1ffa8f8b7SJoseph Chen // SPDX-License-Identifier: GPL-2.0
2ffa8f8b7SJoseph Chen /*
3ffa8f8b7SJoseph Chen * Copyright (c) 2019 Fuzhou Rockchip Electronics Co., Ltd
4ffa8f8b7SJoseph Chen */
5ffa8f8b7SJoseph Chen
6ffa8f8b7SJoseph Chen #include <common.h>
750226c8fSJoseph Chen #include <bidram.h>
8ffa8f8b7SJoseph Chen #include <sysmem.h>
9ffa8f8b7SJoseph Chen #include <lmb.h>
10ffa8f8b7SJoseph Chen #include <malloc.h>
11ffa8f8b7SJoseph Chen #include <asm/io.h>
12ffa8f8b7SJoseph Chen
13ffa8f8b7SJoseph Chen DECLARE_GLOBAL_DATA_PTR;
14ffa8f8b7SJoseph Chen
15ffa8f8b7SJoseph Chen #define SYSMEM_MAGIC 0x4D454D53 /* "SMEM" */
16598774ecSJoseph Chen
17598774ecSJoseph Chen #define LMB_ALLOC_ANYWHERE 0 /* sync with lmb.c */
18ffa8f8b7SJoseph Chen #define SYSMEM_ALLOC_NO_ALIGN 1
19598774ecSJoseph Chen #define SYSMEM_ALLOC_ANYWHERE 2
20ffa8f8b7SJoseph Chen
21ffa8f8b7SJoseph Chen #define SYSMEM_I(fmt, args...) printf("Sysmem: "fmt, ##args)
22ffa8f8b7SJoseph Chen #define SYSMEM_W(fmt, args...) printf("Sysmem Warn: "fmt, ##args)
23ffa8f8b7SJoseph Chen #define SYSMEM_E(fmt, args...) printf("Sysmem Error: "fmt, ##args)
24ffa8f8b7SJoseph Chen #define SYSMEM_D(fmt, args...) debug("Sysmem Debug: "fmt, ##args)
25ffa8f8b7SJoseph Chen
266e15146eSJoseph Chen struct memcheck {
27ffa8f8b7SJoseph Chen uint32_t magic;
28ffa8f8b7SJoseph Chen };
29ffa8f8b7SJoseph Chen
306e15146eSJoseph Chen /* Global for platform, must in data section */
316e15146eSJoseph Chen struct sysmem plat_sysmem __section(".data") = {
326e15146eSJoseph Chen .has_initf = false,
336e15146eSJoseph Chen .has_initr = false,
346e15146eSJoseph Chen };
35ffa8f8b7SJoseph Chen
sysmem_has_init(void)366e15146eSJoseph Chen bool sysmem_has_init(void)
376e15146eSJoseph Chen {
386e15146eSJoseph Chen return gd->flags & GD_FLG_RELOC ?
396e15146eSJoseph Chen plat_sysmem.has_initr : plat_sysmem.has_initf;
40ffa8f8b7SJoseph Chen }
41ffa8f8b7SJoseph Chen
sysmem_is_overlap(phys_addr_t base1,phys_size_t size1,phys_addr_t base2,phys_size_t size2)4250226c8fSJoseph Chen static inline int sysmem_is_overlap(phys_addr_t base1, phys_size_t size1,
4350226c8fSJoseph Chen phys_addr_t base2, phys_size_t size2)
4450226c8fSJoseph Chen {
4550226c8fSJoseph Chen return ((base1 < (base2 + size2)) && (base2 < (base1 + size1)));
4650226c8fSJoseph Chen }
4750226c8fSJoseph Chen
sysmem_is_sub_region(struct memblock * sub,struct memblock * main)4850226c8fSJoseph Chen static inline int sysmem_is_sub_region(struct memblock *sub,
4950226c8fSJoseph Chen struct memblock *main)
5050226c8fSJoseph Chen {
5150226c8fSJoseph Chen if (!sub || !main)
5250226c8fSJoseph Chen return false;
5350226c8fSJoseph Chen
5450226c8fSJoseph Chen return ((sub->base >= main->base) &&
5550226c8fSJoseph Chen (sub->base + sub->size <= main->base + main->size));
5650226c8fSJoseph Chen }
5750226c8fSJoseph Chen
sysmem_dump(void)58ffa8f8b7SJoseph Chen void sysmem_dump(void)
59ffa8f8b7SJoseph Chen {
60ffa8f8b7SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
61ffa8f8b7SJoseph Chen struct lmb *lmb = &sysmem->lmb;
626e15146eSJoseph Chen struct memblock *mem;
636e15146eSJoseph Chen struct memcheck *check;
64ffa8f8b7SJoseph Chen struct list_head *node;
65ffa8f8b7SJoseph Chen ulong memory_size = 0;
66ffa8f8b7SJoseph Chen ulong reserved_size = 0;
67ffa8f8b7SJoseph Chen ulong allocated_size = 0;
686e15146eSJoseph Chen bool overflow = false;
69ffa8f8b7SJoseph Chen ulong i;
70ffa8f8b7SJoseph Chen
71ffa8f8b7SJoseph Chen if (!sysmem_has_init())
72ffa8f8b7SJoseph Chen return;
73ffa8f8b7SJoseph Chen
74ffa8f8b7SJoseph Chen printf("\nsysmem_dump_all:\n");
75ffa8f8b7SJoseph Chen
76ffa8f8b7SJoseph Chen /* Memory pool */
776e15146eSJoseph Chen printf(" --------------------------------------------------------------------\n");
78ffa8f8b7SJoseph Chen for (i = 0; i < lmb->memory.cnt; i++) {
79ffa8f8b7SJoseph Chen memory_size += lmb->memory.region[i].size;
806e15146eSJoseph Chen printf(" memory.rgn[%ld].addr = 0x%08lx - 0x%08lx (size: 0x%08lx)\n", i,
816e15146eSJoseph Chen (ulong)lmb->memory.region[i].base,
826e15146eSJoseph Chen (ulong)lmb->memory.region[i].base +
836e15146eSJoseph Chen (ulong)lmb->memory.region[i].size,
84ffa8f8b7SJoseph Chen (ulong)lmb->memory.region[i].size);
85ffa8f8b7SJoseph Chen }
86ffa8f8b7SJoseph Chen printf("\n memory.total = 0x%08lx (%ld MiB. %ld KiB)\n",
87ffa8f8b7SJoseph Chen (ulong)memory_size,
88ffa8f8b7SJoseph Chen SIZE_MB((ulong)memory_size),
89ffa8f8b7SJoseph Chen SIZE_KB((ulong)memory_size));
90ffa8f8b7SJoseph Chen
91ffa8f8b7SJoseph Chen /* Allocated */
92ffa8f8b7SJoseph Chen i = 0;
936e15146eSJoseph Chen printf(" --------------------------------------------------------------------\n");
94ffa8f8b7SJoseph Chen list_for_each(node, &sysmem->allocated_head) {
956e15146eSJoseph Chen mem = list_entry(node, struct memblock, node);
966e15146eSJoseph Chen allocated_size += mem->size;
97c01d4489SJoseph Chen if (mem->attr.flags & F_OFC) {
986e15146eSJoseph Chen check = (struct memcheck *)
996e15146eSJoseph Chen (mem->base + mem->size - sizeof(*check));
1006e15146eSJoseph Chen overflow = (check->magic != SYSMEM_MAGIC);
101c01d4489SJoseph Chen } else if (mem->attr.flags & F_HOFC) {
1026e15146eSJoseph Chen check = (struct memcheck *)
1036e15146eSJoseph Chen (mem->base - sizeof(*check));
1046e15146eSJoseph Chen overflow = (check->magic != SYSMEM_MAGIC);
1056e15146eSJoseph Chen } else {
1066e15146eSJoseph Chen overflow = false;
1076e15146eSJoseph Chen }
1086e15146eSJoseph Chen
10950226c8fSJoseph Chen printf(" allocated.rgn[%ld].name = \"%s\" %s %s\n",
11050226c8fSJoseph Chen i, mem->attr.name, overflow ? " <Overflow!>" : "",
11150226c8fSJoseph Chen mem->orig_base != mem->base ? "<*>" : "");
1126e15146eSJoseph Chen printf(" .addr = 0x%08lx - 0x%08lx (size: 0x%08lx)\n",
11350226c8fSJoseph Chen (ulong)mem->orig_base,
11450226c8fSJoseph Chen (ulong)(mem->orig_base + mem->size),
1156e15146eSJoseph Chen (ulong)mem->size);
116ffa8f8b7SJoseph Chen i++;
117ffa8f8b7SJoseph Chen }
1186e15146eSJoseph Chen
11950226c8fSJoseph Chen /* Kernel 'reserved-memory' */
12050226c8fSJoseph Chen i = 0;
12150226c8fSJoseph Chen printf("\n");
12250226c8fSJoseph Chen list_for_each(node, &sysmem->kmem_resv_head) {
12350226c8fSJoseph Chen mem = list_entry(node, struct memblock, node);
12450226c8fSJoseph Chen allocated_size += mem->size;
12550226c8fSJoseph Chen printf(" kmem-resv.rgn[%ld].name = \"%s\" %s\n",
12650226c8fSJoseph Chen i, mem->attr.name,
12750226c8fSJoseph Chen mem->orig_base != mem->base ? "<*>" : "");
12850226c8fSJoseph Chen printf(" .addr = 0x%08lx - 0x%08lx (size: 0x%08lx)\n",
12950226c8fSJoseph Chen (ulong)mem->orig_base,
13050226c8fSJoseph Chen (ulong)(mem->orig_base + mem->size),
13150226c8fSJoseph Chen (ulong)mem->size);
13250226c8fSJoseph Chen i++;
13350226c8fSJoseph Chen }
13450226c8fSJoseph Chen
13550226c8fSJoseph Chen printf("\n framework malloc_r = %3d MiB",
13650226c8fSJoseph Chen SIZE_MB(CONFIG_SYS_MALLOC_LEN));
13750226c8fSJoseph Chen printf("\n framework malloc_f = %3d KiB\n",
13850226c8fSJoseph Chen SIZE_KB(CONFIG_SYS_MALLOC_F_LEN));
13950226c8fSJoseph Chen
140ffa8f8b7SJoseph Chen printf("\n allocated.total = 0x%08lx (%ld MiB. %ld KiB)\n",
141ffa8f8b7SJoseph Chen (ulong)allocated_size,
142ffa8f8b7SJoseph Chen SIZE_MB((ulong)allocated_size),
143ffa8f8b7SJoseph Chen SIZE_KB((ulong)allocated_size));
144ffa8f8b7SJoseph Chen
145ffa8f8b7SJoseph Chen /* LMB core reserved */
1466e15146eSJoseph Chen printf(" --------------------------------------------------------------------\n");
147ffa8f8b7SJoseph Chen reserved_size = 0;
148ffa8f8b7SJoseph Chen for (i = 0; i < lmb->reserved.cnt; i++) {
149ffa8f8b7SJoseph Chen reserved_size += lmb->reserved.region[i].size;
15050226c8fSJoseph Chen printf(" LMB.allocated[%ld].addr = 0x%08lx - 0x%08lx (size: 0x%08lx)\n", i,
1516e15146eSJoseph Chen (ulong)lmb->reserved.region[i].base,
1526e15146eSJoseph Chen (ulong)lmb->reserved.region[i].base +
1536e15146eSJoseph Chen (ulong)lmb->reserved.region[i].size,
154ffa8f8b7SJoseph Chen (ulong)lmb->reserved.region[i].size);
155ffa8f8b7SJoseph Chen }
156ffa8f8b7SJoseph Chen
157ffa8f8b7SJoseph Chen printf("\n reserved.core.total = 0x%08lx (%ld MiB. %ld KiB)\n",
158ffa8f8b7SJoseph Chen (ulong)reserved_size,
159ffa8f8b7SJoseph Chen SIZE_MB((ulong)reserved_size),
160ffa8f8b7SJoseph Chen SIZE_KB((ulong)reserved_size));
1616e15146eSJoseph Chen printf(" --------------------------------------------------------------------\n\n");
162ffa8f8b7SJoseph Chen }
163ffa8f8b7SJoseph Chen
sysmem_overflow_check(void)1642c66f6f3SJoseph Chen void sysmem_overflow_check(void)
1652c66f6f3SJoseph Chen {
1662c66f6f3SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
16750226c8fSJoseph Chen struct list_head *node, *knode;
1682c66f6f3SJoseph Chen struct memcheck *check;
16950226c8fSJoseph Chen struct memblock *kmem;
17050226c8fSJoseph Chen struct memblock *smem;
17150226c8fSJoseph Chen struct memblock *rmem;
17250226c8fSJoseph Chen int overflow = 0, overlap = 0;
1732c66f6f3SJoseph Chen
1742c66f6f3SJoseph Chen if (!sysmem_has_init())
1752c66f6f3SJoseph Chen return;
1762c66f6f3SJoseph Chen
17750226c8fSJoseph Chen #ifdef CONFIG_BIDRAM
17850226c8fSJoseph Chen /*
17950226c8fSJoseph Chen * Check kernel 'reserved-memory' overlap with invisible regions
18050226c8fSJoseph Chen *
18150226c8fSJoseph Chen * Here, only print warning message when overlap with invisible region
18250226c8fSJoseph Chen */
18350226c8fSJoseph Chen list_for_each(knode, &sysmem->kmem_resv_head) {
18450226c8fSJoseph Chen kmem = list_entry(knode, struct memblock, node);
18550226c8fSJoseph Chen rmem = bidram_reserved_is_overlap(kmem->base, kmem->size);
18650226c8fSJoseph Chen if (rmem) {
18750226c8fSJoseph Chen const char *alias;
18850226c8fSJoseph Chen int i, dump = 1;
18950226c8fSJoseph Chen
19050226c8fSJoseph Chen /*
19150226c8fSJoseph Chen * Ignore the sub region of invisible region.
19250226c8fSJoseph Chen * eg: ramoops of SHM.
19350226c8fSJoseph Chen */
19450226c8fSJoseph Chen alias = rmem->attr.alias[0];
19550226c8fSJoseph Chen if (alias && sysmem_is_sub_region(kmem, rmem)) {
19650226c8fSJoseph Chen for (i = 0; i < ALIAS_COUNT_MAX; i++, alias++) {
19750226c8fSJoseph Chen alias = rmem->attr.alias[i];
19850226c8fSJoseph Chen if (!alias)
19950226c8fSJoseph Chen continue;
20050226c8fSJoseph Chen if (!strncasecmp(kmem->attr.name, alias,
20150226c8fSJoseph Chen strlen(alias))) {
20250226c8fSJoseph Chen dump = 0;
20350226c8fSJoseph Chen break;
20450226c8fSJoseph Chen }
20550226c8fSJoseph Chen }
20650226c8fSJoseph Chen }
20750226c8fSJoseph Chen
20850226c8fSJoseph Chen if (dump)
20950226c8fSJoseph Chen SYSMEM_W("kernel 'reserved-memory' \"%s\"(0x%08lx - 0x%08lx) "
21050226c8fSJoseph Chen "is overlap with [invisible] \"%s\" (0x%08lx - 0x%08lx)\n",
21150226c8fSJoseph Chen kmem->attr.name, (ulong)kmem->base,
21250226c8fSJoseph Chen (ulong)(kmem->base + kmem->size),
21350226c8fSJoseph Chen rmem->attr.name, (ulong)rmem->base,
21450226c8fSJoseph Chen (ulong)(rmem->base + rmem->size));
21550226c8fSJoseph Chen }
21650226c8fSJoseph Chen }
21750226c8fSJoseph Chen #endif
21850226c8fSJoseph Chen
2192c66f6f3SJoseph Chen list_for_each(node, &sysmem->allocated_head) {
22050226c8fSJoseph Chen smem = list_entry(node, struct memblock, node);
22150226c8fSJoseph Chen /*
22250226c8fSJoseph Chen * Check kernel 'reserved-memory' overlap with sysmem allocated regions
22350226c8fSJoseph Chen */
22450226c8fSJoseph Chen list_for_each(knode, &sysmem->kmem_resv_head) {
22550226c8fSJoseph Chen kmem = list_entry(knode, struct memblock, node);
22650226c8fSJoseph Chen if (sysmem_is_overlap(smem->base, smem->size,
22750226c8fSJoseph Chen kmem->base, kmem->size)) {
228c01d4489SJoseph Chen if (smem->attr.flags & F_KMEM_CAN_OVERLAP)
22950226c8fSJoseph Chen continue;
23050226c8fSJoseph Chen
23150226c8fSJoseph Chen overlap = 1;
23250226c8fSJoseph Chen SYSMEM_W("kernel 'reserved-memory' \"%s\"(0x%08lx - 0x%08lx) "
23350226c8fSJoseph Chen "is overlap with \"%s\" (0x%08lx - 0x%08lx)\n",
23450226c8fSJoseph Chen kmem->attr.name, (ulong)kmem->base,
23550226c8fSJoseph Chen (ulong)(kmem->base + kmem->size),
23650226c8fSJoseph Chen smem->attr.name, (ulong)smem->base,
23750226c8fSJoseph Chen (ulong)(smem->base + smem->size));
23850226c8fSJoseph Chen }
23950226c8fSJoseph Chen }
24050226c8fSJoseph Chen
24150226c8fSJoseph Chen /*
24250226c8fSJoseph Chen * Check sysmem allocated regions overflow.
24350226c8fSJoseph Chen */
244c01d4489SJoseph Chen if (smem->attr.flags & F_OFC) {
2452c66f6f3SJoseph Chen check = (struct memcheck *)
24650226c8fSJoseph Chen (smem->base + smem->size - sizeof(*check));
2472c66f6f3SJoseph Chen overflow = (check->magic != SYSMEM_MAGIC);
248c01d4489SJoseph Chen } else if (smem->attr.flags & F_HOFC) {
2492c66f6f3SJoseph Chen check = (struct memcheck *)
25050226c8fSJoseph Chen (smem->base - sizeof(*check));
2512c66f6f3SJoseph Chen overflow = (check->magic != SYSMEM_MAGIC);
2522c66f6f3SJoseph Chen } else {
2532c66f6f3SJoseph Chen overflow = 0;
2542c66f6f3SJoseph Chen }
2552c66f6f3SJoseph Chen
2562c66f6f3SJoseph Chen if (overflow) {
2572c66f6f3SJoseph Chen SYSMEM_E("Found there is region overflow!\n");
25850226c8fSJoseph Chen break;
2592c66f6f3SJoseph Chen }
2602c66f6f3SJoseph Chen }
2612c66f6f3SJoseph Chen
26250226c8fSJoseph Chen if (overflow || overlap)
26350226c8fSJoseph Chen sysmem_dump();
264ffa8f8b7SJoseph Chen }
265ffa8f8b7SJoseph Chen
sysmem_add(phys_addr_t base,phys_size_t size)2666e15146eSJoseph Chen static int sysmem_add(phys_addr_t base, phys_size_t size)
267ffa8f8b7SJoseph Chen {
268ffa8f8b7SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
269ffa8f8b7SJoseph Chen int ret;
270ffa8f8b7SJoseph Chen
2716e15146eSJoseph Chen if (!size)
2726e15146eSJoseph Chen return -EINVAL;
273ffa8f8b7SJoseph Chen
274ffa8f8b7SJoseph Chen ret = lmb_add(&sysmem->lmb, base, size);
275ffa8f8b7SJoseph Chen if (ret < 0)
2766e15146eSJoseph Chen SYSMEM_E("Failed to add sysmem at 0x%08lx for 0x%08lx size\n",
277ffa8f8b7SJoseph Chen (ulong)base, (ulong)size);
278ffa8f8b7SJoseph Chen
279ffa8f8b7SJoseph Chen return (ret >= 0) ? 0 : ret;
280ffa8f8b7SJoseph Chen }
281ffa8f8b7SJoseph Chen
sysmem_alias2name(const char * name,int * id)2826e15146eSJoseph Chen static const char *sysmem_alias2name(const char *name, int *id)
283ffa8f8b7SJoseph Chen {
2846e15146eSJoseph Chen const char *alias;
28550226c8fSJoseph Chen int i, j;
2866e15146eSJoseph Chen int match = 0;
287ffa8f8b7SJoseph Chen
288c01d4489SJoseph Chen for (i = 0; i < MEM_MAX; i++) {
2896e15146eSJoseph Chen /* Pirmary name */
2906e15146eSJoseph Chen if (mem_attr[i].name && !strcasecmp(mem_attr[i].name, name)) {
2916e15146eSJoseph Chen match = 1;
2926e15146eSJoseph Chen goto finish;
293ffa8f8b7SJoseph Chen }
294ffa8f8b7SJoseph Chen
2956e15146eSJoseph Chen /* Alias name */
2966e15146eSJoseph Chen alias = mem_attr[i].alias[0];
2976e15146eSJoseph Chen if (!alias)
2986e15146eSJoseph Chen continue;
2996e15146eSJoseph Chen
30050226c8fSJoseph Chen for (j = 0; j < ALIAS_COUNT_MAX; j++) {
30150226c8fSJoseph Chen alias = mem_attr[i].alias[j];
3026e15146eSJoseph Chen if (alias && !strcasecmp(alias, name)) {
3036e15146eSJoseph Chen match = 1;
3046e15146eSJoseph Chen goto finish;
3056e15146eSJoseph Chen }
306ffa8f8b7SJoseph Chen }
307ffa8f8b7SJoseph Chen }
308ffa8f8b7SJoseph Chen
3096e15146eSJoseph Chen finish:
3106e15146eSJoseph Chen if (match) {
3116e15146eSJoseph Chen *id = i;
3126e15146eSJoseph Chen return mem_attr[i].name;
313ffa8f8b7SJoseph Chen }
314ffa8f8b7SJoseph Chen
3156e15146eSJoseph Chen return name;
316ffa8f8b7SJoseph Chen }
317ffa8f8b7SJoseph Chen
sysmem_alloc_align_base(enum memblk_id id,const char * mem_name,phys_addr_t base,phys_size_t size,ulong align)3186e15146eSJoseph Chen static void *sysmem_alloc_align_base(enum memblk_id id,
3196e15146eSJoseph Chen const char *mem_name,
320ffa8f8b7SJoseph Chen phys_addr_t base,
321ffa8f8b7SJoseph Chen phys_size_t size,
322ffa8f8b7SJoseph Chen ulong align)
323ffa8f8b7SJoseph Chen {
324ffa8f8b7SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
3256e15146eSJoseph Chen struct memblk_attr attr;
3266e15146eSJoseph Chen struct memblock *mem;
3276e15146eSJoseph Chen struct memcheck *check;
328ffa8f8b7SJoseph Chen struct list_head *node;
3296e15146eSJoseph Chen const char *name;
330ffa8f8b7SJoseph Chen phys_addr_t paddr;
331ffa8f8b7SJoseph Chen phys_addr_t alloc_base;
332ffa8f8b7SJoseph Chen phys_size_t alloc_size;
33350226c8fSJoseph Chen phys_addr_t orig_base = base;
334ffa8f8b7SJoseph Chen
335ffa8f8b7SJoseph Chen if (!sysmem_has_init())
336efda1f1dSJoseph Chen goto out;
337ffa8f8b7SJoseph Chen
338523469f4SJoseph Chen /* If out of management range, just return */
339*406e6b1aSJoseph Chen if (base != SYSMEM_ALLOC_ANYWHERE && base < CONFIG_SYS_SDRAM_BASE)
340523469f4SJoseph Chen return (void *)base;
341523469f4SJoseph Chen if ((base + size >= CONFIG_SYS_SDRAM_BASE + SDRAM_MAX_SIZE) &&
342523469f4SJoseph Chen (base + size <= SZ_4G))
343523469f4SJoseph Chen return (void *)base;
344523469f4SJoseph Chen
345c01d4489SJoseph Chen if (id == MEM_BY_NAME || id == MEM_KMEM_RESERVED) {
3466e15146eSJoseph Chen if (!mem_name) {
347ffa8f8b7SJoseph Chen SYSMEM_E("NULL name for alloc sysmem\n");
348efda1f1dSJoseph Chen goto out;
349305d8903SJoseph Chen }
350305d8903SJoseph Chen
35150226c8fSJoseph Chen /* Find: name, id and attr by outer mem_name & id */
3526e15146eSJoseph Chen name = sysmem_alias2name(mem_name, (int *)&id);
3536e15146eSJoseph Chen attr = mem_attr[id];
354a90f2861SJoseph Chen if (!attr.name)
355a90f2861SJoseph Chen attr.name = strdup(name);
35650226c8fSJoseph Chen
35750226c8fSJoseph Chen /* Always make kernel 'reserved-memory' alloc successfully */
358c01d4489SJoseph Chen if (id == MEM_KMEM_RESERVED) {
35950226c8fSJoseph Chen struct memblock *mem;
36050226c8fSJoseph Chen
36150226c8fSJoseph Chen mem = malloc(sizeof(*mem));
36250226c8fSJoseph Chen if (!mem) {
36350226c8fSJoseph Chen SYSMEM_E("No memory for \"%s\" alloc sysmem\n", name);
36450226c8fSJoseph Chen return mem;
36550226c8fSJoseph Chen }
36650226c8fSJoseph Chen
367c01d4489SJoseph Chen attr.flags |= F_KMEM_RESERVED;
36850226c8fSJoseph Chen mem->orig_base = orig_base;
36950226c8fSJoseph Chen mem->base = base;
37050226c8fSJoseph Chen mem->size = size;
37150226c8fSJoseph Chen mem->attr = attr;
37250226c8fSJoseph Chen sysmem->kmem_resv_cnt++;
37350226c8fSJoseph Chen list_add_tail(&mem->node, &sysmem->kmem_resv_head);
37450226c8fSJoseph Chen
37550226c8fSJoseph Chen return (void *)base;
37650226c8fSJoseph Chen }
377c01d4489SJoseph Chen } else if (id > MEM_UNK && id < MEM_MAX) {
3786e15146eSJoseph Chen attr = mem_attr[id];
3796e15146eSJoseph Chen name = attr.name;
380f6e15301SJoseph Chen
381f6e15301SJoseph Chen /*
38250226c8fSJoseph Chen * Special handle for Android AVB alloc(on any where)
38350226c8fSJoseph Chen *
384f6e15301SJoseph Chen * Fixup base and place right after U-Boot stack, adding a lot
385f6e15301SJoseph Chen * of space(4KB) maybe safer.
386f6e15301SJoseph Chen */
387c01d4489SJoseph Chen if (attr.flags & F_HIGHEST_MEM) {
388f6e15301SJoseph Chen base = gd->start_addr_sp -
389f6e15301SJoseph Chen CONFIG_SYS_STACK_SIZE - size - 0x1000;
39050226c8fSJoseph Chen
391d65bf0c6SJoseph Chen /*
392d65bf0c6SJoseph Chen * The 0x0 address is usually allocated by 32-bit uncompressed
393d65bf0c6SJoseph Chen * kernel and this alloc action is just a peek.
394d65bf0c6SJoseph Chen *
395d65bf0c6SJoseph Chen * Due to LMB core doesn't support alloc at 0x0 address, we have
396d65bf0c6SJoseph Chen * to alloc the memblk backword a few bytes.
397d65bf0c6SJoseph Chen *
398d65bf0c6SJoseph Chen * ARCH_DMA_MINALIGN maybe a good choice.
399d65bf0c6SJoseph Chen */
400d65bf0c6SJoseph Chen } else if (!base) {
401d65bf0c6SJoseph Chen base += ARCH_DMA_MINALIGN;
40290fca809SJoseph Chen } else if (base < gd->bd->bi_dram[0].start) {
403598774ecSJoseph Chen /*
40450226c8fSJoseph Chen * On Rockchip platform:
40550226c8fSJoseph Chen *
406c01d4489SJoseph Chen * So far, we use F_IGNORE_INVISIBLE for uncompress
40750226c8fSJoseph Chen * kernel alloc, and for ARMv8 enabling AArch32 mode, the
40850226c8fSJoseph Chen * ATF is still AArch64 and ocuppies 0~1MB and shmem 1~2M.
40950226c8fSJoseph Chen * So let's ignore the region which overlap with them.
410598774ecSJoseph Chen */
411c01d4489SJoseph Chen if (attr.flags & F_IGNORE_INVISIBLE) {
412598774ecSJoseph Chen base = gd->bd->bi_dram[0].start;
41350226c8fSJoseph Chen } else {
41450226c8fSJoseph Chen SYSMEM_E("Failed to alloc invisible sub region 0x%08lx - 0x%08lx "
41550226c8fSJoseph Chen "of \"%s\" at 0x%08lx - 0x%08lx\n",
41650226c8fSJoseph Chen (ulong)base, (ulong)gd->bd->bi_dram[0].start,
41750226c8fSJoseph Chen name, (ulong)base, (ulong)(base + size));
41850226c8fSJoseph Chen goto out;
41950226c8fSJoseph Chen }
420598774ecSJoseph Chen }
4216e15146eSJoseph Chen } else {
4226e15146eSJoseph Chen SYSMEM_E("Unsupport memblk id %d for alloc sysmem\n", id);
423efda1f1dSJoseph Chen goto out;
4246e15146eSJoseph Chen }
4256e15146eSJoseph Chen
4266e15146eSJoseph Chen if (!size) {
4276e15146eSJoseph Chen SYSMEM_E("\"%s\" size is 0 for alloc sysmem\n", name);
428efda1f1dSJoseph Chen goto out;
429ffa8f8b7SJoseph Chen }
430ffa8f8b7SJoseph Chen
431556bbbe4SJoseph Chen /*
432556bbbe4SJoseph Chen * Some modules use "sysmem_alloc()" to alloc region for storage
433556bbbe4SJoseph Chen * read/write buffer, it should be aligned to cacheline size. eg: AVB.
434556bbbe4SJoseph Chen *
435556bbbe4SJoseph Chen * Aligned down to cacheline size if not aligned, otherwise the tail
436556bbbe4SJoseph Chen * of region maybe overflow.
437556bbbe4SJoseph Chen */
438c01d4489SJoseph Chen if (attr.flags & F_CACHELINE_ALIGN &&
439556bbbe4SJoseph Chen !IS_ALIGNED(base, ARCH_DMA_MINALIGN)) {
440556bbbe4SJoseph Chen base = ALIGN(base, ARCH_DMA_MINALIGN);
441556bbbe4SJoseph Chen base -= ARCH_DMA_MINALIGN;
442556bbbe4SJoseph Chen }
443556bbbe4SJoseph Chen
44450226c8fSJoseph Chen if (base != SYSMEM_ALLOC_ANYWHERE && !IS_ALIGNED(base, 4)) {
4456e15146eSJoseph Chen SYSMEM_E("\"%s\" base=0x%08lx is not 4-byte aligned\n",
4466e15146eSJoseph Chen name, (ulong)base);
447efda1f1dSJoseph Chen goto out;
448727ebf6dSJoseph Chen }
449727ebf6dSJoseph Chen
45050226c8fSJoseph Chen /* Must be sizeof(long) byte aligned */
45150226c8fSJoseph Chen size = ALIGN(size, sizeof(long));
452727ebf6dSJoseph Chen
4536e15146eSJoseph Chen SYSMEM_D("Enter alloc: \"%s\" 0x%08lx - 0x%08lx\n",
4546e15146eSJoseph Chen name, (ulong)base, (ulong)(base + size));
4556e15146eSJoseph Chen
456ffa8f8b7SJoseph Chen /* Already allocated ? */
457ffa8f8b7SJoseph Chen list_for_each(node, &sysmem->allocated_head) {
4586e15146eSJoseph Chen mem = list_entry(node, struct memblock, node);
4596e15146eSJoseph Chen SYSMEM_D("Has allcated: %s, 0x%08lx - 0x%08lx\n",
4606e15146eSJoseph Chen mem->attr.name, (ulong)mem->base,
4616e15146eSJoseph Chen (ulong)(mem->base + mem->size));
4626e15146eSJoseph Chen if (!strcmp(mem->attr.name, name)) {
463efda1f1dSJoseph Chen /* Allow double alloc for same but smaller region */
4642cb995bcSJoseph Chen if (mem->base <= base && mem->size >= size)
4652cb995bcSJoseph Chen return (void *)base;
4662cb995bcSJoseph Chen
467ffa8f8b7SJoseph Chen SYSMEM_E("Failed to double alloc for existence \"%s\"\n", name);
468efda1f1dSJoseph Chen goto out;
4696e15146eSJoseph Chen } else if (sysmem_is_overlap(mem->base, mem->size, base, size)) {
4708d5a6a40SJoseph Chen if (attr.flags & F_FAIL_WARNING)
4718d5a6a40SJoseph Chen SYSMEM_W("**Maybe** \"%s\" (0x%08lx - 0x%08lx) alloc is "
4728d5a6a40SJoseph Chen "overlap with existence \"%s\" (0x%08lx - "
4738d5a6a40SJoseph Chen "0x%08lx)\n",
4748d5a6a40SJoseph Chen name, (ulong)base, (ulong)(base + size),
4758d5a6a40SJoseph Chen mem->attr.name, (ulong)mem->base,
4768d5a6a40SJoseph Chen (ulong)(mem->base + mem->size));
4778d5a6a40SJoseph Chen
4788d5a6a40SJoseph Chen else
4796e15146eSJoseph Chen SYSMEM_E("\"%s\" (0x%08lx - 0x%08lx) alloc is "
4806e15146eSJoseph Chen "overlap with existence \"%s\" (0x%08lx - "
4816e15146eSJoseph Chen "0x%08lx)\n",
4826e15146eSJoseph Chen name, (ulong)base, (ulong)(base + size),
4836e15146eSJoseph Chen mem->attr.name, (ulong)mem->base,
4846e15146eSJoseph Chen (ulong)(mem->base + mem->size));
485efda1f1dSJoseph Chen goto out;
486ffa8f8b7SJoseph Chen }
487ffa8f8b7SJoseph Chen }
488ffa8f8b7SJoseph Chen
4896e15146eSJoseph Chen /* Add overflow check magic ? */
490c01d4489SJoseph Chen if (attr.flags & F_OFC)
491ffa8f8b7SJoseph Chen alloc_size = size + sizeof(*check);
4926e15146eSJoseph Chen else
4936e15146eSJoseph Chen alloc_size = size;
4946e15146eSJoseph Chen
4956e15146eSJoseph Chen /* Alloc anywhere ? */
496ffa8f8b7SJoseph Chen if (base == SYSMEM_ALLOC_ANYWHERE)
497598774ecSJoseph Chen alloc_base = LMB_ALLOC_ANYWHERE;
498ffa8f8b7SJoseph Chen else
499ffa8f8b7SJoseph Chen alloc_base = base + alloc_size; /* LMB is align down alloc mechanism */
500ffa8f8b7SJoseph Chen
50164c9242bSJoseph Chen SYSMEM_D("DO alloc... base: 0x%08lx\n", (ulong)alloc_base);
50264c9242bSJoseph Chen
503ffa8f8b7SJoseph Chen paddr = lmb_alloc_base(&sysmem->lmb, alloc_size, align, alloc_base);
504ffa8f8b7SJoseph Chen if (paddr) {
505ffa8f8b7SJoseph Chen if ((paddr == base) || (base == SYSMEM_ALLOC_ANYWHERE)) {
5066e15146eSJoseph Chen mem = malloc(sizeof(*mem));
5076e15146eSJoseph Chen if (!mem) {
508ffa8f8b7SJoseph Chen SYSMEM_E("No memory for \"%s\" alloc sysmem\n", name);
509efda1f1dSJoseph Chen goto out;
510ffa8f8b7SJoseph Chen }
51150226c8fSJoseph Chen /* Record original base for dump */
512c01d4489SJoseph Chen if (attr.flags & F_HIGHEST_MEM)
51364c9242bSJoseph Chen mem->orig_base = base;
51464c9242bSJoseph Chen else
51550226c8fSJoseph Chen mem->orig_base = orig_base;
51664c9242bSJoseph Chen
5176e15146eSJoseph Chen mem->base = paddr;
5186e15146eSJoseph Chen mem->size = alloc_size;
5196e15146eSJoseph Chen mem->attr = attr;
520ffa8f8b7SJoseph Chen sysmem->allocated_cnt++;
5216e15146eSJoseph Chen list_add_tail(&mem->node, &sysmem->allocated_head);
522ffa8f8b7SJoseph Chen
523efda1f1dSJoseph Chen /* Add overflow check magic */
524c01d4489SJoseph Chen if (mem->attr.flags & F_OFC) {
5256e15146eSJoseph Chen check = (struct memcheck *)(paddr + size);
526ffa8f8b7SJoseph Chen check->magic = SYSMEM_MAGIC;
527c01d4489SJoseph Chen } else if (mem->attr.flags & F_HOFC) {
5286e15146eSJoseph Chen check = (struct memcheck *)(paddr - sizeof(*check));
5296e15146eSJoseph Chen check->magic = SYSMEM_MAGIC;
5306e15146eSJoseph Chen }
531ffa8f8b7SJoseph Chen } else {
5326e15146eSJoseph Chen SYSMEM_E("Failed to alloc \"%s\" expect at 0x%08lx - 0x%08lx "
53350a17e9eSJoseph Chen "but at 0x%08lx - 0x%08lx\n",
5346e15146eSJoseph Chen name, (ulong)base, (ulong)(base + size),
5356e15146eSJoseph Chen (ulong)paddr, (ulong)(paddr + size));
536efda1f1dSJoseph Chen /* Free what we don't want allocated region */
5373bee194fSJoseph Chen if (lmb_free(&sysmem->lmb, paddr, alloc_size) < 0)
5386e15146eSJoseph Chen SYSMEM_E("Failed to free \"%s\"\n", name);
5396e15146eSJoseph Chen
540efda1f1dSJoseph Chen goto out;
541ffa8f8b7SJoseph Chen }
542ffa8f8b7SJoseph Chen } else {
5436e15146eSJoseph Chen SYSMEM_E("Failed to alloc \"%s\" at 0x%08lx - 0x%08lx\n",
5446e15146eSJoseph Chen name, (ulong)base, (ulong)(base + size));
545661cbb0bSJoseph Chen goto out;
546ffa8f8b7SJoseph Chen }
547ffa8f8b7SJoseph Chen
5486e15146eSJoseph Chen SYSMEM_D("Exit alloc: \"%s\", paddr=0x%08lx, size=0x%08lx, align=0x%x, anywhere=%d\n",
549ffa8f8b7SJoseph Chen name, (ulong)paddr, (ulong)size, (u32)align, !base);
550ffa8f8b7SJoseph Chen
551ffa8f8b7SJoseph Chen return (void *)paddr;
552efda1f1dSJoseph Chen
553efda1f1dSJoseph Chen out:
554598774ecSJoseph Chen /*
555598774ecSJoseph Chen * Why: base + sizeof(ulong) ?
55650226c8fSJoseph Chen * It's not a standard way to handle the case: the input base is 0.
55750226c8fSJoseph Chen * Because 0 equals NULL, but we don't want to return NULL when alloc
55850226c8fSJoseph Chen * successfully, so just return a !NULL value is okay.
55950226c8fSJoseph Chen *
56050226c8fSJoseph Chen * When it happens ?
56150226c8fSJoseph Chen * Maybe 32-bit platform would alloc region for uncompress kernel
56250226c8fSJoseph Chen * at 0 address.
563598774ecSJoseph Chen */
564598774ecSJoseph Chen if (base == 0)
565598774ecSJoseph Chen base = base + sizeof(ulong);
566598774ecSJoseph Chen
56768cca28cSJoseph Chen return (attr.flags & (F_IGNORE_INVISIBLE | F_NO_FAIL_DUMP)) ?
56868cca28cSJoseph Chen (void *)base : NULL;
569ffa8f8b7SJoseph Chen }
570ffa8f8b7SJoseph Chen
sysmem_alloc(enum memblk_id id,phys_size_t size)571dcb404a6SJoseph Chen void *sysmem_alloc(enum memblk_id id, phys_size_t size)
572dcb404a6SJoseph Chen {
573dcb404a6SJoseph Chen void *paddr;
574dcb404a6SJoseph Chen
575dcb404a6SJoseph Chen paddr = sysmem_alloc_align_base(id,
576dcb404a6SJoseph Chen NULL,
577dcb404a6SJoseph Chen SYSMEM_ALLOC_ANYWHERE,
578dcb404a6SJoseph Chen size,
57964c9242bSJoseph Chen ARCH_DMA_MINALIGN);
580dcb404a6SJoseph Chen if (!paddr)
581dcb404a6SJoseph Chen sysmem_dump();
582dcb404a6SJoseph Chen
583dcb404a6SJoseph Chen return paddr;
584dcb404a6SJoseph Chen }
585dcb404a6SJoseph Chen
sysmem_alloc_by_name(const char * name,phys_size_t size)586acffe332SJoseph Chen void *sysmem_alloc_by_name(const char *name, phys_size_t size)
587acffe332SJoseph Chen {
588acffe332SJoseph Chen void *paddr;
589acffe332SJoseph Chen
590c01d4489SJoseph Chen paddr = sysmem_alloc_align_base(MEM_BY_NAME,
591acffe332SJoseph Chen name,
592acffe332SJoseph Chen SYSMEM_ALLOC_ANYWHERE,
593acffe332SJoseph Chen size,
5941ce69de6SJoseph Chen ARCH_DMA_MINALIGN);
595acffe332SJoseph Chen if (!paddr)
596acffe332SJoseph Chen sysmem_dump();
597acffe332SJoseph Chen
598acffe332SJoseph Chen return paddr;
599acffe332SJoseph Chen }
600acffe332SJoseph Chen
sysmem_alloc_base(enum memblk_id id,phys_addr_t base,phys_size_t size)6016e15146eSJoseph Chen void *sysmem_alloc_base(enum memblk_id id, phys_addr_t base, phys_size_t size)
602ffa8f8b7SJoseph Chen {
6036e15146eSJoseph Chen void *paddr;
604ffa8f8b7SJoseph Chen
6056e15146eSJoseph Chen paddr = sysmem_alloc_align_base(id,
6066e15146eSJoseph Chen NULL,
607ffa8f8b7SJoseph Chen base,
608ffa8f8b7SJoseph Chen size,
609ffa8f8b7SJoseph Chen SYSMEM_ALLOC_NO_ALIGN);
6106e15146eSJoseph Chen if (!paddr)
6116e15146eSJoseph Chen sysmem_dump();
6126e15146eSJoseph Chen
6136e15146eSJoseph Chen return paddr;
614ffa8f8b7SJoseph Chen }
615ffa8f8b7SJoseph Chen
sysmem_alloc_base_by_name(const char * name,phys_addr_t base,phys_size_t size)6166e15146eSJoseph Chen void *sysmem_alloc_base_by_name(const char *name,
6176e15146eSJoseph Chen phys_addr_t base, phys_size_t size)
618ffa8f8b7SJoseph Chen {
6196e15146eSJoseph Chen void *paddr;
6206e15146eSJoseph Chen
621c01d4489SJoseph Chen paddr = sysmem_alloc_align_base(MEM_BY_NAME,
6226e15146eSJoseph Chen name,
6236e15146eSJoseph Chen base,
624ffa8f8b7SJoseph Chen size,
625ffa8f8b7SJoseph Chen SYSMEM_ALLOC_NO_ALIGN);
6266e15146eSJoseph Chen if (!paddr)
6276e15146eSJoseph Chen sysmem_dump();
6286e15146eSJoseph Chen
6296e15146eSJoseph Chen return paddr;
6306e15146eSJoseph Chen }
6316e15146eSJoseph Chen
sysmem_fdt_reserve_alloc_base(const char * name,phys_addr_t base,phys_size_t size)6326e15146eSJoseph Chen void *sysmem_fdt_reserve_alloc_base(const char *name,
6336e15146eSJoseph Chen phys_addr_t base, phys_size_t size)
6346e15146eSJoseph Chen {
6356e15146eSJoseph Chen void *paddr;
6366e15146eSJoseph Chen
637c01d4489SJoseph Chen paddr = sysmem_alloc_align_base(MEM_KMEM_RESERVED,
6386e15146eSJoseph Chen name,
6396e15146eSJoseph Chen base,
6406e15146eSJoseph Chen size,
6416e15146eSJoseph Chen SYSMEM_ALLOC_NO_ALIGN);
6426e15146eSJoseph Chen if (!paddr)
6436e15146eSJoseph Chen sysmem_dump();
6446e15146eSJoseph Chen
6456e15146eSJoseph Chen return paddr;
646ffa8f8b7SJoseph Chen }
647ffa8f8b7SJoseph Chen
sysmem_alloc_temporary_mem(phys_size_t size)648e9237ab5SJoseph Chen ulong sysmem_alloc_temporary_mem(phys_size_t size)
6493bee194fSJoseph Chen {
6503bee194fSJoseph Chen struct sysmem *sysmem = &plat_sysmem;
6513bee194fSJoseph Chen phys_addr_t alloc_base;
6523bee194fSJoseph Chen phys_addr_t paddr;
653e9237ab5SJoseph Chen phys_addr_t base;
6543bee194fSJoseph Chen int ret;
6553bee194fSJoseph Chen
6563bee194fSJoseph Chen if (!sysmem_has_init())
6573bee194fSJoseph Chen return false;
6583bee194fSJoseph Chen
659e9237ab5SJoseph Chen base = (gd->start_addr_sp - CONFIG_SYS_STACK_SIZE - 0x2000) - size;
660e9237ab5SJoseph Chen
6613bee194fSJoseph Chen /* LMB is align down alloc mechanism */
6623bee194fSJoseph Chen alloc_base = base + size;
663e9237ab5SJoseph Chen paddr = __lmb_alloc_base(&sysmem->lmb, size, SZ_1K, alloc_base);
6643bee194fSJoseph Chen if (paddr) {
6653bee194fSJoseph Chen /* If free failed, return false */
666e9237ab5SJoseph Chen ret = lmb_free(&sysmem->lmb, paddr, size);
6673bee194fSJoseph Chen if (ret < 0) {
6683bee194fSJoseph Chen SYSMEM_E("Can't free at 0x%08lx - 0x%08lx, ret=%d\n",
669e9237ab5SJoseph Chen (ulong)paddr, (ulong)(paddr + size), ret);
670e9237ab5SJoseph Chen return 0;
6713bee194fSJoseph Chen }
6723bee194fSJoseph Chen }
6733bee194fSJoseph Chen
674e9237ab5SJoseph Chen return paddr;
6753bee194fSJoseph Chen }
6763bee194fSJoseph Chen
sysmem_free(phys_addr_t base)677ffa8f8b7SJoseph Chen int sysmem_free(phys_addr_t base)
678ffa8f8b7SJoseph Chen {
679ffa8f8b7SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
6806e15146eSJoseph Chen struct memblock *mem;
681ffa8f8b7SJoseph Chen struct list_head *node;
6826e15146eSJoseph Chen int ret, found = 0;
683ffa8f8b7SJoseph Chen
684ffa8f8b7SJoseph Chen if (!sysmem_has_init())
685ffa8f8b7SJoseph Chen return -ENOSYS;
686ffa8f8b7SJoseph Chen
687ffa8f8b7SJoseph Chen /* Find existence */
688ffa8f8b7SJoseph Chen list_for_each(node, &sysmem->allocated_head) {
6896e15146eSJoseph Chen mem = list_entry(node, struct memblock, node);
69050226c8fSJoseph Chen if (mem->base == base || mem->orig_base == base) {
691ffa8f8b7SJoseph Chen found = 1;
692ffa8f8b7SJoseph Chen break;
693ffa8f8b7SJoseph Chen }
694ffa8f8b7SJoseph Chen }
695ffa8f8b7SJoseph Chen
696ffa8f8b7SJoseph Chen if (!found) {
6976e15146eSJoseph Chen SYSMEM_E("Failed to free no allocated sysmem at 0x%08lx\n",
6986e15146eSJoseph Chen (ulong)base);
699ffa8f8b7SJoseph Chen return -EINVAL;
700ffa8f8b7SJoseph Chen }
701ffa8f8b7SJoseph Chen
7026e15146eSJoseph Chen ret = lmb_free(&sysmem->lmb, mem->base, mem->size);
703ffa8f8b7SJoseph Chen if (ret >= 0) {
7046e15146eSJoseph Chen SYSMEM_D("Free: \"%s\" 0x%08lx - 0x%08lx\n",
7056e15146eSJoseph Chen mem->attr.name, (ulong)mem->base,
7066e15146eSJoseph Chen (ulong)(mem->base + mem->size));
707ffa8f8b7SJoseph Chen sysmem->allocated_cnt--;
7086e15146eSJoseph Chen list_del(&mem->node);
7096e15146eSJoseph Chen free(mem);
710ffa8f8b7SJoseph Chen } else {
7116e15146eSJoseph Chen SYSMEM_E("Failed to free \"%s\" at 0x%08lx\n",
7126e15146eSJoseph Chen mem->attr.name, (ulong)base);
713ffa8f8b7SJoseph Chen }
714ffa8f8b7SJoseph Chen
715ffa8f8b7SJoseph Chen return (ret >= 0) ? 0 : ret;
716ffa8f8b7SJoseph Chen }
717ffa8f8b7SJoseph Chen
sysmem_initr(void)7186e15146eSJoseph Chen int sysmem_initr(void)
7196e15146eSJoseph Chen {
7206e15146eSJoseph Chen return sysmem_init();
7216e15146eSJoseph Chen }
7226e15146eSJoseph Chen
sysmem_init(void)723ffa8f8b7SJoseph Chen int sysmem_init(void)
724ffa8f8b7SJoseph Chen {
725ffa8f8b7SJoseph Chen struct sysmem *sysmem = &plat_sysmem;
726ffa8f8b7SJoseph Chen phys_addr_t mem_start;
727ffa8f8b7SJoseph Chen phys_size_t mem_size;
728ffa8f8b7SJoseph Chen int ret;
729ffa8f8b7SJoseph Chen
730ffa8f8b7SJoseph Chen lmb_init(&sysmem->lmb);
731ffa8f8b7SJoseph Chen INIT_LIST_HEAD(&sysmem->allocated_head);
73250226c8fSJoseph Chen INIT_LIST_HEAD(&sysmem->kmem_resv_head);
733ffa8f8b7SJoseph Chen sysmem->allocated_cnt = 0;
73450226c8fSJoseph Chen sysmem->kmem_resv_cnt = 0;
73550226c8fSJoseph Chen
7366e15146eSJoseph Chen if (gd->flags & GD_FLG_RELOC) {
7376e15146eSJoseph Chen sysmem->has_initr = true;
7386e15146eSJoseph Chen } else {
7396e15146eSJoseph Chen SYSMEM_I("init\n");
7406e15146eSJoseph Chen sysmem->has_initf = true;
7416e15146eSJoseph Chen }
742ffa8f8b7SJoseph Chen
743ffa8f8b7SJoseph Chen /* Add all available system memory */
744ffa8f8b7SJoseph Chen #ifdef CONFIG_NR_DRAM_BANKS
745ffa8f8b7SJoseph Chen int i;
746ffa8f8b7SJoseph Chen
747ffa8f8b7SJoseph Chen for (i = 0; i < CONFIG_NR_DRAM_BANKS; i++) {
7486e15146eSJoseph Chen if (!gd->bd->bi_dram[i].size)
7496e15146eSJoseph Chen continue;
7506e15146eSJoseph Chen
751ffa8f8b7SJoseph Chen ret = sysmem_add(gd->bd->bi_dram[i].start,
752ffa8f8b7SJoseph Chen gd->bd->bi_dram[i].size);
753ffa8f8b7SJoseph Chen if (ret) {
754ffa8f8b7SJoseph Chen SYSMEM_E("Failed to add sysmem from bi_dram[%d]\n", i);
7556e15146eSJoseph Chen goto fail;
756ffa8f8b7SJoseph Chen }
757ffa8f8b7SJoseph Chen }
758ffa8f8b7SJoseph Chen #else
759ffa8f8b7SJoseph Chen mem_start = env_get_bootm_low();
760ffa8f8b7SJoseph Chen mem_size = env_get_bootm_size();
761ffa8f8b7SJoseph Chen ret = sysmem_add(mem_start, mem_size);
762ffa8f8b7SJoseph Chen if (ret) {
763ffa8f8b7SJoseph Chen SYSMEM_E("Failed to add sysmem from bootm_low/size\n");
7646e15146eSJoseph Chen goto fail;
765ffa8f8b7SJoseph Chen }
766ffa8f8b7SJoseph Chen #endif
767ffa8f8b7SJoseph Chen /* Reserved for board */
768ffa8f8b7SJoseph Chen ret = board_sysmem_reserve(sysmem);
769ffa8f8b7SJoseph Chen if (ret) {
770ffa8f8b7SJoseph Chen SYSMEM_E("Failed to reserve sysmem for board\n");
7716e15146eSJoseph Chen goto fail;
772ffa8f8b7SJoseph Chen }
773ffa8f8b7SJoseph Chen
7746e15146eSJoseph Chen /* Reserved for U-boot framework: 'reserve_xxx()' */
7756e15146eSJoseph Chen mem_start = gd->start_addr_sp;
776f7a6474aSJoseph Chen #ifdef CONFIG_PRAM
777f7a6474aSJoseph Chen mem_size = gd->ram_top - (CONFIG_PRAM * 1024) - mem_start;
778f7a6474aSJoseph Chen #else
779ffa8f8b7SJoseph Chen mem_size = gd->ram_top - mem_start;
780f7a6474aSJoseph Chen #endif
781c01d4489SJoseph Chen if (!sysmem_alloc_base(MEM_UBOOT, mem_start, mem_size)) {
782ffa8f8b7SJoseph Chen SYSMEM_E("Failed to reserve sysmem for U-Boot framework\n");
7836e15146eSJoseph Chen ret = -ENOMEM;
7846e15146eSJoseph Chen goto fail;
785ffa8f8b7SJoseph Chen }
786ffa8f8b7SJoseph Chen
7876e15146eSJoseph Chen /* Reserved for U-Boot stack */
7886e15146eSJoseph Chen mem_start = gd->start_addr_sp - CONFIG_SYS_STACK_SIZE;
7896e15146eSJoseph Chen mem_size = CONFIG_SYS_STACK_SIZE;
790c01d4489SJoseph Chen if (!sysmem_alloc_base(MEM_STACK, mem_start, mem_size)) {
7916e15146eSJoseph Chen SYSMEM_E("Failed to reserve sysmem for stack\n");
7926e15146eSJoseph Chen ret = -ENOMEM;
7936e15146eSJoseph Chen goto fail;
7946e15146eSJoseph Chen }
795ffa8f8b7SJoseph Chen
796ffa8f8b7SJoseph Chen return 0;
7976e15146eSJoseph Chen
7986e15146eSJoseph Chen fail:
7996e15146eSJoseph Chen if (ret && !(gd->flags & GD_FLG_RELOC)) {
8006e15146eSJoseph Chen sysmem_dump();
8016e15146eSJoseph Chen SYSMEM_W("Maybe malloc size %d MiB is too large?\n\n",
8026e15146eSJoseph Chen SIZE_MB(CONFIG_SYS_MALLOC_LEN));
8036e15146eSJoseph Chen }
8046e15146eSJoseph Chen
8056e15146eSJoseph Chen return ret;
806ffa8f8b7SJoseph Chen }
807ffa8f8b7SJoseph Chen
board_sysmem_reserve(struct sysmem * sysmem)808ffa8f8b7SJoseph Chen __weak int board_sysmem_reserve(struct sysmem *sysmem)
809ffa8f8b7SJoseph Chen {
810ffa8f8b7SJoseph Chen /* please define platform specific board_sysmem_reserve() */
811ffa8f8b7SJoseph Chen return 0;
812ffa8f8b7SJoseph Chen }
813ffa8f8b7SJoseph Chen
do_sysmem_dump(cmd_tbl_t * cmdtp,int flag,int argc,char * const argv[])81468cca28cSJoseph Chen static int do_sysmem_dump(cmd_tbl_t *cmdtp, int flag,
8156e15146eSJoseph Chen int argc, char *const argv[])
816ffa8f8b7SJoseph Chen {
8176e15146eSJoseph Chen sysmem_dump();
818ffa8f8b7SJoseph Chen return 0;
819ffa8f8b7SJoseph Chen }
8206e15146eSJoseph Chen
do_sysmem_search(cmd_tbl_t * cmdtp,int flag,int argc,char * const argv[])82168cca28cSJoseph Chen static int do_sysmem_search(cmd_tbl_t *cmdtp, int flag,
82268cca28cSJoseph Chen int argc, char *const argv[])
82368cca28cSJoseph Chen {
82468cca28cSJoseph Chen ulong addr, size;
82568cca28cSJoseph Chen
82668cca28cSJoseph Chen if (argc != 2)
82768cca28cSJoseph Chen return CMD_RET_USAGE;
82868cca28cSJoseph Chen
82968cca28cSJoseph Chen size = simple_strtoul(argv[1], NULL, 16);
83068cca28cSJoseph Chen if (!size)
83168cca28cSJoseph Chen return CMD_RET_USAGE;
83268cca28cSJoseph Chen
833e9237ab5SJoseph Chen addr = sysmem_alloc_temporary_mem(size);
834e9237ab5SJoseph Chen if (!addr) {
83568cca28cSJoseph Chen SYSMEM_I("No available region with size 0x%08lx\n", size);
836e9237ab5SJoseph Chen } else {
837e9237ab5SJoseph Chen SYSMEM_I("Available region at address: 0x%08lx\n",addr);
838e9237ab5SJoseph Chen }
839e9237ab5SJoseph Chen env_set_hex("smem_addr", addr);
84068cca28cSJoseph Chen
84168cca28cSJoseph Chen return 0;
84268cca28cSJoseph Chen }
84368cca28cSJoseph Chen
8446e15146eSJoseph Chen U_BOOT_CMD(
84568cca28cSJoseph Chen sysmem_dump, 1, 1, do_sysmem_dump,
8466e15146eSJoseph Chen "Dump sysmem layout",
8476e15146eSJoseph Chen ""
8486e15146eSJoseph Chen );
84968cca28cSJoseph Chen
85068cca28cSJoseph Chen U_BOOT_CMD(
85168cca28cSJoseph Chen sysmem_search, 2, 1, do_sysmem_search,
85268cca28cSJoseph Chen "Search a available sysmem region",
8532c655b73SJoseph Chen "<size in hex>"
85468cca28cSJoseph Chen );
855