_HALT_CPU1_EVENTS 0x14U
#define FLOWCTRL_CPU1_CSR 0x18 #define FLOWCTRL_CPU1_CSR 0x18U
#define FLOWCTRL_CC4_CORE0_CTRL 0x6c #define FLOWCTRL_CC4_CORE0_CTRL 0x6cU
#define FLOWCTRL_WAIT_WFI_BITMAP 0x100 #define FLOWCTRL_WAIT_WFI_BITMAP 0x100U
#define FLOWCTRL_L2_FLUSH_CONTROL 0x94 #define FLOWCTRL_L2_FLUSH_CONTROL 0x94U
#define FLOWCTRL_BPMP_CLUSTER_CONTROL 0x98 #define FLOWCTRL_BPMP_CLUSTER_CONTROL 0x98U
#define FLOWCTRL_BPMP_CLUSTER_PWRON_LOCK (1 << 2) #define FLOWCTRL_BPMP_CLUSTER_PWRON_LOCK (1U << 2)
#define FLOWCTRL_ENABLE_EXT 12 #define FLOWCTRL_ENABLE_EXT 12U
#define FLOWCTRL_ENABLE_EXT_MASK 3 #define FLOWCTRL_ENABLE_EXT_MASK 3U
#define FLOWCTRL_PG_CPU_NONCPU 0x1 #define FLOWCTRL_PG_CPU_NONCPU 0x1U
#define FLOWCTRL_TURNOFF_CPURAIL 0x2 #define FLOWCTRL_TURNOFF_CPURAIL 0x2U
static inline uint32_t tegra_fc_read_32(uint32_t off) static inline uint32_t tegra_fc_read_32(uint32_t off)
{ {
......
/* /*
* Copyright (c) 2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2016-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -38,35 +38,35 @@ ...@@ -38,35 +38,35 @@
* MCE commands * MCE commands
******************************************************************************/ ******************************************************************************/
typedef enum mce_cmd { typedef enum mce_cmd {
MCE_CMD_ENTER_CSTATE = 0, MCE_CMD_ENTER_CSTATE = 0U,
MCE_CMD_UPDATE_CSTATE_INFO = 1, MCE_CMD_UPDATE_CSTATE_INFO = 1U,
MCE_CMD_UPDATE_CROSSOVER_TIME = 2, MCE_CMD_UPDATE_CROSSOVER_TIME = 2U,
MCE_CMD_READ_CSTATE_STATS = 3, MCE_CMD_READ_CSTATE_STATS = 3U,
MCE_CMD_WRITE_CSTATE_STATS = 4, MCE_CMD_WRITE_CSTATE_STATS = 4U,
MCE_CMD_IS_SC7_ALLOWED = 5, MCE_CMD_IS_SC7_ALLOWED = 5U,
MCE_CMD_ONLINE_CORE = 6, MCE_CMD_ONLINE_CORE = 6U,
MCE_CMD_CC3_CTRL = 7, MCE_CMD_CC3_CTRL = 7U,
MCE_CMD_ECHO_DATA = 8, MCE_CMD_ECHO_DATA = 8U,
MCE_CMD_READ_VERSIONS = 9, MCE_CMD_READ_VERSIONS = 9U,
MCE_CMD_ENUM_FEATURES = 10, MCE_CMD_ENUM_FEATURES = 10U,
MCE_CMD_ROC_FLUSH_CACHE_TRBITS = 11, MCE_CMD_ROC_FLUSH_CACHE_TRBITS = 11U,
MCE_CMD_ENUM_READ_MCA = 12, MCE_CMD_ENUM_READ_MCA = 12U,
MCE_CMD_ENUM_WRITE_MCA = 13, MCE_CMD_ENUM_WRITE_MCA = 13U,
MCE_CMD_ROC_FLUSH_CACHE = 14, MCE_CMD_ROC_FLUSH_CACHE = 14U,
MCE_CMD_ROC_CLEAN_CACHE = 15, MCE_CMD_ROC_CLEAN_CACHE = 15U,
MCE_CMD_ENABLE_LATIC = 16, MCE_CMD_ENABLE_LATIC = 16U,
MCE_CMD_UNCORE_PERFMON_REQ = 17, MCE_CMD_UNCORE_PERFMON_REQ = 17U,
MCE_CMD_MISC_CCPLEX = 18, MCE_CMD_MISC_CCPLEX = 18U,
MCE_CMD_IS_CCX_ALLOWED = 0xFE, MCE_CMD_IS_CCX_ALLOWED = 0xFEU,
MCE_CMD_MAX = 0xFF, MCE_CMD_MAX = 0xFFU,
} mce_cmd_t; } mce_cmd_t;
#define MCE_CMD_MASK 0xFF #define MCE_CMD_MASK 0xFFU
/******************************************************************************* /*******************************************************************************
* Timeout value used to powerdown a core * Timeout value used to powerdown a core
******************************************************************************/ ******************************************************************************/
#define MCE_CORE_SLEEP_TIME_INFINITE 0xFFFFFFFF #define MCE_CORE_SLEEP_TIME_INFINITE 0xFFFFFFFFU
/******************************************************************************* /*******************************************************************************
* Struct to prepare UPDATE_CSTATE_INFO request * Struct to prepare UPDATE_CSTATE_INFO request
......
/* /*
* Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -36,5 +36,6 @@ void tegra_memctrl_restore_settings(void); ...@@ -36,5 +36,6 @@ void tegra_memctrl_restore_settings(void);
void tegra_memctrl_tzdram_setup(uint64_t phys_base, uint32_t size_in_bytes); void tegra_memctrl_tzdram_setup(uint64_t phys_base, uint32_t size_in_bytes);
void tegra_memctrl_tzram_setup(uint64_t phys_base, uint32_t size_in_bytes); void tegra_memctrl_tzram_setup(uint64_t phys_base, uint32_t size_in_bytes);
void tegra_memctrl_videomem_setup(uint64_t phys_base, uint32_t size_in_bytes); void tegra_memctrl_videomem_setup(uint64_t phys_base, uint32_t size_in_bytes);
void tegra_memctrl_disable_ahb_redirection(void);
#endif /* __MEMCTRL_H__ */ #endif /* __MEMCTRL_H__ */
/* /*
* Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -35,31 +35,38 @@ ...@@ -35,31 +35,38 @@
#include <tegra_def.h> #include <tegra_def.h>
/* SMMU registers */ /* SMMU registers */
#define MC_SMMU_CONFIG_0 0x10 #define MC_SMMU_CONFIG_0 0x10U
#define MC_SMMU_CONFIG_0_SMMU_ENABLE_DISABLE 0 #define MC_SMMU_CONFIG_0_SMMU_ENABLE_DISABLE 0U
#define MC_SMMU_CONFIG_0_SMMU_ENABLE_ENABLE 1 #define MC_SMMU_CONFIG_0_SMMU_ENABLE_ENABLE 1U
#define MC_SMMU_TLB_CONFIG_0 0x14 #define MC_SMMU_TLB_CONFIG_0 0x14U
#define MC_SMMU_TLB_CONFIG_0_RESET_VAL 0x20000010 #define MC_SMMU_TLB_CONFIG_0_RESET_VAL 0x20000010U
#define MC_SMMU_PTC_CONFIG_0 0x18 #define MC_SMMU_PTC_CONFIG_0 0x18U
#define MC_SMMU_PTC_CONFIG_0_RESET_VAL 0x2000003f #define MC_SMMU_PTC_CONFIG_0_RESET_VAL 0x2000003fU
#define MC_SMMU_TLB_FLUSH_0 0x30 #define MC_SMMU_TLB_FLUSH_0 0x30U
#define TLB_FLUSH_VA_MATCH_ALL 0 #define TLB_FLUSH_VA_MATCH_ALL 0U
#define TLB_FLUSH_ASID_MATCH_DISABLE 0 #define TLB_FLUSH_ASID_MATCH_DISABLE 0U
#define TLB_FLUSH_ASID_MATCH_SHIFT 31 #define TLB_FLUSH_ASID_MATCH_SHIFT 31U
#define MC_SMMU_TLB_FLUSH_ALL \ #define MC_SMMU_TLB_FLUSH_ALL \
(TLB_FLUSH_VA_MATCH_ALL | \ (TLB_FLUSH_VA_MATCH_ALL | \
(TLB_FLUSH_ASID_MATCH_DISABLE << TLB_FLUSH_ASID_MATCH_SHIFT)) (TLB_FLUSH_ASID_MATCH_DISABLE << TLB_FLUSH_ASID_MATCH_SHIFT))
#define MC_SMMU_PTC_FLUSH_0 0x34 #define MC_SMMU_PTC_FLUSH_0 0x34U
#define MC_SMMU_PTC_FLUSH_ALL 0 #define MC_SMMU_PTC_FLUSH_ALL 0U
#define MC_SMMU_ASID_SECURITY_0 0x38 #define MC_SMMU_ASID_SECURITY_0 0x38U
#define MC_SMMU_ASID_SECURITY 0 #define MC_SMMU_ASID_SECURITY 0U
#define MC_SMMU_TRANSLATION_ENABLE_0_0 0x228 #define MC_SMMU_TRANSLATION_ENABLE_0_0 0x228U
#define MC_SMMU_TRANSLATION_ENABLE_1_0 0x22c #define MC_SMMU_TRANSLATION_ENABLE_1_0 0x22cU
#define MC_SMMU_TRANSLATION_ENABLE_2_0 0x230 #define MC_SMMU_TRANSLATION_ENABLE_2_0 0x230U
#define MC_SMMU_TRANSLATION_ENABLE_3_0 0x234 #define MC_SMMU_TRANSLATION_ENABLE_3_0 0x234U
#define MC_SMMU_TRANSLATION_ENABLE_4_0 0xb98 #define MC_SMMU_TRANSLATION_ENABLE_4_0 0xb98U
#define MC_SMMU_TRANSLATION_ENABLE (~0) #define MC_SMMU_TRANSLATION_ENABLE (~0)
/* MC IRAM aperture registers */
#define MC_IRAM_BASE_LO 0x65CU
#define MC_IRAM_TOP_LO 0x660U
#define MC_IRAM_BASE_TOP_HI 0x980U
#define MC_IRAM_REG_CTRL 0x964U
#define MC_DISABLE_IRAM_CFG_WRITES 1U
static inline uint32_t tegra_mc_read_32(uint32_t off) static inline uint32_t tegra_mc_read_32(uint32_t off)
{ {
return mmio_read_32(TEGRA_MC_BASE + off); return mmio_read_32(TEGRA_MC_BASE + off);
......
/* /*
* Copyright (c) 2015, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -34,19 +34,19 @@ ...@@ -34,19 +34,19 @@
#include <mmio.h> #include <mmio.h>
#include <tegra_def.h> #include <tegra_def.h>
#define PMC_CONFIG 0x0 #define PMC_CONFIG 0x0U
#define PMC_PWRGATE_STATUS 0x38 #define PMC_PWRGATE_STATUS 0x38U
#define PMC_PWRGATE_TOGGLE 0x30 #define PMC_PWRGATE_TOGGLE 0x30U
#define PMC_TOGGLE_START 0x100 #define PMC_TOGGLE_START 0x100U
#define PMC_SCRATCH39 0x138 #define PMC_SCRATCH39 0x138U
#define PMC_SECURE_DISABLE2 0x2c4 #define PMC_SECURE_DISABLE2 0x2c4U
#define PMC_SECURE_DISABLE2_WRITE22_ON (1 << 28) #define PMC_SECURE_DISABLE2_WRITE22_ON (1U << 28)
#define PMC_SECURE_SCRATCH22 0x338 #define PMC_SECURE_SCRATCH22 0x338U
#define PMC_SECURE_DISABLE3 0x2d8 #define PMC_SECURE_DISABLE3 0x2d8U
#define PMC_SECURE_DISABLE3_WRITE34_ON (1 << 20) #define PMC_SECURE_DISABLE3_WRITE34_ON (1U << 20)
#define PMC_SECURE_DISABLE3_WRITE35_ON (1 << 22) #define PMC_SECURE_DISABLE3_WRITE35_ON (1U << 22)
#define PMC_SECURE_SCRATCH34 0x368 #define PMC_SECURE_SCRATCH34 0x368U
#define PMC_SECURE_SCRATCH35 0x36c #define PMC_SECURE_SCRATCH35 0x36cU
static inline uint32_t tegra_pmc_read_32(uint32_t off) static inline uint32_t tegra_pmc_read_32(uint32_t off)
{ {
......
...@@ -38,603 +38,695 @@ ...@@ -38,603 +38,695 @@
/******************************************************************************* /*******************************************************************************
* SMMU Register constants * SMMU Register constants
******************************************************************************/ ******************************************************************************/
#define SMMU_CBn_SCTLR (0x0) #define SMMU_CBn_SCTLR (0x0U)
#define SMMU_CBn_SCTLR_STAGE2 (0x0) #define SMMU_CBn_SCTLR_STAGE2 (0x0U)
#define SMMU_CBn_ACTLR (0x4) #define SMMU_CBn_ACTLR (0x4U)
#define SMMU_CBn_RESUME (0x8) #define SMMU_CBn_RESUME (0x8U)
#define SMMU_CBn_TCR2 (0x10) #define SMMU_CBn_TCR2 (0x10U)
#define SMMU_CBn_TTBR0_LO (0x20) #define SMMU_CBn_TTBR0_LO (0x20U)
#define SMMU_CBn_TTBR0_HI (0x24) #define SMMU_CBn_TTBR0_HI (0x24U)
#define SMMU_CBn_TTBR1_LO (0x28) #define SMMU_CBn_TTBR1_LO (0x28U)
#define SMMU_CBn_TTBR1_HI (0x2c) #define SMMU_CBn_TTBR1_HI (0x2cU)
#define SMMU_CBn_TCR_LPAE (0x30) #define SMMU_CBn_TCR_LPAE (0x30U)
#define SMMU_CBn_TCR (0x30) #define SMMU_CBn_TCR (0x30U)
#define SMMU_CBn_TCR_EAE_1 (0x30) #define SMMU_CBn_TCR_EAE_1 (0x30U)
#define SMMU_CBn_TCR (0x30) #define SMMU_CBn_TCR (0x30U)
#define SMMU_CBn_CONTEXTIDR (0x34) #define SMMU_CBn_CONTEXTIDR (0x34U)
#define SMMU_CBn_CONTEXTIDR_EAE_1 (0x34) #define SMMU_CBn_CONTEXTIDR_EAE_1 (0x34U)
#define SMMU_CBn_PRRR_MAIR0 (0x38) #define SMMU_CBn_PRRR_MAIR0 (0x38U)
#define SMMU_CBn_NMRR_MAIR1 (0x3c) #define SMMU_CBn_NMRR_MAIR1 (0x3cU)
#define SMMU_CBn_SMMU_CBn_PAR (0x50) #define SMMU_CBn_SMMU_CBn_PAR (0x50U)
#define SMMU_CBn_SMMU_CBn_PAR0 (0x50) #define SMMU_CBn_SMMU_CBn_PAR0 (0x50U)
#define SMMU_CBn_SMMU_CBn_PAR1 (0x54) #define SMMU_CBn_SMMU_CBn_PAR1 (0x54U)
/* SMMU_CBn_SMMU_CBn_PAR0_Fault (0x50) */ /* SMMU_CBn_SMMU_CBn_PAR0_Fault (0x50U) */
/* SMMU_CBn_SMMU_CBn_PAR0_Fault (0x54) */ /* SMMU_CBn_SMMU_CBn_PAR0_Fault (0x54U) */
#define SMMU_CBn_FSR (0x58) #define SMMU_CBn_FSR (0x58U)
#define SMMU_CBn_FSRRESTORE (0x5c) #define SMMU_CBn_FSRRESTORE (0x5cU)
#define SMMU_CBn_FAR_LO (0x60) #define SMMU_CBn_FAR_LO (0x60U)
#define SMMU_CBn_FAR_HI (0x64) #define SMMU_CBn_FAR_HI (0x64U)
#define SMMU_CBn_FSYNR0 (0x68) #define SMMU_CBn_FSYNR0 (0x68U)
#define SMMU_CBn_IPAFAR_LO (0x70) #define SMMU_CBn_IPAFAR_LO (0x70U)
#define SMMU_CBn_IPAFAR_HI (0x74) #define SMMU_CBn_IPAFAR_HI (0x74U)
#define SMMU_CBn_TLBIVA_LO (0x600) #define SMMU_CBn_TLBIVA_LO (0x600U)
#define SMMU_CBn_TLBIVA_HI (0x604) #define SMMU_CBn_TLBIVA_HI (0x604U)
#define SMMU_CBn_TLBIVA_AARCH_32 (0x600) #define SMMU_CBn_TLBIVA_AARCH_32 (0x600U)
#define SMMU_CBn_TLBIVAA_LO (0x608) #define SMMU_CBn_TLBIVAA_LO (0x608U)
#define SMMU_CBn_TLBIVAA_HI (0x60c) #define SMMU_CBn_TLBIVAA_HI (0x60cU)
#define SMMU_CBn_TLBIVAA_AARCH_32 (0x608) #define SMMU_CBn_TLBIVAA_AARCH_32 (0x608U)
#define SMMU_CBn_TLBIASID (0x610) #define SMMU_CBn_TLBIASID (0x610U)
#define SMMU_CBn_TLBIALL (0x618) #define SMMU_CBn_TLBIALL (0x618U)
#define SMMU_CBn_TLBIVAL_LO (0x620) #define SMMU_CBn_TLBIVAL_LO (0x620U)
#define SMMU_CBn_TLBIVAL_HI (0x624) #define SMMU_CBn_TLBIVAL_HI (0x624U)
#define SMMU_CBn_TLBIVAL_AARCH_32 (0x618) #define SMMU_CBn_TLBIVAL_AARCH_32 (0x618U)
#define SMMU_CBn_TLBIVAAL_LO (0x628) #define SMMU_CBn_TLBIVAAL_LO (0x628U)
#define SMMU_CBn_TLBIVAAL_HI (0x62c) #define SMMU_CBn_TLBIVAAL_HI (0x62cU)
#define SMMU_CBn_TLBIVAAL_AARCH_32 (0x628) #define SMMU_CBn_TLBIVAAL_AARCH_32 (0x628U)
#define SMMU_CBn_TLBIIPAS2_LO (0x630) #define SMMU_CBn_TLBIIPAS2_LO (0x630U)
#define SMMU_CBn_TLBIIPAS2_HI (0x634) #define SMMU_CBn_TLBIIPAS2_HI (0x634U)
#define SMMU_CBn_TLBIIPAS2L_LO (0x638) #define SMMU_CBn_TLBIIPAS2L_LO (0x638U)
#define SMMU_CBn_TLBIIPAS2L_HI (0x63c) #define SMMU_CBn_TLBIIPAS2L_HI (0x63cU)
#define SMMU_CBn_TLBSYNC (0x7f0) #define SMMU_CBn_TLBSYNC (0x7f0U)
#define SMMU_CBn_TLBSTATUS (0x7f4) #define SMMU_CBn_TLBSTATUS (0x7f4U)
#define SMMU_CBn_ATSR (0x800) #define SMMU_CBn_ATSR (0x800U)
#define SMMU_CBn_PMEVCNTR0 (0xe00) #define SMMU_CBn_PMEVCNTR0 (0xe00U)
#define SMMU_CBn_PMEVCNTR1 (0xe04) #define SMMU_CBn_PMEVCNTR1 (0xe04U)
#define SMMU_CBn_PMEVCNTR2 (0xe08) #define SMMU_CBn_PMEVCNTR2 (0xe08U)
#define SMMU_CBn_PMEVCNTR3 (0xe0c) #define SMMU_CBn_PMEVCNTR3 (0xe0cU)
#define SMMU_CBn_PMEVTYPER0 (0xe80) #define SMMU_CBn_PMEVTYPER0 (0xe80U)
#define SMMU_CBn_PMEVTYPER1 (0xe84) #define SMMU_CBn_PMEVTYPER1 (0xe84U)
#define SMMU_CBn_PMEVTYPER2 (0xe88) #define SMMU_CBn_PMEVTYPER2 (0xe88U)
#define SMMU_CBn_PMEVTYPER3 (0xe8c) #define SMMU_CBn_PMEVTYPER3 (0xe8cU)
#define SMMU_CBn_PMCFGR (0xf00) #define SMMU_CBn_PMCFGR (0xf00U)
#define SMMU_CBn_PMCR (0xf04) #define SMMU_CBn_PMCR (0xf04U)
#define SMMU_CBn_PMCEID (0xf20) #define SMMU_CBn_PMCEID (0xf20U)
#define SMMU_CBn_PMCNTENSE (0xf40) #define SMMU_CBn_PMCNTENSE (0xf40U)
#define SMMU_CBn_PMCNTENCLR (0xf44) #define SMMU_CBn_PMCNTENCLR (0xf44U)
#define SMMU_CBn_PMCNTENSET (0xf48) #define SMMU_CBn_PMCNTENSET (0xf48U)
#define SMMU_CBn_PMINTENCLR (0xf4c) #define SMMU_CBn_PMINTENCLR (0xf4cU)
#define SMMU_CBn_PMOVSCLR (0xf50) #define SMMU_CBn_PMOVSCLR (0xf50U)
#define SMMU_CBn_PMOVSSET (0xf58) #define SMMU_CBn_PMOVSSET (0xf58U)
#define SMMU_CBn_PMAUTHSTATUS (0xfb8) #define SMMU_CBn_PMAUTHSTATUS (0xfb8U)
#define SMMU_GNSR0_CR0 (0x0) #define SMMU_GNSR0_CR0 (0x0U)
#define SMMU_GNSR0_CR2 (0x8) #define SMMU_GNSR0_CR2 (0x8U)
#define SMMU_GNSR0_ACR (0x10) #define SMMU_GNSR0_ACR (0x10U)
#define SMMU_GNSR0_IDR0 (0x20) #define SMMU_GNSR0_IDR0 (0x20U)
#define SMMU_GNSR0_IDR1 (0x24) #define SMMU_GNSR0_IDR1 (0x24U)
#define SMMU_GNSR0_IDR2 (0x28) #define SMMU_GNSR0_IDR2 (0x28U)
#define SMMU_GNSR0_IDR7 (0x3c) #define SMMU_GNSR0_IDR7 (0x3cU)
#define SMMU_GNSR0_GFAR_LO (0x40) #define SMMU_GNSR0_GFAR_LO (0x40U)
#define SMMU_GNSR0_GFAR_HI (0x44) #define SMMU_GNSR0_GFAR_HI (0x44U)
#define SMMU_GNSR0_GFSR (0x48) #define SMMU_GNSR0_GFSR (0x48U)
#define SMMU_GNSR0_GFSRRESTORE (0x4c) #define SMMU_GNSR0_GFSRRESTORE (0x4cU)
#define SMMU_GNSR0_GFSYNR0 (0x50) #define SMMU_GNSR0_GFSYNR0 (0x50U)
#define SMMU_GNSR0_GFSYNR1 (0x54) #define SMMU_GNSR0_GFSYNR1 (0x54U)
#define SMMU_GNSR0_GFSYNR1_v2 (0x54) #define SMMU_GNSR0_GFSYNR1_v2 (0x54U)
#define SMMU_GNSR0_TLBIVMID (0x64) #define SMMU_GNSR0_TLBIVMID (0x64U)
#define SMMU_GNSR0_TLBIALLNSNH (0x68) #define SMMU_GNSR0_TLBIALLNSNH (0x68U)
#define SMMU_GNSR0_TLBIALLH (0x6c) #define SMMU_GNSR0_TLBIALLH (0x6cU)
#define SMMU_GNSR0_TLBGSYNC (0x70) #define SMMU_GNSR0_TLBGSYNC (0x70U)
#define SMMU_GNSR0_TLBGSTATUS (0x74) #define SMMU_GNSR0_TLBGSTATUS (0x74U)
#define SMMU_GNSR0_TLBIVAH_LO (0x78) #define SMMU_GNSR0_TLBIVAH_LO (0x78U)
#define SMMU_GNSR0_TLBIVALH64_LO (0xb0) #define SMMU_GNSR0_TLBIVALH64_LO (0xb0U)
#define SMMU_GNSR0_TLBIVALH64_HI (0xb4) #define SMMU_GNSR0_TLBIVALH64_HI (0xb4U)
#define SMMU_GNSR0_TLBIVMIDS1 (0xb8) #define SMMU_GNSR0_TLBIVMIDS1 (0xb8U)
#define SMMU_GNSR0_TLBIVAH64_LO (0xc0) #define SMMU_GNSR0_TLBIVAH64_LO (0xc0U)
#define SMMU_GNSR0_TLBIVAH64_HI (0xc4) #define SMMU_GNSR0_TLBIVAH64_HI (0xc4U)
#define SMMU_GNSR0_SMR0 (0x800) #define SMMU_GNSR0_SMR0 (0x800U)
#define SMMU_GNSR0_SMRn (0x800) #define SMMU_GNSR0_SMRn (0x800U)
#define SMMU_GNSR0_SMR1 (0x804) #define SMMU_GNSR0_SMR1 (0x804U)
#define SMMU_GNSR0_SMR2 (0x808) #define SMMU_GNSR0_SMR2 (0x808U)
#define SMMU_GNSR0_SMR3 (0x80c) #define SMMU_GNSR0_SMR3 (0x80cU)
#define SMMU_GNSR0_SMR4 (0x810) #define SMMU_GNSR0_SMR4 (0x810U)
#define SMMU_GNSR0_SMR5 (0x814) #define SMMU_GNSR0_SMR5 (0x814U)
#define SMMU_GNSR0_SMR6 (0x818) #define SMMU_GNSR0_SMR6 (0x818U)
#define SMMU_GNSR0_SMR7 (0x81c) #define SMMU_GNSR0_SMR7 (0x81cU)
#define SMMU_GNSR0_SMR8 (0x820) #define SMMU_GNSR0_SMR8 (0x820U)
#define SMMU_GNSR0_SMR9 (0x824) #define SMMU_GNSR0_SMR9 (0x824U)
#define SMMU_GNSR0_SMR10 (0x828) #define SMMU_GNSR0_SMR10 (0x828U)
#define SMMU_GNSR0_SMR11 (0x82c) #define SMMU_GNSR0_SMR11 (0x82cU)
#define SMMU_GNSR0_SMR12 (0x830) #define SMMU_GNSR0_SMR12 (0x830U)
#define SMMU_GNSR0_SMR13 (0x834) #define SMMU_GNSR0_SMR13 (0x834U)
#define SMMU_GNSR0_SMR14 (0x838) #define SMMU_GNSR0_SMR14 (0x838U)
#define SMMU_GNSR0_SMR15 (0x83c) #define SMMU_GNSR0_SMR15 (0x83cU)
#define SMMU_GNSR0_SMR16 (0x840) #define SMMU_GNSR0_SMR16 (0x840U)
#define SMMU_GNSR0_SMR17 (0x844) #define SMMU_GNSR0_SMR17 (0x844U)
#define SMMU_GNSR0_SMR18 (0x848) #define SMMU_GNSR0_SMR18 (0x848U)
#define SMMU_GNSR0_SMR19 (0x84c) #define SMMU_GNSR0_SMR19 (0x84cU)
#define SMMU_GNSR0_SMR20 (0x850) #define SMMU_GNSR0_SMR20 (0x850U)
#define SMMU_GNSR0_SMR21 (0x854) #define SMMU_GNSR0_SMR21 (0x854U)
#define SMMU_GNSR0_SMR22 (0x858) #define SMMU_GNSR0_SMR22 (0x858U)
#define SMMU_GNSR0_SMR23 (0x85c) #define SMMU_GNSR0_SMR23 (0x85cU)
#define SMMU_GNSR0_SMR24 (0x860) #define SMMU_GNSR0_SMR24 (0x860U)
#define SMMU_GNSR0_SMR25 (0x864) #define SMMU_GNSR0_SMR25 (0x864U)
#define SMMU_GNSR0_SMR26 (0x868) #define SMMU_GNSR0_SMR26 (0x868U)
#define SMMU_GNSR0_SMR27 (0x86c) #define SMMU_GNSR0_SMR27 (0x86cU)
#define SMMU_GNSR0_SMR28 (0x870) #define SMMU_GNSR0_SMR28 (0x870U)
#define SMMU_GNSR0_SMR29 (0x874) #define SMMU_GNSR0_SMR29 (0x874U)
#define SMMU_GNSR0_SMR30 (0x878) #define SMMU_GNSR0_SMR30 (0x878U)
#define SMMU_GNSR0_SMR31 (0x87c) #define SMMU_GNSR0_SMR31 (0x87cU)
#define SMMU_GNSR0_SMR32 (0x880) #define SMMU_GNSR0_SMR32 (0x880U)
#define SMMU_GNSR0_SMR33 (0x884) #define SMMU_GNSR0_SMR33 (0x884U)
#define SMMU_GNSR0_SMR34 (0x888) #define SMMU_GNSR0_SMR34 (0x888U)
#define SMMU_GNSR0_SMR35 (0x88c) #define SMMU_GNSR0_SMR35 (0x88cU)
#define SMMU_GNSR0_SMR36 (0x890) #define SMMU_GNSR0_SMR36 (0x890U)
#define SMMU_GNSR0_SMR37 (0x894) #define SMMU_GNSR0_SMR37 (0x894U)
#define SMMU_GNSR0_SMR38 (0x898) #define SMMU_GNSR0_SMR38 (0x898U)
#define SMMU_GNSR0_SMR39 (0x89c) #define SMMU_GNSR0_SMR39 (0x89cU)
#define SMMU_GNSR0_SMR40 (0x8a0) #define SMMU_GNSR0_SMR40 (0x8a0U)
#define SMMU_GNSR0_SMR41 (0x8a4) #define SMMU_GNSR0_SMR41 (0x8a4U)
#define SMMU_GNSR0_SMR42 (0x8a8) #define SMMU_GNSR0_SMR42 (0x8a8U)
#define SMMU_GNSR0_SMR43 (0x8ac) #define SMMU_GNSR0_SMR43 (0x8acU)
#define SMMU_GNSR0_SMR44 (0x8b0) #define SMMU_GNSR0_SMR44 (0x8b0U)
#define SMMU_GNSR0_SMR45 (0x8b4) #define SMMU_GNSR0_SMR45 (0x8b4U)
#define SMMU_GNSR0_SMR46 (0x8b8) #define SMMU_GNSR0_SMR46 (0x8b8U)
#define SMMU_GNSR0_SMR47 (0x8bc) #define SMMU_GNSR0_SMR47 (0x8bcU)
#define SMMU_GNSR0_SMR48 (0x8c0) #define SMMU_GNSR0_SMR48 (0x8c0U)
#define SMMU_GNSR0_SMR49 (0x8c4) #define SMMU_GNSR0_SMR49 (0x8c4U)
#define SMMU_GNSR0_SMR50 (0x8c8) #define SMMU_GNSR0_SMR50 (0x8c8U)
#define SMMU_GNSR0_SMR51 (0x8cc) #define SMMU_GNSR0_SMR51 (0x8ccU)
#define SMMU_GNSR0_SMR52 (0x8d0) #define SMMU_GNSR0_SMR52 (0x8d0U)
#define SMMU_GNSR0_SMR53 (0x8d4) #define SMMU_GNSR0_SMR53 (0x8d4U)
#define SMMU_GNSR0_SMR54 (0x8d8) #define SMMU_GNSR0_SMR54 (0x8d8U)
#define SMMU_GNSR0_SMR55 (0x8dc) #define SMMU_GNSR0_SMR55 (0x8dcU)
#define SMMU_GNSR0_SMR56 (0x8e0) #define SMMU_GNSR0_SMR56 (0x8e0U)
#define SMMU_GNSR0_SMR57 (0x8e4) #define SMMU_GNSR0_SMR57 (0x8e4U)
#define SMMU_GNSR0_SMR58 (0x8e8) #define SMMU_GNSR0_SMR58 (0x8e8U)
#define SMMU_GNSR0_SMR59 (0x8ec) #define SMMU_GNSR0_SMR59 (0x8ecU)
#define SMMU_GNSR0_SMR60 (0x8f0) #define SMMU_GNSR0_SMR60 (0x8f0U)
#define SMMU_GNSR0_SMR61 (0x8f4) #define SMMU_GNSR0_SMR61 (0x8f4U)
#define SMMU_GNSR0_SMR62 (0x8f8) #define SMMU_GNSR0_SMR62 (0x8f8U)
#define SMMU_GNSR0_SMR63 (0x8fc) #define SMMU_GNSR0_SMR63 (0x8fcU)
#define SMMU_GNSR0_SMR64 (0x900) #define SMMU_GNSR0_SMR64 (0x900U)
#define SMMU_GNSR0_SMR65 (0x904) #define SMMU_GNSR0_SMR65 (0x904U)
#define SMMU_GNSR0_SMR66 (0x908) #define SMMU_GNSR0_SMR66 (0x908U)
#define SMMU_GNSR0_SMR67 (0x90c) #define SMMU_GNSR0_SMR67 (0x90cU)
#define SMMU_GNSR0_SMR68 (0x910) #define SMMU_GNSR0_SMR68 (0x910U)
#define SMMU_GNSR0_SMR69 (0x914) #define SMMU_GNSR0_SMR69 (0x914U)
#define SMMU_GNSR0_SMR70 (0x918) #define SMMU_GNSR0_SMR70 (0x918U)
#define SMMU_GNSR0_SMR71 (0x91c) #define SMMU_GNSR0_SMR71 (0x91cU)
#define SMMU_GNSR0_SMR72 (0x920) #define SMMU_GNSR0_SMR72 (0x920U)
#define SMMU_GNSR0_SMR73 (0x924) #define SMMU_GNSR0_SMR73 (0x924U)
#define SMMU_GNSR0_SMR74 (0x928) #define SMMU_GNSR0_SMR74 (0x928U)
#define SMMU_GNSR0_SMR75 (0x92c) #define SMMU_GNSR0_SMR75 (0x92cU)
#define SMMU_GNSR0_SMR76 (0x930) #define SMMU_GNSR0_SMR76 (0x930U)
#define SMMU_GNSR0_SMR77 (0x934) #define SMMU_GNSR0_SMR77 (0x934U)
#define SMMU_GNSR0_SMR78 (0x938) #define SMMU_GNSR0_SMR78 (0x938U)
#define SMMU_GNSR0_SMR79 (0x93c) #define SMMU_GNSR0_SMR79 (0x93cU)
#define SMMU_GNSR0_SMR80 (0x940) #define SMMU_GNSR0_SMR80 (0x940U)
#define SMMU_GNSR0_SMR81 (0x944) #define SMMU_GNSR0_SMR81 (0x944U)
#define SMMU_GNSR0_SMR82 (0x948) #define SMMU_GNSR0_SMR82 (0x948U)
#define SMMU_GNSR0_SMR83 (0x94c) #define SMMU_GNSR0_SMR83 (0x94cU)
#define SMMU_GNSR0_SMR84 (0x950) #define SMMU_GNSR0_SMR84 (0x950U)
#define SMMU_GNSR0_SMR85 (0x954) #define SMMU_GNSR0_SMR85 (0x954U)
#define SMMU_GNSR0_SMR86 (0x958) #define SMMU_GNSR0_SMR86 (0x958U)
#define SMMU_GNSR0_SMR87 (0x95c) #define SMMU_GNSR0_SMR87 (0x95cU)
#define SMMU_GNSR0_SMR88 (0x960) #define SMMU_GNSR0_SMR88 (0x960U)
#define SMMU_GNSR0_SMR89 (0x964) #define SMMU_GNSR0_SMR89 (0x964U)
#define SMMU_GNSR0_SMR90 (0x968) #define SMMU_GNSR0_SMR90 (0x968U)
#define SMMU_GNSR0_SMR91 (0x96c) #define SMMU_GNSR0_SMR91 (0x96cU)
#define SMMU_GNSR0_SMR92 (0x970) #define SMMU_GNSR0_SMR92 (0x970U)
#define SMMU_GNSR0_SMR93 (0x974) #define SMMU_GNSR0_SMR93 (0x974U)
#define SMMU_GNSR0_SMR94 (0x978) #define SMMU_GNSR0_SMR94 (0x978U)
#define SMMU_GNSR0_SMR95 (0x97c) #define SMMU_GNSR0_SMR95 (0x97cU)
#define SMMU_GNSR0_SMR96 (0x980) #define SMMU_GNSR0_SMR96 (0x980U)
#define SMMU_GNSR0_SMR97 (0x984) #define SMMU_GNSR0_SMR97 (0x984U)
#define SMMU_GNSR0_SMR98 (0x988) #define SMMU_GNSR0_SMR98 (0x988U)
#define SMMU_GNSR0_SMR99 (0x98c) #define SMMU_GNSR0_SMR99 (0x98cU)
#define SMMU_GNSR0_SMR100 (0x990) #define SMMU_GNSR0_SMR100 (0x990U)
#define SMMU_GNSR0_SMR101 (0x994) #define SMMU_GNSR0_SMR101 (0x994U)
#define SMMU_GNSR0_SMR102 (0x998) #define SMMU_GNSR0_SMR102 (0x998U)
#define SMMU_GNSR0_SMR103 (0x99c) #define SMMU_GNSR0_SMR103 (0x99cU)
#define SMMU_GNSR0_SMR104 (0x9a0) #define SMMU_GNSR0_SMR104 (0x9a0U)
#define SMMU_GNSR0_SMR105 (0x9a4) #define SMMU_GNSR0_SMR105 (0x9a4U)
#define SMMU_GNSR0_SMR106 (0x9a8) #define SMMU_GNSR0_SMR106 (0x9a8U)
#define SMMU_GNSR0_SMR107 (0x9ac) #define SMMU_GNSR0_SMR107 (0x9acU)
#define SMMU_GNSR0_SMR108 (0x9b0) #define SMMU_GNSR0_SMR108 (0x9b0U)
#define SMMU_GNSR0_SMR109 (0x9b4) #define SMMU_GNSR0_SMR109 (0x9b4U)
#define SMMU_GNSR0_SMR110 (0x9b8) #define SMMU_GNSR0_SMR110 (0x9b8U)
#define SMMU_GNSR0_SMR111 (0x9bc) #define SMMU_GNSR0_SMR111 (0x9bcU)
#define SMMU_GNSR0_SMR112 (0x9c0) #define SMMU_GNSR0_SMR112 (0x9c0U)
#define SMMU_GNSR0_SMR113 (0x9c4) #define SMMU_GNSR0_SMR113 (0x9c4U)
#define SMMU_GNSR0_SMR114 (0x9c8) #define SMMU_GNSR0_SMR114 (0x9c8U)
#define SMMU_GNSR0_SMR115 (0x9cc) #define SMMU_GNSR0_SMR115 (0x9ccU)
#define SMMU_GNSR0_SMR116 (0x9d0) #define SMMU_GNSR0_SMR116 (0x9d0U)
#define SMMU_GNSR0_SMR117 (0x9d4) #define SMMU_GNSR0_SMR117 (0x9d4U)
#define SMMU_GNSR0_SMR118 (0x9d8) #define SMMU_GNSR0_SMR118 (0x9d8U)
#define SMMU_GNSR0_SMR119 (0x9dc) #define SMMU_GNSR0_SMR119 (0x9dcU)
#define SMMU_GNSR0_SMR120 (0x9e0) #define SMMU_GNSR0_SMR120 (0x9e0U)
#define SMMU_GNSR0_SMR121 (0x9e4) #define SMMU_GNSR0_SMR121 (0x9e4U)
#define SMMU_GNSR0_SMR122 (0x9e8) #define SMMU_GNSR0_SMR122 (0x9e8U)
#define SMMU_GNSR0_SMR123 (0x9ec) #define SMMU_GNSR0_SMR123 (0x9ecU)
#define SMMU_GNSR0_SMR124 (0x9f0) #define SMMU_GNSR0_SMR124 (0x9f0U)
#define SMMU_GNSR0_SMR125 (0x9f4) #define SMMU_GNSR0_SMR125 (0x9f4U)
#define SMMU_GNSR0_SMR126 (0x9f8) #define SMMU_GNSR0_SMR126 (0x9f8U)
#define SMMU_GNSR0_SMR127 (0x9fc) #define SMMU_GNSR0_SMR127 (0x9fcU)
#define SMMU_GNSR0_S2CR0 (0xc00) #define SMMU_GNSR0_S2CR0 (0xc00U)
#define SMMU_GNSR0_S2CRn (0xc00) #define SMMU_GNSR0_S2CRn (0xc00U)
#define SMMU_GNSR0_S2CRn (0xc00) #define SMMU_GNSR0_S2CRn (0xc00U)
#define SMMU_GNSR0_S2CR1 (0xc04) #define SMMU_GNSR0_S2CR1 (0xc04U)
#define SMMU_GNSR0_S2CR2 (0xc08) #define SMMU_GNSR0_S2CR2 (0xc08U)
#define SMMU_GNSR0_S2CR3 (0xc0c) #define SMMU_GNSR0_S2CR3 (0xc0cU)
#define SMMU_GNSR0_S2CR4 (0xc10) #define SMMU_GNSR0_S2CR4 (0xc10U)
#define SMMU_GNSR0_S2CR5 (0xc14) #define SMMU_GNSR0_S2CR5 (0xc14U)
#define SMMU_GNSR0_S2CR6 (0xc18) #define SMMU_GNSR0_S2CR6 (0xc18U)
#define SMMU_GNSR0_S2CR7 (0xc1c) #define SMMU_GNSR0_S2CR7 (0xc1cU)
#define SMMU_GNSR0_S2CR8 (0xc20) #define SMMU_GNSR0_S2CR8 (0xc20U)
#define SMMU_GNSR0_S2CR9 (0xc24) #define SMMU_GNSR0_S2CR9 (0xc24U)
#define SMMU_GNSR0_S2CR10 (0xc28) #define SMMU_GNSR0_S2CR10 (0xc28U)
#define SMMU_GNSR0_S2CR11 (0xc2c) #define SMMU_GNSR0_S2CR11 (0xc2cU)
#define SMMU_GNSR0_S2CR12 (0xc30) #define SMMU_GNSR0_S2CR12 (0xc30U)
#define SMMU_GNSR0_S2CR13 (0xc34) #define SMMU_GNSR0_S2CR13 (0xc34U)
#define SMMU_GNSR0_S2CR14 (0xc38) #define SMMU_GNSR0_S2CR14 (0xc38U)
#define SMMU_GNSR0_S2CR15 (0xc3c) #define SMMU_GNSR0_S2CR15 (0xc3cU)
#define SMMU_GNSR0_S2CR16 (0xc40) #define SMMU_GNSR0_S2CR16 (0xc40U)
#define SMMU_GNSR0_S2CR17 (0xc44) #define SMMU_GNSR0_S2CR17 (0xc44U)
#define SMMU_GNSR0_S2CR18 (0xc48) #define SMMU_GNSR0_S2CR18 (0xc48U)
#define SMMU_GNSR0_S2CR19 (0xc4c) #define SMMU_GNSR0_S2CR19 (0xc4cU)
#define SMMU_GNSR0_S2CR20 (0xc50) #define SMMU_GNSR0_S2CR20 (0xc50U)
#define SMMU_GNSR0_S2CR21 (0xc54) #define SMMU_GNSR0_S2CR21 (0xc54U)
#define SMMU_GNSR0_S2CR22 (0xc58) #define SMMU_GNSR0_S2CR22 (0xc58U)
#define SMMU_GNSR0_S2CR23 (0xc5c) #define SMMU_GNSR0_S2CR23 (0xc5cU)
#define SMMU_GNSR0_S2CR24 (0xc60) #define SMMU_GNSR0_S2CR24 (0xc60U)
#define SMMU_GNSR0_S2CR25 (0xc64) #define SMMU_GNSR0_S2CR25 (0xc64U)
#define SMMU_GNSR0_S2CR26 (0xc68) #define SMMU_GNSR0_S2CR26 (0xc68U)
#define SMMU_GNSR0_S2CR27 (0xc6c) #define SMMU_GNSR0_S2CR27 (0xc6cU)
#define SMMU_GNSR0_S2CR28 (0xc70) #define SMMU_GNSR0_S2CR28 (0xc70U)
#define SMMU_GNSR0_S2CR29 (0xc74) #define SMMU_GNSR0_S2CR29 (0xc74U)
#define SMMU_GNSR0_S2CR30 (0xc78) #define SMMU_GNSR0_S2CR30 (0xc78U)
#define SMMU_GNSR0_S2CR31 (0xc7c) #define SMMU_GNSR0_S2CR31 (0xc7cU)
#define SMMU_GNSR0_S2CR32 (0xc80) #define SMMU_GNSR0_S2CR32 (0xc80U)
#define SMMU_GNSR0_S2CR33 (0xc84) #define SMMU_GNSR0_S2CR33 (0xc84U)
#define SMMU_GNSR0_S2CR34 (0xc88) #define SMMU_GNSR0_S2CR34 (0xc88U)
#define SMMU_GNSR0_S2CR35 (0xc8c) #define SMMU_GNSR0_S2CR35 (0xc8cU)
#define SMMU_GNSR0_S2CR36 (0xc90) #define SMMU_GNSR0_S2CR36 (0xc90U)
#define SMMU_GNSR0_S2CR37 (0xc94) #define SMMU_GNSR0_S2CR37 (0xc94U)
#define SMMU_GNSR0_S2CR38 (0xc98) #define SMMU_GNSR0_S2CR38 (0xc98U)
#define SMMU_GNSR0_S2CR39 (0xc9c) #define SMMU_GNSR0_S2CR39 (0xc9cU)
#define SMMU_GNSR0_S2CR40 (0xca0) #define SMMU_GNSR0_S2CR40 (0xca0U)
#define SMMU_GNSR0_S2CR41 (0xca4) #define SMMU_GNSR0_S2CR41 (0xca4U)
#define SMMU_GNSR0_S2CR42 (0xca8) #define SMMU_GNSR0_S2CR42 (0xca8U)
#define SMMU_GNSR0_S2CR43 (0xcac) #define SMMU_GNSR0_S2CR43 (0xcacU)
#define SMMU_GNSR0_S2CR44 (0xcb0) #define SMMU_GNSR0_S2CR44 (0xcb0U)
#define SMMU_GNSR0_S2CR45 (0xcb4) #define SMMU_GNSR0_S2CR45 (0xcb4U)
#define SMMU_GNSR0_S2CR46 (0xcb8) #define SMMU_GNSR0_S2CR46 (0xcb8U)
#define SMMU_GNSR0_S2CR47 (0xcbc) #define SMMU_GNSR0_S2CR47 (0xcbcU)
#define SMMU_GNSR0_S2CR48 (0xcc0) #define SMMU_GNSR0_S2CR48 (0xcc0U)
#define SMMU_GNSR0_S2CR49 (0xcc4) #define SMMU_GNSR0_S2CR49 (0xcc4U)
#define SMMU_GNSR0_S2CR50 (0xcc8) #define SMMU_GNSR0_S2CR50 (0xcc8U)
#define SMMU_GNSR0_S2CR51 (0xccc) #define SMMU_GNSR0_S2CR51 (0xcccU)
#define SMMU_GNSR0_S2CR52 (0xcd0) #define SMMU_GNSR0_S2CR52 (0xcd0U)
#define SMMU_GNSR0_S2CR53 (0xcd4) #define SMMU_GNSR0_S2CR53 (0xcd4U)
#define SMMU_GNSR0_S2CR54 (0xcd8) #define SMMU_GNSR0_S2CR54 (0xcd8U)
#define SMMU_GNSR0_S2CR55 (0xcdc) #define SMMU_GNSR0_S2CR55 (0xcdcU)
#define SMMU_GNSR0_S2CR56 (0xce0) #define SMMU_GNSR0_S2CR56 (0xce0U)
#define SMMU_GNSR0_S2CR57 (0xce4) #define SMMU_GNSR0_S2CR57 (0xce4U)
#define SMMU_GNSR0_S2CR58 (0xce8) #define SMMU_GNSR0_S2CR58 (0xce8U)
#define SMMU_GNSR0_S2CR59 (0xcec) #define SMMU_GNSR0_S2CR59 (0xcecU)
#define SMMU_GNSR0_S2CR60 (0xcf0) #define SMMU_GNSR0_S2CR60 (0xcf0U)
#define SMMU_GNSR0_S2CR61 (0xcf4) #define SMMU_GNSR0_S2CR61 (0xcf4U)
#define SMMU_GNSR0_S2CR62 (0xcf8) #define SMMU_GNSR0_S2CR62 (0xcf8U)
#define SMMU_GNSR0_S2CR63 (0xcfc) #define SMMU_GNSR0_S2CR63 (0xcfcU)
#define SMMU_GNSR0_S2CR64 (0xd00) #define SMMU_GNSR0_S2CR64 (0xd00U)
#define SMMU_GNSR0_S2CR65 (0xd04) #define SMMU_GNSR0_S2CR65 (0xd04U)
#define SMMU_GNSR0_S2CR66 (0xd08) #define SMMU_GNSR0_S2CR66 (0xd08U)
#define SMMU_GNSR0_S2CR67 (0xd0c) #define SMMU_GNSR0_S2CR67 (0xd0cU)
#define SMMU_GNSR0_S2CR68 (0xd10) #define SMMU_GNSR0_S2CR68 (0xd10U)
#define SMMU_GNSR0_S2CR69 (0xd14) #define SMMU_GNSR0_S2CR69 (0xd14U)
#define SMMU_GNSR0_S2CR70 (0xd18) #define SMMU_GNSR0_S2CR70 (0xd18U)
#define SMMU_GNSR0_S2CR71 (0xd1c) #define SMMU_GNSR0_S2CR71 (0xd1cU)
#define SMMU_GNSR0_S2CR72 (0xd20) #define SMMU_GNSR0_S2CR72 (0xd20U)
#define SMMU_GNSR0_S2CR73 (0xd24) #define SMMU_GNSR0_S2CR73 (0xd24U)
#define SMMU_GNSR0_S2CR74 (0xd28) #define SMMU_GNSR0_S2CR74 (0xd28U)
#define SMMU_GNSR0_S2CR75 (0xd2c) #define SMMU_GNSR0_S2CR75 (0xd2cU)
#define SMMU_GNSR0_S2CR76 (0xd30) #define SMMU_GNSR0_S2CR76 (0xd30U)
#define SMMU_GNSR0_S2CR77 (0xd34) #define SMMU_GNSR0_S2CR77 (0xd34U)
#define SMMU_GNSR0_S2CR78 (0xd38) #define SMMU_GNSR0_S2CR78 (0xd38U)
#define SMMU_GNSR0_S2CR79 (0xd3c) #define SMMU_GNSR0_S2CR79 (0xd3cU)
#define SMMU_GNSR0_S2CR80 (0xd40) #define SMMU_GNSR0_S2CR80 (0xd40U)
#define SMMU_GNSR0_S2CR81 (0xd44) #define SMMU_GNSR0_S2CR81 (0xd44U)
#define SMMU_GNSR0_S2CR82 (0xd48) #define SMMU_GNSR0_S2CR82 (0xd48U)
#define SMMU_GNSR0_S2CR83 (0xd4c) #define SMMU_GNSR0_S2CR83 (0xd4cU)
#define SMMU_GNSR0_S2CR84 (0xd50) #define SMMU_GNSR0_S2CR84 (0xd50U)
#define SMMU_GNSR0_S2CR85 (0xd54) #define SMMU_GNSR0_S2CR85 (0xd54U)
#define SMMU_GNSR0_S2CR86 (0xd58) #define SMMU_GNSR0_S2CR86 (0xd58U)
#define SMMU_GNSR0_S2CR87 (0xd5c) #define SMMU_GNSR0_S2CR87 (0xd5cU)
#define SMMU_GNSR0_S2CR88 (0xd60) #define SMMU_GNSR0_S2CR88 (0xd60U)
#define SMMU_GNSR0_S2CR89 (0xd64) #define SMMU_GNSR0_S2CR89 (0xd64U)
#define SMMU_GNSR0_S2CR90 (0xd68) #define SMMU_GNSR0_S2CR90 (0xd68U)
#define SMMU_GNSR0_S2CR91 (0xd6c) #define SMMU_GNSR0_S2CR91 (0xd6cU)
#define SMMU_GNSR0_S2CR92 (0xd70) #define SMMU_GNSR0_S2CR92 (0xd70U)
#define SMMU_GNSR0_S2CR93 (0xd74) #define SMMU_GNSR0_S2CR93 (0xd74U)
#define SMMU_GNSR0_S2CR94 (0xd78) #define SMMU_GNSR0_S2CR94 (0xd78U)
#define SMMU_GNSR0_S2CR95 (0xd7c) #define SMMU_GNSR0_S2CR95 (0xd7cU)
#define SMMU_GNSR0_S2CR96 (0xd80) #define SMMU_GNSR0_S2CR96 (0xd80U)
#define SMMU_GNSR0_S2CR97 (0xd84) #define SMMU_GNSR0_S2CR97 (0xd84U)
#define SMMU_GNSR0_S2CR98 (0xd88) #define SMMU_GNSR0_S2CR98 (0xd88U)
#define SMMU_GNSR0_S2CR99 (0xd8c) #define SMMU_GNSR0_S2CR99 (0xd8cU)
#define SMMU_GNSR0_S2CR100 (0xd90) #define SMMU_GNSR0_S2CR100 (0xd90U)
#define SMMU_GNSR0_S2CR101 (0xd94) #define SMMU_GNSR0_S2CR101 (0xd94U)
#define SMMU_GNSR0_S2CR102 (0xd98) #define SMMU_GNSR0_S2CR102 (0xd98U)
#define SMMU_GNSR0_S2CR103 (0xd9c) #define SMMU_GNSR0_S2CR103 (0xd9cU)
#define SMMU_GNSR0_S2CR104 (0xda0) #define SMMU_GNSR0_S2CR104 (0xda0U)
#define SMMU_GNSR0_S2CR105 (0xda4) #define SMMU_GNSR0_S2CR105 (0xda4U)
#define SMMU_GNSR0_S2CR106 (0xda8) #define SMMU_GNSR0_S2CR106 (0xda8U)
#define SMMU_GNSR0_S2CR107 (0xdac) #define SMMU_GNSR0_S2CR107 (0xdacU)
#define SMMU_GNSR0_S2CR108 (0xdb0) #define SMMU_GNSR0_S2CR108 (0xdb0U)
#define SMMU_GNSR0_S2CR109 (0xdb4) #define SMMU_GNSR0_S2CR109 (0xdb4U)
#define SMMU_GNSR0_S2CR110 (0xdb8) #define SMMU_GNSR0_S2CR110 (0xdb8U)
#define SMMU_GNSR0_S2CR111 (0xdbc) #define SMMU_GNSR0_S2CR111 (0xdbcU)
#define SMMU_GNSR0_S2CR112 (0xdc0) #define SMMU_GNSR0_S2CR112 (0xdc0U)
#define SMMU_GNSR0_S2CR113 (0xdc4) #define SMMU_GNSR0_S2CR113 (0xdc4U)
#define SMMU_GNSR0_S2CR114 (0xdc8) #define SMMU_GNSR0_S2CR114 (0xdc8U)
#define SMMU_GNSR0_S2CR115 (0xdcc) #define SMMU_GNSR0_S2CR115 (0xdccU)
#define SMMU_GNSR0_S2CR116 (0xdd0) #define SMMU_GNSR0_S2CR116 (0xdd0U)
#define SMMU_GNSR0_S2CR117 (0xdd4) #define SMMU_GNSR0_S2CR117 (0xdd4U)
#define SMMU_GNSR0_S2CR118 (0xdd8) #define SMMU_GNSR0_S2CR118 (0xdd8U)
#define SMMU_GNSR0_S2CR119 (0xddc) #define SMMU_GNSR0_S2CR119 (0xddcU)
#define SMMU_GNSR0_S2CR120 (0xde0) #define SMMU_GNSR0_S2CR120 (0xde0U)
#define SMMU_GNSR0_S2CR121 (0xde4) #define SMMU_GNSR0_S2CR121 (0xde4U)
#define SMMU_GNSR0_S2CR122 (0xde8) #define SMMU_GNSR0_S2CR122 (0xde8U)
#define SMMU_GNSR0_S2CR123 (0xdec) #define SMMU_GNSR0_S2CR123 (0xdecU)
#define SMMU_GNSR0_S2CR124 (0xdf0) #define SMMU_GNSR0_S2CR124 (0xdf0U)
#define SMMU_GNSR0_S2CR125 (0xdf4) #define SMMU_GNSR0_S2CR125 (0xdf4U)
#define SMMU_GNSR0_S2CR126 (0xdf8) #define SMMU_GNSR0_S2CR126 (0xdf8U)
#define SMMU_GNSR0_S2CR127 (0xdfc) #define SMMU_GNSR0_S2CR127 (0xdfcU)
#define SMMU_GNSR0_PIDR0 (0xfe0) #define SMMU_GNSR0_PIDR0 (0xfe0U)
#define SMMU_GNSR0_PIDR1 (0xfe4) #define SMMU_GNSR0_PIDR1 (0xfe4U)
#define SMMU_GNSR0_PIDR2 (0xfe8) #define SMMU_GNSR0_PIDR2 (0xfe8U)
#define SMMU_GNSR0_PIDR3 (0xfec) #define SMMU_GNSR0_PIDR3 (0xfecU)
#define SMMU_GNSR0_PIDR4 (0xfd0) #define SMMU_GNSR0_PIDR4 (0xfd0U)
#define SMMU_GNSR0_PIDR5 (0xfd4) #define SMMU_GNSR0_PIDR5 (0xfd4U)
#define SMMU_GNSR0_PIDR6 (0xfd8) #define SMMU_GNSR0_PIDR6 (0xfd8U)
#define SMMU_GNSR0_PIDR7 (0xfdc) #define SMMU_GNSR0_PIDR7 (0xfdcU)
#define SMMU_GNSR0_CIDR0 (0xff0) #define SMMU_GNSR0_CIDR0 (0xff0U)
#define SMMU_GNSR0_CIDR1 (0xff4) #define SMMU_GNSR0_CIDR1 (0xff4U)
#define SMMU_GNSR0_CIDR2 (0xff8) #define SMMU_GNSR0_CIDR2 (0xff8U)
#define SMMU_GNSR0_CIDR3 (0xffc) #define SMMU_GNSR0_CIDR3 (0xffcU)
#define SMMU_GNSR1_CBAR0 (0x0) #define SMMU_GNSR1_CBAR0 (0x0U)
#define SMMU_GNSR1_CBARn (0x0) #define SMMU_GNSR1_CBARn (0x0U)
#define SMMU_GNSR1_CBFRSYNRA0 (0x400) #define SMMU_GNSR1_CBFRSYNRA0 (0x400U)
#define SMMU_GNSR1_CBA2R0 (0x800) #define SMMU_GNSR1_CBA2R0 (0x800U)
#define SMMU_GNSR1_CBAR1 (0x4) #define SMMU_GNSR1_CBAR1 (0x4U)
#define SMMU_GNSR1_CBFRSYNRA1 (0x404) #define SMMU_GNSR1_CBFRSYNRA1 (0x404U)
#define SMMU_GNSR1_CBA2R1 (0x804) #define SMMU_GNSR1_CBA2R1 (0x804U)
#define SMMU_GNSR1_CBAR2 (0x8) #define SMMU_GNSR1_CBAR2 (0x8U)
#define SMMU_GNSR1_CBFRSYNRA2 (0x408) #define SMMU_GNSR1_CBFRSYNRA2 (0x408U)
#define SMMU_GNSR1_CBA2R2 (0x808) #define SMMU_GNSR1_CBA2R2 (0x808U)
#define SMMU_GNSR1_CBAR3 (0xc) #define SMMU_GNSR1_CBAR3 (0xcU)
#define SMMU_GNSR1_CBFRSYNRA3 (0x40c) #define SMMU_GNSR1_CBFRSYNRA3 (0x40cU)
#define SMMU_GNSR1_CBA2R3 (0x80c) #define SMMU_GNSR1_CBA2R3 (0x80cU)
#define SMMU_GNSR1_CBAR4 (0x10) #define SMMU_GNSR1_CBAR4 (0x10U)
#define SMMU_GNSR1_CBFRSYNRA4 (0x410) #define SMMU_GNSR1_CBFRSYNRA4 (0x410U)
#define SMMU_GNSR1_CBA2R4 (0x810) #define SMMU_GNSR1_CBA2R4 (0x810U)
#define SMMU_GNSR1_CBAR5 (0x14) #define SMMU_GNSR1_CBAR5 (0x14U)
#define SMMU_GNSR1_CBFRSYNRA5 (0x414) #define SMMU_GNSR1_CBFRSYNRA5 (0x414U)
#define SMMU_GNSR1_CBA2R5 (0x814) #define SMMU_GNSR1_CBA2R5 (0x814U)
#define SMMU_GNSR1_CBAR6 (0x18) #define SMMU_GNSR1_CBAR6 (0x18U)
#define SMMU_GNSR1_CBFRSYNRA6 (0x418) #define SMMU_GNSR1_CBFRSYNRA6 (0x418U)
#define SMMU_GNSR1_CBA2R6 (0x818) #define SMMU_GNSR1_CBA2R6 (0x818U)
#define SMMU_GNSR1_CBAR7 (0x1c) #define SMMU_GNSR1_CBAR7 (0x1cU)
#define SMMU_GNSR1_CBFRSYNRA7 (0x41c) #define SMMU_GNSR1_CBFRSYNRA7 (0x41cU)
#define SMMU_GNSR1_CBA2R7 (0x81c) #define SMMU_GNSR1_CBA2R7 (0x81cU)
#define SMMU_GNSR1_CBAR8 (0x20) #define SMMU_GNSR1_CBAR8 (0x20U)
#define SMMU_GNSR1_CBFRSYNRA8 (0x420) #define SMMU_GNSR1_CBFRSYNRA8 (0x420U)
#define SMMU_GNSR1_CBA2R8 (0x820) #define SMMU_GNSR1_CBA2R8 (0x820U)
#define SMMU_GNSR1_CBAR9 (0x24) #define SMMU_GNSR1_CBAR9 (0x24U)
#define SMMU_GNSR1_CBFRSYNRA9 (0x424) #define SMMU_GNSR1_CBFRSYNRA9 (0x424U)
#define SMMU_GNSR1_CBA2R9 (0x824) #define SMMU_GNSR1_CBA2R9 (0x824U)
#define SMMU_GNSR1_CBAR10 (0x28) #define SMMU_GNSR1_CBAR10 (0x28U)
#define SMMU_GNSR1_CBFRSYNRA10 (0x428) #define SMMU_GNSR1_CBFRSYNRA10 (0x428U)
#define SMMU_GNSR1_CBA2R10 (0x828) #define SMMU_GNSR1_CBA2R10 (0x828U)
#define SMMU_GNSR1_CBAR11 (0x2c) #define SMMU_GNSR1_CBAR11 (0x2cU)
#define SMMU_GNSR1_CBFRSYNRA11 (0x42c) #define SMMU_GNSR1_CBFRSYNRA11 (0x42cU)
#define SMMU_GNSR1_CBA2R11 (0x82c) #define SMMU_GNSR1_CBA2R11 (0x82cU)
#define SMMU_GNSR1_CBAR12 (0x30) #define SMMU_GNSR1_CBAR12 (0x30U)
#define SMMU_GNSR1_CBFRSYNRA12 (0x430) #define SMMU_GNSR1_CBFRSYNRA12 (0x430U)
#define SMMU_GNSR1_CBA2R12 (0x830) #define SMMU_GNSR1_CBA2R12 (0x830U)
#define SMMU_GNSR1_CBAR13 (0x34) #define SMMU_GNSR1_CBAR13 (0x34U)
#define SMMU_GNSR1_CBFRSYNRA13 (0x434) #define SMMU_GNSR1_CBFRSYNRA13 (0x434U)
#define SMMU_GNSR1_CBA2R13 (0x834) #define SMMU_GNSR1_CBA2R13 (0x834U)
#define SMMU_GNSR1_CBAR14 (0x38) #define SMMU_GNSR1_CBAR14 (0x38U)
#define SMMU_GNSR1_CBFRSYNRA14 (0x438) #define SMMU_GNSR1_CBFRSYNRA14 (0x438U)
#define SMMU_GNSR1_CBA2R14 (0x838) #define SMMU_GNSR1_CBA2R14 (0x838U)
#define SMMU_GNSR1_CBAR15 (0x3c) #define SMMU_GNSR1_CBAR15 (0x3cU)
#define SMMU_GNSR1_CBFRSYNRA15 (0x43c) #define SMMU_GNSR1_CBFRSYNRA15 (0x43cU)
#define SMMU_GNSR1_CBA2R15 (0x83c) #define SMMU_GNSR1_CBA2R15 (0x83cU)
#define SMMU_GNSR1_CBAR16 (0x40) #define SMMU_GNSR1_CBAR16 (0x40U)
#define SMMU_GNSR1_CBFRSYNRA16 (0x440) #define SMMU_GNSR1_CBFRSYNRA16 (0x440U)
#define SMMU_GNSR1_CBA2R16 (0x840) #define SMMU_GNSR1_CBA2R16 (0x840U)
#define SMMU_GNSR1_CBAR17 (0x44) #define SMMU_GNSR1_CBAR17 (0x44U)
#define SMMU_GNSR1_CBFRSYNRA17 (0x444) #define SMMU_GNSR1_CBFRSYNRA17 (0x444U)
#define SMMU_GNSR1_CBA2R17 (0x844) #define SMMU_GNSR1_CBA2R17 (0x844U)
#define SMMU_GNSR1_CBAR18 (0x48) #define SMMU_GNSR1_CBAR18 (0x48U)
#define SMMU_GNSR1_CBFRSYNRA18 (0x448) #define SMMU_GNSR1_CBFRSYNRA18 (0x448U)
#define SMMU_GNSR1_CBA2R18 (0x848) #define SMMU_GNSR1_CBA2R18 (0x848U)
#define SMMU_GNSR1_CBAR19 (0x4c) #define SMMU_GNSR1_CBAR19 (0x4cU)
#define SMMU_GNSR1_CBFRSYNRA19 (0x44c) #define SMMU_GNSR1_CBFRSYNRA19 (0x44cU)
#define SMMU_GNSR1_CBA2R19 (0x84c) #define SMMU_GNSR1_CBA2R19 (0x84cU)
#define SMMU_GNSR1_CBAR20 (0x50) #define SMMU_GNSR1_CBAR20 (0x50U)
#define SMMU_GNSR1_CBFRSYNRA20 (0x450) #define SMMU_GNSR1_CBFRSYNRA20 (0x450U)
#define SMMU_GNSR1_CBA2R20 (0x850) #define SMMU_GNSR1_CBA2R20 (0x850U)
#define SMMU_GNSR1_CBAR21 (0x54) #define SMMU_GNSR1_CBAR21 (0x54U)
#define SMMU_GNSR1_CBFRSYNRA21 (0x454) #define SMMU_GNSR1_CBFRSYNRA21 (0x454U)
#define SMMU_GNSR1_CBA2R21 (0x854) #define SMMU_GNSR1_CBA2R21 (0x854U)
#define SMMU_GNSR1_CBAR22 (0x58) #define SMMU_GNSR1_CBAR22 (0x58U)
#define SMMU_GNSR1_CBFRSYNRA22 (0x458) #define SMMU_GNSR1_CBFRSYNRA22 (0x458U)
#define SMMU_GNSR1_CBA2R22 (0x858) #define SMMU_GNSR1_CBA2R22 (0x858U)
#define SMMU_GNSR1_CBAR23 (0x5c) #define SMMU_GNSR1_CBAR23 (0x5cU)
#define SMMU_GNSR1_CBFRSYNRA23 (0x45c) #define SMMU_GNSR1_CBFRSYNRA23 (0x45cU)
#define SMMU_GNSR1_CBA2R23 (0x85c) #define SMMU_GNSR1_CBA2R23 (0x85cU)
#define SMMU_GNSR1_CBAR24 (0x60) #define SMMU_GNSR1_CBAR24 (0x60U)
#define SMMU_GNSR1_CBFRSYNRA24 (0x460) #define SMMU_GNSR1_CBFRSYNRA24 (0x460U)
#define SMMU_GNSR1_CBA2R24 (0x860) #define SMMU_GNSR1_CBA2R24 (0x860U)
#define SMMU_GNSR1_CBAR25 (0x64) #define SMMU_GNSR1_CBAR25 (0x64U)
#define SMMU_GNSR1_CBFRSYNRA25 (0x464) #define SMMU_GNSR1_CBFRSYNRA25 (0x464U)
#define SMMU_GNSR1_CBA2R25 (0x864) #define SMMU_GNSR1_CBA2R25 (0x864U)
#define SMMU_GNSR1_CBAR26 (0x68) #define SMMU_GNSR1_CBAR26 (0x68U)
#define SMMU_GNSR1_CBFRSYNRA26 (0x468) #define SMMU_GNSR1_CBFRSYNRA26 (0x468U)
#define SMMU_GNSR1_CBA2R26 (0x868) #define SMMU_GNSR1_CBA2R26 (0x868U)
#define SMMU_GNSR1_CBAR27 (0x6c) #define SMMU_GNSR1_CBAR27 (0x6cU)
#define SMMU_GNSR1_CBFRSYNRA27 (0x46c) #define SMMU_GNSR1_CBFRSYNRA27 (0x46cU)
#define SMMU_GNSR1_CBA2R27 (0x86c) #define SMMU_GNSR1_CBA2R27 (0x86cU)
#define SMMU_GNSR1_CBAR28 (0x70) #define SMMU_GNSR1_CBAR28 (0x70U)
#define SMMU_GNSR1_CBFRSYNRA28 (0x470) #define SMMU_GNSR1_CBFRSYNRA28 (0x470U)
#define SMMU_GNSR1_CBA2R28 (0x870) #define SMMU_GNSR1_CBA2R28 (0x870U)
#define SMMU_GNSR1_CBAR29 (0x74) #define SMMU_GNSR1_CBAR29 (0x74U)
#define SMMU_GNSR1_CBFRSYNRA29 (0x474) #define SMMU_GNSR1_CBFRSYNRA29 (0x474U)
#define SMMU_GNSR1_CBA2R29 (0x874) #define SMMU_GNSR1_CBA2R29 (0x874U)
#define SMMU_GNSR1_CBAR30 (0x78) #define SMMU_GNSR1_CBAR30 (0x78U)
#define SMMU_GNSR1_CBFRSYNRA30 (0x478) #define SMMU_GNSR1_CBFRSYNRA30 (0x478U)
#define SMMU_GNSR1_CBA2R30 (0x878) #define SMMU_GNSR1_CBA2R30 (0x878U)
#define SMMU_GNSR1_CBAR31 (0x7c) #define SMMU_GNSR1_CBAR31 (0x7cU)
#define SMMU_GNSR1_CBFRSYNRA31 (0x47c) #define SMMU_GNSR1_CBFRSYNRA31 (0x47cU)
#define SMMU_GNSR1_CBA2R31 (0x87c) #define SMMU_GNSR1_CBA2R31 (0x87cU)
#define SMMU_GNSR1_CBAR32 (0x80) #define SMMU_GNSR1_CBAR32 (0x80U)
#define SMMU_GNSR1_CBFRSYNRA32 (0x480) #define SMMU_GNSR1_CBFRSYNRA32 (0x480U)
#define SMMU_GNSR1_CBA2R32 (0x880) #define SMMU_GNSR1_CBA2R32 (0x880U)
#define SMMU_GNSR1_CBAR33 (0x84) #define SMMU_GNSR1_CBAR33 (0x84U)
#define SMMU_GNSR1_CBFRSYNRA33 (0x484) #define SMMU_GNSR1_CBFRSYNRA33 (0x484U)
#define SMMU_GNSR1_CBA2R33 (0x884) #define SMMU_GNSR1_CBA2R33 (0x884U)
#define SMMU_GNSR1_CBAR34 (0x88) #define SMMU_GNSR1_CBAR34 (0x88U)
#define SMMU_GNSR1_CBFRSYNRA34 (0x488) #define SMMU_GNSR1_CBFRSYNRA34 (0x488U)
#define SMMU_GNSR1_CBA2R34 (0x888) #define SMMU_GNSR1_CBA2R34 (0x888U)
#define SMMU_GNSR1_CBAR35 (0x8c) #define SMMU_GNSR1_CBAR35 (0x8cU)
#define SMMU_GNSR1_CBFRSYNRA35 (0x48c) #define SMMU_GNSR1_CBFRSYNRA35 (0x48cU)
#define SMMU_GNSR1_CBA2R35 (0x88c) #define SMMU_GNSR1_CBA2R35 (0x88cU)
#define SMMU_GNSR1_CBAR36 (0x90) #define SMMU_GNSR1_CBAR36 (0x90U)
#define SMMU_GNSR1_CBFRSYNRA36 (0x490) #define SMMU_GNSR1_CBFRSYNRA36 (0x490U)
#define SMMU_GNSR1_CBA2R36 (0x890) #define SMMU_GNSR1_CBA2R36 (0x890U)
#define SMMU_GNSR1_CBAR37 (0x94) #define SMMU_GNSR1_CBAR37 (0x94U)
#define SMMU_GNSR1_CBFRSYNRA37 (0x494) #define SMMU_GNSR1_CBFRSYNRA37 (0x494U)
#define SMMU_GNSR1_CBA2R37 (0x894) #define SMMU_GNSR1_CBA2R37 (0x894U)
#define SMMU_GNSR1_CBAR38 (0x98) #define SMMU_GNSR1_CBAR38 (0x98U)
#define SMMU_GNSR1_CBFRSYNRA38 (0x498) #define SMMU_GNSR1_CBFRSYNRA38 (0x498U)
#define SMMU_GNSR1_CBA2R38 (0x898) #define SMMU_GNSR1_CBA2R38 (0x898U)
#define SMMU_GNSR1_CBAR39 (0x9c) #define SMMU_GNSR1_CBAR39 (0x9cU)
#define SMMU_GNSR1_CBFRSYNRA39 (0x49c) #define SMMU_GNSR1_CBFRSYNRA39 (0x49cU)
#define SMMU_GNSR1_CBA2R39 (0x89c) #define SMMU_GNSR1_CBA2R39 (0x89cU)
#define SMMU_GNSR1_CBAR40 (0xa0) #define SMMU_GNSR1_CBAR40 (0xa0U)
#define SMMU_GNSR1_CBFRSYNRA40 (0x4a0) #define SMMU_GNSR1_CBFRSYNRA40 (0x4a0U)
#define SMMU_GNSR1_CBA2R40 (0x8a0) #define SMMU_GNSR1_CBA2R40 (0x8a0U)
#define SMMU_GNSR1_CBAR41 (0xa4) #define SMMU_GNSR1_CBAR41 (0xa4U)
#define SMMU_GNSR1_CBFRSYNRA41 (0x4a4) #define SMMU_GNSR1_CBFRSYNRA41 (0x4a4U)
#define SMMU_GNSR1_CBA2R41 (0x8a4) #define SMMU_GNSR1_CBA2R41 (0x8a4U)
#define SMMU_GNSR1_CBAR42 (0xa8) #define SMMU_GNSR1_CBAR42 (0xa8U)
#define SMMU_GNSR1_CBFRSYNRA42 (0x4a8) #define SMMU_GNSR1_CBFRSYNRA42 (0x4a8U)
#define SMMU_GNSR1_CBA2R42 (0x8a8) #define SMMU_GNSR1_CBA2R42 (0x8a8U)
#define SMMU_GNSR1_CBAR43 (0xac) #define SMMU_GNSR1_CBAR43 (0xacU)
#define SMMU_GNSR1_CBFRSYNRA43 (0x4ac) #define SMMU_GNSR1_CBFRSYNRA43 (0x4acU)
#define SMMU_GNSR1_CBA2R43 (0x8ac) #define SMMU_GNSR1_CBA2R43 (0x8acU)
#define SMMU_GNSR1_CBAR44 (0xb0) #define SMMU_GNSR1_CBAR44 (0xb0U)
#define SMMU_GNSR1_CBFRSYNRA44 (0x4b0) #define SMMU_GNSR1_CBFRSYNRA44 (0x4b0U)
#define SMMU_GNSR1_CBA2R44 (0x8b0) #define SMMU_GNSR1_CBA2R44 (0x8b0U)
#define SMMU_GNSR1_CBAR45 (0xb4) #define SMMU_GNSR1_CBAR45 (0xb4U)
#define SMMU_GNSR1_CBFRSYNRA45 (0x4b4) #define SMMU_GNSR1_CBFRSYNRA45 (0x4b4U)
#define SMMU_GNSR1_CBA2R45 (0x8b4) #define SMMU_GNSR1_CBA2R45 (0x8b4U)
#define SMMU_GNSR1_CBAR46 (0xb8) #define SMMU_GNSR1_CBAR46 (0xb8U)
#define SMMU_GNSR1_CBFRSYNRA46 (0x4b8) #define SMMU_GNSR1_CBFRSYNRA46 (0x4b8U)
#define SMMU_GNSR1_CBA2R46 (0x8b8) #define SMMU_GNSR1_CBA2R46 (0x8b8U)
#define SMMU_GNSR1_CBAR47 (0xbc) #define SMMU_GNSR1_CBAR47 (0xbcU)
#define SMMU_GNSR1_CBFRSYNRA47 (0x4bc) #define SMMU_GNSR1_CBFRSYNRA47 (0x4bcU)
#define SMMU_GNSR1_CBA2R47 (0x8bc) #define SMMU_GNSR1_CBA2R47 (0x8bcU)
#define SMMU_GNSR1_CBAR48 (0xc0) #define SMMU_GNSR1_CBAR48 (0xc0U)
#define SMMU_GNSR1_CBFRSYNRA48 (0x4c0) #define SMMU_GNSR1_CBFRSYNRA48 (0x4c0U)
#define SMMU_GNSR1_CBA2R48 (0x8c0) #define SMMU_GNSR1_CBA2R48 (0x8c0U)
#define SMMU_GNSR1_CBAR49 (0xc4) #define SMMU_GNSR1_CBAR49 (0xc4U)
#define SMMU_GNSR1_CBFRSYNRA49 (0x4c4) #define SMMU_GNSR1_CBFRSYNRA49 (0x4c4U)
#define SMMU_GNSR1_CBA2R49 (0x8c4) #define SMMU_GNSR1_CBA2R49 (0x8c4U)
#define SMMU_GNSR1_CBAR50 (0xc8) #define SMMU_GNSR1_CBAR50 (0xc8U)
#define SMMU_GNSR1_CBFRSYNRA50 (0x4c8) #define SMMU_GNSR1_CBFRSYNRA50 (0x4c8U)
#define SMMU_GNSR1_CBA2R50 (0x8c8) #define SMMU_GNSR1_CBA2R50 (0x8c8U)
#define SMMU_GNSR1_CBAR51 (0xcc) #define SMMU_GNSR1_CBAR51 (0xccU)
#define SMMU_GNSR1_CBFRSYNRA51 (0x4cc) #define SMMU_GNSR1_CBFRSYNRA51 (0x4ccU)
#define SMMU_GNSR1_CBA2R51 (0x8cc) #define SMMU_GNSR1_CBA2R51 (0x8ccU)
#define SMMU_GNSR1_CBAR52 (0xd0) #define SMMU_GNSR1_CBAR52 (0xd0U)
#define SMMU_GNSR1_CBFRSYNRA52 (0x4d0) #define SMMU_GNSR1_CBFRSYNRA52 (0x4d0U)
#define SMMU_GNSR1_CBA2R52 (0x8d0) #define SMMU_GNSR1_CBA2R52 (0x8d0U)
#define SMMU_GNSR1_CBAR53 (0xd4) #define SMMU_GNSR1_CBAR53 (0xd4U)
#define SMMU_GNSR1_CBFRSYNRA53 (0x4d4) #define SMMU_GNSR1_CBFRSYNRA53 (0x4d4U)
#define SMMU_GNSR1_CBA2R53 (0x8d4) #define SMMU_GNSR1_CBA2R53 (0x8d4U)
#define SMMU_GNSR1_CBAR54 (0xd8) #define SMMU_GNSR1_CBAR54 (0xd8U)
#define SMMU_GNSR1_CBFRSYNRA54 (0x4d8) #define SMMU_GNSR1_CBFRSYNRA54 (0x4d8U)
#define SMMU_GNSR1_CBA2R54 (0x8d8) #define SMMU_GNSR1_CBA2R54 (0x8d8U)
#define SMMU_GNSR1_CBAR55 (0xdc) #define SMMU_GNSR1_CBAR55 (0xdcU)
#define SMMU_GNSR1_CBFRSYNRA55 (0x4dc) #define SMMU_GNSR1_CBFRSYNRA55 (0x4dcU)
#define SMMU_GNSR1_CBA2R55 (0x8dc) #define SMMU_GNSR1_CBA2R55 (0x8dcU)
#define SMMU_GNSR1_CBAR56 (0xe0) #define SMMU_GNSR1_CBAR56 (0xe0U)
#define SMMU_GNSR1_CBFRSYNRA56 (0x4e0) #define SMMU_GNSR1_CBFRSYNRA56 (0x4e0U)
#define SMMU_GNSR1_CBA2R56 (0x8e0) #define SMMU_GNSR1_CBA2R56 (0x8e0U)
#define SMMU_GNSR1_CBAR57 (0xe4) #define SMMU_GNSR1_CBAR57 (0xe4U)
#define SMMU_GNSR1_CBFRSYNRA57 (0x4e4) #define SMMU_GNSR1_CBFRSYNRA57 (0x4e4U)
#define SMMU_GNSR1_CBA2R57 (0x8e4) #define SMMU_GNSR1_CBA2R57 (0x8e4U)
#define SMMU_GNSR1_CBAR58 (0xe8) #define SMMU_GNSR1_CBAR58 (0xe8U)
#define SMMU_GNSR1_CBFRSYNRA58 (0x4e8) #define SMMU_GNSR1_CBFRSYNRA58 (0x4e8U)
#define SMMU_GNSR1_CBA2R58 (0x8e8) #define SMMU_GNSR1_CBA2R58 (0x8e8U)
#define SMMU_GNSR1_CBAR59 (0xec) #define SMMU_GNSR1_CBAR59 (0xecU)
#define SMMU_GNSR1_CBFRSYNRA59 (0x4ec) #define SMMU_GNSR1_CBFRSYNRA59 (0x4ecU)
#define SMMU_GNSR1_CBA2R59 (0x8ec) #define SMMU_GNSR1_CBA2R59 (0x8ecU)
#define SMMU_GNSR1_CBAR60 (0xf0) #define SMMU_GNSR1_CBAR60 (0xf0U)
#define SMMU_GNSR1_CBFRSYNRA60 (0x4f0) #define SMMU_GNSR1_CBFRSYNRA60 (0x4f0U)
#define SMMU_GNSR1_CBA2R60 (0x8f0) #define SMMU_GNSR1_CBA2R60 (0x8f0U)
#define SMMU_GNSR1_CBAR61 (0xf4) #define SMMU_GNSR1_CBAR61 (0xf4U)
#define SMMU_GNSR1_CBFRSYNRA61 (0x4f4) #define SMMU_GNSR1_CBFRSYNRA61 (0x4f4U)
#define SMMU_GNSR1_CBA2R61 (0x8f4) #define SMMU_GNSR1_CBA2R61 (0x8f4U)
#define SMMU_GNSR1_CBAR62 (0xf8) #define SMMU_GNSR1_CBAR62 (0xf8U)
#define SMMU_GNSR1_CBFRSYNRA62 (0x4f8) #define SMMU_GNSR1_CBFRSYNRA62 (0x4f8U)
#define SMMU_GNSR1_CBA2R62 (0x8f8) #define SMMU_GNSR1_CBA2R62 (0x8f8U)
#define SMMU_GNSR1_CBAR63 (0xfc) #define SMMU_GNSR1_CBAR63 (0xfcU)
#define SMMU_GNSR1_CBFRSYNRA63 (0x4fc) #define SMMU_GNSR1_CBFRSYNRA63 (0x4fcU)
#define SMMU_GNSR1_CBA2R63 (0x8fc) #define SMMU_GNSR1_CBA2R63 (0x8fcU)
/******************************************************************************* /*******************************************************************************
* SMMU Global Secure Aux. Configuration Register * SMMU Global Secure Aux. Configuration Register
******************************************************************************/ ******************************************************************************/
#define SMMU_GSR0_SECURE_ACR 0x10 #define SMMU_GSR0_SECURE_ACR 0x10U
#define SMMU_GNSR_ACR (SMMU_GSR0_SECURE_ACR + 0x400) #define SMMU_GNSR_ACR (SMMU_GSR0_SECURE_ACR + 0x400U)
#define SMMU_GSR0_PGSIZE_SHIFT 16 #define SMMU_GSR0_PGSIZE_SHIFT 16U
#define SMMU_GSR0_PGSIZE_4K (0 << SMMU_GSR0_PGSIZE_SHIFT) #define SMMU_GSR0_PGSIZE_4K (0U << SMMU_GSR0_PGSIZE_SHIFT)
#define SMMU_GSR0_PGSIZE_64K (1 << SMMU_GSR0_PGSIZE_SHIFT) #define SMMU_GSR0_PGSIZE_64K (1U << SMMU_GSR0_PGSIZE_SHIFT)
#define SMMU_ACR_CACHE_LOCK_ENABLE_BIT (1 << 26) #define SMMU_ACR_CACHE_LOCK_ENABLE_BIT (1U << 26)
/******************************************************************************* /*******************************************************************************
* SMMU Global Aux. Control Register * SMMU Global Aux. Control Register
******************************************************************************/ ******************************************************************************/
#define SMMU_CBn_ACTLR_CPRE_BIT (1 << 1) #define SMMU_CBn_ACTLR_CPRE_BIT (1U << 1)
/******************************************************************************* /*******************************************************************************
* SMMU configuration constants * SMMU configuration constants
******************************************************************************/ ******************************************************************************/
#define ID1_PAGESIZE (1 << 31) #define ID1_PAGESIZE (1U << 31)
#define ID1_NUMPAGENDXB_SHIFT 28 #define ID1_NUMPAGENDXB_SHIFT 28U
#define ID1_NUMPAGENDXB_MASK 7 #define ID1_NUMPAGENDXB_MASK 7U
#define ID1_NUMS2CB_SHIFT 16 #define ID1_NUMS2CB_SHIFT 16U
#define ID1_NUMS2CB_MASK 0xff #define ID1_NUMS2CB_MASK 0xffU
#define ID1_NUMCB_SHIFT 0 #define ID1_NUMCB_SHIFT 0U
#define ID1_NUMCB_MASK 0xff #define ID1_NUMCB_MASK 0xffU
#define PGSHIFT 16 #define PGSHIFT 16U
#define CB_SIZE 0x800000 #define CB_SIZE 0x800000U
static inline uint32_t tegra_smmu_read_32(uint32_t off) typedef struct smmu_regs {
{ uint32_t reg;
return mmio_read_32(TEGRA_SMMU_BASE + off); uint32_t val;
} } smmu_regs_t;
#define mc_make_sid_override_cfg(name) \
{ \
.reg = TEGRA_MC_STREAMID_BASE + MC_STREAMID_OVERRIDE_CFG_ ## name, \
.val = 0x00000000U, \
}
#define mc_make_sid_security_cfg(name) \
{ \
.reg = TEGRA_MC_STREAMID_BASE + MC_STREAMID_OVERRIDE_TO_SECURITY_CFG(MC_STREAMID_OVERRIDE_CFG_ ## name), \
.val = 0x00000000U, \
}
#define smmu_make_gnsr0_sec_cfg(name) \
{ \
.reg = TEGRA_SMMU0_BASE + SMMU_GNSR0_ ## name, \
.val = 0x00000000U, \
}
/*
* On ARM-SMMU, conditional offset to access secure aliases of non-secure registers
* is 0x400. So, add it to register address
*/
#define smmu_make_gnsr0_nsec_cfg(name) \
{ \
.reg = TEGRA_SMMU0_BASE + 0x400U + SMMU_GNSR0_ ## name, \
.val = 0x00000000U, \
}
#define smmu_make_gnsr0_smr_cfg(n) \
{ \
.reg = TEGRA_SMMU0_BASE + SMMU_GNSR0_SMR ## n, \
.val = 0x00000000U, \
}
#define smmu_make_gnsr0_s2cr_cfg(n) \
{ \
.reg = TEGRA_SMMU0_BASE + SMMU_GNSR0_S2CR ## n, \
.val = 0x00000000U, \
}
#define smmu_make_gnsr1_cbar_cfg(n) \
{ \
.reg = TEGRA_SMMU0_BASE + (1U << PGSHIFT) + SMMU_GNSR1_CBAR ## n, \
.val = 0x00000000U, \
}
#define smmu_make_gnsr1_cba2r_cfg(n) \
{ \
.reg = TEGRA_SMMU0_BASE + (1U << PGSHIFT) + SMMU_GNSR1_CBA2R ## n, \
.val = 0x00000000U, \
}
#define make_smmu_cb_cfg(name, n) \
{ \
.reg = TEGRA_SMMU0_BASE + (CB_SIZE >> 1) + (n * (1 << PGSHIFT)) \
+ SMMU_CBn_ ## name, \
.val = 0x00000000U, \
}
#define smmu_make_smrg_group(n) \
smmu_make_gnsr0_smr_cfg(n), \
smmu_make_gnsr0_s2cr_cfg(n), \
smmu_make_gnsr1_cbar_cfg(n), \
smmu_make_gnsr1_cba2r_cfg(n) /* don't put "," here. */
#define smmu_make_cb_group(n) \
make_smmu_cb_cfg(SCTLR, n), \
make_smmu_cb_cfg(TCR2, n), \
make_smmu_cb_cfg(TTBR0_LO, n), \
make_smmu_cb_cfg(TTBR0_HI, n), \
make_smmu_cb_cfg(TCR, n), \
make_smmu_cb_cfg(PRRR_MAIR0, n),\
make_smmu_cb_cfg(FSR, n), \
make_smmu_cb_cfg(FAR_LO, n), \
make_smmu_cb_cfg(FAR_HI, n), \
make_smmu_cb_cfg(FSYNR0, n) /* don't put "," here. */
#define smmu_bypass_cfg \
{ \
.reg = TEGRA_MC_BASE + MC_SMMU_BYPASS_CONFIG, \
.val = 0x00000000U, \
}
#define _START_OF_TABLE_ \
{ \
.reg = 0xCAFE05C7U, \
.val = 0x00000000U, \
}
#define _END_OF_TABLE_ \
{ \
.reg = 0xFFFFFFFFU, \
.val = 0xFFFFFFFFU, \
}
static inline void tegra_smmu_write_32(uint32_t off, uint32_t val)
{
mmio_write_32(TEGRA_SMMU_BASE + off, val);
}
void tegra_smmu_init(void); void tegra_smmu_init(void);
void tegra_smmu_save_context(uint64_t smmu_ctx_addr); void tegra_smmu_save_context(uint64_t smmu_ctx_addr);
smmu_regs_t *plat_get_smmu_ctx(void);
#endif /*__SMMU_H */ #endif /*__SMMU_H */
...@@ -272,7 +272,7 @@ ...@@ -272,7 +272,7 @@
/******************************************************************************* /*******************************************************************************
* Tegra SMMU Controller constants * Tegra SMMU Controller constants
******************************************************************************/ ******************************************************************************/
#define TEGRA_SMMU_BASE 0x12000000 #define TEGRA_SMMU0_BASE 0x12000000
/******************************************************************************* /*******************************************************************************
* Tegra TZRAM constants * Tegra TZRAM constants
......
...@@ -42,8 +42,10 @@ uint32_t tegra_get_chipid_minor(void); ...@@ -42,8 +42,10 @@ uint32_t tegra_get_chipid_minor(void);
/* /*
* Tegra chip identifiers * Tegra chip identifiers
*/ */
uint8_t tegra_is_t132(void); uint8_t tegra_chipid_is_t132(void);
uint8_t tegra_is_t210(void); uint8_t tegra_chipid_is_t210(void);
uint8_t tegra_chipid_is_t186(void);
/* /*
* Tegra platform identifiers * Tegra platform identifiers
......
/* /*
* Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -39,8 +39,8 @@ ...@@ -39,8 +39,8 @@
/******************************************************************************* /*******************************************************************************
* Tegra DRAM memory base address * Tegra DRAM memory base address
******************************************************************************/ ******************************************************************************/
#define TEGRA_DRAM_BASE 0x80000000 #define TEGRA_DRAM_BASE 0x80000000ULL
#define TEGRA_DRAM_END 0x27FFFFFFF #define TEGRA_DRAM_END 0x27FFFFFFFULL
/******************************************************************************* /*******************************************************************************
* Struct for parameters received from BL2 * Struct for parameters received from BL2
...@@ -103,6 +103,8 @@ void tegra_security_setup(void); ...@@ -103,6 +103,8 @@ void tegra_security_setup(void);
void tegra_security_setup_videomem(uintptr_t base, uint64_t size); void tegra_security_setup_videomem(uintptr_t base, uint64_t size);
/* Declarations for tegra_pm.c */ /* Declarations for tegra_pm.c */
extern uint8_t tegra_fake_system_suspend;
void tegra_pm_system_suspend_entry(void); void tegra_pm_system_suspend_entry(void);
void tegra_pm_system_suspend_exit(void); void tegra_pm_system_suspend_exit(void);
int tegra_system_suspended(void); int tegra_system_suspended(void);
......
/* /*
* Copyright (c) 2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2016-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -38,46 +38,46 @@ ...@@ -38,46 +38,46 @@
* Macros to prepare CSTATE info request * Macros to prepare CSTATE info request
******************************************************************************/ ******************************************************************************/
/* Description of the parameters for UPDATE_CSTATE_INFO request */ /* Description of the parameters for UPDATE_CSTATE_INFO request */
#define CLUSTER_CSTATE_MASK 0x7 #define CLUSTER_CSTATE_MASK 0x7ULL
#define CLUSTER_CSTATE_SHIFT 0 #define CLUSTER_CSTATE_SHIFT 0U
#define CLUSTER_CSTATE_UPDATE_BIT (1 << 7) #define CLUSTER_CSTATE_UPDATE_BIT (1ULL << 7)
#define CCPLEX_CSTATE_MASK 0x3 #define CCPLEX_CSTATE_MASK 0x3ULL
#define CCPLEX_CSTATE_SHIFT 8 #define CCPLEX_CSTATE_SHIFT 8ULL
#define CCPLEX_CSTATE_UPDATE_BIT (1 << 15) #define CCPLEX_CSTATE_UPDATE_BIT (1ULL << 15)
#define SYSTEM_CSTATE_MASK 0xF #define SYSTEM_CSTATE_MASK 0xFULL
#define SYSTEM_CSTATE_SHIFT 16 #define SYSTEM_CSTATE_SHIFT 16ULL
#define SYSTEM_CSTATE_FORCE_UPDATE_SHIFT 22 #define SYSTEM_CSTATE_FORCE_UPDATE_SHIFT 22ULL
#define SYSTEM_CSTATE_FORCE_UPDATE_BIT (1 << 22) #define SYSTEM_CSTATE_FORCE_UPDATE_BIT (1ULL << 22)
#define SYSTEM_CSTATE_UPDATE_BIT (1 << 23) #define SYSTEM_CSTATE_UPDATE_BIT (1ULL << 23)
#define CSTATE_WAKE_MASK_UPDATE_BIT (1 << 31) #define CSTATE_WAKE_MASK_UPDATE_BIT (1ULL << 31)
#define CSTATE_WAKE_MASK_SHIFT 32 #define CSTATE_WAKE_MASK_SHIFT 32ULL
#define CSTATE_WAKE_MASK_CLEAR 0xFFFFFFFF #define CSTATE_WAKE_MASK_CLEAR 0xFFFFFFFFU
/******************************************************************************* /*******************************************************************************
* Auto-CC3 control macros * Auto-CC3 control macros
******************************************************************************/ ******************************************************************************/
#define MCE_AUTO_CC3_FREQ_MASK 0x1FF #define MCE_AUTO_CC3_FREQ_MASK 0x1FFU
#define MCE_AUTO_CC3_FREQ_SHIFT 0 #define MCE_AUTO_CC3_FREQ_SHIFT 0U
#define MCE_AUTO_CC3_VTG_MASK 0x7F #define MCE_AUTO_CC3_VTG_MASK 0x7FU
#define MCE_AUTO_CC3_VTG_SHIFT 16 #define MCE_AUTO_CC3_VTG_SHIFT 16U
#define MCE_AUTO_CC3_ENABLE_BIT (1 << 31) #define MCE_AUTO_CC3_ENABLE_BIT (1U << 31)
/******************************************************************************* /*******************************************************************************
* Macros for the 'IS_SC7_ALLOWED' command * Macros for the 'IS_SC7_ALLOWED' command
******************************************************************************/ ******************************************************************************/
#define MCE_SC7_ALLOWED_MASK 0x7 #define MCE_SC7_ALLOWED_MASK 0x7U
#define MCE_SC7_WAKE_TIME_SHIFT 32 #define MCE_SC7_WAKE_TIME_SHIFT 32U
/******************************************************************************* /*******************************************************************************
* Macros for 'read/write ctats' commands * Macros for 'read/write ctats' commands
******************************************************************************/ ******************************************************************************/
#define MCE_CSTATE_STATS_TYPE_SHIFT 32 #define MCE_CSTATE_STATS_TYPE_SHIFT 32ULL
#define MCE_CSTATE_WRITE_DATA_LO_MASK 0xF #define MCE_CSTATE_WRITE_DATA_LO_MASK 0xFU
/******************************************************************************* /*******************************************************************************
* Macros for 'update crossover threshold' command * Macros for 'update crossover threshold' command
******************************************************************************/ ******************************************************************************/
#define MCE_CROSSOVER_THRESHOLD_TIME_SHIFT 32 #define MCE_CROSSOVER_THRESHOLD_TIME_SHIFT 32U
/******************************************************************************* /*******************************************************************************
* MCA command struct * MCA command struct
...@@ -100,9 +100,10 @@ typedef union mca_cmd { ...@@ -100,9 +100,10 @@ typedef union mca_cmd {
******************************************************************************/ ******************************************************************************/
typedef union mca_arg { typedef union mca_arg {
struct err { struct err {
uint64_t error:8; uint32_t error:8;
uint64_t unused:48; uint32_t unused:24;
uint64_t finish:8; uint32_t unused2:24;
uint32_t finish:8;
} err; } err;
struct arg { struct arg {
uint32_t low; uint32_t low;
...@@ -119,45 +120,45 @@ typedef union uncore_perfmon_req { ...@@ -119,45 +120,45 @@ typedef union uncore_perfmon_req {
/* /*
* Commands: 0 = READ, 1 = WRITE * Commands: 0 = READ, 1 = WRITE
*/ */
uint64_t cmd:8; uint32_t cmd:8;
/* /*
* The unit group: L2=0, L3=1, ROC=2, MC=3, IOB=4 * The unit group: L2=0, L3=1, ROC=2, MC=3, IOB=4
*/ */
uint64_t grp:4; uint32_t grp:4;
/* /*
* Unit selector: Selects the unit instance, with 0 = Unit * Unit selector: Selects the unit instance, with 0 = Unit
* = (number of units in group) - 1. * = (number of units in group) - 1.
*/ */
uint64_t unit:4; uint32_t unit:4;
/* /*
* Selects the uncore perfmon register to access * Selects the uncore perfmon register to access
*/ */
uint64_t reg:8; uint32_t reg:8;
/* /*
* Counter number. Selects which counter to use for * Counter number. Selects which counter to use for
* registers NV_PMEVCNTR and NV_PMEVTYPER. * registers NV_PMEVCNTR and NV_PMEVTYPER.
*/ */
uint64_t counter:8; uint32_t counter:8;
} perfmon_command; } perfmon_command;
struct perfmon_status { struct perfmon_status {
/* /*
* Resulting command status * Resulting command status
*/ */
uint64_t val:8; uint32_t val:8;
uint64_t unused:24; uint32_t unused:24;
} perfmon_status; } perfmon_status;
uint64_t data; uint64_t data;
} uncore_perfmon_req_t; } uncore_perfmon_req_t;
#define UNCORE_PERFMON_CMD_READ 0 #define UNCORE_PERFMON_CMD_READ 0U
#define UNCORE_PERFMON_CMD_WRITE 1 #define UNCORE_PERFMON_CMD_WRITE 1U
#define UNCORE_PERFMON_CMD_MASK 0xFF #define UNCORE_PERFMON_CMD_MASK 0xFFU
#define UNCORE_PERFMON_UNIT_GRP_MASK 0xF #define UNCORE_PERFMON_UNIT_GRP_MASK 0xFU
#define UNCORE_PERFMON_SELECTOR_MASK 0xF #define UNCORE_PERFMON_SELECTOR_MASK 0xFU
#define UNCORE_PERFMON_REG_MASK 0xFF #define UNCORE_PERFMON_REG_MASK 0xFFU
#define UNCORE_PERFMON_CTR_MASK 0xFF #define UNCORE_PERFMON_CTR_MASK 0xFFU
#define UNCORE_PERFMON_RESP_STATUS_MASK 0xFF #define UNCORE_PERFMON_RESP_STATUS_MASK 0xFFU
/******************************************************************************* /*******************************************************************************
* Structure populated by arch specific code to export routines which perform * Structure populated by arch specific code to export routines which perform
......
/* /*
* Copyright (c) 2016, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2016-2017, ARM Limited and Contributors. All rights reserved.
* *
* Redistribution and use in source and binary forms, with or without * Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met: * modification, are permitted provided that the following conditions are met:
...@@ -40,103 +40,103 @@ ...@@ -40,103 +40,103 @@
*/ */
enum { enum {
TEGRA_ARI_VERSION_MAJOR = 3, TEGRA_ARI_VERSION_MAJOR = 3U,
TEGRA_ARI_VERSION_MINOR = 1, TEGRA_ARI_VERSION_MINOR = 1U,
}; };
typedef enum { typedef enum {
/* indexes below get the core lock */ /* indexes below get the core lock */
TEGRA_ARI_MISC = 0, TEGRA_ARI_MISC = 0U,
/* index 1 is deprecated */ /* index 1 is deprecated */
/* index 2 is deprecated */ /* index 2 is deprecated */
/* index 3 is deprecated */ /* index 3 is deprecated */
TEGRA_ARI_ONLINE_CORE = 4, TEGRA_ARI_ONLINE_CORE = 4U,
/* indexes below need cluster lock */ /* indexes below need cluster lock */
TEGRA_ARI_MISC_CLUSTER = 41, TEGRA_ARI_MISC_CLUSTER = 41U,
TEGRA_ARI_IS_CCX_ALLOWED = 42, TEGRA_ARI_IS_CCX_ALLOWED = 42U,
TEGRA_ARI_CC3_CTRL = 43, TEGRA_ARI_CC3_CTRL = 43U,
/* indexes below need ccplex lock */ /* indexes below need ccplex lock */
TEGRA_ARI_ENTER_CSTATE = 80, TEGRA_ARI_ENTER_CSTATE = 80U,
TEGRA_ARI_UPDATE_CSTATE_INFO = 81, TEGRA_ARI_UPDATE_CSTATE_INFO = 81U,
TEGRA_ARI_IS_SC7_ALLOWED = 82, TEGRA_ARI_IS_SC7_ALLOWED = 82U,
/* index 83 is deprecated */ /* index 83 is deprecated */
TEGRA_ARI_PERFMON = 84, TEGRA_ARI_PERFMON = 84U,
TEGRA_ARI_UPDATE_CCPLEX_GSC = 85, TEGRA_ARI_UPDATE_CCPLEX_GSC = 85U,
/* index 86 is depracated */ /* index 86 is depracated */
/* index 87 is deprecated */ /* index 87 is deprecated */
TEGRA_ARI_ROC_FLUSH_CACHE_ONLY = 88, TEGRA_ARI_ROC_FLUSH_CACHE_ONLY = 88U,
TEGRA_ARI_ROC_FLUSH_CACHE_TRBITS = 89, TEGRA_ARI_ROC_FLUSH_CACHE_TRBITS = 89U,
TEGRA_ARI_MISC_CCPLEX = 90, TEGRA_ARI_MISC_CCPLEX = 90U,
TEGRA_ARI_MCA = 91, TEGRA_ARI_MCA = 91U,
TEGRA_ARI_UPDATE_CROSSOVER = 92, TEGRA_ARI_UPDATE_CROSSOVER = 92U,
TEGRA_ARI_CSTATE_STATS = 93, TEGRA_ARI_CSTATE_STATS = 93U,
TEGRA_ARI_WRITE_CSTATE_STATS = 94, TEGRA_ARI_WRITE_CSTATE_STATS = 94U,
TEGRA_ARI_COPY_MISCREG_AA64_RST = 95, TEGRA_ARI_COPY_MISCREG_AA64_RST = 95U,
TEGRA_ARI_ROC_CLEAN_CACHE_ONLY = 96, TEGRA_ARI_ROC_CLEAN_CACHE_ONLY = 96U,
} tegra_ari_req_id_t; } tegra_ari_req_id_t;
typedef enum { typedef enum {
TEGRA_ARI_MISC_ECHO = 0, TEGRA_ARI_MISC_ECHO = 0U,
TEGRA_ARI_MISC_VERSION = 1, TEGRA_ARI_MISC_VERSION = 1U,
TEGRA_ARI_MISC_FEATURE_LEAF_0 = 2, TEGRA_ARI_MISC_FEATURE_LEAF_0 = 2U,
} tegra_ari_misc_index_t; } tegra_ari_misc_index_t;
typedef enum { typedef enum {
TEGRA_ARI_MISC_CCPLEX_SHUTDOWN_POWER_OFF = 0, TEGRA_ARI_MISC_CCPLEX_SHUTDOWN_POWER_OFF = 0U,
TEGRA_ARI_MISC_CCPLEX_SHUTDOWN_REBOOT = 1, TEGRA_ARI_MISC_CCPLEX_SHUTDOWN_REBOOT = 1U,
TEGRA_ARI_MISC_CCPLEX_CORESIGHT_CG_CTRL = 2, TEGRA_ARI_MISC_CCPLEX_CORESIGHT_CG_CTRL = 2U,
TEGRA_ARI_MISC_CCPLEX_EDBGREQ = 3, TEGRA_ARI_MISC_CCPLEX_EDBGREQ = 3U,
} tegra_ari_misc_ccplex_index_t; } tegra_ari_misc_ccplex_index_t;
typedef enum { typedef enum {
TEGRA_ARI_CORE_C0 = 0, TEGRA_ARI_CORE_C0 = 0U,
TEGRA_ARI_CORE_C1 = 1, TEGRA_ARI_CORE_C1 = 1U,
TEGRA_ARI_CORE_C6 = 6, TEGRA_ARI_CORE_C6 = 6U,
TEGRA_ARI_CORE_C7 = 7, TEGRA_ARI_CORE_C7 = 7U,
TEGRA_ARI_CORE_WARMRSTREQ = 8, TEGRA_ARI_CORE_WARMRSTREQ = 8U,
} tegra_ari_core_sleep_state_t; } tegra_ari_core_sleep_state_t;
typedef enum { typedef enum {
TEGRA_ARI_CLUSTER_CC0 = 0, TEGRA_ARI_CLUSTER_CC0 = 0U,
TEGRA_ARI_CLUSTER_CC1 = 1, TEGRA_ARI_CLUSTER_CC1 = 1U,
TEGRA_ARI_CLUSTER_CC6 = 6, TEGRA_ARI_CLUSTER_CC6 = 6U,
TEGRA_ARI_CLUSTER_CC7 = 7, TEGRA_ARI_CLUSTER_CC7 = 7U,
} tegra_ari_cluster_sleep_state_t; } tegra_ari_cluster_sleep_state_t;
typedef enum { typedef enum {
TEGRA_ARI_CCPLEX_CCP0 = 0, TEGRA_ARI_CCPLEX_CCP0 = 0U,
TEGRA_ARI_CCPLEX_CCP1 = 1, TEGRA_ARI_CCPLEX_CCP1 = 1U,
TEGRA_ARI_CCPLEX_CCP3 = 3, /* obsoleted */ TEGRA_ARI_CCPLEX_CCP3 = 3U, /* obsoleted */
} tegra_ari_ccplex_sleep_state_t; } tegra_ari_ccplex_sleep_state_t;
typedef enum { typedef enum {
TEGRA_ARI_SYSTEM_SC0 = 0, TEGRA_ARI_SYSTEM_SC0 = 0U,
TEGRA_ARI_SYSTEM_SC1 = 1, /* obsoleted */ TEGRA_ARI_SYSTEM_SC1 = 1U, /* obsoleted */
TEGRA_ARI_SYSTEM_SC2 = 2, /* obsoleted */ TEGRA_ARI_SYSTEM_SC2 = 2U, /* obsoleted */
TEGRA_ARI_SYSTEM_SC3 = 3, /* obsoleted */ TEGRA_ARI_SYSTEM_SC3 = 3U, /* obsoleted */
TEGRA_ARI_SYSTEM_SC4 = 4, /* obsoleted */ TEGRA_ARI_SYSTEM_SC4 = 4U, /* obsoleted */
TEGRA_ARI_SYSTEM_SC7 = 7, TEGRA_ARI_SYSTEM_SC7 = 7U,
TEGRA_ARI_SYSTEM_SC8 = 8, TEGRA_ARI_SYSTEM_SC8 = 8U,
} tegra_ari_system_sleep_state_t; } tegra_ari_system_sleep_state_t;
typedef enum { typedef enum {
TEGRA_ARI_CROSSOVER_C1_C6 = 0, TEGRA_ARI_CROSSOVER_C1_C6 = 0U,
TEGRA_ARI_CROSSOVER_CC1_CC6 = 1, TEGRA_ARI_CROSSOVER_CC1_CC6 = 1U,
TEGRA_ARI_CROSSOVER_CC1_CC7 = 2, TEGRA_ARI_CROSSOVER_CC1_CC7 = 2U,
TEGRA_ARI_CROSSOVER_CCP1_CCP3 = 3, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP1_CCP3 = 3U, /* obsoleted */
TEGRA_ARI_CROSSOVER_CCP3_SC2 = 4, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP3_SC2 = 4U, /* obsoleted */
TEGRA_ARI_CROSSOVER_CCP3_SC3 = 5, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP3_SC3 = 5U, /* obsoleted */
TEGRA_ARI_CROSSOVER_CCP3_SC4 = 6, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP3_SC4 = 6U, /* obsoleted */
TEGRA_ARI_CROSSOVER_CCP3_SC7 = 7, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP3_SC7 = 7U, /* obsoleted */
TEGRA_ARI_CROSSOVER_SC0_SC7 = 7, TEGRA_ARI_CROSSOVER_SC0_SC7 = 7U,
TEGRA_ARI_CROSSOVER_CCP3_SC1 = 8, /* obsoleted */ TEGRA_ARI_CROSSOVER_CCP3_SC1 = 8U, /* obsoleted */
} tegra_ari_crossover_index_t; } tegra_ari_crossover_index_t;
typedef enum { typedef enum {
TEGRA_ARI_CSTATE_STATS_CLEAR = 0, TEGRA_ARI_CSTATE_STATS_CLEAR = 0U,
TEGRA_ARI_CSTATE_STATS_SC7_ENTRIES, TEGRA_ARI_CSTATE_STATS_SC7_ENTRIES = 1U,
TEGRA_ARI_CSTATE_STATS_SC4_ENTRIES, /* obsoleted */ TEGRA_ARI_CSTATE_STATS_SC4_ENTRIES, /* obsoleted */
TEGRA_ARI_CSTATE_STATS_SC3_ENTRIES, /* obsoleted */ TEGRA_ARI_CSTATE_STATS_SC3_ENTRIES, /* obsoleted */
TEGRA_ARI_CSTATE_STATS_SC2_ENTRIES, /* obsoleted */ TEGRA_ARI_CSTATE_STATS_SC2_ENTRIES, /* obsoleted */
...@@ -147,316 +147,314 @@ typedef enum { ...@@ -147,316 +147,314 @@ typedef enum {
TEGRA_ARI_CSTATE_STATS_D15_CC7_ENTRIES, TEGRA_ARI_CSTATE_STATS_D15_CC7_ENTRIES,
TEGRA_ARI_CSTATE_STATS_D15_0_C6_ENTRIES, TEGRA_ARI_CSTATE_STATS_D15_0_C6_ENTRIES,
TEGRA_ARI_CSTATE_STATS_D15_1_C6_ENTRIES, TEGRA_ARI_CSTATE_STATS_D15_1_C6_ENTRIES,
TEGRA_ARI_CSTATE_STATS_D15_0_C7_ENTRIES = 14, TEGRA_ARI_CSTATE_STATS_D15_0_C7_ENTRIES = 14U,
TEGRA_ARI_CSTATE_STATS_D15_1_C7_ENTRIES, TEGRA_ARI_CSTATE_STATS_D15_1_C7_ENTRIES,
TEGRA_ARI_CSTATE_STATS_A57_0_C7_ENTRIES = 18, TEGRA_ARI_CSTATE_STATS_A57_0_C7_ENTRIES = 18U,
TEGRA_ARI_CSTATE_STATS_A57_1_C7_ENTRIES, TEGRA_ARI_CSTATE_STATS_A57_1_C7_ENTRIES,
TEGRA_ARI_CSTATE_STATS_A57_2_C7_ENTRIES, TEGRA_ARI_CSTATE_STATS_A57_2_C7_ENTRIES,
TEGRA_ARI_CSTATE_STATS_A57_3_C7_ENTRIES, TEGRA_ARI_CSTATE_STATS_A57_3_C7_ENTRIES,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_0, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_0,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_1, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_1,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_0 = 26, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_0 = 26U,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_1, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_1,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_2, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_2,
TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_3, TEGRA_ARI_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_3,
} tegra_ari_cstate_stats_index_t; } tegra_ari_cstate_stats_index_t;
typedef enum { typedef enum {
TEGRA_ARI_GSC_ALL = 0, TEGRA_ARI_GSC_ALL = 0U,
TEGRA_ARI_GSC_BPMP = 6U,
TEGRA_ARI_GSC_BPMP = 6, TEGRA_ARI_GSC_APE = 7U,
TEGRA_ARI_GSC_APE = 7, TEGRA_ARI_GSC_SPE = 8U,
TEGRA_ARI_GSC_SPE = 8, TEGRA_ARI_GSC_SCE = 9U,
TEGRA_ARI_GSC_SCE = 9, TEGRA_ARI_GSC_APR = 10U,
TEGRA_ARI_GSC_APR = 10, TEGRA_ARI_GSC_TZRAM = 11U,
TEGRA_ARI_GSC_TZRAM = 11, TEGRA_ARI_GSC_SE = 12U,
TEGRA_ARI_GSC_SE = 12, TEGRA_ARI_GSC_BPMP_TO_SPE = 16U,
TEGRA_ARI_GSC_SPE_TO_BPMP = 17U,
TEGRA_ARI_GSC_BPMP_TO_SPE = 16, TEGRA_ARI_GSC_CPU_TZ_TO_BPMP = 18U,
TEGRA_ARI_GSC_SPE_TO_BPMP = 17, TEGRA_ARI_GSC_BPMP_TO_CPU_TZ = 19U,
TEGRA_ARI_GSC_CPU_TZ_TO_BPMP = 18, TEGRA_ARI_GSC_CPU_NS_TO_BPMP = 20U,
TEGRA_ARI_GSC_BPMP_TO_CPU_TZ = 19, TEGRA_ARI_GSC_BPMP_TO_CPU_NS = 21U,
TEGRA_ARI_GSC_CPU_NS_TO_BPMP = 20, TEGRA_ARI_GSC_IPC_SE_SPE_SCE_BPMP = 22U,
TEGRA_ARI_GSC_BPMP_TO_CPU_NS = 21, TEGRA_ARI_GSC_SC7_RESUME_FW = 23U,
TEGRA_ARI_GSC_IPC_SE_SPE_SCE_BPMP = 22, TEGRA_ARI_GSC_TZ_DRAM_IDX = 34U,
TEGRA_ARI_GSC_SC7_RESUME_FW = 23, TEGRA_ARI_GSC_VPR_IDX = 35U,
TEGRA_ARI_GSC_TZ_DRAM_IDX = 34,
TEGRA_ARI_GSC_VPR_IDX = 35,
} tegra_ari_gsc_index_t; } tegra_ari_gsc_index_t;
/* This macro will produce enums for __name##_LSB, __name##_MSB and __name##_MSK */ /* This macro will produce enums for __name##_LSB, __name##_MSB and __name##_MSK */
#define TEGRA_ARI_ENUM_MASK_LSB_MSB(__name, __lsb, __msb) __name##_LSB = __lsb, __name##_MSB = __msb #define TEGRA_ARI_ENUM_MASK_LSB_MSB(__name, __lsb, __msb) __name##_LSB = __lsb, __name##_MSB = __msb
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CLUSTER_CSTATE, 0, 2), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CLUSTER_CSTATE, 0U, 2U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CLUSTER_CSTATE_PRESENT, 7, 7), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CLUSTER_CSTATE_PRESENT, 7U, 7U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CCPLEX_CSTATE, 8, 9), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CCPLEX_CSTATE, 8U, 9U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CCPLEX_CSTATE_PRESENT, 15, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__CCPLEX_CSTATE_PRESENT, 15U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__SYSTEM_CSTATE, 16, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__SYSTEM_CSTATE, 16U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__IGNORE_CROSSOVERS, 22, 22), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__IGNORE_CROSSOVERS, 22U, 22U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__SYSTEM_CSTATE_PRESENT, 23, 23), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__SYSTEM_CSTATE_PRESENT, 23U, 23U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__WAKE_MASK_PRESENT, 31, 31), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_UPDATE_CSTATE_INFO__WAKE_MASK_PRESENT, 31U, 31U),
} tegra_ari_update_cstate_info_bitmasks_t; } tegra_ari_update_cstate_info_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MISC_CCPLEX_CORESIGHT_CG_CTRL__EN, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MISC_CCPLEX_CORESIGHT_CG_CTRL__EN, 0U, 0U),
} tegra_ari_misc_ccplex_bitmasks_t; } tegra_ari_misc_ccplex_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__IDLE_FREQ, 0, 8), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__IDLE_FREQ, 0U, 8U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__IDLE_VOLT, 16, 23), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__IDLE_VOLT, 16U, 23U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__ENABLE, 31, 31), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_CC3_CTRL__ENABLE, 31U, 31U),
} tegra_ari_cc3_ctrl_bitmasks_t; } tegra_ari_cc3_ctrl_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_MCA_NOP = 0, TEGRA_ARI_MCA_NOP = 0U,
TEGRA_ARI_MCA_READ_SERR = 1, TEGRA_ARI_MCA_READ_SERR = 1U,
TEGRA_ARI_MCA_WRITE_SERR = 2, TEGRA_ARI_MCA_WRITE_SERR = 2U,
TEGRA_ARI_MCA_CLEAR_SERR = 4, TEGRA_ARI_MCA_CLEAR_SERR = 4U,
TEGRA_ARI_MCA_REPORT_SERR = 5, TEGRA_ARI_MCA_REPORT_SERR = 5U,
TEGRA_ARI_MCA_READ_INTSTS = 6, TEGRA_ARI_MCA_READ_INTSTS = 6U,
TEGRA_ARI_MCA_WRITE_INTSTS = 7, TEGRA_ARI_MCA_WRITE_INTSTS = 7U,
TEGRA_ARI_MCA_READ_PREBOOT_SERR = 8, TEGRA_ARI_MCA_READ_PREBOOT_SERR = 8U,
} tegra_ari_mca_commands_t; } tegra_ari_mca_commands_t;
typedef enum { typedef enum {
TEGRA_ARI_MCA_RD_WR_DPMU = 0, TEGRA_ARI_MCA_RD_WR_DPMU = 0U,
TEGRA_ARI_MCA_RD_WR_IOB = 1, TEGRA_ARI_MCA_RD_WR_IOB = 1U,
TEGRA_ARI_MCA_RD_WR_MCB = 2, TEGRA_ARI_MCA_RD_WR_MCB = 2U,
TEGRA_ARI_MCA_RD_WR_CCE = 3, TEGRA_ARI_MCA_RD_WR_CCE = 3U,
TEGRA_ARI_MCA_RD_WR_CQX = 4, TEGRA_ARI_MCA_RD_WR_CQX = 4U,
TEGRA_ARI_MCA_RD_WR_CTU = 5, TEGRA_ARI_MCA_RD_WR_CTU = 5U,
TEGRA_ARI_MCA_RD_WR_JSR_MTS = 7, TEGRA_ARI_MCA_RD_WR_JSR_MTS = 7U,
TEGRA_ARI_MCA_RD_BANK_INFO = 0x0f, TEGRA_ARI_MCA_RD_BANK_INFO = 0x0fU,
TEGRA_ARI_MCA_RD_BANK_TEMPLATE = 0x10, TEGRA_ARI_MCA_RD_BANK_TEMPLATE = 0x10U,
TEGRA_ARI_MCA_RD_WR_SECURE_ACCESS_REGISTER = 0x11, TEGRA_ARI_MCA_RD_WR_SECURE_ACCESS_REGISTER = 0x11U,
TEGRA_ARI_MCA_RD_WR_GLOBAL_CONFIG_REGISTER = 0x12, TEGRA_ARI_MCA_RD_WR_GLOBAL_CONFIG_REGISTER = 0x12U,
} tegra_ari_mca_rd_wr_indexes_t; } tegra_ari_mca_rd_wr_indexes_t;
typedef enum { typedef enum {
TEGRA_ARI_MCA_RD_WR_ASERRX_CTRL = 0, TEGRA_ARI_MCA_RD_WR_ASERRX_CTRL = 0U,
TEGRA_ARI_MCA_RD_WR_ASERRX_STATUS = 1, TEGRA_ARI_MCA_RD_WR_ASERRX_STATUS = 1U,
TEGRA_ARI_MCA_RD_WR_ASERRX_ADDR = 2, TEGRA_ARI_MCA_RD_WR_ASERRX_ADDR = 2U,
TEGRA_ARI_MCA_RD_WR_ASERRX_MISC1 = 3, TEGRA_ARI_MCA_RD_WR_ASERRX_MISC1 = 3U,
TEGRA_ARI_MCA_RD_WR_ASERRX_MISC2 = 4, TEGRA_ARI_MCA_RD_WR_ASERRX_MISC2 = 4U,
} tegra_ari_mca_read_asserx_subindexes_t; } tegra_ari_mca_read_asserx_subindexes_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_SETTING_ENABLES_NS_PERMITTED, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_SETTING_ENABLES_NS_PERMITTED, 0U, 0U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_READING_STATUS_NS_PERMITTED, 1, 1), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_READING_STATUS_NS_PERMITTED, 1U, 1U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_PENDING_MCA_ERRORS_NS_PERMITTED, 2, 2), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_PENDING_MCA_ERRORS_NS_PERMITTED, 2U, 2U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_CLEARING_MCA_INTERRUPTS_NS_PERMITTED, 3, 3), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SECURE_REGISTER_CLEARING_MCA_INTERRUPTS_NS_PERMITTED, 3U, 3U),
} tegra_ari_mca_secure_register_bitmasks_t; } tegra_ari_mca_secure_register_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_PWM_ERR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_PWM_ERR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_CRAB_ERR, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_CRAB_ERR, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_RD_WR_N, 18, 18), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_RD_WR_N, 18U, 18U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_UCODE_ERR, 19, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_UCODE_ERR, 19U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_PWM, 20, 23), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_PWM, 20U, 23U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_ADDR_ADDR, 0, 41), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_ADDR_ADDR, 0U, 41U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_ADDR_UCODE_ERRCD, 42, 52), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_ADDR_UCODE_ERRCD, 42U, 52U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_PWM_ERR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_PWM_ERR, 0U, 0U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_CRAB_ERR, 1, 1), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_CRAB_ERR, 1U, 1U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_UCODE_ERR, 3, 3), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR0_CTRL_EN_UCODE_ERR, 3U, 3U),
} tegra_ari_mca_aserr0_bitmasks_t; } tegra_ari_mca_aserr0_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MSI_ERR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MSI_ERR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_IHI_ERR, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_IHI_ERR, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CRI_ERR, 18, 18), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CRI_ERR, 18U, 18U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MMCRAB_ERR, 19, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MMCRAB_ERR, 19U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CSI_ERR, 20, 20), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CSI_ERR, 20U, 20U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_RD_WR_N, 21, 21), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_RD_WR_N, 21U, 21U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_REQ_ERRT, 22, 23), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_REQ_ERRT, 22U, 23U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_RESP_ERRT, 24, 25), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_RESP_ERRT, 24U, 25U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_AXI_ID, 0, 7), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_AXI_ID, 0U, 7U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_ID, 8, 27), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_ID, 8U, 27U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_CID, 28, 31), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_CID, 28U, 31U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_CMD, 32, 35), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_STAT_CQX_CMD, 32U, 35U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_MSI_ERR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_MSI_ERR, 0U, 0U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_IHI_ERR, 1, 1), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_IHI_ERR, 1U, 1U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_CRI_ERR, 2, 2), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_CRI_ERR, 2U, 2U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_MMCRAB_ERR, 3, 3), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_MMCRAB_ERR, 3U, 3U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_CSI_ERR, 4, 4), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_CTRL_EN_CSI_ERR, 4U, 4U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_MISC_ADDR, 0, 41), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR1_MISC_ADDR, 0U, 41U),
} tegra_ari_mca_aserr1_bitmasks_t; } tegra_ari_mca_aserr1_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_MC_ERR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_MC_ERR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_SYSRAM_ERR, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_SYSRAM_ERR, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_CLIENT_ID, 18, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_CLIENT_ID, 18U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_ID, 0, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_ID, 0U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_CMD, 18, 21), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_CMD, 18U, 21U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_ADDR, 22, 53), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_ADDR_ADDR, 22U, 53U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_CTRL_EN_MC_ERR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR2_CTRL_EN_MC_ERR, 0U, 0U),
} tegra_ari_mca_aserr2_bitmasks_t; } tegra_ari_mca_aserr2_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_TO_ERR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_TO_ERR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_STAT_ERR, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_STAT_ERR, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_DST_ERR, 18, 18), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_DST_ERR, 18U, 18U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_UNC_ERR, 19, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_UNC_ERR, 19U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_MH_ERR, 20, 20), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_MH_ERR, 20U, 20U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_PERR, 21, 21), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_PERR, 21U, 21U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_PSN_ERR, 22, 22), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_PSN_ERR, 22U, 22U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_ADDR_CMD, 0, 5), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_ADDR_CMD, 0U, 5U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_ADDR_ADDR, 6, 47), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_ADDR_ADDR, 6U, 47U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_TO, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_TO, 0U, 0U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_DIV4, 1, 1), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_DIV4, 1U, 1U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_TLIMIT, 2, 11), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_TLIMIT, 2U, 11U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_PSN_ERR_CORR_MSK, 12, 25), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC1_PSN_ERR_CORR_MSK, 12U, 25U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_MORE_INFO, 0, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_MORE_INFO, 0U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_TO_INFO, 18, 43), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_TO_INFO, 18U, 43U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_SRC, 44, 45), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_SRC, 44U, 45U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_TID, 46, 52), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_MISC2_TID, 46U, 52U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_TO_ERR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_TO_ERR, 0U, 0U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_STAT_ERR, 1, 1), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_STAT_ERR, 1U, 1U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_DST_ERR, 2, 2), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_DST_ERR, 2U, 2U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_UNC_ERR, 3, 3), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_UNC_ERR, 3U, 3U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_MH_ERR, 4, 4), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_MH_ERR, 4U, 4U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_PERR, 5, 5), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_PERR, 5U, 5U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_PSN_ERR, 6, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR3_CTRL_EN_PSN_ERR, 6U, 19U),
} tegra_ari_mca_aserr3_bitmasks_t; } tegra_ari_mca_aserr3_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_SRC_ERR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_SRC_ERR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_DST_ERR, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_DST_ERR, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_REQ_ERR, 18, 18), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_REQ_ERR, 18U, 18U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_RSP_ERR, 19, 19), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_RSP_ERR, 19U, 19U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_CTRL_EN_CPE_ERR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR4_CTRL_EN_CPE_ERR, 0U, 0U),
} tegra_ari_mca_aserr4_bitmasks_t; } tegra_ari_mca_aserr4_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_CTUPAR, 16, 16), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_CTUPAR, 16U, 16U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_MULTI, 17, 17), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_MULTI, 17U, 17U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_SRC, 0, 7), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_SRC, 0U, 7U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_ID, 8, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_ID, 8U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_DATA, 16, 26), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_DATA, 16U, 26U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_CMD, 32, 35), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_CMD, 32U, 35U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_ADDR, 36, 45), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_ADDR_ADDR, 36U, 45U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_CTRL_EN_CTUPAR, 0, 0), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_ASERR5_CTRL_EN_CTUPAR, 0U, 0U),
} tegra_ari_mca_aserr5_bitmasks_t; } tegra_ari_mca_aserr5_bitmasks_t;
typedef enum { typedef enum {
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_SERR_ERR_CODE, 0, 15), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_SERR_ERR_CODE, 0U, 15U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_AV, 58, 58), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_AV, 58U, 58U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_MV, 59, 59), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_MV, 59U, 59U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_EN, 60, 60), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_EN, 60U, 60U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_UC, 61, 61), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_UC, 61U, 61U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_OVF, 62, 62), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_OVF, 62U, 62U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_VAL, 63, 63), TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_STAT_VAL, 63U, 63U),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_ADDR_TBD_INFO, 0, 63),
TEGRA_ARI_ENUM_MASK_LSB_MSB(TEGRA_ARI_MCA_SERR1_ADDR_TBD_INFO, 0U, 63U),
} tegra_ari_mca_serr1_bitmasks_t; } tegra_ari_mca_serr1_bitmasks_t;
#undef TEGRA_ARI_ENUM_MASK_LSB_MSB #undef TEGRA_ARI_ENUM_MASK_LSB_MSB
typedef enum { typedef enum {
TEGRA_NVG_CHANNEL_PMIC = 0, TEGRA_NVG_CHANNEL_PMIC = 0U,
TEGRA_NVG_CHANNEL_POWER_PERF = 1, TEGRA_NVG_CHANNEL_POWER_PERF = 1U,
TEGRA_NVG_CHANNEL_POWER_MODES = 2, TEGRA_NVG_CHANNEL_POWER_MODES = 2U,
TEGRA_NVG_CHANNEL_WAKE_TIME = 3, TEGRA_NVG_CHANNEL_WAKE_TIME = 3U,
TEGRA_NVG_CHANNEL_CSTATE_INFO = 4, TEGRA_NVG_CHANNEL_CSTATE_INFO = 4U,
TEGRA_NVG_CHANNEL_CROSSOVER_C1_C6 = 5, TEGRA_NVG_CHANNEL_CROSSOVER_C1_C6 = 5U,
TEGRA_NVG_CHANNEL_CROSSOVER_CC1_CC6 = 6, TEGRA_NVG_CHANNEL_CROSSOVER_CC1_CC6 = 6U,
TEGRA_NVG_CHANNEL_CROSSOVER_CC1_CC7 = 7, TEGRA_NVG_CHANNEL_CROSSOVER_CC1_CC7 = 7U,
TEGRA_NVG_CHANNEL_CROSSOVER_CCP1_CCP3 = 8, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP1_CCP3 = 8U, /* obsoleted */
TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC2 = 9, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC2 = 9U, /* obsoleted */
TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC3 = 10, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC3 = 10U, /* obsoleted */
TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC4 = 11, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC4 = 11U, /* obsoleted */
TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC7 = 12, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC7 = 12U, /* obsoleted */
TEGRA_NVG_CHANNEL_CROSSOVER_SC0_SC7 = 12, TEGRA_NVG_CHANNEL_CROSSOVER_SC0_SC7 = 12U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_CLEAR = 13, TEGRA_NVG_CHANNEL_CSTATE_STATS_CLEAR = 13U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_SC7_ENTRIES = 14, TEGRA_NVG_CHANNEL_CSTATE_STATS_SC7_ENTRIES = 14U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_SC4_ENTRIES = 15, /* obsoleted */ TEGRA_NVG_CHANNEL_CSTATE_STATS_SC4_ENTRIES = 15U, /* obsoleted */
TEGRA_NVG_CHANNEL_CSTATE_STATS_SC3_ENTRIES = 16, /* obsoleted */ TEGRA_NVG_CHANNEL_CSTATE_STATS_SC3_ENTRIES = 16U, /* obsoleted */
TEGRA_NVG_CHANNEL_CSTATE_STATS_SC2_ENTRIES = 17, /* obsoleted */ TEGRA_NVG_CHANNEL_CSTATE_STATS_SC2_ENTRIES = 17U, /* obsoleted */
TEGRA_NVG_CHANNEL_CSTATE_STATS_CCP3_ENTRIES = 18, /* obsoleted */ TEGRA_NVG_CHANNEL_CSTATE_STATS_CCP3_ENTRIES = 18U, /* obsoleted */
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_CC6_ENTRIES = 19, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_CC6_ENTRIES = 19U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_CC7_ENTRIES = 20, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_CC7_ENTRIES = 20U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_CC6_ENTRIES = 21, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_CC6_ENTRIES = 21U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_CC7_ENTRIES = 22, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_CC7_ENTRIES = 22U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_0_C6_ENTRIES = 23, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_0_C6_ENTRIES = 23U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_1_C6_ENTRIES = 24, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_1_C6_ENTRIES = 24U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_2_C6_ENTRIES = 25, /* Reserved (for Denver15 core 2) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_2_C6_ENTRIES = 25U, /* Reserved (for Denver15 core 2) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_3_C6_ENTRIES = 26, /* Reserved (for Denver15 core 3) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_3_C6_ENTRIES = 26U, /* Reserved (for Denver15 core 3) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_0_C7_ENTRIES = 27, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_0_C7_ENTRIES = 27U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_1_C7_ENTRIES = 28, TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_1_C7_ENTRIES = 28U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_2_C7_ENTRIES = 29, /* Reserved (for Denver15 core 2) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_2_C7_ENTRIES = 29U, /* Reserved (for Denver15 core 2) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_3_C7_ENTRIES = 30, /* Reserved (for Denver15 core 3) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_D15_3_C7_ENTRIES = 30U, /* Reserved (for Denver15 core 3) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_0_C7_ENTRIES = 31, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_0_C7_ENTRIES = 31U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_1_C7_ENTRIES = 32, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_1_C7_ENTRIES = 32U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_2_C7_ENTRIES = 33, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_2_C7_ENTRIES = 33U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_3_C7_ENTRIES = 34, TEGRA_NVG_CHANNEL_CSTATE_STATS_A57_3_C7_ENTRIES = 34U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_0 = 35, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_0 = 35U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_1 = 36, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_1 = 36U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_2 = 37, /* Reserved (for Denver15 core 2) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_2 = 37U, /* Reserved (for Denver15 core 2) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_3 = 38, /* Reserved (for Denver15 core 3) */ TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_D15_3 = 38U, /* Reserved (for Denver15 core 3) */
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_0 = 39, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_0 = 39U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_1 = 40, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_1 = 40U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_2 = 41, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_2 = 41U,
TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_3 = 42, TEGRA_NVG_CHANNEL_CSTATE_STATS_LAST_CSTATE_ENTRY_A57_3 = 42U,
TEGRA_NVG_CHANNEL_IS_SC7_ALLOWED = 43, TEGRA_NVG_CHANNEL_IS_SC7_ALLOWED = 43U,
TEGRA_NVG_CHANNEL_ONLINE_CORE = 44, TEGRA_NVG_CHANNEL_ONLINE_CORE = 44U,
TEGRA_NVG_CHANNEL_CC3_CTRL = 45, TEGRA_NVG_CHANNEL_CC3_CTRL = 45U,
TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC1 = 46, /* obsoleted */ TEGRA_NVG_CHANNEL_CROSSOVER_CCP3_SC1 = 46U, /* obsoleted */
TEGRA_NVG_CHANNEL_LAST_INDEX, TEGRA_NVG_CHANNEL_LAST_INDEX,
} tegra_nvg_channel_id_t; } tegra_nvg_channel_id_t;
......
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