net: ipa: kill gsi->virt_raw

Starting at IPA v4.5, almost all GSI registers had their offsets
changed by a fixed amount (shifted downward by 0xd000).  Rather than
defining offsets for all those registers dependent on version, an
adjustment was applied for most register accesses.  This was
implemented in commit cdeee49f3e ("net: ipa: adjust GSI register
addresses").  It was later modified to be a bit more obvious about
the adjusment, in commit 571b1e7e58 ("net: ipa: use a separate
pointer for adjusted GSI memory").

We now are able to define every GSI register with its own offset, so
there's no need to implement this special adjustment.

So get rid of the "virt_raw" pointer, and just maintain "virt" as
the (non-adjusted) base address of I/O mapped GSI register memory.

Redefine the offsets of all GSI registers (other than the INTER_EE
ones, which were not subject to the adjustment) for IPA v4.5+,
subtracting 0xd000 from their defined offsets instead.

Move the ERROR_LOG and ERROR_LOG_CLR definitions further down in the
register definition files so all registers are defined in order of
their offset.

Signed-off-by: Alex Elder <elder@linaro.org>
Signed-off-by: Paolo Abeni <pabeni@redhat.com>
This commit is contained in:
Alex Elder 2023-02-15 13:53:48 -06:00 committed by Paolo Abeni
parent ecfa80ce3b
commit 59b12b1d27
10 changed files with 141 additions and 181 deletions

View File

@ -1999,12 +1999,11 @@ static int gsi_irq_setup(struct gsi *gsi)
/* The inter-EE interrupts are not supported for IPA v3.0-v3.1 */
if (gsi->version > IPA_VERSION_3_1) {
/* These registers are in the non-adjusted address range */
reg = gsi_reg(gsi, INTER_EE_SRC_CH_IRQ_MSK);
iowrite32(0, gsi->virt_raw + reg_offset(reg));
iowrite32(0, gsi->virt + reg_offset(reg));
reg = gsi_reg(gsi, INTER_EE_SRC_EV_CH_IRQ_MSK);
iowrite32(0, gsi->virt_raw + reg_offset(reg));
iowrite32(0, gsi->virt + reg_offset(reg));
}
reg = gsi_reg(gsi, CNTXT_GSI_IRQ_EN);

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@ -140,8 +140,7 @@ struct gsi_evt_ring {
struct gsi {
struct device *dev; /* Same as IPA device */
enum ipa_version version;
void __iomem *virt_raw; /* I/O mapped address range */
void __iomem *virt; /* Adjusted for most registers */
void __iomem *virt; /* I/O mapped registers */
const struct regs *regs;
u32 irq;

View File

@ -9,20 +9,6 @@
#include "reg.h"
#include "gsi_reg.h"
/* GSI EE registers as a group are shifted downward by a fixed constant amount
* for IPA versions 4.5 and beyond. This applies to all GSI registers we use
* *except* the ones that disable inter-EE interrupts for channels and event
* channels.
*
* The "raw" (not adjusted) GSI register range is mapped, and a pointer to
* the mapped range is held in gsi->virt_raw. The inter-EE interrupt
* registers are accessed using that pointer.
*
* Most registers are accessed using gsi->virt, which is a copy of the "raw"
* pointer, adjusted downward by the fixed amount.
*/
#define GSI_EE_REG_ADJUST 0x0000d000 /* IPA v4.5+ */
/* Is this register ID valid for the current GSI version? */
static bool gsi_reg_id_valid(struct gsi *gsi, enum gsi_reg_id reg_id)
{
@ -121,13 +107,12 @@ static const struct regs *gsi_regs(struct gsi *gsi)
}
}
/* Sets gsi->virt_raw and gsi->virt, and I/O maps the "gsi" memory range */
/* Sets gsi->virt and I/O maps the "gsi" memory range for registers */
int gsi_reg_init(struct gsi *gsi, struct platform_device *pdev)
{
struct device *dev = &pdev->dev;
struct resource *res;
resource_size_t size;
u32 adjust;
/* Get GSI memory range and map it */
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "gsi");
@ -142,27 +127,17 @@ int gsi_reg_init(struct gsi *gsi, struct platform_device *pdev)
return -EINVAL;
}
/* Make sure we can make our pointer adjustment if necessary */
adjust = gsi->version < IPA_VERSION_4_5 ? 0 : GSI_EE_REG_ADJUST;
if (res->start < adjust) {
dev_err(dev, "DT memory resource \"gsi\" too low (< %u)\n",
adjust);
return -EINVAL;
}
gsi->regs = gsi_regs(gsi);
if (!gsi->regs) {
dev_err(dev, "unsupported IPA version %u (?)\n", gsi->version);
return -EINVAL;
}
gsi->virt_raw = ioremap(res->start, size);
if (!gsi->virt_raw) {
gsi->virt = ioremap(res->start, size);
if (!gsi->virt) {
dev_err(dev, "unable to remap \"gsi\" memory\n");
return -ENOMEM;
}
/* Most registers are accessed using an adjusted register range */
gsi->virt = gsi->virt_raw - adjust;
return 0;
}
@ -170,7 +145,7 @@ int gsi_reg_init(struct gsi *gsi, struct platform_device *pdev)
/* Inverse of gsi_reg_init() */
void gsi_reg_exit(struct gsi *gsi)
{
iounmap(gsi->virt);
gsi->virt = NULL;
iounmap(gsi->virt_raw);
gsi->virt_raw = NULL;
gsi->regs = NULL;
}

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@ -351,8 +351,7 @@ const struct reg *gsi_reg(struct gsi *gsi, enum gsi_reg_id reg_id);
* @pdev: GSI (IPA) platform device
*
* Initialize GSI registers, including looking up and I/O mapping
* the "gsi" memory space. This function sets gsi->virt_raw and
* gsi->virt.
* the "gsi" memory space.
*/
int gsi_reg_init(struct gsi *gsi, struct platform_device *pdev);

View File

@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -66,10 +62,6 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
@ -152,6 +144,7 @@ REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
@ -159,6 +152,7 @@ REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
@ -220,6 +214,10 @@ static const u32 reg_cntxt_intset_fmask[] = {
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
/* Bits 3-4 reserved */

View File

@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -66,10 +62,6 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
@ -152,6 +144,7 @@ REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
@ -159,6 +152,7 @@ REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
@ -231,6 +225,10 @@ static const u32 reg_cntxt_intset_fmask[] = {
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
/* Bits 3-4 reserved */

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@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -67,10 +63,6 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
@ -153,6 +145,7 @@ REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
@ -160,6 +153,7 @@ REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
@ -236,6 +230,10 @@ static const u32 reg_cntxt_intset_fmask[] = {
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
/* Bits 3-4 reserved */

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@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -31,7 +27,7 @@ static const u32 reg_ch_c_cntxt_0_fmask[] = {
};
REG_STRIDE_FIELDS(CH_C_CNTXT_0, ch_c_cntxt_0,
0x0001c000 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f000 + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ch_c_cntxt_1_fmask[] = {
[CH_R_LENGTH] = GENMASK(19, 0),
@ -39,11 +35,11 @@ static const u32 reg_ch_c_cntxt_1_fmask[] = {
};
REG_STRIDE_FIELDS(CH_C_CNTXT_1, ch_c_cntxt_1,
0x0001c004 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f004 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_2, ch_c_cntxt_2, 0x0001c008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_2, ch_c_cntxt_2, 0x0000f008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_3, ch_c_cntxt_3, 0x0001c00c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_3, ch_c_cntxt_3, 0x0000f00c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ch_c_qos_fmask[] = {
[WRR_WEIGHT] = GENMASK(3, 0),
@ -57,7 +53,7 @@ static const u32 reg_ch_c_qos_fmask[] = {
/* Bits 25-31 reserved */
};
REG_STRIDE_FIELDS(CH_C_QOS, ch_c_qos, 0x0001c05c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE_FIELDS(CH_C_QOS, ch_c_qos, 0x0000f05c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_error_log_fmask[] = {
[ERR_ARG3] = GENMASK(3, 0),
@ -70,21 +66,17 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f060 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_1, ch_c_scratch_1,
0x0001c064 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f064 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_2, ch_c_scratch_2,
0x0001c068 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f068 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_3, ch_c_scratch_3,
0x0001c06c + 0x4000 * GSI_EE_AP, 0x80);
0x0000f06c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ev_ch_e_cntxt_0_fmask[] = {
[EV_CHTYPE] = GENMASK(3, 0),
@ -97,19 +89,19 @@ static const u32 reg_ev_ch_e_cntxt_0_fmask[] = {
};
REG_STRIDE_FIELDS(EV_CH_E_CNTXT_0, ev_ch_e_cntxt_0,
0x0001d000 + 0x4000 * GSI_EE_AP, 0x80);
0x00010000 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_1, ev_ch_e_cntxt_1,
0x0001d004 + 0x4000 * GSI_EE_AP, 0x80);
0x00010004 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_2, ev_ch_e_cntxt_2,
0x0001d008 + 0x4000 * GSI_EE_AP, 0x80);
0x00010008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_3, ev_ch_e_cntxt_3,
0x0001d00c + 0x4000 * GSI_EE_AP, 0x80);
0x0001000c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_4, ev_ch_e_cntxt_4,
0x0001d010 + 0x4000 * GSI_EE_AP, 0x80);
0x00010010 + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ev_ch_e_cntxt_8_fmask[] = {
[EV_MODT] = GENMASK(15, 0),
@ -118,55 +110,57 @@ static const u32 reg_ev_ch_e_cntxt_8_fmask[] = {
};
REG_STRIDE_FIELDS(EV_CH_E_CNTXT_8, ev_ch_e_cntxt_8,
0x0001d020 + 0x4000 * GSI_EE_AP, 0x80);
0x00010020 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_9, ev_ch_e_cntxt_9,
0x0001d024 + 0x4000 * GSI_EE_AP, 0x80);
0x00010024 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_10, ev_ch_e_cntxt_10,
0x0001d028 + 0x4000 * GSI_EE_AP, 0x80);
0x00010028 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_11, ev_ch_e_cntxt_11,
0x0001d02c + 0x4000 * GSI_EE_AP, 0x80);
0x0001002c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_12, ev_ch_e_cntxt_12,
0x0001d030 + 0x4000 * GSI_EE_AP, 0x80);
0x00010030 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_13, ev_ch_e_cntxt_13,
0x0001d034 + 0x4000 * GSI_EE_AP, 0x80);
0x00010034 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_SCRATCH_0, ev_ch_e_scratch_0,
0x0001d048 + 0x4000 * GSI_EE_AP, 0x80);
0x00010048 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_SCRATCH_1, ev_ch_e_scratch_1,
0x0001d04c + 0x4000 * GSI_EE_AP, 0x80);
0x0001004c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_DOORBELL_0, ch_c_doorbell_0,
0x0001e000 + 0x4000 * GSI_EE_AP, 0x08);
0x00011000 + 0x4000 * GSI_EE_AP, 0x08);
REG_STRIDE(EV_CH_E_DOORBELL_0, ev_ch_e_doorbell_0,
0x0001e100 + 0x4000 * GSI_EE_AP, 0x08);
0x00011100 + 0x4000 * GSI_EE_AP, 0x08);
static const u32 reg_gsi_status_fmask[] = {
[ENABLED] = BIT(0),
/* Bits 1-31 reserved */
};
REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
REG_FIELDS(GSI_STATUS, gsi_status, 0x00012000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CH_CMD, ch_cmd, 0x00012008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
REG_FIELDS(EV_CH_CMD, ev_ch_cmd, 0x0001f010 + 0x4000 * GSI_EE_AP);
REG_FIELDS(EV_CH_CMD, ev_ch_cmd, 0x00012010 + 0x4000 * GSI_EE_AP);
static const u32 reg_generic_cmd_fmask[] = {
[GENERIC_OPCODE] = GENMASK(4, 0),
@ -176,7 +170,7 @@ static const u32 reg_generic_cmd_fmask[] = {
[GENERIC_PARAMS] = GENMASK(31, 24),
};
REG_FIELDS(GENERIC_CMD, generic_cmd, 0x0001f018 + 0x4000 * GSI_EE_AP);
REG_FIELDS(GENERIC_CMD, generic_cmd, 0x00012018 + 0x4000 * GSI_EE_AP);
static const u32 reg_hw_param_2_fmask[] = {
[IRAM_SIZE] = GENMASK(2, 0),
@ -192,54 +186,58 @@ static const u32 reg_hw_param_2_fmask[] = {
[GSI_USE_INTER_EE] = BIT(31),
};
REG_FIELDS(HW_PARAM_2, hw_param_2, 0x0001f040 + 0x4000 * GSI_EE_AP);
REG_FIELDS(HW_PARAM_2, hw_param_2, 0x00012040 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ, cntxt_type_irq, 0x0001f080 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ, cntxt_type_irq, 0x00012080 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ_MSK, cntxt_type_irq_msk, 0x0001f088 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ_MSK, cntxt_type_irq_msk, 0x00012088 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ, cntxt_src_ch_irq, 0x0001f090 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ, cntxt_src_ch_irq, 0x00012090 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ, cntxt_src_ev_ch_irq, 0x0001f094 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ, cntxt_src_ev_ch_irq, 0x00012094 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ_MSK, cntxt_src_ch_irq_msk,
0x0001f098 + 0x4000 * GSI_EE_AP);
0x00012098 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ_MSK, cntxt_src_ev_ch_irq_msk,
0x0001f09c + 0x4000 * GSI_EE_AP);
0x0001209c + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ_CLR, cntxt_src_ch_irq_clr,
0x0001f0a0 + 0x4000 * GSI_EE_AP);
0x000120a0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ_CLR, cntxt_src_ev_ch_irq_clr,
0x0001f0a4 + 0x4000 * GSI_EE_AP);
0x000120a4 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ, cntxt_src_ieob_irq, 0x0001f0b0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ, cntxt_src_ieob_irq, 0x000120b0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ_MSK, cntxt_src_ieob_irq_msk,
0x0001f0b8 + 0x4000 * GSI_EE_AP);
0x000120b8 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ_CLR, cntxt_src_ieob_irq_clr,
0x0001f0c0 + 0x4000 * GSI_EE_AP);
0x000120c0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_STTS, cntxt_glob_irq_stts, 0x0001f100 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_STTS, cntxt_glob_irq_stts, 0x00012100 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_EN, cntxt_glob_irq_en, 0x0001f108 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_EN, cntxt_glob_irq_en, 0x00012108 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_CLR, cntxt_glob_irq_clr, 0x0001f110 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_CLR, cntxt_glob_irq_clr, 0x00012110 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_STTS, cntxt_gsi_irq_stts, 0x0001f118 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_STTS, cntxt_gsi_irq_stts, 0x00012118 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_EN, cntxt_gsi_irq_en, 0x0001f120 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_EN, cntxt_gsi_irq_en, 0x00012120 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_CLR, cntxt_gsi_irq_clr, 0x0001f128 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_CLR, cntxt_gsi_irq_clr, 0x00012128 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_intset_fmask[] = {
[INTYPE] = BIT(0)
/* Bits 1-31 reserved */
};
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x00012180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x00012200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x00012210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
@ -248,7 +246,7 @@ static const u32 reg_cntxt_scratch_0_fmask[] = {
/* Bits 8-31 reserved */
};
REG_FIELDS(CNTXT_SCRATCH_0, cntxt_scratch_0, 0x0001f400 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CNTXT_SCRATCH_0, cntxt_scratch_0, 0x00012400 + 0x4000 * GSI_EE_AP);
static const struct reg *reg_array[] = {
[INTER_EE_SRC_CH_IRQ_MSK] = &reg_inter_ee_src_ch_irq_msk,

View File

@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -31,7 +27,7 @@ static const u32 reg_ch_c_cntxt_0_fmask[] = {
};
REG_STRIDE_FIELDS(CH_C_CNTXT_0, ch_c_cntxt_0,
0x0001c000 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f000 + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ch_c_cntxt_1_fmask[] = {
[CH_R_LENGTH] = GENMASK(15, 0),
@ -39,11 +35,11 @@ static const u32 reg_ch_c_cntxt_1_fmask[] = {
};
REG_STRIDE_FIELDS(CH_C_CNTXT_1, ch_c_cntxt_1,
0x0001c004 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f004 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_2, ch_c_cntxt_2, 0x0001c008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_2, ch_c_cntxt_2, 0x0000f008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_3, ch_c_cntxt_3, 0x0001c00c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_CNTXT_3, ch_c_cntxt_3, 0x0000f00c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ch_c_qos_fmask[] = {
[WRR_WEIGHT] = GENMASK(3, 0),
@ -56,7 +52,7 @@ static const u32 reg_ch_c_qos_fmask[] = {
/* Bits 24-31 reserved */
};
REG_STRIDE_FIELDS(CH_C_QOS, ch_c_qos, 0x0001c05c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE_FIELDS(CH_C_QOS, ch_c_qos, 0x0000f05c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_error_log_fmask[] = {
[ERR_ARG3] = GENMASK(3, 0),
@ -69,21 +65,17 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f060 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_1, ch_c_scratch_1,
0x0001c064 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f064 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_2, ch_c_scratch_2,
0x0001c068 + 0x4000 * GSI_EE_AP, 0x80);
0x0000f068 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_SCRATCH_3, ch_c_scratch_3,
0x0001c06c + 0x4000 * GSI_EE_AP, 0x80);
0x0000f06c + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ev_ch_e_cntxt_0_fmask[] = {
[EV_CHTYPE] = GENMASK(3, 0),
@ -96,19 +88,19 @@ static const u32 reg_ev_ch_e_cntxt_0_fmask[] = {
};
REG_STRIDE_FIELDS(EV_CH_E_CNTXT_0, ev_ch_e_cntxt_0,
0x0001d000 + 0x4000 * GSI_EE_AP, 0x80);
0x00010000 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_1, ev_ch_e_cntxt_1,
0x0001d004 + 0x4000 * GSI_EE_AP, 0x80);
0x00010004 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_2, ev_ch_e_cntxt_2,
0x0001d008 + 0x4000 * GSI_EE_AP, 0x80);
0x00010008 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_3, ev_ch_e_cntxt_3,
0x0001d00c + 0x4000 * GSI_EE_AP, 0x80);
0x0001000c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_4, ev_ch_e_cntxt_4,
0x0001d010 + 0x4000 * GSI_EE_AP, 0x80);
0x00010010 + 0x4000 * GSI_EE_AP, 0x80);
static const u32 reg_ev_ch_e_cntxt_8_fmask[] = {
[EV_MODT] = GENMASK(15, 0),
@ -117,28 +109,28 @@ static const u32 reg_ev_ch_e_cntxt_8_fmask[] = {
};
REG_STRIDE_FIELDS(EV_CH_E_CNTXT_8, ev_ch_e_cntxt_8,
0x0001d020 + 0x4000 * GSI_EE_AP, 0x80);
0x00010020 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_9, ev_ch_e_cntxt_9,
0x0001d024 + 0x4000 * GSI_EE_AP, 0x80);
0x00010024 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_10, ev_ch_e_cntxt_10,
0x0001d028 + 0x4000 * GSI_EE_AP, 0x80);
0x00010028 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_11, ev_ch_e_cntxt_11,
0x0001d02c + 0x4000 * GSI_EE_AP, 0x80);
0x0001002c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_12, ev_ch_e_cntxt_12,
0x0001d030 + 0x4000 * GSI_EE_AP, 0x80);
0x00010030 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_CNTXT_13, ev_ch_e_cntxt_13,
0x0001d034 + 0x4000 * GSI_EE_AP, 0x80);
0x00010034 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_SCRATCH_0, ev_ch_e_scratch_0,
0x0001d048 + 0x4000 * GSI_EE_AP, 0x80);
0x00010048 + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(EV_CH_E_SCRATCH_1, ev_ch_e_scratch_1,
0x0001d04c + 0x4000 * GSI_EE_AP, 0x80);
0x0001004c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_DOORBELL_0, ch_c_doorbell_0,
0x0001e000 + 0x4000 * GSI_EE_AP, 0x08);
@ -155,6 +147,7 @@ REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
@ -162,6 +155,7 @@ REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
@ -239,6 +233,10 @@ static const u32 reg_cntxt_intset_fmask[] = {
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
/* Bits 3-4 reserved */

View File

@ -8,16 +8,12 @@
#include "../reg.h"
#include "../gsi_reg.h"
/* The inter-EE IRQ registers are relative to gsi->virt_raw (IPA v3.5+) */
REG(INTER_EE_SRC_CH_IRQ_MSK, inter_ee_src_ch_irq_msk,
0x0000c020 + 0x1000 * GSI_EE_AP);
REG(INTER_EE_SRC_EV_CH_IRQ_MSK, inter_ee_src_ev_ch_irq_msk,
0x0000c024 + 0x1000 * GSI_EE_AP);
/* All other register offsets are relative to gsi->virt */
static const u32 reg_ch_c_cntxt_0_fmask[] = {
[CHTYPE_PROTOCOL] = GENMASK(2, 0),
[CHTYPE_DIR] = BIT(3),
@ -70,10 +66,6 @@ static const u32 reg_error_log_fmask[] = {
[ERR_EE] = GENMASK(31, 28),
};
REG_FIELDS(ERROR_LOG, error_log, 0x0001f200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x0001f210 + 0x4000 * GSI_EE_AP);
REG_STRIDE(CH_C_SCRATCH_0, ch_c_scratch_0,
0x0001c060 + 0x4000 * GSI_EE_AP, 0x80);
@ -142,31 +134,33 @@ REG_STRIDE(EV_CH_E_SCRATCH_1, ev_ch_e_scratch_1,
0x0001d04c + 0x4000 * GSI_EE_AP, 0x80);
REG_STRIDE(CH_C_DOORBELL_0, ch_c_doorbell_0,
0x0001e000 + 0x4000 * GSI_EE_AP, 0x08);
0x00011000 + 0x4000 * GSI_EE_AP, 0x08);
REG_STRIDE(EV_CH_E_DOORBELL_0, ev_ch_e_doorbell_0,
0x0001e100 + 0x4000 * GSI_EE_AP, 0x08);
0x00011100 + 0x4000 * GSI_EE_AP, 0x08);
static const u32 reg_gsi_status_fmask[] = {
[ENABLED] = BIT(0),
/* Bits 1-31 reserved */
};
REG_FIELDS(GSI_STATUS, gsi_status, 0x0001f000 + 0x4000 * GSI_EE_AP);
REG_FIELDS(GSI_STATUS, gsi_status, 0x00012000 + 0x4000 * GSI_EE_AP);
static const u32 reg_ch_cmd_fmask[] = {
[CH_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[CH_OPCODE] = GENMASK(31, 24),
};
REG_FIELDS(CH_CMD, ch_cmd, 0x0001f008 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CH_CMD, ch_cmd, 0x00012008 + 0x4000 * GSI_EE_AP);
static const u32 reg_ev_ch_cmd_fmask[] = {
[EV_CHID] = GENMASK(7, 0),
/* Bits 8-23 reserved */
[EV_OPCODE] = GENMASK(31, 24),
};
REG_FIELDS(EV_CH_CMD, ev_ch_cmd, 0x0001f010 + 0x4000 * GSI_EE_AP);
REG_FIELDS(EV_CH_CMD, ev_ch_cmd, 0x00012010 + 0x4000 * GSI_EE_AP);
static const u32 reg_generic_cmd_fmask[] = {
[GENERIC_OPCODE] = GENMASK(4, 0),
@ -175,7 +169,7 @@ static const u32 reg_generic_cmd_fmask[] = {
/* Bits 14-31 reserved */
};
REG_FIELDS(GENERIC_CMD, generic_cmd, 0x0001f018 + 0x4000 * GSI_EE_AP);
REG_FIELDS(GENERIC_CMD, generic_cmd, 0x00012018 + 0x4000 * GSI_EE_AP);
static const u32 reg_hw_param_2_fmask[] = {
[IRAM_SIZE] = GENMASK(2, 0),
@ -191,54 +185,58 @@ static const u32 reg_hw_param_2_fmask[] = {
[GSI_USE_INTER_EE] = BIT(31),
};
REG_FIELDS(HW_PARAM_2, hw_param_2, 0x0001f040 + 0x4000 * GSI_EE_AP);
REG_FIELDS(HW_PARAM_2, hw_param_2, 0x00012040 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ, cntxt_type_irq, 0x0001f080 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ, cntxt_type_irq, 0x00012080 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ_MSK, cntxt_type_irq_msk, 0x0001f088 + 0x4000 * GSI_EE_AP);
REG(CNTXT_TYPE_IRQ_MSK, cntxt_type_irq_msk, 0x00012088 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ, cntxt_src_ch_irq, 0x0001f090 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ, cntxt_src_ch_irq, 0x00012090 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ, cntxt_src_ev_ch_irq, 0x0001f094 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ, cntxt_src_ev_ch_irq, 0x00012094 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ_MSK, cntxt_src_ch_irq_msk,
0x0001f098 + 0x4000 * GSI_EE_AP);
0x00012098 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ_MSK, cntxt_src_ev_ch_irq_msk,
0x0001f09c + 0x4000 * GSI_EE_AP);
0x0001209c + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_CH_IRQ_CLR, cntxt_src_ch_irq_clr,
0x0001f0a0 + 0x4000 * GSI_EE_AP);
0x000120a0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_EV_CH_IRQ_CLR, cntxt_src_ev_ch_irq_clr,
0x0001f0a4 + 0x4000 * GSI_EE_AP);
0x000120a4 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ, cntxt_src_ieob_irq, 0x0001f0b0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ, cntxt_src_ieob_irq, 0x000120b0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ_MSK, cntxt_src_ieob_irq_msk,
0x0001f0b8 + 0x4000 * GSI_EE_AP);
0x000120b8 + 0x4000 * GSI_EE_AP);
REG(CNTXT_SRC_IEOB_IRQ_CLR, cntxt_src_ieob_irq_clr,
0x0001f0c0 + 0x4000 * GSI_EE_AP);
0x000120c0 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_STTS, cntxt_glob_irq_stts, 0x0001f100 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_STTS, cntxt_glob_irq_stts, 0x00012100 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_EN, cntxt_glob_irq_en, 0x0001f108 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_EN, cntxt_glob_irq_en, 0x00012108 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_CLR, cntxt_glob_irq_clr, 0x0001f110 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GLOB_IRQ_CLR, cntxt_glob_irq_clr, 0x00012110 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_STTS, cntxt_gsi_irq_stts, 0x0001f118 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_STTS, cntxt_gsi_irq_stts, 0x00012118 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_EN, cntxt_gsi_irq_en, 0x0001f120 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_EN, cntxt_gsi_irq_en, 0x00012120 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_CLR, cntxt_gsi_irq_clr, 0x0001f128 + 0x4000 * GSI_EE_AP);
REG(CNTXT_GSI_IRQ_CLR, cntxt_gsi_irq_clr, 0x00012128 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_intset_fmask[] = {
[INTYPE] = BIT(0)
/* Bits 1-31 reserved */
};
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x0001f180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CNTXT_INTSET, cntxt_intset, 0x00012180 + 0x4000 * GSI_EE_AP);
REG_FIELDS(ERROR_LOG, error_log, 0x00012200 + 0x4000 * GSI_EE_AP);
REG(ERROR_LOG_CLR, error_log_clr, 0x00012210 + 0x4000 * GSI_EE_AP);
static const u32 reg_cntxt_scratch_0_fmask[] = {
[INTER_EE_RESULT] = GENMASK(2, 0),
@ -247,7 +245,7 @@ static const u32 reg_cntxt_scratch_0_fmask[] = {
/* Bits 8-31 reserved */
};
REG_FIELDS(CNTXT_SCRATCH_0, cntxt_scratch_0, 0x0001f400 + 0x4000 * GSI_EE_AP);
REG_FIELDS(CNTXT_SCRATCH_0, cntxt_scratch_0, 0x00012400 + 0x4000 * GSI_EE_AP);
static const struct reg *reg_array[] = {
[INTER_EE_SRC_CH_IRQ_MSK] = &reg_inter_ee_src_ch_irq_msk,