diff options
Diffstat (limited to 'kernel/drivers')
| -rw-r--r-- | kernel/drivers/acpi.c | 166 |
1 files changed, 88 insertions, 78 deletions
diff --git a/kernel/drivers/acpi.c b/kernel/drivers/acpi.c index a222523..b4bb805 100644 --- a/kernel/drivers/acpi.c +++ b/kernel/drivers/acpi.c @@ -53,7 +53,6 @@ struct xsdt { uint64_t sdt_pointers[]; } __attribute__((packed)); - // generic address structure struct gas { uint8_t address_space; @@ -91,15 +90,15 @@ struct fadt { uint32_t dsdt; // field used in ACPI 1.0; no longer in use, for compatibility only - uint8_t reserved; + uint8_t reserved; - uint8_t preferred_power_management_profile; + uint8_t preferred_power_management_profile; uint16_t sci_interrupt; uint32_t smi_command_port; - uint8_t acpi_enable; - uint8_t acpi_disable; - uint8_t s4bios_req; - uint8_t pstate_control; + uint8_t acpi_enable; + uint8_t acpi_disable; + uint8_t s4bios_req; + uint8_t pstate_control; uint32_t pm1_a_event_block; uint32_t pm1_b_event_block; uint32_t pm1_a_control_block; @@ -108,35 +107,35 @@ struct fadt { uint32_t pm_timer_block; uint32_t gpe0_block; uint32_t gpe1_block; - uint8_t pm1_event_length; - uint8_t pm1_control_length; - uint8_t pm2_control_length; - uint8_t pm_timer_length; - uint8_t gpe0_length; - uint8_t gpe1_length; - uint8_t gpe1_base; - uint8_t cstate_control; + uint8_t pm1_event_length; + uint8_t pm1_control_length; + uint8_t pm2_control_length; + uint8_t pm_timer_length; + uint8_t gpe0_length; + uint8_t gpe1_length; + uint8_t gpe1_base; + uint8_t cstate_control; uint16_t worst_c2_latency; uint16_t worst_c3_latency; uint16_t flush_size; uint16_t flush_stride; - uint8_t duty_offset; - uint8_t duty_width; - uint8_t day_alarm; - uint8_t month_alarm; - uint8_t century; + uint8_t duty_offset; + uint8_t duty_width; + uint8_t day_alarm; + uint8_t month_alarm; + uint8_t century; // reserved in ACPI 1.0; used since ACPI 2.0+ uint16_t boot_architecture_flags; - uint8_t reserved_2; + uint8_t reserved_2; uint32_t flags; // 12 byte structure; see below for details struct gas reset_reg; - uint8_t reset_value; - uint8_t reserved_3[3]; + uint8_t reset_value; + uint8_t reserved_3[3]; // 64bit pointers - Available on ACPI 2.0+ uint64_t x_firmware_control; @@ -173,14 +172,16 @@ struct acpi_state { /* global state, idk a better way rn */ static struct acpi_state state; -static bool checksum(uint8_t *data, size_t len) { +static bool checksum(uint8_t *data, size_t len) +{ unsigned char sum = 0; for (size_t i = 0; i < len; i++) sum += data[i]; return sum == 0; } -static int read_s5_addr(struct dsdt *dsdt) { +static int read_s5_addr(struct dsdt *dsdt) +{ char *s5_addr = dsdt->s5_addr; int dsdt_len = dsdt->h.length - sizeof(struct acpi_header); @@ -192,20 +193,22 @@ static int read_s5_addr(struct dsdt *dsdt) { if (dsdt_len > 0) { // check for valid AML structure - if ( ( *(s5_addr-1) == 0x08 || ( *(s5_addr-2) == 0x08 && *(s5_addr-1) == '\\') ) && *(s5_addr+4) == 0x12 ) { + if ((*(s5_addr - 1) == 0x08 || + (*(s5_addr - 2) == 0x08 && *(s5_addr - 1) == '\\')) && + *(s5_addr + 4) == 0x12) { s5_addr += 5; - s5_addr += ((*s5_addr &0xC0)>>6) +2; // calculate PkgLength size + s5_addr += ((*s5_addr & 0xC0) >> 6) + 2; // calculate PkgLength size if (*s5_addr == 0x0A) - s5_addr++; // skip byteprefix - state.SLP_TYPa = *(s5_addr)<<10; + s5_addr++; // skip byteprefix + state.SLP_TYPa = *(s5_addr) << 10; s5_addr++; if (*s5_addr == 0x0A) - s5_addr++; // skip byteprefix - state.SLP_TYPb = *(s5_addr)<<10; + s5_addr++; // skip byteprefix + state.SLP_TYPb = *(s5_addr) << 10; - state.SLP_EN = 1<<13; + state.SLP_EN = 1 << 13; state.SCI_EN = 1; } else { @@ -220,7 +223,8 @@ static int read_s5_addr(struct dsdt *dsdt) { static void acpi_load_table(uint64_t addr); -static void acpi_load_rsdt_tables(struct rsdt *rsdt) { +static void acpi_load_rsdt_tables(struct rsdt *rsdt) +{ int entries = (rsdt->h.length - sizeof(rsdt->h)) / 4; for (int i = 0; i < entries; i++) { uint32_t addr = rsdt->sdt_pointers[i]; @@ -228,7 +232,8 @@ static void acpi_load_rsdt_tables(struct rsdt *rsdt) { } } -static void acpi_load_xsdt_tables(struct xsdt *xsdt) { +static void acpi_load_xsdt_tables(struct xsdt *xsdt) +{ int entries = (xsdt->h.length - sizeof(xsdt->h)) / 8; for (int i = 0; i < entries; i++) { uint64_t addr = xsdt->sdt_pointers[i]; @@ -236,65 +241,68 @@ static void acpi_load_xsdt_tables(struct xsdt *xsdt) { } } -#define SIG_RSDT 0x54445352 -#define SIG_XSDT 0x54445358 -#define SIG_FACP 0x50434146 -#define SIG_DSDT 0x54445344 -#define SIG_APIC 0x43495041 -#define SIG_HEPT 0x54455048 -#define SIG_WAET 0x54454157 +#define SIG_RSDT 0x54445352 +#define SIG_XSDT 0x54445358 +#define SIG_FACP 0x50434146 +#define SIG_DSDT 0x54445344 +#define SIG_APIC 0x43495041 +#define SIG_HEPT 0x54455048 +#define SIG_WAET 0x54454157 -static void acpi_handle_table(struct acpi_header *header) { +static void acpi_handle_table(struct acpi_header *header) +{ switch (header->signature) { - case SIG_RSDT: - state.sdt.rsdt = (struct rsdt *) header; - acpi_load_rsdt_tables(state.sdt.rsdt); - break; - case SIG_XSDT: - state.sdt.xsdt = (struct xsdt *) header; - acpi_load_xsdt_tables(state.sdt.xsdt); - break; - case SIG_FACP: - state.fadt = (struct fadt *) header; - acpi_load_table(state.fadt->dsdt); - break; - case SIG_DSDT: - state.dsdt = (struct dsdt *) header; - read_s5_addr(state.dsdt); - break; - case SIG_APIC: - state.apic = (struct apic *) header; - break; - case SIG_HEPT: - state.hept = (struct hept *) header; - break; - case SIG_WAET: - state.waet = (struct waet *) header; - break; - default: - break; + case SIG_RSDT: + state.sdt.rsdt = (struct rsdt *)header; + acpi_load_rsdt_tables(state.sdt.rsdt); + break; + case SIG_XSDT: + state.sdt.xsdt = (struct xsdt *)header; + acpi_load_xsdt_tables(state.sdt.xsdt); + break; + case SIG_FACP: + state.fadt = (struct fadt *)header; + acpi_load_table(state.fadt->dsdt); + break; + case SIG_DSDT: + state.dsdt = (struct dsdt *)header; + read_s5_addr(state.dsdt); + break; + case SIG_APIC: + state.apic = (struct apic *)header; + break; + case SIG_HEPT: + state.hept = (struct hept *)header; + break; + case SIG_WAET: + state.waet = (struct waet *)header; + break; + default: + break; } } -static void acpi_load_table(uint64_t addr) { +static void acpi_load_table(uint64_t addr) +{ struct acpi_header *temp, *mapped; uint32_t length; - temp = (struct acpi_header * ) (uintptr_t) addr; + temp = (struct acpi_header *)(uintptr_t)addr; mapped = kmapaddr(temp, sizeof(struct acpi_header)); length = mapped->length; kunmapaddr(mapped); mapped = kmapaddr(temp, length); - if (!checksum((uint8_t *) mapped, mapped->length)) { + if (!checksum((uint8_t *)mapped, mapped->length)) { kunmapaddr(mapped); return; } - kprintf("%.*s: %#016lx\n", 4, (char*)&mapped->signature, (size_t)temp); + kprintf("%.*s: %#016lx\n", 4, (char *)&mapped->signature, (size_t)temp); acpi_handle_table(mapped); } -void acpi_init(void *rootsdp) { +void acpi_init(void *rootsdp) +{ memset(&state, 0, sizeof(struct acpi_state)); - struct rsdp *rsdp = (struct rsdp *) rootsdp; + struct rsdp *rsdp = (struct rsdp *)rootsdp; if (!checksum((uint8_t *)rsdp, sizeof(struct rsdp))) { panic("invalid acpi rsdp checksum"); } @@ -307,7 +315,7 @@ void acpi_init(void *rootsdp) { acpi_load_table(rsdp->rsdt_addr); } else if (rsdp->revision == 2) { state.version = 2; - struct xsdp *xsdp = (struct xsdp *) rsdp; + struct xsdp *xsdp = (struct xsdp *)rsdp; kprintf("ACPI 2.0\n"); acpi_load_table(xsdp->xsdt_addr); } else { @@ -317,7 +325,9 @@ void acpi_init(void *rootsdp) { outb(state.fadt->smi_command_port, state.fadt->acpi_enable); } -void acpi_shutdown(void) { - outw((unsigned int) state.fadt->pm1_a_control_block, state.SLP_TYPb | state.SLP_EN); +void acpi_shutdown(void) +{ + outw((unsigned int)state.fadt->pm1_a_control_block, + state.SLP_TYPb | state.SLP_EN); panic("ACPI shutdown failed"); } |