kernel_samsung_a34x-permissive/drivers/misc/mediatek/m4u/2.4/m4u_mva.c
2024-04-28 15:51:13 +02:00

1477 lines
45 KiB
C

// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#include <linux/spinlock.h>
#include "m4u_priv.h"
#include "m4u_mva.h"
static short mvaGraph[MVA_MAX_BLOCK_NR + 1];
static void *mvaInfoGraph[MVA_MAX_BLOCK_NR + 1];
static DEFINE_SPINLOCK(gMvaGraph_lock);
void m4u_mvaGraph_init(void *priv_reserve)
{
int i;
unsigned int vpu_reset_block_start =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START);
unsigned int vpu_reset_block_end =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_END);
unsigned int vpu_fix_block_start =
MVAGRAPH_INDEX(VPU_FIX_MVA_START);
unsigned int vpu_fix_block_end =
MVAGRAPH_INDEX(VPU_FIX_MVA_END);
unsigned int ccu_fix_block_start = MVAGRAPH_INDEX(CCU_FIX_MVA_START);
unsigned int ccu_fix_block_end = MVAGRAPH_INDEX(CCU_FIX_MVA_END);
unsigned int ccu_nr;
unsigned long irq_flags;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
memset(mvaGraph, 0, sizeof(short) * (MVA_MAX_BLOCK_NR + 1));
memset(mvaInfoGraph, 0, sizeof(void *) * (MVA_MAX_BLOCK_NR + 1));
mvaGraph[0] = (short)(1 | MVA_BUSY_MASK);
mvaInfoGraph[0] = priv_reserve;
/*need to reserve two mva block region for vpu.
*[1,0x200],[0x360,0x500): shared with all ports.
*[0x500, 0x501): reserved for vpu reset vector.
*[0x501, 0x600): shared with all ports.
*[0x600, 0x7E0): reserved for vpu.
*[0x7E0, 0xFFF]: shared with all ports.
*/
/*[0x1,0x200],[0x360, 0x500]*/
mvaGraph[1] = GET_RANGE_SIZE(1, (ccu_fix_block_start - 1));
mvaGraph[ccu_fix_block_start - 1] =
GET_RANGE_SIZE(1, (ccu_fix_block_start - 1));
mvaInfoGraph[1] = priv_reserve;
mvaInfoGraph[ccu_fix_block_start - 1] = priv_reserve;
M4UINFO("[0x1, 0x200): start: 1 end: 0x%x mvaGraph: 0x%x\n",
(ccu_fix_block_start - 1), mvaGraph[1]);
/*CCU:[0x200,0x360]*/
ccu_nr = MVA_GRAPH_BLOCK_NR_ALIGNED(
CCU_FIX_MVA_END - CCU_FIX_MVA_START + 1);
for (i = 0; i < ccu_nr; i++)
MVA_SET_RESERVED(ccu_fix_block_start + i);
mvaGraph[ccu_fix_block_start] =
MVA_RESERVED_MASK | ccu_nr;
mvaGraph[ccu_fix_block_end] =
MVA_RESERVED_MASK | ccu_nr;
mvaInfoGraph[ccu_fix_block_start] = priv_reserve;
mvaInfoGraph[ccu_fix_block_end] = priv_reserve;
M4UINFO("%s,start:0x%x,end:0x%x,mvaGraph:0x%x\n",
__func__, ccu_fix_block_start, ccu_fix_block_end,
mvaGraph[ccu_fix_block_start]);
mvaGraph[ccu_fix_block_end + 1] =
GET_RANGE_SIZE((ccu_fix_block_end + 1),
(vpu_reset_block_start - 1));
mvaGraph[vpu_reset_block_start - 1] =
GET_RANGE_SIZE((ccu_fix_block_end + 1),
(vpu_reset_block_start - 1));
mvaInfoGraph[ccu_fix_block_end + 1] = priv_reserve;
mvaInfoGraph[vpu_reset_block_start - 1] = priv_reserve;
M4UINFO("[0x361, 0x500): start: 0x%x end: 0x%x mvaGraph: 0x%x\n",
(ccu_fix_block_end + 1),
(vpu_reset_block_start - 1),
mvaGraph[ccu_fix_block_end + 1]);
/*[0x500, 0x501)*/
/*set 1 to each bit14 of mvaGraph in vpu reserved region.
*the operation can prevent allocating mva in vpu region
*from m4u_do_mva_alloc.
*/
for (i = 0; i < VPU_RESET_VECTOR_BLOCK_NR; i++)
MVA_SET_RESERVED(vpu_reset_block_start + i);
mvaGraph[vpu_reset_block_start] =
MVA_RESERVED_MASK | VPU_RESET_VECTOR_BLOCK_NR;
mvaGraph[vpu_reset_block_end] =
MVA_RESERVED_MASK | VPU_RESET_VECTOR_BLOCK_NR;
mvaInfoGraph[vpu_reset_block_start] = priv_reserve;
mvaInfoGraph[vpu_reset_block_end] = priv_reserve;
M4UINFO("[0x500, 0x501): start: 0x%x end: 0x%x mvaGraph: 0x%x\n",
vpu_reset_block_start,
vpu_reset_block_end,
mvaGraph[vpu_reset_block_start]);
/*[0x501, 0x600)*/
mvaGraph[vpu_reset_block_end + 1] =
GET_RANGE_SIZE((vpu_reset_block_end + 1),
(vpu_fix_block_start - 1));
mvaGraph[vpu_fix_block_start - 1] =
GET_RANGE_SIZE((vpu_reset_block_end + 1),
vpu_fix_block_start - 1);
mvaInfoGraph[vpu_reset_block_end + 1] = priv_reserve;
mvaInfoGraph[vpu_fix_block_start - 1] = priv_reserve;
M4UINFO("[0x501, 0x600): start: 0x%x end: 0x%x mvaGraph: 0x%x\n",
(vpu_reset_block_end + 1),
(vpu_fix_block_start - 1),
mvaGraph[vpu_reset_block_end + 1]);
/*[0x600, 0x7E0)*/
/*set 1 to each bit14 of mvaGraph in vpu reserved region*/
for (i = 0; i < VPU_FIX_BLOCK_NR; i++)
MVA_SET_RESERVED(vpu_fix_block_start + i);
mvaGraph[vpu_fix_block_start] =
MVA_RESERVED_MASK | VPU_FIX_BLOCK_NR;
mvaGraph[vpu_fix_block_end] =
MVA_RESERVED_MASK | VPU_FIX_BLOCK_NR;
mvaInfoGraph[vpu_fix_block_start] = priv_reserve;
mvaInfoGraph[vpu_fix_block_end] = priv_reserve;
M4UINFO("[0x600, 0x7E0): start: 0x%x end: 0x%x mvaGraph: 0x%x\n",
vpu_fix_block_start,
vpu_fix_block_end,
mvaGraph[vpu_fix_block_start]);
/*[0x7E0, 0xFFF]*/
mvaGraph[vpu_fix_block_end + 1] =
GET_RANGE_SIZE((vpu_fix_block_end + 1), MVA_MAX_BLOCK_NR);
mvaGraph[MVA_MAX_BLOCK_NR] =
GET_RANGE_SIZE((vpu_fix_block_end + 1), MVA_MAX_BLOCK_NR);
mvaInfoGraph[vpu_fix_block_end + 1] = priv_reserve;
mvaInfoGraph[MVA_MAX_BLOCK_NR] = priv_reserve;
M4UINFO("[0x7E0, 0xFFF]: start: 0x%x end: 0x%x mvaGraph: 0x%x\n",
(vpu_fix_block_end + 1),
MVA_MAX_BLOCK_NR,
mvaGraph[vpu_fix_block_end + 1]);
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
}
void m4u_mvaGraph_dump_raw(void)
{
int i;
unsigned long irq_flags;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
M4ULOG_HIGH("[M4U_K] dump raw data of mvaGraph:============>\n");
for (i = 0; i < MVA_MAX_BLOCK_NR + 1; i++)
M4ULOG_HIGH("0x%4x: 0x%08x\n", i, mvaGraph[i]);
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
}
int is_in_vpu_region(unsigned int index, unsigned int nr)
{
unsigned int vpu_reset_block_start =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START);
unsigned int vpu_reset_block_end =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_END);
unsigned int vpu_fix_block_start =
MVAGRAPH_INDEX(VPU_FIX_MVA_START);
unsigned int vpu_fix_block_end =
MVAGRAPH_INDEX(VPU_FIX_MVA_END);
int ret = 0;
#if 0
M4UINFO("start = 0x%x, end = 0x%x nr = %x.\n",
index, GET_END_INDEX(index, nr), nr);
#endif
if ((index >= vpu_reset_block_start
&& GET_END_INDEX(index, nr) <= vpu_reset_block_end)
|| (index >= vpu_fix_block_start
&& GET_END_INDEX(index, nr) <= vpu_fix_block_end))
ret = 1;
#if 0
if (ret)
M4UINFO("input region[0x%x - 0x%x] is in the vpu region.\n",
index, GET_END_INDEX(index, nr));
#endif
return ret;
}
int is_intersected_with_vpu_region(unsigned int start, unsigned int nr)
{
unsigned int vpu_reset_block_start =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START);
unsigned int vpu_reset_block_end =
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_END);
unsigned int vpu_fix_block_start =
MVAGRAPH_INDEX(VPU_FIX_MVA_START);
unsigned int vpu_fix_block_end =
MVAGRAPH_INDEX(VPU_FIX_MVA_END);
int ret = 0;
/*4 cases:
* |--------------|------|---------|------------|----------|
* 0x0 0x500 0x501 0x600 0x800 0xFFF
*case 1: start | end
*case 2: start| end
*case 3: start | end
*case 4: start | end
*/
/*case 1: 1 <= start < 0x500 && 0x500<=end<=0xFFF*/
#if 0
M4UINFO("start = 0x%x, end = 0x%x nr = %x.\n",
start, GET_END_INDEX(start, nr), nr);
#endif
if ((start >= 1 && start < vpu_reset_block_start)
&& (GET_END_INDEX(start, nr) >= vpu_reset_block_start
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
/*case 2: 1 <= start < 0x501 && 0x501<=end<=0xFFF*/
if ((start >= 1 && start < (vpu_reset_block_end + 1))
&& (GET_END_INDEX(start, nr) >= (vpu_reset_block_end + 1)
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
/*case 3: 1 <= start < 0x600 && 0x600<=end<=0xFFF*/
if ((start >= 1 && start < vpu_fix_block_start)
&& (GET_END_INDEX(start, nr) >= vpu_fix_block_start
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
/*case 4: 1 <=start < 0x800 && 0x800<=end<=0xFFF*/
if ((start >= 1 && start < (vpu_fix_block_end + 1))
&& (GET_END_INDEX(start, nr) >= (vpu_fix_block_end + 1)
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
#if 0
if (ret)
M4UINFO("input region intersects to vpu region\n");
#endif
return ret;
}
int is_in_ccu_region(unsigned int index, unsigned int nr)
{
unsigned int ccu_fix_block_start = MVAGRAPH_INDEX(CCU_FIX_MVA_START);
unsigned int ccu_fix_block_end = MVAGRAPH_INDEX(CCU_FIX_MVA_END);
if (index >= ccu_fix_block_start &&
GET_END_INDEX(index, nr) <= ccu_fix_block_end)
return 1;
return 0;
}
int is_intersected_with_ccu_region(unsigned int start, unsigned int nr)
{
unsigned int ccu_fix_block_start = MVAGRAPH_INDEX(CCU_FIX_MVA_START);
unsigned int ccu_fix_block_end = MVAGRAPH_INDEX(CCU_FIX_MVA_END);
int ret = 0;
M4ULOG_LOW("%s:start = 0x%x, end = 0x%x nr = %x.\n",
__func__, start, GET_END_INDEX(start, nr), nr);
/*case 1: 1 <= start < 0x200 && 0x300<=end<=0xFFF*/
if ((start >= 1 && start < ccu_fix_block_start)
&& (GET_END_INDEX(start, nr) >= ccu_fix_block_start
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
/*case 2: 1 <=start < 0x800 && 0x800<=end<=0xFFF*/
if ((start >= 1 && start < (ccu_fix_block_end + 1))
&& (GET_END_INDEX(start, nr) >= (ccu_fix_block_end + 1)
&& GET_END_INDEX(start, nr) <= MVA_MAX_BLOCK_NR))
ret = 1;
if (ret)
M4ULOG_LOW("input region intersects to ccu region\n");
return ret;
}
/*1: y; 0: n*/
int check_reserved_region_integrity(unsigned int start, unsigned int nr)
{
int i, integrity = 0;
for (i = 0; i < nr; i++) {
if (!MVA_IS_RESERVED(start + i))
break;
}
if (i == nr)
integrity = 1;
else {
M4UMSG("reserved blocks[0x%x-0x%x] corruptted at 0x%x\n",
start, GET_END_INDEX(start, nr), i);
}
return integrity;
}
/*need to print integrity of vpu region*/
void m4u_mvaGraph_dump(void)
{
unsigned int start = 0, end = 0, size = 0;
unsigned short index = 1, nr = 0;
int i, max_bit, is_busy, is_reserve, integrity = 0;
short frag[12] = { 0 };
unsigned short nr_free = 0, nr_alloc = 0;
M4ULOG_HIGH(
"[M4U_2.4] mva allocation info dump:====================>\n");
M4ULOG_HIGH(
"start end size blocknum busy reserve integrity\n");
for (index = 1; index < MVA_MAX_BLOCK_NR + 1; index += nr) {
start = index << MVA_BLOCK_SIZE_ORDER;
nr = MVA_GET_NR(index);
size = nr << MVA_BLOCK_SIZE_ORDER;
end = start + size - 1;
/* DO NOT call aee here directly to avoid recursive dump. */
if (nr == 0 || end <= start) {
M4ULOG_HIGH("%s err: nr=%d, start=0x08x\n",
__func__, nr, start);
break;
}
if (MVA_IS_BUSY(index)) {
is_busy = 1;
if (MVA_IS_RESERVED(index))
is_reserve = 1;
else
is_reserve = 0;
nr_alloc += nr;
} else { /* mva region is free */
/* mva region is free */
is_busy = 0;
if (MVA_IS_RESERVED(index))
is_reserve = 1;
else
is_reserve = 0;
nr_free += nr;
max_bit = 0;
for (i = 0; i < 12; i++) {
if (nr & (1 << i))
max_bit = i;
}
frag[max_bit]++;
}
/*verify if the reserve bit of each block in vpu region is set*/
if (is_in_ccu_region(index, nr)) {
for (i = 0; i < nr; i++) {
if (!MVA_IS_RESERVED(index + i))
break;
}
if (i == nr)
integrity = 1;
} else if (is_in_vpu_region(index, nr)) {
for (i = 0; i < nr; i++) {
if (!MVA_IS_RESERVED(index + i))
break;
}
if (i == nr)
integrity = 1;
}
M4ULOG_HIGH(
"0x%08x 0x%08x 0x%08x %4d %d %4d %8d\n",
start, end, size, nr, is_busy, is_reserve, integrity);
integrity = 0;
}
M4ULOG_HIGH("\n");
M4ULOG_HIGH(
"[M4U_2.4] mva alloc summary: (unit: blocks)========================>\n");
M4ULOG_HIGH("free: %d , alloc: %d, total: %d\n",
nr_free, nr_alloc, nr_free + nr_alloc);
M4ULOG_HIGH(
"[M4U_2.4] free region fragments in 2^x blocks unit:===============\n");
M4ULOG_HIGH(
" 0 1 2 3 4 5 6 7 8 9 10 11\n");
M4ULOG_HIGH(
"%4d %4d %4d %4d %4d %4d %4d %4d %4d %4d %4d %4d\n",
frag[0], frag[1], frag[2], frag[3],
frag[4], frag[5], frag[6],
frag[7], frag[8], frag[9], frag[10], frag[11]);
M4ULOG_HIGH(
"[M4U_2.4] mva alloc dump done=========================<\n");
}
void *mva_get_priv_ext(unsigned int mva)
{
void *priv = NULL;
unsigned int index;
unsigned long irq_flags;
index = MVAGRAPH_INDEX(mva);
if (index == 0 || index > MVA_MAX_BLOCK_NR) {
M4UMSG("mvaGraph index is 0. mva=0x%x\n", mva);
return NULL;
}
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
/* find prev head/tail of this region */
while (mvaGraph[index] == 0)
index--;
if (MVA_IS_BUSY(index))
priv = mvaInfoGraph[index];
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return priv;
}
int mva_foreach_priv(mva_buf_fn_t *fn, void *data)
{
unsigned short index = 1, nr = 0;
unsigned int mva;
void *priv;
int ret;
unsigned long irq_flags;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
for (index = 1; index < MVA_MAX_BLOCK_NR + 1; index += nr) {
mva = index << MVA_BLOCK_SIZE_ORDER;
nr = MVA_GET_NR(index);
if (MVA_IS_BUSY(index)) {
priv = mvaInfoGraph[index];
ret = fn(priv, mva, mva + nr * MVA_BLOCK_SIZE, data);
if (ret)
break;
}
}
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return 0;
}
unsigned int get_first_valid_mva(void)
{
unsigned short index = 1, nr = 0;
unsigned int mva;
void *priv;
unsigned long irq_flags;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
for (index = 1; index < MVA_MAX_BLOCK_NR + 1; index += nr) {
mva = index << MVA_BLOCK_SIZE_ORDER;
nr = MVA_GET_NR(index);
if (MVA_IS_BUSY(index)) {
priv = mvaInfoGraph[index];
break;
}
}
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return mva;
}
void *mva_get_priv(unsigned int mva)
{
void *priv = NULL;
unsigned int index;
unsigned long irq_flags;
index = MVAGRAPH_INDEX(mva);
if (index == 0 || index > MVA_MAX_BLOCK_NR) {
M4UMSG("mvaGraph index is 0. mva=0x%x\n", mva);
return NULL;
}
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
if (MVA_IS_BUSY(index))
priv = mvaInfoGraph[index];
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return priv;
}
/*make sure @param priv is not NULL before call this function.
*return 0 means non-vpu region access.
*return -1 means input mva region
*allocated by non-vpu port is in vpu reserved region.
*or input mva region intersectst to vpu reserved region.
*return 1 means vpu port alloc mva in vpu reserved region.
*/
int m4u_check_mva_region(unsigned int startIdx, unsigned int nr, void *priv)
{
struct m4u_buf_info_t *pMvaInfo = (struct m4u_buf_info_t *)priv;
int is_in = 0, is_interseted = 0;
int is_vpu_port = 0;
#if defined(CONFIG_MACH_MT6775) || defined(CONFIG_MACH_MT6771)
is_vpu_port = (pMvaInfo->port == M4U_PORT_VPU0) ||
(pMvaInfo->port == M4U_PORT_VPU1);
#else
is_vpu_port = (pMvaInfo->port == M4U_PORT_VPU);
#endif
/*check if input mva region is in vpu region.
*if it's in vpu region, we check if it's non-vpu port
*/
#if 0
M4UINFO("%s: [0x%x - 0x%x]\n",
__func__, startIdx, GET_END_INDEX(startIdx, nr));
#endif
is_in = is_in_vpu_region(startIdx, nr);
if (is_in && is_vpu_port)
return 1;
else if (is_in && !is_vpu_port) {
M4UINFO(
"[0x%x - 0x%x] requested by port(%d) is in vpu reserved region!\n",
startIdx, GET_END_INDEX(startIdx, nr),
pMvaInfo->port);
return -1;
}
/*check if input mva region is intersected with vpu region*/
is_interseted = is_intersected_with_vpu_region(startIdx, nr);
/*return 0 means other port normal alloction.
*if it isn't in vpu region & insersected with vpu region.
*it's non-vpu port alloc non-vpu reserved region. then return 0.
*/
if (!is_in && !is_interseted)
return 0;
M4UINFO(
"[0x%x - 0x%x] requested by port(%d) intersects to vpu region!\n",
startIdx, GET_END_INDEX(startIdx, nr),
pMvaInfo->port);
return -1;
}
static int __check_ccu_mva_region(
unsigned int startIdx, unsigned int nr, void *priv)
{
struct m4u_buf_info_t *pMvaInfo = (struct m4u_buf_info_t *)priv;
int is_in = 0, is_interseted = 0;
int is_ccu_port = 0;
#if defined(CONFIG_MACH_MT6771)
is_ccu_port = (pMvaInfo->port == M4U_PORT_CCU0) ||
(pMvaInfo->port == M4U_PORT_CCU1) ||
(pMvaInfo->port == M4U_PORT_CAM_CCUI) ||
(pMvaInfo->port == M4U_PORT_CAM_CCUG)
|| (pMvaInfo->port == M4U_PORT_CAM_CCUO);
#else
is_ccu_port = (pMvaInfo->port == M4U_PORT_CAM_CCUI) ||
(pMvaInfo->port == M4U_PORT_CAM_CCUG)
|| (pMvaInfo->port == M4U_PORT_CAM_CCUO);
#endif
/*check if input mva region is in ccu region.
*if it's in ccu region, we check if it's non-ccu port
*/
M4ULOG_LOW("%s: [0x%x - 0x%x]\n",
__func__, startIdx, GET_END_INDEX(startIdx, nr));
is_in = is_in_ccu_region(startIdx, nr);
if (is_in && is_ccu_port)
return 1;
else if (is_in && !is_ccu_port) {
M4ULOG_MID(
"[0x%x - 0x%x] requested by port(%d) is in ccu reserved region!\n",
startIdx, GET_END_INDEX(startIdx, nr),
pMvaInfo->port);
return -1;
}
/*check if input mva region is intersected with vpu region*/
is_interseted = is_intersected_with_ccu_region(startIdx, nr);
/*return 0 means other port normal alloction.
*if it isn't in ccu region & insersected with ccu region.
*it's non-ccu port alloc non-ccu reserved region. then return 0.
*/
if (!is_in && !is_interseted)
return 0;
M4ULOG_LOW(
"[0x%x - 0x%x] requested by port(%d) intersects to ccu region!\n",
startIdx, GET_END_INDEX(startIdx, nr),
pMvaInfo->port);
return -1;
}
/*m4u_do_mva_alloc should meet the following rules:
*(1) vpu port should not m4u_do_mva_alloc vpu fix region,
* but it can m4u_do_mva_alloc non-vpu fix region.
*(2) non-vpu port can m4u_do_mva_alloc non-vpu fix region.
*/
unsigned int m4u_do_mva_alloc(unsigned long va, unsigned int size, void *priv)
{
unsigned short s, end;
unsigned short new_start, new_end;
unsigned short nr = 0;
unsigned int mvaRegionStart;
unsigned long startRequire, endRequire, sizeRequire;
int region_status = 0;
const short fix_index0 = MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START);
const short fix_index1 = MVAGRAPH_INDEX(VPU_FIX_MVA_START);
short gap_start_idx = GET_END_INDEX(fix_index0,
VPU_RESET_VECTOR_BLOCK_NR) + 1;
short gap_end_idx = fix_index1 - 1;
short gap_nr = GET_RANGE_SIZE(gap_start_idx, gap_end_idx);
const short ccu_fix_index_start = MVAGRAPH_INDEX(CCU_FIX_MVA_START);
const short ccu_fix_index_end = MVAGRAPH_INDEX(CCU_FIX_MVA_END);
const short ccu_gap_nr = GET_RANGE_SIZE(ccu_fix_index_end, fix_index0);
unsigned long irq_flags;
if (size == 0)
return 0;
/* ----------------------------------------------------- */
/* calculate mva block number */
startRequire = va & (~M4U_PAGE_MASK);
endRequire = (va + size - 1) | M4U_PAGE_MASK;
sizeRequire = endRequire - startRequire + 1;
nr = (sizeRequire + MVA_BLOCK_ALIGN_MASK) >> MVA_BLOCK_SIZE_ORDER;
if (fix_index1 == fix_index0) {
gap_start_idx = MVAGRAPH_INDEX(VPU_FIX_MVA_START);
gap_end_idx = GET_END_INDEX(fix_index0,
VPU_RESET_VECTOR_BLOCK_NR) + 1;
gap_nr = GET_RANGE_SIZE(gap_start_idx, gap_end_idx);
}
/* ----------------------------------------------- */
/* find the proper mva graph on 3 stages:
* stage 1: find it in graph range [0x1-0x4FF ]
* every mva graph is neighbouring.
*cursor s navigate with plus the block nr in
* each graph from start to end.
*if there is one index whose graph's value is bigger
* than the number we need, that means we found the requeired region.
*/
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
/*find mva graph in range [0x1, 0x200]*/
for (s = 1; (s < ccu_fix_index_start) && (mvaGraph[s] < nr);
s += (mvaGraph[s] & MVA_BLOCK_NR_MASK))
;
/*if we didn't find the proper graph on stage 1,
*we will come to stage 2.
* in the case, all graph in [0x1-0x1FF ]
*is busy. jump ccu mva region.
*/
if (s == ccu_fix_index_start && nr <= ccu_gap_nr) {
s = ccu_fix_index_end + 1;
for (; (s < fix_index0) && (mvaGraph[s] < nr);
s += (mvaGraph[s] & MVA_BLOCK_NR_MASK))
;
}
if (s == fix_index0 && gap_nr >= 1) {
/* stage 2: jump vpu reserved region
*and find it in graph range [0x501-0x5FF ]
* MUST check if block number of gap region is enough to alloc.
* if not, we need to alloc from common region
* only vinson have stage2,for vpu reserved region num is 2.
* so for mt6775 and mt6771 we skip stage2.
*/
#if defined(CONFIG_MACH_MT6758)
if (nr <= gap_nr) {
M4ULOG_LOW(
"stage 2: stopped cursor(%d) on stage 1\n",
s);
s = gap_start_idx;
for (; (s <= gap_end_idx) && (mvaGraph[s] < nr);
s += (mvaGraph[s] & MVA_BLOCK_NR_MASK))
;
} else
goto stage3;
#else
goto stage3;
#endif
}
/*if we didn't find the proper graph on stage 2,
*we will come to stage 3.
* in the case, the requeired nr may be
*more than gap nr.
* Or, all graph in grap region is busy.
*/
if (s == fix_index1) {
/* stage 3: jump vpu reserved region and find it
*in graph range [VPU_FIX_MVA_END + 1-0xFFF ]
* allocate from common region directly.
*/
stage3:
M4ULOG_LOW("stage 3: stopped cursor(%d) on stage 2\n", s);
/*workaround for disp fb*/
#ifdef WORKAROUND_FOR_DISPLAY_FB
s = MVAGRAPH_INDEX(VPU_FIX_MVA_END + 1) +
(mvaGraph[MVAGRAPH_INDEX(VPU_FIX_MVA_END + 1)] &
MVA_BLOCK_NR_MASK);
#else
s = MVAGRAPH_INDEX(VPU_FIX_MVA_END + 1);
#endif
for (; (s < (MVA_MAX_BLOCK_NR + 1)) && (mvaGraph[s] < nr);
s += (mvaGraph[s] & MVA_BLOCK_NR_MASK))
;
}
/*double check if mva region we got is in vpu reserved region. */
region_status = m4u_check_mva_region(s, nr, priv) ||
__check_ccu_mva_region(s, nr, priv);
if (region_status) {
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
M4UMSG(
"mva_alloc error: fault cursor(0x%x) access vpu region\n",
s);
return 0;
}
if (s > MVA_MAX_BLOCK_NR) {
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
M4UMSG(
"mva_alloc error: no available MVA region for %d blocks!\n",
nr);
#ifdef M4U_PROFILE
mmprofile_log_ex(M4U_MMP_Events[M4U_MMP_M4U_ERROR],
MMPROFILE_FLAG_PULSE, size, s);
#endif
return 0;
}
/* ----------------------------------------------- */
/* alloc a mva region */
end = s + mvaGraph[s] - 1;
if (unlikely(nr == mvaGraph[s])) {
MVA_SET_BUSY(s);
MVA_SET_BUSY(end);
mvaInfoGraph[s] = priv;
mvaInfoGraph[end] = priv;
} else {
new_end = s + nr - 1;
new_start = new_end + 1;
if (new_end > MVA_MAX_BLOCK_NR ||
new_start > MVA_MAX_BLOCK_NR) {
M4UMSG(
"mva_alloc error: mva region error! nr=%u, new_end=%u, s=%u, mvaGraph=0x%x\n",
nr, new_end, s, mvaGraph[s]);
return 0;
}
/* note: new_start may equals to end */
mvaGraph[new_start] = (mvaGraph[s] - nr);
mvaGraph[new_end] = nr | MVA_BUSY_MASK;
mvaGraph[s] = mvaGraph[new_end];
mvaGraph[end] = mvaGraph[new_start];
mvaInfoGraph[s] = priv;
mvaInfoGraph[new_end] = priv;
}
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
mvaRegionStart = (unsigned int)s;
return (mvaRegionStart << MVA_BLOCK_SIZE_ORDER) + mva_pageOffset(va);
}
/*m4u_do_mva_alloc_fix is different with m4u_do_mva_alloc which find the free
* and suitable region from the first one to the last.
*Instead, m4u_do_mva_alloc_fix
* is only used to find the fix one started from
*formal parameter [mva] plus formal
* parameter [va]. It's similar to mmap.
*no matter how many [va] is, it will allocates
* the whole fix region. it should notice the following:
*(1) vpu fix region is protected by m4u_check_mva_region.
*(2) if vpu port alloc vpu fix region by this, it must make sure reserved bit
* mustn't be destroyed.
*(3)There is no protection to non-vpu fix region now. if other fix regions are
* taken by some ports, only m4u user can check this.
*(4)because formal parameter [mva] ==
*fix mva region start, va + size - 1 should be
*not more than fix mva region end.
*@Param va[in] virtual address used by cpu,
*we use it to get cpu page table offset.
*@Param mva[in] modified virtual start address used
*by m4u. user must provide the right one.
*@Param size[in] the size of requeired sub range.
*@Param priv[in] mva graph info.
*/
unsigned int m4u_do_mva_alloc_fix(unsigned long va,
unsigned int mva,
unsigned int size,
void *priv)
{
unsigned short nr = 0;
unsigned int startRequire, endRequire, sizeRequire;
unsigned short startIdx = mva >> MVA_BLOCK_SIZE_ORDER;
unsigned short endIdx;
unsigned short region_start, region_end;
int vpu_region_status = 0, is_in_vpu_region = 0;
int ccu_region_status, is_in_ccu_region = 0;
unsigned long irq_flags;
if (size == 0) {
M4UMSG("%s: size = %d\n", __func__, size);
return 0;
}
mva = mva | (va & M4U_PAGE_MASK);
/* ----------------------------------------------------- */
/* calculate mva block number */
startRequire = mva & (~MVA_BLOCK_ALIGN_MASK);
endRequire = (mva + size - 1) | MVA_BLOCK_ALIGN_MASK;
sizeRequire = endRequire - startRequire + 1;
nr = (sizeRequire + MVA_BLOCK_ALIGN_MASK) >> MVA_BLOCK_SIZE_ORDER;
ccu_region_status = __check_ccu_mva_region(startIdx, nr, priv);
vpu_region_status = m4u_check_mva_region(startIdx, nr, priv);
if (ccu_region_status == -1 && vpu_region_status == -1)
return 0;
else if (ccu_region_status == 1)
is_in_ccu_region = 1;
else if (vpu_region_status == 1)
is_in_vpu_region = 1;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
region_start = startIdx;
/* find prev head of this region. it may be the following relation:
* |-----------|-------------|----------------|--------|----------|
* 0x0 region_start startIdx endIdx region_end 0xFFF
*/
while (mvaGraph[region_start] == 0)
region_start--;
if (MVA_IS_BUSY(region_start)
|| (MVA_GET_NR(region_start) < nr + startIdx - region_start)) {
M4UMSG("mva is inuse index=0x%x, mvaGraph=0x%x\n",
region_start, mvaGraph[region_start]);
mva = 0;
goto out;
}
/* carveout startIdx~startIdx+nr-1 out of region_start */
endIdx = startIdx + nr - 1;
region_end = region_start + MVA_GET_NR(region_start) - 1;
if (startIdx == region_start && endIdx == region_end) {
/* case 1:
* |-----------|-----------------------------|-------------|
* 0x0 region_start region_end 0xFFF
* startIdx endIdx
* alloc(start) alloc(end)
*/
MVA_SET_BUSY(startIdx);
MVA_SET_BUSY(endIdx);
if (is_in_ccu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
}
} else if (startIdx == region_start) {
/* case 2:
* |-----------|-------------------|----------|-------------|
* 0x0 region_start endIdx region_end 0xFFF
* startIdx
* alloc(start) alloc(end)
*/
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
mvaGraph[endIdx + 1] = region_end - endIdx;
mvaGraph[region_end] = mvaGraph[endIdx + 1];
if (is_in_ccu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
}
} else if (endIdx == region_end) {
/* case 3:
* |-----------|------------|---------------|-------------|
* 0x0 region_start startIdx region_end 0xFFF
* endIdx
* alloc(start) alloc(end)
*/
mvaGraph[region_start] = startIdx - region_start;
mvaGraph[startIdx - 1] = mvaGraph[region_start];
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
if (is_in_ccu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
}
} else {
/* case 4:
* |-----------|-----|-------|--------|------|
* 0x0 region_start startIdx endIdx region_end 0xFFF
* alloc(start) alloc(end)
*/
mvaGraph[region_start] = startIdx - region_start;
mvaGraph[startIdx - 1] = mvaGraph[region_start];
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
mvaGraph[endIdx + 1] = region_end - endIdx;
mvaGraph[region_end] = mvaGraph[endIdx + 1];
if (is_in_ccu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
}
}
mvaInfoGraph[startIdx] = priv;
mvaInfoGraph[endIdx] = priv;
out:
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return mva;
}
/*m4u_do_mva_alloc_start_from is used to allocate
*a mva region start from iova_start to iova_end
* for CCU & VPU. if [iova_start, iova_end] is busy,
*it will return alloc failed.
* for example: if [iova_start, iova_end] =
*[0x10000000, 0xffffffff] size = 0x100000,
* we will find a size = 0x100000 region started from
*0x10000000 to 0xfffffff, until there is
* a right one.
* NOTICE: vpu should not use the api.
*@Param va[in] virtual address used by cpu,
*we use it to get cpu page table offset.
*@Param mva[in] modified virtual start address used by
*m4u. user must provide the right one.
*@Param size[in] the size of requeired sub range.
*@Param priv[in] mva graph info.
*/
unsigned int m4u_do_mva_alloc_start_from(unsigned long va,
unsigned int mva,
unsigned int size,
void *priv)
{
unsigned short s = 0, end;
unsigned short new_start, new_end;
unsigned short nr = 0;
unsigned int mvaRegionStart;
unsigned long startRequire, endRequire, sizeRequire;
unsigned short startIdx, endIdx;
unsigned short region_start, region_end, next_region_start = 0;
int vpu_region_status = 0, is_in_vpu_region = 0;
int ccu_region_status, is_in_ccu_region = 0;
unsigned long irq_flags;
if (size == 0 || priv == NULL) {
M4UMSG("%s: invalid size & port info\n", __func__);
return 0;
}
/*TODO:Need to check if sub range in fix
*range need to align to MVA_BLOCK_ALIGN_MASK
*/
/* find this region[startIdx ~ endIdx].
* |-----------|-|-----|----|--------|
* 0x0 iova_start_idx iova_end_idx 0xFFF
* startIdx endIdx
*/
startIdx = (mva + MVA_BLOCK_ALIGN_MASK) >> MVA_BLOCK_SIZE_ORDER;
/* ----------------------------------------------------- */
/* calculate mva block number */
startRequire = va & (~M4U_PAGE_MASK);
endRequire = (va + size - 1) | M4U_PAGE_MASK;
sizeRequire = endRequire - startRequire + 1;
nr = (sizeRequire + MVA_BLOCK_ALIGN_MASK) >> MVA_BLOCK_SIZE_ORDER;
endIdx = startIdx + nr - 1;
/*check [startIdx, endIdx] status*/
ccu_region_status = __check_ccu_mva_region(startIdx, nr, priv);
vpu_region_status = m4u_check_mva_region(startIdx, nr, priv);
if (ccu_region_status == -1 && vpu_region_status == -1)
return 0;
else if (ccu_region_status == 1)
is_in_ccu_region = 1;
else if (vpu_region_status == 1)
is_in_vpu_region = 1;
M4ULOG_LOW(
"%s: iova_start_idx:0x%x, startIdx=0x%x, endIdx = 0x%x, nr= 0x%x\n",
__func__, MVAGRAPH_INDEX(mva), startIdx, endIdx, nr);
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
/* use cursor region_start to find the region after the
* region including the "startIdx"th block.
* if we find the startIdx's neighbour and graph, we
*maybe need to split it.
* |-----|------|-|---|--------|------|----|-----|
* 0x0 iova_start_idx iova_end_idx 0xFFF
* startIdx endIdx(may be here)
* region start next region start next region end
*/
for (region_start = 1; region_start < (MVA_MAX_BLOCK_NR + 1);
region_start += MVA_GET_NR(region_start)) {
/*error check*/
if ((mvaGraph[region_start] & MVA_BLOCK_NR_MASK) == 0) {
m4u_mvaGraph_dump();
m4u_aee_print("%s: s=%d, 0x%x\n",
__func__, s, mvaGraph[region_start]);
}
if ((region_start + MVA_GET_NR(region_start)) > startIdx) {
next_region_start =
region_start + MVA_GET_NR(region_start);
break;
}
}
if (region_start > MVA_MAX_BLOCK_NR) {
M4UMSG(
"%s:alloc mva fail,no available MVA for %d blocks\n",
__func__, nr);
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return 0;
}
region_end = region_start + MVA_GET_NR(region_start) - 1;
M4ULOG_LOW(
"%s: found region_start(0x%x) region_end(0x%x) next_region_start(0x%x)\n",
__func__, region_start, region_end, next_region_start);
/*if not found, it means error.*/
if (next_region_start == 0) {
M4UMSG("no enough mva to allocate.\n");
m4u_aee_print(
"%s: region_start: %d, region_end= %d, region block count= %d\n",
__func__, region_start,
region_end, MVA_GET_NR(region_start));
}
/*check the found region status.*/
if (MVA_IS_BUSY(region_start)) {
/*if [region_start, region_end] is busy, need to
*use another cursor s to continue.
* |-----|------|-----|---|-----|--|---|
* 0x0 iova_start_idx iova_end_idx 0xFFF
* startIdx endIdx(may be here)
* region start next region start next region end
* s
*/
s = region_start;
M4ULOG_LOW(
"found region is busy. need to traverse again from s=0x%x.\n",
s);
} else {
/*if [region_start, region_end] is free, need to check
*whether the nr of [region_start, region_end] is
*enough to alloc.
*if enough, alloc it. if not, need to continue with "s =
*next_region_start".
* |-----|---|-----|---|------|----|-----|
* 0x0 iova_start_idx iova_end_idx 0xFFF
* startIdx endIdx(may be here)
* region start next region start next region end
* s
*/
if ((region_end - startIdx + 1) < nr) {
s = next_region_start;
M4UINFO(
"the size of found region is not enough. need to traverse again from s=0x%x\n",
s);
} else
M4UINFO(
"found region is free. region_start=%d, s=%d\n",
region_start, s);
}
/* now [region_start, region_end] is not free or enough to allocate.
* so traverse mvaGraph to find the first right one.
* here we should also need to traverse mvaGraph.
*/
if (s != 0) {
/* find first match free region */
for (; s < (MVA_MAX_BLOCK_NR + 1);
s += (mvaGraph[s] & MVA_BLOCK_NR_MASK)) {
/*error check*/
if ((mvaGraph[s] & MVA_BLOCK_NR_MASK) == 0) {
m4u_aee_print("%s: s=%d, 0x%x\n",
__func__, s, mvaGraph[s]);
m4u_mvaGraph_dump();
}
if (MVA_GET_NR(s) > nr && !MVA_IS_BUSY(s)) {
/*check [s, s + MVA_GET_NR(s) -1] status*/
ccu_region_status = __check_ccu_mva_region(
s, MVA_GET_NR(s), priv);
vpu_region_status = m4u_check_mva_region(
s, MVA_GET_NR(s), priv);
if (ccu_region_status == -1 &&
vpu_region_status == -1)
continue;
else if (ccu_region_status == 1) {
is_in_ccu_region = 1;
break;
} else if (vpu_region_status == 1) {
is_in_vpu_region = 1;
break;
} else if (ccu_region_status == 0 &&
vpu_region_status == 0)
break;
}
}
}
if (s > MVA_MAX_BLOCK_NR) {
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
M4UMSG(
"mva_alloc error: no available MVA region for %d blocks!\n",
nr);
#ifdef M4U_PROFILE
mmprofile_log_ex(M4U_MMP_Events[M4U_MMP_M4U_ERROR],
MMPROFILE_FLAG_PULSE, size, s);
#endif
return 0;
}
if (s != 0)
M4ULOG_MID("after 2nd traverse, found region s = 0x%x\n", s);
/* ----------------------------------------------- */
/*s==0 means startIdx == mva_start >> 20*/
if (s == 0) {
/*[region_start, region_end] is free or enough to allocate.
*it's same to m4u_do_mva_alloc_fix
*/
if (startIdx == region_start && endIdx == region_end) {
MVA_SET_BUSY(startIdx);
MVA_SET_BUSY(endIdx);
if (is_in_ccu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
}
} else if (startIdx == region_start) {
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
mvaGraph[endIdx + 1] = region_end - endIdx;
mvaGraph[region_end] = mvaGraph[endIdx + 1];
if (is_in_ccu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
}
} else if (endIdx == region_end) {
mvaGraph[region_start] = startIdx - region_start;
mvaGraph[startIdx - 1] = mvaGraph[region_start];
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
if (is_in_ccu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
}
} else {
mvaGraph[region_start] = startIdx - region_start;
mvaGraph[startIdx - 1] = mvaGraph[region_start];
mvaGraph[startIdx] = nr | MVA_BUSY_MASK;
mvaGraph[endIdx] = mvaGraph[startIdx];
mvaGraph[endIdx + 1] = region_end - endIdx;
mvaGraph[region_end] = mvaGraph[endIdx + 1];
if (is_in_ccu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(region_start);
MVA_SET_RESERVED(startIdx - 1);
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
MVA_SET_RESERVED(region_end);
}
}
mvaInfoGraph[startIdx] = priv;
mvaInfoGraph[endIdx] = priv;
s = startIdx;
} else {
/* alloc a mva region */
end = s + MVA_GET_NR(s) - 1;
/*check [startIdx, endIdx] status*/
is_in_ccu_region = 0;
is_in_vpu_region = 0;
ccu_region_status = __check_ccu_mva_region(s, nr, priv);
if (ccu_region_status == 1)
is_in_ccu_region = 1;
vpu_region_status = m4u_check_mva_region(s,
MVA_GET_NR(s), priv);
if (vpu_region_status == 1)
is_in_vpu_region = 1;
if (unlikely(nr == MVA_GET_NR(s))) {
MVA_SET_BUSY(s);
MVA_SET_BUSY(end);
mvaInfoGraph[s] = priv;
mvaInfoGraph[end] = priv;
if (is_in_ccu_region) {
MVA_SET_RESERVED(s);
MVA_SET_RESERVED(end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(s);
MVA_SET_RESERVED(end);
}
} else {
new_end = s + nr - 1;
new_start = new_end + 1;
/* note: new_start may equals to end */
mvaGraph[new_start] = (MVA_GET_NR(s) - nr);
mvaGraph[new_end] = nr | MVA_BUSY_MASK;
mvaGraph[s] = mvaGraph[new_end];
mvaGraph[end] = mvaGraph[new_start];
if (is_in_ccu_region) {
MVA_SET_RESERVED(new_start);
MVA_SET_RESERVED(new_end);
MVA_SET_RESERVED(s);
MVA_SET_RESERVED(end);
} else if (is_in_vpu_region) {
MVA_SET_RESERVED(new_start);
MVA_SET_RESERVED(new_end);
MVA_SET_RESERVED(s);
MVA_SET_RESERVED(end);
}
mvaInfoGraph[s] = priv;
mvaInfoGraph[new_end] = priv;
}
}
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
mvaRegionStart = (unsigned int)s;
return (mvaRegionStart << MVA_BLOCK_SIZE_ORDER) + mva_pageOffset(va);
}
/*m4u_do_mva_free needs to care if non-vpu port wants to free vpu fix region.*/
#define RightWrong(x) ((x) ? "correct" : "error")
int m4u_do_mva_free(unsigned int mva, unsigned int size)
{
unsigned short startIdx;
unsigned short nr;
unsigned short endIdx;
unsigned int startRequire, endRequire, sizeRequire;
unsigned short nrRequire, nr_tmp = 0;
int vpu_region_status, is_in_vpu_region_flag = 0;
int ccu_region_status, is_in_ccu_region_flag = 0;
int ret = 0;
struct m4u_buf_info_t *p_mva_info;
int port;
unsigned long irq_flags;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
startIdx = mva >> MVA_BLOCK_SIZE_ORDER;
if (startIdx == 0 || startIdx > MVA_MAX_BLOCK_NR) {
M4UMSG("mvaGraph index is 0. mva=0x%x\n", mva);
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return -1;
}
nr = mvaGraph[startIdx] & MVA_BLOCK_NR_MASK;
endIdx = startIdx + nr - 1;
p_mva_info = (struct m4u_buf_info_t *)mvaInfoGraph[startIdx];
if (size == 0 || nr == 0 || p_mva_info == NULL) {
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
M4UMSG("%s error: the input size = %d nr = %d mva_info = %p.\n",
__func__, size, nr, p_mva_info);
if (p_mva_info)
M4UMSG("error port id = %d\n", p_mva_info->port);
m4u_mvaGraph_dump();
return -1;
}
port = p_mva_info->port;
/*check if reserved region meets free condition.*/
ccu_region_status = __check_ccu_mva_region(
startIdx, nr, (void *)p_mva_info);
vpu_region_status = m4u_check_mva_region(
startIdx, nr, (void *)p_mva_info);
if (ccu_region_status == -1 && vpu_region_status == -1) {
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
return -1;
} else if (ccu_region_status == 1)
is_in_ccu_region_flag = 1;
else if (vpu_region_status == 1)
is_in_vpu_region_flag = 1;
/* -------------------------------- */
/* check the input arguments */
/* right condition: startIdx is not NULL &&
* region is busy && right module && right size
*/
startRequire = mva & (unsigned int)(~M4U_PAGE_MASK);
endRequire = (mva + size - 1) | (unsigned int)M4U_PAGE_MASK;
sizeRequire = endRequire - startRequire + 1;
nrRequire = (sizeRequire + MVA_BLOCK_ALIGN_MASK)
>> MVA_BLOCK_SIZE_ORDER;
/* (sizeRequire>>MVA_BLOCK_SIZE_ORDER) +
* ((sizeRequire&MVA_BLOCK_ALIGN_MASK)!=0);
*/
if (!(startIdx != 0 /* startIdx is not NULL */
&& MVA_IS_BUSY(startIdx)
&& (nr == nrRequire))) {
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
M4UMSG("error to free mva========================>\n");
M4UMSG("BufSize=%d(unit:0x%xBytes) (expect %d) [%s]\n",
nrRequire, MVA_BLOCK_SIZE, nr,
RightWrong(nrRequire == nr));
M4UMSG("mva=0x%x, (IsBusy?)=%d (expect %d) [%s]\n",
mva, MVA_IS_BUSY(startIdx), 1,
RightWrong(MVA_IS_BUSY(startIdx)));
m4u_mvaGraph_dump();
/* m4u_mvaGraph_dump_raw(); */
return -1;
}
mvaInfoGraph[startIdx] = NULL;
mvaInfoGraph[endIdx] = NULL;
/*now do the mva deallocation. if mva to be freed is in vpu fix region,
*we should set reserved bit besides merging mva graph. if not in vpu
*fix region, we should make sure reserved bit
* is protected from destroying.
*/
if (is_in_ccu_region_flag || is_in_vpu_region_flag) {
/* merge with followed region.
* if endIdx + 1 is in vpu region, do the merge as before.
* or, since we have set the reserved bit when alloc,
* it's ok to do nothing.
*/
nr_tmp = MVA_GET_NR(endIdx + 1);
if (is_in_ccu_region(endIdx + 1, nr_tmp) &&
!MVA_IS_BUSY(endIdx + 1)) {
nr += nr_tmp;
mvaGraph[endIdx] = 0;
mvaGraph[endIdx + 1] = 0;
MVA_SET_RESERVED(endIdx);
MVA_SET_RESERVED(endIdx + 1);
}
/* merge with previous region
* same operation as merging with followed region
*/
nr_tmp = MVA_GET_NR(startIdx - 1);
if (is_in_ccu_region(
GET_START_INDEX((startIdx - 1), nr_tmp), nr_tmp)
&& (!MVA_IS_BUSY(startIdx - 1))) {
int pre_nr = nr_tmp;
mvaGraph[startIdx] = 0;
mvaGraph[startIdx - 1] = 0;
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(startIdx - 1);
startIdx -= pre_nr;
nr += pre_nr;
}
/* -------------------------------- */
/* set region flags */
mvaGraph[startIdx] = nr;
mvaGraph[startIdx + nr - 1] = nr;
MVA_SET_RESERVED(startIdx);
MVA_SET_RESERVED(startIdx + nr - 1);
} else {
/* merge with followed region.*/
nr_tmp = MVA_GET_NR(endIdx + 1);
if ((endIdx + 1 <= MVA_MAX_BLOCK_NR) &&
(!MVA_IS_BUSY(endIdx + 1))) {
/* check if the followed region is in vpu region.
* yes -> do nothing
* no -> do the merging
*/
if (!MVA_IS_RESERVED(endIdx + 1)) {
nr += nr_tmp;
mvaGraph[endIdx] = 0;
mvaGraph[endIdx + 1] = 0;
}
}
/* merge with previous region
* same operation as merging with followed region
*/
nr_tmp = MVA_GET_NR(startIdx - 1);
if ((startIdx - 1) > 0 && (!MVA_IS_BUSY(startIdx - 1))) {
if (!MVA_IS_RESERVED(startIdx - 1)) {
int pre_nr = nr_tmp;
mvaGraph[startIdx] = 0;
mvaGraph[startIdx - 1] = 0;
startIdx -= pre_nr;
nr += pre_nr;
}
}
/* -------------------------------- */
/* set region flags */
mvaGraph[startIdx] = nr;
mvaGraph[startIdx + nr - 1] = nr;
}
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
/*for debug*/
ret = check_reserved_region_integrity(
MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START),
VPU_RESET_VECTOR_BLOCK_NR);
if (!ret)
M4UMSG(
"VPU_RESET_VECTOR region is corruptted when port(%d) free mva(0x%x)\n",
port, mva);
ret = check_reserved_region_integrity(MVAGRAPH_INDEX(VPU_FIX_MVA_START),
VPU_FIX_BLOCK_NR);
if (!ret)
M4UMSG(
"VPU reserved data region is corruptted when port(%d) free mva(0x%x)\n",
port, mva);
return 0;
}
unsigned int get_last_free_graph_idx_in_stage1_region(void)
{
unsigned int index, nr;
unsigned long irq_flags;
index = MVAGRAPH_INDEX(VPU_RESET_VECTOR_FIX_MVA_START) - 1;
spin_lock_irqsave(&gMvaGraph_lock, irq_flags);
nr = MVA_GET_NR(index);
index = GET_START_INDEX(index, nr);
spin_unlock_irqrestore(&gMvaGraph_lock, irq_flags);
return index;
}
unsigned int get_first_free_idx(void)
{
int first_valid_mva, first_free_idx;
first_valid_mva = get_first_valid_mva();
first_free_idx = MVAGRAPH_INDEX(first_valid_mva) +
MVA_GET_NR(first_valid_mva);
return first_free_idx;
}