acrn-hypervisor/hypervisor/arch/x86/rtcm.c

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/*
* Copyright (C) 2020 Intel Corporation.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <types.h>
#include <asm/lib/bits.h>
#include <rtl.h>
#include <util.h>
#include <logmsg.h>
#include <misc_cfg.h>
#include <asm/mmu.h>
#include <asm/cpu_caps.h>
#include <asm/rtcm.h>
static uint64_t ssram_bottom_hpa;
static uint64_t ssram_top_hpa;
/* is_sw_sram_initialized is used to tell whether Software SRAM is successfully initialized for all cores */
static volatile bool is_sw_sram_initialized = false;
#ifdef CONFIG_SSRAM_ENABLED
#define foreach_rtct_entry(rtct, e) \
for (e = (void *)rtct + sizeof(struct acpi_table_header); \
((uint64_t)e - (uint64_t)rtct) < rtct->length; \
e = (struct rtct_entry *)((uint64_t)e + e->size))
#define RTCT_V1 1U
#define RTCT_V2 2U
static uint32_t rtct_version = RTCT_V1;
static struct rtct_entry_data_rtcm_binary *rtcm_binary = NULL;
static struct acpi_table_header *acpi_rtct_tbl = NULL;
static inline void *get_rtct_entry_base()
{
return (void *)acpi_rtct_tbl + sizeof(*acpi_rtct_tbl);
}
void set_rtct_tbl(void *rtct_tbl_addr)
{
acpi_rtct_tbl = rtct_tbl_addr;
}
/*
*@desc This function parses native RTCT ACPI talbe to figure out the entry to CRL binary
* and SSRAM range. All SSRAM regions shall be continuous and L3 cache be inclusive.
*
*@pre the SSRAM region is separate and never mixed with normal DRAM
*@pre acpi_rtct_tbl != NULL
*/
static void parse_rtct(void)
{
uint64_t bottom_hpa = ULONG_MAX;
struct rtct_entry *entry;
struct rtct_entry_data_ssram *ssram;
struct rtct_entry_data_ssram_v2 *ssram_v2;
struct rtct_entry_data_compatibility *compat;
/* Check RTCT format */
foreach_rtct_entry(acpi_rtct_tbl, entry) {
if (entry->type == RTCT_V2_COMPATIBILITY) {
compat = (struct rtct_entry_data_compatibility *)entry->data;
rtct_version = compat->rtct_ver_major;
break;
}
}
pr_info("RTCT Version: V%d.\n", rtct_version);
if (rtct_version == RTCT_V1) {
foreach_rtct_entry(acpi_rtct_tbl, entry) {
if (entry->type == RTCT_ENTRY_TYPE_SOFTWARE_SRAM) {
ssram = (struct rtct_entry_data_ssram *)entry->data;
ssram_top_hpa = max(ssram_top_hpa, ssram->base + ssram->size);
bottom_hpa = min(bottom_hpa, ssram->base);
pr_info("found L%d Software SRAM, at HPA %llx, size %x",
ssram->cache_level, ssram->base, ssram->size);
} else if (entry->type == RTCT_ENTRY_TYPE_RTCM_BINARY) {
rtcm_binary = (struct rtct_entry_data_rtcm_binary *)entry->data;
ASSERT((rtcm_binary->address != 0UL && rtcm_binary->size != 0U),
"Invalid PTCM binary.");
}
}
} else if (rtct_version == RTCT_V2) {
foreach_rtct_entry(acpi_rtct_tbl, entry) {
if (entry->type == RTCT_V2_SSRAM) {
ssram_v2 = (struct rtct_entry_data_ssram_v2 *)entry->data;
ssram_top_hpa = max(ssram_top_hpa, ssram_v2->base + ssram_v2->size);
bottom_hpa = min(bottom_hpa, ssram_v2->base);
pr_info("found L%d Software SRAM, at HPA %llx, size %x",
ssram_v2->cache_level, ssram_v2->base, ssram_v2->size);
} else if (entry->type == RTCT_V2_CRL_BINARY) {
rtcm_binary = (struct rtct_entry_data_rtcm_binary *)entry->data;
ASSERT((rtcm_binary->address != 0UL && rtcm_binary->size != 0U),
"Invalid PTCM binary.");
}
}
}
if (bottom_hpa != ULONG_MAX) {
/* Software SRAM regions are detected. */
ssram_bottom_hpa = bottom_hpa;
ssram_top_hpa = round_page_up(ssram_top_hpa);
}
}
/*
* Function to initialize Software SRAM. Both BSP and APs shall call this function to
* make sure Software SRAM is initialized, which is required by RTCM.
* BSP:
* To parse RTCT and find the entry of RTCM command function
* AP:
* Wait until BSP has done the parsing work, then call the RTCM ABI.
*
* Synchronization of AP and BSP is ensured, both inside and outside RTCM.
* BSP shall be the last to finish the call.
*/
bool init_software_sram(bool is_bsp)
{
bool ret = true;
int32_t rtcm_ret_code;
struct rtcm_header *header;
rtcm_abi_func rtcm_command_func = NULL;
static uint64_t init_sw_sram_cpus_mask = (1UL << BSP_CPU_ID);
/*
* When we shut down an RTVM, its pCPUs will be re-initialized
* we must ensure init_software_sram() will only be executed at the first time when a pcpu is booted
* That's why we add "!is_sw_sram_initialized" as an condition.
*/
if (!is_sw_sram_initialized && (acpi_rtct_tbl != NULL)) {
/* TODO: We may use SMP call to flush TLB and do Software SRAM initialization on APs */
if (is_bsp) {
parse_rtct();
if (rtcm_binary != NULL) {
/* Clear the NX bit of PTCM area */
set_paging_x((uint64_t)hpa2hva(rtcm_binary->address), rtcm_binary->size);
}
bitmap_clear_lock(get_pcpu_id(), &init_sw_sram_cpus_mask);
}
wait_sync_change(&init_sw_sram_cpus_mask, 0UL);
if (rtcm_binary != NULL) {
header = hpa2hva(rtcm_binary->address);
pr_info("rtcm_bin_address:%llx, rtcm magic:%x, rtcm version:%x",
rtcm_binary->address, header->magic, header->version);
ASSERT(((header->magic == RTCM_MAGIC_PTCM) || (header->magic == RTCM_MAGIC_RTCM)),
"Wrong RTCM magic value!");
/* Flush the TLB, so that BSP/AP can execute the RTCM ABI */
flush_tlb_range((uint64_t)hpa2hva(rtcm_binary->address), rtcm_binary->size);
rtcm_command_func = (rtcm_abi_func)(hpa2hva(rtcm_binary->address) + header->command_offset);
pr_info("rtcm command function is found at %llx", rtcm_command_func);
rtcm_ret_code = rtcm_command_func(RTCM_CMD_INIT_SOFTWARE_SRAM, get_rtct_entry_base());
pr_info("rtcm initialization return %d", rtcm_ret_code);
/* return 0 for success, -1 for failure */
ASSERT(rtcm_ret_code == 0);
if (is_bsp) {
/* Restore the NX bit of RTCM area in page table */
set_paging_nx((uint64_t)hpa2hva(rtcm_binary->address), rtcm_binary->size);
}
bitmap_set_lock(get_pcpu_id(), &init_sw_sram_cpus_mask);
wait_sync_change(&init_sw_sram_cpus_mask, ALL_CPUS_MASK);
/* Flush the TLB on BSP and all APs to restore the NX for Software SRAM area */
flush_tlb_range((uint64_t)hpa2hva(rtcm_binary->address), rtcm_binary->size);
if (is_bsp) {
is_sw_sram_initialized = true;
pr_info("BSP Software SRAM has been initialized, base_hpa:0x%lx, top_hpa:0x%lx.\n",
ssram_bottom_hpa, ssram_top_hpa);
}
ret = disable_host_monitor_wait();
}
}
return ret;
}
#else
void set_rtct_tbl(__unused void *rtct_tbl_addr)
{
}
bool init_software_sram(__unused bool is_bsp)
{
return true;
}
#endif
/* @pre called after 'init_software_sram()' done. */
bool is_software_sram_enabled(void)
{
return is_sw_sram_initialized;
}
uint64_t get_software_sram_base(void)
{
return ssram_bottom_hpa;
}
uint64_t get_software_sram_size(void)
{
return (ssram_top_hpa - ssram_bottom_hpa);
}