// SPDX-License-Identifier: BSD-3-Clause

//

// Copyright(c) 2018 Intel Corporation. All rights reserved.

//

// Author: Liam Girdwood <liam.r.girdwood@linux.intel.com>

// Janusz Jankowski <janusz.jankowski@linux.intel.com>

#include <sof/common.h>

#include <sof/lib/mm_heap.h>

#include <rtos/cache.h>

#include <sof/lib/cpu.h>

#include <sof/lib/memory.h>

#include <sof/platform.h>

#include <rtos/sof.h>

#include <ipc/topology.h>

#include <stdint.h>

#include <stdlib.h>

#define uncached_block_hdr(hdr) cache_to_uncache_init((struct block_hdr *)(hdr))

#define uncached_block_map(map) cache_to_uncache((struct block_map *)(map))

/* Memory mock for memmap */

#define HEAP_SYSTEM_0_BASE 0xBE100000

#define HEAP_SYS_RUNTIME_0_BASE 0xBE120000

#define SOF_CORE_S_START 0xBE140000

#define HEAP_RUNTIME_BASE 0xBE180000

#define HEAP_BUFFER_BASE 0xBE1C0000

/* Heap blocks for system runtime for primary core */

static SHARED_DATA struct block_hdr sys_rt_0_block64[HEAP_SYS_RT_0_COUNT64];

static SHARED_DATA struct block_hdr sys_rt_0_block512[HEAP_SYS_RT_0_COUNT512];

static SHARED_DATA struct block_hdr sys_rt_0_block1024[HEAP_SYS_RT_0_COUNT1024];

/* Heap blocks for system runtime for secondary core */

#if CONFIG_CORE_COUNT > 1

static SHARED_DATA struct block_hdr

sys_rt_x_block64[CONFIG_CORE_COUNT - 1][HEAP_SYS_RT_X_COUNT64];

static SHARED_DATA struct block_hdr

sys_rt_x_block512[CONFIG_CORE_COUNT - 1][HEAP_SYS_RT_X_COUNT512];

static SHARED_DATA struct block_hdr

sys_rt_x_block1024[CONFIG_CORE_COUNT - 1][HEAP_SYS_RT_X_COUNT1024];

#endif

/* Heap memory for system runtime */

static SHARED_DATA struct block_map sys_rt_heap_map[CONFIG_CORE_COUNT][3] = {

{ BLOCK_DEF(64, HEAP_SYS_RT_0_COUNT64,

uncached_block_hdr(sys_rt_0_block64)),

BLOCK_DEF(512, HEAP_SYS_RT_0_COUNT512,

uncached_block_hdr(sys_rt_0_block512)),

BLOCK_DEF(1024, HEAP_SYS_RT_0_COUNT1024,

uncached_block_hdr(sys_rt_0_block1024)), },

#if CONFIG_CORE_COUNT > 1

{ BLOCK_DEF(64, HEAP_SYS_RT_X_COUNT64,

uncached_block_hdr(sys_rt_x_block64[0])),

BLOCK_DEF(512, HEAP_SYS_RT_X_COUNT512,

uncached_block_hdr(sys_rt_x_block512[0])),

BLOCK_DEF(1024, HEAP_SYS_RT_X_COUNT1024,

uncached_block_hdr(sys_rt_x_block1024[0])), },

#endif

#if CONFIG_CORE_COUNT > 2

{ BLOCK_DEF(64, HEAP_SYS_RT_X_COUNT64,

uncached_block_hdr(sys_rt_x_block64[1])),

BLOCK_DEF(512, HEAP_SYS_RT_X_COUNT512,

uncached_block_hdr(sys_rt_x_block512[1])),

BLOCK_DEF(1024, HEAP_SYS_RT_X_COUNT1024,

uncached_block_hdr(sys_rt_x_block1024[1])), },

#endif

#if CONFIG_CORE_COUNT > 3

{ BLOCK_DEF(64, HEAP_SYS_RT_X_COUNT64,

uncached_block_hdr(sys_rt_x_block64[2])),

BLOCK_DEF(512, HEAP_SYS_RT_X_COUNT512,

uncached_block_hdr(sys_rt_x_block512[2])),

BLOCK_DEF(1024, HEAP_SYS_RT_X_COUNT1024,

uncached_block_hdr(sys_rt_x_block1024[2])), },

#endif

};

/* Heap blocks for modules */

static SHARED_DATA struct block_hdr mod_block64[HEAP_COUNT64];

static SHARED_DATA struct block_hdr mod_block128[HEAP_COUNT128];

static SHARED_DATA struct block_hdr mod_block256[HEAP_COUNT256];

static SHARED_DATA struct block_hdr mod_block512[HEAP_COUNT512];

static SHARED_DATA struct block_hdr mod_block1024[HEAP_COUNT1024];

static SHARED_DATA struct block_hdr mod_block2048[HEAP_COUNT2048];

static SHARED_DATA struct block_hdr mod_block4096[HEAP_COUNT4096];

/* Heap memory map for modules */

static SHARED_DATA struct block_map rt_heap_map[] = {

BLOCK_DEF(64, HEAP_COUNT64, uncached_block_hdr(mod_block64)),

BLOCK_DEF(128, HEAP_COUNT128, uncached_block_hdr(mod_block128)),

BLOCK_DEF(256, HEAP_COUNT256, uncached_block_hdr(mod_block256)),

BLOCK_DEF(512, HEAP_COUNT512, uncached_block_hdr(mod_block512)),

BLOCK_DEF(1024, HEAP_COUNT1024, uncached_block_hdr(mod_block1024)),

BLOCK_DEF(2048, HEAP_COUNT2048, uncached_block_hdr(mod_block2048)),

BLOCK_DEF(4096, HEAP_COUNT4096, uncached_block_hdr(mod_block4096)),

};

#if CONFIG_CORE_COUNT > 1

/* Heap blocks for runtime shared */

static SHARED_DATA struct block_hdr rt_shared_block64[HEAP_RUNTIME_SHARED_COUNT64];

static SHARED_DATA struct block_hdr rt_shared_block128[HEAP_RUNTIME_SHARED_COUNT128];

static SHARED_DATA struct block_hdr rt_shared_block256[HEAP_RUNTIME_SHARED_COUNT256];

static SHARED_DATA struct block_hdr rt_shared_block512[HEAP_RUNTIME_SHARED_COUNT512];

static SHARED_DATA struct block_hdr rt_shared_block1024[HEAP_RUNTIME_SHARED_COUNT1024];

/* Heap memory map for runtime shared */

static SHARED_DATA struct block_map rt_shared_heap_map[] = {

BLOCK_DEF(64, HEAP_RUNTIME_SHARED_COUNT64, uncached_block_hdr(rt_shared_block64)),

BLOCK_DEF(128, HEAP_RUNTIME_SHARED_COUNT128, uncached_block_hdr(rt_shared_block128)),

BLOCK_DEF(256, HEAP_RUNTIME_SHARED_COUNT256, uncached_block_hdr(rt_shared_block256)),

BLOCK_DEF(512, HEAP_RUNTIME_SHARED_COUNT512, uncached_block_hdr(rt_shared_block512)),

BLOCK_DEF(1024, HEAP_RUNTIME_SHARED_COUNT1024, uncached_block_hdr(rt_shared_block1024)),

};

#endif

/* Heap blocks for buffers */

static SHARED_DATA struct block_hdr buf_block[HEAP_BUFFER_COUNT_MAX];

static SHARED_DATA struct block_hdr lp_buf_block[HEAP_LP_BUFFER_COUNT];

/* Heap memory map for buffers */

static SHARED_DATA struct block_map buf_heap_map[] = {

BLOCK_DEF(HEAP_BUFFER_BLOCK_SIZE, HEAP_BUFFER_COUNT_MAX,

uncached_block_hdr(buf_block)),

};

static SHARED_DATA struct block_map lp_buf_heap_map[] = {

BLOCK_DEF(HEAP_LP_BUFFER_BLOCK_SIZE, HEAP_LP_BUFFER_COUNT,

uncached_block_hdr(lp_buf_block)),

};

static SHARED_DATA struct mm memmap;

void platform_init_memmap(struct sof *sof)

{

uint32_t heap_buffer_size = SOF_FW_END - HEAP_BUFFER_BASE;

uint32_t buffer_count;

int i;

/* calculate the buffer heap size */

buffer_count = heap_buffer_size / HEAP_BUFFER_BLOCK_SIZE;

heap_buffer_size = buffer_count * HEAP_BUFFER_BLOCK_SIZE;

for (i = 0; i < ARRAY_SIZE(buf_heap_map); i++) {

buf_heap_map[i].count = buffer_count;

buf_heap_map[i].free_count = buffer_count;

}

dcache_writeback_region(buf_heap_map,

sizeof(struct block_map) * ARRAY_SIZE(buf_heap_map));

/* access memory map through uncached region */

sof->memory_map = cache_to_uncache(&memmap);

/* .system primary core initialization */

sof->memory_map->system[0].heap = (unsigned long)malloc(HEAP_SYSTEM_M_SIZE);

sof->memory_map->system[0].size = HEAP_SYSTEM_M_SIZE;

sof->memory_map->system[0].info.free = HEAP_SYSTEM_M_SIZE;

sof->memory_map->system[0].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_EXT |

SOF_MEM_CAPS_CACHE;

/* .system_runtime primary core initialization */

sof->memory_map->system_runtime[0].blocks =

ARRAY_SIZE(sys_rt_heap_map[0]);

sof->memory_map->system_runtime[0].map =

uncached_block_map(sys_rt_heap_map[0]);

sof->memory_map->system_runtime[0].heap =

(unsigned long)malloc(HEAP_SYS_RUNTIME_M_SIZE);

sof->memory_map->system_runtime[0].size = HEAP_SYS_RUNTIME_M_SIZE;

sof->memory_map->system_runtime[0].info.free = HEAP_SYS_RUNTIME_M_SIZE;

sof->memory_map->system_runtime[0].caps = SOF_MEM_CAPS_RAM |

SOF_MEM_CAPS_EXT | SOF_MEM_CAPS_CACHE |

SOF_MEM_CAPS_DMA;

/* .system and .system_runtime secondary core initialization */

for (i = 1; i < CONFIG_CORE_COUNT; i++) {

/* .system init */

sof->memory_map->system[i].heap =

(unsigned long)malloc(HEAP_SYSTEM_S_SIZE) +

((i - 1) * SOF_CORE_S_SIZE);

sof->memory_map->system[i].size = HEAP_SYSTEM_S_SIZE;

sof->memory_map->system[i].info.free = HEAP_SYSTEM_S_SIZE;

sof->memory_map->system[i].caps = SOF_MEM_CAPS_RAM |

SOF_MEM_CAPS_EXT | SOF_MEM_CAPS_CACHE;

/* .system_runtime init */

sof->memory_map->system_runtime[i].blocks =

ARRAY_SIZE(sys_rt_heap_map[i]);

sof->memory_map->system_runtime[i].map =

uncached_block_map(sys_rt_heap_map[i]);

sof->memory_map->system_runtime[i].heap =

(unsigned long)malloc(HEAP_SYS_RUNTIME_S_SIZE) +

((i - 1) * SOF_CORE_S_SIZE) + HEAP_SYSTEM_S_SIZE;

sof->memory_map->system_runtime[i].size =

HEAP_SYS_RUNTIME_S_SIZE;

sof->memory_map->system_runtime[i].info.free =

HEAP_SYS_RUNTIME_S_SIZE;

sof->memory_map->system_runtime[i].caps = SOF_MEM_CAPS_RAM |

SOF_MEM_CAPS_EXT | SOF_MEM_CAPS_CACHE |

SOF_MEM_CAPS_DMA;

}

#if CONFIG_CORE_COUNT > 1

/* .runtime_shared init */

sof->memory_map->runtime_shared[0].blocks = ARRAY_SIZE(rt_shared_heap_map);

sof->memory_map->runtime_shared[0].map = uncached_block_map(rt_shared_heap_map);

sof->memory_map->runtime_shared[0].heap =

(unsigned long)cache_to_uncache(malloc(HEAP_RUNTIME_SHARED_SIZE));

sof->memory_map->runtime_shared[0].size = HEAP_RUNTIME_SHARED_SIZE;

sof->memory_map->runtime_shared[0].info.free = HEAP_RUNTIME_SHARED_SIZE;

sof->memory_map->runtime_shared[0].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_EXT |

SOF_MEM_CAPS_CACHE;

/* .system_shared init */

sof->memory_map->system_shared[0].heap =

(unsigned long)cache_to_uncache(malloc(HEAP_SYSTEM_SHARED_SIZE));

sof->memory_map->system_shared[0].size = HEAP_SYSTEM_SHARED_SIZE;

sof->memory_map->system_shared[0].info.free = HEAP_SYSTEM_SHARED_SIZE;

sof->memory_map->system_shared[0].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_EXT |

SOF_MEM_CAPS_CACHE;

#endif

/* .runtime init*/

sof->memory_map->runtime[0].blocks = ARRAY_SIZE(rt_heap_map);

sof->memory_map->runtime[0].map = uncached_block_map(rt_heap_map);

sof->memory_map->runtime[0].heap = (unsigned long)malloc(HEAP_RUNTIME_SIZE);

sof->memory_map->runtime[0].size = HEAP_RUNTIME_SIZE;

sof->memory_map->runtime[0].info.free = HEAP_RUNTIME_SIZE;

sof->memory_map->runtime[0].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_EXT |

SOF_MEM_CAPS_CACHE;

/* heap buffer init */

sof->memory_map->buffer[0].blocks = ARRAY_SIZE(buf_heap_map);

sof->memory_map->buffer[0].map = uncached_block_map(buf_heap_map);

sof->memory_map->buffer[0].heap = (unsigned long)malloc(heap_buffer_size);

sof->memory_map->buffer[0].size = heap_buffer_size;

sof->memory_map->buffer[0].info.free = heap_buffer_size;

sof->memory_map->buffer[0].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_HP |

SOF_MEM_CAPS_CACHE | SOF_MEM_CAPS_DMA;

/* heap lp buffer init */

sof->memory_map->buffer[1].blocks = ARRAY_SIZE(lp_buf_heap_map);

sof->memory_map->buffer[1].map = uncached_block_map(lp_buf_heap_map);

sof->memory_map->buffer[1].heap = (unsigned long)malloc(HEAP_LP_BUFFER_SIZE);

sof->memory_map->buffer[1].size = HEAP_LP_BUFFER_SIZE;

sof->memory_map->buffer[1].info.free = HEAP_LP_BUFFER_SIZE;

sof->memory_map->buffer[1].caps = SOF_MEM_CAPS_RAM | SOF_MEM_CAPS_LP |

SOF_MEM_CAPS_CACHE | SOF_MEM_CAPS_DMA;

/* .total init */

sof->memory_map->total.free = HEAP_SYSTEM_T_SIZE +

HEAP_SYS_RUNTIME_T_SIZE + HEAP_RUNTIME_SIZE + heap_buffer_size +

HEAP_LP_BUFFER_SIZE;

}