rulimine/common/lib/rand.c

#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <lib/misc.h>
#include <lib/print.h>
#include <lib/rand.h>
#include <sys/cpu.h>
#include <mm/pmm.h>

// TODO: Find where this mersenne twister implementation is inspired from
//       and properly credit the original author(s).

static bool rand_initialised = false;

#define n ((int)624)
#define m ((int)397)
#define matrix_a ((uint32_t)0x9908b0df)
#define msb ((uint32_t)0x80000000)
#define lsbs ((uint32_t)0x7fffffff)

static uint32_t *status;
static int ctr;

static void init_rand(void) {
    uint32_t seed = ((uint32_t)0xc597060c * (uint32_t)rdtsc())
                  * ((uint32_t)0xce86d624)
                  ^ ((uint32_t)0xee0da130 * (uint32_t)rdtsc());

    // TODO(qookie): aarch64 also has an optional HW random number generator
#if defined (__x86_64__) || defined(__i386__)
    uint32_t eax, ebx, ecx, edx;

    // Check for rdseed
    if (cpuid(0x07, 0, &eax, &ebx, &ecx, &edx) && (ebx & (1 << 18))) {
        seed *= (seed ^ rdseed(uint32_t));
    } else if (cpuid(0x01, 0, &eax, &ebx, &ecx, &edx) && (ecx & (1 << 30))) {
        seed *= (seed ^ rdrand(uint32_t));
    }
#endif

    status = ext_mem_alloc(n * sizeof(uint32_t));

    srand(seed);

    rand_initialised = true;
}

void srand(uint32_t s) {
    status[0] = s;
    for (ctr = 1; ctr < n; ctr++)
        status[ctr] = (1812433253 * (status[ctr - 1] ^ (status[ctr - 1] >> 30)) + ctr);
}

uint32_t rand32(void) {
    if (!rand_initialised)
        init_rand();

    const uint32_t mag01[2] = {0, matrix_a};

    if (ctr >= n) {
        for (int kk = 0; kk < n - m; kk++) {
            uint32_t y = (status[kk] & msb) | (status[kk + 1] & lsbs);
            status[kk] = status[kk + m] ^ (y >> 1) ^ mag01[y & 1];
        }

        for (int kk = n - m; kk < n - 1; kk++) {
            uint32_t y = (status[kk] & msb) | (status[kk + 1] & lsbs);
            status[kk] = status[kk + (m - n)] ^ (y >> 1) ^ mag01[y & 1];
        }

        uint32_t y = (status[n - 1] & msb) | (status[0] & lsbs);
        status[n - 1] = status[m - 1] ^ (y >> 1) ^ mag01[y & 1];

        ctr = 0;
    }

    uint32_t res = status[ctr++];

    res ^= (res >> 11);
    res ^= (res << 7) & 0x9d2c5680;
    res ^= (res << 15) & 0xefc60000;
    res ^= (res >> 18);

    return res;
}

uint64_t rand64(void) {
    return (((uint64_t)rand32()) << 32) | (uint64_t)rand32();
}
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`#include <stdint.h>`
			`#include <stddef.h>`
			`#include <stdbool.h>`
misc: blib.h -> misc.h 2022-08-27 00:44:47 +03:00			`#include <lib/misc.h>`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`#include <lib/print.h>`
			`#include <lib/rand.h>`
Move cpuid() to cpu.h 2020-10-12 22:49:17 +03:00			`#include <sys/cpu.h>`
Reorganise pmm code 2020-09-20 13:03:44 +03:00			`#include <mm/pmm.h>`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00
			`// TODO: Find where this mersenne twister implementation is inspired from`
			`// and properly credit the original author(s).`

Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`static bool rand_initialised = false;`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00
Added improved memmap 2020-06-05 18:51:33 +03:00			`#define n ((int)624)`
			`#define m ((int)397)`
			`#define matrix_a ((uint32_t)0x9908b0df)`
			`#define msb ((uint32_t)0x80000000)`
			`#define lsbs ((uint32_t)0x7fffffff)`

			`static uint32_t *status;`
			`static int ctr;`

Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`static void init_rand(void) {`
cpu: Remove static from header inline functions 2021-08-22 18:37:09 +03:00			`uint32_t seed = ((uint32_t)0xc597060c * (uint32_t)rdtsc())`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`* ((uint32_t)0xce86d624)`
cpu: Remove static from header inline functions 2021-08-22 18:37:09 +03:00			`^ ((uint32_t)0xee0da130 * (uint32_t)rdtsc());`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00
Initial AArch64 port (#205) * Initial aarch64 port * Enable chainload on aarch64 No changes necessary since it's all UEFI anyway. * Add specification for Limine protocol for aarch64 * PROTOCOL: Specify state of information in DT /chosen node * common: Add spinup code for aarch64 * common: Port elf and term to aarch64 * common: Port vmm to aarch64 Also prepare to drop VMM_FLAG_PRESENT on x86. * protos: Port limine boot protocol to aarch64 Also drop VMM_FLAG_PRESENT since we never unmap pages anyway. * test: Add DTB request * PROTOCOL: Port SMP request to aarch64 * cpu: Add cache maintenance functions for aarch64 * protos/limine, sys: Port SMP to aarch64 Also move common asm macros into a header file. * test: Start up APs * vmm: Unify get_next_level and implement large page splitting * protos/limine: Map framebuffer using correct caching mode on AArch64 * CI: Fix GCC build for aarch64 * entry, menu: Replace uses of naked attribute with separate asm file GCC does not understand the naked attribute on aarch64, and didn't understand it for x86 in older versions. 2022-08-18 18:32:54 +03:00			`// TODO(qookie): aarch64 also has an optional HW random number generator`
			`#if defined (__x86_64__) \|\| defined(__i386__)`
Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`uint32_t eax, ebx, ecx, edx;`

			`// Check for rdseed`
Change return type of cpuid(), add APIC existance check, do not assume BSP APIC ID to be 0 2020-10-22 16:25:10 +03:00			`if (cpuid(0x07, 0, &eax, &ebx, &ecx, &edx) && (ebx & (1 << 18))) {`
Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`seed *= (seed ^ rdseed(uint32_t));`
Change return type of cpuid(), add APIC existance check, do not assume BSP APIC ID to be 0 2020-10-22 16:25:10 +03:00			`} else if (cpuid(0x01, 0, &eax, &ebx, &ecx, &edx) && (ecx & (1 << 30))) {`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`seed *= (seed ^ rdrand(uint32_t));`
			`}`
Initial AArch64 port (#205) * Initial aarch64 port * Enable chainload on aarch64 No changes necessary since it's all UEFI anyway. * Add specification for Limine protocol for aarch64 * PROTOCOL: Specify state of information in DT /chosen node * common: Add spinup code for aarch64 * common: Port elf and term to aarch64 * common: Port vmm to aarch64 Also prepare to drop VMM_FLAG_PRESENT on x86. * protos: Port limine boot protocol to aarch64 Also drop VMM_FLAG_PRESENT since we never unmap pages anyway. * test: Add DTB request * PROTOCOL: Port SMP request to aarch64 * cpu: Add cache maintenance functions for aarch64 * protos/limine, sys: Port SMP to aarch64 Also move common asm macros into a header file. * test: Start up APs * vmm: Unify get_next_level and implement large page splitting * protos/limine: Map framebuffer using correct caching mode on AArch64 * CI: Fix GCC build for aarch64 * entry, menu: Replace uses of naked attribute with separate asm file GCC does not understand the naked attribute on aarch64, and didn't understand it for x86 in older versions. 2022-08-18 18:32:54 +03:00			`#endif`
Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00
rand: Fix allocation bug 2020-12-28 01:12:07 +03:00			`status = ext_mem_alloc(n * sizeof(uint32_t));`
Added improved memmap 2020-06-05 18:51:33 +03:00
Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`srand(seed);`

			`rand_initialised = true;`
Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`}`

			`void srand(uint32_t s) {`
			`status[0] = s;`
			`for (ctr = 1; ctr < n; ctr++)`
			`status[ctr] = (1812433253 * (status[ctr - 1] ^ (status[ctr - 1] >> 30)) + ctr);`
			`}`

			`uint32_t rand32(void) {`
Increase randomness quality by adding rdseed instruction support 2020-06-01 11:50:09 +03:00			`if (!rand_initialised)`
			`init_rand();`

Add a more proper rand implementation 2020-06-01 11:20:34 +03:00			`const uint32_t mag01[2] = {0, matrix_a};`

			`if (ctr >= n) {`
			`for (int kk = 0; kk < n - m; kk++) {`
			`uint32_t y = (status[kk] & msb) \| (status[kk + 1] & lsbs);`
			`status[kk] = status[kk + m] ^ (y >> 1) ^ mag01[y & 1];`
			`}`

			`for (int kk = n - m; kk < n - 1; kk++) {`
			`uint32_t y = (status[kk] & msb) \| (status[kk + 1] & lsbs);`
			`status[kk] = status[kk + (m - n)] ^ (y >> 1) ^ mag01[y & 1];`
			`}`

			`uint32_t y = (status[n - 1] & msb) \| (status[0] & lsbs);`
			`status[n - 1] = status[m - 1] ^ (y >> 1) ^ mag01[y & 1];`

			`ctr = 0;`
			`}`

			`uint32_t res = status[ctr++];`

			`res ^= (res >> 11);`
			`res ^= (res << 7) & 0x9d2c5680;`
			`res ^= (res << 15) & 0xefc60000;`
			`res ^= (res >> 18);`

			`return res;`
			`}`

			`uint64_t rand64(void) {`
			`return (((uint64_t)rand32()) << 32) \| (uint64_t)rand32();`
			`}`