diff --git a/doc/api-hashes.md b/doc/api-hashes.md index ebf9cd1..5566e5a 100644 --- a/doc/api-hashes.md +++ b/doc/api-hashes.md @@ -8,8 +8,6 @@ Click menu *"Edit/Other/Turn on APIhashes scan..."*. Hover mouse cursor over has The plugin reads file `IDADIR/plugins/apilist.txt` and calculates hashes of names from the list. Then, if the constant value shown in pseudocode view is equal of one of hashes the name is source of that hash, it will automatically be shown in comment. In the disasm view these constants are compared at the moment of code/data creation. So, if you want to see hash meaning in disasm - undefine and then recreate code/data. -> ⚠️ Avoid negative 32bits values in pseudocode view, it seems IDA storing it in 64bits sign-extended form. As workaround just convert these negative constants to unsigned hex representation. - ![API hashes](api-hashes.gif) ![API hashes on data](api-hashes-data.gif) diff --git a/src/apihashes.cpp b/src/apihashes.cpp index cc80d6d..d76c055 100644 --- a/src/apihashes.cpp +++ b/src/apihashes.cpp @@ -25,9 +25,13 @@ #include #include "helpers.h" +//IDA stores 32bit values in 64bit sign extended form, so store hashesh the same way +typedef int64 hash_t; +#define HASH32to64(x) (hash_t)(int32)(x) + //------------------------------------------------------------ // 5f087e34ab6a470b9e46bcb7c6edfcc5 -static uint64 Custom_HashFunction(const char* libraryName, const char* name, int64 basis, int64 prime) +static hash_t Custom_HashFunction(const char* libraryName, const char* name, int64 basis, int64 prime) { uint32 h = (uint32)basis; uint8 c; @@ -39,10 +43,10 @@ static uint64 Custom_HashFunction(const char* libraryName, const char* name, int h ^= h >> 16; h *= (uint32)prime; } - return h; + return HASH32to64(h); } //------------------------------------------------------------ -static uint64 Ror_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t Ror_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint32 result = (uint32)basis; const char* ptr = 0; @@ -53,11 +57,11 @@ static uint64 Ror_HashFunction(const char* libraryName, const char* functionName break; result = qrotr(result, prime) + uc; } - return result; + return HASH32to64(result); } //------------------------------------------------------------ -static uint64 RorUp_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t RorUp_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint32 result = (uint32)basis; const char* ptr = 0; @@ -70,7 +74,7 @@ static uint64 RorUp_HashFunction(const char* libraryName, const char* functionNa uc -= 0x20; result = qrotr(result, prime) + uc; } - return result; + return HASH32to64(result); } //------------------------------------------------------------ @@ -105,13 +109,13 @@ static uint32 Metasploit_HashAPI(const char* name, int64 basis, int64 prime) return result; } -static uint64 Metasploit_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t Metasploit_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) { - return (uint32)(Metasploit_HashLibName(libraryName, basis, prime) + Metasploit_HashAPI(functionName, basis,prime)); + return HASH32to64(Metasploit_HashLibName(libraryName, basis, prime) + Metasploit_HashAPI(functionName, basis,prime)); } //------------------------------------------------------------ -static uint64 RolXor_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t RolXor_HashFunction(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint32 result = (uint32)basis; const char* ptr = 0; @@ -124,11 +128,11 @@ static uint64 RolXor_HashFunction(const char* libraryName, const char* functionN result = qrotl(result, prime) ^ uc; } - return result; + return HASH32to64(result); } //------------------------------------------------------------ -static uint64 crc32_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t crc32_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint32 crc = (uint32)basis; const unsigned char* ptr = (unsigned char*)functionName; @@ -142,13 +146,13 @@ static uint64 crc32_HashFunc(const char* libraryName, const char* functionName, c >>= 1; } } - return (uint64)(uint32)(~crc); + return HASH32to64(~crc); } //------------------------------------------------------------ //sdbm hash = hash * 65599 + c //Daniel Bernstein (djb) hash = hash * 33 + c -static uint64 sdbm_djb_hash(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t sdbm_djb_hash(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint32 hash = (uint32)basis; uint32 c; @@ -157,12 +161,12 @@ static uint64 sdbm_djb_hash(const char* libraryName, const char* functionName, i //hash = c + (hash << 5) + hash; //djb fast //hash = c + (hash << 6) + (hash << 16) - hash;// sdbm fast // + 1;//f528d185fcb0511403b6ec229c3c693f PL.bin } - return hash; + return HASH32to64(hash); } -static uint64 fnv1a_hash(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t fnv1a_hash(const char* libraryName, const char* functionName, int64 basis, int64 prime) { - uint64 hash = basis; + hash_t hash = basis; uint8 c; while ((c = *functionName++) != 0) { hash ^= c; @@ -172,7 +176,7 @@ static uint64 fnv1a_hash(const char* libraryName, const char* functionName, int6 } //------------------------------------------------------------ -static uint64 murmur3_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t murmur3_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) { const uint8* key = (const uint8*)functionName; size_t len = qstrlen(key); @@ -210,12 +214,12 @@ static uint64 murmur3_HashFunc(const char* libraryName, const char* functionName h ^= h >> 13; h *= 0xc2b2ae35; h ^= h >> 16; - return h; + return HASH32to64(h); } //------------------------------------------------------------ #include -static uint64 halfMD5_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) +static hash_t halfMD5_HashFunc(const char* libraryName, const char* functionName, int64 basis, int64 prime) { uint8 hash[16]; MD5Context ctx; @@ -226,7 +230,7 @@ static uint64 halfMD5_HashFunc(const char* libraryName, const char* functionName MD5Update(&ctx, functionName, qstrlen(functionName)); #endif //IDA_SDK_VERSION < 770 MD5Final(hash, &ctx); - return *(uint64*)hash; + return *(hash_t*)hash; } //------------------------------------------------------------ @@ -234,7 +238,7 @@ struct ida_local HashFunctionInfo { const char* name; const char* hint; - uint64 (*HashFunctionPtr)(const char* libraryName, const char* functionName, int64 basis, int64 prime); + hash_t (*HashFunctionPtr)(const char* libraryName, const char* functionName, int64 basis, int64 prime); int64 basis; int64 prime; }; @@ -254,7 +258,7 @@ static const HashFunctionInfo hashers[] = { }; //------------------------------------------------------------ -std::map hashes; +std::map hashes; static ssize_t idaapi make_code_callback(va_list va) { @@ -269,8 +273,7 @@ static ssize_t idaapi make_code_callback(va_list va) continue; if ( cmdP->ops[idx].value == 0x0 ) continue; - uint64 opValue = cmdP->ops[idx].value; - + hash_t opValue = cmdP->ops[idx].value; auto it = hashes.find(opValue); if(it != hashes.end()) { msg("[hrt] %a: Found API hash for %s\n", ea, it->second.c_str()); @@ -289,12 +292,12 @@ static ssize_t idaapi make_data_callback(va_list va) (void)va_arg(va, flags64_t); (void)va_arg(va, tid_t); asize_t sz = va_arg(va, asize_t); - uint64 opValue; + hash_t opValue; switch(sz) { case 4: - opValue = get_dword(ea); + opValue = HASH32to64(get_dword(ea)); break; case 8: opValue = get_qword(ea); @@ -354,7 +357,7 @@ struct ida_local ah_visitor_t : public ctree_visitor_t virtual int idaapi visit_expr(cexpr_t *expr) { if(expr->op == cot_num && expr->n->nf.org_nbytes >= 4) { - uint64 val = expr->n->_value; //expr->numval(); !!! do not use sign extension provided by cnumber_t::value() + hash_t val = expr->numval(); if(val) { auto it = hashes.find(val); if(it != hashes.end()) { @@ -463,12 +466,12 @@ void apihashes_init() dllName = buf; bNextIsDll = false; } - uint64 hash = hashers[alg].HashFunctionPtr(dllName.c_str(), buf, basis, prime); - //msg("[hrt] %x %s\n", hash, buf); + hash_t hash = hashers[alg].HashFunctionPtr(dllName.c_str(), buf, basis, prime); + //msg("[hrt] %" FMT_64 "x %s\n", (int64)hash, buf); auto it = hashes.find(hash); if(it != hashes.end() && strcmp(it->second.c_str(), buf)) { - msg("[hrt] hash collision %" FMT_64 "x '%s' and '%s'\n", hash, it->second.c_str(), buf); + msg("[hrt] hash collision %" FMT_64 "x '%s' and '%s'\n", (int64)hash, it->second.c_str(), buf); ++collisions; } else { hashes[hash] = buf; diff --git a/src/hrtng.cpp b/src/hrtng.cpp index cbe0213..03c3b89 100644 --- a/src/hrtng.cpp +++ b/src/hrtng.cpp @@ -4412,7 +4412,7 @@ plugmod_t* addon.producer = "Sergey Belov and Milan Bohacek, Rolf Rolles, Takahiro Haruyama," \ " Karthik Selvaraj, Ali Rahbar, Ali Pezeshk, Elias Bachaalany, Markus Gaasedelen"; addon.url = "https://github.com/KasperskyLab/hrtng"; - addon.version = "1.1.10"; + addon.version = "1.1.11"; register_addon(&addon); return PLUGIN_KEEP;