AcessNative - Cleaning up debug

[tpg/acess2.git] / AcessNative / ld-acess_src / elf_load.c

/*\r
 * Acess2 - AcessNative\r
 *\r
 * ELF Executable Loader Code\r
 */\r
#define DEBUG   0\r
#include <stdlib.h>\r
#include <stdio.h>\r
#include <string.h>\r
#include <unistd.h>\r
#include "common.h"\r
#include "elf32.h"\r
#include "elf64.h"\r
\r
#define DEBUG_WARN      1\r
\r
#define MKPTR(_type,_val)       ((_type*)(uintptr_t)(_val))\r
#define PTRMK(_type,_val)       MKPTR(_type,_val)\r
#define PTR(_val)       ((void*)(uintptr_t)(_val))\r
\r
#if DEBUG\r
# define ENTER(...)     printf("%s: ---- ENTER ----\n", __func__);\r
# define LOG(s, ...)    printf("%s: " s, __func__, __VA_ARGS__)\r
# define LOGS(s)        printf("%s: " s, __func__)\r
# define LEAVE(...)     printf("%s: ---- LEAVE ----\n", __func__);\r
#else\r
# define ENTER(...)\r
# define LOG(...)\r
# define LOGS(...)\r
# define LEAVE(...)\r
#endif\r
\r
// === PROTOTYPES ===\r
void    *Elf_Load(int FD);\r
void    *Elf32Load(int FD, Elf32_Ehdr *hdr);\r
void    *Elf64Load(int FD, Elf64_Ehdr *hdr);\r
\r
// === CODE ===\r
void *Elf_Load(int FD)\r
{\r
        Elf64_Ehdr      hdr;\r
        \r
        // Read ELF Header\r
        acess_read(FD, &hdr, sizeof(hdr));\r
        \r
        // Check the file type\r
        if(hdr.e_ident[0] != 0x7F || hdr.e_ident[1] != 'E' || hdr.e_ident[2] != 'L' || hdr.e_ident[3] != 'F') {\r
                Warning("Non-ELF File was passed to the ELF loader\n");\r
                return NULL;\r
        }\r
\r
        switch(hdr.e_ident[4])\r
        {\r
        case ELFCLASS32:\r
                return Elf32Load(FD, (void*)&hdr);\r
        case ELFCLASS64:\r
                return Elf64Load(FD, &hdr);\r
        default:\r
                Warning("Unknown ELF class (%i)", hdr.e_ident[4]);\r
                return NULL;\r
        }\r
}\r
\r
void *Elf32Load(int FD, Elf32_Ehdr *hdr)\r
{\r
        Elf32_Phdr      *phtab;\r
         int    i;\r
         int    iPageCount;\r
        uint32_t        max, base;\r
        uint32_t        addr;\r
        uint32_t        baseDiff = 0;\r
        \r
        ENTER("iFD", FD);\r
        \r
        // Check for a program header\r
        if(hdr->phoff == 0) {\r
                #if DEBUG_WARN\r
                Warning("ELF File does not contain a program header\n");\r
                #endif\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        \r
        // Read Program Header Table\r
        phtab = malloc( sizeof(Elf32_Phdr) * hdr->phentcount );\r
        if( !phtab ) {\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        LOG("hdr.phoff = 0x%08x\n", hdr->phoff);\r
        acess_seek(FD, hdr->phoff, ACESS_SEEK_SET);\r
        acess_read(FD, phtab, sizeof(Elf32_Phdr) * hdr->phentcount);\r
        \r
        // Count Pages\r
        iPageCount = 0;\r
        LOG("hdr.phentcount = %i\n", hdr->phentcount);\r
        for( i = 0; i < hdr->phentcount; i++ )\r
        {\r
                // Ignore Non-LOAD types\r
                if(phtab[i].Type != PT_LOAD)\r
                        continue;\r
                iPageCount += ((phtab[i].VAddr&0xFFF) + phtab[i].MemSize + 0xFFF) >> 12;\r
                LOG("phtab[%i] = {VAddr:0x%x, MemSize:0x%x}\n", i, phtab[i].VAddr, phtab[i].MemSize);\r
        }\r
        \r
        LOG("iPageCount = %i\n", iPageCount);\r
        \r
        // Allocate Information Structure\r
        //ret = malloc( sizeof(tBinary) + sizeof(tBinaryPage)*iPageCount );\r
        // Fill Info Struct\r
        //ret->Entry = hdr.entrypoint;\r
        //ret->Base = -1;               // Set Base to maximum value\r
        //ret->NumPages = iPageCount;\r
        //ret->Interpreter = NULL;\r
\r
        // Prescan for base and size\r
        max = 0;\r
        base = 0xFFFFFFFF;\r
        for( i = 0; i < hdr->phentcount; i ++)\r
        {\r
                if( phtab[i].Type != PT_LOAD )\r
                        continue;\r
                if( phtab[i].VAddr < base )\r
                        base = phtab[i].VAddr;\r
                if( phtab[i].VAddr + phtab[i].MemSize > max )\r
                        max = phtab[i].VAddr + phtab[i].MemSize;\r
        }\r
\r
        LOG("base = %08x, max = %08x\n", base, max);\r
\r
        if( base == 0 ) {\r
                // Find a nice space (47 address bits allowed)\r
                base = FindFreeRange( max, 47 );\r
                LOG("new base = %08x\n", base);\r
                if( base == 0 ) return NULL;\r
                baseDiff = base;\r
        }\r
        \r
        // Load Pages\r
        for( i = 0; i < hdr->phentcount; i++ )\r
        {\r
                // Get Interpreter Name\r
                if( phtab[i].Type == PT_INTERP )\r
                {\r
                        char *tmp;\r
                        //if(ret->Interpreter)  continue;\r
                        tmp = malloc(phtab[i].FileSize);\r
                        acess_seek(FD, phtab[i].Offset, ACESS_SEEK_SET);\r
                        acess_read(FD, tmp, phtab[i].FileSize);\r
                        //ret->Interpreter = Binary_RegInterp(tmp);\r
                        LOG("Interpreter '%s'\n", tmp);\r
                        free(tmp);\r
                        continue;\r
                }\r
                // Ignore non-LOAD types\r
                if(phtab[i].Type != PT_LOAD)    continue;\r
                \r
                LOG("phtab[%i] = PT_LOAD {Adj VAddr:0x%x, Offset:0x%x, FileSize:0x%x, MemSize:0x%x}\n",\r
                        i, phtab[i].VAddr+baseDiff, phtab[i].Offset, phtab[i].FileSize, phtab[i].MemSize);\r
                \r
                addr = phtab[i].VAddr + baseDiff;\r
\r
                if( AllocateMemory( addr, phtab[i].MemSize ) ) {\r
                        fprintf(stderr, "Elf_Load: Unable to map memory at %x (0x%x bytes)\n",\r
                                addr, phtab[i].MemSize);\r
                        free( phtab );\r
                        return NULL;\r
                }\r
                \r
                acess_seek(FD, phtab[i].Offset, ACESS_SEEK_SET);\r
                acess_read(FD, PTRMK(void, addr), phtab[i].FileSize);\r
                memset( PTRMK(char, addr) + phtab[i].FileSize, 0, phtab[i].MemSize - phtab[i].FileSize );\r
        }\r
        \r
        // Clean Up\r
        free(phtab);\r
        // Return\r
        LEAVE('p', base);\r
        return PTRMK(void, base);\r
}\r
\r
void *Elf64Load(int FD, Elf64_Ehdr *hdr)\r
{\r
        Elf64_Phdr      *phtab;\r
         int    i;\r
         int    iPageCount;\r
        uint64_t        max, base;\r
        uint64_t        addr;\r
        uint64_t        baseDiff = 0;\r
        \r
        ENTER("iFD", FD);\r
        \r
        if( sizeof(void*) == 4) {\r
                Warning("ELF64 being loaded in 32-bit env, this may not work");\r
        }\r
\r
        // Check for a program header\r
        if(hdr->e_phoff == 0) {\r
                #if DEBUG_WARN\r
                Warning("ELF File does not contain a program header\n");\r
                #endif\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        \r
        // Read Program Header Table\r
        phtab = malloc( sizeof(Elf64_Phdr) * hdr->e_phnum );\r
        if( !phtab ) {\r
                LEAVE('n');\r
                return NULL;\r
        }\r
        LOG("hdr.phoff = 0x%08llx\n", (long long)hdr->e_phoff);\r
        acess_seek(FD, hdr->e_phoff, ACESS_SEEK_SET);\r
        acess_read(FD, phtab, sizeof(Elf64_Phdr) * hdr->e_phnum);\r
        \r
        // Count Pages\r
        iPageCount = 0;\r
        LOG("hdr.phentcount = %i\n", hdr->e_phnum);\r
        for( i = 0; i < hdr->e_phnum; i++ )\r
        {\r
                // Ignore Non-LOAD types\r
                if(phtab[i].p_type != PT_LOAD)\r
                        continue;\r
                iPageCount += ((phtab[i].p_vaddr&0xFFF) + phtab[i].p_memsz + 0xFFF) >> 12;\r
                LOG("phtab[%i] = {VAddr:0x%llx, MemSize:0x%llx}\n",\r
                        i, (long long)phtab[i].p_vaddr, (long long)phtab[i].p_memsz);\r
        }\r
        \r
        LOG("iPageCount = %i\n", iPageCount);\r
        \r
        // Allocate Information Structure\r
        //ret = malloc( sizeof(tBinary) + sizeof(tBinaryPage)*iPageCount );\r
        // Fill Info Struct\r
        //ret->Entry = hdr.entrypoint;\r
        //ret->Base = -1;               // Set Base to maximum value\r
        //ret->NumPages = iPageCount;\r
        //ret->Interpreter = NULL;\r
\r
        // Prescan for base and size\r
        max = 0;\r
        base = 0xFFFFFFFF;\r
        for( i = 0; i < hdr->e_phnum; i ++)\r
        {\r
                if( phtab[i].p_type != PT_LOAD )\r
                        continue;\r
                if( phtab[i].p_vaddr < base )\r
                        base = phtab[i].p_vaddr;\r
                if( phtab[i].p_vaddr + phtab[i].p_memsz > max )\r
                        max = phtab[i].p_vaddr + phtab[i].p_memsz;\r
        }\r
\r
        LOG("base = %08lx, max = %08lx\n", base, max);\r
\r
        if( base == 0 ) {\r
                // Find a nice space (31 address bits allowed)\r
                base = FindFreeRange( max, 31 );\r
                LOG("new base = %08lx\n", base);\r
                if( base == 0 ) return NULL;\r
                baseDiff = base;\r
        }\r
        \r
        // Load Pages\r
        for( i = 0; i < hdr->e_phnum; i++ )\r
        {\r
                // Get Interpreter Name\r
                if( phtab[i].p_type == PT_INTERP )\r
                {\r
                        char *tmp;\r
                        //if(ret->Interpreter)  continue;\r
                        tmp = malloc(phtab[i].p_filesz+1);\r
                        tmp[ phtab[i].p_filesz ] = 0;\r
                        acess_seek(FD, phtab[i].p_offset, ACESS_SEEK_SET);\r
                        acess_read(FD, tmp, phtab[i].p_filesz);\r
                        //ret->Interpreter = Binary_RegInterp(tmp);\r
                        LOG("Interpreter '%s'\n", tmp);\r
                        free(tmp);\r
                        continue;\r
                }\r
                // Ignore non-LOAD types\r
                if(phtab[i].p_type != PT_LOAD)  continue;\r
                \r
                LOG("phtab[%i] = PT_LOAD {Adj VAddr:0x%llx, Offset:0x%llx, FileSize:0x%llx, MemSize:0x%llx}\n",\r
                        i,\r
                        (long long)phtab[i].p_vaddr+baseDiff, (long long)phtab[i].p_offset,\r
                        (long long)phtab[i].p_filesz, (long long)phtab[i].p_memsz\r
                        );\r
                \r
                addr = phtab[i].p_vaddr + baseDiff;\r
\r
                if( AllocateMemory( addr, phtab[i].p_memsz ) ) {\r
                        fprintf(stderr, "Elf_Load: Unable to map memory at %llx (0x%llx bytes)\n",\r
                                (long long)addr, (long long)phtab[i].p_memsz);\r
                        free( phtab );\r
                        return NULL;\r
                }\r
                \r
                acess_seek(FD, phtab[i].p_offset, ACESS_SEEK_SET);\r
                acess_read(FD, PTRMK(void, addr), phtab[i].p_filesz);\r
                memset( PTRMK(char, addr) + phtab[i].p_filesz, 0, phtab[i].p_memsz - phtab[i].p_filesz );\r
        }\r
        \r
        // Clean Up\r
        free(phtab);\r
        // Return\r
        LEAVE('p', base);\r
        return PTRMK(void, base);\r
}\r
\r