/* See COPYRIGHT for copyright information. */ #include #include #include #include #include #include #include #include #include #include // Print a string to the system console. // The string is exactly 'len' characters long. // Destroys the environment on memory errors. static void sys_cputs(const char *s, size_t len) { // Check that the user has permission to read memory [s, s+len). // Destroy the environment if not. user_mem_assert(curenv, s, len, 0); // Print the string supplied by the user. cprintf("%.*s", len, s); } // Read a character from the system console without blocking. // Returns the character, or 0 if there is no input waiting. static int sys_cgetc(void) { return cons_getc(); } // Returns the current environment's envid. static envid_t sys_getenvid(void) { return curenv->env_id; } // Destroy a given environment (possibly the currently running environment). // // Returns 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. static int sys_env_destroy(envid_t envid) { int r; struct Env *e; if ((r = envid2env(envid, &e, 1)) < 0) return r; env_destroy(e); return 0; } // Deschedule current environment and pick a different one to run. static void sys_yield(void) { sched_yield(); } // Allocate a new environment. // Returns envid of new environment, or < 0 on error. Errors are: // -E_NO_FREE_ENV if no free environment is available. // -E_NO_MEM on memory exhaustion. static envid_t sys_exofork(void) { // Create the new environment with env_alloc(), from kern/env.c. // It should be left as env_alloc created it, except that // status is set to ENV_NOT_RUNNABLE, and the register set is copied // from the current environment -- but tweaked so sys_exofork // will appear to return 0. struct Env* new_env; int error_code; error_code = env_alloc(&new_env, curenv->env_id); if(error_code < 0) return error_code; new_env->env_tf = curenv->env_tf; new_env->env_tf.tf_regs.reg_eax = 0; new_env->env_status = ENV_NOT_RUNNABLE; return new_env->env_id; } // Set envid's env_status to status, which must be ENV_RUNNABLE // or ENV_NOT_RUNNABLE. // // Returns 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. // -E_INVAL if status is not a valid status for an environment. static int sys_env_set_status(envid_t envid, int status) { // Hint: Use the 'envid2env' function from kern/env.c to translate an // envid to a struct Env. // You should set envid2env's third argument to 1, which will // check whether the current environment has permission to set // envid's status. struct Env* env; int error_code; error_code = envid2env(envid, &env, 1); if(error_code < 0) return error_code; if(status != ENV_RUNNABLE && status != ENV_NOT_RUNNABLE) return -E_INVAL; env->env_status = status; return 0; } // Set envid's trap frame to 'tf'. // tf is modified to make sure that user environments always run at code // protection level 3 (CPL 3), interrupts enabled, and IOPL of 0. // // Returns 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. static int sys_env_set_trapframe(envid_t envid, struct Trapframe *tf) { // LAB 5: Your code here. // Remember to check whether the user has supplied us with a good // address! panic("sys_env_set_trapframe not implemented"); } // Set the page fault upcall for 'envid' by modifying the corresponding struct // Env's 'env_pgfault_upcall' field. When 'envid' causes a page fault, the // kernel will push a fault record onto the exception stack, then branch to // 'func'. // // Returns 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. static int sys_env_set_pgfault_upcall(envid_t envid, void *func) { struct Env* env; int return_code; if((return_code = envid2env(envid, &env, 1)) < 0) return return_code; env->env_pgfault_upcall = func; return 0; } #define SYS_CHECKPERMS(perm) \ ((((perm) & (PTE_P | PTE_U)) == (PTE_P | PTE_U)) && \ (((perm) & ~(PTE_P | PTE_U | PTE_W | PTE_AVAIL)) == 0)) #define SYS_CHECKADDR(addr) (((uintptr_t) (addr) < UTOP) && ((uintptr_t) (addr) % PGSIZE == 0)) // Allocate a page of memory and map it at 'va' with permission // 'perm' in the address space of 'envid'. // The page's contents are set to 0. // If a page is already mapped at 'va', that page is unmapped as a // side effect. // // perm -- PTE_U | PTE_P must be set, PTE_AVAIL | PTE_W may or may not be set, // but no other bits may be set. See PTE_SYSCALL in inc/mmu.h. // // Return 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. // -E_INVAL if va >= UTOP, or va is not page-aligned. // -E_INVAL if perm is inappropriate (see above). // -E_NO_MEM if there's no memory to allocate the new page, // or to allocate any necessary page tables. static int sys_page_alloc(envid_t envid, void *va, int perm) { // Hint: This function is a wrapper around page_alloc() and // page_insert() from kern/pmap.c. // Most of the new code you write should be to check the // parameters for correctness. // If page_insert() fails, remember to free the page you // allocated! struct Env* env; int return_code; if((return_code = envid2env(envid, &env, 1)) < 0) return return_code; if(!SYS_CHECKPERMS(perm)) return -E_INVAL; if(!SYS_CHECKADDR(va)) return -E_INVAL; struct PageInfo* page = page_alloc(1); if(!page) return -E_NO_MEM; if((return_code = page_insert(env->env_pgdir, page, va, perm)) < 0) { page_free(page); return return_code; } return 0; } // Map the page of memory at 'srcva' in srcenvid's address space // at 'dstva' in dstenvid's address space with permission 'perm'. // Perm has the same restrictions as in sys_page_alloc, except // that it also must not grant write access to a read-only // page. // // Return 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if srcenvid and/or dstenvid doesn't currently exist, // or the caller doesn't have permission to change one of them. // -E_INVAL if srcva >= UTOP or srcva is not page-aligned, // or dstva >= UTOP or dstva is not page-aligned. // -E_INVAL is srcva is not mapped in srcenvid's address space. // -E_INVAL if perm is inappropriate (see sys_page_alloc). // -E_INVAL if (perm & PTE_W), but srcva is read-only in srcenvid's // address space. // -E_NO_MEM if there's no memory to allocate any necessary page tables. static int sys_page_map(envid_t srcenvid, void *srcva, envid_t dstenvid, void *dstva, int perm) { // Hint: This function is a wrapper around page_lookup() and // page_insert() from kern/pmap.c. // Again, most of the new code you write should be to check the // parameters for correctness. // Use the third argument to page_lookup() to // check the current permissions on the page. struct Env *srcenv, *dstenv; pte_t* srcpte; int return_code; if((return_code = envid2env(srcenvid, &srcenv, 1)) < 0) return return_code; if((return_code = envid2env(dstenvid, &dstenv, 1)) < 0) return return_code; if(!SYS_CHECKADDR(srcva)) return -E_INVAL; if(!SYS_CHECKADDR(dstva)) return -E_INVAL; if(!SYS_CHECKPERMS(perm)) return -E_INVAL; struct PageInfo* page = page_lookup(srcenv->env_pgdir, srcva, &srcpte); if(page == NULL) return -E_INVAL; if(perm & PTE_W && !(*srcpte & PTE_W)) return -E_INVAL; if((return_code = page_insert(dstenv->env_pgdir, page, dstva, perm)) < 0) return return_code; return 0; } // Unmap the page of memory at 'va' in the address space of 'envid'. // If no page is mapped, the function silently succeeds. // // Return 0 on success, < 0 on error. Errors are: // -E_BAD_ENV if environment envid doesn't currently exist, // or the caller doesn't have permission to change envid. // -E_INVAL if va >= UTOP, or va is not page-aligned. static int sys_page_unmap(envid_t envid, void *va) { // Hint: This function is a wrapper around page_remove(). struct Env* env; int return_code; if((return_code = envid2env(envid, &env, 1)) < 0) return return_code; if(!SYS_CHECKADDR(va)) return -E_INVAL; page_remove(env->env_pgdir, va); return 0; } // Try to send 'value' to the target env 'envid'. // If srcva < UTOP, then also send page currently mapped at 'srcva', // so that receiver gets a duplicate mapping of the same page. // // The send fails with a return value of -E_IPC_NOT_RECV if the // target is not blocked, waiting for an IPC. // // The send also can fail for the other reasons listed below. // // Otherwise, the send succeeds, and the target's ipc fields are // updated as follows: // env_ipc_recving is set to 0 to block future sends; // env_ipc_from is set to the sending envid; // env_ipc_value is set to the 'value' parameter; // env_ipc_perm is set to 'perm' if a page was transferred, 0 otherwise. // The target environment is marked runnable again, returning 0 // from the paused sys_ipc_recv system call. (Hint: does the // sys_ipc_recv function ever actually return?) // // If the sender wants to send a page but the receiver isn't asking for one, // then no page mapping is transferred, but no error occurs. // The ipc only happens when no errors occur. // // Returns 0 on success, < 0 on error. // Errors are: // -E_BAD_ENV if environment envid doesn't currently exist. // (No need to check permissions.) // -E_IPC_NOT_RECV if envid is not currently blocked in sys_ipc_recv, // or another environment managed to send first. // -E_INVAL if srcva < UTOP but srcva is not page-aligned. // -E_INVAL if srcva < UTOP and perm is inappropriate // (see sys_page_alloc). // -E_INVAL if srcva < UTOP but srcva is not mapped in the caller's // address space. // -E_INVAL if (perm & PTE_W), but srcva is read-only in the // current environment's address space. // -E_NO_MEM if there's not enough memory to map srcva in envid's // address space. static int sys_ipc_try_send(envid_t envid, uint32_t value, void *srcva, unsigned perm) { struct Env* dest_env; struct Env* src_env; int return_code; if((return_code = envid2env(0, &src_env, 0)) < 0) return return_code; if((return_code = envid2env(envid, &dest_env, 0)) < 0) return return_code; if(!dest_env->env_ipc_recving) return -E_IPC_NOT_RECV; if((uintptr_t) srcva < UTOP && dest_env->env_ipc_dstva) { if(!SYS_CHECKADDR(srcva)) return -E_INVAL; if(!SYS_CHECKPERMS(perm)) return -E_INVAL; pte_t* srcpte; struct PageInfo* page = page_lookup(src_env->env_pgdir, srcva, &srcpte); if(page == NULL) return -E_INVAL; if(perm & PTE_W && !(*srcpte & PTE_W)) return -E_INVAL; page_insert(dest_env->env_pgdir, page, dest_env->env_ipc_dstva, perm); dest_env->env_ipc_perm = perm; } dest_env->env_ipc_from = src_env->env_id; dest_env->env_ipc_value = value; dest_env->env_ipc_recving = false; if(dest_env->env_status == ENV_NOT_RUNNABLE) dest_env->env_status = ENV_RUNNABLE; return 0; } // Block until a value is ready. Record that you want to receive // using the env_ipc_recving and env_ipc_dstva fields of struct Env, // mark yourself not runnable, and then give up the CPU. // // If 'dstva' is < UTOP, then you are willing to receive a page of data. // 'dstva' is the virtual address at which the sent page should be mapped. // // This function only returns on error, but the system call will eventually // return 0 on success. // Return < 0 on error. Errors are: // -E_INVAL if dstva < UTOP but dstva is not page-aligned. static int sys_ipc_recv(void *dstva) { struct Env* env; int return_code; if((return_code = envid2env(0, &env, 1)) < 0) return return_code; // LAB 4: Your code here. if((uintptr_t) dstva < UTOP) { if(!SYS_CHECKADDR(dstva)) return -E_INVAL; env->env_ipc_dstva = dstva; } env->env_ipc_recving = true; env->env_status = ENV_NOT_RUNNABLE; return 0; } // Dispatches to the correct kernel function, passing the arguments. int32_t syscall(uint32_t syscallno, uint32_t a1, uint32_t a2, uint32_t a3, uint32_t a4, uint32_t a5) { // Call the function corresponding to the 'syscallno' parameter. // Return any appropriate return value. // LAB 3: Your code here. switch (syscallno) { case SYS_cputs: sys_cputs((const char*) a1, a2); return 0; case SYS_cgetc: return sys_cgetc(); case SYS_getenvid: return sys_getenvid(); case SYS_env_destroy: return sys_env_destroy(a1); case SYS_yield: sys_yield(); return 0; case SYS_exofork: return sys_exofork(); case SYS_env_set_status: return sys_env_set_status(a1, a2); case SYS_env_set_pgfault_upcall: return sys_env_set_pgfault_upcall(a1, (void*) a2); case SYS_page_alloc: return sys_page_alloc(a1, (void*) a2, a3); case SYS_page_map: return sys_page_map(a1, (void*) a2, a3, (void*) a4, a5); case SYS_page_unmap: return sys_page_unmap(a1, (void*) a2); case SYS_ipc_try_send: return sys_ipc_try_send(a1, a2, (void*) a3, a4); case SYS_ipc_recv: return sys_ipc_recv((void*) a1); default: return -E_INVAL; } }