// Headers to the various functions in the rom (as we discover them) #ifndef _ROM_H_ #define _ROM_H_ #include "c_types.h" // SHA1 is assumed to match the netbsd sha1.h headers #define SHA1_DIGEST_LENGTH 20 #define SHA1_DIGEST_STRING_LENGTH 41 typedef struct { uint32_t state[5]; uint32_t count[2]; uint8_t buffer[64]; } SHA1_CTX; extern void SHA1Transform(uint32_t[5], const uint8_t[64]); extern void SHA1Init(SHA1_CTX *); extern void SHA1Final(uint8_t[SHA1_DIGEST_LENGTH], SHA1_CTX *); extern void SHA1Update(SHA1_CTX *, const uint8_t *, unsigned int); // MD5 is assumed to match the NetBSD md5.h header #define MD5_DIGEST_LENGTH 16 typedef struct { uint32_t state[5]; uint32_t count[2]; uint8_t buffer[64]; } MD5_CTX; extern void MD5Init(MD5_CTX *); extern void MD5Update(MD5_CTX *, const unsigned char *, unsigned int); extern void MD5Final(unsigned char[MD5_DIGEST_LENGTH], MD5_CTX *); // base64_encode/decode derived by Cal // Appears to match base64.h from netbsd wpa utils. extern unsigned char * base64_encode(const unsigned char *src, size_t len, size_t *out_len); extern unsigned char * base64_decode(const unsigned char *src, size_t len, size_t *out_len); // Unfortunately it that seems to require the ROM memory management to be // initialized because it uses mem_malloc extern void mem_init(void * start_addr); // Interrupt Service Routine functions typedef void (*ets_isr_fn) (void *arg, uint32_t sp); extern int ets_isr_attach (unsigned int interrupt, ets_isr_fn, void *arg); extern void ets_isr_mask (unsigned intr); extern void ets_isr_unmask (unsigned intr); // Cycle-counter extern unsigned int xthal_get_ccount (void); extern int xthal_set_ccompare (unsigned int timer_number, unsigned int compare_value); // 2, 3 = reset (module dependent?), 4 = wdt int rtc_get_reset_reason (void); // Hardware exception handling struct exception_frame { uint32_t epc; uint32_t ps; uint32_t sar; uint32_t unused; union { struct { uint32_t a0; // note: no a1 here! uint32_t a2; uint32_t a3; uint32_t a4; uint32_t a5; uint32_t a6; uint32_t a7; uint32_t a8; uint32_t a9; uint32_t a10; uint32_t a11; uint32_t a12; uint32_t a13; uint32_t a14; uint32_t a15; }; uint32_t a_reg[15]; }; uint32_t cause; }; /** * C-level exception handler callback prototype. * * Does not need an RFE instruction - it is called through a wrapper which * performs state capture & restore, as well as the actual RFE. * * @param ef An exception frame containing the relevant state from the * exception triggering. This state may be manipulated and will * be applied on return. * @param cause The exception cause number. */ typedef void (*exception_handler_fn) (struct exception_frame *ef, uint32_t cause); /** * Sets the exception handler function for a particular exception cause. * @param handler The exception handler to install. * If NULL, reverts to the XTOS default handler. * @returns The previous exception handler, or NULL if none existed prior. */ exception_handler_fn _xtos_set_exception_handler (uint32_t cause, exception_handler_fn handler); #endif